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Полезная модель относится к устройствам для упрочнения цилиндрических пружин сжатия с одновременным автоматическим измерением и контролем силы и крутящего момента, прикладываемым к упрочняемой пружине. Устройство содержит пуансон с приводом, нижнюю плиту с закрепленной на ней матрицей со сквозным центральным отверстием, на нижнем торце которой выполнен цилиндрический закрытый паз с уступом, в котором с возможностью свободного вращения установлена опорная шайба. При этом на верхнем торце матрицы посредством болтов закреплена крышка с центрирующим отверстием, предназначенным для введения через него пуансона в упрочняемую пружину, устанавливаемую в матрице с упором ее нижнего торца в упомянутую опорную шайбу. На нижнем торце опорной шайбы закреплен чувствительный элемент, выполненный в виде совмещенного датчика измерения силы и крутящего момента с возможностью подключения его выхода к измерительному входу блока управления, выполненному на основе микроконтроллера, при этом привод пуансона выполнен с возможностью его подключения к силовому выходу блока управления. Обеспечивается возможность проведения управляемых экспериментов по оптимизации технологических режимов упрочнения цилиндрических пружин сжатия. 2 ил. И 1 193635 ко РОССИЙСКАЯ ФЕДЕРАЦИЯ ВУ” 193 635” 44 ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ИЗВЕЩЕНИЯ К ПАТЕНТУ НА ПОЛЕЗНУЮ МОДЕЛЬ ММ9К Досрочное прекращение действия патента из-за неуплаты в установленный срок пошлины за поддержание патента в силе Дата прекращения действия патента: 08.06.2021 Дата внесения записи в Государственный реестр: 30.06.2022 Дата публикации и номер бюллетеня: 30.06.2022 Бюл. №19 Стр.: 1 па 94$59$6 1 ЕП

УСТРОЙСТВО ДЛЯ ЗАНЕВОЛИВАНИЯ ПРУЖИН

Полезная модель относится к производству пружин и может быть использована при изготовлении цилиндрических пружин сжатия любого назначения. Устройство содержит конструктивные элементы для установки заневоливаемых пружин и для передачи на них сжимающего усилия. Конструктивный элемент для установки заневоливаемых пружин выполнен в виде плиты со сквозными отверстиями, опирающейся на нижнюю плоскую крышку. Конструктивный элемент для передачи сжимающего усилия на заневоливаемые пружины содержит упругие элементы в количестве, равном количеству заневоливаемых пружин, и верхнюю плоскую крышку, воздействующую на упругие элементы и опирающуюся в рабочем положении на плиту со сквозными отверстиями. Обеспечивается компенсация производственных допусков на геометрические параметры пружины, упрощается конструкция и повышается надежность устройства при эксплуатации. 2 з.п. ф-лы, 1 ил. РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 194 443 U1 (51) МПК B21F 35/00 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ПОЛЕЗНОЙ МОДЕЛИ К ПАТЕНТУ (52) СПК B21F 35/00 (2019.08) (21)(22) Заявка: 2019126340, 19.08.2019 (24) Дата начала отсчета срока действия патента: (73) Патентообладатель(и): Общество с ограниченной ответственностью Управляющая компания "Алтайский завод прецизионных изделий" (RU) Дата регистрации: 11.12.2019 (45) Опубликовано: 11.12.2019 Бюл. № 35 U 1 1 9 4 4 4 3 R U (54) УСТРОЙСТВО ДЛЯ ЗАНЕВОЛИВАНИЯ ПРУЖИН (57) Реферат: Полезная модель относится к производству сжимающего усилия на заневоливаемые пружины пружин и может быть использована при содержит упругие элементы в количестве, равном изготовлении цилиндрических пружин сжатия количеству заневоливаемых пружин, и верхнюю любого назначения. Устройство содержит плоскую крышку, воздействующую на упругие конструктивные элементы для установки элементы и опирающуюся в рабочем положении заневоливаемых пружин и для передачи на них на плиту со сквозными отверстиями. сжимающего усилия. Конструктивный элемент ...

Manufacturing method for coil spring

A spring wire is subjected to a first shot peening process and a second shot peening process. In the first shot peening process, a first, shot is projected on the spring wire at a first projectile speed. High kinetic energy of the first shot produces compressive residual stress in a region ranging from the surface of the spring wire to a deep position. In the second spring wire process, a second shot is projected at a second projectile speed lower than the speed of the first shot. The kinetic energy of the second shot is lower than that of the first shot. The low kinetic energy of the second shot increases the compressive residual stress in a region near the surface of the spring wire.

Electrical connector with a canted coil spring

Electrical resistance between a male part and a female part through a canted spring is disclosed using mathematical modeling. Increase or decrease in resistance can be quickly analyzed by looking at the equivalence resistance and the number of contacts at the input side, the output side, or both. The number of contacts may also be created by forming a dimple having a discontinuity.

System for adjusting load characteristics of conical spring

A load characteristic adjustment system for use with a linear-spring forming apparatus is provided, in which the load characteristic of a conic spring can be conveniently and efficiently regulated during the formation of the spring, thereby reliving much of a physical burden of a worker to find an optimum load characteristic of a coil spring. The load characteristics adjustment system comprises: a linear material feeder for feeding a linear material; at least one spring forming tool facing the linear material feeder, adapted to abut against the linear material to coil the linear material; spiraling means for spiraling the coiled linear material; and coil-diameter varying means for varying the diameter of the coiled linear material. The load characteristic adjustment system controls the linear material feeder so as to feed the linear material at a regulated constant acceleration to adjust the load characteristic of the conical spring formed.

COIL SPRING FORMING APPARATUS AND COIL SPRING FORMED THEREBY

A coil spring forming apparatus including a core bar which rotates around an axis thereof and on which a wire material W fed from a wire material-feeding means is wound; a clamping portion which rotates integrally with the core bar and grips an end of the wire material W on the core bar ; and first guide rollers and second guide rollers for guiding the wire material W onto the core bar ; wherein the first guide rollers and the second guide rollers are provided so as to move independently from each other in parallel with the axis of the core bar , and a coil spring formed by the above coil spring forming apparatus. 1. A coil spring comprising:{'b': '1', 'a first pitch angle θ;'}{'b': '2', 'a second pitch angle θ;'}{'b': 1', '2', '2', '1, 'wherein the coil contains substantially no shifting portion where the pitch angle changes from θ to θ or from θ to θ.'}2. The coil spring according to claim 1 , wherein the pitch angles are changed a plurality of times.3. The coil spring according to claim 1 , wherein one of the pitch angles is 0.4. The coil spring according to claim 1 , wherein said spring is formed by apparatus comprising:a cylindrically shaped core bar rotating around an axis thereof;a clamping portion provided at an end of the core bar and which rotates integrally with the core bar; anda first guide portion and a second guide portion configured to be able to move independently from each other in a direction parallel with the axis of the core bar.5. A method of manufacturing the coil spring according to claim 1 , comprising:feeding a wire material between a core bar and a clamping portion through a first guide portion and a second guide portion;gripping the wire material on the core bar with the clamping portion which rotates integrally with the core bar;{'b': '1', 'rotating the core bar as the first guide portion and the second guide portion are moving at a predetermined speed toward the other end of core bar so as to maintain the first pitch angle θ;'}{'b': 1', ...

METHOD OF MAKING COMPRESSIBLE ELASTOMERIC SPRING

A method of making a compressible elastomeric spring including at least one compressible elastomeric pad enclosed by a pair of metal plates includes the steps of forming plates with a center aperture and a plurality of prongs positioned about a peripheral edge thereof, forming each end of the pad with an axial projection and abutting groove, aligning the plurality of prongs with each respective projection and respective groove and applying axial force to one end of the spring to frictionally interlock the plurality of prongs with such projection and groove. The method also provides for making a multi-tiered stack of pads separated by plates in the above described manner and pre-shortening the spring prior to installation into the conventional yoke. The above described method additionally improves axial straightness and lateral stability of the multi-tiered spring assembly. 1. (canceled)2. (canceled)3. (canceled)4. (canceled)5. (canceled)6. (canceled)7. A method of making a multi-tiered compression spring assembly including a plurality of axially disposed compressible elastomeric pads and a plurality of separator plates , said method comprising the steps of:(a) forming an axial aperture though a thickness of each of said plurality of separator plates;(b) positioning a plurality of prongs on or in close proximity to a peripheral edge of said axial aperture;(c) extending said plurality of prongs at an angle relative to a surface of said plates which is in juxtaposition to one of said plurality of compressible elastomeric pads;(d) positioning said separator plates and said plurality of compressible elastomeric pads in series with each other to form said multi-tiered compression spring assembly, wherein each separator plate is disposed between a pair of compressible elastomeric pads;(e) applying an axial force to one end of said multi-tiered compression spring assembly;(f) piercing, with said plurality of prongs and said applied force, an axial end of a respectively ...

METHOD FOR PRODUCING SPRING, AND ELECTRICAL HEATING DEVICE

A method of producing a spring which reduces time required for a heat treatment step of eliminating a machining strain generated by a forming step is provided. This production method is provided with a forming step (S) of forming a spring steel material into a spring shape and a heat treatment step (S) of eliminating a machining strain generated in the spring steel material by the forming step. The heat treatment step is executed by electrically heating the spring steel material by applying a current thereto. The heat treatment step has a first step of heating the spring steel material to a predetermined set temperature and a second step of keeping the spring steel material at the set temperature for a predetermined set time period subsequent to the first step. The set temperature is set to be higher than 430° C. but not higher than 500° C. 1. A method of producing a spring , the method comprising:a forming step of forming a spring steel material into a shape of a spring; anda heat treatment step of eliminating a machining strain generated in the spring steel material by the forming step,wherein the heat treatment step is executed by electrically heating the spring steel material by applying a current to the spring steel material, and comprises a first step of heating the spring steel material to a predetermined set temperature, and a second step of keeping the spring steel material at the set temperature for a predetermined set time period subsequent to the first step, andthe set temperature is set to be higher than 430 C but not higher than 500 C.2. The method of producing a spring according to claim 1 , wherein the set temperature is set such that time required in the first and second steps is 1 minute or less and the set time period is 5 seconds or more.3. The method of producing a spring according to claim 1 , wherein claim 1 , in the heat treatment step claim 1 , a temperature of the spring steel material is measured and an amount of the current applied to the ...

STEEL WIRE ROD FOR HIGH-STRENGTH SPRING EXCELLENT IN WIRE DRAWABILITY, MANUFACTURING METHOD THEREFOR, AND HIGH-STRENGTH SPRING

Provided are: a steel wire rod material for a high-strength spring, which does not undergo the increase in deformation resistance arising from the increase in hardness and can exhibit good wire-drawing processability and the like even when a heat treatment, which deteriorates productivity, is eliminated or a simplified and rapid heat treatment is employed instead; a useful method for producing the steel wire rod material for a high-strength spring; a high-strength spring produced using the steel wire rod material for a high-strength spring as a material; and others. This steel wire rod material for a high-strength spring is a steel wire rod material that has been hot-rolled already, and has a texture having a specified chemical composition and mainly composed of pearlite, wherein the average value (Pave) of the pearlite nodule size numbers and the standard deviation (Pσ) of the pearlite nodule size numbers fulfill the following formulae (1) and (2), respectively: 1. A steel wire rod for high-strength springs , as a steel wire rod having been hot-rolled and exhibiting excellent wire drawability , the steel wire rod comprising C in a content of 0.4% to 0.8%; Si in a content of 0.5% to 2.5%; Mn in a content of 0.3% to 2.0%; and Cr in a content of 0.4% to 3.0% and further comprising at least one element selected from the group consisting of V in a content of 0.05% to 0.5% , Nb in a content of 0.05% to 0.5% , Ni in a content of 0.1% to 2.0% , and Mo in a content of 0.1% to 0.5% , in mass percent , wherein the steel wire rod further comprises iron and inevitable impurities , the steel wire rod has a structure mainly including pearlite , the steel wire rod has an average Pave and a standard deviation Pσ of pearlite nodule size numbers , and Pave and Pσ respectively satisfy conditions specified by following Expressions (1) and (2):{'br': None, 'i': '≦P', '9.5ave≦12.0\u2003\u2003(1)'}{'br': None, 'i': '≦Pσ≦', '0.20.7\u2003\u2003(2)'}2. The steel wire rod for high-strength ...

DEVICE AND A METHOD FOR SETTING A SPRING TO A CONTROLLED EXTENT

A device and a method for controlled setting of a coil spring, enabling a coil spring to be blocked in controlled manner with a selected compression length, in particular when compression with touching turns is unfavorable. According to the invention, the device comprises a first support configured to hold the first end of the spring and a second support configured to hold the second end of the spring, the first and second supports being configured to move relative to each other; the device further comprising at least one insertable rest configured to be inserted between certain turns of the spring during compression of the spring. 1. A controlled setting device for fabricating a coil spring , the device being configured to compress said spring and to control its shape during compression , the device comprising a first support configured to hold the first end of the spring and a second support configured to hold the second end of the spring , the first and second supports being configured to move relative to each other , wherein the device further includes at least one insertable rest configured to be inserted between certain turns of the spring during compression of the spring.2. A controlled setting device according to claim 1 , wherein said at least one insertable rest is a paddle in the form of a truncated ring or a truncated disk claim 1 , this truncation being configured to allow a turn of the spring to pass through the paddle claim 1 , said paddle also preferably being substantially helical.3. A controlled setting device according to claim 1 , wherein said at least one insertable rest is in the form of a star having at least three branches for co-operating with the spring at at least three points.4. A controlled setting device according to claim 1 , wherein at least one insertable rest possesses a wedge-shaped profile in which the thickness variation is adjusted so as to impose curvature on the axis of the spring.5. A controlled setting device according to ...

POSITIONING DEVICE FOR SCANNING A SURFACE

A positioning device for scanning a surface includes a movable element; at least one spring-like element having a resilience element for providing a tunable resilience in at least one direction; wherein the spring-like element is configured to tune the resilience by applying a force onto the resilience element of the at least one spring-like element. 18-. (canceled)9. A method of setting a mechanical property of a positioning device having a movable element which is resiliently supported by at least one element , comprising applying a force to the at least one element.10. A method for operating a positioning device for scanning a surface , the positioning device having a movable element , and at least one spring-like element having a resilience element configured to provide a tunable resilience in at least one direction , wherein the spring-like element is configured to tune the resilience by applying a force onto the resilience element of the at least one spring-like element , the method comprising:driving the movable element is driven by an actuator, wherein the actuation is performed with an actuation frequency, wherein the resonant frequency of a system comprising the movable element and the at least one spring-like element in the at least one direction is tuned, by tuning the resilience of the resilience element, to adapt an oscillating behavior of the system.11. The method of claim 10 , wherein the actuation is performed with an actuation frequency being different from a resonant frequency of the system comprising of the movable element and the at least one spring-like element in the at least one direction.12. The method of claim 10 , wherein the actuation is performed such that the movable element is driven in a large-range at a frequency lower than resonance frequency of the system claim 10 , or in a short-range at a frequency higher than the resonance frequency claim 10 , by tuning the resilience of the tunable resilience element.13. The method of claim 10 ...

