CN215880440U - Wind power welding workstation - Google Patents

Abstract

The utility model discloses a wind power welding workstation, which comprises a supporting seat, a welding assembly and a clamping assembly, wherein the welding assembly is positioned on the supporting seat; its characterized in that still includes at least a set of upset subassembly, the upset subassembly is including being located driving piece on the centre gripping subassembly is located the connecting block of driving piece output sets up transmission shaft on the connecting block, with sector gear that the transmission shaft is connected, with sector gear meshing's driven gear is located transmission portion on the driven gear, and set up be equipped with the clamping part in this device of clamping part on the transmission portion, the clamping part can overturn the work piece, then welding set accomplishes the girth welding work to a tower section of thick bamboo, and then for traditional manual regulation, the work efficiency of this device is higher, and can reduce the cost of labor.

Description

Wind power welding workstation

Technical Field

The utility model belongs to the technical field of welding devices, and particularly relates to a wind power welding workstation.

Background

In industrial production processing field, need mould processing to some wind power tower section of thick bamboo, and carry out the most commonly used welding exactly when processing work to wind power tower section of thick bamboo, welding through the welding set who sets up, and then can accomplish the girth welding work to wind power tower section of thick bamboo.

However, the existing welding device still has some problems when performing welding work, and in order to complete girth welding work on the wind power tower, the existing welding device further fixes a workpiece in a predetermined area, and then makes the welding device reciprocate in the circumferential direction of the workpiece, so as to complete girth welding work on the workpiece.

Therefore, how to complete the girth welding work of the wind power tower is a problem to be solved at present.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model provides a wind-powered electricity generation weldment work station to solve the above-mentioned problem that prior art exists.

The technical scheme is as follows: a wind power welding workstation, comprising:

the welding device comprises a supporting seat, a welding assembly and a clamping assembly, wherein the welding assembly is positioned on the supporting seat;

the overturning device is characterized by further comprising at least one group of overturning components, wherein each overturning component comprises a driving part positioned on the clamping component, a connecting block positioned at the output end of the driving part, a transmission shaft arranged on the connecting block, a sector gear connected with the transmission shaft, a driven gear meshed with the sector gear, a transmission part positioned on the driven gear and a clamping part arranged on the transmission part; the clamping part is provided with a groove.

In a further embodiment, the clamping assembly comprises a bracket fixedly mounted on the supporting seat, a group of driving motors arranged on the bracket, a connecting piece positioned at the output end of the driving motors, and a transmission rod arranged on the connecting piece; the driving piece is positioned on the transmission rod, so that the workpiece position can be prevented from deviating in the welding process, and the welding precision of the device can be improved.

In a further embodiment, an arc-shaped through groove is further formed in the transmission rod; the transmission shaft penetrates through the through groove, so that the transmission shaft is limited, and smooth operation of the device is guaranteed.

In a further embodiment, the clamping assembly further comprises adjusting slide rails symmetrically mounted on the bracket, and adjusting sliders positioned on the connecting pieces; the adjusting slide block is positioned on the adjusting slide rail, so that the smooth operation of clamping work is ensured.

In a further embodiment, the welding assembly comprises an adjusting motor arranged on the supporting seat, a sliding part located at the output end of the adjusting motor, and a welding device located on the sliding part, the height and the position of the welding device can be adjusted according to actual requirements, collision between the welding device and a workpiece is further avoided, and the purpose of protecting the welding device is achieved.

In a further embodiment, the welding assembly further comprises a set of lifting slide rails arranged on the supporting seat, and a lifting slide block arranged on the sliding part; the lifting slide block is positioned on the lifting slide rail, so that the smooth operation of lifting work is ensured.

