Устройство для резки трубчатых изделий из стекла

Установка для отделения колпачков от заготовок стеклянных изделий

... 1. УСТАНОВКА ДЛЯ ОТДЕЛЕНИЯ КОЛПАШСОВ ОТ ЗАГОТОВСЖ СТЕКЛЯННЫХ ИЗДЕЛИЙ по авт. св. № 835977, отличающаяся тем, что, с целью повышения производительности путем управления вращением патронов при их перемещении, приводы снаб . жены установленными параллельно конвейеру косозубыми валами и взаимодействующими с ними зубчатыми колесами, смонтированными на патронах. 2. Установка по п. 1, о т л и ч а ю щ а я с я тем, что, с целью снижения динамических нагрузок, она снабжена установленными на патронах коническими фрикционами и взаимодействующими с ними линейками, смонти - рованными с возможностью установочного перемещения . сл 00 Nd СП ф.иг.1 ...

Устройство для резки стеклозаготовок

Автомат для оплавки и сортировки стеклянных трубок

Сущность изобретения: автомат снабжен кронштейном крепления магазина и тягой . Тяга соединяет кронштейн с вибробункером. Кронштейн выполнен в виде пластинчатой пружины, один конец которой заделан на тяге, а второй консольный конец с магазином имеет возможность от вибропривода совершать колебательные движения в направлении, перпендикулярном плоскости вращения карусели. 2 ил.

Машина для разрезки стеклянных трубок

КАРУСЕЛЬНАЯ МАШИНА ДЛЯ ОТРЕЗКИ СТЕКЛОИЗДЕЛИЙ

Устройство для резки стеклянных трубок

Изобретение относится к промышленности строительства и стройматериалов- и может быть использована при разделке охлажденного стекла. С целью повышения качества среза и сокращения брака по излому бесцентровая роликовая опора для резки трубок состоит из ведущего тормозного ролика с регулируемой скоростью вращения в одном направлении с механизмом резки и ролика из эластичного материала. Это обеспечивает постоянное усилие прижима обрабатываемой трубки без поломки ее при максимальном прогибе. Регулируемая скорость вращения тормозного ролика обеспечивает относительное вращение трубки и режущего диска. Свободно вращающийся ролик из эластичного материала является мягкой опорой, снижающей изгибающий момент трубки, вызванньй усилием прижима 2.ил..

Станок для отрезки изделий

Станок для резки стеклянных трубок

Способ вырезки фигурных стекол

Устройство для резки горячей стеклянной трубы в процессе ее непрерывного вытягивания

Устройство для резки стеклянных труб

Устройство для резки стеклянных труб

Устройство для обрезки и формовки края полых стеклоизделий

Изобретение касается обработки полых стеклоизделий, в частности обрезки припуска с отопкой края с одновременным формованием обрезанного края стеклянных рассеивателей. Цель изобретения - снижение трудоемкости, повьштение производительности и расширение технологических возможностей. Устройство имеет станину 1, шпиндель- вакуум-захват 2. Крепление стекло-. изделий 7 в вакуум-захвате, осуществляют вакуум-насосом 8. Механизм сброса выполнен в виде самоопрокидывающегося лотка и установлен над формую о (Л со ел 00 (Х ...

Способ разделения стеклянных трубок на части

Изобретение относится к области резания трубчатых изделий из стекла, применяемых в микроэлектронике , оптике, связи, вакуумной про- мьшшенности. Цель изобретения - повышение качества трубок,Перед резанием трубок из стекла технологическую подложку покрывают вулканизирующимся однокомпонентным гермети- ком на основе низкомолекулярных кремнийорганических каучуков (марки . ВГО-1).Стеклянные трубки укладывают на технологическую подложку и выдерживают при комнатной температуре 2 ч. За этот период компаунд переходит в резиноподобную пленку, которую после разрезания легко удаляют. (Л ...

Устройство для резки стеклянных трубок

Способ разделения стеклянных трубок на части

Изобретение относится к промьш- ленности строительства и стройматериалов , к области резания изделий из трубчатых, капиллярных материалов , применяемьсх в частности в микроэлектронике , оптической, средств связи и вакуумной промышленности при изготовлении микрокапилляров, изоляторов, микросхем, микроэлементов для оптических соединений. С целью предотвращения внедрения продуктов резания и клеящего вещества внутрь трубок и повьпиения выхода годных изделий перед укладкой трубки заполняют вязкой жидкостью, далее укладывают на технологическую подложку , заливают клеящим веществом, в качестве которого используется вос- коканифольная смесь, разрезают на заданные отрезки и отмывают в растворителе от клеящего вещества. Растворителем может служить метилэтилке- тон. В случае необходимости обработки отверстия под конус для ввода оптического волокна таблетка служит отличной матрицей для выравнивания заходных конусов, происходит экономия 80% времени, затрачиваемого на заправку капилляров в резиновые ...

Устройство для резки стеклянной трубки режущим роликом

Способ механической обработки изделий преимущественно из ферромагнитных материалов

Изобретение относится к промьш- ленности строительства и стройматериалов , к технологии механической обработки и может быть использовано при обработке изделий из ферромагнитных материалов. С целью повышения качества обрабатьшаемых изделий в способе механической обработки изделий перед последней поверхность заготовки пропитывают пропиточной суспензией. Суспензия представляет собой дисперсную систему, в которой дисперсная фаза является твердой и состоит из ферромагнитного порошка, а дисперсионная среда - жидкой и является пропиточным лаком. После пропитки заготовки сушат в сушильном шкафу, В результате пропитки микропоры на поверхности заготовки заполняются суспензией и благодаря клеящим свойствам лака создают прочньй монолитный поверхностный слой кристаллического строения. Слой су спензии упрочняет обрабатываемую поверхность. Затем на поверхность заготовки наносят слой пропиточной суспензии путем распыления и одновременно обертывают заготовку пропиточной бумагой. Далее зтот комбинированный ...

Станок для резки стеклянных труб

Изобретение относится к строительству и стройматериалам, к устройствам для мерной резки стеклянных труб. С целью автоматизации отрезки концов труб с различными диаметрами и длинами, повьшения каче ства и производительности , станок выполнен с оригинальной конструкцией механизма подачи и труб. Кроме того, он снабжен цепным приводным устройством для коррекции положения, концов труб относительно отрезных дисков. Действие станка основано на поочередной обрезке концов с подшлифовкой торцов труб. После обрезки одного конца производится коррекция положения другого конца относительно отрезного диска. Так как обрезка противоположных концов двух труб производится одновременно, то производительность и ритм работы станка определяется машинным временем отрезки одного конца и зависит только от диаметра отрезаемой трубы. Оригинальное зажимное устройство станка обеспечивает боковой зажим каждой трубы индивидуально . Это позволяет резать трубы без скалов, снижает повторную резку труб и брак. 5 ил. (Л ...

Станок для резки неметаллических материалов

Устройство для резки труб

Машина для ломки капилляров стеклянных ампул

Устройство для резки прецизионных штабиков

Машина для разрезки стеклянных трубок

Устройство для резки стекло-ВОлОКНА

Устройство для обработки трубчатых заготовок

Изобретение относится к производству изделий из трубчатых пористых и капиллярных материалов, применяемых в химической, строительной, медицинской и пищевой отраслях промышленности, и может быть использовано в частности при изготовлении фильтрэлементов из полых волокон. Целью изобретения является повышение качества обработки за счет предотвращения попадания посторонних включений внутрь капилляров. Устройство для обработки заготовок из трубчатых капиллярных материалов содержит механизм подачи с фиксирующими гнездами для заготовок 4. Механизм резания включает две пары режущих дисков, установленных соосно. Причем одна пара предназначена для чистовой обработки, а другая - для черновой. У каждого режущего диска установлены воздушные инжекторы. При этом инжекторы 13 и 13 1, расположенные у дисков чистовой обработки, размещены в плоскости режущего диска перпендикулярно его оси, а инжекторы 11 и 11 1 установлены у дисков черновой обработки и размещены между последними. Каждая пара режущих дисков ...

Устройство для резки стеклянных труб

Устройство для резки стеклозаготовой, имеющих форму тел вращения

Process for producing at least one predetermined breaking notch on a glass body, in particular on a friable ampoule

With the aid of a focussed laser beam 40, a predetermined breaking notch is produced on a friable ampoule 10 in the region of the constriction 14 by corresponding vapourising of glass material. Particularly uniform rupture lines under defined rupture forces are obtained if a row of notch holes 16 is made in pulsed operation of the laser. ...

VERFAHREN UND VORRICHTUNG ZUM ABTRENNEN VON GLASROHREN

VERFAHREN UND ANORDNUNG ZUR STEUERUNG EINES SYSTEMS VON GLASBEARBEITUNGSMASCHINEN

Vorrichtung zur mechanischen Abtrennung einzelner Stuecke von einem Glasrohr oder -stab

EINRICHTUNG ZUM ZIEHEN EINES KERBSCHNITTES LAENGS EINES HOHLEN, ZYLINDERFOERMIGEN GEGENSTANDES

VORRICHTUNG ZUM RITZEN VON AMPULLEN UND GLASROHREN

PRESSURIZER MECHANISM FOR USE ON A GLASS RIBBON MACHINE

... 1349065 Pressurizer device for use in glass ribbon machine OWENS-ILLINOIS Inc 1 Jan 1971 [2 Jan 1970 16 Jan 1970] 34722/73 Divided out of 1349064 Heading C1M A pressurizer device for blowing air into the mouth of a glass article 19 suspended from a glass ribbon 13 on a plate conveyer 14 during the crack-off of moil 23, as in Specification 1,349,064, comprises a pipe 22 with central aperture 26 connected to a source 54 of air under pressure and a nozzle head 22b having an outer axial end wall 27, an annular and outwardly flared side wall and a series of upwardly inclined apertures 25 arranged annularly about the side wall so that when in position close to the inside surface of the article 19, air supplied to the pipe is directed by the apertures 25 upwardly and outwardly to prevent broken glass entering the article 19. Specifications 1,349,064 and 1,349,066 are referred to. Reference has been directed by the Comptroller to Specification 1,301,335.

MAKING HOLLOW GLASS ARTICLES

... 1458905 Making hollow glass articles PHILIPS ELECTRONIC & ASSOCIATED INDUSTRIES Ltd 11 April 1974 [16 April 1973] 16304/74 Heading C1M Hollow glass articles are produced by depositing a shaped glass blank on a carrier plate provided with a hole, allowing part of the blank to sag through the hole, forming that part into the required shape using a blowhead and a mould and separating the articles from the carrier while the articles are in a position with their open ends downwards. Specification 1,458,068 is referred to.

A METHOD AND DEVICE FOR CUTTING A GLASS TUBE INTO PIECES"

The method and device are of the type in which a continuous glass tube (T) moves along its own axis (X) at a given constant linear velocity (Vs) and a rotary cutting tool (60) is used to effect the cutting and is provided with a cutter (62) which travels along a circular orbit (O) lying in a plane (P) inclined to the axis (X) of the tube (T). In one segment of its orbit, the cutter (62) intersects the outer surface of the tube (T) which is cut upon each rotation of the tool (60) whilst the tool is driven at such an angular velocity ( omega s), termed the synchronism velocity that its cutter (62) has a linear component (Vs) of the velocity of the tube (T). The tool (60) is rotated by its own variable-speed motor. The motor imparts the synchronism velocity ( omega s) to the tool (60) for a minor fraction (I) of each revolution, which includes the said segment (S) of the orbit of the cutter (62). For the remaining, major fraction (II-III) of each revolution, however, the motor imparts to the ...

Improvements relating to the manufacture of hollow glass articles

In the method of making hollow glass articles wherein the article is subjected to an operation such that glass particles are deposited and held on the interior of the glass article, the method of removing such particles which comprises contacting the glass article with a resonator of an ultrasonic generator system and subjecting the article to ultrasonic vibrations from the ultrasonic generator.

MANUFACTURE OF GLASS PRODUCTS

IMPROVEMENTS IN OR RELATING TO GLASS GRIPPING DEVICES

... 1,273,271. Glass gripping devices. CHANCE BROS., Ltd., and H. HALLER. 22 Dec., 1969 [2 Jan., 1969], No. 371/69. Heading C1M. Glass gripping devices for moving glass tubing 1, rod or strip as through a cutting machine, comprises two pairs of rollers 3A, 4A and 3B, 4B, each pair mounted on opposite sides of the path 2 of travel of the tubing 1 and the rollers 3A, 3B being on fixed axes, interconnected by parallel links 5, 8 and 6A, 7A; 6B, 7B, one of the links 6B having an extension 10 on which is secured a weight 11 or similar means to bias the rollers 4A and 4B into contact with the glass tubing 1 to grip the tubing against the rollers 3A, 3B. One or more of the rollers may be driven for moving the glass tubing along the path 2. The rollers 3A, 3B are preferably on a fixed support with the rollers 4A, 4B free to swing. The rollers 4A, 4B may have, as shown, an outwardly concave surface to assist centering of the tubing 1. The entire device may be mounted for rotation about an axis coinciding ...

BOTTLE CUTTER

... 1365246 Cutting glass bottles and like articles BRICMAR MFG CORP 27 Oct 1972 [10 May 1972] 49612/72 Heading C1M Apparatus for cutting glass bottles 20 or like articles comprises a base-plate 22 for supporting the bottom (20a) of the bottle on its flat upper surface, a post 28 extending upwardly from the plate 22 on which a cutting frame 26 with a cutting wheel 24 is slidably mounted, the cutting frame 26 being fixed as by screw 40b and nut 40c so that the wall 20b of the bottle can be scored by rotation of the bottle 20 while pressed on to the base-plate and pressed against the eutting-wheel 24. The bottle 20 may be pressed against and positioned by an arm 30, Fig. 2, pivoted at 32 to the base-plate 22 and releasably secured at its other end by a bolt 36 passing through an arcuate slot 34 in the base-plate 22 and secured by nut 36c. After scoring, the cut is opened by tapping on the score line or by thermal shock. For bottles not having vertical walls, Fig. 6, the cutting frame 26, which ...