CANTED COIL SPRINGS WITH CONTOURED WIRE SHAPES, RELATED SYSTEMS, AND RELATED METHODS

Canted coil springs are disclosed wherein wires used to form the springs have sections with shapes that are not generally round. The different shapes are configured to increase contact surface areas by providing more surface-to-surface contacts with adjacent surfaces of a housing and a shaft over a single point contact typically found with round wires. The disclosed springs may be used with a housing and a shaft in a holding application, a latching application, a locking application, or combinations thereof. 1. A method for manufacturing a spring comprising:obtaining a wire that has at least a wire cross-section with a different shape than a generally round shape; andcoiling the wire to form a plurality of interconnected coils with each coil canting in a same direction relative to a coil axis.2. The method of claim 1 , wherein the wire has been drawn through a die to have the different shape wire cross-section.3. The method of claim 1 , wherein the different shape wire cross-section is a round shape with a flat section claim 1 , a round shape with a partially flatted section claim 1 , an elliptical shape claim 1 , a multi-point star shape claim 1 , a hexagonal shape with round corners and rounded sides claim 1 , a hexagonal shape with rounded corners claim 1 , or combinations thereof.4. The method of claim 1 , wherein the spring is an axial canted coil spring or a radial canted coil spring.5. The method of claim 1 , wherein the different shape is located on a first side edge and a second side edge of the spring.6. The method of claim 1 , wherein the wire has the different shape along an entire length of the wire.7. The method of claim 1 , further comprising placing the spring into a groove comprising two sidewalls and a bottom wall and wherein the different shape contacts the sidewalls or the bottom wall.8. The method of claim 1 , wherein the bottom wall is V-shape.9. The method of claim 7 , wherein the groove is located in a bore of a housing or an outside surface ...

High Fatigue Arcuate Spring

An arcuate spring having a plurality of coils which are configured and dimensioned to provide an arcuate shape to the spring and being substantially free of internal stresses which would tend to urge the coils into linear alignment. The spring is designed to function under load conditions while maintaining its natural arcuate shape. The spring is can be heated by use of an induction heating process. 1. An arcuate spring having a plurality of coils configured and dimensioned to provide an arcuate shape to the spring in its free state and being substantially free of internal stresses which would tend to urge said coils into linear alignment , said spring including first and second ends , said first end including an end cap connected to said first end.2. The arcuate spring as defined in claim 1 , wherein said second end including an end cap connected to said second end.3. The arcuate spring as defined in claim 1 , wherein said end cap including a base portion and a nose claim 1 , said nose designed to be at least partially inserted into an interior of said coils of said spring coils claim 1 , said base portion cross-section size and shape such that said base portion cannot be fully inserted into said interior of said spring coils.4. The arcuate spring as defined in claim 2 , wherein said end cap including a base portion and a nose claim 2 , said nose designed to be at least partially inserted into an interior of said coils of said spring coils claim 2 , said base portion cross-section size and shape such that said base portion cannot be fully inserted into said interior of said spring coils.5. The arcuate spring as defined in claim 3 , wherein said nose and said base portion of said end cap having a generally circular cross-sectional shape.6. The arcuate spring as defined in claim 4 , wherein said nose and said base portion of said end cap having a generally circular cross-sectional shape.7. The arcuate spring as defined in claim 3 , wherein said nose portion has a non ...

CORROSION-RESISTANT RESILIENT MEMBER

A resilient member including a base material and a corrosion resistant coating disposed on the base material. The base material is cold-worked subsequent to application of the coating to the base material in order to transition the base material from having a first cross-sectional area to a second cross-sectional area. The second cross-sectional area is less than the first cross-sectional area. 1. A resilient member comprising:a base material; anda corrosion resistant coating disposed on the base material;wherein the base material is cold-worked subsequent to application of the coating to the base material in order to transition the base material from having a first cross-sectional area to a second cross-sectional area, the second cross-sectional area less than the first cross-sectional area.2. The resilient member of claim 1 , wherein the first cross-sectional area is reduced about 30% to 55% to yield the second cross-sectional area.3. The resilient member of claim 1 , wherein the first cross-sectional area is defined by a first shape and the second cross-sectional area is defined by a second shape.4. The resilient member of claim 3 , wherein the first shape is circular and the second shape is polygonal.5. The resilient member of claim 1 , wherein the base material includes nickel claim 1 , cobalt claim 1 , chromium claim 1 , molybdenum claim 1 , or a combination including at least one of the foregoing.6. The resilient member of claim 5 , wherein the base material is an alloy including each of nickel claim 5 , cobalt claim 5 , chromium claim 5 , and molybdenum.7. The resilient member of claim 1 , wherein the coating is tantalum claim 1 , gold claim 1 , iridium claim 1 , niobium claim 1 , zirconium claim 1 , platinum claim 1 , or a combination including at least one of the foregoing.8. The resilient member of claim 1 , wherein the resilient member is formed as a coil spring.9. The resilient member of claim 1 , wherein the corrosion-resistant coating is applied to ...

COILING APPARATUS AND METHOD

A wire supply station comprises a container in which the wire is retained in a multitude of loops (not shown) of substantially the same diameter around a cylindrical inside surface of the drum. The wire emerges from the drum under no tension and substantially straight. It is then fed between guide or feed rollers into the coiling head 1. A coiling apparatus for forming coils from a length of wire , the apparatus comprising a coiling device for shaping wire into coils and cutting coils from the length of wire , wherein wire is provided to the coiling device from a wire supply station , and wherein the wire supply station comprises a container with wire wound around an interior thereof in a plurality of loops.2. The coiling apparatus according to claim 1 , wherein at least a majority of the loops of wire are preferably of substantially the same diameter. In a preferred arrangement claim 1 , the container is generally cylindrical.3. The coiling apparatus according to claim 1 , wherein the wire supply station is located generally vertically above or below at least a part of the coiling device.4. The coiling apparatus according to claim 1 , wherein the wire is provided to the coiling device from the wire supply station through at least one pair of input guide/feed rollers that have axes in a common claim 1 , generally horizontal plane.5. A wire supply station for supplying wire to a wire handling apparatus claim 1 , wherein the wire supply station is arranged in use to be located generally vertically above or below at least a part of the wire-handling apparatus.6. The wire supply station according to claim 5 , wherein the wire supply station comprises a container with wire wound around an interior thereof in a plurality of loops.7. The wire supply station according to claim 5 , wherein the wire supply station is arranged to supply the wire handling device with wire such that the wire passes through at least one pair of input guide/feed rollers that have axes in a common ...

METHOD OF MANUFACTURING COIL SPRING AND COIL SPRING MANUFACTURING APPARATUS

A method of manufacturing a coil spring and a coil spring manufacturing apparatus are provided that enable precise forming of a coil spring even when various kinds of wire rods are used as a wire rod. This is based on the premise that the wire material being fed out is serially pressed against a rotating roller outer circumferential surface to form the wire rod into a coil shape. Under this premise, as the wire rod is fed out, a rotating roller is rotationally driven by a rotary drive force of a servomotor such that a portion pressed against the wire rod on the rotating roller outer circumferential surface moves toward the advancing side of the wire rod. 113-. (canceled)14. A method of manufacturing a coil spring by serially pressing a wire rod being fed out against an outer circumferential surface of a rotating body serving as a coil forming tool to form the wire rod into a coil shape , whereinas the wire rod is fed out, the rotating body is rotationally driven by a rotary drive force of a rotary drive source such that a portion pressed against the wire rod on the outer circumferential surface of the rotating body moves toward the same side as the advancing side of the wire rod, and whereinwhen the rotating body is rotationally driven, a circumferential speed of the outer circumferential surface of the rotating body is set close to a feed speed of the wire rod by using the feed speed of the wire rod as a target value.15. The method of manufacturing a coil spring according to claim 14 , whereina wire rod having a predetermined diameter less than 0.3 mm is used as the wire rod being fed out.16. The method of manufacturing a coil spring according to claim 14 , whereina shaft-shaped pitch processing tool is provided, wherein when the wire rod is formed into a coil shape, the pitch processing tool is pressed against the wire rod to displace the wire rod in an axial direction of the coil spring to be formed for performing pitch processing, and whereinas the wire rod is ...

ISOLATING DECOUPLER

An isolator decoupler comprising a shaft (), a pulley () journalled to the shaft, a torsion spring () engaged between the pulley and a carrier (), the torsion spring loaded in an unwinding direction, a wrap spring () engaged between the carrier and the shaft, the wrap spring comprising a cylindrical inner portion () and a planar outer portion () connected by a tapered portion (), and the inner portion frictionally engaged with the shaft in a winding direction.

Method For Manufacturing An Innerspring Unit

In order to manufacture an innerspring unit comprising pocketed springs and having an increased stability at its edge regions, in a first step, an innerspring main body comprising a plurality of first strings of pocketed springs is provided. In a subsequent second step, at least one second string of pocketed springs is attached to a lateral surface of the innerspring main body, so that the at least one second string of pocketed springs extends in a longitudinal direction of the innerspring main body. The springs of the at least one second string of pocketed springs have a spring characteristic or a spring geometry different from the springs of the plurality of first strings of the innerspring main body. The at least one second string of pocketed springs forms together with the innerspring main body the innerspring unit. 1. A method for manufacturing an innerspring unit comprising pocketed springs , the method comprising the steps of(a) providing an innerspring main body comprising a plurality of first strings of pocketed springs; and(b) attaching at least one second string of pocketed springs to a lateral surface of the innerspring main body, so that the at least one second string of pocketed springs extends in a longitudinal direction of the innerspring main body, wherein the springs of the at least one second string of pocketed springs have a spring characteristic or a spring geometry different from the springs of the plurality of first strings of the innerspring main body, the at least one second string of pocketed springs forming together with the innerspring main body the innerspring unit.2. The method of claim 1 , wherein step (a) comprises providing the innerspring main body with at least one third string of pocketed springs at a first longitudinal end of the innerspring main body and with at least one fourth string of pocketed springs at a second longitudinal end of the innerspring main body claim 1 ,wherein the springs of the at least one third string of ...

Electrical dust filter manufacturing method and electrical dust filter manufactured thereby

Provided is an electrical dust-collecting filter manufacturing method and an electrical dust-collecting filter. The method includes the steps of: preparing a frame body, a dust-collecting electrode, a discharge electrode, and a discharge frame; assembling the dust-collecting electrode into an assembly hole of the frame body; connecting the discharge frame to the frame body via an insulating member; and arranging the discharge electrode in an axial direction inside the dust-collecting electrode via the discharge frame and fixing the same. The dust-collecting electrode assembling step includes: temporarily elastically deforming the dust-collecting electrode in the radial direction and inserting the same into the assembly hole of the frame body; and pressurizing end parts of both ends of the dust collecting electrode, which protrude out of a plate member when fitted into the assembly hole, in the axial direction such that the end parts are compressed against the surface of the plate member.

Coil Spring Winding Apparatus and Method of Winding A Coil Spring

A coil spring winding apparatus () comprises a stator and a rotor () which is supported on the stator so as to be rotatable about a rotation axis (). The rotation axis () extends along a spring axis of a coil spring wound by the coil spring winding apparatus. At least one winding tool () is supported on the rotor () so as to rotate about the rotation axis () of the rotor () upon rotation of the rotor (). The at least one winding tool () is configured to bend a wire () to form the coil spring upon rotation of the rotor (). The at least one winding tool () is adjustable relative to the rotor (). 19-. (canceled)11. The coil spring winding apparatus according to claim 10 ,wherein the first adjustment mechanism comprises a slider, the motor of the first adjustment mechanism being configured to effect a displacement of the slider in a direction parallel to the rotation axis of the rotor to adjust the first winding tool relative to the rotor.12. The coil spring winding apparatus according to claim 10 , further comprising:a second adjustment mechanism configured to adjust at least one of a position or an orientation of a second winding tool of the at least one winding tool relative to the rotor.13. The coil spring winding apparatus according to claim 12 ,wherein the first adjustment mechanism is configured to adjust the first winding tool relative to the rotor in a direction transverse to the rotation axis, andwherein the second adjustment mechanism is configured to adjust the second winding tool relative to the rotor in a direction parallel to the rotation axis.14. The coil spring winding apparatus according to claim 10 ,wherein the control device is configured to control a feed of the wire as a function of the variation in pitch and/or diameter in a time-dependent manner.15. The coil spring winding apparatus according to claim 14 ,wherein the control device is configured to compute the feed of the wire as a function of the variation in pitch and/or diameter such that the ...

SPRING MANUFACTURING MACHINE WITH SELECTABLE CONFIGURATION FOR PROCESSING TOOLS

The present invention provides a spring manufacturing machine including a wire guide member configured to guide a wire along a conveying direction to a first base point or a second base point for forming a spring, and a pair of movable assemblies configured to allow the second base point to be located between the first base point and the pair of movable assemblies. Each of the movable assemblies comprises a mounting platform configured to move close to or away from the first base point or the second base point along the conveying direction. Each mounting platform has a recess, and two mounting platforms are adjacent to each other to allow their respective recesses to surround the second base point, so that the movement of the mounting platforms do not to interfere with operation at the second base point. 1. A spring manufacturing machine with a mounting surface for mounting processing tools , comprising:a wire guide member configured for guiding a wire along a conveying direction to a first base point or a second base point above the mounting surface for forming the spring; anda pair of movable assemblies mounted on the mounting surface so that the second point position is located between the first base point and the pair of movable assemblies, each of the pair of movable assemblies including a mounting platform configured to move toward and away from the first base point and the second base point along the conveying direction;characterized in that: each of the pair of movable assemblies has a recess, and the pair of movable assemblies are disposed side by side so that the second base point is surrounded by the respect recess, causing the pair of movable assemblies moves without interfering with operations at the second base point.2. The spring manufacturing machine as claimed in claim 1 , wherein the first base point and the second base point are aligned with the conveying direction without overlap.3. The spring manufacturing machine as claimed in claim 1 , wherein ...

