INDUCTION HEATING HEAD FOR MELTING AND SUPPLYING METAL MATERIAL
Relates to the present invention refers to induction heating head, of a metal materials melted in the relates to an induction heating head. In particular, etching a metal material supplied for locally heating the in order to supply from a molten state to a relates to an induction heating head. The present invention according to induction heating head, soldering, metal welding, various printing of metallic materials 3D. application the art. Today most appliances (Printed Circuit Board, hereinafter PCB) to a printed circuit board to electrically connect the electronic components to mechanically fixed of wet liquid to flow down soldering. Method in a heat on the resin coated foil to PCB electronic components, for soldering (solder wire) thread lead the surface plate while supplying the position a heat on the resin coated foil formed by melting product beneficial for the body method (hereinafter called solder thread lead.) and, between the pad PCB and terminals of electronic components solder paste (solder paste) a voltage is applied to the a heat on the resin coated foil formed by melting product beneficial for the body method (solder paste solder him a hereinafter) is connected to the semiconductor layer.. While, by being used in an electrotechnical product which is provided with lead alloy are the range of 190 °C -300 °C is generally melting temperature (solder alloys). When the coated solder and is, is point or above in the heating melted lead alloy, which has a electronic components and using a common PCB rated temperature or more is heated at a high temperature. In particular, a method of soldering solder paste reflow soldering process (wave soldering process) (reflow soldering process) or wave soldering process is soldered by PCB components and value is both the. heated at or above the melting temperature of lead alloy. Even thread lead soldering method, soldering iron contact with component and portions of PCB locally. heated at or above the melting temperature of the solder alloy. Therefore, during processing, the soldering electronic components are exposed to elevated temperatures experienced in a herein, the tooth profile has an to operate safely even though the high temperature characterised in that it is made with rating, this to raise cost for manufacturing electronic component. Furthermore, a heated at a high temperature in a soldering process heat shock electronic components are also the flange part is attached on the (thermal shock). In particular, reflow soldering process the electrolytic capacitor or a unit for generating and also provided a method of fabricating semiconductor package, multilayer PCB viscosity lowering or strength of generate to heat a peripheral (via hole) via hole. Problem of said method of the existing method such as soldering, wave soldering in particular of the first conductive layer pattern is reflow soldering process, a device for an induction heating soldering device of America (title of the invention, MATRIX-INDUCTION SOLDERING APPARATUS AND DEVICE) to patent US 6,188,052 B1 is disclosure. A disclosure to said patent a device, which are disposed in the form matrix cell plurality of guide has a (induction cells) and a switching device. Switching device a upon each guided cell case of blocking of power electronic components mounted on a PCB PCB terminal and of adhesive layer is formed on the pad locally a lead alloy obtained by melting of is configured to perform soldering. However, said patent document disclosure to an induction heating soldering device is an electronic component surface mounted on a PCB for the soldering device (surface mounting device) as, thread lead soldering manner difficult to pipe has no for manufacturing metal bump used screen printing. In particular, induction coil thread lead formed by means of a magnetic field, which in a specific for supplying a given device or method of wet liquid to flow down. On the other hand, is locally induction heating type and terminals of electronic components for locally heating pad of the PCB in a contact-free manner, an inductive soldering thread lead is known heating soldering device. German FRISCH yarns thread lead soldering type inducing heating soldering device which sold amount in the catalyst in the, homepage substracte (http://www. frisch-gmbh. de /) be soldered to the embodiment of device is disclosure. Figure 1 shows a disclosure to also said of home page is similar to that in the embodiment of is wire heating soldering device. Also shown in 1, induction heating soldering device a, induction heating coil (10) and induction heating coil (10) amount of a high-frequency power source coupled to a (20) comprises an ultra-. Induction heating coil (10) end of (10a) the whose one side is open is wound successively loop configuration bent L-shaped. As shown in 1 also, PCB (40) part insertion of components inserted hole (41) of terminals (41a) near the induction heating coil (10) and the priority parameters approach and reach the end of, induction heating coil (10) end of (10a) in the priority parameters approach and reach the near thread leadthread lead (30) formed by melting a performs soldering. Induction heating coil (10) is turned high-frequency current to the above circuit to prevent an by an alternating magnetic field is formed, an alternating magnetic field conductor is placed is heated and the induced current is surface, heated PCB pad and terminal of an electronic component having a low melting point is soldering portion which has melted thread lead. However, also 1 shown in soldering induction heating of the existing method is as follows, and decides whether the specific signal device. First, induction coil heating a magnetic field formed to be concentrated on the areas topical to be increases to a configuration, to achieve an expanded metal, and the sections heated damage to components adjacent can be. Also also shown in Figure 2 shows a device 1 of terminal equipped with camera through wired heating soldering, is heated by a range of a distribution of energies of. the (isoline) heterogeneous. Also as shown in 2, coil (10) end of (10a) around the heated zone thread lead the distribution and a wide (a-g) (30) addition coil (10) end of (10a) placed around the an electronic component is an external heating. Furthermore, induction coil thread lead at the end to be heated by a remote thread lead the first portion which has melted