CN209811406U - End cover wire bonding machine - Google Patents

Abstract

The utility model discloses an end cover wire welding machine, which comprises a frame, a transportation device, send the line device, the soldering tin device, bonding wire device and clamping device, the conveyer sets up in the frame, a frock tool for the end cover is loaded in the transportation, send the line device to set up in one side of conveyer, be used for carrying and cutting the wire, the soldering tin device sets up on sending the tin device, be used for tin-plating to the wire head end, the bonding wire device sets up in the opposite side of conveyer and just right with sending the line device, be used for with wire head end welding to the end cover on, clamping device set up in one side of conveyer and with bonding wire device homonymy, be used for centre gripping frock tool and control frock tool step-by. The utility model discloses be provided with conveyer, send traditional thread binding putting, soldering tin device, bonding wire device and clamping device, through the function of mutually supporting of above-mentioned device, realize sending the line, cutting, bonding wire to the full-automatic of end cover, the bonding wire is efficient, and the bonding wire is effectual, improves product quality.

Description

End cover wire bonding machine

Technical Field

The utility model relates to a micro motor technical field specifically, relates to an end cover wire bonding machine.

Background

During the production process of the micro motor, the production process comprises the steps of sequentially assembling inner parts such as the stator, the rotor, the rotating shaft and the like on the machine shell, then welding wires on the end cover, and assembling the end cover with the welded wires and one end of the machine shell. In the production process, the end cover welding line is generally manually welded, the end cover is welded in advance and assembled, and then the end cover is assembled at one end of the shell through automatic assembly equipment, so that the micro motor is manufactured. And adopt artificial mode to weld the wire to the end cover, because of there being the artificial factor, weld the wire inefficiency, the bonding wire effect is inconsistent, the quality is poor to the micro motor that leads to follow-up production easily has the phenomenon of out of work, contact failure etc., reduces product quality.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides an end cover bonding wire machine that bonding wire is efficient, effectual.

The utility model discloses an end cover bonding equipment, include: the device comprises a rack, a conveying device, a wire feeding device, a soldering device, a wire welding device and a clamping device; the conveying device is arranged on the rack and used for conveying the tool jig for loading the end cover; the wire feeding device is arranged on one side of the conveying device and used for conveying and cutting the wires; the tin soldering device is arranged on the tin conveying device and is used for tin plating the head end of the lead; the wire welding device is arranged on the other side of the conveying device, is opposite to the wire feeding device and is used for welding the head end of the lead to the end cover; the clamping device is arranged on one side of the conveying device and on the same side as the welding wire device and used for clamping the tool jig and controlling the tool jig to move in a stepping mode.

According to an embodiment of the present invention, the transport device comprises a transport track and a transport drive element; the conveying track is arranged on the rack and provided with a conveying belt and a plurality of conveying rollers, and the conveying belt is sleeved on the plurality of conveying rollers; the transport driving member drives the plurality of conveying rollers to rotate.

According to the utility model discloses an embodiment, send traditional thread binding putting to include: the device comprises a first straight line module, a second straight line module, a wire feeding assembly and a cutting assembly; the first linear module is arranged on the frame; the second straight line module is arranged on the first straight line module; the first linear module and the second linear module are both vertical to the transportation direction of the transportation device; the wire feeding module is arranged on the second linear module; the cutting assembly is arranged on the first linear module and is positioned at one end of the second linear module; the first linear module drives the second linear module to move towards the wire welding device; the second linear module drives the wire feeding module to move towards the wire welding device.

According to the utility model discloses an embodiment, send the line subassembly to include: the device comprises a wire feeding seat, a wire feeding pipe, a pressing driving element and a pressing block; the wire feeding seat is arranged on the second linear module; the wire feeding pipe penetrates through one end of the wire feeding seat; the pressing driving element is arranged above the wire feeding seat; the pressing driving element drives the pressing block to move towards the wire feeding seat.

According to the utility model discloses an embodiment, cutting assembly includes: the cutting device comprises a cutting support, an upper cutter, a lower cutter and a cutting driving element; the cutting support is arranged on the first linear module and is positioned on one side of the second linear module; the upper cutter and the lower cutter are arranged on the cutting bracket in a sliding manner; the upper cutter and the lower cutter are positioned between the second linear module and the wire welding device; the cutting driving element is arranged on the cutting support; the cutting driving element drives the upper cutter and the lower cutter to move towards or away from each other.

