CN115156830B - Multistation welding set is used in dust removal sack processing - Google Patents

Abstract

The invention discloses a multi-station welding device for dust removing cloth bag processing, which relates to the field of dust removing cloth bag processing and comprises a device frame seat fixedly arranged on a base frame, an air pump fixedly arranged on the base frame, a mounting groove arranged in the middle of the upper side of the base frame, a second movable frame for enabling a fixing sleeve to fixedly clamp and relax a steel ring under the movement action of a third air rod and a third air cylinder, a clamping block for realizing the fixed clamping and relaxing of a steel hoop through the inflation and the shrinkage of an air bag and the movement and stretching and retraction of the elastic force of a first spring in a first placing sleeve or a second placing sleeve, a first rotary gear for driving a rotary rod to rotate through a pushing rod connected with a sliding column by a special-shaped block, further enabling a feeding plate connected with the rotary rod to move up and down, realizing the reciprocating feeding of steel wires, and a second rotary gear for driving the first placing sleeve to rotate, further realizing the transposition welding of the steel skeleton, realizing multi-station welding and conversion, and the quick feeding of steel wires, and improving the welding effect.

Description

Multistation welding set is used in dust removal sack processing

Technical Field

The invention relates to the field of dust removal cloth bag processing, in particular to a multi-station welding device for dust removal cloth bag processing.

Background

When welding the steel skeleton of dust removal sack inboard installation, because the steel skeleton is by a plurality of ring steel rings and linear type steel wire welding constitution, consequently, do not have the contact point of steel wire and steel ring all to weld, the welding station is more, manual operation efficiency is lower, moreover because the conversion welding station that needs to stop when welding, lead to weld time to increase, secondly, because steel wire and steel ring separate, so need to feed steel wire many times, above-mentioned multiple condition all can prolong man-hour, reduce work efficiency, improve manufacturing cost, therefore, in sum, need carry out relevant innovation design to equipment.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide the multi-station welding device for processing the dust-removing cloth bag, so that the steel skeleton of the dust-removing cloth bag is convenient to realize multi-station welding and conversion in the welding process, the rapid feeding of steel wires is realized, and the welding effect is improved.

In order to achieve the above purpose, the present invention provides the following technical solutions: a multi-station welding device for dust removal cloth bag processing is characterized in that: including first motor, second motor, air pump and device frame foundation, still include:

the device comprises a base frame, a device frame, an air pump, a device frame and a device frame, wherein the device frame is fixedly arranged on the base frame;

the second movable frame enables the fixed sleeve to realize fixed clamping and loosening on the steel ring under the movement action of the third air rod and the third air cylinder;

the second clamping mechanism comprises a first placing sleeve, a second placing sleeve, a clamping block, an air bag and a first spring, wherein the clamping block is inflated and deflated by the air bag, and the elastic force of the first spring acts on the first placing sleeve or the second placing sleeve to move, extend and retract, so that the steel hoop is fixedly clamped and loosened;

the feeding mechanism comprises a first rotary gear, a special-shaped block, a sliding column, a pushing rod, a rotating rod and a feeding plate, wherein the pushing rod connected with the sliding column is driven by the first rotary gear to rotate through the special-shaped block, so that the feeding plate connected with the rotating rod moves up and down, and reciprocating feeding of steel wires is realized;

the transposition mechanism comprises a second rotary gear, and the second rotary gear drives the first placing sleeve to rotate, so that transposition welding of the steel skeleton is realized.

Preferably, the device frame seat upside is provided with two circular arc grooves, and the mounting groove is located between two circular arc grooves, is provided with many pairs of removal grooves on the circular arc groove, all is provided with a pair of fixed cover in each pair of removal groove, and both sides respectively fixed mounting have a third cylinder around the device frame seat, and inside both sides of mounting groove are respectively fixed mounting have a third cylinder, and the third cylinder passes through fourth gas-supply pipe and air pump intercommunication, and the cooperation is installed the third gas pole in the third cylinder, and the fixed frame that has the second to stretch out of third gas pole, the fixed cover of second removal frame respectively fixed connection and its close one side.

Preferably, the device frame seat rear side is provided with a pair of meshing connected second rotary gears, wherein a second motor is installed to one of them second rotary gear, one side that the second rotary gear is close to the device frame seat and first cover fixed axle that places, fixed mounting has the mounting bracket on the base frame between second rotary gear and the first cover that places, and first cover slidable mounting that places is on the mounting bracket.