CANTED COIL SPRINGS AND ASSEMBLIES AND RELATED METHODS

Canted coil spring rings each with a first plurality of coils having first coil major and minor axes; a second plurality of coils each having second coil major and minor axes; the coils of the first plurality of coils alternating with the coils of the second plurality of coils according to an alternating pattern. The spring rings having inner and outer perimeters and wherein the inner perimeter of the spring ring is defined by at least said first plurality of coils. The resulting configuration of the spring ring has improved spacing along the inner perimeter, among others, with respect to a similar canted coil spring ring having a constant coil cross section, such as a coil length with all similar coils. 120-. (canceled)21. A method of forming a canted coil spring ring , said method comprising the steps: forming a first plurality of coils each having a first coil major axis, a first coil minor axis and a coil center defined by the intersection of said first coil major and minor axes; the plurality of coil centers resulting from said first plurality of coils defining a first centerline;', 'canting each coil of said first plurality of coils along said first centerline;', 'forming a second plurality of coils each having a second coil major axis, a second coil minor axis and a coil center defined by the intersection of said second coil major and minor axes; the plurality of coil centers resulting from said second plurality of coils defining a second centerline;', 'canting each coil of said second plurality of coils along said second centerline;', 'wherein the spring ring comprises an inner perimeter and an outer perimeter with the inner perimeter defined by said first plurality of coils only and the coils of said first plurality of coils and said second plurality of coils are alternated according to an alternating pattern; and, 'forming a spring length having a plurality of coils and a spring length with two ends and joining the two ends to form a spring ring, wherein ...

WIRE FORMING DEVICE

A wire forming device, comprising: a base seat and four wire forming units. The base seat is provided with a wire output port at its center. The four wire forming units are disposed respectively on four corners of the base seat, and each provided with a movable plate. A plurality of tool seats are located in parallel and disposed at a front end of the upper plate, while an up-down driver is disposed at a rear end of the upper plate. A left-right driver is disposed on back side of the base seat and on back side of each lower plate. As such, through using the up-down driver and the left-right driver, the movable plate can be made to move upward, downward, left, and right in two dimensions, to bring the forming tool of tool seat at front end of the movable plate into action. 1. A wire forming device , comprising:a base seat, provided with a wire output port at its center, used to output a wire; andfour wire forming units, disposed respectively on four corners of the base seat, and each having a movable plate, each movable plate having a lower plate being able to move to left and right on the base seat, and having an upper plate disposed on a top surface of the lower plate, and being able to move upward and downward on the top surface of the lower plate, a plurality of tool seats located in parallel and disposed at a front end of the upper plate, an up-down driver disposed at a rear end of the upper plate, so that up-down driver drives the upper plate to move upward and downward on the lower plate, a left-right driver disposed on a back side of the base seat and on a back side of each lower plate, so that the left-right driver drives the upper plate and the lower plate to move to left and right at the same time on the base seat;wherein, through using the up-down driver and the left-right driver, the upper plate and the lower plate are driven to move separately up and down, left and right in 2-dimensional movements, hereby bringing a forming tool of the tool seat to ...

WIRE FORMING APPARATUS

A wire forming apparatus which feeds out a wire to a formation space at a distal end of a wire guide () and works the wire into a desired shape by using radially arranged tools (T-T) includes a wire feeder () which supports the wire guide () and feeds out the wire to the wire guide (), tool rotating means (), from which the tool (T-T) is detachable, for changing a position of the tool (T-T) relative to the wire guide () by rotation, tool driving means (), rotatably supported by the tool rotating means (), for applying a driving force to the tool (T-T) attached to the tool rotating means (), a table () which supports the tool rotating means () and the tool driving means () and is configured to move in a two-dimensional direction, and control means () for controlling operations of the wire feeder (), the tool rotating means (), the tool driving means (), and the table () to work the wire into a desired shape. 1. A wire forming apparatus which feeds out a wire to a formation space at a distal end of a wire guide and works the wire into a desired shape by using radially arranged tools , comprising:a wire feeder which supports the wire guide and feeds out the wire to the wire guide;tool rotating means, from which the tool is detachable, for changing a position of the tool relative to the wire guide by rotation;tool driving means, rotatably supported by the tool rotating means, for applying a driving force to the tool attached to the tool rotating means;a table which supports the tool rotating means and the tool driving means and is configured to move in a two-dimensional direction; andcontrol means for controlling operations of the wire feeder, the tool rotating means, the tool driving means, and the table to work the wire into a desired shape.2. The wire forming apparatus according to claim 1 , wherein the tool rotating means comprises a disk-like hollow member having a gear formed on an outer circumference thereof claim 1 , andthe tool driving means comprises a ring ...

Heat Treatment of Helical Springs or Similarly Shaped Articles by Electric Resistance Heating

Apparatus is provided for metallurgical heat treatment of coil springs, or similarly shaped workpieces and articles of manufacture, by electric resistance heating along the entire length of the workpiece so that the ends of the workpiece can be heat treated to the same degree and quality as the section of the workpiece between its two ends.

DEVICE FOR MANUFACTURING COIL SPRING AND METHOD FOR MANUFACTURING COIL SPRING

The coil spring manufacturing device includes a first continuous material mounting portion, a second continuous material mounting portion, a straightener, a cutter, a short material mounting portion, and a coiling machine. The material reeled out from a first continuous material or a second continuous material is cut by the cutter. The coil spring manufacturing device can switch a process among a first continuous material coiling process of manufacturing a coil spring by using the first continuous material, a second continuous material coiling process of manufacturing a coil spring by using the second continuous material, and a short material coiling process of manufacturing a coil spring by using the short material. 1. A coil spring manufacturing device comprising:a coiling machine;a continuous material feed portion which supplies a material reeled out from a continuous material wound like a hoop to the coiling machine;a straightener which is disposed between the continuous material feed portion and the coiling machine, and is configured to correct the material reeled out from the continuous material to be straight;a cutter which is disposed at a downstream side of a movement direction of the material with respect to the straightener, and is configured to cut the material;a short material mounting portion on which a short material cut to a predetermined length is mounted; andguide means for supplying the material reeled out from the continuous material feed portion or the short material taken out from the short material mounting portion to the coiling machine.2. The coil spring manufacturing device of claim 1 , wherein the continuous material feed portion includes a first continuous material mounting portion on which a first continuous material composed of the material wound like a hoop is mounted claim 1 , and a second continuous material mounting portion on which a second continuous material composed of the material wound like a hoop is mounted.3. The coil spring ...

METHOD AND APPARATUS FOR MANUFACTURING AN INNERSPRING UNIT AND CORRESPONDING INNERSPRING UNIT

In order to manufacture an innerspring unit () comprising pocketed springs and having an increased stability at its edge regions, in a first step, an innerspring main body () comprising a plurality of first strings () of pocketed springs is provided. In a subsequent second step, at least one second string () of pocketed springs is attached to a lateral surface of the innerspring main body (), so that the at least one second string () of pocketed springs extends in a longitudinal direction of the innerspring main body (). The springs () of the at least one second string () of pocketed springs have a spring characteristic or a spring geometry different from the springs of the plurality of first strings of the innerspring main body (). The at least one second string () of pocketed springs forms together with the innerspring main body () the innerspring unit (). 128-. (canceled)29. A method for manufacturing an innerspring unit comprising pocketed springs , the method comprising the steps of(a) providing an innerspring main body comprising a plurality of first strings of pocketed springs; and(b) attaching at least one second string of pocketed springs to a lateral surface of the innerspring main body, so that the at least one second string of pocketed springs extends in a longitudinal direction of the innerspring main body, wherein the springs of the at least one second string of pocketed springs have a spring characteristic or a spring geometry different from the springs of the plurality of first strings of the innerspring main body, the at least one second string of pocketed springs forming together with the innerspring main body the innerspring unit.30. The method of claim 29 ,wherein step (a) comprises providing the innerspring main body with at least one third string of pocketed springs at a first longitudinal end of the innerspring main body and with at least one fourth string of pocketed springs at a second longitudinal end of the innerspring main body,wherein ...

Servo-rotating all-function tool module for use with spring forming machine

A servo-rotating all-function tool module is provided for use with a spring forming machine and includes an axle rotating tool module and a servo transmission module assembly. The axle rotating tool module is rotatably mounted, in combination with an axle of the rotary axle assembly of the spring forming machine, to a front wall board and includes an oscillating base and a tool. The oscillating base is rotatably mounted to the rotary axle assembly. The tool is mounted to an end of the oscillating base. The servo transmission module assembly is mounted to the spring forming machine and includes a servo moving ring circumferentially surrounding the oscillating base for driving the oscillating base to oscillate in all directions to thereby cause the tool to press down or lift upward.

Servo-rotating all-function tool module for use with spring forming machine

A servo-rotating all-function tool module is provided for use with a spring forming machine and includes an axle rotating tool module that is mounted, together with an axle, to a front wall board and includes a tool and an axle slide base mounted to the axle, so that the axle slide base is acted upon by a force to slide along the axle, the tool is caused to press downward or return upward. A servo transmission module assembly is mounted to the spring forming machine to provide a driving force for causing the axle slide base to slide along the axle. Since the tool module is mounted, together with the axle, to a front wall board of the spring forming machine, the direction in which the tool approaches a wire can be varied by rotating the axle in order to conduct operations of bending at different angles and twisting/looping.

PLASTIC DEFORMATION METHOD OF TIGHTLY WOUND COIL SPRING

A plastic deformation method of a tightly wound coil spring includes a regulating process and a plastic deformation process. In the regulating process, a tightly wound coil spring is inserted into a pipe, and deformation of the tightly wound coil spring in a tightly wound coil spring radial direction is regulated by the pipe. In the plastic deformation process, a compression force is applied to the tightly wound coil spring inserted into the pipe from one end or both ends in a tightly wound coil spring axial direction. Then, a rod is inserted into the pipe from a left-end opening portion of the pipe, and the compression force is applied to the tightly wound coil spring by a pressing force of the rod. 1. A plastic deformation method of a tightly wound coil spring disposed inside an endoscope insertion portion , comprising:a regulating step of regulating deformation of the tightly wound coil spring in a coil spring radial direction; anda plastic deformation step of plastically deforming the tightly wound coil spring by applying a compression force in a coil spring axial direction to the tightly wound coil spring in a state where deformation of the tightly wound coil spring in the coil spring radial direction is regulated.2. The plastic deformation method of a tightly wound coil spring according to claim 1 , whereinin the regulating step, the tightly wound coil spring is inserted into a cylindrical body, and the deformation of the tightly wound coil spring in the coil spring radial direction is regulated by the cylindrical body.3. The plastic deformation method of a tightly wound coil spring according to claim 2 , whereina length of the cylindrical body in a cylindrical body axial direction is configured to be longer than a length of the tightly wound coil spring in the coil spring axial direction before the compression force is applied; andin the plastic deformation step, the compression force is applied to the tightly wound coil spring inserted into the cylindrical ...

METHOD OF PRODUCING COIL SPRING

A method of producing a coil spring including a part of high hardness and a softening part of lower hardness than the part, the method including: a step of heating a wire rod; a step of forming the wire rod heated into a spiral shape; a step of quenching and tempering the wire rod spirally formed; and a step of carrying out electrical heating to a part that is the softening part on the wire rod quenched and tempered, with a pair of electrodes applied to both faces of the softening part. 112-. (canceled)13. A method of producing a coil spring comprising: including a part of high hardness; and a softening part of lower hardness than the part , the method comprising: a step of forming the wire rod heated into a spiral shape;', 'a step of quenching and tempering the wire rod spirally formed; and, 'a step of heating a wire rod;'}a step of carrying out electrical heating to a part that is the softening part on the wire rod quenched and tempered, with a pair of electrodes applied to both faces of the softening part. This application is a continuation of U.S. patent application Ser. No. 15/562,793, filed Sep. 28, 2017, which was a US national phase of International Application No. PCT/JP2016/058270, filed Mar. 16, 2016, which claims priority to Japanese Application No. 2015-072496, filed Mar. 31, 2015. The priority applications, U.S. Ser. No. 15/562,793, PCT/JP2016/058270, and JP 2015-072496, are hereby incorporated by reference.1 The present invention relates to method of producing a coil spring.In conventional art, a compression spring such as a coil spring that is used in a vehicle or the like has required increasing hardness thereof from the viewpoint of weight saving thereof and improvement in durability thereof. In view of this, increasing the hardness of the compression spring has generally been carried out.Patent Literature 1: Japanese Unexamined Patent Application Publication No. 2010-255759Incidentally, when the hardness of a compression spring is increased, there ...

Method for fabrication of a timepiece balance spring

Method for fabrication of an antiferromagnetic and temperature compensated timepiece balance spring, including the steps of: selecting an amagnetic iron-chromium-nickel-manganese-beryllium compensating alloy, comprising, by mass percent, between and including: from 21.0% to 25.0% of manganese, from 9.0% to 13.0% of nickel, from 6.0% to 15.0% of chromium, from 0.2% to 2.0% of beryllium, the remainder iron, the total of nickel and manganese being higher than or equal to 33.0%, working the alloy to obtain a blank, shaping the blank by casting and/or forging and/or wire drawing and/or rolling and/or drawing, to obtain a blank of spring wire; winding the wire on a winder to obtain a balance spring, subjecting the spiral spring to at least a heat setting treatment, by annealing at a temperature comprised between 540° C. and 650° C., for a duration of 30 to 200 minutes, to obtain a balance spring.

WIRED MATERIAL FOR CANTED COIL SPRING, CANTED COIL SPRING, AND MANUFACTURING METHODS THEREFOR

A wire material for a canted coil spring includes a core wire made of steel with a pearlite structure and a plating layer covering a surface of the core wire and made of copper or a copper alloy. The steel constituting the core wire contains 0.5% to 1.0% by mass of carbon, 0.1% to 2.5% by mass of silicon, and 0.3% to 0.9% by mass of manganese, with the balance being iron and unavoidable impurities. 1. A wire material for a canted coil spring comprising:a core wire made of steel with a pearlite structure; anda plating layer covering a surface of the core wire and made of copper or a copper alloy,wherein the steel contains 0.5% to 1.0% by mass of carbon, 0.1% to 2.5% by mass of silicon, and 0.3% to 0.9% by mass of manganese, with the balance being iron and unavoidable impurities.2. The wire material for a canted coil spring according to claim 1 , wherein the steel further contains at least one element selected from the group consisting of 0.1% to 0.4% by mass of nickel claim 1 , 0.1% to 1.8% by mass of chromium claim 1 , 0.1% to 0.4% by mass of molybdenum claim 1 , and 0.05% to 0.3% by mass of vanadium.3. The wire material for a canted coil spring according to claim 1 , wherein the silicon content in the steel is 1.35% to 2.3% by mass.4. The wire material for a canted coil spring according to claim 1 , wherein the steel contains 0.6% to 1.0% by mass of carbon claim 1 , 0.12% to 0.32% by mass of silicon claim 1 , and 0.3% to 0.9% by mass of manganese claim 1 , with the balance being iron and unavoidable impurities.5. The wire material for a canted coil spring according to claim 1 , wherein the steel contains 0.6% to 1.0% by mass of carbon claim 1 , 0.7% to 1.0% by mass of silicon claim 1 , and 0.3% to 0.9% by mass of manganese claim 1 , with the balance being iron and unavoidable impurities.6. The wire material for a canted coil spring according to claim 2 , wherein the steel contains 0.55% to 0.7% by mass of carbon claim 2 , 1.35% to 2.3% by mass of silicon claim 2 , ...

