CN117123963B - Silk screen welding machine - Google Patents

Abstract

The invention discloses a screen welding machine, which comprises a mounting plate frame, wherein an upper welding block and a lower welding block are arranged between the mounting plate frames, the lower end of the upper welding block is connected with an upper welding plate, a discharging opening is formed in the upper welding plate, the upper end of the upper welding block is connected with a hopper, the lower welding block is connected with a lower welding plate, a limiting piece for limiting the position between the upper welding block and the lower welding block is connected with the lower welding plate, and a wire guiding mechanism for guiding screen raw materials during screen welding is connected to the lower welding block. The invention utilizes the dragging block to cooperate with the anti-slip strip to drive the silk screen raw material to move, ensures that the silk screen raw material orderly enters the welding structure, and avoids the phenomenon of silk screen dragging and breaking, wherein, the structure of the first lead groove and the second lead groove is utilized to avoid the shift of the silk screen raw material, ensures that the whole structure of the silk screen is neat during welding, and plays a good role in guiding the movement of the silk screen raw material.

Description

Silk screen welding machine

Technical Field

The invention relates to the technical field of welding machines, in particular to a silk screen welding machine.

Background

The wire mesh is generally divided into a single-layer wire mesh and a double-layer wire mesh, which are mainly formed by welding a transversely and longitudinally staggered wire structure. The technology of the silk screen welding machine in the current market is mature, transverse and longitudinal wires are overlapped and lapped together through a transverse wire feeding structure and a longitudinal wire feeding structure (a steel wire arrangement mechanism) which are arranged on a frame, and then the crossing parts of the transverse and longitudinal wires are welded firmly through corresponding welding structures.

When the silk screen welding, accomplish the welding in proper order through the silk screen raw materials that sets up perpendicularly to form network structure, when silk screen welding, need be through traction silk screen raw materials, make the silk screen weld in proper order, traditional silk screen welding is independent operation structure with the silk screen traction, mutually independent between two structures, need constantly debug when the installation, make welding and traction process orderly cooperate, the degree of difficulty of equipment installation has been increased, and because being independent structure, equipment has the time delay after long-time use between the operation process, can lead to silk screen welding dislocation, influence silk screen finished product quality, and this kind of time delay can't be observed through simple naked eye, need just can detect it through measuring equipment, need regularly detect welding equipment and welded product promptly, greatly increased welding equipment's maintenance probability, thereby can produce the influence to silk screen welding efficiency.

Based on this, a wire mesh welding machine is proposed.

Disclosure of Invention

The invention aims at: in order to solve the above problems, a wire mesh welding machine is proposed.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the screen welding machine comprises a mounting plate frame, be provided with welding piece and lower welding piece between the mounting plate frame, it is connected with the welded plate to go up the welding piece lower extreme, last feed opening has been seted up on the welded plate, it is connected with the hopper to go up the welding piece upper end, be connected with down the welded plate on the lower welding piece, be connected with the locating part that is used for restricting the position between welding piece and the lower welding piece on the lower welded plate, be connected with the guide wire mechanism that is used for guiding the silk screen raw materials when screen welding on the lower welding piece.

Preferably, the lower end of the upper welding plate is connected with a limiting rod, and the lower welding plate is provided with a through hole.

Preferably, the limiting piece comprises a vertical strip rail, a limiting groove is formed in the upper welding block and the upper welding plate, the vertical strip rail and the limiting groove are mutually matched, a horizontal strip rail is fixedly connected to the mounting plate frame, a horizontal clamp is connected to the horizontal strip rail in a sliding mode, a vertical sleeve is connected to the horizontal clamp, the vertical sleeve is connected to the vertical strip rail in a sliding mode, and a discharging assembly used for discharging silk screen raw materials is connected to the upper welding block.

Preferably, the unloading subassembly includes the grip block, the spread groove has been seted up on the last welding piece, the spliced pole is connected with in the spread groove, rotate on the spliced pole and be connected with the grip block, grip block one end is connected with the spring plate, the spring plate lower extreme is connected with reset spring, be connected with the connecting plate on the last welding piece, be connected with the jacking subassembly that is used for jacking the spring plate on the connecting plate.