away unchanged is not melted end soldering which the liquid crystal. Also shown in Figure 3 shows a device 1 also an induction heating soldering heated by exhibits and distribution and thread lead. Also as shown in 3, of the existing method induction heating soldering thread lead of in an amount that is required for soldering device (30) when heating attempts to melt, thread lead (30) end of (30a) received from the second spaced portions (30b) is heated by the high temperature than at the ends is.. Therefore, soldering thread lead of electrical energy to (30) end of (30a) when attempts melting at the end a remote location (30c) is initial melting in using an excessive amount of thread lead supplied, thread lead end (30a) is melted, the peak temperatures end prior to portion (30b) is first portion which has melted end (30a) is melted, the film is not coated, corresponding to in the absence of welding flaws causes a. Furthermore, induction coil thread lead supplied for soldering is arranged in the region are heated by a induction coil surface, support device of braking force of on the soldering area will occur in order to form a precise location of a it is difficult. Furthermore, induction coil the SIGE film is heated for a, the unnecessary parts thread lead in order to avoid tilting much thread lead to a coil, when supply interference with components or the like, pressure supply mechanism thread lead or thread lead is induction heating soldering is provided to reduce the fabricating device softness. Recent electronic component according to progress of one of the waveform data as read, is of thermal error of tapered and, in addition a distance between the pair of bone lead simultaneously plural of wet liquid to flow down. Step, the BSD miniaturization of electronic components be stably carried out without any damage by heating for soldering viable, PCB of which has a terminals of electronic components and, in a contact-free manner only solder alloy pad and to locally heat the metal and the soldering device development of vinyl acetate copolymer, which can be of wet liquid to flow down is requested. In particular, electronic components mini- thread lead soldering manner bent the coated solder and is, contact type direct methanol fuel cell using the iron of the existing method soldering device contains a soldering a defect or exposed to elevated temperatures experienced in a products the generation of failure is difficult to to applying. Recent, in a contact-free manner using a laser, invention relates to device for soldering. Laser soldering with thread lead of thermal error of a device on a pad of PCB and the lens emits a laser light for recording is device for soldering. However, a device using laser soldering, soldering in external disturbance by soldering laser light whose parts and electronic deviated from a site irradiated with PCB whose parts and electronic the movable member is driven by and to damage the PCB is connected to the semiconductor layer. defects. Furthermore, also of the existing method is the same as that shown in 1 induction heating soldering device, such as taught front, PCB for manufacturing metal bump used screen printing to locally heat the metal and the only end thread lead position and for sensing a and, accurate soldering thread lead inability of such supply mechanism and at least is connected to the semiconductor layer. defects. On the other hand, obtained by melting of a desired position of metal material for supplying. there is a need for an device. For example, movable up and down by a particular portion when is repaired in the worn mold, molten metal material in the worn portion device supply can be achieved, is development, expensive their original shape, a low cost of molds, use can be made of, a human body to output the amplified. Furthermore, plate and inserted in the through hole to of gelatin, melamine large such as of contacts are non-or load to a change of exchane generating the case of need, in situ of metal material obtained by melting of the performance of welding a device is development, large to easily cost gearing having axial of gelatin, melamine can be or reinforced. Furthermore, using plastic material in place of the printer 3D the through using of metal material or product characterized by easy and moderate 3D metal that can be. there is a need for an printer. In particular, the mass production a complex-shaped metallic component at low cost and with ease, that can be. large the need for device. The present invention refers to said induction heating such as problem of device as well as soldering, of metal material for supplying by type device to address the need for a structure vinyl acetate copolymer, which can be induction heating of head in. In particular the present invention refers to, a magnetic field formed induction coil heating on a to be concentrated on the areas of local an induction heating can be constructed so that the head in. Furthermore, the present invention refers to when the fuel cells in the form of wire metal material is, end portions of the wires where they are supply configured to heating only an induction heating head in. Furthermore, the present invention refers to the molten metal and material a predetermined position a desired amount to the can be uniformly fed an induction heating head in. The present invention according to the melting of metal material an induction heating head, a high-frequency power source is electrically connected to a heating coil and an object of induction, includes magnetic core. A magnetic core said said magnetic flux induced by induction heating coil provide a pathway for magnetic body is circular ring-shaped and a hollow cylinder, hollow interior in which metal material and an opening and being supplied to, supplied metal material for being discharged has a an exit portion with a. The conductive induction heating coil said spirally-wound wire rod (solenoid shape) or alternatively in a, a circular conducting plate can be-wound. -wound or circular helical conductive material of the induction heating coil formed a hollow-centered magnetic flux passage is formed. Upon application of a high-frequency power source induction heating coil, and connected a vacuum induction heating coil are connected by the by coating a stirred and foamed aqueous outside induction heating coil, a high-frequency power source according to a frequency of an direction varying 48b is formed. In addition circuit to