CN114164384A

CN114164384A - Automatic wicking equipment of motor terminal

Info

Publication number: CN114164384A
Application number: CN202111552097.3A
Authority: CN
Inventors: 刘德广; 陈刚; 白亚磊
Original assignee: Hunan Guomeng Technology Co ltd
Current assignee: Hunan Guomeng Technology Co ltd
Priority date: 2021-12-17
Filing date: 2021-12-17
Publication date: 2022-03-11
Anticipated expiration: 2041-12-17
Also published as: CN114164384B

Abstract

The invention belongs to the technical field of motor terminal processing, and particularly relates to automatic tin immersion equipment for a motor terminal. This automatic wicking equipment of motor terminal, through setting up conveyer, it is rotatory to make positive reverse motor drive the threaded rod, and then it slides in first spout to drive the installation slider, when the installation slider slides to the cooling platform in, it is rotatory just to offer the meshing with the rack for drive gear, when the installation slider removes, it rotates to drive first connecting axle, and then it carries out rotatory effect to drive wicking device, can cool off the tin liquid on the motor terminal on the way of transporting the motor terminal, reduce the motor terminal required time when this technology of wicking, the work efficiency of motor terminal wicking is increased.

Description

Automatic wicking equipment of motor terminal

Technical Field

The invention relates to the technical field of motor terminal processing, in particular to automatic tin immersion equipment for a motor terminal.

Background

The motor is an electromagnetic device for realizing electric energy conversion or transmission according to an electromagnetic induction law; denoted in the circuit by the letter M (old standard by D); the main function of the device is to generate driving torque as a power source of electrical appliances or various machines; the generator is denoted in the circuit by the letter G; the main function of the generator is to convert mechanical energy into electric energy, and the most common generator at present utilizes heat energy, water energy and the like to drive a generator rotor to generate electricity;

the wicking equipment of motor terminal is when wicking motor terminal, generally insert the motor terminal in the tin stove, be stained with and get tin liquid, take out the motor terminal that the wicking was accomplished afterwards, current motor terminal is when inserting the tin stove, need place the motor terminal after certain time in the tin stove, just can take out, and can adhere to too much tin liquid and can't in time get rid of on the motor terminal, cause the excessive use of tin liquid, and accomplish the back to motor terminal wicking, need place the tin liquid that the certain time just can be to the motor terminal in placing cooling device and cool off, the required time of motor terminal wicking technology has been increased, the work efficiency to motor terminal wicking has been reduced.

Disclosure of Invention

The invention provides automatic tin immersion equipment for a motor terminal, which is based on the technical problems that the existing motor terminal needs to be placed for a period of time during tin immersion and cooling, the time required by a process of tin immersion for the motor terminal is increased, and the working efficiency of tin immersion for the motor terminal is reduced.

The invention provides automatic tin immersion equipment for a motor terminal, which comprises a running platform, wherein a tin furnace is fixedly arranged on the surface of one side of the running platform, a conveying device is arranged on the upper surface of the running platform, a steering part is arranged at one end of the conveying device, a tin immersion device is fixedly connected to one end of the steering part, the conveying device drives the steering part and the tin immersion device to perform tin immersion conveying, the steering part drives the tin immersion device to perform angle deflection, the tin immersion device drives a motor terminal to perform rotary lifting, the motor terminal is driven to complete tin immersion, a drying and cooling device is fixedly connected to the surface of one side of the running platform, and the drying and cooling device is used for drying and cooling tin liquid on the surface of the motor terminal after tin immersion;

the steering component comprises a first mounting block and a hinge rod;

the tin immersion device comprises a second mounting block fixedly connected to one end of the hinge rod, and a first hydraulic cylinder is fixedly mounted on the upper surface of the second mounting block;

the drying and cooling device comprises a cooling table, wherein the lower surface of the cooling table is fixedly connected with supporting legs which are uniformly distributed, and a third mounting hole is formed in one side surface of the cooling table.

Preferably, the conveying device comprises a first chute and an installation sliding block, the first chute and the installation sliding block are arranged on the inner wall of the upper surface of the operating platform and are of an isosceles trapezoid structure, first installation ports are formed in the inner walls of two ends of the first chute, the inner walls of the first installation ports are fixedly connected with threaded rods through bearings, a forward and reverse rotating motor is fixedly installed on the surface of one end of the operating platform through a supporting block, and a main shaft end of the forward and reverse rotating motor is fixedly connected with one end surface of the threaded rod through a shaft coupling.

