CN218592121U - Spliced aluminum plate's welding mechanism - Google Patents

Abstract

The utility model relates to a concatenation aluminum plate welding process technical field, concretely relates to concatenation aluminum plate's welding mechanism, including the mounting bracket, connect in the welding installation subassembly of mounting bracket lateral wall, with the soldered connection that the welding installation subassembly is connected, connect in the roof pressure installation subassembly at mounting bracket top, with the welding roof pressure subassembly that the roof pressure installation subassembly is connected and the bearing direction subassembly of being connected with the mounting bracket, welding roof pressure subassembly and the cooperation of bearing direction subassembly are used for compressing tightly concatenation aluminum plate, the soldered connection is used for welding concatenation aluminum plate's seam crossing. Connect the welding installation component at the lateral wall of mounting bracket, supply the soldered connection installation to soldered connection welding concatenation aluminum plate's seam crossing, roof pressure installation component and bearing direction subassembly cooperation compress tightly concatenation aluminum plate, are favorable to preventing that concatenation aluminum plate is not hard up and influence the welding effect among the welding process, satisfy vertical welding concatenation aluminum plate's demand.

Description

Spliced aluminum plate's welding mechanism

Technical Field

The utility model relates to a concatenation aluminum plate welding process technical field, concretely relates to concatenation aluminum plate's welding mechanism.

Background

Current concatenation aluminum plate adopts the concatenation of the aluminum lath more than two for most, and the recess is seted up to protruding, another lateral wall of a lateral wall of aluminum lath to in adjacent two pieces of aluminum lath concatenation, the aluminum plate after still need will splice carries out the welding seam welding, forms whole board aluminum plate.

After the spliced aluminum plate is vertically pulled, a welding mechanism for splicing the aluminum plate is lacked in the prior art, and the vertically spliced aluminum plate is welded.

Disclosure of Invention

In order to overcome the defects and deficiencies in the prior art, the utility model aims to provide a welding mechanism for splicing aluminum plates.

The purpose of the utility model is realized through the following technical scheme: the utility model provides a concatenation aluminum plate's welding mechanism, includes the mounting bracket, connects in the welding installation subassembly of mounting bracket lateral wall, with the soldered connection that the welding installation subassembly is connected, connect in the roof pressure installation subassembly at mounting bracket top, with the welding roof pressure subassembly that the roof pressure installation subassembly is connected and the bearing guide assembly who is connected with the mounting bracket, welding roof pressure subassembly and the cooperation of bearing guide assembly are used for compressing tightly concatenation aluminum plate, the soldered connection is used for welding concatenation aluminum plate's seam crossing.

Preferably, the welding installation component include with the Z axial sliding part that the lateral wall of mounting bracket is connected, the X axial connecting seat of being connected with Z axial sliding part, the X axial sliding part of being connected with X axial connecting seat, the welding mount pad of being connected with X axial sliding part and connect the Z axial adjustment member of mounting bracket and X axial connecting seat, the welding mount pad is connected with the soldered connection, Z axial adjustment member be used for with Z axial sliding part cooperation is adjusted the lift distance of X axial connecting seat.

Preferably, the Z-axis sliding component comprises a Z-axis sliding rail connected to the side wall of the mounting rack and a Z-axis sliding block connected to the Z-axis sliding rail in a sliding manner, and the Z-axis sliding block is connected to the X-axis connecting seat.

Preferably, the X axial sliding component includes an X axial sliding rail connected to the X axial connecting seat and an X axial sliding block slidably connected to the X axial sliding rail, and the X axial sliding block is connected to the welding mounting seat.

Preferably, Z axial adjustment part include with Y axial splint that one side of X axial connecting seat is connected, press from both sides the adjusting nut who locates Y axial splint middle part, run through Y axial splint and adjusting nut and with adjusting nut threaded connection's first adjusting screw and one end and the X axial supporting seat that the mounting bracket is connected, first screw thread through-hole has been seted up to the other end of X axial supporting seat, first adjusting screw run through first screw thread through-hole and with X axial supporting seat threaded connection.