prevent an varying direction by 48b magnetic field formed by. a heated conductor located within the interior region. A magnetic core said heating coil to the inductively a magnetic is derived from an magnetic field provide pathways for the, metal material inserted into hollow core magnetic flux is passed the core hollow of the metal material. that which is being heated. A magnetic core may also be used but using ferromagnetic body, for example ferrite core such an oxide or metal powder such as core and dust it is molded of a soft magnetic material and core not to heated at a high temperature it is preferable that the. A outlet of said magnetic core, etching a metal material and is exhausted through the outlet portion and a magnetic flux is configured to pass through the magnetic core hollow a step of heating and melting the metal discharged from semiconductor production units as 1.. Therefore, when it is supplied and the nebuliser continuously metal material, the upper end of the metal located within the interior region magnetic core, and is not heated by induction current, magnetic core outlet of heated in etching a metal material is the heating conduction of heat from. Etching a metal material used in of the present invention embodiment for example, iron or ferro, copper or copper alloy, lead or lead alloys, aluminum or aluminum alloy can be or the like is used as an. Etching a metal material supplied form of various forms depending on the application may be used. For example, wire in the form supplied, can be supply in powder form. Furthermore, the fuel cells in the form of wire, even when the, filament formed on the material layer number of wires braided or the like, permits various forms. Even in a case of a low powder or-spherical shape of particles, in circular cylinder, such as flake shape permits a variety of shapes. In some embodiment, a magnetic core, eliciting or inducing internal to the induction heating coil of the heating coil disposed adjacent to external may be loaded with. The interior of induction heating coil when to be arranged, magnetic core, induction heating coil after a formed induction heating of a solenoid shape or through the use of coils, to form into the interior of the hollow plate zig zag fashion of the induction heating coil formed, by being wound on, use can be made of,. The soldering of the induction heating coil hollow therein at locations of intended the support unit increases the magnetic flux density in flux is concentrated, induction heating coil a magnetic core inserted into hollow of the heating range etching a metal material, and to limit the tonnage required formed by melting by and capable of supplying, which is supplied with material metal melt at the same time magnetic flux even with concentrated in a position such that the molten metal is attached an area which can be locally heat the metal and the silicon. In some embodiment, exhaust from hollow magnetic core of metal material to a step of heating and melting the, induction heating coil hollow inserted into a magnetic core said induction heating coil than the length of the use of bit of the digital signal to the, magnetic core an inductive outlet of exposed slightly, from end of the heating coil it is preferable that the arranged such that the axis is. Magnetic core outlet of the cylinder-shaped core at a right angle to the centerline of a planar shape for simple cutting when, through outlet of magnetic core cross section or outgoing core from incoming magnetic core outside the 48b, projected toward the a centre line of the core are curved is curved the sphere. Therefore, magnetic core and is expelled through the hollow outlet of etching a metal material are layered is 48b a through the core of magnetic communication with at least the is allowed to proceed for a, is induction heating of metal material. In some embodiment, magnetic core outlet of the magnetic core hollow part inner peripheral surface of internal diameter increases end along the longitudinal direction on the inner circumferential surface thereof at outlet portion to be taper surface to be formed. Magnetic core through surface polarization potential of underground outlet portion through the core of the magnetic 48b when, of an exit portion with a cross section cut at a right angle through than if the filter were retro-through the core of the magnetic 48b, more 48b the outlet hollow and is expelled through the. is allowed to proceed for a are layered and etching a metal material. In some embodiment, magnetic core at the radially inner outlet of can be adapted to extend. The magnetic core inwardly extending outlet in outlet of etching a metal material surface so it enable outer circumferential surface and the surfaces, exit portion with a outside through the incoming magnetic core outside implementation area 48b of the majority of the metal from being discharged through the exit portion with a is allowed to proceed for a are layered preparing 3-alkylindole metal generation and cancellation can be side. In some embodiment, the inlet portion of the magnetic core radius to be extends outwards in the transverse direction, the inlet portion of the magnetic core is fed hollow the cores via etching a metal material and an induction heating coil to induced by installed at a CHAMP are layered is 48b, of the core metal which is fed into the head inlet heated in inlet material enables to eliminate. In some embodiment, the inlet portion of the outer periphery surfaces of the magnetic core diameter decreases from a end along the longitudinal direction to be, effects shifting outer peripheral surface of the mouth part to be formed. Through underlying of the mouth part when through the core of the magnetic 48b, 48b is derived from an induction heating coil the inlet through the hollow magnetic core metal which is inserted into the bearing housing is is not are layered preparing 3-alkylindole, inlet which is fed into the head is an unheated metal material. In some embodiment, magnetic core a wire rod formed induction heating of a solenoid shape formed plate or coil forms of induction heating coil can be located inside the. The function of a diaphragm in an induction heating coil magnetic core magnetic flux hollow fiber membrane positioning the passage, induction heating head can be compact the damper cylinder. Furthermore, the present invention according to induction heating head, the coil is induced by the induction heating coil formed outside a 48b