Preferably, a threaded hole is formed in one side surface of the installation sliding block, the outer surface of the lower end of the installation sliding block is in an isosceles trapezoid shape, the installation sliding block is in threaded connection with the outer surface of the threaded rod through the threaded hole, the outer surface of the lower end of the installation sliding block is in sliding insertion connection with the inner wall of the first sliding groove, and a first connecting port is formed in one side surface of the upper end of the installation sliding block.

Preferably, the inner wall of the first connecting port is fixedly connected with a first connecting shaft through a bearing, a transmission gear is fixedly sleeved on the outer surface of one end of the first connecting shaft, a rack is fixedly connected to the surface of one side of the operating platform, and the transmission gear is in meshing transmission with the rack.

Preferably, the lower surface of first installation piece with week side fixed connection of the first connecting axle other end, the second connector has been seted up to the upper surface of first installation piece, the inner wall fixed mounting of second connector has driving motor, the hinge groove has been seted up on the one end surface of first connecting axle, hinge interface has been seted up to week side of first connecting axle, hinge interface's one end is run through the one end inner wall of hinge bar extends to the surface of first connecting axle, driving motor's main shaft with hinge interface's inner wall activity is pegged graft and with hinge bar fixed connection.

Preferably, the one end surface that the piston was kept away from to the hydraulic stem of first pneumatic cylinder passes through bearing fixedly connected with erection column, week side fixedly connected with guide post of erection column, the bellmouth has been seted up to the upper surface of second installation piece, the surface of erection column with the inner wall activity of bellmouth is cup jointed, the helicla flute has been seted up to the inner wall of bellmouth, the surface of guide post with the inner wall slip grafting of helicla flute, the lower surface of erection column is seted up and is being the mouth is got to the clamp of straight flute mouth structure.

Preferably, the interior roof of pressing from both sides the mouth of getting has seted up the second installing port, the inner wall fixed mounting of second installing port has the second pneumatic cylinder, the one end fixedly connected with control cylinder of the hydraulic stem of second pneumatic cylinder, the surface of control cylinder with press from both sides the inner wall activity of getting the mouth and cup jointing, press from both sides the both sides inner wall of getting the mouth and all seted up the second spout, the lower extreme inner wall of getting the mouth of getting is provided with two clamping jaws that are symmetric distribution, two the equal fixedly connected with guide block in both sides surface of clamping jaw, the surface of guide block with the inner wall slip grafting of second spout.

Preferably, the surface of one side of the tin furnace is fixedly connected with a heat absorption block, the surface of one side of the heat absorption block is fixedly connected with a heat conduction pipe, and the outer surface of the heat conduction pipe is fixedly sleeved with a heat insulation sleeve.

Preferably, the inner wall of cooling platform seted up with the distribution groove that the inner wall of third installing port communicates each other, the through-hole has been seted up to a side surface of distribution groove, just the one end of through-hole runs through and extends to a side surface of cooling platform, the cooling platform is close to the tin stove's one end surface has seted up through-hole, the one end of through-hole runs through and extends to the inner wall of third installing port, the one end of heat pipe extends to through-hole the inner wall of third installing port.

Preferably, the heat dissipation ring is installed to the inner wall of third installing port, the internal fixed surface of heat dissipation ring is connected with many heating panels of equalling divide the distribution equally, the last fixed surface of cooling platform installs the fan, the air-out end of fan pass through the connecting pipe with the fixed intercommunication of inner wall of third installing port.

The beneficial effects of the invention are as follows:

1. through setting up conveyer, it is rotatory to make just reversing motor drive the threaded rod, and then it slides in first spout to drive the installation slider, when the installation slider slides to the cooling platform in, it is rotatory just to offer the meshing with the rack for drive gear, when the installation slider removes, it rotates to drive first connecting axle, and then it carries out rotatory effect to drive the wicking device, can cool off the tin liquid on the motor terminal on the way of transporting the motor terminal, reduce the motor terminal required time when this technology of wicking, increase the work efficiency of motor terminal wicking.

