CN219665481U - Welding equipment for hydraulic torque converter - Google Patents

Abstract

The utility model discloses a hydraulic torque converter welding device. The hydraulic torque converter welding equipment comprises a welding anode mechanism, a welding cathode mechanism, a rotary adjusting mechanism, a tooling disc, a height adjusting mechanism, a pushing mechanism and a pressing mechanism, wherein the tooling disc is used for placing the hydraulic torque converter, the tooling disc is arranged on the rotary adjusting mechanism, the rotary adjusting mechanism is used for driving the tooling disc to rotate, the pressing mechanism is used for pressing the hydraulic torque converter on the tooling disc, the rotary adjusting mechanism is arranged on the pushing mechanism, and the pushing mechanism is used for driving the tooling disc and the rotary adjusting mechanism to move in the horizontal direction; the welding cathode mechanism comprises a cathode head, a cathode lifting assembly and a cathode moving assembly, wherein the cathode welding assembly is arranged on the cathode moving assembly, and the cathode moving assembly is arranged on the cathode lifting assembly. The hydraulic torque converter welding equipment can move the hydraulic torque converter out of a welding position, and is convenient for the hydraulic torque converter to be arranged up and down.

Description

Welding equipment for hydraulic torque converter

Technical Field

The utility model relates to the technical field of balance weight welding, in particular to a hydraulic torque converter welding device.

Background

After dynamic balance detection, unqualified products need to be welded with dynamic balance blocks on the hydraulic torque converter, the hydraulic torque converter is conveyed to welding equipment through manual driven balance detection equipment, and interference is easy to occur due to the fact that the welding equipment is arranged, and the hydraulic torque converter is conveyed by a mechanical arm.

Disclosure of Invention

The technical problem to be solved by the utility model is to provide the hydraulic torque converter welding equipment capable of moving the tooling disc for placing the hydraulic torque converter.

In order to solve the problems, the utility model provides a hydraulic torque converter welding device, which comprises a welding anode mechanism, a welding cathode mechanism, a rotation adjusting mechanism, a tooling disc, a height adjusting mechanism, a pushing mechanism and a pressing mechanism, wherein the tooling disc is used for placing the hydraulic torque converter, the tooling disc is arranged on the rotation adjusting mechanism, the rotation adjusting mechanism is used for driving the tooling disc to rotate, the pressing mechanism is used for pressing the hydraulic torque converter on the tooling disc, the rotation adjusting mechanism is arranged on the pushing mechanism, and the pushing mechanism is used for driving the tooling disc and the rotation adjusting mechanism to move in the horizontal direction; the welding cathode mechanism comprises a cathode head, a cathode lifting assembly and a cathode moving assembly, wherein the cathode welding assembly is arranged on the cathode moving assembly, and the cathode moving assembly is arranged on the cathode lifting assembly.

Further, the cathode lifting assembly comprises a cathode lifting motor, a cathode lifting mounting plate, a cathode lifting screw rod, a cathode lifting nut, a cathode lifting sliding rail, a cathode lifting sliding seat and a cathode lifting frame, wherein the cathode lifting sliding rail and the cathode lifting motor are both mounted on the cathode lifting frame, the cathode lifting sliding seat is slidably arranged on the cathode lifting sliding rail, the cathode lifting screw rod is rotatably arranged on the cathode lifting frame, the cathode lifting nut is spirally arranged on the cathode lifting screw rod, the cathode lifting nut is fixed with the cathode lifting mounting seat, and the cathode lifting mounting plate is used for mounting the cathode moving assembly.

Further, the cathode moving assembly comprises a cathode cylinder, a cathode moving mounting seat and a cathode mounting plate, wherein the cathode moving mounting seat is fixed on the cathode lifting mounting plate, the cathode cylinder is mounted on the cathode moving mounting seat, the output end of the cathode cylinder penetrates through the cathode moving mounting seat to be connected with the cathode mounting plate, and the cathode head is mounted on the cathode mounting plate.

Further, the rotation adjusting mechanism comprises a rotation shaft, a shaft barrel, a rotating motor and a rotation mounting seat, the shaft barrel is mounted on the rotation mounting seat, the rotating motor is mounted on the shaft barrel, the rotation shaft is connected with an output shaft of the rotating motor through a coupler, the rotation shaft is mounted on the shaft barrel through a bearing, and the tool disc is fixed with the rotation shaft.