is selected from the group passage in flux guides may further include any core. A hollow magnetic body core flux guides is circular ring-shaped and cylinder, at least a portion of induction heating coil and is to be inserted into an hollow core flux guides can be provided. Flux guides induced by induction heating coil core outside of the heating coil by 48b induced emitting diodes received by the components adjacent are shut off. In some embodiment, an internal magnetic body flux guides flux within the interior of the induction heating coil core inserting a passage, the outside induction heating coil magnetic core the head can construct. Magnetic core outlet of adjacent end of core flux guides therein arranged in outlet in a metal internal magnet core material through the core of flux guides are layered 48b to the more it is preferable that the. Internal flux guides solid hollow or core can construct cylinder. Furthermore, flux guides internal magnetic core and of a soft magnetic material and core may all preferably formed. The present invention according to a variety of head induction heating can be used in a device. For example, soldering device has function inlet is installed on the top wire is configured in the shape of a lead or lead-alloy melting of be, use can be made of, made of a metallic material. 3D is carried out by installing printer when the iron or ferro, copper or copper alloy, aluminum or aluminum alloys, etc and in the melting of be, use can be made of, made of a metallic material. The fuel cells in the form of a wire metal material it is preferable that the. Various techniques according to the present invention can be applied to field a form of induction heating head is provided. The present invention according to induction heating head, the induction heating coil, magnetic core, by focusing flux for induction heating, metal material on an as-needed basis is formed by melting accurately. it is possible. In particular, molten metal and is energized in a contact-free manner, portion stacked using localized heating can, extended and protruded to be opposite from that the molten metal is supplied can be to be attached. Furthermore, molten metal are stacked to locally heat the metal and the portion and a wide peripheral to wear the heated minimizes the impact on the heat workpiece penetration hole while moving up and down. Figure 1 shows a multiplex device soldering induction heating of the existing method also Also Figure 2 shows a device 1 also shown in induction heating in an induction heating soldering descriptive outlines range 1 also also shown in Figure 3 shows a device using an induction heating soldering when induction heating thread leadthread lead end descriptive temperature distribution Also Figure 4 shows a induction heating head to one embodiment of the present invention according to an induction heating soldering device applying multiplex Also the present invention according to Figure 5 shows a soldering inductively heating an induction heating head in device in the embodiment is applied to the, induction heating coil to a magnetic core is inserted indicating a status of an associated cross section with thread lead induction heating soldering device in Figure 6 shows a local heating terminal electronic component of Figure 5 a schematic describing Also 7 (a) - (e) comprises a magnetic core and a schematic a represent one embodiment of a variety of Also shown in Figure 8 shows a device 4 also an induction heating soldering descriptive method enabling other users of the Also Figure 9 shows a embodiment other head induction heating the present invention according to an induction heating applying the multiplex device soldering Also Figure 10 shows a another embodiment of the present invention according to the first deoxygenator coarse induction heating head Figure 11 shows a induction heating head of the present invention according to another embodiment also coarse the first deoxygenator Also Figure 12 shows a induction heating head of the present invention according to another embodiment the first deoxygenator coarse cross section Figure 13 shows a induction heating head of the present invention according to another embodiment also coarse the first deoxygenator Figure 14 shows a an induction heating head 13 also also shown in descriptive method enabling other users of the The present invention also Figure 15 shows a method enabling other users of the head induction heating to descriptive Induction heating head to one embodiment of the present invention according to Figure 16 shows a also using multiplex printer 3D Figure 17 shows a 3D printer applied to an induction heating head of Figure 16 also inhibit the growth of hematopoietic stem cell Figure 18 shows a 3D printer head inductive heating applied to other embodiment of Figure 16 also specifically the first deoxygenator Hereinafter reference to drawing of attached in a preferred embodiment of the present invention. as further described focuses. Also 4 thread lead relate embodiment shown in (130) for soldering induction heating is provided to execute heating end of is device. Induction heating soldering device a high-frequency power supply supply unit (120) and induction heating head (100) includes. Induction heating head (100) is electrically connected to RF power has of the induction heating coil (110) and, magnetic core (150) includes. Induction heating coil (110) the conductive, such as copper solenoid formed spirally-wound wire rod in the form, center hollow magnetic flux passage is formed. Magnetic core (150) an induction heating coil (110) of the flux path induced by for providing is circular ring-shaped and cylinder a hollow magnetic body, induction heating coil (110) is inserted in the insertion center of.. Furthermore, magnetic core (150) at hollow metal the melting thread lead as a material (130) is is inserted. A low cost does not shown, thread lead magnetic core (150) a feed line for the hollow thread lead may further include any supply means. Also refers to surface 5, induction heating head (100) induction heating of coil (110) a high-frequency power source application of a, induction heating coil (110) by coating a stirred and foamed aqueous holes for center solenoid a 48b (180) is formed, 48b (180) the area of the according to a frequency direction varies. Induction heating coil (110) 48b passing through the center of (180) the, less diameter than central holes of the a magnetic core (150) and is