2. Through setting up the wicking device, it moves down to drive the control section of thick bamboo through the second pneumatic cylinder, the diameter of cooperation clamping jaw upper end crescent, make two clamping jaws be close to gradually, the cooperation through guide block and second spout leads two clamping jaws, and prevent that two clamping jaws from pressing from both sides and getting the mouth and drop, it gets to carry out automatic clamp to press from both sides the motor terminal, first pneumatic cylinder drives the erection column and reciprocates, because be connected through the bearing between the hydraulic stem of first pneumatic cylinder and the erection column, and through the cooperation of guide column and helicla flute, make the erection column make rotary motion when reciprocating, and then drive the rotatory lift of motor terminal, make the coating that the surface of motor terminal can be even have tin liquid, and unnecessary tin liquid drops in the tin stove along with the rotation of erection column on attaching to the motor terminal.

3. Through setting up dry cooling device, the fan blows off through the through-hole in conveying the wind to the distribution groove through the connecting pipe, when wind is conveyed to cooling ring department, humidity in to the wind is reduced through the heat on cooling ring and the heating panel, the heat of cooling ring adsorbs unnecessary heat on the tin stove through the heat absorption piece, and transmit to the cooling ring in through the heat pipe, reach the energy and recycle, it is rotatory to drive the motor terminal through the rotation of wicking device, and cooperate dry cooling device's auxiliary cooling, make the motor terminal can accomplish the cooling in the transportation, and then improve the work efficiency to motor terminal wicking.

Drawings

Fig. 1 is a schematic view of an automatic tin immersion device for a motor terminal according to the present invention;

FIG. 2 is a cross-sectional view of an automatic tin immersion device for a motor terminal according to the present invention;

FIG. 3 is a structural cross-sectional view of a cooling table of the automatic tin immersion equipment for the motor terminal, which is provided by the invention;

FIG. 4 is a perspective view of a steering component of the automatic tin dipping device for the motor terminal provided by the invention;

fig. 5 is a sectional view of a second mounting block structure of an automatic tin immersion device for a motor terminal according to the present invention;

fig. 6 is an exploded view of a tin immersion device of the automatic tin immersion device for the motor terminal, which is provided by the invention;

FIG. 7 is a perspective view of a jaw structure of an automatic tin dipping device for a motor terminal according to the present invention;

fig. 8 is a sectional view of a heat pipe structure of an automatic tin immersion device for a motor terminal according to the present invention.

In the figure: 1. a running platform; 2. a tin furnace; 3. a first mounting block; 31. a hinged lever; 32. a second connection port; 33. a drive motor; 34. a hinge slot; 35. hinging the interface; 4. a second mounting block; 41. a first hydraulic cylinder; 42. mounting a column; 43. a guide post; 44. a flexible opening; 45. a helical groove; 46. a gripping port; 47. a second mounting opening; 48. a second hydraulic cylinder; 49. a control cylinder; 410. a second chute; 411. a clamping jaw; 412. a guide block; 413. a heat absorbing block; 414. a heat conducting pipe; 415. a thermal insulation sleeve; 5. a cooling table; 51. supporting legs; 52. a third mounting port; 53. a distribution groove; 54. a through hole; 55. a through opening; 56. a heat dissipation ring; 57. a heat dissipation plate; 58. a fan; 6. a first chute; 61. installing a sliding block; 62. a first mounting port; 63. a threaded rod; 64. a positive and negative rotation motor; 65. a threaded opening; 66. a first connection port; 67. a first connecting shaft; 68. a transmission gear; 69. a rack.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-8, an automatic wicking device for a motor terminal comprises a running platform 1, wherein a tin furnace 2 is fixedly mounted on the surface of one side of the running platform 1, a conveying device is arranged on the upper surface of the running platform 1, a steering component is arranged at one end of the conveying device, a wicking device is fixedly connected to one end of the steering component, the conveying device drives the steering component and the wicking device to conduct wicking for conveying, the steering component drives the wicking device to conduct angular deflection, the wicking device drives the motor terminal to rotate and lift, the motor terminal is driven to complete wicking, a drying and cooling device is fixedly connected to the surface of one side of the running platform 1, and the drying and cooling device dries tin liquor on the surface of the wicking motor terminal;

