CN217114420U - Bypass welding strip forming and placing mechanism - Google Patents

Abstract

The utility model provides a bypass welding strip forming and placing mechanism, which relates to the photovoltaic technical field, and comprises a forming pulling mechanism and a carrying mechanism, wherein the forming pulling mechanism comprises a welding rod placing position, a cutter mechanism, a fixed clamping jaw mechanism, a first moving driving component and a moving clamping jaw mechanism, the moving clamping jaw mechanism is arranged on the first moving driving component, the carrying mechanism comprises a second moving mechanism, the second moving mechanism is provided with a welding strip carrying mechanism, the second moving mechanism comprises a transverse moving driving component and a lifting mechanism, and through the arrangement of the fixed clamping jaw mechanism, the moving clamping jaw mechanism and the welding strip carrying mechanism, the welding strip is accurately and efficiently absorbed and carried to a destination, the welding strip placing efficiency is improved, the production capacity is ensured, the structure is ingenious and reasonable, the practicability is higher, compared with the traditional manual work, the forming pulling, the cutting and the welding strip is straight, the length is accurate, the labor cost is saved, and the like.

Description

Bypass welding strip forming and placing mechanism

Technical Field

The utility model belongs to the technical field of the photovoltaic technology and specifically relates to bypass welds area shaping and places mechanism.

Background

There is not bypass to weld in the current convergent current welding machine and takes to draw and get placement machine structure, when switching to need the bypass to weld the version type, the manual work is drawn and is pulled directly to cut and weld and take inefficiency, and the error rate of cutting the in-process is high, has reduced subassembly production beat and quality to, the cost of labor is high, and the land use accounts for than the space big, to above-mentioned problem, this application provides a simple structure, degree of automation is high, take up an area of little, convenient to use's external bypass welds and takes automatic drawing of taking to cut and get and put the structure.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a bypass welds area shaping placement machine and constructs, has solved above-mentioned problem.

In order to solve the problem, the utility model provides a bypass welds area shaping and places mechanism, draw including the shaping and get mechanism and transport mechanism, the shaping is drawn and is got the mechanism and include that the welding rod places position, cutter mechanism, fixed clamping jaw mechanism, first removal drive assembly and removal clamping jaw mechanism, it installs to remove clamping jaw mechanism on the first removal drive assembly, transport mechanism includes the second moving mechanism, install on the second moving mechanism and weld area transport mechanism, the second moving mechanism includes lateral shifting drive assembly and elevating system, it is in to weld area transport mechanism last moving direction of lateral shifting drive assembly with there is the contained angle between the extending direction of position is placed to the welding rod.

According to the utility model relates to an embodiment, still including unreeling winding mechanism, weld and take one end process it gets into to unreel behind the winding mechanism the shaping is drawn and is got the mechanism position.

According to the utility model discloses an embodiment, unreel winding mechanism and roll up set and a plurality of leading wheel including the solder strip.

According to the utility model discloses an embodiment, the shaping is drawn and is got still including whole position mechanism in the mechanism, welds the area and passes through in proper order unreel winding mechanism whole position mechanism with fixed clamping jaw mechanism.

According to the utility model discloses an embodiment, whole position mechanism fixed clamping jaw mechanism with cutter mechanism sets gradually along welding the area direction of seeing off.

According to the utility model discloses an embodiment, weld and take transport mechanism includes the supporter, be equipped with a plurality of sucking disc subassembly on the supporter, the sucking disc subassembly be sharp arrange and with the welding rod is placed a extending direction and is parallel.

According to the utility model discloses an embodiment, the shaping is drawn and is got still including pressing claw mechanism in the mechanism, press claw mechanism be used for with the area that welds that removes clamping jaw mechanism and pull out compresses tightly.

According to the utility model discloses an embodiment, press claw mechanism to include drive division and press claw portion, the drive division is used for the drive press at least partly on the claw portion to the welding rod is placed the position orientation and is close to or keeps away from.

According to the utility model discloses an embodiment, it installs to weld area transport mechanism elevating system is last, elevating system installs lateral shifting drive assembly is last.

According to the utility model discloses an embodiment, lateral shifting drive assembly with mutually perpendicular sets up between the first removal drive assembly.