Preferably, the jacking component comprises an air cylinder, the air cylinder is connected to the connecting plate, a control button is connected to the outer side of the lower welding block, and the control button is arranged right below the limiting rod.

Preferably, the welding block outside is connected with the column spinner, the welding block outside is connected with down the column spinner down, the installation grillage outside is connected with the motor frame, be connected with the rotating electrical machines in the motor frame, the rotating electrical machines output is connected with the driving gear, be connected with the spacing pipe on the installation grillage, it is connected with the pivot to rotate on the spacing pipe, the pivot both ends are connected with driven gear and carousel, the installation grillage outside is connected with the axle bed, it is connected with synchronous gear to rotate on the axle bed.

Preferably, the wire guiding mechanism comprises a wire mesh table, the lower end of the wire mesh table is connected with a supporting column, a first wire guiding groove is formed in the wire mesh table, a second wire guiding groove is formed in the lower welding block, a wheel frame is fixedly connected to the outer side of the lower welding block, a wire guiding wheel is fixedly connected to the wheel frame, and a dragging piece for pushing the wire mesh raw material to move on the first wire guiding groove is connected to the upper welding block.

Preferably, the dragging piece comprises a dragging block, the outer side of the upper welding block is connected with a hinge bracket and a supporting block, a deflection plate is rotatably connected on the hinge bracket, one end of the deflection plate is connected with a lifting rod, the lifting rod is connected to the dragging block, and the lower end of the dragging block is connected with an anti-slip strip.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

1. this application is through adopting dragging the piece structure, utilize dragging the piece cooperation antislip strip and make the silk screen raw materials be driven and take place to remove, guarantee in the orderly welding structure that gets into of silk screen raw materials, avoid taking place the silk screen and draw the disconnection phenomenon, wherein and utilize first and two structures of wire groove, avoid silk screen raw materials skew, silk screen overall structure is neat when guaranteeing the welding, play fine silk screen raw materials and remove the guide effect, and welding and silk screen traction formula structure as an organic whole, can pull when the welding, silk screen welded efficiency has been improved greatly.

2. According to the welding device, a turntable structure is adopted, the turntable rotates to drive the upper welding block and the lower welding block to rotate, so that the upper welding block and the lower welding block move up and down and move back and forth, the structures are close to each other when moving up and down, and the operation of butt joint and welding between the structures is realized through extrusion; and when moving back and forth, the silk screen is driven to move between the structures, so that the orderly completion of welding operation of silk screen raw materials is ensured.

Drawings

Fig. 1 shows a schematic structural view of an entire screen welder provided according to an embodiment of the present invention;

fig. 2 shows a schematic structural view of the other side of the whole screen welder provided according to the embodiment of the present invention;

fig. 3 shows a schematic diagram of a front view structure of a screen welder according to an embodiment of the present invention;

fig. 4 shows a schematic rear view of a screen welder according to an embodiment of the present invention;

FIG. 5 illustrates a schematic diagram of a bottom view of a drag block provided in accordance with an embodiment of the present invention;

FIG. 6 shows a schematic diagram of an exploded construction of a turntable connection provided in accordance with an embodiment of the present invention;

FIG. 7 is a schematic diagram showing the structure of a control button connection provided according to an embodiment of the present invention;

FIG. 8 illustrates a schematic diagram of a drive gear connection provided in accordance with an embodiment of the present invention;

FIG. 9 illustrates an exploded view of a deflector plate connection provided in accordance with an embodiment of the present invention;

fig. 10 shows a schematic structural diagram of a feed opening provided according to an embodiment of the present invention;

fig. 11 shows a schematic structural diagram of a connection portion of a clamping plate according to an embodiment of the present invention.