the conveying device comprises a first chute 6 and an installation slide block 61, wherein the inner wall of the upper surface of the operating platform 1 is of an isosceles trapezoid structure, in order to stably install a threaded rod 63 in the first chute 6, first installation ports 62 are respectively formed in the inner walls of two ends of the first chute 6, further, the inner walls of the two first installation ports 62 are fixedly connected with the threaded rod 63 through a bearing, in order to better install a forward and reverse motor 64, a forward and reverse motor 64 is fixedly installed on the surface of one end of the operating platform 1 through a supporting block, in order to enable the forward and reverse motor 64 to drive the threaded rod 63 to rotate, and the main shaft end of the forward and reverse motor 64 is fixedly connected with the surface of one end of the threaded rod 63 through a coupler;

in order to enable the mounting sliding block 61 to slide in the first sliding chute 6 along with the rotation of the threaded rod 63, a threaded opening 65 is formed in one side surface of the mounting sliding block 61, in order to guide the mounting sliding block 61, the outer surface of the lower end of the mounting sliding block 61 is in an isosceles trapezoid shape, the mounting sliding block 61 is in threaded connection with the outer surface of the threaded rod 63 through the threaded opening 65, and further, the outer surface of the lower end of the mounting sliding block 61 is in sliding insertion connection with the inner wall of the first sliding chute 6;

in order to install the first connecting shaft 67 on the installation slide block 61, a first connecting port 66 is formed on one side surface of the upper end of the installation slide block 61), further, the first connecting shaft 67 is fixedly connected to the inner wall of the first connecting port 66 through a bearing, in order to enable the installation slide block 61 to drive the first connecting shaft 67 to rotate in the moving process, a transmission gear 68 is fixedly sleeved on the outer surface of one end of the first connecting shaft 67, further, a rack 69 is fixedly connected to one side surface of the operation table 1, further, the transmission gear 68 is in meshing transmission with the rack 69, the first connecting shaft 67 is driven to rotate through meshing of the transmission gear 68 and the rack 69, and further, the tin immersion device is driven to rotate;

the steering component comprises a first mounting block 3 and a hinge rod 31, in order to mount the first mounting block 3, the lower surface of the first mounting block 3 is fixedly connected with the peripheral side surface of the other end of the first connecting shaft 67, in order to mount the driving motor 33, the upper surface of the first mounting block 3 is provided with a second connecting port 32, the inner wall of the second connecting port 32 is fixedly provided with the driving motor 33, in order to connect the hinge rod 31 and the first connecting shaft 67, the surface of one end of the first connecting shaft 67 is provided with a hinge groove 34, in addition, the peripheral side surface of the first connecting shaft 67 is provided with a hinge port 35, in order to enable the rotation of the driving motor 33 to drive the hinge rod 31 to rotate, one end of the hinge port 35 penetrates through the inner wall of one end of the hinge rod 31 and extends to the outer surface of the first connecting shaft 67, furthermore, the main shaft of the driving motor 33 is movably inserted into the inner wall of the hinge port 35 and fixedly connected with the hinge rod 31, the hinge rod 31 is driven to rotate by the driving motor 33, and the tin immersion device is further driven to rotate to one end of the operation table 1, so that the motor terminal is conveniently clamped;

the tin immersion device comprises a second mounting block 4 fixedly connected to one end of the hinge rod 31, a first hydraulic cylinder 41 is fixedly mounted on the upper surface of the second mounting block 4 in order to drive a mounting column 42 to ascend and descend, the mounting column 42 is fixedly connected to the outer surface of one end, away from a piston, of a hydraulic rod of the first hydraulic cylinder 41 through a bearing in order to enable the mounting column 42 to rotate during ascending and descending, a guide column 43 is fixedly connected to the peripheral side surface of the mounting column 42, a telescopic opening 44 is formed in the upper surface of the second mounting block 4 in order to guide the mounting column 42, the outer surface of the mounting column 42 is movably sleeved with the inner wall of the telescopic opening 44, a spiral groove 45 is formed in the inner wall of the telescopic opening 44, and the outer surface of the guide column 43 is in sliding insertion connection with the inner wall of the spiral groove 45, when the first hydraulic cylinder 41 drives the mounting column 42 to lift, the mounting column 42 can rotate while lifting in cooperation with the sliding of the guide column 43 in the spiral groove 45;