The beneficial effects of the utility model are that, through fixed clamping jaw mechanism, remove clamping jaw mechanism and weld the setting of taking transport mechanism, accurate high-efficient absorption is welded the area and will be welded area transport to destination, has improved and has welded the area and placed efficiency, has guaranteed the production productivity, and the structure is ingenious reasonable, and the practicality is higher, compares in traditional artifical worker and draws to drag to straighten and cut, and this application has area little, welds the area and pulls to straighten, and length is accurate, practiced thrift effects such as human cost.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a schematic view of the overall structure of a bypass welding strip forming and placing mechanism;

FIG. 2 is a front view of a bypass weld bead shaping placement mechanism;

FIG. 3 is a top view of the bypass weld bead shaping placement mechanism;

FIG. 4 is an enlarged schematic structural view of the unwinding and winding mechanism;

FIG. 5 is an enlarged schematic view of the forming and pulling mechanism;

FIG. 6 is a partially enlarged schematic structural view of the aligning mechanism, the fixed jaw mechanism and the cutter mechanism;

FIG. 7 is an enlarged partial schematic view of the moving jaw mechanism;

fig. 8 is a partially enlarged structural schematic diagram of the pressing claw mechanism.

Detailed Description

The following description is only intended to disclose the invention so as to enable any person skilled in the art to practice the invention. The embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents, and other arrangements without departing from the spirit and scope of the invention.

The bypass welding strip forming and placing mechanism is arranged on the rear side of a confluence welded transmission line body, and needs to be fixed by an expansion screw on the ground, a photovoltaic glass position adjusting function needs to be added to the confluence welded transmission line body to ensure the position accuracy of the bypass welding strip when the bypass welding strip is placed, an IO signal is given after the glass position adjustment is completed, the bypass welding strip placing mechanism places the formed welding strip to a specified position of an assembly after receiving the signal, and then manually welds the bypass welding strip with a head bus bar, a middle bus bar and a tail bus bar together, and the bypass welding strip forming and placing mechanism is compatible with various assembly specifications and has good adaptability;

the bypass solder strip shaping is placed the mechanism and is included control electrical cabinet 60, and the support is installed the shaping on the support and is drawn mechanism 40 and transport mechanism 50, the shaping is drawn and is got mechanism 40 and include that the welding rod places position 41, cutter mechanism 13, fixed clamping jaw mechanism 11, first removal drive assembly 14 and removal clamping jaw mechanism 9, it installs to remove clamping jaw mechanism 9 on first removal drive assembly 14, first removal drive assembly 14 is the translation belt line, and translation motor 15 is the drive power supply, transport mechanism 50 includes second moving mechanism, install solder strip handling mechanism 17 on the second moving mechanism, second moving mechanism includes lateral shifting drive assembly 16 and elevating system 18, and elevating system 18 is lift slip table, solder strip handling mechanism 17 is in moving direction on the lateral shifting drive assembly 16 with there is the contained angle between the extending direction that the welding rod placed position 41, the movable clamping jaw mechanism 9 is responsible for clamping the welding strip, then the welding strip is pulled to a proper length from the fixed clamping jaw mechanism 11, the pressing claw mechanism 10 presses the welding strip to move the clamping claw of the clamping claw mechanism 9 along with the welding strip to loosen, the cutter mechanism 13 cuts the welding strip, the welding strip is kept still at the welding strip placing position 41 at the moment to wait for the suction of a suction disc on the welding strip carrying mechanism 17, the transverse moving driving assembly 16 is a translation belt line, the transverse moving driving assembly 16 is used for driving the translation belt line to drive the welding strip carrying mechanism 17 to move to the upper side of the welding strip placing position 41 by utilizing a translation motor, the lifting motor drives the lifting sliding table 18 to move up and down to drive the welding strip carrying mechanism 17 to move down to enable the welding strip to be close to the assembly and then to suck the welding strip through the suction disc, then, the lifting sliding table 18 raises the solder strip carrying mechanism 17, and the transverse moving driving assembly 16 drives the solder strip carrying mechanism 17 to place the solder strip on the photovoltaic transmission line body.

The device is characterized by further comprising an unreeling and winding mechanism 30, wherein one end of a welding strip enters the forming and pulling mechanism 40 after passing through the unreeling and winding mechanism 30.

Unreel winding mechanism 30 and put position and a plurality of leading wheel including the welding strip book, as fig. 3, including motor 8, the welding strip book 1, leading wheel 2, leading wheel 3, leading wheel 4, buffer memory leading wheel 5, leading wheel 6, leading wheel 7, wherein, the welding strip is rolled up 1 and is installed and put the position at the welding strip book, welding strip book 1 is connected to the output shaft end of motor 8, the welding strip is in proper order from leading wheel 2, leading wheel 3, leading wheel 4, leading wheel 5, leading wheel 6 and leading wheel 7 process, the welding strip that goes out from leading wheel 7 makes it be convenient for draw to get and avoids the welding strip to take place the distortion after heavy gyro wheel release stress.

The forming pulling mechanism 40 further comprises a position adjusting mechanism 12, the welding strip sequentially passes through the unwinding winding mechanism 30, the position adjusting mechanism 12 and the fixed clamping jaw mechanism 11, and the position adjusting mechanism 12 is used for limiting the position of the welding strip.