Preferably, the jacking installation component comprises a first jacking support connected with the top of the mounting rack, a first lifting sliding component connected with the first jacking support, a second lifting sliding component connected with the first jacking support, a first lifting seat connected with the first lifting sliding component, a second lifting seat connected with the second lifting sliding component, and a lifting adjusting component connected with the mounting rack and the second lifting seat, wherein the output end of the welding jacking component is connected with the first lifting seat, the fixed end of the welding jacking component is connected with the second lifting seat, and the lifting adjusting component is used for adjusting the lifting distance of the second lifting seat in cooperation with the second lifting sliding component.

Preferably, the lifting adjusting part comprises a first screw rod supporting seat connected with the first jacking support, a second screw rod supporting seat connected with the second lifting seat, and a second adjusting screw rod penetrating through the first screw rod supporting seat and the second screw rod supporting seat, the first screw rod supporting seat is provided with a second thread through hole, the second screw rod supporting seat is provided with a third thread through hole, the second adjusting screw rod is in threaded connection with the first screw rod supporting seat through the second thread through hole, and the second adjusting screw rod is in threaded connection with the second screw rod supporting seat through the third thread through hole; the first lifting sliding part comprises a first lifting sliding rail connected with the first jacking support and a first lifting sliding block connected with the first lifting sliding rail in a sliding manner, and the first lifting sliding block is connected with the first lifting seat; the second lifting sliding part comprises a second lifting sliding rail connected with the first jacking support and a second lifting sliding block connected with the second lifting sliding rail in a sliding manner, and the second lifting sliding block is connected with a second lifting seat.

Preferably, the welding jacking assembly comprises a first lifting cylinder and a first jacking wheel set connected with the first lifting seat, the output end of the first lifting cylinder is connected with the first lifting seat, the fixed end of the first lifting cylinder is connected with the second lifting seat, and the first jacking wheel set is used for pressing and splicing the aluminum plate.

Preferably, the jacking installation assembly further comprises a second jacking support connected with the top of the installation frame, a third lifting sliding part connected with the second jacking support, a fourth lifting sliding part connected with the second jacking support, a third lifting seat connected with the third lifting sliding part, a fourth lifting seat connected with the fourth lifting sliding part, and a lifting connection seat connecting the second lifting seat and the third lifting seat; the welding jacking assembly further comprises a second jacking wheel set and a second jacking wheel set, the second jacking wheel set is connected with the fourth lifting seat and is used for pressing and splicing the aluminum plates, the fixed end of the second lifting cylinder is connected with the lifting connecting seat, and the output end of the second lifting cylinder is connected with the fourth lifting seat.

Preferably, the bearing guide assembly comprises a bearing seat connected with the mounting frame and a guide wheel rotatably connected with the bearing seat; when the welding of concatenation aluminum plate, concatenation aluminum plate's diapire supports with the leading wheel and leans on.

The beneficial effects of the utility model reside in that: the utility model discloses a concatenation aluminum plate's welding mechanism connects the welding installation subassembly at the lateral wall of mounting bracket, supplies the soldered connection installation to soldered connection welding concatenation aluminum plate's seam crossing, roof pressure installation subassembly and bearing direction subassembly cooperation compress tightly concatenation aluminum plate, are favorable to preventing that concatenation aluminum plate is not hard up and influence the welding effect among the welding process, satisfy vertical welding concatenation aluminum plate's demand.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is an enlarged schematic view of A in FIG. 1;

FIG. 3 is a schematic structural view of the welding mounting assembly of the present invention;

fig. 4 is a partially exploded view of the top pressure mounting assembly and the welding top pressure assembly of the present invention;

fig. 5 is a partially exploded view of the top press mounting assembly and the welding top press assembly of the present invention from another perspective.

