CN217571547U - Manual welding overturning platform - Google Patents

Abstract

The utility model provides a manual welding turnover platform, which comprises a bracket, a bedplate, an operating platform, a driving assembly and a lock shaft assembly; wherein, the bedplate is rotationally connected with the bracket, two groups of supporting seats are arranged on the bedplate, and semi-arc shaft grooves are respectively arranged on the two groups of supporting seats; two ends of the operating platform are respectively provided with a connecting shaft, and the operating platform is provided with an initial state that the two connecting shafts are respectively and correspondingly embedded into the two groups of semi-arc shaft grooves and an inclined state that one end of the operating platform is turned upwards; the driving assembly is arranged on the bedplate and used for driving the operating platform to overturn; the lock shaft assembly can simultaneously lock the two connecting shafts in the corresponding semi-arc shaft grooves respectively in the initial state, and can also independently lock one of the connecting shafts in the corresponding semi-arc shaft groove in the inclined state. The utility model provides a pair of manual welding upset platform can adjust the part of treating welding that fixes on the operation panel for arbitrary angle carries out manual welding to improve welding efficiency and quality.

Description

Manual welding overturning platform

Technical Field

The utility model belongs to the technical field of the welding, concretely relates to manual welding upset platform.

Background

When welding, need to treat to weld the part and fix manual welding to the operation panel on some meticulous spare parts, because part structure is diversified, the welding position is unset, need adapt to the welding demand through the fixed angle of adjustment part in welding process, because the welding platform who uses always at present can only carry out the horizontal upset of operation panel, and can't adjust to the best operating angle through the horizontal upset simply to some welding angle day bored part, consequently current welding platform can't satisfy the welded demand, thereby welding efficiency and welding quality's improvement has been restricted.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides a manual welding upset platform aims at improving manual welding efficiency and welding quality.

In order to achieve the purpose, the utility model adopts the technical proposal that: the manual welding turnover platform comprises a support, a bedplate, an operating platform, a driving assembly and a lock shaft assembly; the two ends of the bedplate are respectively provided with a rotating shaft which extends along the horizontal direction and is coaxial, the two rotating shafts are respectively connected with the bracket in a rotating way, two groups of supporting seats are arranged on the bedplate at intervals along the axial direction of the rotating shafts, and the two groups of supporting seats are respectively provided with a semi-arc shaft groove which extends along the radial direction of the rotating shafts and is parallel to the bedplate; the operation table is arranged above the bedplate and used for fixing parts to be welded, connecting shafts are arranged at two ends of the operation table respectively, the operation table is provided with an initial state that the two connecting shafts are respectively and correspondingly embedded into the two groups of semi-arc shaft grooves, and the operation table is also provided with an inclined state that the connecting shaft at one end is embedded into the corresponding semi-arc shaft groove and the other end is upwards overturned to the state that the connecting shaft at the end is separated from the corresponding semi-arc shaft groove; the driving assembly is arranged on the bedplate and positioned between the two groups of supporting seats, and the output end of the driving assembly is connected with the middle part of the operating platform and used for driving the operating platform to overturn; the lock shaft assembly is respectively connected with the two groups of supporting seats, so that the two connecting shafts can be respectively locked in corresponding semi-arc shaft grooves in the initial state, and one of the connecting shafts can be independently locked in the corresponding semi-arc shaft grooves in the inclined state.

In a possible implementation mode, two sets of supporting seats respectively include two supporting blocks which are distributed on the bedplate along the radial interval of the rotating shaft, semi-arc-shaped shaft grooves are formed in the two supporting blocks, and when the supporting blocks are in an initial state, two ends of each connecting shaft are correspondingly embedded in the corresponding two semi-arc-shaped shaft grooves.

In some embodiments, the lock shaft assembly comprises a fixed seat and a sliding frame; wherein, the fixed seat is arranged on the bedplate and positioned between the two groups of supporting seats; the sliding frame is connected to the fixed seat in an axial sliding mode along the rotating shaft, locking plates corresponding to the two corresponding supporting block positions are arranged at the two ends of the sliding frame respectively, the sliding frame slides to the locking plates and is respectively corresponding to and separated from the upper portion of the corresponding semi-arc-shaped shaft groove when in an initial state, and the sliding frame slides to the two locking plates at one end of the sliding frame and is respectively separated from the upper portion of the corresponding semi-arc-shaped shaft groove and the two locking plates at the other end of the sliding frame to respectively avoid the side portions of the corresponding semi-arc-shaped shaft groove when in an inclined state.