The position aligning mechanism 12, the fixed clamping jaw mechanism 11 and the cutter mechanism 13 are sequentially arranged along the sending direction of the welding strip.

The welding strip carrying mechanism 17 comprises a support body 171, a plurality of sucker components 172 are arranged on the support body 171, and the sucker components 172 are linearly arranged and are parallel to the extending direction of the welding rod placing position 41.

The forming and pulling mechanism 40 further comprises a claw pressing mechanism 10, and the claw pressing mechanism 10 is used for pressing the welding strip pulled out by the movable clamping jaw mechanism 9.

The claw pressing mechanism 10 includes a driving portion 101 and a claw pressing portion 102, and the driving portion 101 is used for driving at least one part of the claw pressing portion 102 to approach or separate from the welding wire placing position 41. As shown in fig. 8, one end of the pressing claw part 102 is rotatably mounted on the driving part 101, and the driving part 101 drives one end of the pressing claw part 102 to rotate so that the other end moves closer to or away from the welding wire placing position 41.

In this embodiment, the movable clamping jaw mechanism 9, the pressing jaw mechanism 10, the fixed clamping jaw mechanism 11, the cutter mechanism and the like are all pneumatically driven.

The solder strip carrying mechanism 17 is mounted on the lifting mechanism 18, and the lifting mechanism 18 is mounted on the transverse movement driving assembly 16.

The transverse movement driving assembly 16 and the first movement driving assembly 14 are arranged perpendicular to each other.

It is to be understood by persons skilled in the art that the embodiments of the present invention described above and shown in the drawings are given by way of example only and are not limiting of the present invention. The objects of the present invention have been fully and effectively accomplished. The functional and structural principles of the invention have been shown and described in the embodiments without departing from the principles of the invention, embodiments of the invention may be subject to any deformation and modification.

Claims (10)

1. Mechanism is placed in bypass solder strip shaping, its characterized in that: draw mechanism (40) and handling mechanism (50) including the shaping, the shaping draws and gets mechanism (40) and includes that the welding rod places position (41), cutter mechanism (13), fixed clamping jaw mechanism (11), first removal drive assembly (14) and removal clamping jaw mechanism (9), it installs to remove clamping jaw mechanism (9) on first removal drive assembly (14), handling mechanism (50) include second moving mechanism, install on the second moving mechanism and weld area handling mechanism (17), second moving mechanism includes lateral shifting drive assembly (16) and elevating system (18), it is in to weld area handling mechanism (17) removal direction on lateral shifting drive assembly (16) with there is the contained angle between the extending direction that the welding rod placed position (41).

2. The bypass solder strip forming and placing mechanism of claim 1, wherein: the welding wire forming machine is characterized by further comprising an unreeling and winding mechanism (30), wherein one end of a welding wire enters the forming and drawing mechanism (40) after passing through the unreeling and winding mechanism (30).

3. The bypass solder strip forming and placing mechanism of claim 2, wherein: the unreeling and winding mechanism (30) comprises a welding strip coil unreeling position and a plurality of guide wheels.

4. The bypass solder strip forming and placing mechanism of claim 2 or 3, wherein: the forming pulling mechanism (40) further comprises a position adjusting mechanism (12), and the welding strip sequentially passes through the unreeling winding mechanism (30), the position adjusting mechanism (12) and the fixed clamping jaw mechanism (11).

5. The bypass solder strip forming and placing mechanism of claim 4, wherein: the aligning mechanism (12), the fixed clamping jaw mechanism (11) and the cutter mechanism (13) are sequentially arranged along the welding strip sending-out direction.

6. The bypass weld bead forming and placing mechanism according to claim 1 or 5, wherein: weld area transport mechanism (17) including supporter (171), be equipped with a plurality of sucking disc subassembly (172) on supporter (171), sucking disc subassembly (172) be the straight line arrange and with position (41) extending direction is parallel are placed to the welding rod.

7. The bypass weld bead forming and placing mechanism according to claim 1 or 5, wherein: the forming pulling mechanism (40) further comprises a claw pressing mechanism (10), and the claw pressing mechanism (10) is used for pressing the welding strip pulled out by the movable clamping jaw mechanism (9).

8. The bypass solder strip forming and placing mechanism of claim 7, wherein: the claw pressing mechanism (10) comprises a driving portion (101) and a claw pressing portion (102), wherein the driving portion (101) is used for driving at least one part of the claw pressing portion (102) to be close to or far away from the welding rod placing position (41).

9. The bypass weld deposit forming mechanism of claim 6, wherein: the welding strip carrying mechanism (17) is installed on the lifting mechanism (18), and the lifting mechanism (18) is installed on the transverse moving driving assembly (16).

10. The bypass solder strip forming and placing mechanism of claim 9, wherein: the transverse moving driving component (16) and the first moving driving component (14) are arranged perpendicular to each other.

Images