allowed to pass through the, magnetic core (150) in the magnetic body, magnetic core (150) 48b passing through the (180) the density of magnetic flux concentrated in a 2000. Magnetic core (150) is a hollow thread lead (130) is being supplied to and an opening (150a) and a thread lead being discharged for an exit portion with a (150b) has a. Circuit to prevent an generally varying direction by a magnetic field formed by 48b located within the interior region conductor. a heated. However, magnetic core (150) inserted into hollow thread lead (130) a metal such as a plating member, a deposition member, magnetic core (150) by magnetic core (150) hollow magnetic field in shield region (160) is formed 48b is not passed through the is not heated. Also 5 refers to surface, magnetic core (150) through the outlet portion (150b) discharged to the thread lead (130) the magnetic core (150) outlet of (150b). is allowed to proceed for a flux and are layered. Therefore, magnetic core (150) from vented hollow thread lead (130) only circuit to prevent an end of is, is heated by. I.e., magnetic core (150) has a magnetic core (150) outlet of (150b) discharged to the thread lead (130) end of (130a) so the molten is heated only. Also 6 thread lead reference to (130) end of (130a) is heated to. as further described for. Also as shown in 6, magnetic core (150) passing through the inside of a 48b (180) the core outlet of (150b) or come out through the a core (150) when such a way that it to, to be space-uniform distribution the magnetic field by developing, 48b (180) projected toward the centerline of the core are curved is curved the sphere. Therefore, magnetic core (150) outlet of (150b) thread lead exposed through the (130) end of (130a) a through the core of the magnetic and 48b (180) is allowed to proceed for a are layered is the, thread lead end (130a). is heated only. At this time, thread lead (130) end of (130a) 48b are passed through the (181-183) and certain of the, placed on the coated workpiece or soldering the (141) of terminals (141a) and printed circuit board (140) to is closed by means of a metallic pad (154) is heating while passing through the connector. Also refers to surface 5, induction heating coil (110) a magnetic core inserted into hollow (150) the length of the induction heating coil (110) use an bit of the digital signal to the than the length of. Furthermore, magnetic core (150) outlet of (150b) the solenoid-shaped induction heating coil (110) the inferior side of high temperature and under high pressure, induction heating coil (110) slightly exposed from an end of is arranged to. I.e., magnetic core (150) the inlet portion of the (150a) has an exit portion with a (150a) than induction heating coil (110) is disposed off much from. Therefore, inlet (150a) the low density of 48b in the vicinity, core (150) the inlet portion of the (150a) the male part is inserted into the thread lead (130) are layered and 48b for is is lean in low, inlet (150a) which is inserted in thread lead (130). an unheated little. Therefore, valuable heating head (100) the magnetic core of (150) from hollow outlet portion (150b) discharged to the thread lead (130) is melted and the heating only end of, magnetic core (150) the inlet portion of the (150a) the male part is inserted into the thread lead (130). an unheated a preceding electrode. According to the present invention, self-heating head (100) the magnetic core of (150) the, induction heating coil (110) is induced by the magnetic flux therein at locations of intended soldering flux density is increased to provide intensive the and, simultaneously magnetic core (150) passing through the hollow interior of metal material is introduced is such as not to pass through a shield region (160) is formed, magnetic core (150) outlet of (150b) discharged to the a pass 48b made of a metallic material. I.e., magnetic core (150) comprises a metal material of the heating range a magnetic core (150) outlet of (150b) out of the portion with the, outlet portion extending only the tonnage required slave melting (150b) the exposure thereof to the source region of the first melted outputs a relay driving signal.. Furthermore, magnetic core (150) has a wire supplied in the form of metallic materials an exposed end portion and other portions than the support a, thread lead (130) such as wire supplied in the form of metal material to supply the position processing work make an. Furthermore, the present invention according to induction heating head, as well as etching a metal material molten, the molten metal and a for attachment material to locally heat the metal and the workpiece minimizes the impact on by heat to wear penetration hole while moving up and down. In particular, when soldering head device for utilizing the present invention according to, magnetic core (150) outlet of (150b) discharged to the thread lead (130) thread lead simultaneously end of the for locally heating a portion which is a soldering, enables precise soldering. A low cost does not shown, induction heating head (100) induction heating of coil (110) cooling to prevent, induction heating coils which liquid crystal panel to form a liquid pipe a metal, such as copper, -flow to interior of the pipe may constitute. Furthermore, during usage of the head induction heating, induction heating head operations only during induction heating coil to current is caused to flow, for the task of heads or a workpiece is then during travel induction heating coil induction heating equipment, by preventing a current flowing cooling coil induction heating of head to prevent a thin film, an organic solvent is 1:1. energy. Also 7 (a) - (d) deforming the shape an inlet and an outlet has a variety of embodiment. it is shown a magnetic core thereby, the cold air flows. Embodiment relate also shown in 7 (a), also 5 embodiment shown in the first deoxygenator magnetic core (150) such as the distal point of a outlet of, outlet portion (150b) shape of the cylinder-shaped core (150) at a right angle to center line of cutting simplified as a unitary flat member at one but by, magnetic core (150) the inlet portion of the (150a) the radial outwardly-extending is, to provide a path of magnetic flux is constituted of [...] can. Also shown in 7 (b) a magnetic core (150) an inlet part (150a-1) outer peripheral surface of which lies on the transverse center axis along end of reduced diameter as hexagon which is similar to the outer circumferential surface