Preferably, a pair of first rotary gears connected in a meshed mode are installed on the front side of the device frame seat, the two first rotary gears are installed on the first moving frame in a rotating mode, a first motor is installed on one first rotary gear, a special-shaped block is fixedly installed at the circle center position of the rear side of the first rotary gear, a feeding box and a storage box are fixedly installed at the circle center position of the rear side of the special-shaped block, a top cover is installed on the upper side of the storage box, and the lower side of the storage box is set to be a slope.

Preferably, a mounting frame is arranged on a base frame between the first rotating gear and the device frame seat, the mounting frame is fixedly arranged on the first moving frame, the inner side of the first moving frame is in sliding fit with the second placing sleeve, the first placing sleeve and the second placing sleeve are respectively provided with a clamping block in sliding fit, the first placing sleeve and the second placing sleeve are respectively internally provided with an air bag, the inner side of the clamping block is fixedly provided with a first spring, the other end of the first spring is fixedly arranged in the first placing sleeve, and the air bag is communicated with the air pump through a third air conveying pipe.

Preferably, a second air cylinder is fixedly arranged on the front side of the device frame seat, the movement in the second air cylinder is arranged on a second air rod, the second air rod extends out to be fixedly arranged on the first moving frame, and the second air cylinder is communicated with the air pump through a second air pipe.

Preferably, the inside upside of material loading box is provided with the discharge gate, and discharge gate and storage box intercommunication, and material loading box internally mounted in a movable way has the loading board, and the loading board downside rotates and is connected with a plurality of dwang, and material loading box downside side movable mounting has the pushing rod, and the dwang other end rotates and installs on the pushing rod, and pushing rod stretches out end fixed connection sliding column, sliding column other end slidable mounting is inside the abnormal shape piece, and loading board downside fixed mounting has the second spring, and second spring other end fixed mounting is inside the material loading box.

Preferably, a top plate is arranged on the upper side of the device frame seat, a welder is arranged on the lower side of the top plate, the welder is connected with an external control device, first air rods are respectively and fixedly arranged at two ends of the lower side of the top plate, the first air rods are movably arranged in first air cylinders, the first air cylinders are fixedly arranged on the base frame, and the first air cylinders are communicated with the air pump through first air pipes.

Compared with the prior art, the invention has the following beneficial effects:

according to the multi-station welding device for dust removal cloth bag processing, through the cooperation of the third air rod, the third air cylinder, the second movable frame and the fixed sleeve, the fixed sleeve is enabled to fixedly clamp and relax the steel ring under the movement action of the third air rod and the third air cylinder, and through the cooperation of the first placing sleeve, the second placing sleeve, the clamping block, the air bag and the first spring, the clamping block can expand and contract when the air bag is inflated and the air bag is deflated, and the elastic force of the first spring acts on the first placing sleeve or the second placing sleeve to move, extend and retract, so that the steel hoop is fixedly clamped and relaxed. According to the multi-station welding device for dust removal cloth bag processing, through the cooperation of the first rotary gear, the special-shaped block, the sliding column, the pushing rod, the rotating rod and the feeding plate, the pushing rod connected with the sliding column is enabled to drive the rotating rod to rotate through the special-shaped block by the first rotary gear, the feeding plate connected with the rotating rod is enabled to move up and down, the steel wire is fed in a reciprocating mode, through the cooperation of the second rotary gear and the first placing sleeve, the second rotary gear is enabled to drive the first placing sleeve to rotate, and then the transposition welding of the steel skeleton is achieved.

Drawings

Fig. 1 is a schematic perspective view of a multi-station welding device for dust removal cloth bag processing, which is provided by the invention;

FIG. 2 is an enlarged schematic view of the structure shown in FIG. 1A according to the present invention;

FIG. 3 is a schematic top view of the first placement sleeve and clamping block of FIG. 1 according to the present invention;

FIG. 4 is a schematic view of the structure of the section B-B of FIG. 3 according to the present invention;

FIG. 5 is a schematic view of the structure of the loading and storage boxes and related parts in FIG. 1 according to the present invention;

FIG. 6 is a schematic view of the structure of section C-C of FIG. 5 provided by the present invention;