Further, the rotary adjusting mechanism further comprises a mounting column and two rotary mounting plates, the two rotary mounting plates are connected through the mounting column, one rotary mounting plate is fixed on the shaft cylinder, and the other rotary mounting plate is used for mounting a rotary motor.

Further, the pushing mechanism comprises a pushing motor, a pushing base, a pushing screw rod and a pushing nut, the pushing motor is arranged on the pushing base, the pushing screw rod is rotatably arranged on the pushing base, the pushing screw rod is connected with an output shaft of the pushing motor, and the pushing nut is screwed on the pushing screw rod.

Further, the compressing mechanism comprises a compressing block, a compressing mounting plate, a compressing cylinder and a compressing frame, wherein the compressing cylinder is arranged on the compressing frame, the compressing mounting plate is arranged on the compressing cylinder, the compressing cylinder is used for driving the compressing mounting plate, and the compressing block is arranged on the compressing mounting plate.

Further, a connecting cylinder is arranged on the compression mounting plate, and the compression block is mounted on the connecting cylinder through a bearing.

Further, the welding anode mechanism comprises a welding anode assembly, an anode unloading assembly and an angle adjusting device, wherein the welding anode assembly and the anode unloading assembly are both arranged on the angle adjusting device.

Further, the device also comprises a height adjusting mechanism, wherein the height adjusting mechanism is arranged on the pushing mechanism, and the rotation adjusting mechanism is arranged on the height adjusting mechanism.

According to the welding equipment for the hydraulic torque converter, the welding cathode lifting assembly and the cathode moving assembly are utilized to move the cathode head, and the pushing-out mechanism is utilized to move out the rotary adjusting mechanism and the tooling disc, so that the tooling disc is positioned outside the welding anode mechanism and the welding cathode mechanism, the hydraulic torque converter can be conveniently placed on the tooling disc by utilizing mechanical equipment, or the hydraulic torque converter can be taken down from the tooling disc, and the hydraulic torque converter can be assembled and disassembled by adapting to machinery without manually placing and taking the hydraulic torque converter.

Drawings

FIG. 1 is a schematic diagram of a preferred embodiment of a torque converter welding apparatus of the present utility model.

Fig. 2 is a schematic structural view of the rotation adjusting mechanism, the height adjusting mechanism, and the push-out mechanism.

Fig. 3 is a sectional view of the rotation adjusting mechanism, the height adjusting mechanism, and the push-out mechanism.

Fig. 4 is a schematic structural view of the pressing mechanism.

Fig. 5 is a cross-sectional view of the connecting cylinder.

Fig. 6 is a schematic view of the structure of a welding anode.

Fig. 7 is a schematic view of the structure of a welding cathode.

Fig. 8 is a schematic structural view of a cathode lifting assembly.

The meaning of the reference numerals in the drawings are:

welding anode mechanism 1, welding anode assembly 11, anode head 111, anode cylinder 112, anode mount 113, anode mount plate 114, anode unload assembly 12, anode unload head 121, anode unload cylinder 122, anode unload mount plate 123, anode unload mount 124, angle adjustment device 13, angle adjustment frame 131, angle adjustment motor 132, angle adjustment reducer 133, angle adjustment connection frame 134, welding cathode mechanism 2, cathode head 21, cathode lift assembly 22, cathode lift motor 221, cathode lift mount plate 222, cathode lift screw 223, cathode lift nut 224, cathode lift slide rail 225, cathode lift slide carriage 226, cathode lift frame 227, cathode movement assembly 23, cathode cylinder 231, and cathode moving mount 232, cathode mount plate 233, tooling plate 3, rotation adjustment mechanism 4, rotation shaft 41, shaft tube 42, rotation motor 43, rotation mount 44, mount post 45, rotation mount plate 46, height adjustment mechanism 5, height adjustment motor 51, height adjustment screw 52, height adjustment nut 53, height adjustment mount base 54, height adjustment slide rail 55, height adjustment slide 56, height adjustment mount plate 57, push-out mechanism 6, push-out motor 61, push-out base 62, push-out screw 63, push-out nut 64, push-out slide rail 65, push-out slide 66, hold-down mechanism 7, hold-down block 71, hold-down mount plate 72, connection tube 721, hold-down cylinder 73, hold-down frame 74, hydraulic power converter 8.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