Legend description:

1. installing a plate frame; 2. a wire mesh table; 3. a support column; 4. a first lead groove; 5. dragging the block; 6. a deflector plate; 7. a hinge bracket; 8. a horizontal bar rail; 9. a horizontal clamp; 10. a vertical sleeve; 11. a vertical bar rail; 12. a hopper; 13. a driven gear; 14. a motor frame; 15. a rotating electric machine; 16. a drive gear; 17. a synchronizing gear; 18. a shaft seat; 19. a lower welding block; 20. a control button; 21. a limit rod; 22. a welding block is arranged on the upper part; 23. an anti-slip strip; 24. a wheel carrier; 25. a wire guiding wheel; 26. a second wiring groove; 27. a lower spin column; 28. a through hole; 29. an upper spin column; 30. a limit groove; 31. a support block; 32. a lifting rod; 33. a feed opening; 34. a connecting plate; 35. a clamping rod; 36. a connecting groove; 37. a cylinder; 38. a return spring; 39. a clamping plate; 40. a spring plate; 41. a limiting tube; 42. a turntable; 43. a rotating shaft; 44. a welding plate is arranged on the upper part; 45. and (5) a lower welding plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-11, the present invention provides a technical solution:

the screen welding machine comprises a mounting plate frame 1, wherein the mounting plate frame 1 comprises two side plates and a bottom plate structure, an upper welding block 22 and a lower welding block 19 are arranged between the mounting plate frame 1, the upper welding block 22 and the lower welding block 19 are in butt joint, screen raw materials between the arrangement structures are welded, the lower end of the upper welding block 22 is connected with an upper welding plate 44, a blanking opening 33 is formed in the upper welding plate 44, the upper end of the upper welding block 22 is connected with a hopper 12, the screen raw materials enter from the hopper 12 and fall from the blanking opening 33, a lower welding plate 45 is connected onto the lower welding block 19, a limiting piece used for limiting the position between the upper welding block 22 and the lower welding block 19 is connected onto the lower welding plate 45, and a wire guiding mechanism used for guiding the screen raw materials during screen welding is connected onto the lower welding block 19.

Specifically, as shown in fig. 4, the lower end of the upper welding plate 44 is connected with a limiting rod 21, the lower welding plate 45 is provided with a through hole 28, and the limiting rod 21 is engaged with the through hole 28.

Specifically, as shown in fig. 1, 9 and 10, the limiting piece comprises a vertical strip rail 11, limiting grooves 30 are formed in an upper welding block 22 and an upper welding plate 44, the vertical strip rail 11 is in sliding connection with the upper welding block 22 and the upper welding plate 44, the vertical strip rail 11 is mutually matched with the limiting grooves 30, a horizontal strip rail 8 is fixedly connected to a mounting plate frame 1, a horizontal clamp 9 is connected to the horizontal strip rail 8 in a sliding manner, a vertical sleeve 10 is connected to the horizontal clamp 9, a fixed connection is formed between the horizontal clamp 9 and the vertical sleeve 10, the horizontal strip rail 8 and the vertical strip rail 11 are mutually perpendicular, the vertical sleeve 10 is connected to the vertical strip rail 11 in a sliding manner, and a blanking component for blanking silk screen raw materials is connected to the upper welding block 22.

Specifically, as shown in fig. 10 and 11, the blanking assembly includes a clamping plate 39, two clamping plates 39 are structurally arranged, one ends of the two clamping plates 39 are mutually abutted, wherein the wire mesh welding raw materials placed in the hopper 12 fall above the clamping plates 39, a connecting groove 36 is formed in the upper welding block 22, a clamping rod 35 is connected in the connecting groove 36, the clamping plate 39 is rotationally connected to the clamping rod 35, one end of the clamping plate 39 is connected with a spring plate 40, the lower end of the spring plate 40 is connected with a return spring 38, the upper welding block 22 is connected with a connecting plate 34, the lower end of the return spring 38 is connected to the upper end of the connecting plate 34, the spring plate 40 is pulled to be close to the connecting plate 34 through the return spring 38, so that the two ends of the clamping plates 39 are mutually abutted, the wire mesh welding raw materials are prevented from falling from the blanking port 33, and the lifting assembly for lifting the spring plate 40 is connected to the connecting plate 34.