According to the utility model discloses an embodiment, soldering tin device includes: the tin feeding head, the tin feeding box, the tin soldering frame, the tin soldering driving element and the tin soldering head; the solder feeding head is arranged at one end of the second linear module; the output end of the tin feeding box is connected with the tin feeding head; the soldering tin frame is arranged on the first linear module; the soldering tin driving element is arranged on the soldering tin frame; the soldering tin driving element drives the soldering tin head to move towards the soldering tin head; the moving direction of the soldering tin head is crossed with the wire feeding direction of the wire feeding device.

According to the utility model discloses an embodiment, soldering tin device still includes: a cooling assembly; the cooling assembly includes: a blower and an air supply duct; the blower is arranged on the first linear module; one end of the air supply pipeline is connected with the blower, and the other end of the air supply pipeline is opposite to the tin feeding head.

According to an embodiment of the present invention, the wire bonding device includes a welding bracket, a wire bonding driving element, and a welding head; the welding bracket is arranged on the rack, is positioned on one side of the conveying device and is opposite to the wire feeding device; the welding wire driving element is arranged on the welding bracket; the wire drive element drives the welding head to move along the direction perpendicular to the conveying direction of the conveying device.

According to the utility model discloses an embodiment, clamping device includes: the third linear module, the clamping bracket, the fixing piece, the first jacking driving element and the jacking piece; the third linear module is arranged on the rack and positioned on one side of the conveying device; the clamping bracket is arranged on the third linear module; the fixing piece is arranged on the clamping bracket and is positioned above the conveying device; the first jacking driving element is arranged on the clamping bracket and is positioned below the conveying device; the third linear module drives the clamping bracket to move along the conveying direction of the conveying device; the first jacking driving element drives the jacking piece to jack towards the fixing piece.

According to the utility model discloses an embodiment, end cover bonding equipment still includes: a turning device; the overturning device comprises an overturning bracket, a second jacking driving element, a rotating driving element, a telescopic driving element and an overturning fixing plate; the overturning bracket is arranged on one side of the conveying device; the second jacking driving element is arranged on the overturning bracket; the rotary driving element is connected with one end of the second jacking driving element; the telescopic driving element is connected with one end of the rotary driving element; the turnover fixing plate is connected with one end of the telescopic driving element.

The utility model discloses be different from prior art's beneficial effect is: the utility model discloses be provided with conveyer, send traditional thread binding putting, soldering tin device, bonding wire device and clamping device, through the function of mutually supporting of above-mentioned device, realize sending the line, cutting, bonding wire to the full-automatic of end cover, the bonding wire is efficient, and the bonding wire is effectual, improves product quality.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a schematic structural diagram of a tooling fixture in the present application;

FIG. 2 is a schematic perspective view of an end cap wire bonder in accordance with the present application;

FIG. 3 is a schematic view of the construction of the transport device of the present application;

FIG. 4 is a schematic structural diagram of a wire feeding device and a soldering device according to the present application;

FIG. 5 is a schematic view of a cutting assembly of the present application;

FIG. 6 is a schematic view of the wire bonding apparatus of the present application;

FIG. 7 is a schematic view of the structure of the clamping device of the present application;

fig. 8 is a schematic structural diagram of the turning device in the present application.

Detailed Description

Embodiments of the invention are disclosed below, and for the purposes of clarity, numerous implementation details are set forth in the following description. It should be understood, however, that these implementation details should not be used to limit the invention. That is, in some embodiments of the invention, details of these implementations are not necessary. In addition, some conventional structures and components are shown in simplified schematic form in the drawings.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for description purposes, not specifically referring to the order or sequence, and are not intended to limit the present invention, but only to distinguish the components or operations described in the same technical terms, and are not to be construed as indicating or implying any relative importance or implicit indication of the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Please refer to fig. 1, which is a schematic structural diagram of a tooling fixture according to the present application. The application provides a tool jig 10, tool jig 10 comprises transportation tool 11 and end cover tool 12, and wherein end cover tool 12 can be dismantled and set up on transportation tool 11, and end cover tool 12 is used for loading the end cover, has seted up a plurality of perforation 121 on the end cover tool 12, and perforation 121 runs through end cover tool 12 to per two perforation 121 correspond two link of an end cover.