Electrodialysis apparatus

... 750,220. Electrodialysis apparatus. NEDERLANDSE CENTRALE ORGANISATIE VOOR TOEGEPAST-NATUURWETENSCHAPPELIJK ONDERZOEK. May 28, 1953 [Sept. 23, 1952], No. 23893/52. Class 41. In a multi-cell electrodialysis apparatus in which the space between two electrode chambers is subdivided by a series of alternate positive and negative membranes, preferentially allowing negative and positive ions to pass respectively into alternate dialysis and rinsing cells, the dialysis cells having a common outlet and the rinsing cells having a separate common outlet, each common outlet consists of a line of holes; one in each membrane, the border of each hole in a membrane bounding a cell being held in liquid-tight contact with the border of the adjacent corresponding hole in the next membrane bounding the following similar cell. Where the dialysate and rinsing liquid are different the dialysis cells have a common inlet and the rinsing cells have a separate common inlet, each common inlet consisting of a line of ...

Electrodialysing apparatus

... 750,238. Electrodialysis apparatus. NEDERLANDSE CENTRALE ORGANISATIE VOOR TOEGEPAST-NATUURWETENSCHAPPELIJK ONDERZOEK. June 1, 1953 [Sept. 23, 1952], No. 15225/53. Divided out of 750,220. Class 41. A method of rinsing at least one of the electrode chambers of an electrodialysing apparatus comprises subdividing the electrode chamber by means of one or more ion permeable diaphragms into an auxiliary compartment bounded by the membrane bounding the electrode chamber, and an electrode compartment bounded by or containing the electrode, with or without one or more intermediate compartments, passing rinsing liquid through the auxiliary compartment so as to contact and rinse the whole surface of the membrane and from thence through the electrode compartment, or in series through the intermediate compartments and the electrode compartment, the direction of flow in each compartment being opposite to the direction of flow in the adjacent compartment, and discharging the rinsing liquid from the electrode ...

Glass cane and tube severing apparatus

... 775,327. Cutting glass tubing and the like. OWENS-ILLINOIS GLASS CO. May 10. 1955 [June 8, 1954], No. 13472/55. Class 56 Glass tubing or rod 45 is cut into lengths by: being moved under strain into contact with a constantly rotating cutter 16. The cutter is mounted at the front end of a lever arm 11 which is oscillated in a horizontal plane about a pivot 14 by means of the link 54, whereby the cutter moves along with the rod for part of its movement. The rod is supported by two rollers 70 carried by a framework connected to a shaft 72 which is periodically rocked by a cam 73 to raise the rollers and thereby the,rod into contact with the cutter. In its upward movement the rod contacts a gauge plate which is yieldingly- and adjustably mounted. The rollers 70 thus serve as an anvil during the severing of the rod. The severing action is assisted by paddles 109 striking downwardly on the leading end of the advanc-. ing rod.

TOOL FOR BREAKING OPEN GLASS AMPULS

PROCEDURE FOR HYDRAULICTHERMAL BREEDING FROM CRYSTALS MEANS SEED CRYSTALS COMPOSITION SHEETS

PROCEDURE FOR THE PRODUCTION OF THIN-WALLED BLOWING DECORATIVE ONE GLASS ARTICLES

QUARTZ GLASS PLATES OF HIGH ONES REFRACTIVE INDEX HOMOGENEITY

PROCEDURE FOR THE PRODUCTION FROM CYLINDER BARREL SECTIONS PREFERABLY FROM GLASS EXISTING PIPES AND DEVICE FOR DRUCHFÜHRUNG THE PROCEDURE

Method of making a container from a bottle

ELECTRONICALLY CONDUCTIVE SPACERS, METHOD FOR MAKING SAME AND USES IN PARTICULAR FOR DISPLAY SCREENS

SCORING APPARATUS

BOTTLE CUTTER

REMOVAL OF GLASS PARTICLES FROM GLASS ARTICLES

APPARATUS FOR WELDING GLASS RODS,PARTICULARLY TUBULAR GLASS RODS

METHOD FOR PRODUCING A GLASS KNIFE

Procédé pour l'enlèvement d'objets de verre manufacturés et machine pour la mise en oeuvre de ce procédé.

Glasrohrschneidmaschine.

Procédé de sectionnement d'éléments d'une pièce vitreuse et dispositif pour la mise en oeuvre de ce procédé

Maschine zum selbsttätigen Bearbeiten der Enden an langen Glasröhren

Verfahren zur Herstellung von Glasampullen und nach dem Verfahren hergestellte Glasampulle

Verfahren zur Herstellung eines neuen Wollfarbstoffes der Anthrachinonreihe.

Procédé de fabrication d'un récipient en verre à col autocassable

Appareil pour tronçonner un tube capillaire

DISPOSITIF POUR COUPER UN OBJET CYLINDRIQUE CREUX.

PROCEDURE AND DEVICE FOR MAKING FROM AMPULS IN A PRODUCER MACHINE OF TUBE GLASS OF MANUFACTURES CONTAINER BLANKS.

PROCEDURE FOR SAEUBERN OF BOTTLE GLASS OF ON IT DEPOSIT GLASS PARTICLES.

Auxiliary device of automatic bar cutting machine

Synchronous pipe cutter

The invention provides a synchronous pipe cutter, comprising a rack (1) and a motor, wherein the at least two conveyor belts (2) are arranged on the rack (1) in parallel, the conveyor belts (2) are both connected with the motor, one side of the rack (1) is provided with a knife rest (3), the knife rest (3) is provided with a cutter head (4), the cutter head (4) is provided with a blade (5), and the two sides of the blade (5) are respectively provided with at least two heating units (6). According to the invention, the conveyor belts are driven in the same direction with same speed, the blade simultaneously cuts the strip lamp on each conveyor belt; the strip lamps of multiple stations are synchronously conveyed and cut simultaneously, thus the production efficiency is greatly raised.

Automatic waist-cracking machine for glass liner

Make optical fiber perform's rotatory sword formula glass stick cutting machine and control circuit

Grinding wheel duplex-cylinder propulsion cutting device in auto-cutting machine for glass tube

Glass tube cutting machine

CRT television picture tube screen taper glass separating method and equipment

The invention relates to a separation method and a separation device of CRT kinescope screen pyramid glass. The separation device comprises a worktable, a revolving platform, a scoring device, a heater winding device, and a kinescope fastening device. The kinescope fastening device is positioned on the revolving platform; the scoring device and the heater winding device are arranged near to the revolving platform and in the same level position. The heater winding device consists of a heater, a heater start-up component, a heater clamp head, a heater clamp component, a heater winding box, a heater compaction component and a propulsion device. The start-up component is positioned on the revolving platform. One end of the heater is fixedly positioned on the start-up component, and then one end of the heater in turns passes through the clamp head and the compaction component, and the other end is wound in the winding box. The clamp component can clamp the heater during the electric heatingprocess ...

Device of cutting of tube of glass

METHOD AND APPARATUS FOR FORMING A FINISH ON A GLASS CONTAINER

DISPOSITIF DE FABRICATION D'ARTICLES EN VERRE SOUFFLE

UN DISPOSITIF DE FABRICATION D'ARTICLES DE VERRE SOUFFLE V COMPREND UNE TABLE DE TRAVAIL 118 PRESENTANT UN TROU CIRCULAIRE ROTATIF POUR LA RECEPTION D'UNE PARAISON DE VERRE FONDU, UN MOULE QUI PEUT ETRE OUVERT SOUS LE TROU, UNE TETE DE SOUFFLAGE TOURNANTE 100 SURMONTANT LE TROU ET AGENCE POUR PRESSER LA PARAISON AFIN DE L'INTRODUIRE PAR SOUFFLAGE DANS LE MOULE A TRAVERS LE TROU ET UN DISQUE DE COUPE 138 POUR LE SECTIONNEMENT DU COLLET DE VERRE SOLIDIFIE CL ENTOURANT LE BORD DU TROU AU RAS DE LA TABLE 118. LA TABLE DE TRAVAIL 118 PEUT ETRE RENVERSEE SUR 180 ENTRE UNE POSITION ACTIVE ET UNE POSITION RENVERSEE DANS LAQUELLE LE COLLET EN VERRE CL REGARDE VERS LE BAS ET LE DISQUE DE COUPE 138 EST DISPOSE DE FACON A SECTIONNER LE COLLET AU RAS DE LA TABLE DANS CETTE POSITION RENVERSEE.

Improvements to devices for cutting tubes and rods, especially glass

Improvements with the processes and devices for the cut of the similar points of ampoulesou

Test of fragile objects

Glass-cutting apparatus

Glass cutting jig - for cutting tubes, rods and profiles leaving a smooth cut surface

Accurate method of cutting tubes rods, profiles and similar articles esp. of glass and ensuring good quality of the cut surface comprises cutting part way through the article with a first thin, plane, circular slitting wheel, then with second stone which is plane, circular and thick, acting in the same plane as the first and over the whole section of the tube, etc., the article being held firmly on both sides of the cut in the same position during the two operations. Process avoids chipping of the back edge of the cut at the end of cutting.

PROCESS AND DEVICE TO OPEN BULBS FOR IRRADIATION

SECURITY TOOLS FOR the OPENING OF the BULBS

Glass cutting machine - for cutting the caps from blown household glassware to form open top glass vessels eg wine glasses

GLASS ARTICLE FORMING ON RIBBON MACHINE AND REMOVAL THEREFROM

Process of increase in dimensions of the crystals élaborables by hydrothermal growth, utilisantun germ obtained by assembly of crystalline blades

La présente invention concerne un procédé d'accroissement des dimensions des cristaux de quartz et des matériaux isomorphes du quartz, élaborables par croissance hydrothermale sur germe, dans lequel on utilise un germe obtenu par assemblage de plusieurs lames cristallines, caractérisé en ce que l'on assemble au moins deux lames de longeurs et/ou de largeurs strictement identiques et d'épaisseurs voisines, taillées dans au moins un cristal, et présentant sur trois faces au moins des orientations cristallines dont les écarts entre les lames restent inférieurs à environ 10" d'arc et en ce que lesdites lames sont rapprochées sur un support par des éléments de guidage, assurant ainsi leur alignement sur les trois faces précitées en conservant des écarts d'orientation cristalline inférieurs à environ 10" d'arc, une face par lame étant laissée libre en vue de la croissance des germes assemblés conduisant à l'obtention d'un monocristal présentant au moins une dimension supérieure à celle correspondant ...

CUTTING APPARATUS FOR QUARTZ AMPOULE

Method for forming a glass preform

A method of forming a glass preform of predetermined length comprises providing a length of glass material to be separated to form a preform length and a remaining length; forming a notch in the glass material; inducing a tensile stress in excess of the tensile strength of the glass in an area adjacent to the notch; and separating the preform length from the remaining length at the notch.

GLASS PHOSPHOR COLOR WHEEL AND METHODS FOR PRODUCING THE SAME

A glass phosphor color wheel includes a wheel body made of a glass phosphor formed by sintering a glass material and fluorescent powder. The fluorescent powder is a fluorescent material selected from the group consisting of yttrium aluminum garnet, nitride, silicate, aluminate, and oxynitride. The glass material is selected from the group consisting of a silicate system, a phosphor system, a borate system, and a tellurate system. A method for producing a glass phosphor color wheel includes concentrically placing an inner tube into an outer tube. The glass material and the fluorescent powder are placed between the outer and inner tubes and are formed into a wheel body. In another method, the glass material and the fluorescent powder are sintered at a temperature of 500-1000° C. to form at least one glass phosphor color block that is subsequently coupled to a substrate to form a glass phosphor color wheel. 1. A glass phosphor color wheel comprising a wheel body made of a glass phosphor , with the glass phosphor formed by sintering a glass material and fluorescent powder , wherein the fluorescent powder is a fluorescent material selected from the group consisting of yttrium aluminum garnet (YAG) , nitride , silicate , aluminate and oxynitride , and wherein the glass material is selected from the group consisting of a silicate system , a phosphor system , a borate system and a tellurate system.2. The glass phosphor color wheel as claimed in claim 1 , further comprising a substrate including a first face and a second face opposite to the first face claim 1 , with the substrate further including a through-hole in a center thereof claim 1 , and with the color wheel coupled to the first face of the substrate.3. The glass phosphor color wheel as claimed in claim 1 , wherein the fluorescent powder has a doping rate not larger than 50 wt %.4. The glass phosphor color wheel as claimed in claim 1 , with the wheel body including a primary color board and at least one mixing color ...

GLASS TUBE PRODUCTION METHOD

Method and apparatus for manufacturing glass tubes having a predetermined inner profile, preferably for continuously manufacturing such glass tubes

The invention relates to a method and apparatus for manufacturing glass tubes having a predetermined inner profile according to a Vello-method or Down-Draw-method, wherein molten glass 6 emerges from an outlet orifice 12 of a melt feed 2 and is drawn over a shaping body 3 so as to form a hollow drawing bulb 50, and the drawing bulb 50 is drawn over a profile forming body 4 positioned downstream of the shaping body 3 to form the predetermined inner profile. In order to enable a reliable and riskless positioning of the profile forming body 4 in an operational position within the drawing bulb 50, according to the invention the profile forming body 4 is moved in axial direction either from below the shaping body 3 via the inner space of the glass tube 5; 5′ or via an inner bore 31 of a shaft 30 supporting said shaping body until reaching an operational position in the inner space of said glass tube 5; 5′.

METHOD AND DEVICE FOR CUTTING GLASS TUBES

The present disclosure relates to a method and device for cutting glass tubes with a length L from a glass tubing that moves at a feed rate v. The glass tubing is investigated for defects with an analytical device. The analytical device determines whether a glass tube to be separated is either defect-free (case 1) or contains defects (case 2). In case 1, a defect-free glass tube of the length L is separated from the glass tubing. In case 2, the device and method of the present disclosure determines a distance Lin the lengthwise direction between the defect and a free end of the glass tube to be separated. The distance Lis determined from the portion of the defect at the greatest distance from the free end of the tube. The device and method of the present disclosure then separates a piece of a glass tube or a glass tube that contains defects from the glass tubing at a distance Lfrom the free end of the glass tube, as a function of L. 1. A method for cutting glass tubes having a length L from a glass tubing that moves at a feed rate v , comprising the steps of:investigating the glass tubing with an analytical device;determining whether a glass tube of length L to be separated from the glass tubing is either defect-free (case 1) or contains defects (case 2);in case 1, separating the glass tube of the length L from the glass tubing; and [{'sub': A', 'A, 'a) determining a distance Lin the lengthwise direction between the defect and a free end of the glass tube to be separated, wherein the distance Lis determined from the portion of the defect at the greatest distance from the free end of the tube; and'}, {'sub': S', 'A, 'b) separating a piece of a glass tube or a glass tube that contains defects from the glass tubing at a distance Lfrom the free end of the glass tube as a function of L.'}], 'in case 2,'}2. The method of claim 1 , further comprising the steps of:{'sub': 1', 'n+1, 'subdividing the glass tubing, starting from the free end of the glass tube to be separated, ...

