CN218874198U - Press-fit welding machine - Google Patents

Abstract

The application discloses pressfitting welding machine relates to welding machine technical field to in solving current welding process, need the manual work to weld laser emission portion and lantern ring material loading, then the manual work is accomodate the diode finished product after welding, extravagant manpower and production efficiency low scheduling problem. It includes: a machine platform; the first material tray is arranged on the machine table and used for bearing the first welding flux; the welding device is arranged on the machine table and is provided with a welding tool position and used for welding and combining the first welding flux and the second welding flux; the first conveying device is arranged on the machine table and located on one side of the welding device, and the first conveying device is used for conveying the first welding flux of the first material disc to the welding tool position.

Description

Press-fit welding machine

Technical Field

The application relates to the technical field of welding machines, in particular to a press-fit welding machine.

Background

Among the prior art, in laser diode's production process, need be in the same place laser emission portion and lantern ring welding, form the laser diode finished product, and in current welding process, need artifically to laser emission portion and lantern ring material loading weld, then the manual work is accomodate the diode finished product after welding, extravagant manpower and production efficiency are low.

Therefore, the prior art has defects and needs to be improved.

SUMMERY OF THE UTILITY MODEL

To prior art's not enough, this application provides a pressfitting welding machine to in solving current welding process, need artifically to weld laser emission portion and lantern ring material loading, then the manual work is accomodate the diode finished product after welding, extravagant manpower and production efficiency low scheduling problem.

In order to solve the above technical problem, an embodiment of the present application provides a press-fit welding machine, which includes:

a machine platform;

the first material tray is arranged on the machine table and used for bearing the first welding flux;

the second tray is used for bearing a second welding flux and a finished product, wherein the finished product is a welding composite product of the first welding flux and the second welding flux;

the welding device is arranged on the machine table and is provided with a welding tool position and used for welding and combining the first welding flux and the second welding flux;

the first conveying device is arranged on the machine table and positioned on one side of the welding device, and the first conveying device is used for conveying the first welding flux of the first material tray to the welding tool position;

the second conveying device is arranged on the machine table and positioned on one side of the welding device, and the second conveying device is used for conveying the second welding flux to the first welding flux at the welding tool position;

and the third conveying device is arranged on the machine table and positioned on one side of the second conveying device, and is used for conveying the second welding fluxes on the second material tray to the second conveying device and conveying finished products on the second conveying device back to the second material tray.

In one implementation mode, the first material tray is a vibrating tray, and a vibrating motor is arranged on the vibrating tray and used for driving the vibrating tray to vibrate.

In one implementation, the welding device includes:

the welding seat is arranged on the machine table, and the welding tool position is arranged on the welding seat;

the first up-down driving assembly is arranged on the welding seat;

and the welding head is arranged on the driving end of the first upper and lower driving assembly and is positioned right above the welding tool position.

In one implementation, the first conveyor comprises:

the first mounting seat is arranged on the machine table;

the second up-and-down driving assembly is arranged on the first mounting seat;

the first rotating assembly is arranged on the driving end of the second up-down driving assembly;

and the first material taking part is arranged at the driving end of the first rotating assembly and is used for grabbing the first welding flux.

In one implementation, the first take off portion includes:

a mechanical arm disposed on a drive end of the first rotating assembly;

the first material taking head is arranged at one end, far away from the first rotating assembly, of the mechanical arm and used for grabbing first welding flux.

In one implementation, the second conveyor comprises:

the second mounting seat is arranged on the machine table;

the first left and right driving assembly is arranged on the second mounting seat;

a third up-down driving assembly disposed on the driving end of the first left-right driving assembly;

the second rotating assembly is arranged on the driving end of the third up-down driving assembly;

the first rotating assembly is arranged on the driving end of the second rotating assembly;

and the first grabbing tool assembly is arranged on the driving end of the first rotating assembly and is used for grabbing the second welding flux and the finished product.