Specifically, as shown in fig. 4 and 9, the jacking assembly includes an air cylinder 37, the air cylinder 37 is connected to the connecting plate 34, the outer side of the lower welding block 19 is connected with two control buttons 20, the two air cylinders 37 are arranged, the control buttons 20 are arranged right below the limiting rod 21, the two control buttons 20 are arranged, and the two control buttons 20 are in one-to-one correspondence with the two air cylinders 37.

Specifically, as shown in fig. 3, fig. 6 and fig. 8, the outer side of the upper welding block 22 is connected with an upper rotating column 29, the outer side of the lower welding block 19 is connected with a lower rotating column 27, wherein the upper rotating column 29 and the lower rotating column 27 are rotationally connected on different turntable 42 structures, the upper rotating column 29 is provided with two, the two upper rotating columns 29 are symmetrically connected on the outer side of the upper welding block 22, the lower rotating column 27 is provided with two, the two lower rotating columns 27 are symmetrically and fixedly connected on the outer side of the lower welding block 19, the outer side of the installation plate frame 1 is connected with a motor frame 14, the motor frame 14 is connected with a rotating motor 15, the output end of the rotating motor 15 is connected with a driving gear 16, the driven gear 13 is structurally provided with four driven gears, two driven gears 13 are symmetrically connected on the upper side and the lower side of the driving gear 16, the other two driven gears 13 are symmetrically connected on the upper side and lower side of the synchronous gear 17, a limit tube 41 is connected on the installation plate frame 1, a rotating shaft 43 is rotationally connected on the limit tube 41, the rotating stability of the rotating shaft 43 is ensured by utilizing the limit tube 41, the two ends of the rotating shaft 43 are connected with the driven gears 13 and the turntable 42, the outer side of the motor seat 1 is connected with a rotating shaft seat 18, the motor 18 is connected with the driving gear 16, and the driven gear 13 is rotationally connected with the upper side plate frame 18 and the upper side of the synchronous gear 17 is respectively.

Specifically, as shown in fig. 1 and 6, the wire guiding mechanism comprises a wire mesh table 2, a support column 3 is connected to the lower end of the wire mesh table 2, the wire mesh table 2 is connected to one side of the installation plate frame 1, a first wire guiding groove 4 is formed in the wire mesh table 2, a second wire guiding groove 26 is formed in the lower welding block 19, a wheel frame 24 is fixedly connected to the outer side of the lower welding block 19, a plurality of wire guiding wheels 25 are fixedly connected to the wheel frame 24, the wire guiding wheels 25 are provided, the plurality of wire guiding wheels 25 are uniformly and fixedly connected to the wheel frame 24, and a dragging piece for pushing the wire mesh raw material to move on the first wire guiding groove 4 is connected to the upper welding block 22.

Specifically, as shown in fig. 5 and 9, the dragging member includes a dragging block 5, the outer side of the upper welding block 22 is connected with a hinge bracket 7 and a supporting block 31, the supporting block 31 is used for supporting the deflection plate 6, the deflection plate 6 is prevented from deflecting excessively downwards, the transportation of silk screen raw materials is disturbed, the deflection plate 6 is connected to the hinge bracket 7 in a rotating manner, one end of the deflection plate 6 is connected with a lifting rod 32, the lifting rod 32 is connected to the dragging block 5, a lifting rod 32 structure is arranged, the deflection plate 6 is connected with the dragging block 5 in a rotating manner, the dragging block 5 structure can swing, the lower end of the dragging block 5 is connected with an anti-slip strip 23, the silk screen raw materials are extruded by the anti-slip strip 23, and the silk screen raw materials are driven to move by the dragging block 5.