GLASS TUBES AND METHODS OF MAKING A SUBSTANTIALLY RECTANGULAR GLASS COVER MEMBER

Methods of making a substantially rectangular glass cover member includes the step (I) of providing a glass tube including a plurality of substantially rectangular glass segments including respective edges that are integrally attached to one another at attachment locations. The plurality of substantially rectangular glass segments are radially arranged about an axis of the glass tube to define an outer periphery of the glass tube. The method can further include the step (II) of separating the plurality of substantially rectangular glass segments from one another at the attachment locations to provide a plurality of substantially rectangular glass cover members. In still further examples, glass tubes include a plurality of glass segments that each includes a convex surface and a substantially flat surface. 1. A method of making a substantially rectangular glass cover member , the method comprising the steps of:(I) providing a glass tube including a plurality of substantially rectangular glass segments including respective edges that are integrally attached to one another at attachment locations, wherein the plurality of substantially rectangular glass segments are radially arranged about an axis of the glass tube to define an outer periphery of the glass tube; and(II) separating the plurality of substantially rectangular glass segments from one another at the attachment locations to provide a plurality of substantially rectangular glass cover members.2. The method of claim 1 , wherein claim 1 , after claim (II) claim 1 , further comprising the step of finishing the edges of the glass segments.3. The method of claim 1 , wherein claim 1 , after claim (II) claim 1 , further comprising the step of chemically strengthening the plurality of glass segments.4. The method of claim 1 , wherein step (II) separates the plurality of glass segments to provide the plurality of glass cover members with substantially the same shape.5. The method of claim 1 , wherein step (II) ...

GLASS PACKAGING ENSURING CONTAINER INTEGRITY

A strengthened glass container or vessel such as, but not limited to, vials for holding pharmaceutical products or vaccines in a hermetic and/or sterile state. The strengthened glass container undergoes a strengthening process that produces compression at the surface and tension within the container wall. The strengthening process is designed such that the tension within the wall is great enough to ensure catastrophic failure of the container, thus rendering the product unusable, should sterility be compromised by a through-wall crack. The tension is greater than a threshold central tension, above which catastrophic failure of the container is guaranteed, thus eliminating any potential for violation of pharmaceutical integrity. 1. A method of making a glass article having a first surface and a second surface separated by a thickness , the method comprising:forming a first region in at least one surface the glass, wherein the first region extends from at least one of the first surface and the second surface to a depth of layer in the glass, and wherein the first region is under a compressive stress; andforming a second region under a central tension of at least about 15 MPa, the second region extending from the depth of layer, wherein the central tension is sufficient to allow self-propagation of a crack front from the first surface to the second surface and laterally across at least the first surface.2. The method of claim 1 , wherein the self-propagation of the crack front from the first surface to the second surface and laterally across at least the first surface renders the glass article unsuitable for its intended use.3. The method of claim 1 , wherein the self-propagation of the crack front from the first surface to the second surface further comprises bifurcation of the crack front across at least the first surface.4. The method of claim 1 , wherein the glass has a Young's modulus E and a Poisson's ratio ν claim 1 , and (CT/E)·(t−2DOL)·(1−ν)≧3.0 MPa·μm claim 1 ...

protective glass cutting machine

The invention discloses a protective glass cutting machine, including a cutting body, a cutting cavity is arranged in the cutting body, a conveying device is arranged in the cutting cavity, and the conveying device comprises a vertically symmetric conveying The rotating wheel, the opposite direction of the conveying wheel can drive the glass tube to move to the left for cutting. The invention rotates along the glass tube by the heated cutting knife, and the glass tube is quickly cut, and the glass tube is cut. The left and right sides are respectively provided with an output device and a conveying device to ensure the stability of the glass tube and improve the stability of the glass tube cutting. Secondly, when the glass tube is input to the left, the cutting knife and the glass tube are not abutted by the telescopic device. 1. A protective glass cutting machine comprising a cutting body; the cutting body is provided with a cutting cavity , and the cutting cavity is provided with a conveying device , wherein the conveying device comprises a vertically symmetrical conveying wheel , and the conveying wheel is oppositely rotated to drive the glass tube to the left. For cutting , a power conversion device is disposed on a left side of the conveying device , and a telescopic device is disposed on an upper side of the power conversion device , and the telescopic device can control the power conversion device to perform power conversion work; the left side of the power conversion device is provided with an annular cutting rotary groove , the cutting rotary groove is in communication with the cutting cavity , and the cutting rotary groove is provided with a cutting device , and the cutting device and the cutting device The power conversion device can be powered , and the power conversion device can respectively power the conveying device and the cutting device; the cutting device includes a cutting blade and a heat conducting block , wherein the cutting device works to ...

GLASS ARTICLES MADE FROM LAMINATED GLASS TUBING AND SYSTEMS AND METHODS FOR CONVERTING LAMINATED GLASS TUBING INTO THE GLASS ARTICLES

Methods for producing glass articles from laminated glass tubing include introducing the glass tubing to a converter. The glass tubing includes a core layer under tensile stress, an outer clad layer under, and an inner clad layer. The methods include forming a feature the glass article at a working end of the laminated glass tubing and separating a glass article from the working end of the laminated glass tubing, which may expose the core layer under tensile stress at the working end of the glass tubing. The method further comprises remediating the exposed portion of the core layer by completely enclosing the core layer in a clad layer. Systems for re-cladding the exposed portion of the core layer as well as glass articles made using the systems and methods are also disclosed. 1. A glass article comprising:a laminated glass comprising a core layer under a tensile stress and at least one clad layer, wherein at least one of the at least one clad layer is under a compressive stress, wherein the core layer is completely enclosed within the at least one clad layer; andat least one feature formed in the laminated glass.2. The glass article of claim 1 , wherein the core layer is completely isolated from the atmosphere by the at least one clad layer.3. The glass article of claim 1 , wherein the at least one clad layer comprises an inner clad layer and an outer clad layer and the inner clad layer and the outer clad layer cooperate to enclose the core layer.4. The glass article of claim 3 , wherein the inner clad layer claim 3 , the outer clad layer claim 3 , or both are under compressive stress.5. The glass article of claim 3 , wherein the inner clad layer comprises an inner glass composition that is classified as a Type I glass under United States Pharmacopoeia (USP) <660>.6. The glass article of claim 3 , wherein the inner clad layer comprises a borosilicate glass.7. The glass article of claim 1 , wherein the glass article is a pharmaceutical container.8. The glass article ...

Method and apparatus for spiral cutting a glass tube using filamentation by burst ultrafast laser pulses

A method of producing a spiral cut transparent tube using laser machining includes using an ultrafast laser beam comprising a burst of laser pulses and focusing the laser beam on the transparent tube to enable relative movement between the laser beam and the transparent tube by moving the laser beam, the glass tube or both the laser beam and the glass tube. A beam waist is formed external to the surface of the transparent tube wherein the laser pulses and sufficient energy density is maintained within the transparent tube to form a continuous laser filament therethrough without causing optical breakdown. The method and delivery system makes a spiral cut in the transparent tube.

OPTICAL TUBE WAVEGUIDE LASING MEDIUM AND RELATED METHOD

Laser waveguides, methods and systems for forming a laser waveguide are provided. The waveguide includes an inner cladding layer surrounding a central axis and a glass core surrounding and located outside of the inner cladding layer. The glass core includes a laser-active material. The waveguide includes an outer cladding layer surrounding and located outside of the glass core. The inner cladding, outer cladding and/or core may surround a hollow central channel or bore and may be annular in shape. 1. A method of forming a laser waveguide comprising:delivering a first stream of glass soot particles from a soot generating device to a target rod such that a first layer of glass soot particles is formed surrounding the target rod;delivering a second stream of glass soot particles from the soot generating device toward the target rod after formation of the first layer of glass soot particles, wherein the second stream of glass soot particles forms a second layer of glass soot particles and includes a laser-active material;delivering a third stream of glass soot particles from the soot generating device toward the target rod after formation of the second layer of glass soot particles such that a third layer of glass soot particles is formed; andsintering the first, second and third layers of glass soot particles such that first, second and third sintered glass layers are formed from the first, second and third glass soot layers, respectively.2. The method of claim 1 , wherein sintering includes sintering the first layer of glass soot particles before formation of the second layer of glass soot particles.3. The method of claim 1 , wherein sintering includes sintering the second layer of glass soot particles before formation of the third layer of glass soot particles.4. The method of claim 1 , wherein the second layer of glass soot particles is formed surrounding the first layer of glass soot particles and the third layer of glass soot particles is formed surrounding the ...

Modular Bottle Etching or Scoring Apparatus, Systems and Methods of Using the Same

Modular bottle etching apparatuses, systems and methods of using the same comprise modular bottle stage elements for holding a bottle and turning a bottle, and a modular etching element having a blade thereon for scoring a glass bottle, or any glass tubular or cylindrical item. The modular bottle stage elements and the modular etching elements are movable, thereby accommodating different sized bottles thereon for precise scoring with the blade. 1: A bottle scoring apparatus comprising:a base comprising a plurality of retention cells, each retention cell forming a square opening, four sides and a bottom, wherein each of the retention cells is uniform in size, shape and orientation, the plurality of retention cells forming a grid over the entirety of the base wherein each retention cell is uniformly spaced apart from adjacent retention cells, wherein each retention cell comprises at least one wall and an open top;a first wheel assembly comprising a post, a rotating wheel attached to the post, and a peg on an end of the post, wherein the peg of the first wheel assembly is unitary with the post of the first wheel assembly, wherein the peg of the first wheel assembly has four side faces and a square cross-section and is shaped and sized to fit within each of the plurality of retention cells, wherein each of the four side faces of the peg of the first wheel assembly frictionally holds the peg within a first of the retention cells;a blade assembly comprising a first post and a glass scoring blade attached to the first post, wherein the first post of the blade assembly comprises a peg on an end of the first post of the blade assembly, wherein the peg of the blade assembly is unitary with the first post of the blade assembly, wherein the peg of the blade assembly has four side faces and a square cross-section and is shaped and sized to fit within each of the plurality of retention cells, wherein each of the four side faces of the peg of the blade assembly frictionally holds ...

HOLLOW GLASS BODY AND USE OF A HOLLOW GLASS BODY

A hollow glass body comprises a cylindrical main body portion having a first inside diameter, and a first end opening and a second end opening on opposite ends of the hollow glass body. The hollow glass body has a second inside diameter at the second end opening. The second inside diameter is smaller than the first inside diameter. A difference between the first inside diameter and the second inside diameter is at most 100 μm. 1. A hollow glass body , comprising:a cylindrical main body portion having a first inside diameter,a first end opening and a second end opening on opposite ends of the hollow glass body, wherein the second end opening delimits the cylindrical main body portion and the hollow glass body has a second inside diameter at the second end opening, a difference between the first inside diameter and the second inside diameter is at most 100 μm, and/or', 'the difference between the first inside diameter and the second inside diameter divided by the first inside diameter is smaller than 0.02, and/or', 'the difference between the first inside diameter and the second inside diameter divided by a wall thickness of the cylindrical main body portion is smaller than 0.2., 'wherein the second inside diameter is smaller than the first inside diameter and wherein'}2. The hollow glass body according to claim 1 ,wherein the difference between the first inside diameter and the second inside diameter is at most 50 μm.3. The hollow glass body according to claim 1 ,wherein the difference between the first inside diameter and the second inside diameter is at most 30 μm.4. The hollow glass body according to claim 1 ,wherein the first inside diameter is smaller than 28 mm, preferably smaller than 12 mm.5. The hollow glass body according to claim 1 ,wherein the cylindrical main body portion has an outside diameter that is smaller than 30 mm, preferably smaller than 15 mm, preferably smaller than 10 mm, more preferably smaller than 9 mm.6. The hollow glass body according to ...

GLASS ARTICLES MADE FROM LAMINATED GLASS TUBING AND SYSTEMS AND METHODS FOR CONVERTING LAMINATED GLASS TUBING INTO THE GLASS ARTICLES

Methods for producing glass articles from laminated glass tubing include introducing the glass tubing to a converter. The glass tubing includes a core layer under tensile stress, an outer clad layer under, and an inner clad layer. The methods include forming a feature the glass article at a working end of the laminated glass tubing and separating a glass article from the working end of the laminated glass tubing, which may expose the core layer under tensile stress at the working end of the glass tubing. The method further comprises remediating the exposed portion of the core layer by completely enclosing the core layer in a clad layer. Systems for re-cladding the exposed portion of the core layer as well as glass articles made using the systems and methods are also disclosed. 1. A glass article comprising:a laminated glass comprising a core layer under a tensile stress and at least one clad layer, wherein at least one of the at least one clad layer is under a compressive stress, wherein the core layer is completely enclosed within the at least one clad layer; andat least one feature formed in the laminated glass.2. The glass article of claim 1 , wherein the core layer is completely isolated from the atmosphere by the at least one clad layer.3. The glass article of claim 1 , wherein the at least one clad layer comprises an inner clad layer and an outer clad layer and the inner clad layer and the outer clad layer cooperate to enclose the core layer.4. The glass article of claim 3 , wherein the inner clad layer claim 3 , the outer clad layer claim 3 , or both are under compressive stress.5. The glass article of claim 3 , wherein the inner clad layer comprises an inner glass composition that is classified as a Type I glass under United States Pharmacopoeia (USP) <660>.6. The glass article of claim 3 , wherein the inner clad layer comprises a borosilicate glass.7. The glass article of claim 1 , wherein the glass article is a pharmaceutical container.8. The glass article ...