In one implementation, the first grabbing tool assembly includes:

a first rotating arm disposed on a driving end of the first rotating assembly;

the first rotating seat is arranged at one end of the first rotating arm far away from the first rotating assembly;

the second material taking head is arranged on the first rotating seat and is used for grabbing the second welding flux;

the first material receiving head is arranged on the first rotating seat and is arranged at an interval with the second material receiving head, and the first material receiving head is used for grabbing the finished product.

In one implementation, the third conveyor comprises:

the third mounting seat is arranged on the machine table;

the second left and right driving assembly is arranged on the machine table, and the second material tray is arranged on the driving end of the second left and right driving assembly;

the front and rear driving assembly is arranged on the third mounting seat;

the fourth up-down driving assembly is arranged on the driving end of the front-back driving assembly;

the second rotating assembly is arranged on the driving end of the fourth up-down driving assembly;

and the second grabbing tool assembly is arranged on the driving end of the second rotating assembly and is used for grabbing the second welding flux and the finished product.

In one implementation, the second grabbing tool assembly includes:

the second rotating arm is arranged on the driving end of the second rotating assembly;

the second rotating seat is arranged on one end, far away from the second rotating assembly, of the second rotating arm;

the third material taking head is arranged on the second rotating seat and used for taking the second welding flux;

and the second material receiving head is arranged on the second rotating seat and is arranged at an interval with the third material taking head, and the second material receiving head is used for grabbing the finished product.

In one implementation mode, the press-fit welding machine further comprises a fan, and the fan is arranged on one side, located on the welding tool position, of the machine table and used for heat dissipation of the finished product.

Has the advantages that: this application is used for carrying the first conveyor of first solder through the setting, and set up second conveyor and the third conveyor that all can be used to carry second solder and finished product, cooperation welding set, can realize automatic first solder and second solder to welding frock position of carrying, and make first solder and second solder form the finished product through welding set welding synthesis first solder and second solder, carry back second charging tray department with the finished product through second conveyor and third conveyor at last, can realize the automatic material loading of first solder and second solder through the pressfitting welding machine that this application provided, automatic welding and automatic receipts material, the effectual manpower of having practiced thrift and production efficiency improvement.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without any inventive work.

Fig. 1 is a schematic structural diagram of a first solder in a press-fit welding machine provided by the present application.

Fig. 2 is a schematic structural diagram of a second solder in a press-fit welding machine provided by the present application.

Fig. 3 is a schematic structural diagram of a finished product in a press-fit welding machine provided by the present application.

Fig. 4 is a schematic view of an overall structure of a press-fit welding machine provided in the present application.

Fig. 5 is a schematic view of an angle structure inside a press-fit welding box in a press-fit welding machine provided by the present application.

FIG. 6 is a schematic view of another angle structure of the interior of a compression welding box in a compression welding machine according to the present application.

FIG. 7 is a schematic view of another angle structure inside a compression welding box of the compression welding machine according to the present application.

Fig. 8 is an enlarged view corresponding to fig. 5 at a.

Fig. 9 is an enlarged view corresponding to fig. 6 at B.

Fig. 10 is an enlarged view corresponding to fig. 7 at C.

Fig. 11 is an enlarged view corresponding to fig. 7 at D.

Fig. 12 is an enlarged view corresponding to fig. 7 at F.

Fig. 13 is an enlarged view corresponding to fig. 6 at E.

In the figure: 1. pressing and welding the box; 11. a machine platform; 2. a first tray; 21. a feed channel; 22. a discharge port; 3. a second tray; 4. a welding device; 41. welding a base; 411. welding a tooling position; 42. a first up-down driving assembly; 43. welding a head; 5. a first conveying device; 51. a first mounting seat; 52. a second up-down driving assembly; 53. a first rotating assembly; 54. a first material taking part; 541. a mechanical arm; 542. a first material taking head; 6. a second conveying device; 61. a second mounting seat; 62. a first left and right drive assembly; 621. a first sliding mechanism; 622. a first drive mechanism; 63. a third up-down driving assembly; 64. a second rotating assembly; 65. a first rotating assembly; 66. a first grabbing tool assembly; 661. a first rotation arm; 662. a first rotating base; 663. a second material taking head; 664. a first receiving head; 7. a third conveying device; 71. a third mounting seat; 72. a second left and right drive assembly; 721. a second sliding mechanism; 722. a second drive mechanism; 73. a front and rear drive assembly; 731. a third sliding mechanism; 732. a third drive mechanism; 74. a fourth up-down driving assembly; 75. a second rotating assembly; 76. a second grabbing tool assembly; 761. a second rotating arm; 762. a second rotating base; 763. a third material taking head; 764. a second receiving head; 8. a fan; 91. a first solder; 92. a second solder; 93. and (5) finishing.