FIG. 7 is a schematic view of the structure of section D-D of FIG. 5 provided by the present invention;

1. a base frame; 2. a first cylinder; 3. a first air bar; 4. a top plate; 5. a welder; 6. a first rotary gear; 7. a profiled block; 8. a first gas pipe; 9. a second gas pipe; 10. a second cylinder; 11. a first motor; 12. a second gas lever; 13. a first moving frame; 14. a sliding column; 15. a second motor; 16. a second rotary gear; 17. a third gas pipe; 18. a mounting frame; 19. a first placement sleeve; 20. a clamping block; 21. an air pump; 22. a fourth gas pipe; 23. a third cylinder; 24. a third air bar; 25. a second moving frame; 26. a fixed sleeve; 27. a moving groove; 28. a mounting groove; 29. a device stand; 30. a feeding box; 31. a second placement sleeve; 32. a storage box; 33. a top cover; 34. a first spring; 35. an air bag; 36. a discharge port; 37. a loading plate; 38. a rotating lever; 39. a second spring; 40. pushing the rod.

Detailed Description

An embodiment of a multi-station welding device for dust-collecting cloth bag processing according to the present invention will be further described with reference to fig. 1 to 7.

Referring to fig. 1, 3 and 4, a multi-station welding device for dust removing cloth bag processing comprises a first motor 11, a second motor 15, an air pump 21, a device frame 29, a base frame 1, wherein the device frame 29 is fixedly installed on the base frame 1, the air pump 21 is fixedly installed on the base frame 1, and an installation groove 28 is formed in the middle of the upper side of the base frame 1.

The first clamping mechanism comprises a third air rod 24, a third air cylinder 23, a second movable frame 25 and a fixed sleeve 26, and the second movable frame 25 enables the fixed sleeve 26 to realize fixed clamping and loosening on the steel ring under the movement action of the third air rod 24 and the third air cylinder 23.

The second clamping mechanism comprises a first placing sleeve 19, a second placing sleeve 31, a clamping block 20, an air bag 35 and a first spring 34, wherein the clamping block 20 is inflated and deflated through the air bag 35, and the elastic force of the first spring 34 acts on the first placing sleeve 19 or the second placing sleeve 31 to move, extend and retract, so that the steel hoop is fixedly clamped and loosened.

The device frame seat 29 upside is provided with two circular arc grooves, the mounting groove 28 is located between two circular arc grooves, be provided with a plurality of pairs of movable grooves 27 on the circular arc groove, be provided with a pair of fixed cover 26 in each pair of movable groove 27, the front and back both sides of device frame seat 29 respectively fixed mounting has a third cylinder 23, the inside both sides of mounting groove 28 respectively fixed mounting has a third cylinder 23, third cylinder 23 communicates with air pump 21 through fourth gas-supply pipe 22, the cooperation is installed third gas pole 24 in the third cylinder 23, the fixed cover 26 of second movable frame 25 side that is close to it is fixed to the fixed end fixed mounting of third gas pole 24, second movable frame 25 respectively fixed connection.

The base frame 1 between the first rotary gear 6 and the device frame seat 29 is provided with a mounting frame 18, the mounting frame 18 is fixedly arranged on the first movable frame 13, the inner side of the first movable frame 13 is provided with a second placing sleeve 31, the first placing sleeve 19 and the second placing sleeve 31 are respectively provided with a clamping block 20 in a sliding manner, the inside of the first placing sleeve 19 and the inside of the second placing sleeve 31 are respectively provided with an air bag 35, the inner side end of the clamping block 20 is fixedly provided with a first spring 34, the other end of the first spring 34 is fixedly arranged in the first placing sleeve 19, and the air bags 35 are communicated with the air pump 21 through a third air pipe 17.