Please refer to fig. 2, which is a schematic perspective view of an end cap wire bonder in the present application. The application provides an end cover wire bonding machine, its mainly used carries out the bonding wire to micro motor's end cover and handles. The end cap wire bonding machine includes a frame 20, a transport device 30, a wire feeding device 40, a soldering device 50, a wire bonding device 60, and a clamping device 70. The transportation device 20 is disposed on the frame 20 and used for transporting the tooling fixture 10 for loading the end cover. The wire feeding device 40 is disposed at one side of the transporting device 30 for feeding and cutting the wire, wherein the wire feeding device 40 is perpendicular to the transporting device 30. The soldering device 50 is provided on the tin feeder 40, and is used for plating the leading end of the lead with tin. The wire bonding device 60 is disposed on the other side of the transportation device 30 and opposite to the wire feeding device 40, and is used for welding the head end of the wire provided by the wire feeding device 40 to the connection end of the end cover. The clamping device 70 is arranged on one side of the transport device 30 and on the same side as the wire welding device 50, and is used for clamping the tooling jig 10, controlling the tooling jig 10 to move in a stepping mode, and completing wire welding on the end cover on the tooling jig 10 by matching with the wire welding device 60.

The utility model provides an end cover wire welding machine is at the during operation, put into frock tool 10 to conveyer 30 on, conveyer 30 drives frock tool 10 and transports along linear direction, when frock tool 10 is located and corresponds send traditional thread binding putting 40, clamping device 70 centre gripping frock tool 10 carries out step-by-step aversion along conveyer 30, frock tool 10 is when every step moves, soldering tin device 50 carries out the tin-plating to the wire head end on sending traditional thread binding putting 40, then send traditional thread binding putting 40 to carry the wire, wherein the wire is passed by last perforation 121 of end cover tool 12 until reaching its other end, bonding wire device 60 is welding the wire to the end cover, then send traditional thread binding putting 40 to cut the wire after reseing, thereby accomplish the automatic bonding wire process of end cover.

Preferably, referring to fig. 3, which is a schematic structural diagram of the transportation device in the present application, the transportation device 30 includes a transportation rail 31 and a transportation driving element 32. The transportation track 31 sets up in frame 20, transportation track 31 has conveyor belt 311 and a plurality of conveying roller 312, conveyor belt 311 overlaps and locates on a plurality of conveying roller 312, wherein conveyor belt 311 quantity is two, two conveyor belt 311 laminate the inner wall both sides of transportation track 31 respectively, make there is the space in transportation track 31 middle part, transportation drive element 32 is fixed in on the side of transportation track 31, transportation drive element 32's output and one of them conveying roller 312 are connected, thereby transportation drive element 32 drives one of them conveying roller 312 rotatory drive a plurality of conveying roller 312 and rotate simultaneously, realize the transportation to frock tool 10 through conveyor belt 311. Wherein the transport drive element 32 is a stepper motor or a servo motor.

Preferably, referring to fig. 1 and 4, which are schematic structural diagrams of the wire feeding device and the soldering device in the present application, the wire feeding device 40 includes a first linear module 41, a second linear module 42, a wire feeding assembly 43 and a cutting assembly 44. The first linear module 41 is disposed on the rack 20, the second linear module 42 is disposed on the first linear module 42, and both the first linear module 41 and the second linear module 42 are perpendicular to the transportation direction of the transportation device 30. The first linear module 41 and the second linear module 42 can both adopt conventional screw rod sliding tables on the market, and both have a moving seat which can perform linear movement on the linear modules. The wire feeding module 43 is disposed on the second linear module 42. The cutting component 44 is disposed on the first linear module 41 and located at one end of the second linear module 42. Wherein the first linear module 41 drives the second linear module 42 to move toward the wire bonding device 60. The second linear module 42 drives the wire feeding module 43 to move toward the wire bonding device 60. The wire feeding assembly 43 is used for pressing the wires and matching the actions of the first linear module 41 and the second linear module 42 to realize wire feeding. The cutting assembly 44 is used to cut the wire.