Detailed Description

The application provides a press-fit welding machine, and in order to make the purpose, technical scheme and effect of the application clearer and clearer, the application is further described in detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

As used herein, the singular forms "a", "an", "the" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. It will be understood that when an element is referred to as being "connected" or "coupled" to another element, it can be directly connected or coupled to the other element or intervening elements may also be present. Further, "connected" or "coupled" as used herein may include wirelessly connected or wirelessly coupled. As used herein, the term "and/or" includes all or any element and all combinations of one or more of the associated listed items.

It will be understood by those within the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

The following description of the embodiments is provided to further explain the present disclosure by way of example in connection with the appended drawings.

As shown in fig. 4 and fig. 5, the embodiment provides a press-fit welding machine, which includes a machine table 11, a first tray 2, a second tray 3, a welding device 4, a first conveying device 5, a second conveying device 6, a third conveying device 7, and a press-fit welding box 1, wherein the machine table 11 is disposed in the press-fit welding box 1, and the first tray 2 is disposed on the machine table 11 and used for bearing a first solder 91, as shown in fig. 1; the second tray 3 is used for holding a second solder 92 and finished products 93, as shown in fig. 2 and 3; in this embodiment, the first solder 91 may be a collar, and the second solder 92 may be a laser emitting portion, then the finished product 93 is a diode finished product, the soldering device 4 is disposed on the machine 11, the soldering device 4 has a soldering station 411 and is used for soldering the first solder 91 and the second solder 92, the first conveying device 5 is disposed on the machine 11 and located at one side of the soldering device 4, the first conveying device 5 is used for conveying the first solder 91 of the first tray 2 to the soldering station 411, the second conveying device 6 is disposed on the machine 11 and located at one side of the soldering device 4, the second conveying device 6 is used for conveying the second solder 92 to the first solder 91 at the soldering station 411, the third conveying device 7 is disposed on the machine 11 and located at one side of the second conveying device 6, and the third conveying device 7 is used for conveying the second solder 92 on the second tray 3 to the second conveying device 6 and for returning the finished product 93 on the second conveying device 6 to the tray 3;

in the embodiment, by arranging the first conveying device 5 for conveying the first solder 91 and the second conveying device 6 and the third conveying device 7 which are both used for conveying the second solder 92 and the finished product 93, and matching the welding device 4, the first solder 91 and the second solder 92 can be automatically conveyed to the welding tooling position 411, the first solder 91 and the second solder 92 are welded and synthesized by the welding device 4 to form the finished product 93, and finally the finished product 93 is conveyed back to the second tray 3 by the second conveying device 6 and the third conveying device 7, so that the automatic feeding, automatic welding and automatic receiving of the first solder 91 and the second solder 92 can be realized by the press-fit welding machine provided by the embodiment, the manpower is effectively saved, and the production efficiency is improved.

As shown in fig. 5 and 8, in an embodiment, the first tray 2 is a vibrating tray, the first solder 91 is located in a material separating tool of the vibrating tray, the vibrating tray is provided with a feeding channel 21, the first solder 91 is placed in the feeding channel 21, the feeding channel 21 is provided with a material outlet 22, the vibrating tray is provided with a vibrating motor (not shown in the figure), the vibrating motor drives the vibrating tray, and the vibration of the vibrating tray drives the first solder 91 in the feeding channel 21 to vibrate so as to vibrate the first solder 91 to the material outlet 22.