In summary, in the screen welding machine provided in this embodiment, when screen welding is required, longer screen raw materials are placed on the screen table 2 and sequentially placed on the first lead groove 4, then shorter screen raw materials are placed in the hopper 12, the rotating motor 15 is started, the driving gear 16 is rotated by the rotation of the rotating motor 15, then the driven gear 13 is rotated by the structure of mutual engagement between the driving gear 16 and the driven gear 13, the turntable 42 is rotated by the driven gear 13 in cooperation with the rotating shaft 43, wherein the lower rotating column 27 and the upper rotating column 29 are rotationally connected to the turntable 42, so that the lower rotating column 27 and the upper rotating column 29 are rotationally driven by the turntable 42, and because the lower welding block 19 and the upper welding block 22 are mutually connected by the vertical bar 11, and the vertical bar 11 is structurally limited by the vertical sleeve 10 and the horizontal clamp 9, the vertical bar rail 11 is always kept in a vertical state, the structures of the lower welding block 19 and the upper welding block 22 are driven by the lower rotating column 27 and the upper rotating column 29, the lower welding block 19 and the upper welding block 22 circulate in a moving state of moving away from each other and then approaching each other, in order to ensure the stability of the relative movement between the lower welding block 19 and the upper welding block 22, the structures of the limiting rod 21 and the through hole 28 are arranged, when the lower welding block 19 and the upper welding block 22 approach each other, the structures of the limiting rod 21 and the through hole 28 are butted with each other until the upper welding plate 44 and the lower welding plate 45 are mutually attached, the silk screen between the arranged structures is welded, wherein silk screen raw materials are moved through a silk screen guiding mechanism, when the lower welding block 19 and the upper welding block 22 approach each other, the structures are also moved back and forth, when the height of the upper welding block 22 is lowered, the structure of the upper welding block 22 drives the dragging block 5 to move back and forth, wherein the default wire mesh enters the device after the inlet of the device, namely one side of the wire mesh table 2 is the rear, and the direction of the wire mesh leaving the device after welding is finished is the front, namely the front-back direction refers to the front-back direction of wire mesh transportation, when the height of the dragging block 5 is lowered to contact with the wire mesh table 2, the anti-slip strips 23 on the lower surface of the dragging block 5 are used for contacting the wire mesh raw material on the wire mesh slot one 4, the deflection plate 6 is not contacted with the supporting block 31 structure when the height of the upper welding block 22 is continuously lowered, the deflection plate 6 is deflected at an angle, the structure of the upper welding block 22 is moved back and forth when the height of the upper welding block 22 is lowered from the highest point to the lowest point, and when the upper welding block is moved to the last side, the structure of the upper welding block 5 is just contacted with the wire mesh table 2, the structure of the upper welding block is moved forward, so that the anti-slip strip 23 is utilized to drive the wire mesh raw material to approach the upper welding block 22 and the lower welding block 19, the effect of pulling the wire mesh raw material is realized, the wire mesh raw material is pulled to the wire guiding groove II 26 from the wire mesh table 2 through the wire guiding wheel 25, the welding operation is completed in the wire guiding groove II 26, wherein when the upper welding block 22 and the lower welding block 19 approach each other, the lower end of the limiting rod 21 approaches the control button 20, the control button 20 is pressed by the lower end of the limiting rod 21, the air cylinder 37 is controlled to be structurally elongated by the control button 20, the height of the spring plate 40 is lifted by the telescopic end of the air cylinder 37, the structure of the clamping plate 39 is deflected, the two symmetrically arranged clamping plates 39 are separated from each other, the shorter wire mesh raw material arranged in the hopper 12 falls from the feed opening 33 and is butted with the longer wire mesh raw material, and the welding operation is completed by the mutual extrusion of the upper welding plate 44 and the lower welding plate 45, when the upper welding plate 44 and the lower welding plate 45 are mutually separated, the limiting rod 21 and the control button 20 are used for enabling the air cylinder 37 to shrink, the return spring 38 is used for pulling the spring plate 40, the clamping plate 39 is used for limiting the falling of the upper raw materials again, the welding machine utilizes the first lead wire groove 4, the second lead wire wheel 25 and the second lead wire groove 26 to enable the silk screen raw materials to be transported orderly, and the blanking opening 33 is used for being matched with the clamping plate 39, so that the silk screen structure is welded sequentially, the orderly arrangement of the silk screen structure is guaranteed, and the welding efficiency is high.