As shown in fig. 1 to 4, the preferred embodiment of the torque converter welding apparatus of the present utility model includes a welding anode mechanism 1, a welding cathode mechanism 2, a tooling plate 3, a rotation adjusting mechanism 4, a height adjusting mechanism 5, a push-out mechanism 6, and a pressing mechanism 7. The tool disc 3 is used for placing the hydraulic torque converter 8, the tool disc 3 is installed on the rotation adjusting mechanism 4, and the rotation adjusting mechanism 4 is used for driving the tool disc 3 to rotate so as to adjust the angle of the tool disc 3. The compressing mechanism 7 is used for compressing the hydraulic torque converter 8 on the tooling disc 3, so that the hydraulic torque converter 8 is ensured not to displace during welding. The rotary adjusting mechanism 4 is arranged on the height adjusting mechanism 5, and the height adjusting mechanism 5 is used for adjusting the height of the rotary adjusting mechanism 4, so that the height of the tooling disc 3 is adjusted to adapt to products with different heights. The height adjusting mechanism 5 is mounted on the pushing mechanism 6, and the pushing mechanism 6 is used for driving the height adjusting mechanism 5 and the rotation adjusting mechanism 4 to move in the horizontal direction so as to adjust the position of the tooling disc 3 in the horizontal direction. The welding anode mechanism 1 is matched with the welding cathode mechanism 2 to weld the balance weight on the hydraulic torque converter 8 positioned on the rotation adjusting mechanism 4, and the welding cathode mechanism 2 can adjust the cathode head 21 in the welding cathode mechanism 2, so that the tooling disc 3 can be smoothly discharged by the pushing mechanism 6. In other embodiments, the height adjusting mechanism 5 may be omitted and the rotation adjusting mechanism 4 may be directly fixed to the push-out mechanism 6.

The rotation adjusting mechanism 4 includes a rotation shaft 41, a shaft tube 42, a rotation motor 43, a rotation mount 44, a mount post 45, and two rotation mount plates 46. The two rotary mounting plates 46 are connected through mounting posts 45, one rotary mounting plate 46 is fixed on the shaft barrel 42, the rotary motor 43 is mounted on the other rotary mounting plate 46, the rotary shaft 41 is connected with an output shaft of the rotary motor 43 through a coupler, the tooling disc 3 is fixed with the rotary shaft 41, the rotary shaft 41 is mounted on the shaft barrel 42 through a bearing, and the shaft barrel 42 is mounted on the rotary mounting seat 44. The rotating motor 43 drives the rotating shaft 41 to rotate, and the rotating shaft 41 rotates to drive the tooling disc 3 to rotate, so that the angle position of the hydraulic torque converter 8 is changed, and welding is facilitated. The shaft cylinder 42 can effectively protect the rotating shaft 41, and meanwhile sundries or people can be prevented from touching the rotating shaft, so that safety is improved. In other embodiments, the rotary motor 43 may also be mounted directly on the shaft 42.

The height adjusting mechanism 5 comprises a height adjusting motor 51, a height adjusting screw rod 52, a height adjusting nut 53, a height adjusting mounting base 54, a height adjusting sliding rail 55, a height adjusting sliding seat 56 and a height adjusting mounting plate 57, wherein the height adjusting motor 51 is mounted on the height adjusting mounting base 54, an output shaft of the height adjusting motor 51 is connected with the height adjusting screw rod 52, and the height adjusting nut 53 is screwed on the height adjusting screw rod 52. The height adjustment slide rail 55 is mounted on the height adjustment mounting base 54, the height adjustment slide seat 56 is slidably disposed on the height adjustment slide rail 55, the height adjustment mounting plate 57 is mounted on the height adjustment slide seat 56, and the height adjustment nut 53 is fixed with the height adjustment mounting plate 57. The height adjusting motor 51 drives the height adjusting screw rod 52 to rotate, the height adjusting screw rod 52 drives the height adjusting nut 53 to vertically move up and down, the height adjusting nut 53 drives the height adjusting mounting plate 57 to vertically move, and the height adjusting mounting plate 57 drives the rotating adjusting mechanism 4 and the tooling plate 3 to vertically move.