APPARATUS AND METHOD FOR FORMING SPRINGS

A spring forming apparatus is shown generally at in which metal wire is fed from a supply (not shown) by feed rollers via irregularity-effecting rollers to a forming station The forming station comprises a first deflector and a second deflector When the spring S is complete, it separates automatically from the rest of the wire due to the presence of an irregularity , without the need for a cutter device. 1. A method of manufacturing a spring from a spring medium , the method comprising effecting an irregularity in a portion of the spring medium and thereafter deflecting the spring medium to cause it to form a spring , whereby the deflecting is arranged to cause a separation in the spring medium at the location of the irregularity.2. A method according to claim 1 , wherein the method comprises feeding the spring medium from a supply to a spring forming apparatus.3. A method according to claim 1 , wherein the method comprises effecting an irregularity in the spring medium which includes at least one partial cut claim 1 , indent claim 1 , nick claim 1 , depression claim 1 , deformity or weakness in the spring medium.4. A method according to claim 1 , wherein the method comprises effecting the irregularity in the spring medium using one or more rollers.5. A method according to claim 1 , wherein the irregularity is formed without halting the motion of the spring medium.6. A method according to claim 1 , wherein the irregularity is formed without slowing the motion of the spring medium.7. Apparatus for manufacturing a spring from a spring medium claim 1 , the apparatus comprising a feed device for feeding the spring medium and a spring forming device for forming a spring by deflecting the spring medium claim 1 , wherein deflection by the spring forming device is arranged in use to create a separation in the spring medium at the location of a previously formed irregularity.8. Apparatus according to claim 7 , wherein the apparatus further comprises an irregularity forming ...

FEEDBACK-BASED SYSTEM FOR BENDING WIRE AND FORMING SPRINGS

Feedback-based systems and methods for bending wire are provided. The systems and methods may allow for modification of wire bending based on feedback received from one or more feedback-generating elements (e.g., image-capturing device(s), computer processing device(s), vision systems, etc.) used for monitoring one or more characteristics of a wire (e.g., shape, size, dimension, angular configuration, etc.) to determine, and provide to various wire-bending components of the system, appropriate modifications to the wire-bending process. Modifications to the wire-bending process may occur in real time without stopping the wire-bending process. Furthermore, a wire may be bent into a sinusoidal wire structure for forming springs for use in various applications. 1. A feedback-based system for bending wire , the system comprising:a wire-bending mechanism configured to bend a wire using continuous oscillation of a wire-bending element to produce a sinusoidal wire structure;a wire-cutting mechanism configured to cut the sinusoidal wire structure into a plurality of sections; and detect a characteristic of the sinusoidal wire structure,', 'determine if the characteristic is within selected limits, and', 'provide an instruction to the wire-bending mechanism to modify the bending of the wire when the characteristic is not within the selected limits in order to modify the characteristic., 'a wire-monitoring component configured to2. The system of claim 1 , wherein the wire-bending mechanism further comprises:a pair of forming pins coupled to the wire-bending element, each one of the pair of forming pins comprising a tapered profile;a rotational actuator coupled to the wire-bending element for providing the oscillation; anda retainer tool configured to move between a first position for bracing the wire and a second position for releasing the wire during formation of the sinusoidal wire structure.3. The system of claim 2 , further comprising:a wire pre-tensioning device ...

Wire Forming Apparatus for Electric Machine Winding

A wire forming apparatus comprises a first rack moveable relative to a second rack in a first direction, a plurality of first forming structures provided on the first rack, and a plurality of second forming structures provided on the second rack. Each of the plurality of first forming structures is configured to move in the first direction, is separated from an adjacent first forming structure, and is configured to move in a second direction closer to the adjacent first forming structure when the first rack moves relative to the second rack. Each of the plurality of second forming structures is configured to move in the first direction, is separated from an adjacent second forming structure, and is configured to move in the second direction closer to the adjacent second forming structure when the first rack moves relative to the second rack. The second direction is different from the first direction. 1. A wire forming apparatus comprising:a rack moveable in a first direction from a first position to a second position;a plurality of first forming structures mounted on the rack, each of the plurality of first forming structures separated from an adjacent first forming structure, and each of the plurality of first forming structures configured to move along to the rack in a second direction closer to the adjacent first forming structure when the rack moves in the first direction, wherein the second direction is different from the first direction; anda plurality of second forming structures mounted separate from the rack, each of the plurality of second forming structures separated from an adjacent second forming structure, and each of the plurality of second forming structures configured to move in the second direction closer to the adjacent second forming structure when the rack moves in the first direction.2. The wire forming apparatus of wherein the first direction is along a first axis claim 1 , wherein the second direction is along a second axis claim 1 , and ...

WIRE SHAPING APPARATUS AND METHOD OF SHAPING A WIRE

Apparatus for forming wire components, which are in this example springs, comprises a supply station (), for supplying spring forming material, such as metallic wire W. The supply station includes a pair of guide rollers () and pair of driven feed rollers (), mounted on a heavy support plate (). The wire is fed through a flexible sheath FS to a remotely located wire shaping device, in particular a spring forming device , comprising forming tools (), a pitch control tool () and a cutter (). The forming tools () and the pitch control tool () form the wire into a spring S, which is cut from the supply of wire when it is complete. The tools () and cutter () are controlled remotely from a control station () via a bundle of flexible control cables (), which may include a power cable. The spring forming device is mounted on a positioning member (), such as a robot arm or moveable table, configured for three-dimensional movement, and/or optionally adjustments in inclination. Without the heavy plate () and rollers (), the spring forming device () is sufficiently light in weight and compact as to be moved by the positioning member () to a location in which springs are to be used, thereby avoiding the need for transportation apparatus to convey the springs from the place where they are formed to the place where they are to be used. 1. A wire shaping apparatus , the apparatus comprising a supply station for supplying a length of wire to a forming device , the forming device including one or more tools for shaping a portion of the wire and cutting it from the length of wire , and wherein the forming device is arranged for movement independently of the supply station.2. A wire shaping apparatus , the apparatus comprising a supply station for supplying a length of wire to a forming device , the forming device including one or more tools for shaping a portion of wire and cutting it from the length of wire , and wherein the forming device is arranged for movement independently of a ...

SERVO-ROTATING ALL-FUNCTION TOOL MODULE FOR USE WITH SPRING FORMING MACHINE

A servo-rotating all-function tool module is provided for use with a spring forming machine and includes an axle rotating tool module and a servo transmission module assembly. The axle rotating tool module is mounted to the axle and includes an axle slide base and a tool, so that the axle slide base is acted upon by a force to slide along the axle, the tool is caused to press downward or return upward. The servo transmission module assembly is mounted to the spring forming machine to provide a driving force for causing the axle slide base to slide along the axle. Since the tool module is mounted to an axle mounted to a front wall board of the spring forming machine, the direction in which the tool approaches a wire can be varied by rotating the axle in order to conduct operations of bending at different angles and twisting/looping. 1. A servo-rotating all-function tool module , which is adapted to be mounted to a spring forming machine to serve as an all-direction forming tool of the spring forming machine , wherein the spring forming machine comprises a front wall board , a rotatable retention seat rotatably mounted to the front wall board , and an axle mounted to the rotatable retention seat , the tool module comprising:an axle rotating tool module, which is mounted to the axle and comprises an axle slide base and a tool, such that the axle slide base is operable to slide along the axle upon receiving a driving force acting thereon so as to cause the tool to undergo a downward pressing or upward returning operation; anda servo transmission module assembly, which is mounted to the spring forming machine to provide the driving force for driving the axle slide base to slide along the axle.2. The servo-rotating all-function tool module according to claim 1 , wherein the rotatable retention seat comprises an inner cam track and the axle rotating tool module comprises:the axle slide base, which comprises a slide base hole corresponding to the axle and an opening so as ...

SELECTING DEVICE FOR A SPRINGS FORMING MACHINE, AND SPRINGS FORMING MACHINE PROVIDED WITH SUCH SELECTING DEVICE

The present invention relates to a selecting device to be disposed downstream of a springs forming device of a springs forming machine. The selecting device may include an inlet adapted to receive springs formed in the springs forming device, outlets adapted to eject each of the springs from the selecting device, means for selectively conveying each of the springs entering the selecting device through the inlet towards the outlets, and means to form conduits to connect the inlet to the outlets. The selecting device may include means for generating a depression in at least one of the conduits and means for generating a compressed air flow directly inside the selecting device at one of the conduits. 1. A selecting device destined to be disposed downstream of a springs forming device of a springs forming machine , the selecting device comprising:an inlet adapted to receive each of the springs formed in the springs forming device;at least one first and one second outlets adapted to expel each of said springs from the selecting device, for separating them in at least one first and one second groups;means for selectively conveying each of said springs entering the selecting device through the inlet towards the first or second outlet, configurable according to at least one first configuration, wherein said selective conveying means form a first conduit connecting the inlet to the first outlet, and a second configuration, wherein said selective conveying means form a second conduit connecting the inlet to the second outlet,means configured for making a depression in at least one of said first and second conduits, andmeans for generating a compressed air flow directly inside the selecting device at at least one of said first and second conduits.2. The selecting device according to claim 1 , comprising first means for generating a compressed air flow at the inlet from the outside of the latter.3. The selecting device according to claim 3 , wherein said first means for ...

SYSTEM FOR MANUFACTURING STRING OF POCKETED COIL SPRINGS

A system for manufacturing a string of pocketed coil springs comprising: a coil-forming subsystem that produces two coil springs; a spring transporter subsystem that receives the two coil springs at a first position and conveys the two coil springs to a second position; a spring compressor subsystem that compresses the two coil springs; a fabric-folding subsystem that receives a piece of fabric and folds the fabric to create an open side; a spring inserter subsystem that receives the two compressed coil springs and inserts the two compressed coil springs between top and bottom surfaces of a folded piece of fabric; two welder subsystems that form first and second welds between top and bottom surfaces of the folded piece of fabric, the first welds and the second welds forming a plurality of pockets in the fabric, each of the plurality of pockets comprising a compressed coil spring. 112.-. (canceled)13. A spring inserter system comprising:a rotating member comprising a plurality of sides; andat least one aperture disposed on each of the plurality of sides, each of the apertures configured to receive coil springs compressed along longitudinal axes of the springs, the plurality of apertures configured to provide a force to a received coil spring sufficient to maintain a compressed state of the coil spring when the coil is positioned within the aperture, wherein the spring inserter system is configured to rotate the rotating member from a first position, at which a coil spring is received into a first aperture, to a second position such that the coil spring received into the first aperture can be ejected from the aperture.14. The system of claim 13 , wherein the first position is an input position and the second position is an output position.15. The system of claim 14 , wherein the second position is approximately 270° from the first position.16. The system of claim 13 , wherein each of the apertures has a height having a height dimension and a width having a width ...

SYSTEM FOR MANUFACTURING STRING OF POCKETED COIL SPRINGS

A system for manufacturing a string of pocketed coil springs comprising: a coil-forming subsystem that produces two coil springs; a spring transporter subsystem that receives the two coil springs at a first position and conveys the two coil springs to a second position; a spring compressor subsystem that compresses the two coil springs; a fabric-folding subsystem that receives a piece of fabric and folds the fabric to create an open side; a spring inserter subsystem that receives the two compressed coil springs and inserts the two compressed coil springs between top and bottom surfaces of a folded piece of fabric; two welder subsystems that form first and second welds between top and bottom surfaces of the folded piece of fabric, the first welds and the second welds forming a plurality of pockets in the fabric, each of the plurality of pockets comprising a compressed coil spring. 121.-. (canceled)22. A spring expander system for causing a plurality of compressed spring coils to deploy to a decompressed state , wherein each of the plurality of compressed spring coils are disposed within a respective pocket of a piece of fabric comprising a plurality of pockets and each of the plurality of compressed spring coils deploys to a decompressed state within its respective pocket , the system comprising:a conveyor system comprising a first conveyor belt and an opposing surface substantially parallel with a surface of the first conveyor belt, the conveyor system configured to transport the plurality of compressed spring coils disposed in the respective pockets of the piece of fabric between the first conveyor belt and the opposing surface, each of the respective pockets having a first end and a second end with a longitudinal axis formed between the first and second ends, and each of the plurality of compressed spring coils disposed within the respective pockets comprising a first end adjacent to and substantially parallel to the surface of the first conveyor belt and a second ...

Upholstery Spring, Method For Producing An Upholstery Spring, Mattress, And Upholstered Furniture

An upholstery spring comprises a steel spring wire made of a microalloyed steel and a color indicator arranged thereon at least in some regions, the microalloyed steel containing between 0.004 to 0.015 wt.-% of one or more alloy elements. The invention further relates to a method for producing an upholstery spring, a mattress or a piece of upholstered furniture having such an upholstery spring. 1. An upholstery spring comprising a spring steel wire made of a microalloyed steel and a color indicator arranged in at least some regions thereon , wherein the microalloyed steel has one or more alloy elements between 0.004 and 0.015 wt. %.2. The upholstery spring according to claim 1 , characterized in that the spring steel consists of a titanium-microalloyed steel having a titanium proportion between 0.004 and 0.01 wt. %.3. The upholstery spring according to claim 1 , characterized in that the spring steel consists of a titanium-microalloyed steel having a titanium proportion between 0.005 and 0.008 wt. %.4. The upholstery spring according to claim 1 , characterized in that the color indicator is applied to the spring steel wire as a copper-containing coating claim 1 , in particular as a coating consisting of copper.5. The upholstery spring according to claim 1 , characterized in that the steel is based on a steel of the steel types C38(D) to C70(D) and additionally has titanium as an alloy element.6. A method for producing an upholstery spring claim 1 , in particular for upholstered furniture or mattresses claim 1 , having at least the following steps:providing a bent or unbent spring steel wire made of microalloyed steel, wherein the microalloyed steel has one or more alloy components between 0.001 and 0.015 wt. %;applying a heat-sensitive color indicator in at least some regions to a spring steel wire before, during, or after a bending of the spring steel wire;heating of the spring steel wire to at least the changeover temperature of the color indicator; andfinishing ...

COIL SPRING FORMING METHOD AND FORMING DEVICE

A method for forming a wire into a coil spring includes winding the wire around a coiling mandrel to form the wire into a cylindrical coil shape, clamping one end of the wire formed into the cylindrical coil shape, clamping an intermediate portion of the wire spaced from the clamped one end of the wire; and moving the clamped one end of the wire relative to the clamped intermediate position at least in an axis direction of the cylindrical coil shape, whereby a pigtail having a desired shape is formed. 1. A method for forming a wire into a coil spring having a desired shape , the method comprising:forming the wire into the coil spring having a cylindrical shape by winding the wire on a first coiling mandrel, andfurther processing one end of the wire of the coil spring that has been formed into the cylindrical shape by:clamping the coil spring at a particular position other than the one end of the wire of the coil spring that has been formed into the cylindrical shape,clamping the one end of the wire of the coil spring that has been formed into the cylindrical shape, andmoving the clamped one end of the wire relative to the clamped particular position at least in an axis direction of the coil spring that has been formed into the cylindrical shape.2. The method according to claim 1 , whereinthe further processing is performed while the one end of the wire of the coil spring is clamped in a clamp provided on a rotating shaft, andthe moving step further includes rotationally moving the clamped one end of the wire of the coil spring relative to the clamped particular position about an x-axis, which is an axial line of the rotating shaft, and/or about a y-axis, which is orthogonal to the x-axis, and/or about a z-axis, which is orthogonal to the x-axis and the y-axis.3. The method according to claim 2 , whereinthe moving step further includes moving the clamped one end of the wire of the coil spring relative to the clamped particular position in an x-axis direction, and/or ...