Firstly, steel hoops arranged at two ends of a dust removal cloth bag steel skeleton are taken out, one steel hoop passes through a feeding box 30 and a storage box 32 from the rear side and is placed on a second placing sleeve 31, the other steel hoop is placed on a first placing sleeve 19, then an air pump 21 is started, the air pump 21 is inflated into an air bag 35 through a third air pipe 17, the air bag 35 is inflated to expand to drive a clamping block 20 arranged at the outer side of the air bag 35 to stretch out from the first placing sleeve 19, the clamping block 20 stretches out to a first spring 34 in the moving process, and the clamping block 20 stretches out to clamp and fix the steel hoops placed on the first placing sleeve 19 and the second placing sleeve 31 along with the moving process, so that the steel hoops at two ends of the steel skeleton are fixedly placed, then a plurality of circular steel rings pass through the feeding box 30 and the storage box 32 from the rear side and are respectively placed between fixing sleeves 26, after the circular steel rings are placed, the air pump 21 is started up to inflate into a third air cylinder 23 through a fourth air pipe 22, the third air cylinder 23 is provided with four clamping blocks in the whole device, two clamping blocks 20 stretch out to stretch out from the first air cylinder 23, two clamping blocks are arranged in the same circular steel rings 28, two clamping frames are arranged in the third air cylinder 23, and the circular steel rings are arranged in the second circular rings 24 and stretch out to the second circular steel rings 23 along with the moving direction, and the circular rings are correspondingly arranged at two sides of the same circular steel rings, and the circular rings are arranged in the circular rings 23, and the circular rings are correspondingly, and the circular rings are stretched out to the circular rings and fixed in the circular rings, and are stretched out to the circular rings, and are stretched to the circular rings, and stretched to the circular steel rings, and are stretched.

Referring to fig. 1, 2, 5, 6 and 7, the feeding mechanism includes a first rotary gear 6, a special-shaped block 7, a sliding column 14, a pushing rod 40, a rotating rod 38 and a feeding plate 37, wherein the pushing rod 40 connected with the sliding column 14 is driven by the first rotary gear 6 through the special-shaped block 7 to rotate the rotating rod 38, and then the feeding plate 37 connected with the rotating rod 38 moves up and down to realize reciprocating feeding of steel wires.

The device frame seat 29 front side is installed a pair of meshing connection's first rotary gear 6, and two first rotary gear 6 rotate and install on first removal frame 13, and first motor 11 is installed to one of them first rotary gear 6, and first rotary gear 6 rear side centre of a circle position fixed mounting has abnormal shape piece 7, and abnormal shape piece 7 rear side centre of a circle position fixed mounting has material loading box 30 and magazine 32, and top cap 33 is installed to the magazine 32 upside, and the magazine 32 downside sets up to the slope.

The upper side in the material loading box 30 is provided with the discharge gate 36, and discharge gate 36 and storage box 32 intercommunication, material loading box 30 internally movable installs material loading board 37, material loading board 37 downside rotates and is connected with a plurality of dwang 38, material loading box 30 downside movable installs push rod 40, the dwang 38 other end rotates and installs on push rod 40, push rod 40 extension end fixed connection sliding column 14, sliding column 14 other end slidable mounting is in abnormal shape piece 7 inside, material loading board 37 downside fixed mounting has second spring 39, the second spring 39 other end fixed mounting is in material loading box 30.

After the annular steel rings on the steel skeleton are fixed, the plurality of annular steel rings are fixedly connected by welding vertical steel wires, so that the first motor 11 is started, the first motor 11 drives the first rotary gear 6 fixedly connected with the first motor to rotate, the two first rotary gears 6 are simultaneously rotated through meshing, the steel skeleton of the two dust removal cloth bags can be simultaneously welded, when the first rotary gear 6 rotates, the first rotary gear 6 drives the special-shaped block 7 fixedly arranged at the center of the first rotary gear 6 to simultaneously rotate, the special-shaped block 7 acts on to enable the pushing rod 40 to reciprocate in the feeding box 30 through the sliding column 14, so that the linear steel wire is repeatedly fed, and the moving process is as follows: when the concave position of the special-shaped block 7 rotates to be connected with the sliding column 14, the special-shaped block 7 drives the sliding column 14 to move to one side close to the special-shaped block 7, and then the sliding column 14 drives the pushing rod 40 fixedly connected with the sliding column 14 to move to one side close to the special-shaped block 7 in the feeding box 30, the pushing rod 40 drives the rotating rod 38 fixedly connected with the sliding column to rotate, the feeding plate 37 connected with the sliding column is driven to move downwards in the feeding box 30, when the feeding plate 37 moves downwards to the lower side of the discharge hole 36, linear steel wires slide from the storage box 32, the linear steel wires roll down to the upper side of the feeding plate 37 from the discharge hole 36, automatic feeding of the storage box 32 to the feeding plate 37 is achieved, when the convex position of the special-shaped block 7 rotates to be connected with the sliding column 14, the sliding column 14 is driven to move to one side far away from the special-shaped block 7, and then the sliding column 14 drives the rotating rod 40 fixedly connected with the sliding column 30 to move to one side far away from the special-shaped block 7 in the feeding box 30, when the feeding rod 38 moves downwards to the lower side of the feeding box 36, the linear steel wire 38 drives the rotating rod 38 reversely to move to the upper side of the sliding rod 38, the sliding rod 37 drives the linear steel wire 37 to slide to the upper plate 37 to slide down along with the upper side of the wire 37, and the linear steel wire 37 is prevented from sliding to slide to close to the upper steel wire 37 along with the upper steel wire to the upper side of the linear steel wire to the upper plate 37 when the upper steel wire is tightly and the upper steel wire is tightly closed.