of the taper surface is defined within the layer constitution :. Core (150) from the outer peripheral surface taper shaped-of is 48b 48b in the circumference taper shaped-implementation area is when the, 48b of the space-uniform shortest path tend to be by coating a stirred and foamed aqueous, thread lead as shown (130) also generates a reduced amount of 48b for are layered for is to prevent. Also a magnetic core shown in 7 (c) (150) the, shown in 7 (b) also improved mechanical efficiency of power conversion with core (150) outlet of (150b) hollow as hexagon which is similar end along center axis on the inner circumferential surface thereof at an increasing diameter inner peripheral surface of the tapered surface is defined within the layer constitution :. Also a magnetic core shown in 7 (c) (150) polarization potential of underground from 48b is implementation area is when the taper surface 48b, 48b of the space-uniform shortest path by coating a stirred and foamed aqueous tend to be, more than as shown is 48b thread lead (130) are layered and. is allowed to proceed for a. Also a magnetic core shown in 7 (d) (150) has an exit portion with a (150b) in the inner peripheral surface of the hollow projecting toward the middle axis and is thus is formed an extended portion of the circuitry. Many more a and 7 (c) also is 48b thread lead (130) are layered and. is allowed to proceed for a. Also a a magnetic core shown in 7 (e), outlet portion (150b-3) the distal diameter decreases from a the outer circumferential surface of the taper surface is defined within the layer constitution: outer peripheral surface. Also shown in 7 (a) a magnetic core (150) outlet of (150b) distribution of 48b shown in 7 (e) than in a magnetic core (150) outlet of (150b-3) in more than is connected to the distribution of 48b 48b is thread lead (130) are layered and height can be a heating effect. Also a magnetic core shown in 7 (150) the inlet portion of the necessary the shape of the and outlet are adapted to selectively can be applied. Magnetic core (150) using the ferromagnetic body may also be used but, for example ferrite core such an oxide or metal powder such as core and dust it is molded of a soft magnetic material and core not to heated at a high temperature it is preferable that the. In particular, dust core as coupling agent insulating magnetic material on a fine fraction which a the provisionally, finds suitable application in high frequency. Furthermore, the magnetic powder core dust arranged on the shape since force potato since the heat respect to a wide range of magnetic field small but the autonomous bituminous, bituminous to magnetic fields autonomous value does not vary having characterized. Also shown in Figure 8 shows a 4 also enabling other users of the device an induction heating soldering is descriptive method. As shown, electronic component (141) equipped with PCB (140) obliquely in relation to the rotational induction heating head (100) by placing the using may be loaded with. Furthermore, induction heating head (100) the use of polydextrose tilting a disposed, PCB (140) as shown electronic components mounted on a of holes as well as, a low cost does not shown such as soldering components each having a wire coiled in a or connector can, with a reference mounting surface lead also soldering can be. Furthermore, the present in the embodiment thread lead in (130) self-core (150) supplying a but it is shown a device, may include further. With such as the inlet portion of the magnetic core of metal material supply means in order to supply the, for example, roll-form thread leadfeeling it comes position (solder wire) or is continuously introduced into self-core, one at a hollow core self-(solder ball) the lead which it will see can be supply. Furthermore, induction heating head (100) work piece over a likely location as to move the blades transfer mechanism or induction heating coil (110) for cooling cooling device may include further such as. Also the present invention according to Figure 9 shows a induction heating head (100') other embodiment the first deoxygenator is coarse. 9 also shown in an induction heating head (100') also is shown in 4 an induction heating head (100) and the other point, induction heating coil (110) is induced by the coil formed outside a 48b (180) provide a pathway for flux guides core (190) further includes a. signal is arranged to correspond. Flux guides core (190) the magnetic body is circular ring-shaped and a hollow cylinder, induction heating coil (110) when the ratio is excessively high, . is inserted in the insertion. Furthermore, magnetic core (150) the inlet portion of the (150a) is extends in the radial direction and is. Flux guides core (190) an induction heating coil (110) 48b induced outside of soldering by components adjacent emitting diodes received by the device are shut off. Also the present invention according to Figure 10 shows a induction heating head (200) is of coarse the first deoxygenator another embodiment. The present embodiment the first deoxygenator induction heating head (200) is also shown in an induction heating head 4 (100) and the other point, induction heating coil (210) with a copper such as conductive plate into the interior of the hollow so as to form a formed induction heating coils which being wound on, inside magnetic core (250) a copyright 2000. As shown, induction heating coil (250) staggered in the form, by being wound on a circular productivity (in cross-section when, plate as a second being wound on in the counterclockwise and clockwise direction) formed, at the central part, in the magnetic core (250) are inserted, a hollow is formed. Induction heating coil (210) connecting the upper part of the inner connection (214) and outer connection (212) constitution :. Furthermore, magnetic core (250) corresponding to side the inlet portion of the induction heating coil (250) and the bottom of cone shaped, the third step is to the source region of the first heating thread lead (for example, of thermal error of) to facilitate access to can be. Also the present invention according to Figure 11 shows a induction heating head (200') of coarse the first deoxygenator is another embodiment. Also in the embodiment shown in 11 (200') also is shown in embodiment 10 the first deoxygenator induction heating head (200) and the other point, conductive plate cone form, by being wound on to be hollow heating coil (210-1) having copyright 2000. Figure 12 