Has the advantages that: the utility model relates to a wind power welding workstation, which is characterized in that in order to complete girth welding work of a wind power tower, a turnover assembly is further arranged in the device, when a clamping assembly finishes clamping work on a workpiece, the welding assembly welds one surface of the workpiece, when a welding device is required to weld the other surface of the workpiece, a driving piece starts working, the moving driving piece can drive a connecting piece to start moving, the moving connecting piece can drive a transmission shaft to move in a through groove, the moving transmission shaft can drive a sector gear to start moving, the moving sector gear can drive a driven gear to start moving, the moving driven gear can drive a transmission part to start moving, the moving transmission part can drive a clamping part to start rotating, and the rotating clamping part can turn over the workpiece, then welding set accomplishes the girth welding work to the tower section of thick bamboo, and then for traditional manual regulation, the work efficiency of this device is higher, and can reduce the cost of labor, and the welding set position in this device is relatively fixed simultaneously, and through rotating the work piece, and then accomplishes the girth welding work to the work piece.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a perspective view of the flip assembly of the present invention.

FIG. 3 is a schematic view of a clamping assembly of the present invention.

FIG. 4 is a schematic view of a welded assembly according to the present invention.

The figures are numbered: the device comprises a supporting seat 1, an overturning component 2, a clamping component 3, a welding component 4, a driving component 21, a connecting block 22, a transmission shaft 23, a sector gear 24, a driven gear 25, a transmission part 26, a clamping part 27, a driving motor 31, a connecting piece 32, a transmission rod 33, an adjusting slide rail 34, an adjusting slide block 35, a bracket 36, an adjusting motor 41, a sliding part 42, a welding device 43, a lifting slide rail 44 and a lifting slide block 45.

Detailed Description

Through research and analysis of the applicant, the reason for the problem (collision between the welding device and other equipment, which easily causes damage of the welding device, which further causes failure of welding work) is that the existing welding device can fix a workpiece in a set area in order to complete girth welding work on a wind power tower, and then the welding device reciprocates in the circumferential direction of the workpiece, which further can complete girth welding work on the workpiece, but the method needs to continuously adjust the position of the welding device, which further causes collision between the welding device and other equipment, which further easily causes damage of the welding device, which further causes failure of welding work; the utility model is used for completing the girth welding work of a wind power tower cylinder, and further the device is provided with a turnover component, and further after the clamping component completes the clamping work of a workpiece, the welding component performs the welding work of one surface of the workpiece, when the welding device is required to perform the welding work of the other surface of the workpiece, the driving component starts to work, and further the moving driving component can drive the connecting block to start moving, and further the moving connecting block can drive the transmission shaft to move in the through groove, and further the moving transmission shaft can drive the sector gear to start moving, and further the moving sector gear can drive the driven gear to start moving, and further the moving driven gear can drive the transmission part to start moving, and further the moving transmission part can drive the clamping part to start rotating, and further the rotating clamping part can turn over the workpiece, and then the welding device completes the girth welding work of the tower cylinder, and then for traditional manual regulation, the work efficiency of this device is higher, and can reduce the cost of labor.

A wind power welding workstation, comprising: the device comprises a supporting seat 1, an overturning component 2, a clamping component 3, a welding component 4, a driving component 21, a connecting block 22, a transmission shaft 23, a sector gear 24, a driven gear 25, a transmission part 26, a clamping part 27, a driving motor 31, a connecting piece 32, a transmission rod 33, an adjusting slide rail 34, an adjusting slide block 35, a bracket 36, an adjusting motor 41, a sliding part 42, a welding device 43, a lifting slide rail 44 and a lifting slide block 45.

In a further embodiment, the conventional welding device 43 fixes the workpiece in a predetermined region in order to complete the girth welding of the wind tower, and then reciprocates the welding device 43 in the circumferential direction of the workpiece to complete the girth welding of the workpiece, but this requires continuous adjustment of the position of the welding device 43, which may cause collision with other devices.