Illustratively, the supporting block is provided with a convex part on the side of the semi-arc shaft groove, and the locking plate slides along the axial direction of the rotating shaft and penetrates through the convex part.

For example, the fixing base includes two fixing sleeves disposed at intervals and extending along the axial direction of the rotating shaft, and the sliding frame is provided with two sliding rods respectively slidably penetrating through the two fixing sleeves.

Further, set up the rectangular hole of following its axial extension on the lateral wall of fixed cover, be equipped with the action bars that is used for driving the frame that slides on the lateral wall of slide bar, the action bars passes the rectangular hole and stretches out outside fixed cover, when the action bars is located the intermediate position in rectangular hole, each lock plate corresponds respectively and keeps off in corresponding semi-arc axle groove top, when the one end butt in action bars and rectangular hole, two lock plates that are located slide frame one end keep off in corresponding semi-arc axle groove top, two lock plates of the other end dodge to the side in corresponding semi-arc axle groove.

In one possible implementation manner, the driving assembly comprises a first motor, a lead screw, a sliding seat and a connecting rod, wherein the first motor is fixedly connected to the bedplate; the screw rod is rotationally connected to the bedplate and extends along the axial direction of the rotating shaft, and one end of the screw rod is connected with the output end of the first motor; the sliding seat is provided with a screw hole which is suitable for being screwed on the screw rod; one end of the connecting rod is hinged with the sliding seat, and the other end of the connecting rod is hinged with the middle part of the operating platform.

In some embodiments, the end of the screw rod, which is far away from the first motor, is rotatably connected with a limiting plate, and the limiting plate is fixedly connected with the bedplate.

Exemplarily, the support is provided with the backup pad respectively in the both ends outside of platen on the support, is equipped with convex spout respectively on the relative both sides face of two backup pads, is equipped with two sliders respectively on the both ends wall of platen, and two sliders symmetric distribution are in the both sides of pivot, and the cunning is inlayed in the spout.

For example, the bracket is provided with a second motor, an output shaft of the second motor is sleeved with a driving gear, one rotating shaft is sleeved with a driven gear, and the driven gear is meshed with the driving gear.

The utility model provides a pair of manual welding upset platform's beneficial effect lies in: compared with the prior art, the utility model relates to a manual welding upset platform, the level upset regulation that utilizes the rotation of platen to realize the operation panel, the operation panel can also be when the connecting axle of its arbitrary one end of lock axle subassembly individual locking simultaneously, make its other end lift up for the face of platen the tilt state under drive assembly's drive, thereby make the operation panel have horizontal upset and luffing motion's regulation degree of freedom concurrently, can will fix treating on the operation panel that the part is adjusted wantonly, thereby the welding position that the part was treated to the messenger is suitable for and carries out welding operation, not only can improve manual welding efficiency, still be favorable to improving welding quality.

Drawings

Fig. 1 is a schematic perspective view of a manual welding turnover platform according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of a manual welding turnover platform (with the protective cover removed) according to an embodiment of the present invention;

FIG. 3 is a schematic view of a portion of the enlarged structure at A in FIG. 2;

fig. 4 is a schematic view of an assembly structure of a bedplate and an operation table according to an embodiment of the present invention.