The pushing mechanism 6 comprises a pushing motor 61, a pushing base 62, a pushing screw 63, a pushing nut 64, a pushing sliding rail 65 and a pushing sliding seat 66, wherein the pushing motor 61 is installed on the pushing base 62, the pushing screw 63 is rotatably arranged on the pushing base 62, the pushing screw 63 is connected with an output shaft of the pushing motor 61, and the pushing nut 64 is screwed on the pushing screw 63. The push-out slide 66 is slidably disposed on the push-out slide rail 65, and the push-out slide 66 is fixed to the height-adjustment mounting base 54. The push-out electrode drives the push-out screw rod 63 to rotate, the push-out screw rod 63 rotates to drive the push-out nut 64 to move along the axial direction of the push-out screw rod 63, the push-out nut 64 drives the height adjustment mounting base 54 to move, and the push-out sliding rail 65 is used for guiding the height adjustment mounting base 54 to move linearly.

As shown in fig. 4 and 5, the pressing mechanism 7 includes a pressing block 71, a pressing mounting plate 72, a pressing cylinder 73 and a pressing frame 74, the pressing cylinder 73 is mounted on the pressing frame 74, the pressing mounting plate 72 is mounted on the pressing cylinder 73, the pressing cylinder 73 is used for driving the pressing mounting plate 72, a connecting cylinder 721 is provided on the pressing mounting plate 72, and the pressing block 71 is mounted on the connecting cylinder 721 through a bearing, so that the pressing block 71 can rotate relative to the pressing mounting plate 72. When the hydraulic torque converter 8 needs to be compressed, the compression cylinder 73 drives the compression mounting plate 72 to move downwards, and the compression mounting plate 72 drives the compression block 71 to move downwards so as to compress the hydraulic torque converter 8. The pressing block 71 can rotate relative to the pressing mounting plate 72, so that the hydraulic torque converter 8 can be pressed first, and the hydraulic torque converter 8 can be prevented from being thrown out or shifted in the process of adjusting the angle by adjusting the angle through the rotary adjusting mechanism 4. In other embodiments, the compression block 71 may be mounted directly to the compression mounting plate 72, where the angle is adjusted prior to compression.

As shown in fig. 6, the welding anode mechanism 1 includes a welding anode assembly 11, an anode relief assembly 12, and an angle adjustment device 13, the welding anode assembly 11 and the anode relief assembly 12 being each mounted on the angle adjustment device 13. The anode relief assembly 12 is positioned opposite the welding anode assembly 11 such that the anode relief assembly 12 is able to fully counteract the force applied by the welding anode assembly 11 to the torque converter 8.

The welding anode assembly 11 comprises an anode head 111, an anode cylinder 112, an anode mounting seat 113 and an anode mounting plate 114, wherein the anode mounting seat 113 is fixed on the angle adjusting device 13, the anode cylinder 112 is mounted on the anode mounting seat 113, the output end of the anode cylinder 112 penetrates through the anode mounting seat 113 to be connected with the anode mounting plate 114, and the anode head 111 is mounted on the anode mounting plate 114. When welding is needed, the anode cylinder 112 drives the anode mounting plate 114, the anode mounting plate 114 drives the anode head 111 to move to the welding position of the torque converter 8, and then the balance weight on the anode head 111 is welded on the torque converter 8, and at this time, the anode head 111 applies a certain force to the torque converter 8.

The anode unloading assembly 12 comprises an anode unloading head 121, an anode unloading cylinder 122, an anode unloading mounting plate 123 and an anode unloading mounting seat 124, the anode unloading mounting seat 124 is mounted on the angle adjusting device 13, the anode unloading cylinder 122 is mounted on the anode unloading mounting seat 124, the anode unloading mounting plate 123 is mounted at the output end of the anode unloading cylinder 122, the anode unloading cylinder 122 pushes the anode unloading mounting plate 123 to move, and the anode unloading mounting plate 123 drives the anode unloading head 121 to be attached to the hydraulic torque converter 8.

The angle adjusting device 13 comprises an angle adjusting rack 131, an angle adjusting motor 132, an angle adjusting speed reducer 133 and an angle adjusting connecting frame 134, wherein the angle adjusting motor 132 is arranged on the angle adjusting speed reducer 133, the angle adjusting speed reducer 133 is arranged on the angle adjusting rack 131, and the angle adjusting connecting frame 134 is arranged on the angle adjusting speed reducer 133. When the welding angle needs to be adjusted, the angle adjusting motor 132 drives the angle adjusting connecting frame 134 to rotate, and the angle adjusting connecting frame 134 rotates to drive the welding anode assembly 11 to turn over, so that the purpose of adjusting the welding angle is achieved; meanwhile, since the anode unloading assembly 12 is arranged opposite to the welding anode assembly 11, the anode unloading assembly 12 can still counteract the force applied to the hydraulic torque converter 8 by the welding anode assembly 11 after the welding angle of the welding anode is adjusted.