GLASS ARTICLES MADE FROM LAMINATED GLASS TUBING AND SYSTEMS AND METHODS FOR CONVERTING LAMINATED GLASS TUBING INTO THE GLASS ARTICLES

Methods for producing glass articles from laminated glass tubing include introducing the glass tubing to a converter. The glass tubing includes a core layer under tensile stress, an outer clad layer under, and an inner clad layer. The methods include forming a feature the glass article at a working end of the laminated glass tubing and separating a glass article from the working end of the laminated glass tubing, which may expose the core layer under tensile stress at the working end of the glass tubing. The method further comprises remediating the exposed portion of the core layer by completely enclosing the core layer in a clad layer. Systems for re-cladding the exposed portion of the core layer as well as glass articles made using the systems and methods are also disclosed. 1. A method for producing glass articles from glass tubing , the method comprising:introducing the glass tubing to a converter comprising at least one forming station and a separating station, the glass tubing comprising laminated glass tubing having a core layer comprising a core glass composition, an outer clad layer comprising an outer glass composition, and an inner clad layer comprising an inner glass composition, wherein the core layer is under tensile stress and at least one of the inner clad layer or the outer clad layer is under compressive stress;forming at least one feature of the glass article at a working end of the laminated glass tubing;separating a glass article from the working end of the laminated glass tubing, wherein separating the glass article from the laminated glass tubing exposes a portion of the core layer at the working end of the laminated glass tubing; andremediating the exposed portion of the core layer by completely enclosing the core layer in a clad layer.2. The method of claim 1 , wherein the inner clad layer and the outer clad layer cooperate to completely enclose the core layer.3. The method of claim 1 , wherein completely enclosing the core layer within the ...

SYSTEMS AND METHODS FOR MINIMIZING SHR FROM PIERCING DURING PHARMACEUTICAL PART CONVERTING USING A GAS FLOW

Systems for producing articles from glass tube include a converter having a base with a plurality of processing stations and a turret moveable relative to the base. The turret indexes a plurality of holders for holding the glass tubes successively through the processing stations. The systems further include a gas flow system or a suction system for producing a flow of gas through the glass tube during one or more heating, forming, separating or piercing operations. The flow of gas through the glass tube produced by the gas flow system or suction system may be sufficient to evacuate or purge volatile constituents of the glass from the glass tube and/or pierce a meniscus formed on the glass tube during separation, thereby reducing the Surface Hydrolytic Response (SHR) of the interior surface of the glass tube and articles made therefrom. 1. A system for producing glass articles from glass tubing comprising:a converter including a plurality of processing stations comprising at least one heating station, at least one forming station, and a separating station, wherein the converter is operable to index a glass tube through the plurality of processing stations; and a manifold fluidly couplable to a gas source; and', 'a plurality of glass tube connectors, each glass tube connector removably coupleable to a distal end of the glass tube and fluidly coupled to the manifold by a conduit;', 'wherein for at least one of the glass tube connectors, the gas flow system is operable to pass a gas from the manifold, through the conduit, through the glass tube connector, and into the distal end of the glass tube, and wherein passing the gas into the distal end of the glass tube produces a flow of gas adjacent to a proximal end of the glass tube, the flow of gas operable to remove at least a portion of an atmosphere from an interior of the glass tube and reduce contamination of an inner surface of the glass tube by alkali released from the glass tube., 'a gas flow system comprising2. ...

ON-LINE ANNEALING OF LARGE FUSED QUARTZ INGOTS

A method and apparatus for manufacturing a quartz glass ingot of large cross-sectional area by continuous flame-fusion whereby on-line crack-free cutting of the ingot is ensured by using the internal heat of the ingot to permit equilibration of the internal and surface temperatures while passing through one or more annealing chambers, thus ensuring controlled cooling to temperature at which it is possible to cut the ingot with a water-cooled saw. 1. A method for continuous production of quartz-glass ingots , of cross-sectional area greater than 96000 mm , comprising the following process steps:a. providing a softened quartz-glass material in a crucible or refractory tank;b. vertically drawing off the softened quartz-glass mass through a die to provide a quartz-glass ingot; andc. on-line cutting of the quartz-glass ingot to a specific length,characterized in that, prior to step c., the quartz-glass ingot is passed through at least one insulated chamber in which controlled cooling of the ingot is caused to take place.2. The method according to claim 1 , characterized in that the ingot has an external surface temperature Tand a center temperature T claim 1 , whereby the difference between Tand Tof the ingot is progressively reduced during the insulation by the internal heat of the descending quartz-glass ingot.3. The method according to claim 1 , characterized in that the quartz-glass ingot is cooled to a surface temperature between 900 and 1150° C. prior to insulation.4. The method according to claim 1 , characterized in that the quartz-glass ingot is cooled to a surface temperature of less than 250° C. prior to cutting.5. The method according to claim 1 , to characterized in that the residence time during insulation is 20 hrs to 150 hrs.6. The method according to claim 1 , characterized in that the difference between the external surface temperature Tand a center temperature Tafter insulation is less than 40° C.7. The method according to claim 1 , characterized in ...

DEVICE AND METHOD FOR FRACTURING A CONTAINER AND CONTAINER COMPRISING SUCH A DEVICE

Provided is an expandable device for fracturing a container for liquids, for example beverages, in particular alcoholic beverages, made of glass or a similar material, wherein the device has a first retracted position according to which the device can be accommodated at least partially in a recess at a bottom section of the container without causing fracture to the container and a second extended position according to which the device is able to cause a fracture at a bottom section of the container by impact against a solid surface such as a table, with the aim to prevent reuse or recycle of the container, for example with adulterated beverages. 1. A device for fracturing a container made of glass or a similar material , wherein the device comprises: a hollow body including a plurality of radial ribs and a plurality of radial ribs protruding from an inner wall of the hollow body and arranged separated from each other at equal distances along a longitudinal section of said hollow body, and', 'a head at one end of the hollow body,, 'an outer body having'} 'a cylindrical body having a plurality of radial ribs protruding from an outer wall of said cylindrical body and arranged separated at equal distances from each other along a longitudinal section of said cylindrical body;', 'an inner body having'}wherein the inner body can rotate and move relative the outer body from a retracted position to an extended position in which the device is able to cause a fracture to the container, andwherein the inner body is designed such that it can engage with the outer body at least in the extended position thus forming a structure able to transmit impact forces from one another and towards the head of outer body.2. The device according to claim 1 , wherein an elastic member arranged inside outer body and able to drive inner body from a retracted position to an extended position.3. The device according to claim 1 , wherein the hollow body is designed having one of a cylindrical claim ...

METHOD AND APPARATUS FOR MAKING A PROFILED TUBING AND A SLEEVE

An apparatus () for making glass tubing () of a desired non-circular cross-sectional profile (cf FIG. ) includes a mandrel () adapted for positioning proximate heat-softened tubing. The mandrel () has a nose () and a nozzle section () with a chosen profile that will define a final cross-sectional profile of the tubing. The nozzle section () has a feed chamber () for receiving a gas from a source () and a porous and/or foraminous circumferential surface () through which the gas can be discharged to an exterior of the mandrel. The gas discharges to the exterior of the mandrel, forming a film of pressurized gas in the gap () between the porous circumferential surface () and the heat-softened tubing (). A method of forming tubing having a non-circular cross-sectional profile using the apparatus is also provided. A glass sleeve made from the reshaped or formed tubing is also disclosed: a monolithic sleeve made of parallel, opposite, flat and smooth front and back covers for use in an electronic device (cf FIG. ). Some glass-ceramic materials may also be suitable for the tubing, such as transparent beta spodumene. 1. An apparatus for making a profiled tubing , comprising:a mandrel adapted for positioning proximate a surface of a tubing, the mandrel having a nozzle section with a select cross-sectional profile that will define a final cross-sectional profile of the tubing, the nozzle section having a feed chamber for receiving a gas and a porous circumferential surface through which the gas can be discharged to an exterior of the mandrel, wherein the gas when discharged to the exterior of the mandrel forms a film of pressurized gas between the porous circumferential surface and the tubing.2. The apparatus of claim 1 , further comprising a tubing forming apparatus for forming the tubing claim 1 , wherein the mandrel is arranged inline with the tubing forming apparatus.3. The apparatus of claim 1 , wherein the nozzle section is perforated or made of a porous material having ...

METHOD AND DEVICE FOR CUTTING TUBULAR GLASS, AND METHOD FOR MANUFACTURING TUBULAR GLASS

Provided is a cutting method for a tube glass, including: a heating step of heating a preset cut portion (CP) of the tube glass (G) by radiating laser light (L) to the preset cut portion (CP); an inner crack region forming step of forming an inner crack region (C) including one or a plurality of cracks through multiphoton absorption that occurs in an irradiation region of laser light (L) by radiating the laser light (L) having a focal point adjusted to an inside of the preset cut portion (CP); and a cooling step of cooling the preset cut portion (CP), to thereby cause the cracks to propagate in the inside of the preset cut portion (CP). 1. A cutting method for a tube glass , comprising:a heating step of heating a preset cut portion of the tube glass by radiating laser light to the preset cut portion;an inner crack region forming step of forming an inner crack region including one or a plurality of cracks through multiphoton absorption that occurs in an irradiation region of laser light by radiating the laser light having a focal point adjusted to an inside of the preset cut portion; anda cooling step of cooling the preset cut portion, to thereby cause the cracks to propagate in the inside of the preset cut portion.2. The cutting method for a tube glass according to claim 1 , wherein the heating step is performed while rotating the tube glass.3. The cutting method for a tube glass according to claim 1 , wherein the inner crack region forming step is performed while rotating the tube glass.4. The cutting method for a tube glass according to claim 1 , wherein the cooling step is performed while rotating the tube glass.5. The cutting method for a tube glass according to claim 1 , wherein claim 1 , in the cooling step claim 1 , the preset cut portion is cooled by a gaseous or mist-like cooling medium.6. The cutting method for a tube glass according to claim 1 , wherein the laser light used in the inner crack region forming step comprises a pulse laser.7. A cutting device ...

METHOD AND APPARATUS FOR PRODUCING GLASS PRECURSORS AND GLASS PRODUCTS

A method and apparatus for producing glass products from tubular glass precursors is provided. In particular, a method and apparatus for separating tube glass into sized glass tube portions, produced glass tube portions, glass precursor portions, or glass product portions, and their use as pharmaceutical packaging are provided. The tube glass or the glass precursor or the glass product is provided with filaments along predetermined breaking planes. The filaments extend obliquely to the local wall radius and allow for clean separation of the tube glass or the glass precursor or the glass product. 1. A method for producing glass precursors and glass products , comprising the steps of:providing a glass tube or a tubular glass precursor; andlaser-based irradiation of the glass tube or the tubular glass precursor with focused radiation to produce filaments in a separation plane of the glass tube or the tubular glass precursor,wherein the laser-based irradiation step comprises focusing the focused radiation at an oblique irradiation angle deviating from a perpendicular to a local surface of the glass tube or the tubular glass precursor.2. The method of claim 1 , further comprising inducing mechanical or thermal stress in the separation plane of the glass tube or the tubular glass precursor to create a fracture surface along the separation plane to separate sized portions from the glass tube or the tubular glass precursor.3. The method of claim 1 , further comprising rotating the glass tube or the glass tube precursor and the focused radiation relative to each other such that the focused radiation is incident on the glass tube or the tubular glass precursor in the separation plane.4. The method of claim 1 , wherein the oblique irradiation angle is in a range from 75 to 89.5°.5. The method of claim 1 , wherein the glass tube or the glass tube precursor has a diameter in a range from 3 mm to 50 mm claim 1 , and wherein claim 1 , due to the oblique irradiation angle claim 1 , ...

BOTTLE CUTTER APPARATUS, SYSTEMS AND METHODS OF USING THE SAME

A bottle cutter apparatus, systems and methods of using the same are provided. Specifically, the bottle cutter apparatus comprises a stage for holding a bottle and a rotatable arm having a blade thereon for scoring a glass bottle, or any glass tubular item. The stage is modular and movable, thereby accommodating different sized bottles thereon for precise scoring with the arm and blade. 1. A bottle cutting apparatus comprising:a stage module and a cutting module,wherein the stage module comprises a platform, wherein disposed on a platform is a first longitudinal bar having a first pair of movable legs and a second longitudinal bar having a second pair of movable legs, the first and second longitudinal bars are parallel and spaced apart from each other, wherein the movable legs are positionable in different locations on the platform, and further wherein the first and second longitudinal bars provide a space for a bottle to rest thereon,wherein the cutting module comprises first and second masts and a crossbeam therebetween, and a rotatable arm disposed on the crossbeam, wherein the arm comprises a downwardly positioned blade configured to engage a top surface of a bottle resting on its side on the first and second longitudinal bars.2. The bottle cutting apparatus of further comprising:a first roller on the first longitudinal bar and a second roller on the second longitudinal bar, wherein the first and second rollers provide a surface for a bottle to rest thereon.3. The bottle cutting apparatus of wherein the platform comprises a plurality of cells claim 1 , and further wherein each leg of the first and second pairs of movable legs has a terminal end that fits snugly within respective cells on the platform.4. The bottle cutting apparatus of wherein the arm is movable along and in the direction of the crossbeam.5. The bottle cutting apparatus of wherein the blade is movable to multiple positions on the arm.6. The bottle cutting apparatus of wherein the arm has a ...