As shown in fig. 6 and 9, in an embodiment, the welding device 4 includes a welding base 41, a first up-down driving assembly 42 and a welding head 43, the welding base 41 is disposed on the machine platform 11, a welding fixture 411 is disposed on the welding base 41, the first up-down driving assembly 42 may be an up-down driving cylinder or a telescopic motor, and in this embodiment, the first up-down driving assembly 42 is an up-down driving cylinder; the first up-down driving assembly 42 is arranged on the welding seat 41, and the welding head 43 is arranged on the driving end of the first up-down driving assembly 42 and is positioned right above the welding tooling position 411; when the first solder 91 is connected with the second solder 92, one end of the second solder 92 passes through the tooling hole of the first solder 91, and the other end of the second solder is abutted against the end surface of the first solder 91, so as to form a composite product of the first solder 91 and the second solder 92, and the welding head 43 is matched with the composite product and is used for welding the composite product to form a finished product 93;

in the embodiment, the first up-down driving assembly 42 is driven to move up and down, so that the welding head 43 is close to or away from the welding tooling position 411, and when the welding head 43 is close to the welding tooling position 411, the first welding flux 91 and the second welding flux 92 are conveniently welded and combined; when soldered connection 43 kept away from welding frock position 411, conveniently accomodate away finished product 93 on the welding frock position 411, conveniently place welding frock position 411 with first solder 91 and conveniently place welding frock position 411 with second solder 92.

As shown in fig. 7 and 10, in an embodiment, the first conveying device 5 includes a first mounting seat 51, a second up-and-down driving assembly 52, a first rotating assembly 53 and a first material taking part 54, the first mounting seat 51 is disposed on the machine platform 11, the second up-and-down driving assembly 52 may be an up-and-down driving cylinder or a telescopic motor, and in this embodiment, the second up-and-down driving assembly 52 is an up-and-down driving cylinder; the second up-down driving assembly 52 is disposed on the first mounting base 51, the first rotating assembly 53 may be a pneumatic rotating cylinder, and may also be a rotating motor, in this embodiment, the first rotating assembly 53 is a pneumatic rotating cylinder; the first rotating assembly 53 is arranged on the driving end of the second up-and-down driving assembly 52, and the first material taking part 54 is arranged on the driving end of the first rotating assembly 53 and used for taking the first solder 91;

in this embodiment, it is rotatory through driving first rotating assembly 53, and then drive first material taking portion 54 rotatory, so that first material taking portion 54 is rotatory to the discharge gate 22 directly over or rotatory to the welding frock position 411 directly over, on this basis, this embodiment still sets up first rotating assembly 53 on the drive end of second upper and lower drive assembly 52, this embodiment can be through driving second upper and lower drive assembly 52 up-and-down motion, and then drive first rotating assembly 53 up-and-down motion, thereby drive first material taking portion 54 up-and-down motion on first rotating assembly 53.

As shown in fig. 10, in an embodiment, the first material taking part 54 includes a mechanical arm 541 and a first material taking head 542, the mechanical arm 541 is disposed at a driving end of the first rotating assembly 53, the first material taking head 542 is disposed at an end of the mechanical arm 541 away from the first rotating assembly 53 and is used for taking the first solder 91, wherein the first material taking head 542 may be a clamping jaw, the first material taking head 542 may also be a suction nozzle, and in this embodiment, the first material taking head 542 is a suction nozzle.

As shown in fig. 6, 7 and 11, in an embodiment, the second conveying device 6 includes a second mounting seat 61, a first left and right driving component 62, a third up and down driving component 63, a second rotating component 64, a first rotating component 65 and a first grabbing tooling component 66, the second mounting seat 61 is disposed on the machine 11, the first left and right driving component 62 includes a first sliding mechanism 621 and a first driving mechanism 622, wherein the first sliding mechanism 621 may be a screw rod module or a belt module, in this embodiment, the first sliding mechanism 621 is a screw rod module, the first driving mechanism 622 may be a stepping motor, the first sliding mechanism 621 is disposed on the second mounting seat 61, the first driving motor is disposed on the first sliding mechanism 621, and a driving end of the first driving motor is connected with a driving end of the first sliding mechanism 621;