As shown in fig. 7 and 8, the welding cathode mechanism 2 includes a cathode head 21, a cathode elevating assembly 22, and a cathode moving assembly 23, the cathode welding assembly being mounted on the cathode moving assembly 23, the cathode moving assembly 23 being mounted on the cathode elevating assembly 22. The cathode lifting assembly 22 is used for adjusting the height of the cathode head 21, the cathode moving assembly 23 is used for adjusting the position of the cathode head 21 on the horizontal plane so as to adjust the position of the cathode head 21, and the tooling disc 3 is moved out of the way.

The cathode lifting assembly 22 comprises a cathode lifting motor 221, a cathode lifting mounting plate 222, a cathode lifting screw rod 223, a cathode lifting nut 224, a cathode lifting sliding rail 225, a cathode lifting sliding seat 226 and a cathode lifting frame 227, wherein the cathode lifting sliding rail 225 and the cathode lifting motor 221 are both installed on the cathode lifting frame 227, the cathode lifting sliding seat 226 is slidably arranged on the cathode lifting sliding rail 225, the cathode lifting screw rod 223 is rotatably arranged on the cathode lifting frame 227, the cathode lifting nut 224 is spirally arranged on the cathode lifting screw rod 223, the cathode lifting nut 224 is fixed with the cathode lifting mounting seat, and the cathode lifting mounting plate 222 is used for mounting the cathode moving assembly 23. When lifting is needed, the cathode lifting motor 221 drives the cathode lifting screw rod 223 to rotate, the cathode lifting screw rod 223 drives the cathode lifting nut 224 to lift, the cathode lifting nut 224 lifts and drives the cathode lifting mounting plate 222, and the cathode lifting mounting plate 222 drives the cathode moving assembly 23 and the cathode head 21 to lift.

The cathode moving assembly 23 comprises a cathode cylinder 231, a cathode moving mounting seat 232 and a cathode mounting plate 233, the cathode moving mounting seat 232 is fixed on the cathode lifting mounting plate 222, the cathode cylinder 231 is mounted on the cathode moving mounting seat 232, an output end of the cathode cylinder 231 passes through the cathode moving mounting seat 232 to be connected with the cathode mounting plate 233, and the cathode head 21 is mounted on the cathode mounting plate 233. When welding is needed, the cathode cylinder 231 drives the cathode mounting plate 233, and the cathode mounting plate 233 drives the cathode head 21 to move to be abutted with the hydraulic torque converter 8.

Before welding, the feeding equipment places the hydraulic torque converter 8 on the tooling disc 3, then the pushing mechanism 6 drives the tooling disc 3 to a welding position, then the pressing mechanism 7 presses the hydraulic tooling disc 3, then the rotary adjusting mechanism 4 drives the hydraulic torque converter 8 to rotate to the welding position, then the cathode lifting mechanism drives the cathode head 21 to descend to be flush with the hydraulic torque converter 8, meanwhile, the angle adjusting device 13 adjusts the position of the anode head 111, after the cathode head 21 and the anode head 111 are adjusted to be in place, the cathode head 21 is attached to the hydraulic torque converter 8 by utilizing the cathode moving assembly 23, and the anode cylinder 112 pushes the anode head 111 to attach to the hydraulic torque converter 8 so as to weld the balance weight.

After the welding is finished, the hydraulic torque converter 8 is loosened by the pressing mechanism 7, the anode head 111 and the cathode head 21 are separated from the hydraulic torque converter 8, then the cathode head 21 is driven by the cathode lifting mechanism to ascend, the tooling disc 3 is pushed out by the pushing mechanism 6, and the tooling disc 3 is positioned outside the welding cathode mechanism 2 and the welding anode mechanism 1, so that the hydraulic torque converter 8 can be conveniently placed on the tooling disc 3 by using mechanical equipment, or the hydraulic torque converter 8 is taken down from the tooling disc 3, the hydraulic torque converter 8 can be mechanically matched, and the manual placement and the taking of the hydraulic torque converter 8 are not required.

The foregoing is only the embodiments of the present utility model, and therefore, the patent scope of the utility model is not limited thereto, and all equivalent structures made by the description of the utility model and the accompanying drawings are directly or indirectly applied to other related technical fields, which are all within the scope of the utility model.