in order to control the two clamping jaws 411 to clamp the motor terminal, a clamping opening 46 with a straight slot structure is formed in the lower surface of the mounting column 42, in order to mount a second hydraulic cylinder 48, a second mounting opening 47 is formed in the inner top wall of the clamping opening 46, further, a second hydraulic cylinder 48 is fixedly mounted on the inner wall of the second mounting opening 47, in order to control the distance between the two clamping jaws 411 through the lifting and lowering of the control cylinder 49, a control cylinder 49 is fixedly connected to one end of a hydraulic rod of the second hydraulic cylinder 48, further, the outer surface of the control cylinder 49 is movably sleeved with the inner wall of the clamping opening 46, further, two clamping jaws 411 are symmetrically distributed on the inner wall of the lower end of the clamping opening 46, and in order to guide and limit the clamping jaws 411, guide blocks 412 are fixedly connected to the surfaces of both sides of the two clamping jaws 411, the inner walls of the two sides of the clamping opening 46 are respectively provided with a second sliding chute 410, further, the outer surface of the guide block 412 is in sliding insertion connection with the inner wall of the second sliding chute 410, and the two clamping jaws 411 are gradually close to each other along with the movement of the control cylinder 49 through the gradually increasing diameter of the upper ends of the clamping jaws 411, so that the motor terminal is clamped;

in order to utilize the redundant heat on the tin furnace 2, a heat absorbing block 413 is fixedly connected to one side surface of the tin furnace 2, in order to conduct the heat absorbed by the heat absorbing block 413 into the cooling table 5, a heat conducting pipe 414 is fixedly connected to one side surface of the heat absorbing block 413, in order to prevent the heat in the heat conducting pipe 414 from dissipating in the process of conduction, a heat insulating sleeve 415 is fixedly sleeved on the outer surface of the heat conducting pipe 414, the drying and cooling device comprises the cooling table 5, in order to better support the cooling table 5, uniformly distributed supporting legs 51 are fixedly connected to the lower surface of the cooling table 5, in order to transmit the wind of a fan 58 into a distribution groove 53, a third mounting port 52 is arranged on one side surface of the cooling table 5, in addition, a distribution groove 53 communicated with the inner wall of the third mounting port 52 is arranged on the inner wall of the cooling table 5, furthermore, in order to cool the tin liquid on the motor terminal by the wind in the distribution groove 53, a through hole 54 is formed on one side surface of the distribution groove 53, so that one end of the through hole 54 penetrates and extends to one side surface of the cooling platform 5, in order to mount the heat conduction pipe 414, a through hole 55 is formed on one end surface of the cooling platform 5 close to the tin furnace 2, so that one end of the through hole 55 penetrates and extends to the inner wall of the third mounting hole 52, and further, one end of the heat conduction pipe 414 extends to the inner wall of the third mounting hole 52 through the through hole 55;

in order to remove moisture in the wind generated by the fan 58, a heat dissipation ring 56 is installed on the inner wall of the third installation port 52, a plurality of heat dissipation plates 57 are fixedly connected to the inner surface of the heat dissipation ring 56, the fan 58 is fixedly installed on the upper surface of the cooling platform 5, and the air outlet end of the fan 58 is fixedly communicated with the inner wall of the third installation port 52 through a connecting pipe.

The working principle is as follows: when the motor terminal needs to be subjected to tin immersion, a worker sits at one end of the operating platform 1, the terminal needing to be subjected to tin immersion is placed between the two clamping jaws 411, the control cylinder 49 is driven to move downwards through the second hydraulic cylinder 48, the two clamping jaws 411 are enabled to gradually approach through matching of the guide block 412 and the second sliding groove 410, the two clamping jaws 411 are prevented from falling from the clamping opening 46, the motor terminal is automatically clamped, and an infrared switch can be added at the lower end of the mounting column 42 to automatically clamp the motor terminal;