the third up-down driving assembly 63 may be an up-down driving cylinder, or may be a telescopic motor, in this embodiment, the third up-down driving assembly 63 is an up-down driving cylinder; the third up-down driving assembly 63 is arranged on the driving end of the first left-right driving assembly 62;

the second rotating assembly 64 may be a pneumatic rotating cylinder, or may be a rotating motor, in this embodiment, the second rotating assembly 64 is a pneumatic rotating cylinder, and the second rotating assembly 64 is disposed on the driving end of the third up-down driving assembly 63;

the first rotating assembly 65 may be a rotation motor, the first rotating assembly 65 is disposed on a driving end of the second rotating assembly 64, and the first grabbing tool assembly 66 is disposed on the driving end of the first rotating assembly 65 and is used for grabbing the second solder 92 and the finished product 93.

This embodiment is through the rotation of the first rotating assembly 65 of drive, and then drive the first frock subassembly 66 rotation of snatching, it is rotatory through driving second rotating assembly 64, and then it is rotatory to drive first rotating assembly 65 and the first frock subassembly 66 of snatching, and through the up-and-down motion of drive third drive assembly 63, thereby drive second rotating assembly 64, first rotating assembly 65 and the first frock subassembly 66 of snatching up-and-down motion, drive assembly 62 about last through driving first, thereby drive third drive assembly 63 from top to bottom, second rotating assembly 64, first rotating assembly 65 and first frock subassembly 66 of snatching remove, so that first frock subassembly 66 of snatching is close to first conveyor 5 or is close to welding set 4.

As shown in fig. 11, in an embodiment, the first grabbing tool assembly 66 includes a first rotating arm 661, a first rotating base 662, a second material taking head 663 and a first material receiving head 664, the first rotating arm 661 is disposed on the driving end of the first rotating assembly 65, the first rotating base 662 is disposed on one end of the first rotating arm 661 far away from the first rotating assembly 65, the second material taking head 663 may be a clamping jaw, the first material taking head 542 may also be a suction nozzle, in this embodiment, the second material taking head 663 is a suction nozzle, and then the second solder 92 is a suction nozzle tool; the second material taking head 663 is arranged on the first rotating base 662 and is used for taking the second welding flux 92, the first material collecting head 664 can be a clamping jaw, and the first material collecting head 664 can also be a suction nozzle, in this embodiment, the first material collecting head 664 is the suction nozzle; the first material receiving head 664 is arranged on the first rotating base 662 and is arranged at an interval with the second material receiving head 663, and the first material receiving head 664 is used for grabbing finished products 93, wherein in the embodiment, the second material receiving head 663 and the first material receiving head 664 are arranged at an angle of 90 degrees, and the second material receiving head 663 and the first material receiving head 664 are switched to grab a main body through the first rotating assembly 65, that is, the first rotating assembly 65 is driven to rotate, so that the current material loading through the second material receiving head 663 or the material receiving through the first material receiving head 664 are determined.

As shown in fig. 5, fig. 6, fig. 12 and fig. 13, in an embodiment, the third conveying device 7 includes a third mounting seat 71, a second left-right driving assembly 72, a front-back driving assembly 73, a fourth up-down driving assembly 74, a second rotating assembly 75 and a second grabbing tooling assembly 76, the third mounting seat 71 is disposed on the machine platform 11, the second left-right driving assembly 72 includes a second sliding mechanism 721 and a second driving mechanism 722, wherein the second sliding mechanism 721 may be a screw module or a belt module, in this embodiment, the second sliding mechanism 721 is a screw module, the second driving mechanism 722 may be a stepping motor, the second sliding mechanism 721 and the second driving motor are disposed on the machine platform 11, a driving end of the second driving motor is connected to a driving end of the second sliding mechanism 721, and the second tray 3 is disposed on a driving end of the second sliding mechanism 721;

the front-back driving assembly 73 includes a third sliding mechanism 731 and a third driving mechanism 732, wherein the third sliding mechanism 731 may be a screw rod module or a belt module, in this embodiment, the third sliding mechanism 731 is a screw rod module, the third driving mechanism 732 may be a stepping motor, the third sliding mechanism 731 and the third driving motor are disposed on the third mounting seat 71, and a driving end of the third driving motor is connected to a driving end of the third sliding mechanism 731;