Preferably, as shown in fig. 4, the wire feeding assembly 43 includes a wire feeding base 431, a wire feeding pipe 432, a pressing driving element 433, and a pressing block 434. The wire feeding base 431 is disposed on the moving base of the second linear module 42. The wire feeding pipe 432 penetrates through one end of the wire feeding base 431, wherein the other end of the wire feeding base 431 is provided with a wire feeding hole 4311, and the wire feeding hole 4311 and the wire feeding pipe 432 are positioned on the same straight line. The wire feeding seat 431 is further provided with a wire pressing groove 4312, and the wire pressing groove 4312 is positioned between the wire feeding hole 4311 and the wire feeding pipe 432. The pressing driving element 433 is arranged above the wire feeding seat 431 through a bracket, the pressing block 434 is connected with the output end of the pressing driving element 433, and the pressing block 434 is located in the wire pressing groove 4312. The wire is threaded through the wire feeding hole 4311 and then threaded out of the wire feeding pipe 432, and the pressing driving element 433 drives the pressing block 434 to move towards the wire feeding seat 431, so that the part of the wire positioned in the wire pressing groove 4312 is pressed. Wherein the pressing driving element 433 adopts an air cylinder or an electric push rod.

Preferably, referring to fig. 4 and 5, wherein fig. 5 is a schematic structural diagram of a cutting assembly of the present application, the cutting assembly 44 includes a cutting support 441, an upper cutter 442, a lower cutter 443, and a cutting driving element 444. The cutting support 441 is disposed on the movable seat of the first linear module 41, and the cutting support 441 is disposed at one side of the second linear module 42. The upper cutter 442 and the lower cutter 443 are slidably disposed on the cutting bracket 441. The upper cutter 442 and the lower cutter 443 are located between the second linear module 42 and the wire bonding device 60. The upper cutter 442 is provided with a first driving rack 4421, and the lower cutter 443 is provided with a second driving rack 4431. The cutting driving element 444 is disposed on the cutting support 441, and an output end of the cutting driving element 444 is respectively engaged with the first driving rack 4421 and the second driving rack 4431 through a gear. Wherein a cutting notch is formed between the upper cutting knife 442 and the lower cutting knife 443, the cutting notch and the wire feeding tube 432 are positioned on the same straight line, the cutting driving element 444 drives the upper cutting knife 442 and the lower cutting knife 443 to move towards or away from each other, so as to control the cutting notch to be closed or expanded, and the cutting assembly 44 cuts the conducting wire. Wherein the cutting driving element 444 is a stepping motor or a servo motor.

Preferably, as shown in fig. 4, the soldering device 50 includes a solder feeding head 51, a solder feeding box 52, a solder frame 53, a solder driving element 54, and a solder head 55. The solder head 51 is disposed at one end of the second linear module 42. The output end of the tin feeding box 52 is connected with the tin feeding head 51. The solder stand 53 is disposed on the first linear module 41. The solder driving element 54 is provided on the solder stand 53. The solder driving element 54 drives the solder head 55 to move toward the solder head 55. The moving direction of the solder head 55 intersects with the wire feeding direction of the wire feeding device 30. The soldering tin driving element 54 drives the soldering tin head 55 to move towards the soldering tin head 51 until the soldering tin head 55 is positioned on one side of the soldering tin head 51, then the soldering tin box 52 conveys the solder wire to the soldering tin head 55 through the soldering tin head 51, then the second linear module 42 drives the wire feeding module 43 to move towards the wire welding device 60 until the wire at the wire feeding pipe 432 and the soldering tin head 55 contact the soldering tin, and the soldering tin driving element 54 drives the soldering tin head 55 to reset, so that the soldering process of the wire is completed. Wherein the solder driving element 54 is a pneumatic cylinder or an electric push rod. To enhance the soldering effect and speed up the solidification of the metallic tin on the wires, the soldering apparatus 50 further includes a cooling assembly 56. Specifically, cooling unit 56 includes a blower 561 and a supply duct 562. The blower is arranged on the first linear module 41, particularly on the cutting bracket 441, so that the design space is saved. One end of the air supply duct 562 is connected to the blower 561, and the other end thereof is opposed to the solder head 51. After the soldering tin head 55 completes soldering tin on the lead at the lead feeding pipe 432, the blower 561 blows air to the lead soldering tin through the air supply pipeline 562, so that the metal tin is quickly cured, and the soldering tin effect is enhanced.