after the motor terminal is mounted on the mounting post 42, the driving motor 33 is controlled to be powered on to drive the hinge rod 31 to rotate, so that the hinge lever 31 is rotated from a condition of being at a right angle of 90 degrees to the first coupling shaft 67 to a condition of being at a 180 degree coaxial with the first coupling shaft 67, so that the mounting post 42 is positioned right above the tin furnace 2, the first hydraulic cylinder 41 drives the mounting post 42 to move downwards, since the hydraulic rod of the first hydraulic cylinder 41 is connected to the mounting post 42 by a bearing, and through the cooperation of the guide post 43 and the spiral groove 45, the mounting post 42 rotates while moving downwards, and then the motor terminal is driven to rotate and descend, so that the surface of the motor terminal can be uniformly coated with the tin liquid, and then the first hydraulic cylinder 41 is controlled to reset, so that the mounting post 42 rotates and ascends, while the mounting post 42 rotates, the redundant tin liquid attached to the motor terminal falls into the tin furnace 2 along with the rotation of the mounting post 42;

then, the positive and negative rotation motor 64 drives the threaded rod 63 to rotate, and further drives the installation sliding block 61 to slide in the first sliding chute 6, when the installation sliding block 61 slides into the cooling platform 5, the transmission gear 68 just starts to mesh with the rack 69 to rotate, and drives the first connecting shaft 67 to rotate, and further drives the tin immersion device to rotate, meanwhile, the fan 58 is started, wind is transmitted into the distribution groove 53 through the connecting pipe and is blown out through the through hole 54, when the wind is transmitted to the heat dissipation ring 56, the humidity in the wind is reduced through the heat on the heat dissipation ring 56 and the heat dissipation plate 57, the heat of the heat dissipation ring 56 absorbs the redundant heat on the tin furnace 2 through the heat absorption block 413, and is transmitted into the heat dissipation ring 56 through the heat conduction pipe 414, the rotation of the tin immersion device drives the motor terminal to rotate, and is matched with the auxiliary cooling of the drying and cooling device, so that the motor terminal can be cooled in the transportation process, and then improve the work efficiency to the motor terminal wicking.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The automatic tin immersion equipment for the motor terminal comprises a running table (1), wherein a tin furnace (2) is fixedly installed on the surface of one side of the running table (1), a conveying device is arranged on the upper surface of the running table (1), a steering component is arranged at one end of the conveying device, a tin immersion device is fixedly connected to one end of the steering component, the conveying device drives the steering component and the tin immersion device to conduct tin immersion for conveying, the steering component drives the tin immersion device to conduct angle deflection, the tin immersion device drives the motor terminal to rotate and lift, the motor terminal is driven to complete tin immersion, a drying and cooling device is fixedly connected to the surface of one side of the running table (1), and tin liquid on the surface of the motor terminal after tin immersion is dried and cooled by the drying and cooling device;

the steering component comprises a first mounting block (3) and a hinge rod (31);

the tin immersion device comprises a second mounting block (4) fixedly connected to one end of the hinged rod (31), and a first hydraulic cylinder (41) is fixedly mounted on the upper surface of the second mounting block (4);

the drying and cooling device comprises a cooling table (5), wherein the lower surface of the cooling table (5) is fixedly connected with supporting legs (51) which are uniformly distributed, and a third mounting hole (52) is formed in one side surface of the cooling table (5).

2. The automatic wicking equipment of motor terminal of claim 1, conveyer is including offering in the inner wall of operation platform (1) upper surface is first spout (6) and installation slider (61) of isosceles trapezoid structure, first installing port (62) have all been seted up to the both ends inner wall of first spout (6), two the inner wall of first installing port (62) all is through bearing fixedly connected with threaded rod (63), the one end surface of operation platform (1) has just reversing motor (64) through supporting shoe fixed mounting, the spindle end of just reversing motor (64) pass through the shaft coupling with the one end fixed surface of threaded rod (63) is connected.

3. The automatic tin immersion equipment for the motor terminal as claimed in claim 2, wherein a threaded opening (65) is formed in one side surface of the mounting sliding block (61), the outer surface of the lower end of the mounting sliding block (61) is in an isosceles trapezoid shape, the mounting sliding block (61) is in threaded connection with the outer surface of the threaded rod (63) through the threaded opening (65), the outer surface of the lower end of the mounting sliding block (61) is in sliding insertion connection with the inner wall of the first sliding groove (6), and a first connecting port (66) is formed in one side surface of the upper end of the mounting sliding block (61).