Referring to fig. 1, the transposition mechanism includes a second rotating gear 16 and a first placing sleeve 19, and the second rotating gear 16 drives the first placing sleeve 19 to rotate, so that transposition welding of the steel skeleton is achieved.

The rear side of the device frame seat 29 is provided with a pair of meshed second rotating gears 16, wherein one second rotating gear 16 is provided with a second motor 15, one side, close to the device frame seat 29, of the second rotating gear 16 is fixedly connected with a first placing sleeve 19, a mounting frame 18 is fixedly arranged on the base frame 1 between the second rotating gear 16 and the first placing sleeve 19, and the first placing sleeve 19 is slidably arranged on the mounting frame 18.

The front side of the device frame seat 29 is fixedly provided with a second air cylinder 10, the movement in the second air cylinder 10 is arranged on a second air rod 12, the extension of the second air rod 12 is fixedly arranged on the first movable frame 13, and the second air cylinder 10 is communicated with the air pump 21 through a second air pipe 9.

The device frame seat 29 upside is provided with roof 4, and the welding ware 5 is installed to roof 4 downside, and welding ware 5 is connected with external control device, and roof 4 downside both ends are fixed mounting respectively has first gas pole 3, and first gas pole 3 remove the installation in first cylinder 2, and first cylinder 2 fixed mounting is on base frame 1, and first cylinder 2 communicates with air pump 21 through first gas-supply pipe 8.

When the feeding plate 37 drives the linear steel wire to move upwards to be tightly attached to the steel ring and stop, the air pump 21 pumps air in the first air cylinder 2 through the first air pipe 8, the first air rod 3 moves downwards in the first air cylinder 2 along with the reduction of air in the first air cylinder 2, the first air rod 3 drives the top plate 4 fixedly arranged at the extending end of the first air rod to move downwards together, when the welder 5 arranged on the top plate 4 contacts with the steel ring, the welder 5 comprises a plurality of welding heads, the welder 5 is connected with an external control device, the external control device controls the switch of the welder 5, when the welder 5 moves downwards to stop, the welding heads arranged on the welder 5 are respectively correspondingly arranged at the contact positions of the steel ring and the steel wire, so that the welding is realized at the contact positions, the welding fixation of a plurality of positions is realized at one time, when one welding work is finished, the second motor 15 is started, the second motor 15 drives the second rotating gear 16 fixedly connected with the second motor to rotate, under the action of meshing connection, the two second rotating gears 16 synchronously rotate, when the second rotating gears 16 synchronously rotate, the second rotating gears 16 drive the first placing sleeve 19 fixedly installed with the second rotating gears to rotate, as the second placing sleeve 31 and the first placing sleeve 19 are both slidably installed on the installation frame 18, and under the condition that a plurality of steel rings and steel hoops are welded and fixed by linear steel wires, the steel hoops are fixedly installed on the first placing sleeve 19 and the second placing sleeve 31, the clamping of the steel rings is released by the fixing sleeve 26, when the second rotating gears 16 rotate, the steel hoops fixedly installed on the first placing sleeve 19 drive the plurality of steel rings to synchronously rotate under the action of steel wire welding, so that the synchronous welding of a plurality of steel rings at next stations is realized, the motor drives the whole skeleton to rotate a certain angle through the second rotary gear 16 and the first placing sleeve 19 and then stops, the first motor 11 runs to enable the feeding box 30 to feed materials again, the welder 5 welds the position and repeats cyclically until one steel skeleton is completely molded and then finishes working, after all the working is finished, the third air pipe 17 is closed to enable the fixation of the steel skeleton to be relieved, the air pump 21 enables the second air cylinder 10 to be inflated through the second air pipe 9, the second air rod 12 in the second air cylinder 10 drives the first rotary gear 6, the second placing sleeve 31 and the mounting frame 18 to move to the side far away from the steel skeleton through the first moving frame 13, and the steel skeleton is taken out of the device frame seat 29 conveniently.