Preferably, referring to fig. 1, fig. 2 and fig. 6, wherein fig. 6 is a schematic structural diagram of a wire bonding apparatus according to the present application, a wire bonding apparatus 60 includes a bonding bracket 61, a wire driving element 62 and a bonding head 63. The welding bracket 61 is arranged on the frame 20, and the welding bracket 61 is positioned on one side of the conveying device 30 and is opposite to the wire feeding device 40. The wire drive element 62 is disposed on the welding carriage 61. One end of the wire drive element 62 is connected to the bonding head 63. When the clamping device 70 clamps the tooling fixture 10 and moves to a position below the bonding head 63, the wire feeding device 40 passes the wire through a through hole 121 of the end cap fixture 12 until the wire reaches the other end of the end cap fixture, and then the wire bonding driving element 62 drives the bonding head 63 to move along a direction perpendicular to the conveying direction of the conveying device 30 until the wire is bonded to the end cap, so that wire bonding to an end cap is completed. In order to improve the stability of the wire welding process, the welding device 60 is further provided with a welding slide rail 64 and a welding moving seat 65, the welding slide rail 64 is arranged on the welding support 61, the wire welding driving element 62 is connected with the welding head 63 through the welding moving seat 65, and the bottom of the welding moving seat 65 is slidably arranged on the welding slide rail 64, so that the stability of the welding process of the welding device 60 is improved through the welding slide rail 64 and the welding moving seat 65. Wherein the wire drive element 62 is an air cylinder or an electric push rod.

Preferably, referring to fig. 1 and 7, wherein fig. 7 is a schematic structural diagram of a clamping device in the present application, the clamping device 70 includes a third linear module 71, a clamping bracket 72, a fixing member 73, a first lifting driving element 74, and a lifting member 75. The third linear module 71 is disposed on the frame 20 and located at one side of the transportation device 30. The third linear module 71 is parallel to the transportation device 30. The third linear module 71 adopts a conventional screw rod sliding table on the market. The clamping bracket 72 is disposed on the third linear module 71. The fixing member 73 is disposed on the clamping bracket 72 and located above the transportation device 30, and the fixing member 73 is matched with the tooling fixture 10. The first lift drive element 74 is disposed on the clamp bracket 72 and below the transporter 30. The jack 75 is connected to one end of the first jack driving element 74. When the working jig 10 is transported to the position corresponding to the jacking piece 75 on the transporting device 20, the first jacking driving element 74 drives the jacking piece 75 to jack towards the fixing piece 73, the fixing piece 73 and the jacking piece 75 are used for clamping the tooling jig 10, meanwhile, the third linear module 71 drives the clamping support 72 to move along the transporting direction of the transporting device, and the wire feeding device 40 and the wire welding device 60 are matched to complete wire welding of the end cover. In order to further improve the precise control of the clamping device 70 over the tooling fixture 10, the clamping device 70 is further provided with a clamping driving element 76 and a clamping plate 77. The clamping driving element 76 is disposed on the clamping bracket 70, the clamping plate 77 is connected to one end of the clamping driving element 76, the clamping plate 77 is further provided with a clamping positioning post 771, and the end cap fixture 12 is provided with a positioning hole matched with the clamping positioning post 771. After the clamping device 70 clamps the tooling fixture 10 through the fixing member 73 and the jacking member 75, the clamping driving element 76 drives the clamping plate 77 to move towards the tooling fixture 10 until the clamping plate 77 is pressed on the end cover fixture 12, and the clamping positioning columns 771 are inserted into the positioning holes of the end cover fixture 12, so that the stability of the tooling fixture 10 in the moving process is improved, and the control progress of the clamping device 70 on the tooling fixture 10 is improved. Wherein the first lifting driving element 74 and the clamping driving element 76 adopt air cylinders or electric push rods.