METHOD FOR MANUFACTURING A BALANCE SPRING FOR A TIMEPIECE MOVEMENT

A method for manufacturing a balance spring for a balance, which includes creating a blank from an alloy containing: niobium: the remainder to 100 wt %, titanium: between 40 and 60 wt %, traces of elements selected from the group formed of O, H, C, Fe, Ta, N, Ni, Si, Cu, Al, between 0 and 1600 ppm by weight individually, and less than 0.3 wt % combined; β-quenching the blank, such that the titanium of the alloy is essentially in solid solution form with β-phase niobium, the α-phase titanium content being less than or equal to 5% by volume, at least one deformation step of the alloy alternated with at least one heat treatment step such that the niobium and titanium alloy obtained has an elastic limit higher than or equal to 600 MPa and a modulus of elasticity lower than or equal to 100 GPa, a winding step to form the balance spring being performed prior to the final heat treatment step, prior to the deformation step, a step of depositing, on the alloy blank, a surface layer of a ductile material such as copper, to facilitate the wire shaping process, the thickness of the deposited ductile material layer is chosen such that the ratio of the area of ductile material to the area of NbTi alloy for a given cross-section of wire is less than 1. 1. A method for manufacturing a balance spring intended to be fitted to a balance of a timepiece movement , comprising:a step of creating a blank from a niobium and titanium alloy containing:niobium: the remainder to 100 wt %,titanium: between 40 and 60 wt %,traces of elements selected from the group formed of O, H, C, Fe, Ta, N, Ni, Si, Cu, Al, each of said elements being present in an amount comprised between 0 and 1600 ppm by weight, the total amount formed by all of said elements being comprised between 0 and 0.3 wt %,a step of n-quenching said blank with a given diameter, such that the titanium of said alloy is essentially in solid solution form with β-phase niobium, the α-phase titanium content being less than or equal to 5% ...

Bending Device and Spring Manufacturing Machine

An example machine comprising a processing part having two protruding parts that protrude from an end surface of a pillar part and that bend a wire, wherein at least one of the protruding parts has a curved surface part, and the wire is disposed between the two protruding parts, the pillar part is rotated around an axis of the pillar part to bend the wire along the curved surface part, the bending device comprises plural processing parts, curvature of the curved surface part of the protruding part in each processing part are different, and the bending device further comprises: a rotary part that supports the processing parts and rotates about an axis intersecting the length direction of the pillar part; an accommodating part that is cylindrical and accommodates the rotary part at an end part of the accommodating part so as to be rotatable; and a mechanism that rotates the accommodating part about an axis of the accommodating part. 1. A bending device , comprising a processing part having two protruding parts that protrude from an end surface of a pillar part and that bend a wire , whereinat least one of the protruding parts has a curved surface part,and the wire is disposed between the two protruding parts,the pillar part is rotated around an axis of the pillar part to bend the wire along the curved surface part,the bending device comprises plural processing parts,curvature of the curved surface part of the protruding part in each processing part are different, andthe bending device further comprises:a rotary part that supports the processing parts and rotates about an axis intersecting the length direction of the pillar part;an accommodating part that is cylindrical and accommodates the rotary part at an end part of the accommodating part so as to be rotatable; anda mechanism that rotates the accommodating part about an axis of the accommodating part.2. The bending device according to claim 1 , wherein the plural processing parts are installed next to each other ...

SPRING STRUCTURE HAVING MULTIPLE COIL-SHAPED UNIT SPRINGS AND METHOD FOR MANUFACTURING SAME

A spring structure includes a coil-shaped spring portion including multiple coil-shaped unit springs having a same inner diameter center axis, and alternately arranged at regular intervals such that a wire rod of one of the coil-shaped unit springs and a wire rod of a remaining one of the coil-shaped unit springs overlap each other; and a support portion having a non-spring structure, the support portion being connected with each of the coil-shaped unit springs and supporting the coil-shaped spring portion, thereby providing the support portion and the coil-shaped spring portion that are formed integrally with each other. 1. An integral spring structure , comprising:a coil-shaped spring portion including multiple coil-shaped unit springs having a same inner diameter center axis, and alternately arranged at regular intervals such that a wire rod of one of the coil-shaped unit springs and a wire rod of a remaining one of the coil-shaped unit springs overlap each other; anda support portion having a non-spring structure, the support portion being connected with each of the coil-shaped unit springs and supporting the coil-shaped spring portion.2. The integral spring structure of claim 1 , wherein the coil-shaped spring portion is configured such that a different number of the coil-shaped unit springs is provided in each predetermined section.3. The integral spring structure of claim 1 , wherein a plurality of coil-shaped spring portions are provided claim 1 , and a different number of the coil-shaped unit springs is provided in each of the coil-shaped spring portions.4. The integral spring structure of claim 1 , further comprising:a non-metallic elastic material inserted between the wire rods of the coil-shaped spring portion.5. The integral spring structure of claim 1 , wherein the coil-shaped unit spring having a spiral shape is made of an elastic material claim 1 , andthe support portion is provided on at least one of upper and lower ends of the coil-shaped spring ...

METHOD FOR PRODUCING A FLAT SPIRAL SPRING, AND BENDING DEVICE FOR PRODUCING SAME

The invention relates to a method for producing a flat spiral spring, in particular a spring sheet for covering a cooling area of a piston of internal combustion engines, said spring sheet being formed at least as an annular disk-shaped segment (), wherein a strip-shaped material () is fed to a bending device () that comprises at least one drum (), said drum rotating about a rotational axis (), and the strip-shaped material () is supplied in a tangential alignment to the lateral surface () of the drum () such that a lateral wall () which determines the thickness of the strip-shaped material () rests against at least some sections of a contact surface () on the lateral surface () of the drum (). The contact surface () of the drum () has a radius which substantially corresponds to an internal radius of the strip-shaped material () to be bent into the segment (), and at least one deflecting device () is aligned at a distance to the drum () such that the strip-shaped material () is guided in a forced manner between the drum () and the deflecting device (), and the strip-shaped material () is bent so as to follow the drum () by means of the deflecting device. 1. A method for producing a leaf spring , which is at least formed as a washer-shaped segmentin which a band-shaped material is fed into a bending device which comprises at least one drum which rotates around an axis of rotation,in which the band-shaped material is fed in a tangential orientation to the shell surface of the drum, so that a side wall that determines the thickness of the band-shaped material is in contact at least in sections with a contact surface on the shell surface of the drum,in which the contact surface of the drum comprises a radius which substantially corresponds to an inner radius of the band-shaped material to be bent to the segment, andin which at least one diverting mechanism is orientated at a distance to the drum, so that the band-shaped material is forcibly guided between the drum and ...

System for adjusting load characteristics of conical spring

A load characteristic adjustment system for use with a linear-spring forming apparatus is provided, in which the load characteristic of a conic spring can be conveniently and efficiently regulated during the formation of the spring, thereby reliving much of a physical burden of a worker to find an optimum load characteristic of a coil spring. The load characteristics adjustment system comprises: a linear material feeder for feeding a linear material; at least one spring forming tool facing the linear material feeder, adapted to abut against the linear material to coil the linear material; spiraling means for spiraling the coiled linear material; and coil-diameter varying means for varying the diameter of the coiled linear material. The load characteristic adjustment system controls the linear material feeder so as to feed the linear material at a regulated constant acceleration to adjust the load characteristic of the conical spring formed.

SPRING FORMING DEVICE AND FORMING METHOD THEREFOR

A spring forming device in which the steel wire can be continuously cut off without stopping the feeding of the steel wire in cutting, and in which the steel wire can be uniformly heated, is provided. The spring forming device has a wire supplying mechanism for supplying a steel wire using a plurality of feeding rollers, a heating mechanism for heating the steel wire, a coiling mechanism for forming in a coil state the heated steel wire, and a cutting mechanism for cutting the steel wire coiled at a given number of turns off the steel wire remained backward. A cutting blade of the cutting mechanism follows tracks having a speed Va that moves to the receiving blade and a speed Vc that moves in an axial direction of the coiled steel wire, in cutting of the steel wire. 1. A spring forming device comprising:a wire supplying mechanism for supplying a steel wire using a plurality of feeding rollers,a heating mechanism for heating the steel wire,a coiling mechanism for forming in a coiled state the heated steel wire, anda cutting mechanism for cutting the steel wire coiled at a given number of turns off the steel wire remained backward, a wire guide for inducing the steel wire supplied by the feeding rollers to an appropriate position in a processing portion,', 'a coiling tool for processing the steel wire supplied through the wire guide to a coiled shape, and', 'a pitching tool for forming pitches on the steel wire in a coiled shape, the cutting mechanism comprises:', 'a cutting blade for cutting the steel wire coiled at a given number of turns off the steel wire remained backward, and', 'a receiving blade for supporting the steel wire arranged opposite to the cutting blade,, 'wherein the coiling mechanism comprisesa region for heating the steel wire in the heating mechanism is arranged between the feeding rollers and the wire guide, andthe cutting blade follows tracks having a speed Va that moves to the receiving blade and a speed Vc that moves in an axial direction of ...

Spring Separator

An end point spring separator is positioned adjacent a dispensing area of a pneumatic tube having a plurality of coil springs in serial order therethrough. The separator rotates a downstream positioned coil spring while holding stationary an adjacent upstream positioned coil spring to separate potentially entangled ends of each spring passing thereby.

HELICAL COMPRESSION SPRING AND METHOD FOR MANUFACTURING SAME

The coil spring includes steel wire material containing 0.45 to 0.80 weight % of C, 0.15 to 2.50 weight % of Si, 0.3 to 1.0 weight % of Mn and iron and inevitable impurities as the remainder, and having a circle equivalent diameter of 2.5 mm to 10 mm, in which internal hardness at a freely selected cross section of the wire material is in a range of 570 to 700 Hv, C-condensed layer which exceeds average concentration of C contained in the steel wire material exists at surface layer part, and in an approximate maximum principal stress direction generated when a compressive load is loaded on spring of inner diameter side of the coil spring of the wire material, unloaded compressive residual stress at a depth of 0.2 mm and 0.4 min from surface of the wire material is not less than 200 MPa and not less than 60 MPa, respectively. 124-. (canceled)25. A compression coil spring , comprising a steel wire material containing 0.45 to 0.80 weight % of C , 0.15 to 2.50 weight % of Si , 0.3 to 1.0 weight % of Mn and iron and inevitable impurities as the remainder , and having a circle equivalent diameter of 2.5 mm to 10 mm ,wherein internal hardness at a freely selected cross section of the wire material is in a range of 570 to 700 Hv,C-condensed layer which exceeds average concentration of C contained in the steel wire material exists at surface layer part, andin an approximate maximum principal stress direction generated when a compressive load is loaded on spring of inner diameter side of the coil spring of the wire material, unloaded compressive residual stress at a depth of 0.2 mm and 0.4 mm from surface of the wire material is not less than 200 MPa and not less than 60 MPa, respectively.26. A compression coil spring , comprising a steel wire material containing 0.45 to 0.80 weight % of C , 0.15 to 2.50 weight % of Si , 0.3 to 1.0 weight % of Mn and iron and inevitable impurities as the remainder , and having a circle equivalent diameter of 1.5 mm to 3 mm ,wherein internal ...

DEVICE AND METHOD FOR PRODUCING A SPRING WIRE, DEVICE AND METHOD FOR MAKING A SPRING WIRE, DEVICE AND METHOD FOR PRODUCING SPRINGS FROM A SPRING WIRE, AND SPRING WIRE

A device for producing a spring wire includes a wire production apparatus which is designed such that a spring wire can be produced from a raw material, in particular by drawing; a checking unit which is designed such that the spring wire can be checked for flaws, in particular material flaws and surface flaws; and a laser marking unit which is designed such that defective regions of the spring wire, in particular regions of the spring wire having material and surface flaws, can be marked with a laser marking such that part of the surface of the spring wire can be removed or part of the surface of the spring wire can be tempered in such a manner that the color of the surface of the spring wire is changed in this part. The wire production apparatus is designed such that the spring wire can be guided past the checking unit and past the laser marking unit. 12. A device for producing a spring wire () , comprising:{'b': 8', '10, 'a wire production apparatus () which is designed such that a spring wire () can be produced from a raw material, in particular by drawing;'}{'b': 14', '10, 'a checking unit () which is designed such that the spring wire () can be checked for flaws, in particular material flaws and surface flaws; and'}{'b': 18', '10', '10', '44', '10', '10', '10, 'a laser marking unit () which is designed such that defective regions of the spring wire (), in particular regions of the spring wire () having material and surface flaws, can be marked with a laser marking () such that part of the surface of the spring wire () can be removed or part of the surface of the spring wire () can be tempered in such a manner that the color of the surface of the spring wire () is changed in this part;'}{'b': 8', '10', '14', '18, 'with the wire production apparatus () being designed such that the spring wire () can be guided past the checking unit () and past the laser marking unit ().'}221. A device for marking a spring wire () , comprising:{'b': 22', '10, 'a supply unit, in ...

FORMING METHOD AND FORMING DEVICE FOR ARC SPRING

Provided are a forming method for an arc spring, capable of easily and surely locating bearing faces on both end faces of a semi-finished product in predetermined positions, the bearing faces having lengths within permissible ranges in a circumferential direction. For a semi-finished product prior to curving an axis, it is determined whether circumferential lengths of bearing faces on both end faces are respectively within the permissible ranges based on end face image information of the both end faces imaged in an axial direction prior to the curving, a circumferential rotational position of the semi-finished product capable of respectively locating the bearing faces within the predetermined positions is specified using the end face image information, and the semi-finished product is rotated to the specified rotational position, and the wedge part is sequentially driven into inter-wires of the semi-finished product to deform the semi-finished product. 1. A forming method for an arc spring in which a wire is wound in a coiled shape with an axis curved and both end faces have respective bearing faces , comprising:a bearing face length determining step of determining, for a semi-finished product prior to curving the axis, whether lengths of the bearing faces on the both end faces in a circumferential direction are respectively within permissible ranges based on end face image information of the both end faces of the semi-finished product imaged in a direction along the axis of the semi-finished product prior to the curving;a rotational position determining step of, if the lengths of the bearing faces of the both end faces in the circumferential direction are respectively within the permissible ranges, determining whether there is a rotational position of the semi-finished product in the circumferential direction, the rotational position at which the bearing faces on the both end faces are respectively located within predetermined positions in the circumferential ...