Claims (10)

1. A torque converter welding apparatus, characterized by: the hydraulic torque converter comprises a welding anode mechanism, a welding cathode mechanism, a rotary adjusting mechanism, a tooling disc, a height adjusting mechanism, a pushing mechanism and a compressing mechanism, wherein the tooling disc is used for placing the hydraulic torque converter, the tooling disc is arranged on the rotary adjusting mechanism, the rotary adjusting mechanism is used for driving the tooling disc to rotate, the compressing mechanism is used for compressing the hydraulic torque converter on the tooling disc, the rotary adjusting mechanism is arranged on the pushing mechanism, and the pushing mechanism is used for driving the tooling disc and the rotary adjusting mechanism to move in the horizontal direction; the welding cathode mechanism comprises a cathode head, a cathode lifting assembly and a cathode moving assembly, wherein the cathode welding assembly is arranged on the cathode moving assembly, and the cathode moving assembly is arranged on the cathode lifting assembly.

2. The torque converter welding apparatus of claim 1, wherein: the cathode lifting assembly comprises a cathode lifting motor, a cathode lifting mounting plate, a cathode lifting screw rod, a cathode lifting nut, a cathode lifting sliding rail, a cathode lifting sliding seat and a cathode lifting frame, wherein the cathode lifting sliding rail and the cathode lifting motor are all installed on the cathode lifting frame, the cathode lifting sliding seat is slidably arranged on the cathode lifting sliding rail, the cathode lifting screw rod is rotatably arranged on the cathode lifting frame, the cathode lifting nut is spirally arranged on the cathode lifting screw rod, the cathode lifting nut is fixed with the cathode lifting mounting seat, and the cathode lifting mounting plate is used for installing the cathode moving assembly.

3. The torque converter welding apparatus of claim 1, wherein: the cathode moving assembly comprises a cathode cylinder, a cathode moving mounting seat and a cathode mounting plate, wherein the cathode moving mounting seat is fixed on the cathode lifting mounting plate, the cathode cylinder is mounted on the cathode moving mounting seat, the output end of the cathode cylinder penetrates through the cathode moving mounting seat to be connected with the cathode mounting plate, and the cathode head is mounted on the cathode mounting plate.

4. The torque converter welding apparatus of claim 1, wherein: the rotary adjusting mechanism comprises a rotary shaft, a shaft barrel, a rotary motor and a rotary mounting seat, wherein the shaft barrel is mounted on the rotary mounting seat, the rotary motor is mounted on the shaft barrel, the rotary shaft is connected with an output shaft of the rotary motor through a coupler, the rotary shaft is mounted on the shaft barrel through a bearing, and the tool disc is fixed with the rotary shaft.

5. The torque converter welding apparatus of claim 4, wherein: the rotary adjusting mechanism further comprises a mounting column and two rotary mounting plates, the two rotary mounting plates are connected through the mounting column, one rotary mounting plate is fixed on the shaft cylinder, and the other rotary mounting plate is used for mounting a rotary motor.

6. The torque converter welding apparatus of claim 1, wherein: the pushing mechanism comprises a pushing motor, a pushing base, a pushing screw rod and a pushing nut, the pushing motor is arranged on the pushing base, the pushing screw rod is rotatably arranged on the pushing base, the pushing screw rod is connected with an output shaft of the pushing motor, and the pushing nut is screwed on the pushing screw rod.

7. The torque converter welding apparatus of claim 1, wherein: the compressing mechanism comprises a compressing block, a compressing mounting plate, a compressing cylinder and a compressing frame, wherein the compressing cylinder is arranged on the compressing frame, the compressing mounting plate is arranged on the compressing cylinder, the compressing cylinder is used for driving the compressing mounting plate, and the compressing block is arranged on the compressing mounting plate.

8. The torque converter welding apparatus of claim 7, wherein: the compressing installation plate is provided with a connecting cylinder, and the compressing block is installed on the connecting cylinder through a bearing.

9. The torque converter welding apparatus of claim 1, wherein: the welding anode mechanism comprises a welding anode assembly, an anode unloading assembly and an angle adjusting device, wherein the welding anode assembly and the anode unloading assembly are both arranged on the angle adjusting device.

10. The torque converter welding apparatus of claim 1, wherein: the device also comprises a height adjusting mechanism, wherein the height adjusting mechanism is arranged on the pushing mechanism, and the rotation adjusting mechanism is arranged on the height adjusting mechanism.