Preferably, please refer to fig. 2 and 8, wherein fig. 8 is a schematic structural diagram of an overturning device in the present application, and the end cap wire bonding machine further includes an overturning device 80. The turnover device 80 is used for turning over the end cover jig 12, then the turnover end cover jig 12 is placed on the transportation device 30 again, and then the other connecting end of the end cover can be welded through the end cover wire welding machine again. The turning device 80 includes a turning bracket 81, a second lifting driving element 82, a rotation driving element 83, a telescopic driving element 84 and a turning fixing plate 85. The turning bracket 81 is provided at one side of the transportation device 30. The second jacking driving element 82 is arranged on the overturning bracket 81. The rotation driving element 83 is connected to one end of the second jack driving element 82. The telescopic driving element 84 is connected to one end of the rotary driving element 83. The roll-over fixing plate 85 is connected to one end of the telescopic driving member 84. Wherein, the turning fixing plate 85 is provided with a turning positioning column 851, and the turning positioning column 851 is matched with the positioning hole of the end cover jig 12. Wherein the second jacking driving element 82, the rotating driving element 83 and the telescopic driving element 84 are all air cylinders or electric push rods. When the tooling jig 10 is transported to the corresponding turnover device 80 on the transportation device 30, the telescopic driving element 84 drives the turnover fixing plate 85 to stretch out until the turnover positioning column 851 penetrates through the positioning hole on the end cover jig 12, then the second jacking driving element 82 drives the rotary driving element 83 to jack, then the rotary driving element 83 drives the telescopic driving element 84 to rotate, the turnover fixing plate 85 is driven to rotate, then the second jacking driving element 82, the end cover jig 12 falls into the transportation jig 11 again, the telescopic driving element 84 and the rotary driving element 83 reset in sequence, and the turnover of the end cover jig 12 is completed.

The utility model discloses an operation principle as follows:

the end cover is transferred to the end cover jig 12, then the end cover jig 12 is placed on the transportation jig 11 to form the tooling jig 10, and the tooling jig 10 is placed into the transportation device 30. The transportation device 30 drives the tooling fixture 10 to transport along a linear direction. When the tooling fixture 10 is located in the corresponding wire feeding device 40, the first jacking driving element 74 drives the jacking piece 75 to jack towards the fixing piece 73, the fixing piece 73 and the jacking piece 75 are used for clamping the tooling fixture 10, and meanwhile, the third linear module 71 drives the clamping support 72 to move in a stepping mode along the conveying direction of the conveying device. When the tooling fixture 10 moves by one step, the soldering tin driving element 54 drives the soldering tin head 55 to move towards the soldering tin head 51 until the soldering tin head 55 is positioned at one side of the soldering tin head 51, then the soldering tin box 52 is sent to convey the solder wire to the soldering tin head 55 through the soldering tin head 51, then the second linear module 42 drives the wire feeding module 43 to move towards the wire welding device 60, and until the wire at the wire feeding pipe 432 is in contact with the soldering tin head 55 for soldering, the soldering tin driving element 54 drives the soldering tin head 55 to reset, and the tinning of the head end of the wire on the wire feeding device 40 is completed. Then, the pressing driving element 433 drives the pressing block 434 to move toward the wire feeding base 431 until the wire is pressed. Then, the first linear module 41 drives the second linear module 42 to move toward the wire bonding apparatus 60, and the second linear module 42 drives the wire feeding module 43 to move toward the wire bonding apparatus 60 until the wire passes through a through hole 121 of the end cap fixture 12 to reach the other end thereof. Then, the wire driving element 62 drives the bonding head 63 to move in a direction perpendicular to the transport direction of the transport device 30 until the wire is bonded to the end cap. Then, the pressing driving element 433 is reset, and the pressing of the wire is released, and the first linear module 41 and the second linear module 42 are reset at the same time. Finally, the cutting driving element 444 drives the upper cutter 442 and the lower cutter 443 to move towards each other, so that the wire is cut by closing the cutting opening, and the wire welding of one end cover is completed. The above process is repeated to realize the wire welding of the end cover of the tooling jig 10.

To sum up, the utility model discloses a set up conveyer, send traditional thread binding putting, soldering tin device, bonding wire device and clamping device, through the function of mutually supporting of above-mentioned device, realize sending the line, cutting, the bonding wire to the full-automatic of end cover, the bonding wire is efficient, and the bonding wire is effectual, improves product quality.

The above description is only an embodiment of the present invention, and is not intended to limit the present invention. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. An end cap wire bonding machine, comprising:

the transportation device is arranged on the rack and used for transporting the tool jig for loading the end cover;

the wire feeding device is arranged on one side of the conveying device and used for conveying and cutting the wires;

the tin soldering device is arranged on the tin conveying device and is used for tin plating the head end of the lead;

the wire welding device is arranged on the other side of the conveying device, is opposite to the wire feeding device and is used for welding the head end of the lead to the end cover; and

and the clamping device is arranged on one side of the conveying device and on the same side as the welding wire device and is used for clamping the tool jig and controlling the tool jig to move in a stepping mode.