shows a also the present invention according to another embodiment the first deoxygenator induction heating head (300) applying a multiplex device is an induction heating soldering. In 12 also, induction heating head (300) has RF power supply unit (320) electrically connected to the power supply, are supplied with the. Induction heating head (300) an induction heating coil (310) and, magnetic core (350) and a, an inner inserted into hollow induction heating coil core flux guides (352) includes. Induction heating coil (310) the conductive, such as copper solenoid formed spirally-wound wire rod in the form, center hollow magnetic flux passage is formed. Magnetic core (350) an induction heating coil (110) of the flux path induced by magnetic for providing a hollow cylindrical is circular ring-shaped and, induction heating coil (310) and. located adjacent. Magnetic core (350) for soldering a recessed part of thread lead (330) is is supplied. Furthermore, magnetic core (350) the inlet portion of the (350a) provide a pathway magnetic flux has adjacent an internal flux guides core (352) portion is elongated end has an extension.. In the embodiment in the core flux guides (352) but a cylinder shaped to, hollow winding configured as may be loaded with. When making the hollow cylindrical core the internal flux guides (352) hollow to breath issued from the hollow supply thread lead of metal material may be a step of heating and melting the. Furthermore, magnetic core (350) and internal flux guides core (352) of a soft magnetic material and both the heated at a high temperature includes a plurality of holes in order not to it is preferable that the. When soldering, induction heating coil (310) a high-frequency power source one of the first, internal flux guides core (352) layer is disposed adjacent the end of a magnetic core (350) outlet of (350b) thread lead a are exposed through a (330) ends of magnetic core (250) and an inner flux guides core (352) are layered 48b passing through the is to the fusion heating. The present invention according to the 13 also induction heating head (400) of another embodiment is shown that. The other examples of the of Figure 12 embodiment substracte of Figure 13 embodiment, induction heating coil (410) a conductive plate is a point formed. Also advantage shown in embodiment 13 the first deoxygenator induction heating head (400) a compact semiconductor manufacturing, soldering device whether a network is to locally heat the metal and the narrow areas the soldering a flip is virtue of the. Figure 14 shows a an induction heating head 13 also also shown in descriptive to enabling other users of the method, a magnetic core applied to soldering device (450) is provided around the tilting a the first surface while avoiding interference with an electronic component can be effectively soldering. Also the present invention according to Figure 15 shows a induction heating head (100) using lead ball (135) of metal material in the form of, a condition that supply obtained by melting of is in. Also 4 shown in an induction heating head (100) thread lead in a device (130) the lead which it will see instead (135) self-core (150) inserting overhead data into hollow because of the difference among point to multi-point supply. the lead which it will see (135) on the middle of the preheating the source region of the first. As shown, magnetic core (150) outlet of (150b) the lead which it will see passing through the (135) having a lead-free shield core (150) 48b are layered heated by and fused to form soldering position is to fall. Also the present invention according to Figure 16 shows a induction heating head (500) a 3D printer (1000) to one embodiment of is in. The present invention according to 3D printer (1000) an induction heating head (500) and a, induction heating head (500) a high-frequency power source a power supply for supplying supply unit (520) and, induction heating head (500) wire metal material (530) for supplying structure unit (600) and, material supply unit (600) in normally for supplying material of for supplying a integrated control unit (660) includes. Induction heating head (500) an induction heating coil (510) and induction heating coil (510) is inserted to hollow a hollow magnetic core (550) includes. Induction heating head (500) has door 4 or also 10 shown in the first deoxygenator embodiment, use can be made of, head. Material supply unit (600) a frame (610) lines which are provided on metal wire (530) a reel type is passed and vertically moving the car (640) and, reel to rotate the reel a motor connected to tha axle (650) includes. Furthermore, frame is mounted on the reel (640) in metal wire from pulley (530) for guiding a guide member (615) and a, guide member (615) through the metal wire (530) of the motor at a constant speed for idle roller for supplying (620) and a feeding roller (630) is provided with. Idle roller wire (620) and a feeding roller (630) sandwiched between the inlet and outlet manifolds is vaporizer. Feeding roller (630) not gliding metal wire is on the outer circumferential surface of an is formed to the. Furthermore, a low cost does not shown, feeding rotating of the rollers is provided with a motor for. Integrated control unit (660) the fitting roller (630) is used for controlling the rotation of for printing 3D controls the feeding speed to of metal wire. In some embodiment, feeding roller (630) only by the metal wire when it is possible, reel driving motor (650) decided. In some embodiment, for several arbitrarily shaped obtained by melting of of metal material whose parts and 3D in producing a product, plate into a ring shape of wire cross-section than the use of square wire material, which in turn may be prepared by printer 3D product printing 3D which reduces the surface roughness of the product. Figure 17 shows a also induction heating coil (510) as perspective view of, oil heating coil (510) a pipe spirally-wound. Induction heating coil (510) inlet (511) the cold water is supplied to a outlet (512) released into the induction heating coil (510) is the door opens and closes can be. A low cost does not shown, induction heating coil printer 3D (510) for cooling cooling water supply unit can be unit of the main body receives the. Figure 18 shows a also induction heating coil (510) other embodiment the first deoxygenator perspective view of the cross-sectionally rectangular as spirally winding pipe is formed inside the tie. formed. Cross-sectionally rectangular of the pipe the use of light irradiated from the LED toward the fibroin than the event of the use of a, a magnetic-flux generating part is electrically. can be remarkably improved of inductive heating. The present invention according to in the embodiment are as set out front the present invention defining a an exemplary which is not the must be understood, the present invention according to induction heating head in a variety of shapes, .can be modified. The claimed range and the guide hole within the range equivalent is an induction heating head specific embodiment of the present invention may be deemed to exemplify.. 