Glass Bottle Cutter

The present invention comprises a new glass bottle cutting device generally used for standard sizes bottles, with an adjustable length for up to 19.5-inch bottles. The device consists of a base, an L shaped backstop, rollers (wheels), and a carbide blade. When using it the blade scores the glass bottle so that you can split it into two parts with little effort. 1) A bottle cutting device that can be adjusted to the bottle length by using an L shaped designed backstop, as shown and described. A portion of the disclosure of this patent document contains material which is subject to copyright protection. The copyright owner has no objection to the facsimile reproduction by anyone of the patent document or the patent disclosure, as it appears in the Patent and Trademark Office patent file or records, but otherwise reserves all copyright rights whatsoever.The present invention generally relates to a glass-cutting tool and, more particularly, to a tool for cutting a glass bottle.The following background information may present examples of specific aspects of the prior art (e.g., without limitation, approaches, facts, or common wisdom) that, while expected to be helpful to further educate the reader as to additional aspects of the prior art, is not to be construed as limiting the present invention, or any embodiments thereof, to anything stated or implied therein or inferred thereupon.Bottle cutting is an art or craft that enables a person to make drinking glasses, vases or other artistic creations from empty glass bottles such as beer bottles, wine bottles, liquor bottles, soft drink bottles, or the like.A variety of bottle-cutting tools or bottle cutters are known in the art. Some examples of prior-art bottle cutters are disclosed in U.S. Pat. Nos. 3,699,829; 3,744,359; 3,744,692; 3,845,555; 3,902,643; 6,811,477; and in PCT International Patent Application Publication WO/2007/129877. However, these devices tend to be either big, bulky or not aesthetic.None of the prior ...

Glass Bottle Cutter Based on Electric Heating

A glass bottle cutter based on electric heating comprises a base. A rotary bracket and a heating and cutting seat are disposed at two ends of an upper surface of the base respectively A motor is disposed in the rotary bracket, and a rotating shaft of the motor is disposed outside the rotary bracket and is provided with a support plate. An adhesive pad allowing the bottom of a glass bottle to cling thereto is disposed on a surface of the support plate. A heating tube is disposed on an upper surface of the heating and cutting seat. The base is provided with a power access port and an internal circuit mainboard. The motor, the heating tube and the power access port are all electrically connected to the circuit mainboard. 1. A glass bottle cutter based on electric heating , comprising a base , wherein a rotary bracket and a heating and cutting seat are disposed at two ends of an upper surface of the base respectively , a motor is disposed in the rotary bracket , a rotating shaft of the motor is disposed outside the rotary bracket and is provided with a support plate , an adhesive pad allowing a bottom of a glass bottle to cling thereto is disposed on a surface of the support plate , a heating tube is disposed on an upper surface of the heating and cutting seat , the base is provided with a power access port and an internal circuit mainboard , and the motor , the heating tube and the power access port are all electrically connected to the circuit mainboard.2. The glass bottle cutter based on electric heating according to claim 1 , wherein at least one roller set is disposed on the upper surface of the base and is located between the rotary bracket and the heating and cutting seat claim 1 , and each said roller set consists of two symmetrical rollers.3. The glass bottle cutter based on electric heating according to claim 2 , wherein the upper surface of the base is a slope claim 2 , the rotary bracket is located at a bottom of the slope claim 2 , and the heating and ...

METHOD AND APPARATUS FOR PROCESSING GLASS TUBE ENDS

A method for processing glass tube ends is provided. The method includes providing a glass tube blank that has at least two tube end portions; actively cooling at least one tube end portion by a cooling station; and processing the at least one of the tube end portion. 1. A method for processing glass tube ends , comprising:providing a glass tube blank having two tube end portions;actively cooling at least one of the two tube end portions by a cooling station to provide an actively cooled end portion; andprocessing the actively cooled tube end portion.2. The method according to claim 1 , wherein the step of actively cooling comprises actively cooling to a predefined temperature.3. The method according to claim 1 , wherein the step of actively cooling comprises using a directed coolant flow onto the actively cooled end portion.4. The method according to claim 1 , wherein the step of actively cooling comprises:detecting the temperature of the at least one of the two tube end portions by a sensor; andcontrolling the cooling station on the basis of the detected temperature of the at least one of the two tube end portions.5. The method according to claims 1 , wherein the step of processing the actively cooled tube end portion comprises:scoring and rupturing the actively cooled tube end portion to provide a ruptured tube end portion;closing, without thermally pre-processing, the ruptured tube end portion to provide a closed tube end portion; andthermally post-processing the closed tube end portion.6. A method for processing glass tube ends claims 1 , comprising:conveying glass tube blanks in a conveying direction so that a length of the tube blanks is perpendicular to the conveying direction;actively cooling a tube end portion of each of the tube blanks as the tube blanks are conveyed in the conveying direction to provide a cooled tube end portion; andprocessing the cooled tube end portion as the tube blanks are conveyed in the conveying direction.7. The method according ...

SYSTEMS AND METHODS OF GLASS CUTTING BY INDUCING PULSED LASER PERFORATIONS INTO GLASS ARTICLES

Embodiments of the present method of laser cutting a laser wavelength transparent glass article comprises feeding at least one glass article to a pulsed laser assembly having at least one pulsed laser, wherein the pulsed laser defines a laser beam focal line with a length of 0.1-100 mm, the glass article being comprised of two end sections, and at least one lateral surface disposed lengthwise between the end sections. The method further comprises laser cutting at least one perforation line onto the lateral surface of the glass article while there is relative motion between the glass article and the pulsed laser and separating the glass article along the at least one perforation line to yield a laser cut glass article. 1. A method of laser cutting a glass article comprising:feeding at least one glass article to a pulsed laser assembly having at least one pulsed laser, wherein the pulsed laser defines a laser beam focal line with a length of 0.1-100 mm, the glass article being comprised of two end sections, and at least one lateral surface disposed lengthwise between the two end sections;laser cutting at least one perforation line in the glass article by focusing the pulsed laser along the laser beam focal line at an angle of incidence onto the lateral surface of the glass article while there is relative motion between the glass article and the pulsed laser, wherein the glass article is transparent to a wavelength of the pulsed laser; andseparating the glass article along at least one perforation line to yield a laser cut glass article.2. The method of wherein the wavelength of the pulsed laser is less than about 1.8 μm.3. The method of claim 1 , wherein the glass article is a tube.4. The method of claim 3 , wherein the tube claim 3 , which is fed to the pulsed laser assembly claim 3 , is a continuous tube delivered from a glass synthesis station.5. The method of claim 3 , wherein the tube claim 3 , which is fed to the pulsed laser assembly claim 3 , is a pre-cut tube ...

METHOD FOR PRODUCING OPTICAL BEAM SPLITTER CUBES

To produce optical beam splitter cubes, an optically transparent plate is provided with an optically active layer on a cover side. Then, on both cover sides of the plate, a plurality of prism bars are formed by molding an optically transparent material, so that a double prism plate is obtained. The prism bars are arranged on cover sides of the plate projecting roof-like in ridge lines separated from each other by valleys. Each prism bar has the cross section of an isosceles right-angled triangle, complemented by the prism bar lying opposite on the other cover side of the plate to form the cross section of the beam splitter cube. The double prism plate is cut up along the valleys between the prism bars and transverse to the longitudinal direction into segments which in each case form a beam splitter cube. 1. A method for producing optical beam splitter cubes which have a generally square cross section , wherein the method comprises:a) providing an optically transparent plate having two cover sides, the plate having an optically active layer on one of the cover sides;b) forming a double prism plate by molding an optically transparent material on both cover sides of the plate so as to form a plurality of prism bars lying next to each other, wherein the prism bars are arranged projecting from the cover sides in roof-like in ridge lines which are separated from each other by valleys following a longitudinal direction, wherein each prism bar has the cross section of an isosceles right-angled triangle and is complemented by the prism bar lying opposite it on the other cover side of the plate, wherein the cross section of the part of the plate lying in between the opposing prism bars forms the cross section of one of the beam splitter cubes; andc) cutting the double prism plate longitudinally along the valleys between the prism bars and separating the prism bars transverse to the longitudinal direction into segments which each form one of the beam splitter cubes.2. The ...

METHOD FOR FORMING A GLASS PREFORM

A method of forming a glass preform of predetermined length comprises providing a length of glass material to be separated to form a preform length and a remaining length; forming a notch in the glass material; inducing a tensile stress in excess of the tensile strength of the glass in an area adjacent to the notch; and separating the preform length from the remaining length at the notch. 1. A method of forming a glass preform of predetermined length , comprising:providing a length of glass material to be separated to form a preform length and a remaining length;forming a notch in the glass material;inducing a tensile stress in excess of the tensile strength of the glass in an area adjacent to the notch; andseparating the preform length from the remaining length at the notch.2. The method of claim 1 , wherein the length of glass material continually advances in the direction of a longitudinal axis of the glass material as the method is performed.3. The method of claim 2 , wherein the glass material advances in a generally vertically downward direction.4. The method of claim 1 , wherein the length of glass material is a solid or hollow cylindrical form.5. The method of claim 1 , wherein the glass material is comprised of two or more glass materials.6. The method of claim 1 , wherein the glass material includes fused silica.7. The method of claim 1 , wherein the notch is a formed perpendicular to a longitudinal axis of the length of glass material.8. The method of claim 1 , wherein the stress is induced by deflecting a portion of the glass material using a tool.9. The method of claim 8 , wherein the deflection is a transverse deflection of the glass material.10. The method of claim 9 , wherein the tool is an impact tool comprising an impact face contoured to correspond with a portion of an outside surface of the glass material.11. The method of claim 10 , wherein the impact tool comprises a resilient layer.12. The method of claim 8 , wherein the tool is a vibration ...

Dielectric workpiece having a zone of defined strength, method for producing same, and use of same

The invention relates to a method for producing a workpiece from a dielectric material, which workpiece has at least one zone having strength set in a defined manner, wherein the zone of defined strength has cavities. The invention further relates to a workpiece produced according to the invention and to the use of said workpiece.

无接触激光切割石英玻璃制品的方法及其装置

本发明公开了一种无接触激光切割石英玻璃制品的方法及其装置，该方法具体为：石英玻璃制品首先经激光发生器发射的激光束烧制形成一断管凹槽，然后再经过气动装置进行切断。本发明提供的切割石英玻璃制品装置包括激光自动切割装置和气动装置。本发明提供的激光切割方法及其装置可以保证产品质量，减少破口，保证切割管口、棒口截面的一致性，减少浪费，使操作更加安全，因激光切割对石英玻璃管或石英玻璃棒无接触，所以能提高拉管、拉棒速度，降低生产成本，减轻工人劳动强度，提高产量。

Device for cutting glass tube

본 발명은 유리관 절단장치에 관한 것이다. 본 발명은, 일정한 방향(X축 방향)을 따라 이동중인 유리관을 절단하는 유리관 절단장치로서, 몸체; 상기 몸체에 장착된 커팅날 지지부; 상기 커팅날 지지부에 고정되어 상기 X축 방향을 따라 연장하는 커팅날; 및 상기 커팅날의 상부에 위치하도록 상기 몸체에 장착되는 유리관 회전부;를 포함한다. 이때, 상기 유리관 회전부는 이동중인 상기 유리관과 상기 커팅날 간 접촉이 이루어진 이후에 상기 유리관과 접촉하면서 상기 유리관을 상기 유리관의 중심축에 대하여 회전시킨다. The present invention relates to a glass tube cutting apparatus. The present invention relates to a glass tube cutting apparatus for cutting a glass tube being moved along a constant direction (X-axis direction), comprising: a body; A cutting blade support mounted on the body; A cutting blade fixed to the cutting blade supporting part and extending along the X axis direction; And a glass tube rotating part mounted on the body so as to be positioned above the cutting blade. At this time, the glass tube rotating part rotates the glass tube about the central axis of the glass tube while contacting the glass tube after making contact between the glass tube being moved and the cutting blade.

A cutting device of glass tube

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Systems and methods of glass cutting by inducing pulsed laser perforations into glass articles

Embodiments of the present method of laser cutting a laser wavelength transparent glass article comprises feeding at least one glass article to a pulsed laser assembly having at least one pulsed laser, wherein the pulsed laser defines a laser beam focal line with a length of 0.1-100 mm, the glass article being comprised of two end sections, and at least one lateral surface disposed lengthwise between the end sections. The method further comprises laser cutting at least one perforation line onto the lateral surface of the glass article while there is relative motion between the glass article and the pulsed laser and separating the glass article along the at least one perforation line to yield a laser cut glass article.

Method and apparatus for spiral cutting a glass tube using filamentation by burst ultrafast laser pulses

A method of producing a spiral cut transparent tube using laser machining includes using an ultrafast laser beam comprising a burst of laser pulses and focusing the laser beam on the transparent tube to enable relative movement between the laser beam and the transparent tube by moving the laser beam, the glass tube or both the laser beam and the glass tube. A beam waist is formed external to the surface of the transparent tube wherein the laser pulses and sufficient energy density is maintained within the transparent tube to form a continuous laser filament therethrough without causing optical breakdown. The method and delivery system makes a spiral cut in the transparent tube.

System and method that glass-cutting is carried out in glassware are induced to by the way that pulse laser is perforated

激光切割激光波长透明玻璃制品的本发明方法的实施例包括将至少一种玻璃制品馈送到具有至少一个脉冲激光的脉冲激光组件中，其中该脉冲激光定义具有0.1‑100mm的长度的激光束焦线，该玻璃制品由两个端部部分，以及至少一个纵向设置在这些端部部分之间的侧表面组成。该方法进一步包括在该玻璃制品与该脉冲激光之间存在相对运动时，将至少一个穿孔线激光切割至该玻璃制品的该侧表面上，并且沿该至少一个穿孔线分离该玻璃制品以生产激光切割的玻璃制品。

Removal of glass article from ribbon forming machine by vibrating force

The invention pertains to ribbon machine manufacture of glass articles. The invention includes novel vibration crack-off technique on the ribbon machine. As the article is severed, it drops by gravity a short distance onto individual transfer tongs traveling with the ribbon and just previous to crack-off is inserted around the article neck region. Upon severance, the articles are individually delivered in succession by the tongs to a further processing machine unit, such as a burn-off machine. Simultaneously with crack-off, a pressurized nozzle directs a flow of air under pressure from within the neck region of the article in an upwardly direction and through the mouth region of the article. Any glass chips or particles therein are expelled by the pressurized air flow.

Pressurizer apparatus for glass ribbon machine

The invention pertains to ribbon machine manufacture of glass articles and employs a pressurizer machine inserting a pressurizer nozzle into the formed articles attached to the ribbon. The nozzles direct a flow of air under pressure from within the neck region of the article in an upwardly direction toward the mouth of the article. Simultaneously with such air flow, a crack-off device severs the article from the ribbon and any glass chips or particles are expelled by the pressurizer air flow. As the article is severed, it drops by gravity a short distance onto individual transfer tongs traveling with the ribbon and just previous to crack-off is inserted around the article neck region. Upon severance, the articles are individually delivered in succession by the tongs to a further processing machine unit, such as a burn-off machine.