In order to solve the problems, the device is provided with a supporting seat 1, a welding assembly 4 positioned on the supporting seat 1 and a clamping assembly 3 arranged on the supporting seat 1; the workpiece turnover device further comprises at least one group of turnover assemblies 2, wherein each turnover assembly 2 comprises a driving piece 21 positioned on the clamping assembly 3, a connecting block 22 positioned at the output end of the driving piece 21, a transmission shaft 23 arranged on the connecting block 22, a sector gear 24 connected with the transmission shaft 23, a driven gear 25 meshed with the sector gear 24, a transmission part 26 positioned on the driven gear 25, and a clamping part 27 arranged on the transmission part 26, when the welding device 43 is required to weld another surface of a workpiece, the driving piece 21 starts to work at the moment, and then the moving driving piece 21 can drive the connecting block 22 to start moving, so that the moving connecting block 22 can drive the transmission shaft 23 to move in the through groove, and then the moving transmission shaft 23 can drive the sector gear 24 to start moving, and then the moving sector gear 24 can drive the driven gear 25 to start moving, and then the driven gear 25 of motion can drive the transmission portion 26 and begin to move, and then the transmission portion 26 of motion can drive clamping part 27 and begin to rotate, and then rotate clamping part 27 and can overturn the work piece, then welding set 43 accomplishes the girth welding work to the tower section of thick bamboo, and then for traditional manual regulation, the work efficiency of this device is higher, and can reduce the cost of labor.

The clamping assembly 3 comprises a bracket 36 fixedly mounted on the supporting seat 1, a group of driving motors 31 arranged on the bracket 36, a connecting piece 32 positioned at the output end of the driving motor 31, and a transmission rod 33 arranged on the connecting piece 32; the driving piece 21 is positioned on the transmission rod 33; when a workpiece needs to be clamped, the driving motor 31 starts to work at the moment, and then the moving driving motor 31 can drive the connecting piece 32 to start to work, and then the moving connecting piece 32 can drive the transmission rod 33 to start to move, because the clamping parts 27 are positioned on the transmission rod 33, the distance between the two clamping parts 27 can be adjusted, when the distance between the two clamping parts 27 reaches a preset value, an operator can place a part between the two clamping parts 27 at the moment, then the driving motor 31 continues to work, and then clamping work on the workpiece is completed, so that the workpiece can be prevented from being deviated in the welding process, and the welding precision of the device can be improved.

An arc-shaped through groove is further formed in the transmission rod 33; the transmission shaft 23 runs through the through groove, and through the through groove that sets up, and then the transmission shaft 23 moves in leading to the inslot, and then plays spacing work to the transmission shaft 23.

The clamping assembly 3 further comprises adjusting slide rails 34 symmetrically mounted on the bracket 36, and an adjusting slide block 35 positioned on the connecting piece 32; the adjusting slide block 35 is located on the adjusting slide rail 34, and the adjusting slide rail 34 and the adjusting slide block 35 are matched with each other for use, so that smooth operation of clamping work can be guaranteed.

In a further embodiment, because the thicknesses of the existing workpieces are different, and the positions of the existing welding devices 43 are mostly fixed, when a workpiece with a large size is welded, the welding devices 43 collide with the workpiece during the welding, and the welding devices 43 are damaged, and meanwhile, because the turnover assembly 2 is arranged in the device, when the workpiece is turned over, the workpiece during turnover collides with the welding devices 43 at fixed positions, and the welding devices 43 are damaged.

In order to solve the above problems, the device is provided with a welding assembly 4, wherein the welding assembly 4 comprises an adjusting motor 41 arranged on the supporting seat 1, a sliding part 42 positioned at the output end of the adjusting motor 41, and a welding device 43 positioned on the sliding part 42; the welding assembly 4 further comprises a set of lifting slide rails 44 arranged on the supporting seat 1, and a lifting slide block 45 arranged on the sliding part 42; the lifting slide block 45 is located on the lifting slide rail 44, and further when the position of the welding device 43 needs to be adjusted, the adjusting motor 41 starts to work at the moment, the moving adjusting motor 41 drives the sliding part 42 to start to move, and then the working sliding part 42 can drive the welding device 43 to start to move, so that the height and the position of the welding device 43 can be adjusted according to actual requirements, collision between the welding device 43 and a workpiece is avoided, and the purpose of protecting the welding device 43 is achieved.