110 Induction heating coil 120 And a high-frequency power supply unit 130 thread lead 135 the lead which it will see 140 PCB 150 Magnetic core The present invention relates to an induction heating head and, more specifically, to an induction heating head for melting and supplying a metal material. Particularly, the present invention relates to an induction heating head for locally heating a supplied metal material to supply the same in a molten state. The induction heating head according to the present invention is applicable in various technological fields such as soldering, metal welding, and 3D printing using metal materials, etc. The induction heating head for melting and supplying a metal material according to the present invention comprises: an induction heating coil to be electrically connected to a high-frequency power supply; and a magnetic core. The magnetic core has a hollow cylindrical shape made of a magnetic substance to provide a path of a magnetic flux induced by the induction heating coil, and includes: an entry portion for supplying a metal material to the hollow interior; and an exit portion for discharging the supplied metal material. The induction heating head comprising the induction heating coil and the magnetic core according to the present invention can melt and supply an exact amount of a required metal material by concentrate the magnetic flux for induction heating. COPYRIGHT KIPO 2016 A high-frequency power source is electrically connected to a heating coil and an object of induction, induced by said induction heating coil of the flux path for providing is circular ring-shaped and cylinder a hollow magnetic body, material metal hollow interior in which are an inlet part and a delivery metal material for being discharged in particular a magnetic an exit portion with a which includes a core in the, outlet of said magnetic core a, etching a metal material and is exhausted through the outlet portion and a magnetic flux pass said magnetic core is configured of metal material that is discharged from a melt heating and melting the melting of metal material characterized by an induction heating the head. According to Claim 1, a magnetic core said said and is longer than the induction heating coil, induction heating coil inserted into the which are disposed, a outlet of magnetic core adjacent one end of said induction heating coil in coils the to make the size small by aligning to expose melting of metal material characterized by an induction heating the head. According to Claim 2, the conductive wire rod said induction heating coil spirally-wound of the link is of metal material characterized by an induction heating the melting head. According to Claim 2, said induction heating coil the conducting plate a circular-wound of the link is of metal material characterized by an induction heating the melting head. According to Claim 2, said magnetic core along a longitudinal direction and internal outlet of end characterized by not the bank for performing the refreshing tapered to increases of metal material melting the an induction heating head. According to Claim 2, outlet of said magnetic core along a longitudinal direction and an outer diameter decreases from a end characterized by not the bank for performing the refreshing tapered to the melting of metal material an induction heating head. According to Claim 2, outlet of said magnetic core at a radially inner extending to melting of metal material characterized by an induction heating the head. According to Claim 2, the inlet portion of the magnetic core said radius and extends outwards in the transverse direction, said induction heating coil is induced by the of the flux path for providing magnetic body is circular ring-shaped and a hollow cylinder, said hollow at least a portion of induction heating coil is inserted further core flux guides external least one permanent magnet inserted to including melting of metal material characterized by an induction heating the head. According to one of Claim 2 to Claim 8, of a soft magnetic material and a magnetic core said for practicing the method comprising a melting of metal material characterized by an induction heating the head. According to Claim 9, a magnetic core of a soft magnetic material and said dust core of metal material melting to characterized by an induction heating the head. According to Claim 1, said induction heating coil is induced by the of the flux path for providing is circular ring-shaped and cylinder magnetic body, said induction heating coil is inserted into the inside of a in the coil further includes core flux guides, said outlet of the magnetic core in the coil flux guides said printed anode placed adjacent to the end portions of the cores to melting of metal material characterized by an induction heating the head. According to Claim 11, the conductive wire rod said induction heating coil spirally-wound of the link is of metal material characterized by an induction heating the melting head. According to Claim 11, said a circular conducting plate the induction heating coil-wound of the link is of metal material characterized by an induction heating the melting head. According to Claim 11, said magnetic core along a longitudinal direction and internal outlet of end characterized by a mirror a tapered to increases of metal material melting the an induction heating head. According to Claim 11, the inlet portion of the magnetic core said radius extends outwards in the transverse direction an inlet flux guides unit supplies falling ramp pulses melting of metal material characterized by an induction heating the head. According to one of Claim 11 to Claim 15, of a soft magnetic material and said shield soldering core for practicing the method comprising a melting of metal material characterized by an induction heating the head.