Method and device for producing containers from tubular glass, in particular ampoules

Capping METHOD FOR GLASS PIECES.

Procédé de décalotage de pièces en verre dans lequel on soumet les pièces en verre à un traitement au moyen d'un rayon laser, caractérisé en ce que, dans une première étape, on soumet une partie à décalotter d'une pièce à l'action d'un faisceau de rayons lasers continu ou à des faisceaux de rayons lasers continus de manière à ce que lesdits faisceaux touchent ladite partie en une ou des zones avec une densité de puissance par unité de surface inférieure à 30 W/mm² et en ce que dans une deuxième étape, on soumet des points de la partie à décalotter, qui a été soumise dans la première étape à l'action d'un faisceau de rayons lasers continu, à l'action d'un faisceau laser pulsé focalisé d'une puissance inférieure à 250 W et on soumet les points de la partie à décalotter à l'action du faisceau laser pulsé de manière à ce qu'au cours de cette étape deux points en la ligne de points d'impact successifs du faisceau laser focalisé sur la partie à décalotter sont distants l'un de l'autre. Method for descaling glass parts in which the glass parts are subjected to a treatment by means of a laser beam, characterized in that, in a first step, a part to be decalcified from a part is subjected to the action of a beam of continuous laser rays or of beams of continuous laser rays so that said beams touch said part in one or more zones with a power density per unit area less than 30 W / mm² and in that in a second step, points of the portion to be uncapped, which was subjected in the first step to the action of a beam of continuous laser rays, to the action of a pulsed laser beam focused by a power less than 250 W and the points of the part to be uncapped are subjected to the action of the pulsed laser beam so that during this step two points in the line of successive points of impact of the laser beam focused on the part to d swipe are distant from each other.

Methods and systems for forming continuous glass sheets

A method for forming a continuous glass sheet from a tube of glass includes expanding and thinning the tube of glass by drawing the tube of glass over susceptor bearing (100) comprising a porous sidewall (110) defining an internal chamber (116). The diameter of the susceptor bearing (100) may increase between a top portion (102) and a bottom portion (108). The tube of glass may be maintained at a temperature above a softening point of the glass as the tube of glass is drawn over the susceptor bearing (100). The tube of glass is suspended over the susceptor bearing (100) by blowing the tube of glass away from the susceptor bearing (100) in a radial direction with a pressurized fluid supplied to the internal chamber (116) and emitted from the porous sidewall (110) as the tube of glass is drawn over the susceptor bearing (100). Thereafter, the tube of glass is cooled and sectioned to form a continuous glass sheet (400). A system (200,300) for forming the glass sheet is also provided.

Method for the manufacture of ampules from glass tubes

A method for the manufacture of containers from glass tubes, particularly ampules, in which container blanks coming from a production machine are delivered intermittently and successively to processing stations arranged along a conveying route and reshaped and processed therein in successive operations. Each container blank is individually grasped immediately after its delivery from the production machine and is held rotatably about its lengthwise axis during processing in the processing stations. The container blanks may be transferred after being grasped to a position pointing their open ends downward, possibly in a vertical direction. The arrangement may provide for the stepwise conveyance of the container blanks, through clamping devices for holding a container blank on one end, with the blanks moving along the processing stations. These clamping units may be chucks with one or more leaf springs. The clamping units may pivot about axes perpendicular to their rotation axes from a horizontal to a vertical position of the container blanks. The clamping units are guided along a closed track, possibly circular, with the processing stations along the track.

Method for cracking off glassware

A method for cracking off glassware ( 1 ), whereby glass pieces ( 1 ) are subjected to a laser radiation treatment (F). In a first step, the part of the glassware to be cracked off ( 3 ) is subjected in a region thereof to the action of a continuous laser radiation beam (F) or to continuous laser radiation beams (F) such that the beams touch the part ( 4 ) in the region with a power density per unit area less than 30 W/mm 2 . In a second step, successive points along a line in the part to be cracked off, which has been subjected in the first step to the action of a continuous laser radiation beam (F), are subjected to the action of a focused pulsating laser beam (F) with power less than 250 W, such that, during this second step, the successive points, in the line of the focused laser beam's successive impact points on the part to be cracked off ( 3 ), are spaced from each other.

Cutting apparatus of glass tube for vacuum ventilation pipe

본 발명은 진공 배기관용 유리 튜브 절단 장치에 관한 것으로 각종 실린더와 이송 기구로 구성된 피딩 유니트 및 커팅 툴을 구비한 커팅 유니트의 상호 작용을 통한 유리 튜브의 절단을 도모하여, 대량 생산을 가능하게 하고 절단면을 비롯한 절단 규격의 신뢰도를 향상시켜 불량 발생 절감을 통한 원자재 낭비를 억제하여 품질 향상 및 생산 단가 절감을 목적으로 창출된 것으로, 상기 진공 배기관용 유리 튜브 절단 장치(1)는, 사각 파이프를 비롯한 다양한 단면을 가지는 프레임을 통하여 그 형상이 육면체를 가지는 본체(10)와, 상기 본체(10) 상방에는 LM가이드 혹은 볼 스크류와 같은 정속 구동이 가능한 이송 장치 및 이들의 구동에 요구되는 구동 모터등으로 구성되어 유리 튜브 소재를 공급하는 피딩 유니트(feeding unit;100) 및, 상기 피딩 유니트(100)를 통해 공급된 유리 튜브(2)를 일정한 규격으로 절단하기 위해 커팅 툴 어셈블리, 클램프 어셈블리 및 위치 조정 실린더로 구성된 커팅 유니트(cutting unit;200)로 형성된 것을 특징으로 한다.

SYSTEMS AND METHODS OF CUTTING GLASS BY CREATING PERFORATION IN GLASSWARE WITH APPLICATION OF A PULSE OPTICAL QUANTUM GENERATOR

РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2017 104 427 A (51) МПК C03B 33/02 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ЗАЯВКА НА ИЗОБРЕТЕНИЕ (21)(22) Заявка: 2017104427, 10.07.2015 (71) Заявитель(и): КОРНИНГ ИНКОРПОРЕЙТЕД (US) Приоритет(ы): (30) Конвенционный приоритет: 11.07.2014 US 62/023,450; 11.05.2015 US 62/159,573 (85) Дата начала рассмотрения заявки PCT на национальной фазе: 13.02.2017 US 2015/039919 (10.07.2015) (87) Публикация заявки PCT: R U Адрес для переписки: 129090, Москва, ул. Б.Спасская, 25, строение 3, ООО "Юридическая фирма Городисский и Партнеры" (54) СИСТЕМЫ И МЕТОДЫ РЕЗКИ СТЕКЛА ПУТЕМ СОЗДАНИЯ ПЕРФОРАЦИИ В СТЕКЛЯННЫХ ИЗДЕЛИЯХ С ПРИМЕНЕНИЕМ ИМПУЛЬСНОГО ОПТИЧЕСКОГО КВАНТОВОГО ГЕНЕРАТОРА (57) Формула изобретения 1. Способ лазерной резки стеклянного изделия, включающий в себя: подачу, по меньшей мере, одного стеклянного изделия к блоку импульсного оптического квантового генератора, имеющего, по меньшей мере, один импульсный оптический квантовый генератор, причем импульсный оптический квантовый генератор образует фокальную линию лазерного луча с длиной 0,1-100 мм, при этом стеклянное изделие состоит из двух концевых участков и, по меньшей мере, одной боковой поверхности, расположенной в продольном направлении между концевыми участками; лазерную резку, по меньшей мере, одной линии перфорации в стеклянном изделии путем фокусировки импульсного оптического квантового генератора на фокальной линии лазерного луча под углом падения на боковую поверхность стеклянного изделия, при относительном движении между стеклянным изделием и импульсным оптическим квантовым генератором, причем стеклянное изделие прозрачно для длины волны импульсного оптического квантового генератора, и разделение стеклянного изделия вдоль, по меньшей мере, одной линии перфорации, с получением стеклянного изделия, вырезанного лазером. 2. Способ по п.1, отличающийся тем, что длина волны импульсного оптического Стр.: 1 A 2 0 1 7 1 0 4 4 2 7 A WO 2016/007843 (14.01. ...

Glass tube cutting device

Glass tube cutter

Apparatus for processing the cut surface of the cut glass tube

The present invention relates to an apparatus for processing a cutting surface of a cut glass tube. According to the present invention, a plurality of cutting glass tubes where fine uneven parts are provided on cutting surfaces are aligned to be capable of rotation, a glass tube support means for a rotational movement to an installation position of a heating processing means for smoothly processing the placed uneven parts of the cutting glass tubes is configured to be installed on an outer peripheral surface of a turntable, and the cutting surfaces of the multiple cutting glass tubes are smoothly processed at the same time, and thus bulb productivity can be improved. Since the heating processing means performs the smooth processing on the cutting surface while the cutting surface of the cutting glass tube is preheated by the use of a heater block of preheating means before the rotational movement of the cutting glass tube to the heating processing means, the length of time required for the cutting surface processing can be significantly reduced. Since the cutting glass tube can be rotated by 180 degrees due to an adsorption block of direction conversion means, the cutting glass tubes cut by the use of the single cutting surface processing apparatus provided with the glass tube support means can be processed at the same time.

Glass hollow body product, its production method and production equipment and application thereof

一种用于生产玻璃中空体产品(1)的方法和设备，包括具有外表面(28)的玻璃中空体(6)，所述外表面具有第一端部区域(20)和第二端部区域(22)，其中，所述第一端部区域(20)被第一底部(24)封闭并且所述第二端部区域(22)被第二底部(26)封闭，其中，在外表面(28)上布置有多个彼此间隔开的丝状损伤(14)，并且通过至少一部分丝状损伤(14)形成将玻璃中空体(6)的内部与外表面(28)相连接的开放通道(16)，其中，每个单独通道(16)的直径处在大于0至小于50微米的微米范围内，并且多个设置在微米范围内的开放通道(16)形成用于排气和/或压力补偿的足够大的横截面积。

The cutting-off method and shearing device of pipe glass and the manufacture method of pipe glass product

在本发明所涉及的管玻璃(G1)的切断方法中，将焦点(F)对准到管玻璃(G1)的内部照射激光(L)，通过在激光(L)的照射区域产生的多光子吸收，在管玻璃(G1)的圆周方向的一部分形成含有一个或多个裂纹的内部裂纹区域(C1)，并且在管玻璃(G1)中产生对内部裂纹区域(C1)中的裂纹沿管玻璃(G1)的圆周方向扩展进行促进的应力，从而使裂纹在管玻璃(G1)的整周上扩展，由此将管玻璃(G1)切断。

Method and plant for forming edge in glass articles and glass article with treated edge

На первом этапе обрабатываемый участок изделия подвергается воздействию пучка или пучков лучей лазеров, работающих в непрерывном режиме таким образом, чтобы эти пучки попадали на обрабатываемый участок в одной или нескольких зонах при поверхностной плотности мощности в пределах 30 Вт на 1 мм 2 . На втором этапе воздействуют на отдельные точки обрабатываемого участка, который на первом этапе облучался пучком лучей лазеров, работающих в непрерывном режиме, сфокусированным пучком света лазера, работающего в импульсном режиме с мощностью в пределах 250 Вт. На эти точки на обрабатываемом участке воздействуют пучком света лазера, работающего в импульсном режиме так, что в ходе этого этапа в результате воздействия сфокусированного пучка света импульсного лазера образуются расположенные в линию на обрабатываемом участке точки, и пары этих точек оказываются разделенными определенным расстоянием. Техническая задача: возможность обработки изделий выпуклой и вогнутой формы. 3 с. и 21 з.п.ф-лы, 5 ил. дс 9сбс ПЧ сэ (19) РОССИЙСКОЕ АГЕНТСТВО ПО ПАТЕНТАМ И ТОВАРНЫМ ЗНАКАМ ВО” 2 193 537' 57 МК С ЗВ 33/095, В 23К 26/00 13) С2 12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ РОССИЙСКОЙ ФЕДЕРАЦИИ (21), (22) Заявка: 2000100370/03, 10.06.1998 (24) Дата начала действия патента: 10.06.1998 (30) Приоритет: 11.06.1997 ВЕ 9700505 (46) Дата публикации: 21.11.2002 (56) Ссылки: ОЕ 4411037 А, 06.10.1994. КЦ 2024441 СЛ, 15.12.1994. КУ 2015119 СЛ, 30.06.1994. ОЕ 4434648 А, 04.04.1996. ММО 96/20062 АЛ, 04.07.1996. (85) Дата перевода заявки РСТ на национальную фазу: 11.01.2000 (86) Заявка РСТ: ВЕ 98/00085 (10.06.1998) (87) Публикация РСТ: М/О 98/56722 (17.12.1998) (98) Адрес для переписки: 129010, Москва, ул. Б.Спасская, 25, стр.3, ООО "Юридическая фирма Городисский и Партнеры", Е .В.Томской (71) Заявитель: КЮВЕЛЬЕ Жорж (ВЕ) (72) Изобретатель: КЮВЕЛЬЕ Жорж (ВЕ) (73) Патентообладатель: КЮВЕЛЬЕ Жорж (ВЕ) (74) Патентный поверенный: Томская Елена Владимировна (54) СПОСОБ И УСТАНОВКА ДЛЯ ФОРМИРОВАНИЯ КРАЯ В ИЗДЕЛИЯХ ИЗ ...