In the figure: 10. a support; 11. a support plate; 111. a chute; 20. a platen; 21. a rotating shaft; 211. a driven gear; 22. a supporting seat; 221. a semi-arc shaped axial slot; 222. a boss portion; 23. a slider; 24. a protective cover; 30. an operation table; 31. a connecting shaft; 40. a drive assembly; 41. a first motor; 42. a lead screw; 43. a slide base; 44. a connecting rod; 45. a limiting plate; 50. a lock shaft assembly; 51. fixing a sleeve; 511. a strip hole; 52. a sliding frame; 521. a lock plate; 522. a slide bar; 523. an operating lever; 60. a second motor; 61. the gear is driven.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, fig. 2 and fig. 4, a manual welding turnover platform according to the present invention will now be described. The manual welding turnover platform comprises a support 10, a bedplate 20, an operating platform 30, a driving assembly 40 and a lock shaft assembly 50; wherein, both ends of the bedplate 20 are respectively provided with a rotating shaft 21 which extends along the horizontal direction and is coaxial, the two rotating shafts 21 are respectively connected with the bracket 10 in a rotating way, two groups of supporting seats 22 are arranged on the bedplate 20 at intervals along the axial direction of the rotating shaft 21, and the two groups of supporting seats 22 are respectively provided with a semi-arc shaft groove 221 which extends along the radial direction of the rotating shaft 21 and is parallel to the bedplate 20; the operation table 30 is arranged above the bedplate 20 and used for fixing the parts to be welded, connecting shafts 31 are respectively arranged at two ends of the operation table 30, the operation table 30 is provided with an initial state that the two connecting shafts 31 are respectively and correspondingly embedded into the two groups of semi-arc shaft grooves 221, and is also provided with an inclined state that the connecting shaft 31 at one end is embedded into the corresponding semi-arc shaft groove 221, and the other end is turned upwards to separate the connecting shaft 31 at the end from the corresponding semi-arc shaft groove 221; the driving assembly 40 is arranged on the bedplate 20 and positioned between the two groups of supporting seats 22, and the output end of the driving assembly is connected with the middle part of the operating platform 30 and used for driving the operating platform 30 to overturn; the locking shaft assembly 50 is connected with the two sets of supporting seats 22 respectively, and can lock the two connecting shafts 31 in the corresponding semi-arc shaft grooves 221 at the same time in an initial state, and can lock one of the connecting shafts 31 in the corresponding semi-arc shaft groove 221 in an inclined state.

It should be noted that, in this embodiment, in the initial state, both the connecting shafts 31 are inserted into the corresponding semi-arc-shaped shaft grooves 221, and after being locked by the locking shaft assembly 50, it is equivalent to that a fixed connection is formed to the operation table 30, at this time, the operation table 30 cannot move relative to the table plate 20, and when the locking shaft assembly 50 only locks the semi-arc-shaped shaft grooves 221 on one set of the support seats 22, at this time, the locked connecting shaft 31 cannot move in the semi-arc-shaped shaft grooves 221, but can rotate relative to the semi-arc-shaped shaft grooves 221, that is, there is a rotational freedom between the connecting shaft 31 and the semi-arc-shaped shaft grooves 221, while the other connecting shaft 31 that is not locked by the locking shaft assembly 50 can be released from the notch of the semi-arc-shaped shaft grooves 221, which is equivalent to a floating end, so that the operation table 30 has a swinging freedom relative to the table plate 20, of course, it should be understood that the operation table 30 can be floated at its first end or the second end opposite to the connecting shaft groove 31 can be locked by the locking shaft assembly 50 according to the actual adjustment requirement.

The use mode of the manual welding turnover platform provided by the embodiment is as follows: the method comprises the steps of fixing a part to be welded on an operation table 30, wherein a tool for fixing the part to be welded, such as a limiting groove and a hole, or a clamp capable of sliding and clamping, is usually arranged on the operation table 30, and after the fixing is finished, the angle of the operation table 30 is adjusted according to the welding position of the part to be welded, so that the welding position is at the most comfortable operation angle of an operator, specifically, the two connecting shafts 31 can be simultaneously locked by a locking shaft assembly 50, the table plate 20 is rotated when the operation table 30 is in an initial state parallel to the table plate 20, or the connecting shaft 31 at one end of the operation table 30 can be independently locked by the locking shaft assembly 50, and the other end of the operation table 30 is driven by a driving assembly 40 to swing up and down to adjust the inclination angle of the operation table 30.

Compared with the prior art, the manual welding turnover platform provided by the embodiment can realize horizontal turnover adjustment of the operation table 30 by utilizing rotation of the table plate 20, and meanwhile, when the lock shaft assembly 50 independently locks the connecting shaft 31 at any end of the lock shaft assembly 50, the operation table 30 can be driven by the driving assembly 40 to lift the other end of the lock shaft assembly into an inclined state relative to the plate surface of the table plate 20, so that the operation table 30 has adjustment freedom degrees of horizontal turnover and vertical swing, parts to be welded fixed on the operation table 30 can be randomly adjusted, the welding position of the parts to be welded is suitable for welding operation, the manual welding efficiency can be improved, and the welding quality can be improved.