the fourth up-down driving assembly 74 may be an up-down driving cylinder, or may be a telescopic motor, in this embodiment, the fourth up-down driving assembly 74 is an up-down driving cylinder; the fourth up-down driving assembly 74 is disposed on the driving end of the front-rear driving assembly 73;

the second rotating assembly 75 may be a rotation motor, the second rotating assembly 75 is disposed on the driving end of the fourth up-down driving assembly 74, and the second grabbing tooling assembly 76 is disposed on the driving end of the second rotating assembly 75 and is used for grabbing the second solder 92 and the finished product 93;

in this embodiment, the second rotating assembly 75 is driven to rotate, and then the second grabbing tooling assembly 76 is driven to rotate, and the fourth up-down driving assembly 74 is driven to move up and down, so that the second rotating assembly 75 and the second grabbing tooling assembly 76 are driven to move up and down, and finally, the front-back driving assembly 73 is driven to move back and forth, so that the fourth up-down driving assembly 74 is driven, the second rotating assembly 75 and the second grabbing tooling assembly 76 are driven to move back and forth, in this embodiment, a second left-right driving assembly 72 is further provided, in this embodiment, the second left-right driving assembly 72 is driven to move left and right, and the second tray 3 on the second sliding mechanism 721 can also be driven to move left and right, so that the second grabbing tooling assembly 76 can be right over the second tray 3, and the second grabbing tooling assembly 76 can conveniently grab and store the second solder 92.

As shown in fig. 13, in an embodiment, the second grabbing fixture assembly 76 includes a second rotating arm 761, a second rotating seat 762, a third material fetching head 763, and a second material receiving head 764, the second rotating arm 761 is disposed at a driving end of the second rotating assembly 75, the second rotating seat 762 is disposed at an end of the second rotating arm 761 away from the second rotating assembly 75, the third material fetching head 763 may be a clamping jaw, the third material fetching head 763 may also be a suction nozzle, and in this embodiment, the third material fetching head 763 is a suction nozzle; the third material taking head 763 is disposed on the second rotating seat 762 and is used for taking the second solder 92, the second material collecting head 764 may be a clamping jaw, and the second material collecting head 764 may also be a suction nozzle, in this embodiment, the second material collecting head 764 is a suction nozzle; the second material receiving head 764 is disposed on the second rotating seat 762, and is spaced from the third material receiving head 763, and the second material receiving head 764 is used for grabbing the finished product 93, wherein, in this embodiment, a 90-degree angle is formed between the third material receiving head 763 and the second material receiving head 764, and the third material receiving head 763 and the second material receiving head 764 switch the grabbing body through the second rotating component 75, that is, by driving the second rotating component 75 to rotate, it is determined whether to feed through the third material receiving head 763 or receive material through the second material receiving head 764.

As shown in fig. 4, in an embodiment, the press-fit welding machine further includes a fan 8, the fan 8 is disposed on one side of the machine platform 11 located at the welding fixture position 411, wherein the fan 8 is a heat dissipation fan 8, and in this embodiment, heat dissipation of the finished product 93 at the welding fixture position 411 can be accelerated by disposing the fan 8.

The working principle of the press-fit welding machine is as follows: firstly, placing the first welding flux 91 on the vibration disc at the welding tooling position 411 through the first conveying device 5, then placing the second welding flux 92 on the second disc 3 on the first welding flux 91 at the welding tooling position 411 sequentially through the third conveying device 7 and the second conveying device 6, welding the first welding flux 91 and the second welding flux 92 through the welding device 4 to form a welded finished product 93, and conveying the welded finished product 93 back to the second disc 3 sequentially through the second conveying device 6 and the third conveying device 7; after the welding resultant 93 is collected by the first collecting head 664 of the second conveying device 6, the first conveying device 5 will continue to convey the first welding flux 91 on the vibration disc to the welding tooling position 411, and the above steps are repeated;