Cutting method and cutting device for tube glass, and method for manufacturing tube glass product

在本发明所涉及的管玻璃(G1)的切断方法中，将焦点(F)对准到管玻璃(G1)的内部照射激光(L)，通过在激光(L)的照射区域产生的多光子吸收，在管玻璃(G1)的圆周方向的一部分形成含有一个或多个裂纹的内部裂纹区域(C1)，并且在管玻璃(G1)中产生对内部裂纹区域(C1)中的裂纹沿管玻璃(G1)的圆周方向扩展进行促进的应力，从而使裂纹在管玻璃(G1)的整周上扩展，由此将管玻璃(G1)切断。

Method and installation for cutting out glass pieces

The invention concerns a method for cutting out a glass component (1) along a predetermined cutting line (4). A common laser radiation beam (52) focused with focusing means (32), travels along the predetermined cutting line (4) during at least one tracing step and during at least one heating step, the focusing means (32) being an adjustable focusing means which, during the tracing step, focuses said laser radiation beam (52) substantially on the predetermined cutting line (4) and which, during the heating step, causes the focal point (53) of said beam to be substantially away from the predetermined cutting line (4).

Method for laser cutting of tubular glass blanks

Изобретение относится к лазерной технике, в частности к методам разделения материалов с помощью лазерного излучения за счет создания внутренних термонапряжений. Цель изобретения - повышение производительности и качества резки. Способ лазерной резки трубчатых заготовок из стекла предусматривает воздействие на поверхность вращающейся заготовки лазерным лучом. Лазерный луч фокусирует с помощью линзы и направляют на поверхность заготовки под углом к линии, соединяющей ось заготовки и центр линзы. Отраженный от заготовки луч вновь направляют в зону резки с помощью зеркала, размещенного под углом β к линии, проходящей через центр линзы и ось заготовки, при этом угол b определяют из следующего выражения: β = [2arcsin(R+L)/(R•sinα)-α-90], где R - радиус заготовки; L - расстояние от центра линзы до поверхности заготовки (фокусное расстояние); α - угол между лучом лазера и линией, соединяющей ось заготовки и центр линзы. 1 ил. 1 табл.

Method and apparatus for cutting tube glass, and method for manufacturing tube glass product

Cutting apparatus of ampule

앰플절단장치가 개시된다. 개시된 본 발명은 앰플의 헤드를 삽입하여 절단하기 위한 앰플 절단부; 앰플 절단 시 발생하는 절단된 앰플의 헤드 및 미세 파편 등의 수거물을 공기와 함께 흡입한 후, 공기와 수거물을 분리하기 위한 집진부; 상기 집진부에 부압을 인가하기 위한 부압발생장치; 및 상기 집진부를 통해 흡입되는 수거물을 포집하기 위한 수거부를 포함하는 것을 특징으로 한다. 앰플절단장치, 앰플, 사이클론, 진공모터

Patent DE3913875C1

Full-automatic kinescope separating device

本发明公开了一种全自动显像管分离装置，涉及显像管分离装置技术领域，其技术方案要点是：包括依次设置的刻痕工作台、切割工作台、除粉工作台以及依次穿设过刻痕工作台、切割工作台和除粉工作台的输送台，输送台穿过除粉工作台的一端设置有与输送台长度方向垂直设置的机架，机架内设置有呈上下位置关系设置且输送方向与机架长度方向一致的第一皮带机和第二皮带机；过输送台、第一皮带机和第二皮带机实现显像管的自动输送工作，并能够通过设置于控制柜内的PLC控制器与刻痕工作台、切割工作台以及除粉工作台的配合实现显像管的自动刻痕、切割和除粉工作，无需人工操作，且各工位的合理化分配能够大大提高工作效率。

Arrangement for cutting ampoules

FIELD: invention refers to medicine and is used for cutting ampoules. SUBSTANCE: arrangement has cutting ampoules unit assigned for placing head of ampoule and its cutting, init for collecting objects assigned for drawing together with air of cut head of ampoule and small fragments formed in process of cutting ampoule and separation of these objects from air, making vacuum arrangement assigned for making vacuum in unit for collecting objects. Collecting unit is assigned for collection of objects drew in with unit for collecting objects fulfilled in shape of cyclone construction. EFFECT: reduces level of noise of arrangement at work. 19 cl, 15 dwg ÐÎÑÑÈÉÑÊÀß ÔÅÄÅÐÀÖÈß RU (19) (11) 2 321 535 (13) C2 (51) ÌÏÊ B67B 7/92 (2006.01) A61J 1/06 (2006.01) ÔÅÄÅÐÀËÜÍÀß ÑËÓÆÁÀ ÏÎ ÈÍÒÅËËÅÊÒÓÀËÜÍÎÉ ÑÎÁÑÒÂÅÍÍÎÑÒÈ, ÏÀÒÅÍÒÀÌ È ÒÎÂÀÐÍÛÌ ÇÍÀÊÀÌ (12) ÎÏÈÑÀÍÈÅ ÈÇÎÁÐÅÒÅÍÈß Ê ÏÀÒÅÍÒÓ (72) Àâòîð(û): Î Äæàíã-êüþí (KR), ÑÅÎ Äæè-âîí (KR) (21), (22) Çà âêà: 2006108108/14, 16.03.2006 (24) Äàòà íà÷àëà îòñ÷åòà ñðîêà äåéñòâè ïàòåíòà: 16.03.2006 (73) Ïàòåíòîîáëàäàòåëü(è): Ñàìñóíã Ãóàíãäæó Ýëåêòðîíèêñ Êî., Ëòä. (KR) R U (30) Êîíâåíöèîííûé ïðèîðèòåò: 05.08.2005 KR 10-2005-0071533 (43) Äàòà ïóáëèêàöèè çà âêè: 27.09.2007 (45) Îïóáëèêîâàíî: 10.04.2008 Áþë. ¹ 10 2 3 2 1 5 3 5 R U (54) ÓÑÒÐÎÉÑÒÂÎ ÄËß ÐÀÇÐÅÇÀÍÈß ÀÌÏÓË (57) Ðåôåðàò: Èçîáðåòåíèå îòíîñèòñ ê ìåäèöèíå è èñïîëüçóåòñ äë ðàçðåçàíè àìïóëû. Óñòðîéñòâî ñîäåðæèò óçåë ðàçðåçàíè àìïóëû, ïðåäíàçíà÷åííûé äë ðàçìåùåíè ãîëîâêè àìïóëû è åå îòðåçàíè , óçåë ñáîðà ïðåäìåòîâ, ïðåäíàçíà÷åííûé äë âò ãèâàíè âìåñòå ñ âîçäóõîì îòðåçàííîé ãîëîâêè àìïóëû è ìåëêèõ îñêîëêîâ, îáðàçîâàííûõ â ïðîöåññå ðàçðåçàíè àìïóëû, è îòäåëåíè ýòèõ ïðåäìåòîâ èç âîçäóõà, ñîçäàþùåå ðàçðåæåíèå óñòðîéñòâî, ïðåäíàçíà÷åííîå äë ñîçäàíè ðàçðåæåíè â óçëå ñáîðà ïðåäìåòîâ. Ñîáèðàþùèé óçåë ïðåäíàçíà÷åí äë ñáîðà ïðåäìåòîâ, âò íóòûõ óçëîì ñáîðà ïðåäìåòîâ, âûïîëíåííûì â âèäå öèêëîííîé êîíñòðóêöèè. Òåõíè÷åñêèé ðåçóëüòàò çàêëþ÷àåòñ â ñíèæåíèè óðîâí øóìà ïðè ðàáîòå óñòðîéñòâà. 18 ç.ï. ô-ëû, 15 èë. ...

Clamping tool for cutting high borosilicate glass tube

本发明公开了一种高硼硅玻璃管切割用夹持工装，涉及高硼硅玻璃管加工技术领域，包括固定架，固定架内竖直固定安装有气缸，气缸下端固定有电机，所述托盘上设有用于对高硼硅玻璃管夹持固定的若干个夹持机构，所述转盘上设有用于对夹持机构进行驱动的驱动机构；本发明通过设置的托盘能同时放置多个将要进行切割处理的高硼硅玻璃管，通过设置的驱动机构能带动转盘旋转，使得转盘通过拉杆拉动抵推块沿着导向槽滑动，抵推块与抵推辊抵接，实现对滑杆的推动作用，使得每个放置槽上的夹持弧块相向运动，实现对多个高硼硅玻璃管的同时夹持锁紧固定效果，设置的蜗杆I和蜗轮I啮合连接实现自锁，能保证对高硼硅玻璃管的稳固夹持锁定。

Method and installation for manufacturing a glass container and air bearing

Die vorliegende Erfindung betrifft eine Anlage zum Herstellen eines insbesondere rotationssymmetrischen Glasbehältnisses, wie einer Glasspritze, einer Glaskarpule, eines Glasvials oder einer Glasampulle, aus einem insbesondere rotationssymmetrischen Glasrohrrohling, der eine Rotationsachse definiert, umfassend ein Futter zum rotierenden Lagern des Glasrohrrohlings, eine Ablängeinrichtung zum Ablängen von Glasbehältnissen vorbestimmter Länge von dem Glasrohrrohling, und ein dem Futter nachgeschaltetes und der Ablängeinrichtung vorgeschaltetes Luftlager zum kontaktlosen Lagern des Glasrohrrohlings. The present invention relates to a system for producing a particularly rotationally symmetrical glass container, such as a glass syringe, a glass cartridge, a glass vial or a glass ampoule, from a particularly rotationally symmetrical glass tube blank which defines an axis of rotation, comprising a chuck for rotating storage of the glass tube blank, a cutting device for cutting to length of glass containers of a predetermined length from the glass tube blank, and an air bearing connected downstream of the chuck and upstream of the cutting device for contactless storage of the glass tube blank.

Ampule opener

An opener for an ampule having a head and a body to prevent contamination of material in an ampule from particles formed when the ampule is opened comprises at least one opening mechanism including a head holder and an annular flexible jacket situated around an end of the head holder to extend outwardly therefrom. The head holder includes a hole with a cylindrical opening at one end for receiving at least a part of the head of the ampule, and an outlet communicating with the hole. The inner diameter of the flexible jacket is almost the same as the outer diameter of the body of the ampule to be opened. The outlet of the head holder is connected to a vacuum source to inspire air through the hole. Therefore, the head and the body of the ampule are respectively located in the hole and the flexible jacket, and then the body is bent, so that the particles formed by thereby snapping apart the ampule are inspired with air into the vacuum source.

Method and device for tracing a fracture line on the tips of glass phials

Glass phial comprising a body of revolution intended to contain a pharmaceutical composition, closed at at least one of its ends by a tip having a fracture line 2, characterised in that the said fracture line is formed by a plurality of surface microfractures 3. The invention also relates to a method and device for marking these tips.

Appts for breaking glass tube in lengths - circumferentially scores tube and applies radial breaking forces

The apparatus produces glass lengths which are formed into pipettes and feeds tubes from a magazine into successive grooving or scoring, guiding and fracture stations. These latter operations are effected by an arrangement of peripherally notched meshing rollers and the tube is subjected to co-planar radial forces in opposite senses to break it into lengths. The tubes are led from an entry chute to a concave blade scorer via a rotating cylinder with regularly pitched semi-circular peripheral notches receiving individual tubes which are rotated whilst in the cutting orbit by a flexible rotating seating band.

Device for automatically cutting glass tubes

Moil removal - from hollow glass bodies

Apparatus for cracking off moil from hollow glass articles is arranged to receive rows of moulded glass articles as they leave a lehr and transfer them into a single line conveyor, which feeds them to a rotating turret on a crack-off machine using a feed screw and transfer wheel which presents the articles in turn to a crack off device and then to edge polishing nozzles. The articles are then fed into an annealing machine, and are rotated on the crack off chucks on which they are heated on the rotating turret. The crack-off device comprises a heating flame directed at the articles along a predetermined line at the top edge of the required position, a rotating cutting knife to strike the heated part, operated by an air blast, and a cushioned drive. The apparatus is especially for use with thin glass tumblers which require no mechanical finishing or polishing and is adapted to fast efficient throughput.

DEVICE FOR SUPPORTING A PREFORM, INSTALLATION FOR MANUFACTURING OR RECHARGING A PREFORM, PROVIDED WITH SUCH A DEVICE, METHODS IMPLEMENTED IN SUCH AN INSTALLATION, PREFORM PRODUCED ACCORDING TO SUCH METHODS

L'invention concerne un dispositif de soutien d'une préforme (1) fabriquée dans une installation de fabrication ou de recharge de préformes (1) à âme support (2), ladite installation comprenant au moins des moyens de rotation (3) d'axe de rotation horizontal (4) ayant deux points de montage (3a, 3b) entre lesquels est montée l'âme support (2) de la préforme (1) à fabriquer ou à recharger, des moyens (5) de torche à plasma et d'apport de matière disposés radialement à ladite âme support (2) et ayant un mouvement relatif de translation axiale parallèle à l'âme support (2) pour la réalisation de ladite préforme (1) autour de ladite âme support (2), ledit dispositif étant caractérisé en ce qu'il comprend des moyens de soutien commandés (7) constituant des points d'appui (8) complémentaires localisés entre lesdits points de montage (3a, 3b) pour ladite préforme (1) en cours de fabrication ou en cours de recharge. The invention relates to a device for supporting a preform (1) manufactured in an installation for manufacturing or recharging preforms (1) with a support core (2), said installation comprising at least means of rotation (3) of horizontal axis of rotation (4) having two mounting points (3a, 3b) between which is mounted the support core (2) of the preform (1) to be manufactured or recharged, plasma torch means (5) and supply of material disposed radially to said support core (2) and having a relative movement of axial translation parallel to the support core (2) for the production of said preform (1) around said support core (2), said device being characterized in that it comprises controlled support means (7) constituting complementary support points (8) located between said mounting points (3a, 3b) for said preform (1) during manufacture or in recharging course.

Glass pipettes for laboratory use - obtd by heating and drawing one tube which is then cut into two pipettes

In mfg. pipettes, a tube of brittle material is cut into sections of the same length, the ends of each section then being heated to round off the edge and the ends closed by wicks; the blanks thus obtd. are sterilised and the middle part heated to the softening pt. of the glass followed by drawing, and cutting the middle section by means which favour the sealing of the two ends. The cutting of the drawn, middle part, is pref. achieved by heat, i.e. sepn. into two parts by melting. Used for mfrg. of pipettes used in analytical laboratories or biological research, e.g. for insertion in cultures in test tubes. Reduces the number of mfg. operations, permitting mechanised prodn. at high rate and at low cost.