COILING MACHINE, METHOD FOR MANUFACTURING COIL SPRING, AND COIL SPRING

A coiling machine includes feed rollers for moving a wire, a wire guide, a first forming roller, a second forming roller, a pitch tool, a cutting mechanism, and a support mechanism for supporting the wire. The cutting mechanism includes a cutting rotor. The wire coming out of the wire guide is formed into a helical shape by the first forming roller, the second forming roller and the pitch tool. After one coil spring of a predetermined length is formed, the wire is cut by moving the cutting rotor in the radial direction of the wire. The cutting rotor cuts the wire supported by the support mechanism in the radial direction of the wire between the second forming roller and the pitch tool. 1. A coiling machine comprising:feed rollers which moving a wire;a wire guide into which the wire is inserted;a first forming roller with which the wire coming out of the wire guide comes into contact;a second forming roller disposed on a front side of a movement direction of the wire with respect to the first forming roller, which forms an arc portion by bending the wire between the first forming roller and the second forming roller;a pitch tool disposed on a front side of the movement direction of the wire with respect to the second forming roller and brought into contact with the wire;a support mechanism which supports the arc portion of the wire; anda cutting rotor which cuts the wire supported by the support mechanism in a radial direction of the wire between the second forming roller and the pitch tool.2. The coiling machine according to claim 1 , whereinthe support mechanism, comprises a clamping tool disposed between the second forming roller and the pitch tool.3. The coiling machine according to claim 2 , whereinthe clamping tool is disposed on an opposite side to the pitch tool while interposing the wire therebetween.4. The coiling machine according to claim 2 , whereinthe second forming roller comprises a groove continuous in a circumferential direction, andthe support ...

HOT FORMED COILING MACHINE

The present invention relates to a hot coiling machine, and an object of the invention is to provide a hot coiling machine that produces coil springs having various coil shapes and diameters from a heated wire without a mandrel. The present invention provides a hot coiling machine including: a center roll rotating by a drive unit; a feeding roll disposed near the center roll and facing an external surface of the center roll, the center roll being configured to move by a first positioning unit and being rotated by a drive unit thus moving a wire together with the center roll; a forming roll for forming the wire into a coil shape; and a pitch control unit disposed near the forming roll to come into contact with the coiled wire and pushing the coiled wire to provide the coiled wire with a desired pitch. 1. A hot coiling machine comprising:{'b': 110', '200, 'a center roll adapted to rotate by a rotational force generated from a drive unit ;'}{'b': 120', '110', '110', '110', '110', '110', '310', '100', '200', '110, 'i': 'a', 'a feeding roll disposed near the center roll and having an external surface facing an external surface of the center roll , the center roll being configured to move close to or away from the center roll by means of a first positioning unit provided at a body and being rotated by a rotational force generated from a drive unit thus moving a wire together with the center roll ;'}{'b': 130', '110', '120, 'at least one forming roll for forming the wire transferred by rotations of the center roll and the feeding roll into a coil shape; and'}{'b': 140', '130', '130', '130, 'a pitch control unit that is disposed near the at least one forming roll to come into contact with the coiled wire exiting the at least one forming roll , and which pushes a lateral surface of the coiled wire exiting the at least one forming roll to provide the coiled wire with a desired pitch.'}2140. The hot coiling machine according to claim 1 , wherein the pitch control unit ...

RING-SHAPED SPRING AND METHOD FOR MANUFACTURING SAME

An inexpensive ring spring having high strength and a method for producing the same, are provided. The ring spring can be obtained, for example, by raw material preparation, bending formation, welding, and disk formation performed in this order. The ring spring is formed to have no edge by welding two edge parts of the raw material, and has a welded metal part that is formed at the interface of the two edge parts of the raw material, and a welded heat-affected zone that is formed around the welded metal part and heated by welding, and exhibits tensile strength of 1000 MPa or more. Since the ring spring has sufficient tensile strength as a disk spring and a wave spring, quenching and tempering are not necessary. Furthermore, since the product can be prevented from being deformed due to quenching and tempering, dimensional accuracy of the product can be improved. 1. A ring spring formed to have no edge by welding two edges of a raw material , comprising:a welded metal part formed at an interface of the two edges of the raw material, anda welded heat-affected zone formed at the circumference of the welded metal part and which is heated by welding,wherein tensile strength is 1000 MPa or more.2. The ring spring according to claim 1 , wherein the ring contains C: 0.10 to 0.30 mass % claim 1 , Si: 0.50 to 2.10 mass % claim 1 , Cr: 0.50 to 1.50 mass % claim 1 , Mn: 1.0 to 2.0 mass % claim 1 , P: 0.025 mass % or less claim 1 , S: 0.025 mass % or less claim 1 , Fe as a remainder and inevitable impurities.3. The ring spring according to claim 1 , wherein steel material having carbon equivalent Ceq shown by Formula (1) below of 0.5 to 0.75 mass % and hardness of 350 HV or more as the raw material claim 1 , and the steel material contains C: 0.30 mass % or less claim 1 , wherein brackets indicate mass % claim 1 ,{'br': None, 'Ceq=[C]+[Mn]/6+[Si]/24+[Ni]/40+[Cr]/5+[Mo]/4+[V]/14 \u2003\u2003(1).'}4. The ring spring according to claim 1 , wherein a welding start part of the welded ...

CANTED COIL SPRINGS AND ASSEMBLIES AND RELATED METHODS

Canted coil spring rings each with a first plurality of coils having first coil major and minor axes; a second plurality of coils each having second coil major and minor axes; the coils of the first plurality of coils alternating with the coils of the second plurality of coils according to an alternating pattern. The spring rings having inner and outer perimeters and wherein the inner perimeter of the spring ring is defined by at least said first plurality of coils. The resulting configuration of the spring ring has improved spacing along the inner perimeter, among others, with respect to a similar canted coil spring ring having a constant coil cross section, such as a coil length with all similar coils. 120-. (canceled)21. A canted coil spring ring comprising:a plurality of interconnected coils having two ends that are welded together to define the spring ring; the plurality of interconnected coils comprising a first plurality of coils and a second plurality of coils;said first plurality of coils each having a first coil major axis, a first coil minor axis and a coil center defined by the intersection of said first coil major and minor axes; a first centerline defined by the plurality of coil centers resulting from said first plurality of coils, and each coil of said first plurality of coils canted along said first centerline;said second plurality of coils each having a second coil major axis, a second coil minor axis and a coil center defined by the intersection of said second coil major and minor axes; a second centerline defined by the plurality of coil centers resulting from said second plurality of coils, and each coil of said second plurality of coils canted along said second centerline;wherein the coils of said first plurality of coils alternate with the coils of said second plurality of coils according to an alternating pattern;wherein the spring ring comprises an outer perimeter and an inner perimeter, wherein said inner perimeter is defined by said first ...

WIRE FORMING APPARATUS FOR ELECTRIC MACHINE WINDING

A wire forming apparatus comprises a first rack moveable relative to a second rack in a first direction, a plurality of first forming structures provided on the first rack, and a plurality of second forming structures provided on the second rack. Each of the plurality of first forming structures is configured to move in the first direction, is separated from an adjacent first forming structure, and is configured to move in a second direction closer to the adjacent first forming structure when the first rack moves relative to the second rack. Each of the plurality of second forming structures is configured to move in the first direction, is separated from an adjacent second forming structure, and is configured to move in the second direction closer to the adjacent second forming structure when the first rack moves relative to the second rack. The second direction is different from the first direction. 1. A wire forming apparatus comprising:a first rack moveable relative to a second rack in a first direction;a plurality of first forming structures provided on the first rack, each of the plurality of first forming structures configured to move in the first direction, each of the plurality of first forming structures separated from an adjacent first forming structure, and each of the plurality of first forming structures configured to move in a second direction closer to the adjacent first forming structure when the first rack moves relative to the second rack, wherein the second direction is different from the first direction;a plurality of second forming structures provided on the second rack, each of the plurality of second forming structures configured to move in the first direction, each of the plurality of second forming structures separated from an adjacent second forming structure, and each of the plurality of second forming structures configured to move in the second direction closer to the adjacent second forming structure when the first rack moves relative to ...

WIRE-FORMING MECHANISM FOR SPRING MAKING MACHINE

A wire-forming mechanism for spring making machine includes a base frame with two first sliding rail sets, and two wire-forming assemblies for independently performing a two-dimensional action. Each wire-forming assembly includes a movable base panel slidably mounted on one respective first sliding rail set and providing a second sliding rail set that extends in a perpendicular manner relative to the first sliding rail sets, a tool panel slidably mounted on the second sliding rail set and providing an L-shaped tool mount, one or multiple tools selectively mounted in the L-shaped tool mount, and two driving mechanisms for moving the movable base panel along one respective first sliding rail set and the tool panel along the second sliding rail set respectively. 1. A wire-forming mechanism used in a spring making machine , comprising:a base frame comprising two first sliding rail sets located at an outer side thereof; andtwo wire-forming assemblies respectively mounted on said first sliding rail sets of said base frame for independently performing a two-dimensional action, each said wire-forming assembly comprising a movable base panel, a tool panel, at least one tool and two driving mechanisms, said movable base panel being slidably mounted on one respective said first sliding rail set of said base frame, said movable base panel comprising a second sliding rail set located at an outer side thereof, said second sliding rail set extending in a perpendicular relationship with said first sliding rail sets of said base frame, said movable base panel being connected to one said driving mechanism and controlled by the respective said driving mechanism to move along the respective said first sliding rail sets of said base frame, said tool panel being slidably mounted on said second sliding rail set of said movable base panel and comprising an L-shaped tool mount for holding said at least one tool, said tool panel being connected to the other said driving mechanism and ...

SPRING FORMING MACHINE HAVING TOOL ROTATION AND TOOL RETRACTION CAPABILITIES

A spring forming machine having tool rotation and tool retraction capabilities, that includes: a rotary beak seat mechanism and a dual-transmission core rotation separation mechanism. The rotary beak seat mechanism is installed on a transmission mechanism of an outside machine panel board through a panel board bearing. The rotary beak seat mechanism includes a rotation component, that rotates 360 degrees around a central axis of the panel board bearing. On a front end of the rotation component is disposed a slide seat component coaxially. The dual-transmission core rotation separation mechanism includes: a first substrate, in a center of a front plate surface of the first substrate is disposed the rotary beak seat mechanism, on a back plate surface of the first substrate is disposed an axle core positioning mechanism, an inner circle core rotation transmission mechanism, and an outer circle tool rotation transmission mechanism. 1. A spring forming machine having tool rotation and tool retraction capabilities , comprising:a rotary beak seat mechanism, installed on a transmission mechanism of an outside machine panel board through a panel board bearing, wherein the rotary beak seat mechanism includes a rotation component, that rotates 360 degrees around a central axis of the panel board bearing, on a front end of the rotation component is disposed a slide seat component coaxially, on the slide seat component is disposed rotatably a swing component and a tool component coaxially, on the swing component is disposed a tool retraction hook, to make lever-like turning and flipping movements, the rotation mechanism is provided with a round push rod, to clamp around outside the tool retraction hook, and through push-pull movements of the round push rod, the tool component is brought to move reciprocally along a vertical direction of the slide seat component, to realize tool retraction; anda dual-transmission core rotation separation mechanism, that includes: a first ...

COILING MACHINE AND MANUFACTURING METHOD OF COIL SPRING

A coiling machine includes a material guide, first pin, second pin, pitch tool, cutting tool, heating device, temperature sensor, and controller. A material is bent between the first pin and the second pin to form an arc part between the first pin and the second pin. The controller select control data corresponding to the temperature of the material from a plurality of control data corresponding to a processing temperature. Then, the positions of the first pin and the second pin are controlled such that a radius of curvature of the arc part increases when the temperature of the material increases, and the position of the cutting tool is controlled such that a gap between the center of curvature of the arc part and the cutting tool increases. 1. A coiling machine comprising:a material guide to which a material of a coil spring is inserted;a first pin to which the material discharged from a tip of the material guide contacts;a second pin disposed in a front side of a movement direction of the material with respect to the first pin, the second pin configured to form an arc part with the first pin by bending the material with the first pin;a pitch tool disposed in a front side of a movement direction of the material with respect to the second pin, the pitch tool to which the material contacts;a cutting tool configured to cut the material;a heating device configured to heat the material;a temperature sensor configured to detect a temperature of the material; anda controller configured to change a position of the first pin and a position of the second pin on the basis of control data corresponding to a shape of a coil spring to be formed, wherein the first pin and the second pin are moved such that a radius of curvature of the arc part increases when the temperature of the material detected by the temperature sensor increases, and the cutting tool is moved such that a gap between a center of curvature of the arc part and the cutting tool increases when the temperature of ...

METHOD AND DEVICE FOR MANUFACTURING ARC-SHAPED COIL SPRING

The present invention is provided focusing on a servo press configured to enable high-speed/high-accuracy operation by numeric value control in the method for manufacturing an arc-shaped coil spring. The present invention provides a manufacturing method and a manufacturing device configured so that the curvature of the arc-shaped coil spring can be freely ensured. The manufacturing method includes the clamp step of fixing a straight cylindrical coil spring, the end portion detection step of detecting an end portion, a rotation angle position determination step, a pitch feeding step, a pressing member insertion step, and an insertion direction conversion step. The manufacturing method and the manufacturing device relate to the technology of continuously repeating the operation of pushing down a pressing member to an inter-pitch from above, thereby deforming the straight cylindrical coil spring into the coil spring with the curvature. 1. An arc-shaped coil spring manufacturing method as a method for manufacturing a coil spring with a curvature from a straight cylindrical coil spring , comprising:a first clamp step of fixing the straight cylindrical coil spring;an end portion detection step of detecting an end portion;a rotation angle position determination step;a first pitch feeding step;a first pressing member insertion step;an insertion direction conversion step of converting an insertion direction with respect to the coil spring;a second pitch feeding step; anda second pressing member insertion step, fixing, at the second clamp step, an opposite end portion of the back end portion at the first pressing member insertion step, and', 'deactivating the first clamp step to reverse a feeding direction of a pressing member,, 'wherein the insertion direction conversion step is a step of'}the first pressing member insertion step and the second pressing member insertion step are steps of continuously repeating operation of pushing down the pressing member to an inter-pitch ...