specifically, the method comprises the following steps: the vibrating disc vibrates to push the first welding flux 91 in the feeding channel 21 to the discharge hole 22, the first material taking head 542 sucks the first welding flux 91 in the discharge hole 22 and conveys the sucked first welding flux 91 to the welding tooling position 411 under the action of the first rotating assembly 53 and the second up-and-down driving assembly 52, the third material taking head 763 sucks the second welding flux 92 in the second material disc 3 and conveys the sucked second welding flux 92 to a position close to the second conveying device 6 under the action of the second rotating assembly 75, the fourth up-and-down driving assembly 74, the front-and-back driving assembly 73 and the second left-and-right driving assembly 72, the second material taking head 663 sucks the second welding flux 92 on the third material taking head 763 under the action of the first rotating assembly 65, the second rotating assembly 64, the third up-and-down driving assembly 63 and the first left-and-right driving assembly 62, the sucked second welding flux 92 is conveyed to the first welding flux 91 of the welding tool position 411, the welding head 43 is welded with a welding finished product 93 formed by the first welding flux 91 and the second welding flux 92, the first material collecting head 664 conveys the welding finished product 93 of the welding tool position 411 to the first conveying device 5, the second material collecting head 764 sucks the welding finished product 93 on the first material collecting head 664 under the action of the second rotating assembly 75, the fourth up-and-down driving assembly 74, the front-and-back driving assembly 73 and the second left-and-right driving assembly 72, conveys the sucked welding finished product 93 back to the second material tray 3 at the vacated position, and after the welding finished product 93 on the welding tool position 411 is collected by the first material collecting head 664, the first material collecting head 542 continues to convey the first welding flux 91 to the welding tool position 411, and the steps are repeated, so that the whole automatic feeding, welding and the welding finished product 93 are finished, welding and receiving material.

Finally, the embodiment provides a press-fit welding machine, which includes a machine table 11, a first tray 2, a second tray 3, a welding device 4, a first conveying device 5, a second conveying device 6, a third conveying device 7 and a press-fit welding box 1, wherein the machine table 11 is arranged in the press-fit welding box 1, and the first tray 2 is arranged on the machine table 11 and used for bearing a first solder 91; the second tray 3 is used for bearing the second welding flux 92 and finished products 93; in this embodiment, the first solder 91 may be a collar, and the second solder 92 may be a laser emitting portion, then the finished product 93 is a diode finished product, the soldering device 4 is disposed on the machine 11, the soldering device 4 has a soldering station 411 and is used for soldering the first solder 91 and the second solder 92, the first conveying device 5 is disposed on the machine 11 and located at one side of the soldering device 4, the first conveying device 5 is used for conveying the first solder 91 of the first tray 2 to the soldering station 411, the second conveying device 6 is disposed on the machine 11 and located at one side of the soldering device 4, the second conveying device 6 is used for conveying the second solder 92 to the first solder 91 at the soldering station 411, the third conveying device 7 is disposed on the machine 11 and located at one side of the second conveying device 6, and the third conveying device 7 is used for conveying the second solder 92 on the second tray 3 to the second conveying device 6 and for returning the finished product 93 on the second conveying device 6 to the tray 3; in the embodiment, by arranging the first conveying device 5 for conveying the first solder 91 and the second conveying device 6 and the third conveying device 7 which are both used for conveying the second solder 92 and the finished product 93, and matching the welding device 4, the first solder 91 and the second solder 92 can be automatically conveyed to the welding tooling position 411, the first solder 91 and the second solder 92 are welded and synthesized by the welding device 4 to form the finished product 93, and finally the finished product 93 is conveyed back to the second tray 3 by the second conveying device 6 and the third conveying device 7, so that the automatic feeding, automatic welding and automatic receiving of the first solder 91 and the second solder 92 can be realized by the press-fit welding machine provided by the embodiment, the manpower is effectively saved, and the production efficiency is improved.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present application.