In some embodiments, referring to fig. 4, the two sets of supporting seats 22 each include two supporting blocks spaced apart from each other along the radial direction of the rotating shaft 21 on the bedplate 20, the two supporting blocks are each provided with a semi-arc-shaped shaft groove 221, and in an initial state, both ends of each connecting shaft 31 are engaged in the corresponding two semi-arc-shaped shaft grooves 221. The connecting shaft 31 may specifically be a shaft body that penetrates through the operating platform 30 and has two ends extending to two sides of the operating platform 30, and the connecting shaft is connected to two ends of the connecting shaft 31 through two supporting blocks, so that the connecting stability of the operating platform 30 can be improved.

As a specific embodiment of the above-mentioned lock shaft assembly 50, please refer to fig. 4, the lock shaft assembly 50 includes a fixed seat and a sliding frame 52; wherein, the fixed seat is arranged on the bedplate 20 and is positioned between the two groups of supporting seats 22; the sliding frame 52 is slidably connected to the fixed base along the axial direction of the rotating shaft 21, two ends of the sliding frame 52 are respectively provided with a locking plate 521 corresponding to the two corresponding supporting blocks, in an initial state, the sliding frame 52 slides to each locking plate 521 and is respectively and correspondingly spaced above the corresponding semi-arc shaft groove 221, in an inclined state, the sliding frame 52 slides to two locking plates 521 at one end and is respectively spaced above the corresponding semi-arc shaft groove 221, and the two locking plates 521 at the other end are respectively avoided to the side of the corresponding semi-arc shaft groove 221.

It should be understood that the locking plate 521 is a bar-shaped structure extending along the axial direction of the rotating shaft 21, the locking plate 521 may be located outside the two sets of supporting seats 22, or may be located between the two sets of supporting seats 22, the locking plate 521 is simultaneously blocked on the semi-arc-shaped shaft grooves 221 on the two sets of supporting members by the sliding and sliding frame 52, or is separately blocked on the semi-arc-shaped shaft groove 221 on one set of supporting member, the blocking effect of the locking plate 521 is utilized to prevent the connecting shaft 31 from being separated from the blocked semi-arc-shaped shaft groove 221, it can be seen that the locking state of the two connecting shafts 31 can be switched by the sliding and sliding frame 52, so that the operating console 30 can be flexibly switched between the initial state and the two inclined states (two ends swing upwards to respectively present two inclined states), so as to meet various angle adjustment requirements of the parts to be welded, and the practicability is strong.

In the present embodiment, referring to fig. 4, a protrusion 222 is disposed on the supporting block at a side of the semi-arc-shaped shaft groove 221, and the locking plate 521 is slidably disposed in the protrusion 222 along the axial direction of the rotating shaft 21. Through sliding the locking plate 521 to penetrate through the boss 222, on one hand, the stability of the locking state of the locking plate 521 can be improved by the supporting function of the boss 222, and on the other hand, the locking plate 521 can be retracted into the boss 222 when avoiding the semi-arc-shaped shaft groove 221, so that the connecting shaft 31 can be smoothly released from the opened semi-arc-shaped shaft groove 221.

In some embodiments, referring to fig. 4, the fixing base includes two fixing sleeves 51 spaced apart from each other and extending along the axial direction of the rotating shaft 21, and the sliding frame 52 is provided with two sliding rods 522 slidably penetrating through the two fixing sleeves 51. The sliding connection between the sliding frame 52 and the fixed seat is realized by adopting a mode that two sliding rods 522 are arranged in two fixed sleeves 51 arranged at intervals in a penetrating manner, the connection reliability is good, and the sliding is stable.