4. The automatic tin immersion equipment for the motor terminal as claimed in claim 3, wherein a first connecting shaft (67) is fixedly connected to the inner wall of the first connecting port (66) through a bearing, a transmission gear (68) is fixedly sleeved on the outer surface of one end of the first connecting shaft (67), a rack (69) is fixedly connected to the surface of one side of the operation table (1), and the transmission gear (68) is in meshing transmission with the rack (69).

5. The automatic wicking equipment of motor terminal of claim 4, the lower surface of first installation piece (3) with the week side fixed connection of first connecting axle (67) other end, second connector (32) have been seted up to the upper surface of first installation piece (3), the inner wall fixed mounting of second connector (32) has driving motor (33), hinge groove (34) have been seted up to the one end surface of first connecting axle (67), hinge interface (35) have been seted up to the week side of first connecting axle (67), the one end of hinge interface (35) runs through the one end inner wall of hinge rod (31) and extends to the surface of first connecting axle (67), the main shaft of driving motor (33) with the inner wall activity grafting of hinge interface (35) and with hinge rod (31) fixed connection.

6. The automatic wicking equipment of motor terminal of claim 1, the one end surface that the piston was kept away from to the hydraulic stem of first pneumatic cylinder (41) has an erection column (42) through bearing fixedly connected with, week side fixedly connected with guide post (43) of erection column (42), flexible mouth (44) have been seted up to the upper surface of second installation piece (4), the surface of erection column (42) with the inner wall activity of flexible mouth (44) is cup jointed, spiral groove (45) have been seted up to the inner wall of flexible mouth (44), the surface of guide post (43) with the inner wall slip grafting of spiral groove (45), the lower surface of erection column (42) is seted up and is got mouth (46) of pressing from both sides that is straight flute mouth structure.

7. The automatic wicking equipment of motor terminal of claim 6, the interior roof of pressing from both sides mouthful (46) and having seted up second installing port (47), the inner wall fixed mounting of second installing port (47) has second pneumatic cylinder (48), the one end fixedly connected with control section of thick bamboo (49) of the hydraulic stem of second pneumatic cylinder (48), the surface of control section of thick bamboo (49) with press from both sides the inner wall activity of getting mouthful (46) and cup joint, press from both sides the both sides inner wall of getting mouthful (46) and have seted up second spout (410), the lower extreme inner wall of getting mouthful (46) is provided with two clamping jaws (411) that are the symmetric distribution, two the both sides surface of clamping jaw (411) all fixedly connected with guide block (412), the surface of guide block (412) with the inner wall sliding insertion of second spout (410).

8. The automatic tin immersion equipment for the motor terminal according to claim 1, wherein a heat absorption block (413) is fixedly connected to one side surface of the tin furnace (2), a heat conduction pipe (414) is fixedly connected to one side surface of the heat absorption block (413), and a heat insulation sleeve (415) is fixedly sleeved on the outer surface of the heat conduction pipe (414).

9. The automatic tin dipping device for the motor terminal according to claim 8, wherein a distribution groove (53) communicated with the inner wall of the third mounting hole (52) is formed in the inner wall of the cooling table (5), a through hole (54) is formed in one side surface of the distribution groove (53), one end of the through hole (54) penetrates through and extends to one side surface of the cooling table (5), a through hole (55) is formed in one end surface of the cooling table (5) close to the tin furnace (2), one end of the through hole (55) penetrates through and extends to the inner wall of the third mounting hole (52), and one end of the heat conducting pipe (414) extends to the inner wall of the third mounting hole (52) through the through hole (55).

10. The automatic tin dipping device for the motor terminal according to claim 1, wherein a heat dissipation ring (56) is mounted on the inner wall of the third mounting hole (52), a plurality of heat dissipation plates (57) which are uniformly distributed are fixedly connected to the inner surface of the heat dissipation ring (56), a fan (58) is fixedly mounted on the upper surface of the cooling table (5), and the air outlet end of the fan (58) is fixedly communicated with the inner wall of the third mounting hole (52) through a connecting pipe.