Claims (10)

1. A compression welder, comprising:

a machine platform;

the first material tray is arranged on the machine table and used for bearing the first welding flux;

the second tray is used for bearing a second welding flux and a finished product, wherein the finished product is a welding composite product of the first welding flux and the second welding flux;

the welding device is arranged on the machine table and provided with a welding tool position and used for welding and combining the first welding flux and the second welding flux;

the first conveying device is arranged on the machine table and positioned on one side of the welding device, and the first conveying device is used for conveying the first welding flux of the first material tray to the welding tool position;

the second conveying device is arranged on the machine table and positioned on one side of the welding device, and the second conveying device is used for conveying the second welding flux to the first welding flux at the welding tool position;

and the third conveying device is arranged on the machine table and positioned on one side of the second conveying device, and is used for conveying the second welding fluxes on the second material tray to the second conveying device and conveying finished products on the second conveying device back to the second material tray.

2. The compression welder of claim 1, wherein the first tray comprises: the vibration dish is provided with vibrating motor on, vibrating motor is used for the drive the vibration dish vibration.

3. The compression welder of claim 1, wherein the welding device comprises:

the welding seat is arranged on the machine table, and the welding tool position is arranged on the welding seat;

the first up-down driving assembly is arranged on the welding seat;

and the welding head is arranged on the driving end of the first upper and lower driving assembly and is positioned right above the welding tool position.

4. The stitch welder of claim 2, wherein the first conveyor comprises:

the first mounting seat is arranged on the machine table;

the second up-down driving assembly is arranged on the first mounting seat;

the first rotating assembly is arranged on the driving end of the second up-and-down driving assembly;

and the first material taking part is arranged at the driving end of the first rotating assembly and is used for grabbing the first welding flux.

5. The compression welder of claim 4, wherein the first take off portion comprises:

a mechanical arm disposed on a drive end of the first rotating assembly;

the first material taking head is arranged at one end, far away from the first rotating assembly, of the mechanical arm and used for grabbing first welding flux.

6. The compression welder of claim 1, wherein the second conveyor comprises:

the second mounting seat is arranged on the machine table;

the first left and right driving assembly is arranged on the second mounting seat;

a third up-down driving assembly disposed on the driving end of the first left-right driving assembly;

the second rotating assembly is arranged on the driving end of the third up-down driving assembly;

the first rotating assembly is arranged on the driving end of the second rotating assembly;

and the first grabbing tool assembly is arranged on the driving end of the first rotating assembly and is used for grabbing the second welding flux and the finished product.

7. The compression welder of claim 6, wherein the first grabbing tooling assembly comprises:

a first rotating arm disposed on a driving end of the first rotating assembly;

the first rotating seat is arranged at one end of the first rotating arm far away from the first rotating assembly;

the second material taking head is arranged on the first rotating seat and used for taking the second welding flux;

the first material receiving head is arranged on the first rotating seat and is arranged at an interval with the second material receiving head, and the first material receiving head is used for grabbing the finished product.

8. The stitch welder of claim 1, wherein the third conveyor comprises:

the third mounting seat is arranged on the machine table;

the second left and right driving assembly is arranged on the machine table, and the second material tray is arranged on the driving end of the second left and right driving assembly;

the front and rear driving assembly is arranged on the third mounting seat;

the fourth up-down driving assembly is arranged on the driving end of the front-back driving assembly;

the second rotating assembly is arranged on the driving end of the fourth up-down driving assembly;

and the second grabbing tool assembly is arranged on the driving end of the second rotating assembly and is used for grabbing the second welding flux and the finished product.

9. The compression welder of claim 8, wherein the second grabbing tooling assembly comprises:

the second rotating arm is arranged on the driving end of the second rotating assembly;

the second rotating seat is arranged at one end of the second rotating arm far away from the second rotating assembly;

the third material taking head is arranged on the second rotating seat and used for taking the second welding flux;

and the second material receiving head is arranged on the second rotating seat and is arranged at an interval with the third material taking head, and the second material receiving head is used for grabbing the finished product.

10. The press fit welding machine according to claim 1, further comprising a fan, wherein the fan is arranged on one side of the machine platform, which is located on the welding tool position, and is used for heat dissipation of the finished product.

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