Working principle: one steel hoop passes through the feeding box 30 and the storage box 32 from the rear side to be placed on the second placing sleeve 31, the other steel hoop is placed on the first placing sleeve 19, the air pump 21 charges air into the air bag 35 through the third air pipe 17 to enable the clamping block 20 to move and extend out of the first placing sleeve 19, the clamping block 20 clamps and fixes the steel hoops placed on the first placing sleeve 19 and the second placing sleeve 31, a plurality of circular steel rings pass through the fixing sleeves 26 from the rear side to be respectively placed between the fixing sleeves 26, the air pump 21 enables the third air cylinder 23 to drive the second moving frame 25 on the third air rod 24 to move in the device frame through the fourth air pipe 22 to fix the circular steel rings, after the circular steel rings on the steel frame are fixed, the first motor 11 drives the two meshed first rotary gears 6 to rotate simultaneously, the first rotary gears 6 enable the sliding column 14 to drive the pushing rod 40 to reciprocate in the feeding box 30 through the special-shaped block 7, the pushing rod 40 moves the feeding plate 37 up and down at the discharging hole 36 side in the feeding box 30 through the rotating rod 38, so that the linear steel wire can realize the work of feeding, when the steel wire is tightly attached to the steel ring, the air pump 21 drives the top plate 4 on the first air rod 3 through the first air pipe 8, the welder 5 arranged on the top plate 4 performs welding fixation on a plurality of positions, when one welding work is completed, the second rotating gear 16 rotates to drive a plurality of steel rings to rotate together under the action of welding of the steel wire through the steel hoop fixedly arranged on the first placing sleeve 19, the synchronous welding of the next stations of the plurality of steel rings is realized, after all the work is completed, the third air pipe 17 is closed, the fixation of the steel skeleton is released, the air pump 21 inflates the second air cylinder 10 through the second air pipe 9, the second air rod 12 in the second air cylinder 10 drives the first rotary gear 6, the second placing sleeve 31 and the mounting frame 18 to move together to the side far away from the steel skeleton through the first moving frame 13, so that the steel skeleton is conveniently taken out from the device frame seat 29.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to the present invention may occur to one skilled in the art without departing from the principles of the present invention and are intended to be within the scope of the present invention.

Claims (6)

1. A multi-station welding device for dust removal cloth bag processing is characterized in that: including first motor (11), second motor (15), air pump (21) and device frame foundation (29), still include:

the device comprises a base frame (1), a device frame seat (29) is fixedly arranged on the base frame (1), an air pump (21) is fixedly arranged on the base frame (1), and an installation groove (28) is formed in the middle of the upper side of the base frame (1);

the first clamping mechanism comprises a third air rod (24), a third air cylinder (23), a second movable frame (25) and a fixed sleeve (26), and the second movable frame (25) enables the fixed sleeve (26) to realize fixed clamping and loosening on the steel ring under the movement action of the third air rod (24) and the third air cylinder (23);

the second clamping mechanism comprises a first placing sleeve (19), a second placing sleeve (31), a clamping block (20), an air bag (35) and a first spring (34), wherein the clamping block (20) is inflated and deflated through the air bag (35) and the elastic force of the first spring (34) acts on the first placing sleeve (19) or the second placing sleeve (31) to move, extend and retract, so that the steel hoop is fixedly clamped and loosened;

the feeding mechanism comprises a first rotary gear (6), a special-shaped block (7), a sliding column (14), a pushing rod (40), a rotating rod (38) and a feeding plate (37), wherein the pushing rod (40) connected with the sliding column (14) drives the rotating rod (38) to rotate through the special-shaped block (7), so that the feeding plate (37) connected with the rotating rod (38) moves up and down, and reciprocating feeding of steel wires is realized;

the transposition mechanism comprises a second rotary gear (16), and the second rotary gear (16) drives the first placing sleeve (19) to rotate so as to realize transposition welding of the steel skeleton;