The reference signs are: 1. a mounting frame; 2. welding a head; 3. welding the mounting assembly; 31. a Z-axis sliding member; 311. a Z-axis slide rail; 312. a Z-axis slide block; 32. an X-axis connecting seat; 33. an X-axis sliding member; 331. an X-axis slide rail; 332. an X-axis slide block; 34. welding the mounting seat; 35. a Z-axis adjustment component; 351. a Y-axis clamp plate; 352. adjusting the nut; 353. a first adjusting screw; 354. an X axial supporting seat; 4. the jacking and mounting assembly; 41. a first jacking support; 42. a first lifting sliding component; 421. a first lifting slide rail; 422. a first lifting slider; 43. a second lifting sliding component; 431. a second lifting slide rail; 432. a second lifting slide block; 44. a first lifting seat; 45. a second lifting seat; 46. a lift adjustment member; 461. a first screw rod supporting seat; 462. a second screw rod supporting seat; 463. a second adjusting screw; 47. a second jacking support; 48. a third lifting sliding component; 49. a fourth elevation slide member; 410. a third lifting seat; 411. a fourth lifting seat; 412. a lifting connecting seat; 5. welding a top pressing assembly; 51. a first lifting cylinder; 52. a first top pressing wheel set; 53. a second lifting cylinder; 54. a second top pressing wheel set; 6. a load bearing guide assembly; 61. a bearing seat; 62. a guide wheel.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and accompanying drawings, which are not intended to limit the present invention.

As shown in fig. 1-5, a welding mechanism for splicing aluminum plates comprises an installation frame 1, a welding installation component 3 connected to the side wall of the installation frame 1, a welding head 2 connected to the welding installation component 3, a top pressure installation component 4 connected to the top of the installation frame 1, a welding top pressure component 5 connected to the top pressure installation component 4, and a bearing guide component 6 connected to the installation frame 1, wherein the welding top pressure component 5 and the bearing guide component 6 are matched to compress the spliced aluminum plates, and the welding head 2 is used for welding the seams of the spliced aluminum plates.

This concatenation aluminum plate's welding mechanism connects welding installation component 3 at the lateral wall of mounting bracket 1, supplies the installation of soldered connection 2 to soldered connection 2 welds the seam crossing of concatenation aluminum plate, roof pressure installation component 4 and the cooperation of bearing guide assembly 6 compress tightly concatenation aluminum plate, are favorable to preventing among the welding process that concatenation aluminum plate is not hard up and influence the welding effect, satisfy vertical welding concatenation aluminum plate's demand.

In this embodiment, the welding installation component 3 includes a Z-axis sliding component 31 connected to the side wall of the mounting bracket 1, an X-axis connecting seat 32 connected to the Z-axis sliding component 31, an X-axis sliding component 33 connected to the X-axis connecting seat 32, a welding installation seat 34 connected to the X-axis sliding component 33, and a Z-axis adjusting component 35 connected to the mounting bracket 1 and the X-axis connecting seat 32, wherein the welding installation seat 34 is connected to the welding head 2, and the Z-axis adjusting component 35 is used for adjusting the lifting distance of the X-axis connecting seat 32 by matching with the Z-axis sliding component 31.

Adopt above-mentioned technical scheme, Z axial adjustment part 35 adjusts with the cooperation of Z axial sliding part 31 the lift distance of X axial connecting seat 32, X axial sliding part 33 adjusts the X axial direction distance of welding mount pad 34 to the welding distance of soldered connection 2 to the concatenation aluminum plate of adjusting.

Further, the Z-axis sliding component 31 includes a Z-axis sliding rail 311 connected to the side wall of the mounting bracket 1, and a Z-axis sliding block 312 slidably connected to the Z-axis sliding rail 311, and the Z-axis sliding block 312 is connected to the X-axis connecting seat 32.

Further, the X-axis sliding component 33 includes an X-axis sliding rail 331 connected to the X-axis connecting seat 32, and an X-axis sliding block 332 slidably connected to the X-axis sliding rail 331, and the X-axis sliding block 332 is connected to the welding installation seat 34.