Description of the working principle: when a workpiece needs to be clamped, the driving motor 31 starts to work at the moment, the moving driving motor 31 can drive the connecting piece 32 to start to work, the moving connecting piece 32 can drive the transmission rod 33 to start to move, the clamping parts 27 are positioned on the transmission rod 33, the distance between the two clamping parts 27 can be adjusted, when the distance between the two clamping parts 27 reaches a preset value, an operator can place a part between the two clamping parts 27 at the moment, then the driving motor 31 continues to work, the workpiece is clamped, the workpiece can be prevented from being deviated in the welding process, the welding precision of the device can be improved, and the welding device 43 can complete the welding work on one surface of the workpiece; when the welding device 43 is required to weld the other surface of the workpiece, at this time, the driving part 21 starts to work, the moving driving part 21 can drive the connecting block 22 to start to move, the moving connecting block 22 can drive the transmission shaft 23 to move in the through groove, the moving transmission shaft 23 can drive the sector gear 24 to start to move, the moving sector gear 24 can drive the driven gear 25 to start to move, the moving driven gear 25 can drive the transmission part 26 to start to move, the moving transmission part 26 can drive the clamping part 27 to start to rotate, the workpiece can be turned over by rotating the clamping part 27, then the welding device 43 completes girth welding work on the tower, and compared with the traditional manual adjustment, the device is higher in working efficiency and can reduce labor cost; when the position of the welding device 43 needs to be adjusted, the adjusting motor 41 starts to work, the moving adjusting motor 41 drives the sliding part 42 to start to move, and then the working sliding part 42 can drive the welding device 43 to start to move, so that the height and the position of the welding device 43 can be adjusted according to actual requirements, collision between the welding device 43 and a workpiece is avoided, and the purpose of protecting the welding device 43 is achieved.

As noted above, while the present invention has been shown and described with reference to certain preferred embodiments, it is not to be construed as limited thereto. Various changes in form and detail may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (6)

1. A wind power welding workstation, comprising:

the welding device comprises a supporting seat, a welding assembly and a clamping assembly, wherein the welding assembly is positioned on the supporting seat;

its characterized in that still includes at least a set of upset subassembly, the upset subassembly is including being located driving piece on the centre gripping subassembly is located the connecting block of driving piece output sets up transmission shaft on the connecting block, with the sector gear that the transmission shaft is connected, with sector gear meshing's driven gear is located last transmission part of driven gear, and the setting is in clamping part on the transmission part.

2. The wind power welding workstation of claim 1, wherein: the clamping assembly comprises a bracket fixedly arranged on the supporting seat, a group of driving motors arranged on the bracket, a connecting piece positioned at the output end of the driving motor, and a transmission rod arranged on the connecting piece;

the driving piece is positioned on the transmission rod.

3. The wind power welding workstation of claim 2, wherein: the transmission rod is also provided with an arc-shaped through groove; the transmission shaft penetrates through the through groove.

4. The wind power welding workstation of claim 3, wherein: the clamping assembly further comprises adjusting slide rails symmetrically arranged on the bracket and adjusting slide blocks positioned on the connecting pieces; the adjusting slide block is positioned on the adjusting slide rail.

5. The wind power welding workstation of claim 1, wherein: the welding assembly comprises an adjusting motor arranged on the supporting seat, a sliding piece located at the output end of the adjusting motor, and a welding device located on the sliding piece.

6. The wind power welding workstation of claim 5, wherein: the welding assembly further comprises a group of lifting slide rails arranged on the supporting seat and a lifting slide block positioned on the sliding piece;

the lifting slide block is positioned on the lifting slide rail.

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