DEVICE FOR MANUFACTURING COIL SPRING AND METHOD FOR MANUFACTURING COIL SPRING

A coil spring manufacturing device includes a mandrel around which a wire is wound, a feed mechanism which feeds the wire toward the mandrel, guide members which guide the wire, a chuck which fixes a distal end of the wire, and a clamp mechanism. The clamp mechanism sandwiches the wire from both sides before the distal end of the wire reaches the mandrel. Further, the clamp mechanism can be rotated about a fulcrum by rotation actuator, and can also be slid in a direction along an axis of the mandrel by sliding actuator. In a state in which the wire is sandwiched by the clamp mechanism, the clamp mechanism is rotated, and if necessary, is slid. Thereby, a bent portion for a negative pitch portion of a coil spring is formed at a part of the wire. 1. A coil spring manufacturing device comprising:a mandrel around which a wire is wound;a rotation mechanism including a mandrel drive head which rotates the mandrel;a feed mechanism which feeds the wire toward the mandrel;a chuck which is provided on the mandrel drive head, and fixes a distal end of the wire to the mandrel;guide members which are moved in a direction along an axis of the mandrel, and guide the wire that winds around the mandrel;a clamp mechanism which is arranged between the mandrel and the feed mechanism, and sandwiches a part of the wire in a longitudinal direction of the wire; androtation means for rotating the clamp mechanism in a direction of bending the wire in a state in which the wire is inserted into the clamp mechanism.2. The coil spring manufacturing device of claim 1 , further comprising slide means for moving the clamp mechanism in the direction along the axis.3. The coil spring manufacturing device of claim 1 , whereinthe clamp mechanism includes:first clamp members which are arranged between the guide members and the feed mechanism; andsecond clamp members which are arranged on an upstream side in a direction of movement of the wire relative to the first clamp members, andthe rotation means ...

Multi-head spring coilers and methods of using same

An exemplary embodiment provides a method of manufacturing a string of pocketed spring coils comprising: simultaneously making at least two spring coils; simultaneously transporting the at least two spring coils to a compressor: simultaneously compressing the at least two spring coils; simultaneously inserting the at least two compressed spring coils between top and bottom plies of a piece of fabric; welding the top and bottom plies of the fabric along an edge of the folded fabric parallel to the longitudinal axis of the fabric and opposite the folded edge of the fabric; welding the top and bottom plies of the fabric along lines transverse to the longitudinal axis of the fabric between each of the compressed spring coils to create a plurality of pockets, each pocket encompassing a compressed spring coil; and expanding each of the compressed spring coils within each of the plurality of pockets.

Control Method and Device for Cutter Shaped by Helical Spring

Disclosed are a control method and a device for a cutter shaped by a helical spring, which comprises two cutter position controlling devices () connected to two spring outer diameter cutters () respectively and comprises a cutter lifting device (). The two cutter position controlling devices () are arranged in the same mounting plane (). The cutter position-controlling device () controls an amount of displacement of the stretching and retracting of the two spring outer diameter cutters (). The amount of displacement of the spring outer diameter cutters () and the amount of up and down movement of the mounting plane () are controlled simultaneously by a motor (). By applying the concept of relative coordinates, the requirements of control can be simplified from two two-dimensional control movements to three single-axis linear movements by using the centre (P) of a spring coil as the origin of the coordinates for the movement of the spring outer diameter cutter. In the case that the distances of linear movement on the three axes are identical or at a fixed ratio, the advantage of reducing the number of motors is achieved. 1. A controlling device for coil spring bending tool comprising:at least two coil spring bending tools for bending a spring wire;at least two controlling apparatuses being connected with the at least two coil spring bending tools and being mounted on an assembly platform;a lifting apparatus for controlling a height displacement of the assembly platform, whereinthe controlling apparatus controls displacements of the at least two coil spring bending tools;the displacements of the at least two coil spring bending tools are adjusted according to a radius of a coil spring, the displacements of the at least two coil spring bending tools are proportional to the radius of the coil spring;a center point of the coil spring is a virtual reference point;the height replacement is the assembly platform being moved by the controlling apparatus from the virtual ...

TRIAXIAL SPRING-MAKING MACHINE AND METHOD THEREOF

A method for making spring includes providing a wire at a working plane by a wire feeding machine; shaping the wire by a first working tool based on a first structure for the spring; and shaping the wire by a second working tool based on a second structure for the spring. In particular, the first working tool and the second working tool are configured to be movable in a reversed-reciprocation way along a direction perpendicular to the working plane. 1. A working tool device adaptive for a spring making-machine , comprising:a main body having a mounting portion, a first side and a second side, the first side and the second side extending from the mounting portion;a first movable member located on the first side and coupled to the main body such that the first movable member is able to move reciprocally along a first direction relative to the main body; anda second movable member located on the second side and coupled to the main body such that the second movable member is able to move reciprocally along a second direction relative to the main body;wherein the first direction and the second direction are parallel,wherein the first movable member and the second movable member are configure to move synchronously but in opposite directions.2. The working tool device as claimed in claim 1 , wherein the first movable member and the second movable member provide a first mounting surface and a second mounting surface claim 1 , respectively claim 1 , for installing at least two working tools on the first side and the second side of the main body.3. The working tool device as claimed in claim 1 , wherein the main body has a top portion extending from the mounting portion and is partially covered by a first shoulder portion of the first movable member and a second shoulder portion of the second movable member claim 1 , wherein the first shoulder portion and the second shoulder portion provide a third mounting surface and a fourth surface claim 1 , respectively claim 1 , for ...

Elastomeric draft gear having a housing

A draft gear assembly for cushioning both buff and draft dynamic impact forces being applied to a center sill member of a railway vehicle includes a housing member closed at one end and open at an opposed end, the housing member having a rear portion adjacent the closed end and a front portion adjacent the open end. At least one compressible elastomeric spring is positioned within the rear portion and has a rear end thereof abutting at least a portion of an inner surface of the closed end. A friction clutch mechanism is also provided in abutting engagement with each of the front end of the compressible elastomeric spring and the coupler shank. The housing member may be provided with a pair of ledge portions disposed intermediate its ends and attachment members disposed on the open end for attaching the housing member directly to the coupler shank.

一种联动生产打簧机

本发明公开了一种联动生产打簧机，包括设有主驱动的机架，所述机架上布置有送线装置和联动生产结构，所述主驱动驱动所述联动生产结构，所述联动生产结构包括生产主轴结构、成型传动结构、成型装置、推簧传动结构、推簧结构、切刀传动结构、切刀结构、凸轮感应结构，本发明通过将所切刀结构、成型结构、推簧结构通过齿轮、伞齿、凸轮等与主驱动联动，从而使得切断动作、成型动作、推簧动作能够循环完成，无需等待驱动电机的开关，从而提高了生产效率；同时，本发明只设有一个主驱动电机和一个与送线结构连接的外部驱动电机，减少了电机的使用，减少了机器的成本；最后，本发明结构巧妙，适应性广。

Wire bending device for forming hooks, in particular on helical springs

Method of making elastomer liner for contractible elastomer spring

FIELD: process engineering. SUBSTANCE: invention relates to contractible elastomer liner for contractible elastomer spring. Proposed method comprises making liner blank representing solid body of predefined shape of cross-section with two axial ends. Note here that every said end has flat surface located perpendicular to central axis and central seat made in said flat surface. Then, two forming plates are made. Note here that forming plate has convex ring either made integral therewith or secured to its one surface. Then, blank is arranged between said two plates to align axially said convex ring with appropriate central seat. Liner with axial ledges is formed. Said ledges extends outward of blank flat surface. Formed liner is extracted from forming plates. EFFECT: higher damping properties, ease of use. 18 cl, 7 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) 2 467 874 (13) C2 (51) МПК B29C 43/02 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (21)(22) Заявка: 2009144261/05, 01.05.2008 (24) Дата начала отсчета срока действия патента: 01.05.2008 (73) Патентообладатель(и): УОБТЕК ХОЛДИНГ КОРП. (US) (43) Дата публикации заявки: 10.06.2011 Бюл. № 16 2 4 6 7 8 7 4 (45) Опубликовано: 27.11.2012 Бюл. № 33 (56) Список документов, цитированных в отчете о поиске: US 5351844 А, 04.10.1994. US 4198037 А, 15.04.1980. ЕР 0758577 A1, 19.02.1997. US 5335403 A, 09.08.1994. SU 751688 A1, 30.07.1980. SU 407775 A1, 10.12.1973. ЕР 0743632 A2, 20.11.1996. 2 4 6 7 8 7 4 R U (86) Заявка PCT: US 2008/005606 (01.05.2008) C 2 C 2 (85) Дата начала рассмотрения заявки PCT на национальной фазе: 01.12.2009 (87) Публикация заявки РСТ: WO 2008/137024 (13.11.2008) Адрес для переписки: 129090, Москва, ул. Б. Спасская, 25, стр.3, ООО "Юридическая фирма Городисский и Партнеры" (54) СПОСОБ ИЗГОТОВЛЕНИЯ ЭЛАСТОМЕРНОЙ ПРОКЛАДКИ ДЛЯ СЖИМАЕМОЙ ЭЛАСТОМЕРНОЙ ПРУЖИНЫ (57) Реферат: Настоящее изобретение относится к сжимаемой эластомерной прокладке, используемой в ...

Contractible elastomer spring (versions)

FIELD: transport. SUBSTANCE: invention relates to aircraft engineering. Proposed spring comprises multiple elastomer spacers and separation plates arranged there between and aligned one after the other to make a multitier stack. Every said elastomer spacer has lateral surface and two end surfaces arranged in normal to central axis. Said separation plate has first and second flat surfaces and axial bore. In compliance with first version, multiple teeth are made in contractible spring on both sides of separation plate nearby the axial bore edge. Said teeth feature trapezoidal shape and extend outward at the angle to flat surface and into appropriate elastomer spacer. In compliance with second version, separation plate fastener is arranged nearby axial bore edge to attach said plate to the spacer. EFFECT: damping without using the guide metallic rod or case. 10 cl, 6 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) 2 491 197 (13) C2 (51) МПК B61G 9/06 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (21)(22) Заявка: 2009144287/11, 01.05.2008 (24) Дата начала отсчета срока действия патента: 01.05.2008 (73) Патентообладатель(и): УОБТЕК ХОЛДИНГ КОРП. (US) (43) Дата публикации заявки: 10.06.2011 Бюл. № 16 2 4 9 1 1 9 7 (45) Опубликовано: 27.08.2013 Бюл. № 24 (56) Список документов, цитированных в отчете о поиске: DE 1993283 U, 05.09.1968. US 5351844 A, 04.10.1994. US 4198037 A, 15.04.1980. SU 386793 A1, 03.10.1973. 2 4 9 1 1 9 7 R U (86) Заявка PCT: US 2008/005607 (01.05.2008) C 2 C 2 (85) Дата начала рассмотрения заявки PCT на национальной фазе: 01.12.2009 (87) Публикация заявки РСТ: WO 2008/134084 (06.11.2008) Адрес для переписки: 129090, Москва, ул. Б. Спасская, 25, стр.3, ООО "Юридическая фирма Городисский и Партнеры" (54) СЖИМАЕМАЯ ЭЛАСТОМЕРНАЯ ПРУЖИНА (ВАРИАНТЫ) (57) Реферат: Группа изобретений относится к машиностроению. Пружина содержит множество эластомерных прокладок и размещенных между ними разделительных пластинчатых ...

Arbor clamping device for coilspring forming machine

본 발명은 코일스프링 성형기용 아버 클램핑장치에 관한 것이다. The present invention relates to an arbor clamping device for a coil spring forming machine. 본 발명은 아버홀더(14)의 결합공(26) 내측 상부에 유압실린더(30)에 의해 오무림작동하는 전후가동쐐기(32)(34)를 결합하고, 전후가동쐐기(32)(34) 아래에는 고정쐐기(28)를 결합하여 가동쐐기(32)(34)와 경사면을 통하여 면접촉하도록 하며, 고정쐐기(28) 아래에는 외면이 각진 아버(16)를 결합하여 유압실린더(30)의 작동으로 전후가동쐐기(32)(34)가 오무려지면서 고정쐐기(28)를 통하여 아버(16)를 가압고정해 주도록 한 것으로서, 컷팅작업시 아버(16)에 강한 충격하중이 가해지게 되더라도 아버(16)의 위치이탈이 방지되어 컷팅작업이 원활하게 이루어질 수 있도록 한 것이다. The present invention combines the front and rear movable wedges (32) and (34), which are squeezed by the hydraulic cylinder (30) inside the coupling hole (26) of the arbor holder (14), and the front and rear movable wedges (32, 34) The fixing wedge 28 is coupled to the bottom to be in surface contact with the movable wedges 32 and 34 through the inclined surface, and the lower surface of the hydraulic cylinder 30 is coupled to the outer surface by engaging the angled arbor 16. By actuating the front and rear movable wedges (32) and (34) by pressing the arbor (16) through the fixing wedge (28), even when a strong impact load is applied to the arbor (16) during the cutting operation. (16) of the position is prevented from being cut to facilitate the cutting operation.

Apparatus for manufacturing combined springs

내용 없음. No content.

スプリングの製造装置

(57)【要約】本公報は電子出願前の出願データであるた め要約のデータは記録されません。

用于机械摆系统的摆轮与游丝和其它件与组件及制造方法

本申请公开一种制造游丝(100)的方法，其由连续纤维或陶瓷形成，通过将这些材料缠绕在一个圆柱形模型(90)上，中间插入放松剂(110)。同样公开一种制造游丝的方法，优选地为陶瓷材料(60)，通过将其敷设在可转动模型(70)轴或盘上并随后进行热处理。也公开了一种摆轮，由于具有不同热膨胀系数的部件(8、9、10)的特定的布置，随着温度的升高，其转动惯量减少。还公开了一种机械摆系统，包括非磁性陶瓷或连续纤维的游丝(50)及由具有热膨胀系数小于6×10 －6 K －1 的材料形成的非磁性摆轮，该摆轮还具有多个非磁性的平衡或时间调整的附件(5)。

자동차시트용 스프링의 제조장치

본 발명은, 전체 제조공정들의 자동화를 구현하여 생산성향상을 통한 경제적인 이익을 구현할 수 있도록; 와이어(4)를 직선적으로 절곡하여 1차성형체를 형성하는 직선절곡성형수단(2)과, 상기 직선절곡성형수단(2)을 통해 성형된 상기 1차성형체에서 탄성부(102)를 프레스압착하여 '호' 형상으로 성형하도록 된 호압착성형수단(3)을 포함하여 이루어진 자동차시트용 스프링의 제조장치를 제공한다.

轭架和弹性体牵引装置的组合

一种牵引装置组件(10)，其可安装到有轨车辆的轭架(20)内以缓冲在组装和操作有轨车辆时遇到的撞击和牵引动态冲击力，该牵引装置组件包括与轭架的纵轴线对准地设置在前车钩随动件(60)与后随动件(50)之间的可压缩弹簧(102)。还可以提供被中心板(200)或轭架的壁(212)间隔开的一对轴向对准的可压缩弹簧(102a、102b)。

Shock absorber

Изобретение относитс  к машиностроению и м.б. использовано дл  защиты различного оборудовани  от вибраций и ударов. Целью изобретени   вл етс  повьппение эффективности демпфировани  за счет увеличени  силы межпроврлочного трени . Дл  этого смежные витки пружины 1 соединены стойками 2, обжимающими жилы каждого витка пружины 1, зазоры между жилами на участках между стойками 2 малы, а в местах обжати  практически отсутствуют . Это увеличивает межпроволочное трение и тем самым приводит к повышению демпфировани . 1 з.п. ф-лы, 1 ил. The invention relates to mechanical engineering and m. used to protect various equipment from vibration and shock. The aim of the invention is to increase the damping efficiency by increasing the strength of the inter-arm friction. For this, the adjacent coils of the spring 1 are connected by posts 2, which crimp the wires of each turn of spring 1, the gaps between the wires in the sections between the posts 2 are small, and there are practically no places at the points of reduction. This increases interwire friction and thereby increases damping. 1 hp f-ly, 1 ill.