Further, the Z-axis adjusting component 35 includes a Y-axis clamping plate 351 connected to one side of the X-axis connecting seat 32, an adjusting nut 352 clamped in the middle of the Y-axis clamping plate 351, a first adjusting screw 353 penetrating through the Y-axis clamping plate 351 and the adjusting nut 352 and threadedly connected to the adjusting nut 352, and an X-axis supporting seat 354 having one end connected to the mounting bracket 1, wherein a first threaded through hole (not shown) is formed at the other end of the X-axis supporting seat 354, and the first adjusting screw 353 penetrates through the first threaded through hole and threadedly connects to the X-axis supporting seat 354.

By adopting the technical scheme, when the X-axis connecting seat is used, the first adjusting screw 353 or the adjusting nut 352 is screwed so as to adjust the lifting distance of the X-axis connecting seat 32.

In this embodiment, the jacking-pressing mounting assembly 4 includes a first jacking seat 41 connected to the top of the mounting bracket 1, a first lifting/lowering sliding member 42 connected to the first jacking seat 41, a second lifting/lowering sliding member 43 connected to the first jacking seat 41, a first lifting/lowering seat 44 connected to the first lifting/lowering sliding member 42, a second lifting/lowering seat 45 connected to the second lifting/lowering sliding member 43, and a lifting/lowering adjusting member 46 connected to the mounting bracket 1 and the second lifting/lowering seat 45, wherein the output end of the welding jacking assembly 5 is connected to the first lifting/lowering seat 44, the fixed end of the welding jacking assembly 5 is connected to the second lifting/lowering seat 45, and the lifting/lowering adjusting member 46 is used for adjusting the lifting/lowering distance of the second lifting/lowering seat 45 in cooperation with the second lifting/lowering sliding member 43.

Further, the lifting adjusting member 46 includes a first screw supporting seat 461 connected to the first pressing support 41, a second screw supporting seat 462 connected to the second lifting support 45, and a second adjusting screw 463 penetrating the first screw supporting seat 461 and the second screw supporting seat 462, wherein the first screw supporting seat 461 is provided with a second threaded through hole (not shown), the second screw supporting seat 462 is provided with a third threaded through hole (not shown), the second adjusting screw 463 is in threaded connection with the first screw supporting seat 461 through the second threaded through hole, and the second adjusting screw 463 is in threaded connection with the second screw supporting seat 462 through the third threaded through hole; the first lifting sliding component 42 comprises a first lifting slide rail 421 connected with the first jacking support 41, and a first lifting slider 422 slidably connected with the first lifting slide rail 421, and the first lifting slider 422 is connected with the first lifting base 44; the second lifting and sliding part 43 comprises a second lifting and sliding rail 431 connected with the first jacking seat 41 and a second lifting and sliding block 432 connected with the second lifting and sliding rail 431 in a sliding manner, and the second lifting and sliding block 432 is connected with the second lifting and sliding seat 45.

Further, the welding jacking assembly 5 comprises a first lifting cylinder 51 and a first jacking wheel set 52 connected with the first lifting seat 44, the output end of the first lifting cylinder 51 is connected with the first lifting seat 44, the fixed end of the first lifting cylinder 51 is connected with the second lifting seat 45, and the first jacking wheel set 52 is used for pressing and splicing the aluminum plates.

Adopt above-mentioned technical scheme, during the use, adjust second screw supporting seat 462 and go up and down and then drive second lift seat 45 and first lift cylinder 51 and go up and down through twisting second adjusting screw 463, the first lift seat 44 of output drive of first lift cylinder 51 pushes down, makes first roof pressure wheelset 52 push down concatenation aluminum plate, is favorable to avoiding concatenation aluminum plate not hard up and influences the seam crossing welding of concatenation aluminum plate.