2. The end cap wire bonding machine of claim 1 wherein said transport device comprises a transport track and a transport drive element; the conveying track is arranged on the rack and provided with a conveying belt and a plurality of conveying rollers, and the conveying belt is sleeved on the plurality of conveying rollers; the transport driving member drives the plurality of transport rollers to rotate.

3. The end cap wire bonding machine of claim 1 wherein the wire feed device comprises: the device comprises a first straight line module, a second straight line module, a wire feeding assembly and a cutting assembly; the first linear module is arranged on the rack; the second straight line module is arranged on the first straight line module; the first linear module and the second linear module are both vertical to the transportation direction of the transportation device; the wire feeding module is arranged on the second linear module; the cutting assembly is arranged on the first linear module and is positioned at one end of the second linear module; the first linear module drives the second linear module to move towards the wire welding device; the second linear module drives the wire feeding module to move towards the wire welding device.

4. The end cap wire bonding machine of claim 3 wherein the wire feed assembly comprises: the device comprises a wire feeding seat, a wire feeding pipe, a pressing driving element and a pressing block; the wire feeding seat is arranged on the second linear module; the wire feeding pipe penetrates through one end of the wire feeding seat; the pressing driving element is arranged above the wire feeding seat; the pressing driving element drives the pressing block to move towards the wire feeding seat.

5. The end cap wire bonding machine of claim 3 wherein the cutting assembly comprises: the cutting device comprises a cutting support, an upper cutter, a lower cutter and a cutting driving element; the cutting support is arranged on the first linear module and is positioned on one side of the second linear module; the upper cutter and the lower cutter are arranged on the cutting support in a sliding manner; the upper cutter and the lower cutter are positioned between the second linear module and the wire welding device; the cutting driving element is arranged on the cutting support; the cutting driving element drives the upper cutter and the lower cutter to move towards or away from each other.

6. The end cap wire bonding machine of claim 3 wherein said soldering means comprises: the tin feeding head, the tin feeding box, the tin soldering frame, the tin soldering driving element and the tin soldering head; the solder feeding head is arranged at one end of the second linear module; the output end of the tin feeding box is connected with the tin feeding head; the soldering tin frame is arranged on the first linear module; the soldering tin driving element is arranged on the soldering tin frame; the soldering tin driving element drives the soldering tin head to move towards the soldering tin head; the moving direction of the soldering tin head is crossed with the wire feeding direction of the wire feeding device.

7. The end cap wire bonding machine of claim 6 wherein said soldering means further comprises: a cooling assembly; the cooling assembly includes: a blower and an air supply duct; the blower is arranged on the first linear module; one end of the air supply pipeline is connected with the blower, and the other end of the air supply pipeline is opposite to the tin delivery head.

8. The end cap wire bonding machine of claim 1 wherein said wire bonding apparatus comprises: the welding support, the welding wire driving element and the welding head; the welding bracket is arranged on the rack, is positioned on one side of the conveying device and is opposite to the wire feeding device; the welding wire driving element is arranged on the welding bracket; the wire drive element drives the welding head to move along the direction perpendicular to the conveying direction of the conveying device.

9. The end cap wire bonding machine of claim 1 wherein said clamping device comprises: the third linear module, the clamping bracket, the fixing piece, the first jacking driving element and the jacking piece; the third linear module is arranged on the rack and positioned on one side of the conveying device; the clamping bracket is arranged on the third linear module; the fixing piece is arranged on the clamping bracket and is positioned above the conveying device; the first jacking driving element is arranged on the clamping bracket and is positioned below the conveying device; the third linear module drives the clamping bracket to move along the conveying direction of the conveying device; the first jacking driving element drives the jacking piece to jack towards the fixing piece.

10. The end cap wire bonding machine of any one of claims 1-9, further comprising: a turning device; the turning device comprises: the overturning device comprises an overturning bracket, a second jacking driving element, a rotary driving element, a telescopic driving element and an overturning fixing plate; the overturning bracket is arranged on one side of the conveying device; the second jacking driving element is arranged on the overturning bracket; the rotary driving element is connected with one end of the second jacking driving element; the telescopic driving element is connected with one end of the rotary driving element; the overturning fixing plate is connected with one end of the telescopic driving element.