Spring outer manufacturing method and manufacturing device for vehicle cables

The present invention relates to a method and a device for manufacturing a spring outer for a vehicle cable, which easily controls and maintains backtension. The method of the present invention comprises: a raw material supply step (S1); a wire drawing step (S2); a rolling step (S3); a long winding step (S4); a quality inspection step (S5); a spring outer extraction step (S6); and a packaging step (S7).

Spring forming machine

본 발명은 간단한 조작에 의해 다양한 스프링의 제조가 가능하도록 함으로서 호환성이 높고 구조가 간단하여 생산성 및 유지보수성이 향상되는 스프링 포밍머신을 제공하기 위한 것이다. The present invention is to provide a spring forming machine that can be produced by a variety of springs by a simple operation is highly compatible and the structure is simple to improve productivity and maintainability. 이에 따른 스프링 포밍머신은 본체(100)와, 상기 본체상에 설치되는 주구동수단(200)과, 이 주구동수단에 의해 작동되어 동력을 전달하는 동력전달수단(300)과, 이 동력전달수단에 의해 구동되는 수직 및 수평슬라이드 포밍 툴(400,500) 및 카세트 테이블(600)과, 공급되는 선재를 권취시키는 와인딩장치(700)와, 상기 와인딩장치에 의해 권취되는 스프링에 일정한 상하 자유장이 형성되도록 상하이동되는 피치장치(800) 및 제어부(900)가 구비된 구조에 있어서, 상기 와인딩장치(700)는 본체(100)의 지지부재(110)에 결합되는 와인딩축지지부재(710)와, 상기 와인딩축지지부재(710)에 회전 가능하게 결합되는 와인딩축(720)과, 상기 와인딩축을 구동시키는 제 1서보모터(730)가 구비되어 이루어지고, 상기 피치장치(800)는 지지부재(110)상에 설치되는 피치장치지지부재(810)와, 이 피치장치지지부재(810)의 일측에 설치되는 제 2서보모터(820)와, 상기 제 2서보모터(820)에 의해 승강 작동되는 승강부(830)와, 이 승강부(830)에 일측이 결합되고 타측이 상기 와인딩축 (720)에 결합되어 이 와인딩축을 승강시키는 연결부재(840)가 구성된 것이다. Accordingly, the spring forming machine includes a main body 100, a main driving means 200 installed on the main body, a power transmission means 300 which is operated by the main driving means to transmit power, and the power transmission means. Vertical and horizontal slide forming tools (400,500) and cassette table (600) driven by the winding device, a winding device (700) for winding the supplied wire rod, and the upper and lower so that a constant free length is formed in the spring wound by the winding device. In the structure provided with a moving pitch device 800 and the control unit 900, the winding device 700 is a winding shaft support member 710 coupled to the support member 110 of the main body 100, and the winding A winding shaft 720 rotatably coupled to the shaft supporting member 710 and a first servo motor 730 for driving the winding shaft are provided, and the pitch device 800 is formed on the supporting member 110. And pitch device support member 810 is installed in, The second servo motor 820 installed on one side of the pitch device ...

Continous heating device for coil springs and heating method for coil springs by using this device

The present invention relates to a continuous heating device for coil springs and a continuous heating method for coil springs using the same device. The continuous heating device for coil springs comprises: a pair of tapered rollers (20) to rotate and support a coil spring (10), in which a diameter of a cross section is increased from a front end part to a rear end part, in which a rotation central axis is not in parallel, and which is arranged in an inner surface in parallel; a conveyer chain (43) in which a push stick (41) to move the coil spring (10) is installed; and a driving unit to provide a rotation driving force for the tapered rollers (20). The continuous heating method for coil springs comprises the steps of: inserting and rotating a coil spring (10) after inserting the coil spring to prevent the coil spring from being discharged from a pair of tapered rollers (20) by using the tapered rollers (20) in which a diameter of a cross section is increased from a front end part to a rear end part, in which a rotation central axis is not in parallel, and which is arranged in an inner surface in parallel; moving the coil spring (10) by using a conveyor chain (42) in which a push stick (41) is installed; and rotating the coil spring (10) in an electricity inducing coil (31) section and heating the coil spring (10) by a high frequency induction magnetic field.

Spring and manufacturing method thereof

Spring and manufacturing method thereof

本发明提供在实现材料成本的降低和制备工序的简化的同时，耐疲劳性优异的弹簧及其制备方法。本发明的弹簧的特征在于，以质量%计，具有C：0.5~0.7%、Si：1.0~2.0%、Mn：0.1~1.0%、Cr：0.1~1.0%、P：0.035%以下、S：0.035%以下、余量由铁和不可避免的杂质构成的组成，在弹簧原料丝的任意横断面，以面积比例计，退火马氏体组织为95%以上，将任意横断面的圆当量直径计为D(mm)时，在距表面0.35mm~D/4的范围内形成有压缩残余应力层，其最大压缩残余应力为800~2000MPa，上述横断面中心的维氏硬度为550~700HV，在距表面深度为0.05~0.3mm的范围，形成有比上述中心硬度大50~500HV的高硬度层。

Absorbing mechanism assembly including case, contractible elastomer element and damping friction element

FIELD: transport. SUBSTANCE: absorbing mechanism assembly 84 comprises case 300 with one stopped end and exposed opposite end. note here that said case has rear part 321 located nearby stopped end and front part located nearby exposed end. Contractible elastomer spring 102 g is located at rear end and furnished with rear end adjoining stopped end inner surface. It comprises set of elastomer gaskets and plate-type separators 150, 190. EFFECT: decreased weight, damping of higher loads. 15 cl, 14 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) 2 489 289 (13) C2 (51) МПК B61G B61G B61G 9/06 9/10 9/22 (2006.01) (2006.01) (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (21)(22) Заявка: 2009144278/11, 01.05.2008 (24) Дата начала отсчета срока действия патента: 01.05.2008 (73) Патентообладатель(и): УОБТЕК ХОЛДИНГ КОРП. (US) (43) Дата публикации заявки: 10.06.2011 Бюл. № 16 2 4 8 9 2 8 9 (45) Опубликовано: 10.08.2013 Бюл. № 22 2 4 8 9 2 8 9 R U (85) Дата начала рассмотрения заявки PCT на национальной фазе: 01.12.2009 C 2 C 2 (56) Список документов, цитированных в отчете о поиске: US 2006/043045 A1, 02.03.2006. US 5351844 A, 04.10.1994. US 2005/155947 A1, 21.07.2005. US 6488162 B1, 03.12.2002. US 4198037 A, 15.04.1980. RU 2283791 C1, 20.09.2006. RU 2225306 C2, 10.03.2004. RU 2173273 C2, 10.09.2001. (86) Заявка PCT: US 2008/005652 (01.05.2008) (87) Публикация заявки РСТ: WO 2008/137052 (13.11.2008) Адрес для переписки: 129090, Москва, ул. Б. Спасская, 25, стр.3, ООО "Юридическая фирма Городисский и Партнеры" (54) УЗЕЛ ПОГЛОЩАЮЩЕГО АППАРАТА, СОДЕРЖАЩИЙ КОРПУС, СЖИМАЕМЫЙ ЭЛАСТОМЕРНЫЙ ПРУЖИННЫЙ ЭЛЕМЕНТ И ФРИКЦИОННЫЙ ДЕМПФИРУЮЩИЙ МЕХАНИЗМ (57) Реферат: Узел (84) поглощающего аппарата содержит корпусной элемент (300), закрытый на одном конце и открытый на противоположном конце, при этом корпусной элемент имеет заднюю часть (312), расположенную рядом с закрытым концом, и переднюю часть, расположенную рядом с открытым концом. Сжимаемая ...

The automatic forming equipment and its forming method of extruding bending spring with chamfering

本发明提供一种带倒角的挤压折弯弹簧的自动化成型设备，包括送线装置、固定支架以及送料轴芯，固定支架上固定有正左滑动刀座、正右滑动刀座、正下滑动刀座、左下滑动刀座、右下滑动刀座以及右上滑动刀座；正左滑动刀座和正右滑动刀座相向的一端连接有冲针，正下滑动刀座的端部连接有用于推动折弯钢丝线的折弯推块，右上滑动刀座的端部连接有修正推块，右下滑动刀座的端部连接有用于切断钢丝线的切断刀具，左下滑动刀座的端部连接有用于在切断刀具时辅助限位的辅助限位块；固定支架上还通过一连接架连接有一倒角气缸，倒角气缸的活塞杆一端连接有倒角组件，本发明用于解决传统生产工艺中生产效率低、材料浪费多、尺寸精度差的问题。

Intelligent integrated spring production line

本发明提供了一种智能一体化弹簧生产线，包括机箱，所述机箱顶端固定有弹簧加工工装、底端滑动连接有清理箱，所述清理箱的内部设有弹簧处理组件，所述弹簧处理组件包括位于所述清理箱内部且由上至下依次设置的第一除杂输送机构以及第二除杂输送机构，所述第一除杂输送机构包括通过转动轴与所述清理箱内壁转动连接的过滤板，位于所述过滤板垂直正下方的n形导料滑台，所述第二除杂输送机构包括固定于所述n形导料滑台内部第一气缸，固定于所述第一气缸顶端且倾斜设置的支撑架，固定于所述支撑架顶端表面的多个动筛板，以及位于每个所述动筛板一侧的静筛板。本发明能够对弹簧表面进行清理并对弹簧与其上废屑进行分离，从而提高了弹簧的产品品质。

A method of manufacturing springs from steel

1. Способ изготовления пружин из стали, включающий нагрев заготовки до температуры выше точки AC, пластическую деформацию заготовки винтовым обжатием при температуре выше точки AC, навивку заготовки в спираль, охлаждение спирали и отпуск спирали, отличающийся тем, что перед навивкой заготовку охлаждают до температуры начала мартенситного превращения.2. Способ по п. 1, отличающийся тем, что температура начала мартенситного превращения находится в пределах (350±50)°C.3. Способ по п. 1, отличающийся тем, что после нагрева заготовки осуществляют её выдержку в течение заданного времени при температуре выше точки AC.4. Способ по п. 1, отличающийся тем, что пластическую деформацию заготовки осуществляют винтовым обжатием с закручиванием, а навивку заготовки в спираль осуществляют в направлении закручивания заготовки. РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2015 100 742 A (51) МПК B21F 3/00 (2006.01) B21F 35/00 (2006.01) C21D 9/02 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ЗАЯВКА НА ИЗОБРЕТЕНИЕ (21)(22) Заявка: 2015100742, 12.01.2015 (71) Заявитель(и): Общество с ограниченной ответственностью "Белфингрупп" (RU) Приоритет(ы): (22) Дата подачи заявки: 12.01.2015 (43) Дата публикации заявки: 10.08.2016 Бюл. № 22 A 2 0 1 5 1 0 0 7 4 2 R U Стр.: 1 A (57) Формула изобретения 1. Способ изготовления пружин из стали, включающий нагрев заготовки до температуры выше точки AC3, пластическую деформацию заготовки винтовым обжатием при температуре выше точки AC3, навивку заготовки в спираль, охлаждение спирали и отпуск спирали, отличающийся тем, что перед навивкой заготовку охлаждают до температуры начала мартенситного превращения. 2. Способ по п. 1, отличающийся тем, что температура начала мартенситного превращения находится в пределах (350±50)°C. 3. Способ по п. 1, отличающийся тем, что после нагрева заготовки осуществляют её выдержку в течение заданного времени при температуре выше точки AC3. 4. Способ по п. 1, отличающийся тем, что пластическую деформацию ...

Cushioning unit to absorb impact and traction dynamic loads (versions) and friction mechanism for said unit

FIELD: transport. SUBSTANCE: cushioning unit 76, 78 comprises elastic cushioning element 102 and friction mechanism 220 arranged axially inside traction yoke 20. Friction mechanism is arranged between the elastic cushioning element and front thrust plate 60. Two elastic cushioning elements with friction mechanism arranged there between may well be used. EFFECT: reduced weight, higher reliability. 22 cl, 6 dwg (19) РОССИЙСКАЯ ФЕДЕРАЦИЯ RU (11) 2 456 190 (13) C2 (51) МПК B61G B61G B61G 9/06 9/10 9/22 (2006.01) (2006.01) (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (21)(22) Заявка: 2009144283/11, 01.05.2008 (24) Дата начала отсчета срока действия патента: 01.05.2008 (43) Дата публикации заявки: 10.06.2011 Бюл. № 16 2 4 5 6 1 9 0 R U (85) Дата начала рассмотрения заявки PCT на национальной фазе: 01.12.2009 C 2 C 2 (56) Список документов, цитированных в отчете о поиске: US 2817445 А, 24.12.1957. US 3799360 А, 26.03.1974. US 2858030 A, 28.10.1958. US 6446820 В1, 10.09.2002. US 1852486 А, 05.04.1932. US 761795 А, 07.06.1904. RU 2283791 С1, 20.09.2006. RU 2225306 С2, 10.03.2004. RU 2173273 С2, 10.09.2001. (86) Заявка PCT: US 2008/005598 (01.05.2008) (87) Публикация заявки РСТ: WO 2008/134079 (06.11.2008) Адрес для переписки: 129090, Москва, ул. Б. Спасская, 25, стр.3, ООО "Юридическая фирма Городисский и Партнеры" (54) ПОГЛОЩАЮЩИЙ АППАРАТ ДЛЯ АМОРТИЗАЦИИ УДАРНЫХ И ТЯГОВЫХ ДИНАМИЧЕСКИХ НАГРУЗОК (ВАРИАНТЫ) И ФРИКЦИОННЫЙ МЕХАНИЗМ ДЛЯ ПОГЛОЩАЮЩЕГО АППАРАТА (57) Реферат: Поглощающий аппарат (76, 78) упругий амортизирующий элемент фрикционный механизм (220), аксиально установлены внутри хомута (20). Фрикционный располагается между концом амортизирующего элемента и передней упорной плитой (60). Возможно применение пары упругих амортизирующих элементов с фрикционным механизмом, установленным между ними. Обеспечивается облегченный и надежный поглощающий аппарат для больших динамических нагрузок. 6 н. и 16 з.п. ф-лы, 6 ил. ...