The previous description of the embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (3)

1. The screen welding machine comprises a mounting plate frame (1), and is characterized in that an upper welding block (22) and a lower welding block (19) are arranged between the mounting plate frame (1), the lower end of the upper welding block (22) is connected with an upper welding plate (44), a blanking opening (33) is formed in the upper welding plate (44), the upper end of the upper welding block (22) is connected with a hopper (12), the lower welding block (19) is connected with a lower welding plate (45), the lower welding plate (45) is connected with a limiting piece for limiting the position between the upper welding block (22) and the lower welding block (19), and the lower welding block (19) is connected with a wire guiding mechanism for guiding screen raw materials during screen welding;

the wire guiding mechanism comprises a wire mesh table (2), a support column (3) is connected to the lower end of the wire mesh table (2), a wire guiding groove I (4) is formed in the wire mesh table (2), a wire guiding groove II (26) is formed in a lower welding block (19), a wheel frame (24) is fixedly connected to the outer side of the lower welding block (19), a wire guiding wheel (25) is fixedly connected to the wheel frame (24), and a dragging piece for pushing wire mesh raw materials to move on the wire guiding groove I (4) is connected to the upper welding block (22);

the dragging piece comprises a dragging block (5), the outer side of the upper welding block (22) is connected with a hinged frame (7) and a supporting block (31), the hinged frame (7) is rotatably connected with a deflection plate (6), one end of the deflection plate (6) is connected with a lifting rod (32), the lifting rod (32) is connected to the dragging block (5), and the lower end of the dragging block (5) is connected with an anti-slip strip (23);

the limiting piece comprises a vertical strip rail (11), a limiting groove (30) is formed in the upper welding block (22) and the upper welding plate (44), the vertical strip rail (11) and the limiting groove (30) are mutually matched, a horizontal strip rail (8) is fixedly connected to the mounting plate frame (1), a horizontal clamp (9) is connected to the horizontal strip rail (8) in a sliding mode, a vertical sleeve (10) is connected to the horizontal clamp (9), the vertical sleeve (10) is connected to the vertical strip rail (11) in a sliding mode, and a blanking assembly used for blanking silk screen raw materials is connected to the upper welding block (22);

the blanking assembly comprises a clamping plate (39), a connecting groove (36) is formed in the upper welding block (22), a clamping rod (35) is connected in the connecting groove (36), the clamping rod (35) is rotationally connected with the clamping plate (39), one end of the clamping plate (39) is connected with a spring plate (40), the lower end of the spring plate (40) is connected with a reset spring (38), a connecting plate (34) is connected to the upper welding block (22), and a jacking assembly for jacking the spring plate (40) is connected to the connecting plate (34);

the welding device is characterized in that an upper rotating column (29) is connected to the outer side of the upper welding block (22), a lower rotating column (27) is connected to the outer side of the lower welding block (19), a motor frame (14) is connected to the outer side of the mounting plate frame (1), a rotating motor (15) is connected to the motor frame (14), a driving gear (16) is connected to the output end of the rotating motor (15), a limiting pipe (41) is connected to the mounting plate frame (1), a rotating shaft (43) is connected to the limiting pipe (41) in a rotating mode, driven gears (13) and rotating discs (42) are connected to the two ends of the rotating shaft (43), a shaft seat (18) is connected to the outer side of the mounting plate frame (1), and a synchronous gear (17) is connected to the shaft seat (18) in a rotating mode.

2. The screen welding machine according to claim 1, wherein the lower end of the upper welding plate (44) is connected with a limiting rod (21), and the lower welding plate (45) is provided with a through hole (28).

3. The wire mesh welding machine according to claim 1, wherein the jacking assembly comprises a cylinder (37), the cylinder (37) is connected to the connecting plate (34), a control button (20) is connected to the outer side of the lower welding block (19), and the control button (20) is arranged right below the limiting rod (21).