Specifically, the side wall of the fixed sleeve 51 is provided with a long hole 511 extending along the axial direction, the side wall of the sliding rod 522 is provided with an operating rod 523 used for driving the sliding frame 52, the operating rod 523 penetrates through the long hole 511 and extends out of the fixed sleeve 51, when the operating rod 523 is located at the middle position of the long hole 511, each locking plate 521 is correspondingly blocked above the corresponding semi-arc shaft groove 221, when the operating rod 523 is abutted against one end of the long hole 511, two locking plates 521 located at one end of the sliding frame 52 are blocked above the corresponding semi-arc shaft groove 221, and two locking plates 521 at the other end are avoided to the side of the corresponding semi-arc shaft groove 221. The sliding frame 52 can be pushed to slide on the fixing seat by holding the operating rod 523, so that the locking state of the locking shaft assembly 50 to the connecting shaft 31 is switched, meanwhile, the strip hole 511 can also play a role in limiting the sliding limit position, and it is ensured that when the operating platform 30 needs to be switched to an inclined state, an operator can accurately and conveniently slide the sliding frame 52 to a position where only one corresponding connecting shaft 31 is locked, and the operating efficiency and the locking reliability of the locking shaft assembly 50 to the connecting shaft 31 are improved.

In some possible implementations, referring to fig. 4, the driving assembly 40 includes a first motor 41, a lead screw 42, a sliding seat 43, and a connecting rod 44, wherein the first motor 41 is fixedly connected to the platen 20; the screw rod 42 is rotatably connected to the platen 20 and extends along the axial direction of the rotating shaft 21, and one end of the screw rod 42 is connected with the output end of the first motor 41; the slide 43 is provided with a screw hole adapted to be screwed on the screw rod 42; one end of the link 44 is hinged to the slide 43 and the other end is hinged to the middle of the console 30. The first motor 41 drives the lead screw 42 to rotate, so that the slide seat 43 is driven to move on the lead screw 42 by utilizing the matching relation between the lead screw 42 and the screw hole, and the displacement of the slide seat 43 causes the connecting rod 44 to push the floating end of the operating platform 30 to swing up and down, so that the structure is simple, and the action is stable and reliable.

In the embodiment, in order to improve the connection stability of the lead screw 42, and simultaneously limit the limit position of the movement of the slide carriage 43 on the lead screw 42, and avoid the slide carriage 43 from slipping, one end of the lead screw 42 far away from the first motor 41 is rotatably connected with a limit plate 45, and the limit plate 45 is fixedly connected with the platen 20.

In some embodiments, referring to fig. 2 and fig. 3, the support 10 is provided with support plates 11 respectively at outer sides of two ends of the platen 20, two opposite side plate surfaces of the two support plates 11 are provided with arc-shaped sliding grooves 111 respectively, two end walls of the platen 20 are provided with two sliding blocks 23 respectively, and the two sliding blocks 23 are symmetrically distributed at two sides of the rotating shaft 21 and are slidably embedded in the sliding grooves 111. The sliding embedding structure of the sliding block 23 and the sliding groove 111 is arranged, so that the connection stability and the overturning stability of the bedplate 20 can be improved.

In this embodiment, the second motor 60 is disposed on the bracket 10, a driving gear 61 is sleeved on an output shaft of the second motor 60, a driven gear 211 is sleeved on one of the rotating shafts 21, and the driven gear 211 is engaged with the driving gear 61. The second motor 60 drives the driving gear 61 to rotate, and further drives the driven gear 211 to rotate together with the rotating shaft 21, so that the bedplate 20 is turned over, and the driving mode is stable and reliable.

In addition, it should be noted that in some embodiments, as shown in fig. 1, the table plate 20 is provided with a protective cover 24 covering the periphery of the operation table 30, and the bottom of the support 10 is provided with a leveler. The protective cover 24 can prevent a human body from being injured by clamping in the overturning process of the operating table 30, and the leveling device can level the support 10, so that the support stability is improved.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A manual welding upset platform which characterized in that includes:

a support;

the two ends of the bedplate are respectively provided with a rotating shaft which extends along the horizontal direction and is coaxial, the two rotating shafts are respectively and rotatably connected with the bracket, two groups of supporting seats are arranged on the bedplate at intervals along the axial direction of the rotating shaft, and semi-arc shaft grooves which extend along the radial direction of the rotating shaft and are parallel to the bedplate are respectively arranged on the two groups of supporting seats;

the operation table is arranged above the bedplate and used for fixing parts to be welded, connecting shafts are arranged at two ends of the operation table respectively, the operation table is provided with an initial state that the two connecting shafts are respectively and correspondingly embedded into the two groups of semi-arc-shaped shaft grooves, the operation table is also provided with an inclined state that the connecting shaft at one end is embedded into the corresponding semi-arc-shaped shaft groove, and the other end is upwards overturned to the state that the connecting shaft at the end is separated from the corresponding semi-arc-shaped shaft groove;

the driving assembly is arranged on the bedplate and positioned between the two groups of supporting seats, and the output end of the driving assembly is connected with the middle part of the operating platform and used for driving the operating platform to overturn;

the locking shaft assembly is connected with the two groups of supporting seats respectively, the two connecting shafts can be locked in the corresponding semi-arc-shaped shaft grooves respectively at the initial state, and one of the connecting shafts can be locked in the corresponding semi-arc-shaped shaft grooves independently at the inclined state.