a pair of first rotary gears (6) which are connected in a meshed manner are arranged on the front side of the device frame seat (29), the two first rotary gears (6) are rotatably arranged on the first movable frame (13), a first motor (11) is arranged on one first rotary gear (6), a special-shaped block (7) is fixedly arranged at the center position of the rear side of the first rotary gear (6), a feeding box (30) and a storage box (32) are fixedly arranged at the center position of the rear side of the special-shaped block (7), a top cover (33) is arranged on the upper side of the storage box (32), and the lower side of the storage box (32) is provided with a slope;

the feeding box (30) is internally provided with a discharge hole (36), the discharge hole (36) is communicated with the storage box (32), a feeding plate (37) is movably installed inside the feeding box (30), a plurality of rotating rods (38) are rotatably connected to the lower side of the feeding plate (37), a pushing rod (40) is movably installed below the feeding box (30), the other end of the rotating rod (38) is rotatably installed on the pushing rod (40), the extending end of the pushing rod (40) is fixedly connected with a sliding column (14), the other end of the sliding column (14) is slidably installed inside a special-shaped block (7), a second spring (39) is fixedly installed on the lower side of the feeding plate (37), and the other end of the second spring (39) is fixedly installed inside the feeding box (30).

2. The multi-station welding device for dust removal cloth bag processing according to claim 1, wherein: the device is characterized in that two circular arc grooves are formed in the upper side of the device frame seat (29), the mounting groove (28) is located between the two circular arc grooves, a plurality of pairs of moving grooves (27) are formed in the circular arc grooves, a pair of fixing sleeves (26) are arranged in each pair of moving grooves (27), a third air cylinder (23) is fixedly mounted on the front side and the rear side of the device frame seat (29), a third air cylinder (23) is fixedly mounted on the two sides inside the mounting groove (28), the third air cylinder (23) is communicated with the air pump (21) through a fourth air pipe (22), a third air rod (24) is mounted in the third air cylinder (23) in a matched mode, a second moving frame (25) is fixedly mounted at the extending end of the third air rod (24), and the second moving frame (25) is fixedly connected with the fixing sleeves (26) on the side close to the second moving frame (25) respectively.

3. The multi-station welding device for dust removal cloth bag processing according to claim 2, wherein: the device is characterized in that a pair of second rotary gears (16) connected in a meshed mode are arranged on the rear side of the device frame base (29), a second motor (15) is mounted on one second rotary gear (16), one side, close to the device frame base (29), of the second rotary gear (16) is fixedly connected with the first placing sleeve (19), a mounting frame (18) is fixedly mounted on the base frame (1) between the second rotary gear (16) and the first placing sleeve (19), and the first placing sleeve (19) is slidably mounted on the mounting frame (18).

4. The multi-station welding device for dust removal cloth bag processing according to claim 1, wherein: be provided with mounting bracket (18) on base frame (1) between first rotation gear (6) and device frame foundation (29), and mounting bracket (18) fixed setting is on first removal frame (13), and here first removal frame (13) inboard and second place cover (31) slidable mounting, first cover (19) and second place respectively slidable mounting have grip block (20) on cover (31), first cover (19) and second place respectively inside gasbag (35) that are provided with of cover (31), grip block (20) inboard fixed mounting has first spring (34), and first spring (34) other end fixed mounting is inside first cover (19) of placing, gasbag (35) are through third gas-supply pipe (17) and air pump (21) intercommunication.

5. The multi-station welding device for dust removal cloth bag processing according to claim 4, wherein: the device frame seat (29) front side fixed mounting has second cylinder (10), and the removal in second cylinder (10) is installed in second gas pole (12), and the extension and the first removal frame (13) fixed mounting of second gas pole (12), and second cylinder (10) and air pump (21) are through second gas-supply pipe (9) intercommunication.

6. The multi-station welding device for dust removal cloth bag processing according to claim 5, wherein: the device is characterized in that a top plate (4) is arranged on the upper side of the device frame seat (29), a welder (5) is arranged on the lower side of the top plate (4), the welder (5) is connected with an external control device, first air rods (3) are fixedly arranged at two ends of the lower side of the top plate (4) respectively, the first air rods (3) are movably arranged in the first air cylinders (2), the first air cylinders (2) are fixedly arranged on the base frame seat (1), and the first air cylinders (2) are communicated with the air pump (21) through first air pipes (8).