Manufacturing process of glass objects

APPARATUS AND METHOD FOR DETACHING TRUNCONS OF GLASS BARS, TRONCON OF GLASS BARS PRODUCED THEREBY, AND OPTICAL WAVEGUIDE COMPRISING SUCH A TRONCON

L'invention concerne un appareil et un procédé pour détacher des tronçons (30) de barreaux de verre (3) en produisant des surfaces de fracture uniformes et très planes. A cet effet, les barreaux de verre (3) sont maintenus parallèlement et fixement dans la direction latérale, une molette (5) d'entaillage est déplacée transversalement à eux, sans jeu et est soumise à la force d'un ressort (9) de compression pour s'appliquer sous pression contre les barreaux (3) et les entailler. Ils sont ensuite cassés à l'aide d'un moyen (15) de maintien, d'une poutre (13) de rupture et d'une barre (11) de rupture.Domaine d'application : Production de guides d'ondes optiques, etc.

PROCESS AND INSTALLATION FOR MANUFACTURING CONTAINERS, IN PARTICULAR BULBS, FROM GLASS TUBES

A.PROCEDE ET INSTALLATION POUR FABRIQUER DES RECIPIENTS, NOTAMMENT DES AMPOULES, A PARTIR DE TUBES DE VERRE. B.PROCEDE CARACTERISE EN CE QU'ON SAISIT INDIVIDUELLEMENT CHAQUE EBAUCHE DE RECIPIENT DIRECTEMENT APRES SON EVACUATION DE LA MACHINE QUI LA PRODUIT ET ON LA MAINTIENT EN ETANT SUSCEPTIBLE DE TOURNER AUTOUR DE SON AXE LONGITUDINAL PENDANT SON TRAITEMENT DANS LES POSTES DE TRAITEMENT DISPOSES LE LONG DU CHEMIN DE TRANSFERT. C.L'INVENTION S'APPLIQUE NOTAMMENT A LA FABRICATION DES AMPOULES PHARMACEUTIQUES. A.PROCESS AND INSTALLATION FOR MANUFACTURING CONTAINERS, ESPECIALLY BULBS, FROM GLASS TUBES. B. PROCESS CHARACTERIZED IN THAT EACH BLANK OF CONTAINER IS INDIVIDUALLY SEIZED DIRECTLY AFTER ITS EVACUATION FROM THE MACHINE WHICH PRODUCES IT AND IS HELD BY BEING LIKELY TO TURN AROUND ITS LONGITUDINAL AXIS DURING ITS PROCESSING IN THE LONGITUDINAL POSTS. OF THE TRANSFER PATH. C. THE INVENTION APPLIES IN PARTICULAR TO THE MANUFACTURE OF PHARMACEUTICAL AMPOULES.

Tool for cutting glass cylinders

Device for cutting glass tubes

Device for cutting continuously manufactured glass objects

APPARATUS AND METHOD FOR CUTTING NON-DIFFRACTIVE LASER BEAM BEAM MATERIAL

L'invention concerne un appareil et procédé de découpe de matériau diélectrique transparent ou semiconducteur. Selon l'invention, l'appareil comprend une source laser (1) générant un faisceau laser (100) d'impulsions de durée picoseconde ou femtoseconde, un dispositif optique générateur de faisceau de Bessel (74) configuré pour recevoir le faisceau laser et pour concentrer spatialement le faisceau laser en au moins une zone sur l'axe optique (70) du faisceau laser, ledit dispositif optique générateur de faisceau de Bessel (74) étant configuré pour transformer une distribution spatiale d'intensité Gaussienne du faisceau laser en une distribution spatiale d'intensité de Bessel du faisceau laser transversalement à l'axe optique dans la zone de focalisation et un système optique passif (90) comprenant un masque de phase et/ou d'amplitude configuré pour modifier la distribution spatiale de Bessel du faisceau laser transversalement et/ou longitudinalement par rapport à l'axe optique dans la zone. An apparatus and method for cutting transparent or semiconductor dielectric material. According to the invention, the apparatus comprises a laser source (1) generating a laser beam (100) of pulses of picosecond or femtosecond duration, a Bessel beam generator optical device (74) configured to receive the laser beam and for spatially concentrating the laser beam in at least one region on the optical axis (70) of the laser beam, said Bessel beam generating optical device (74) being configured to transform a Gaussian intensity spatial distribution of the laser beam into a distribution spatial Bessel intensity of the laser beam transverse to the optical axis in the focusing zone and a passive optical system (90) comprising a phase mask and / or amplitude configured to modify the Bessel spatial distribution of the laser beam transversely and / or longitudinally with respect to the optical axis in the zone.

Patent FR742050A

Patent FR2270062B1

Process for the manufacture of tubular glass containers such as ampoules, flasks, etc., and products obtained

Improvements in the manufacture of hollow glass objects

Glass article cutting method

ABSTRACT OF THE DISCLOSURE A glass article cutting method by which a glass article can be cut not only along a linear line but also along a curved line of a desired profile and can be cut comparatively readily even if the glass article has a concave or convex portion on a face thereof or even if the glass article has a complicated three-dimensional profile. A conductive coating material such as colloidal carbon is applied in a linear line or a curved line on a surface of a glass article to be cut, and a high voltage is applied from a pair of positive and negative electrodes to the line of the conductive coating material to energize the conductive coating material to generate heat thereby to cut the glass article by thermal stress caused by the heat.

Process of manufacturing glass

Method and device for cutting tubular glass

Method of Forming Glass Preforms

미리 정해진 길이의 유리 예비성형체를 형성하는 방법은 예비성형체 길이 및 나머지 길이를 형성하도록 분리될 미리 정해진 길이의 유리 물질를 제공하는 단계; 상기 유리 물질에 노치를 형성하는 단계; 상기 노치에 인접한 영역에서 유리의 인장 강도를 초과하는 인장 응력을 유도하는 단계; 및 상기 노치에서 상기 나머지 길이로부터 상기 예비성형체 길이를 분리하는 단계를 포함한다. A method of forming a glass preform of a predetermined length includes providing a predetermined length of glass material to be separated to form a preform length and a remainder length; forming a notch in the glass material; inducing a tensile stress that exceeds the tensile strength of the glass in a region adjacent the notch; and separating the preform length from the remaining length at the notch.

DEVICE FOR MANUFACTURING BLOWN GLASS ARTICLES

Process for the manufacture of tubular glass containers such as ampoules, flasks, etc., and products obtained

Cracking-off machine

Ampul and a method for breaking it

IMRPOVED AMPUL AND A METHOD FOR BREAKING IT Abstract of the Invention The present invention relates to an improved ampul and to a method of breaking such an ampul. This ampul comprises a hollow tubular or cyclindrical container composed of glass or other breakable material having a reservoir chamber and an upstanding wall portion terminating in a sealable stem or tip portion, and includes a collecting chamber located between the reservoir chamber and stem portion. Upon breaking of the ampul above the collecting chamber, any particles so formed are trapped in the collecting chamber and thus introduction of such matter into the contents of the ampul is markedly reduced.

Improvements to automatic machines for the manufacture of tubular glass objects

Apparatus and method for detaching portions of glass rods

Device for manufacturing blow-out glass products

(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。

Glass articles made from laminated glass tubing and systems and methods for converting laminated glass tubing into the glass articles

Methods for producing glass articles from laminated glass tubing include introducing the glass tubing to a converter. The glass tubing includes a core layer under tensile stress, an outer clad layer under, and an inner clad layer. The methods include forming a feature the glass article at a working end of the laminated glass tubing and separating a glass article from the working end of the laminated glass tubing, which may expose the core layer under tensile stress at the working end of the glass tubing. The method further comprises remediating the exposed portion of the core layer by completely enclosing the core layer in a clad layer. Systems for re-cladding the exposed portion of the core layer as well as glass articles made using the systems and methods are also disclosed.

Multi-cutter cutting jig

本发明公开了一种多刀切割治具，包括治具本体和零件，所述治具本体的上端设置有用于固定卡装零件的零件卡槽，所述零件卡槽内设置有若干凹槽；本发明在治具卡槽贴面上挖槽，可通过高精密的精准推算出棱镜加工余量来达到接触面最小，从而尽可能的减小棱镜与治具的接触面积，由原来的整个面接触，到现在棱镜只与未挖槽部分的线槽接触，从而降低刮花棱镜的几率，减少不良品产生；挖槽部分填充有位于治具与棱镜之间的混合蜡，通过混合蜡对棱镜进行固定支撑，使棱镜在治具内卡装更加牢固，方便对棱镜进行加工，有利于提高棱镜加工的精密度。

Patent RU2017104427A3

7 ВИ“? 2017104427” АЗ Дата публикации: 11.02.2019 Форма № 18 ИЗ,ПМ-2011 Федеральная служба по интеллектуальной собственности Федеральное государственное бюджетное учреждение «Федеральный институт промышленной собственности» ж 9 (ФИПС) ОТЧЕТ О ПОИСКЕ 1. . ИДЕНТИФИКАЦИЯ ЗАЯВКИ Регистрационный номер Дата подачи 2017104427/03(007814) 10.07.2015 РСТЛО$2015/039919 10.07.2015 Приоритет установлен по дате: [ ] подачи заявки [ ] поступления дополнительных материалов от к ранее поданной заявке № [ ] приоритета по первоначальной заявке № из которой данная заявка выделена [ ] подачи первоначальной заявки № из которой данная заявка выделена [ ] подачи ранее поданной заявки № [Х] подачи первой(ых) заявки(ок) в государстве-участнике Парижской конвенции (31) Номер первой(ых) заявки(ок) (32) Дата подачи первой(ых) заявки(ок) (33) Код страны 1. 62/023,450 11.07.2014 05 2. 62/159,573 11.05.2015 05 Название изобретения (полезной модели): [ЖХ] - как заявлено; [ ] - уточненное (см. Примечания) СИСТЕМЫ И МЕТОДЫ РЕЗКИ СТЕКЛА ПУТЕМ СОЗДАНИЯ ПЕРФОРАЦИИ В СТЕКЛЯННЫХ ИЗДЕЛИЯХ С ПРИМЕНЕНИЕМ ИМПУЛЬСНОГО ОПТИЧЕСКОГО КВАНТОВОГО ГЕНЕРАТОРА Заявитель: КОРНИНГ ИНКОРПОРЕЙТЕД, 05 2. ЕДИНСТВО ИЗОБРЕТЕНИЯ [Х] соблюдено [ ] не соблюдено. Пояснения: см. Примечания 3. ФОРМУЛА ИЗОБРЕТЕНИЯ: [Х] приняты во внимание все пункты (см. Примечания) [ ] приняты во внимание следующие пункты: [ ] принята во внимание измененная формула изобретения (см. Примечания) 4. КЛАССИФИКАЦИЯ ОБЪЕКТА ИЗОБРЕТЕНИЯ (ПОЛЕЗНОЙ МОДЕЛИ) (Указываются индексы МПК и индикатор текущей версии) СОЗВ 33/06 (2006.01) В2ЗК 26/08 (2014.01) В2ЗК 26/384 (2014.01) 5. ОБЛАСТЬ ПОИСКА 5.1 Проверенный минимум документации РСТ (указывается индексами МПК) С03В33/00-С03В33/06, В23К26/08, В23К26/38-В23К26/402 5.2 Другая проверенная документация в той мере, в какой она включена в поисковые подборки: 5.3 Электронные базы данных, использованные при поиске (название базы, и если, возможно, поисковые термины): РУРТ, ЕАРАТГУ, Езрасепек, ]-Р1а Ра, РАТЕМТСОРЕ, ...

Method for producing an optical fiber preform

Device for cutting glass rings from vertically positioned glass tubes

Improvements in devices for cutting rods, tubes, glass during their drawing

Improvements relating to glass tube severing apparatus

<PICT:1040913/C1/1> <PICT:1040913/C1/2> <PICT:1040913/C1/3> Apparatus for severing lenghts from longitudinally travelling glass tubing comprises means for heating the tubing in a narrow circumferential zone and means for carrying the heating means continuously in a closed path including a reach in which the heating means travels with and at the same speed as the tubing, during which the narrow zone is heated to raise its temperature above the remainder of the tubing, and means to sever the tubing such as chilling means to contact the heated zone. A chain conveyer 6 is provided with two burners 4, 5 of horseshoe shape opening outwardly of the conveyer 6 so as to straddle glass tubing 1 as it is fed by a tractor 2 and supported on a roller 13, the conveyer 6 being guided on tracks 50, 51 and 52, 53 by rollers 54, 55 on the burners 4, 5 and intermediate rollers 60. The conveyer 6 comprises endless chains 24, 25 over sprockets on shafts 28, 31 journalled between plate assemblies 33 and 34 each adjustably formed by a plate 64 with slots 65 to which end plates 66 and 67 are secured by bolts, the plates 33, 34 being mounted on and adjustable vertically on support posts 36, 37 by means of screws 61, 62 engaging lugs 63 on plate 33 and the support post 37 being adjustable along the base 38 to allow lengthening of the conveyer chains 24, 25 for different lengths of cut. The conveyer may also be provided with more than two burners. Each burner 4, 5 has a narrow slot 10 in its arcuate bight 7 and a series of slits 11 in the straight arms 8, 9 so that flames are directed substantially all round the tubing 1. The burners 4, 5 are fed with air-gas mixture through a rotatable spindle 75, journalled to the plates 64, and having a central passage 78 and annular passage 79 connected by a rotary gas coupler 80 with conduits 81, 82, the passages 78, 79 being connected by metal pipes 84, 89, flexible pipes 85, 90 and metal pipes 86, 91 respectively, joined by screwing ...

Cutting U=tube glass profiles - by cutting from the centre of the base of the U (BR 6.12.77)

Method for cutting very long glass profiles of U section moving in a straight line, consists of cutting the profile transversely using two cutting tools accompanying the profile in its longitudinal movement. The first tool cuts the profile in one half of its cross-section from a point in the middle of the base of the U to a point at the top of the branch of the U. The other half is then cut similarly. The process can be automated rather than having the glass cut manually.

Process and apparatus for severing glass pieces

Method and apparatus for separating a circular portion of a piece of glassware

Glass cane and tube severing apparatus