2. The manual welding turnover platform of claim 1, wherein each of the two sets of support blocks includes two support blocks spaced apart from each other in a radial direction of the rotation shaft, the two support blocks each having the semi-arc-shaped shaft groove, and in the initial state, both ends of each of the connecting shafts are engaged with the two corresponding semi-arc-shaped shaft grooves.

3. The manual welding flipping platform of claim 2, wherein the lock shaft assembly comprises:

the fixed seat is arranged on the bedplate and is positioned between the two groups of the supporting seats;

the sliding frame is connected to the fixed seat in a sliding mode along the axial direction of the rotating shaft, locking plates corresponding to the positions of the corresponding two supporting blocks are arranged at two ends of the sliding frame respectively, the sliding frame slides to the locking plates and is correspondingly and correspondingly separated and blocked above the semi-arc-shaped shaft grooves in the initial state, and the sliding frame slides to the two locking plates at one end of the sliding frame and is respectively separated and blocked above the corresponding semi-arc-shaped shaft grooves in the inclined state, and the two locking plates at the other end of the sliding frame are respectively avoided to the side of the corresponding semi-arc-shaped shaft grooves.

4. The manual welding overturning platform of claim 3, wherein the supporting block is provided with a protruding portion at a side of the semi-arc-shaped shaft groove, and the locking plate is slidably arranged in the protruding portion along the axial direction of the rotating shaft.

5. A manual welding turnover platform as claimed in claim 3, wherein said fixing base includes two fixing sleeves spaced apart from each other and extending in the axial direction of said rotating shaft, and said sliding frame is provided with two sliding rods slidably inserted into said two fixing sleeves respectively.

6. The manual welding turnover platform of claim 5, wherein the side wall of the fixed sleeve is formed with a long hole extending along the axial direction thereof, the side wall of the slide rod is provided with an operating rod for driving the sliding frame, the operating rod passes through the long hole and extends out of the fixed sleeve, when the operating rod is located at the middle position of the long hole, each of the locking plates is correspondingly blocked above the corresponding semi-arc-shaped shaft groove, when the operating rod abuts against one end of the long hole, two of the locking plates at one end of the sliding frame are blocked above the corresponding semi-arc-shaped shaft groove, and two of the locking plates at the other end are avoided to the side of the corresponding semi-arc-shaped shaft groove.

7. The manual welding flipping platform of claim 1, wherein the drive assembly comprises:

the first motor is fixedly connected to the bedplate;

the screw rod is rotationally connected to the bedplate and extends along the axial direction of the rotating shaft, and one end of the screw rod is connected with the output end of the first motor;

the sliding seat is provided with a screw hole which is suitable for being screwed on the screw rod;

and one end of the connecting rod is hinged with the sliding seat, and the other end of the connecting rod is hinged with the middle part of the operating platform.

8. The manual welding turnover platform of claim 7, wherein a limiting plate is rotatably connected to an end of the screw shaft remote from the first motor, and the limiting plate is fixedly connected to the platen.

9. The manual welding turnover platform of claim 1, wherein the support is provided with support plates at the outer sides of the two ends of the platform plate, the two opposite side plate surfaces of the two support plates are respectively provided with arc-shaped sliding grooves, the two end walls of the platform plate are respectively provided with two sliding blocks, and the two sliding blocks are symmetrically distributed at the two sides of the rotating shaft and are slidably embedded in the sliding grooves.

10. The manual welding overturning platform of any one of claims 1-9, wherein a second motor is arranged on the bracket, a driving gear is sleeved on an output shaft of the second motor, a driven gear is sleeved on one of the rotating shafts, and the driven gear is meshed with the driving gear.

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