In this embodiment, the pressing and mounting assembly 4 further includes a second pressing support 47 connected to the top of the mounting frame 1, a third lifting and sliding member 48 connected to the second pressing support 47, a fourth lifting and sliding member 49 connected to the second pressing support 47, a third lifting and sliding seat 410 connected to the third lifting and sliding member 48, a fourth lifting and sliding seat 411 connected to the fourth lifting and sliding member 49, and a lifting and connecting seat 412 connecting the second lifting seat 45 and the third lifting and sliding seat 410; the welding jacking assembly 5 further comprises a second jacking cylinder 53 and a second jacking wheel set 54 connected with the fourth lifting seat 411, the second jacking wheel set 54 is used for pressing down spliced aluminum plates, the fixed end of the second jacking cylinder 53 is connected with the lifting connecting seat 412, and the output end of the second jacking cylinder 53 is connected with the fourth lifting seat 411.

Adopt above-mentioned technical scheme, during the use, lift adjustment part 46 adjusts second lift seat 45 and goes up and down to drive the connecting seat, third lift seat 410 and the lift of second lift cylinder 53, and the output drive fourth lift seat 411 of second lift cylinder 53 pushes down, makes second roof pressure wheelset 54 push down concatenation aluminum plate, and first roof pressure wheelset 52 pushes down concatenation aluminum plate with second roof pressure wheelset 54 jointly, more is favorable to avoiding concatenation aluminum plate not hard up and influence the seam crossing welding of concatenation aluminum plate.

In this embodiment, the load bearing guide assembly 6 comprises a bearing seat 61 connected with the mounting frame 1, and a guide wheel 62 rotatably connected with the bearing seat 61; when the spliced aluminum plate is welded, the bottom wall of the spliced aluminum plate abuts against the guide wheel 62.

Adopt above-mentioned technical scheme, when concatenation aluminum plate welding, concatenation aluminum plate's diapire supports with leading wheel 62 and leans on, is favorable to concatenation aluminum plate to stabilize the transport, prevents that concatenation aluminum plate vibration is not hard up and influence follow-up welding, also is favorable to preventing that concatenation aluminum plate from sliding and leading to wearing and tearing.

The above-mentioned embodiment is the utility model discloses the implementation of preferred, in addition, the utility model discloses can also realize by other modes, not deviating from the utility model discloses any obvious replacement is all within the protection scope under the prerequisite of design.

Claims (10)

1. The utility model provides a concatenation aluminum plate's welding mechanism which characterized in that: including the mounting bracket, connect in the welded mounting subassembly of mounting bracket lateral wall, with the soldered connection of welded mounting subassembly connection, connect in the roof pressure installation subassembly at mounting bracket top, with the welding roof pressure subassembly of roof pressure installation subassembly connection and the bearing direction subassembly of being connected with the mounting bracket, welding roof pressure subassembly and the cooperation of bearing direction subassembly are used for compressing tightly concatenation aluminum plate, the soldered connection is used for welding concatenation aluminum plate's seam crossing.

2. The welding mechanism for splicing aluminum plates according to claim 1, wherein: the welding installation component comprises a Z axial sliding component connected with the side wall of the installation rack, an X axial connecting seat connected with the Z axial sliding component, an X axial sliding component connected with the X axial connecting seat, a welding installation seat connected with the X axial sliding component and a Z axial adjusting component connected with the installation rack and the X axial connecting seat, wherein the welding installation seat is connected with a welding head, and the Z axial adjusting component is used for being matched with the Z axial sliding component to adjust the lifting distance of the X axial connecting seat.

3. The welding mechanism for splicing aluminum plates according to claim 2, wherein: the Z axial sliding part comprises a Z axial sliding rail connected with the side wall of the mounting rack and a Z axial sliding block connected with the Z axial sliding rail in a sliding manner, and the Z axial sliding block is connected with the X axial connecting seat.

4. The welding mechanism for splicing aluminum plates according to claim 2, wherein: the X axial sliding part comprises an X axial sliding rail connected with the X axial connecting seat and an X axial sliding block connected with the X axial sliding rail in a sliding mode, and the X axial sliding block is connected with the welding mounting seat.

5. The welding mechanism for splicing aluminum plates according to claim 2, wherein: z axial adjustment part include with Y axial splint that one side of X axial connecting seat is connected, press from both sides the adjusting nut who locates Y axial splint middle part, run through Y axial splint and adjusting nut and with adjusting nut threaded connection's first adjusting screw and one end and the X axial supporting seat that the mounting bracket is connected, first screw thread through-hole has been seted up to the other end of X axial supporting seat, first adjusting screw run through first screw thread through-hole and with X axial supporting seat threaded connection.

6. The welding mechanism for splicing aluminum plates according to claim 1, wherein: the jacking installation assembly comprises a first jacking support connected with the top of the mounting rack, a first lifting sliding component connected with the first jacking support, a second lifting sliding component connected with the first jacking support, a first lifting seat connected with the first lifting sliding component, a second lifting seat connected with the second lifting sliding component, and a lifting adjusting component connected with the mounting rack and the second lifting seat, wherein the output end of the welding jacking assembly is connected with the first lifting seat, the fixed end of the welding jacking assembly is connected with the second lifting seat, and the lifting adjusting component is used for adjusting the lifting distance of the second lifting seat in a matching way with the second lifting sliding component.

7. The welding mechanism for splicing aluminum plates according to claim 6, wherein: the lifting adjusting part comprises a first screw rod supporting seat connected with the first jacking support, a second screw rod supporting seat connected with the second lifting seat and a second adjusting screw rod penetrating through the first screw rod supporting seat and the second screw rod supporting seat, the first screw rod supporting seat is provided with a second thread through hole, the second screw rod supporting seat is provided with a third thread through hole, the second adjusting screw rod is in thread connection with the first screw rod supporting seat through the second thread through hole, and the second adjusting screw rod is in thread connection with the second screw rod supporting seat through the third thread through hole; the first lifting sliding part comprises a first lifting sliding rail connected with the first jacking support and a first lifting sliding block connected with the first lifting sliding rail in a sliding manner, and the first lifting sliding block is connected with the first lifting seat; the second lifting sliding part comprises a second lifting sliding rail connected with the first jacking support and a second lifting sliding block connected with the second lifting sliding rail in a sliding manner, and the second lifting sliding block is connected with a second lifting seat.

8. The welding mechanism for splicing aluminum plates according to claim 6, wherein: welding roof pressure subassembly include first lift cylinder and with the first roof pressure wheelset that first lift seat is connected, the output and the first lift seat of first lift cylinder are connected, the stiff end and the second lift seat of first lift cylinder are connected, first roof pressure wheelset is used for pushing down concatenation aluminum plate.

9. The welding mechanism for splicing aluminum plates according to claim 8, wherein: the jacking and mounting assembly further comprises a second jacking support connected with the top of the mounting rack, a third lifting sliding component connected with the second jacking support, a fourth lifting sliding component connected with the second jacking support, a third lifting seat connected with the third lifting sliding component, a fourth lifting seat connected with the fourth lifting sliding component, and a lifting connecting seat connecting the second lifting seat and the third lifting seat; the welding jacking assembly further comprises a second jacking wheel set and a second jacking wheel set, the second jacking wheel set is connected with the fourth lifting seat and is used for pressing and splicing the aluminum plates, the fixed end of the second lifting cylinder is connected with the lifting connecting seat, and the output end of the second lifting cylinder is connected with the fourth lifting seat.

10. The welding mechanism for splicing aluminum plates according to claim 1, wherein: the bearing guide assembly comprises a bearing seat connected with the mounting frame and a guide wheel rotatably connected with the bearing seat; when the welding of concatenation aluminum plate, concatenation aluminum plate's diapire supports with the leading wheel and leans on.

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