CN217009210U - Lead wire auxiliary mechanism and high-temperature cloth removing and lead wire erecting all-in-one machine - Google Patents

Abstract

The utility model discloses a lead auxiliary mechanism and a high-temperature cloth removing and lead erecting integrated machine, wherein the lead auxiliary mechanism comprises a lead correcting auxiliary block, floating mechanisms capable of enabling the lead correcting auxiliary block to float up and down are arranged on two sides of the lead correcting auxiliary block, each floating mechanism comprises a guide pillar, a floating spring, a sliding seat and a rail plate, the lead correcting auxiliary block is arranged at the bottom end part of the guide pillar and fixedly connected with the floating spring in an inner cavity of the guide pillar, when the sliding seat moves up and down along with the rail plate, the guide pillar synchronously moves up and down along with the sliding seat, and the lead correcting auxiliary block is driven to float up and down through the floating spring; the high-temperature cloth removing and lead erecting integrated machine comprises the lead auxiliary mechanism. Through the mode, the lead auxiliary mechanism and the high-temperature cloth removing and lead erecting all-in-one machine adopt the spring lead auxiliary mechanism, can float up and down in the working movement, eliminate the precision requirement, effectively avoid the interference of the lead correcting auxiliary block and the U-shaped clamping jaw, and can more effectively and stably remove the high-temperature cloth and the lead straightening line.

Description

Lead wire auxiliary mechanism and high temperature cloth removing and lead wire erecting all-in-one machine

Technical Field

The utility model relates to the technical field of photovoltaic module manufacturing equipment, in particular to a lead auxiliary mechanism and a high-temperature cloth removing and lead erecting all-in-one machine.

Background

The solar photovoltaic module is required to remove the high-temperature cloth and erect the lead before the junction box is installed, and currently, the high-temperature cloth is removed and the lead is erected mostly in a manual operation mode. However, the high-temperature cloth is fixed on the back plate in an adhesive mode, a large amount of manpower is consumed for manual removal, and the solar back plate is easily scratched to affect the product quality.

At present, part of manufacturers can remove the high-temperature cloth through a scraper knife, the scraper knife is lifted upwards after the removal work is finished, and the scraper knife can still press the high-temperature cloth due to accuracy errors, so that the back plate can be scratched; in addition, the lead calibration auxiliary block interferes with the U-shaped clamping jaw, and subsequent work of high-temperature cloth removal and lead calibration is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model mainly solves the technical problem of providing a lead auxiliary mechanism and a high-temperature cloth removing and lead erecting integrated machine, wherein the spring lead auxiliary mechanism is adopted, so that the spring lead auxiliary mechanism can float up and down in the working movement, the precision requirement is eliminated, and the interference between a lead correcting auxiliary block and a U-shaped clamping jaw is effectively avoided; can guarantee to promote the back at the spiller, lead wire complementary unit still can push down high temperature cloth, has eliminated mechanical horizontal error, effectively avoids the backplate fish tail, gets rid of high temperature cloth and alignment lead-out wire more effectively steadily.

In order to solve the technical problems, the utility model adopts a technical scheme that: provided is a lead assist mechanism including: a lead correction auxiliary block, wherein floating mechanisms capable of enabling the lead correction auxiliary block to float up and down are arranged on two sides of the lead correction auxiliary block,

the floating mechanism comprises a guide post, a floating spring arranged in the inner cavity of the guide post, a sliding seat fixedly connected on the guide post and a sliding rail plate which can be used for the sliding seat to slide up and down, the lead correcting auxiliary block is arranged at the bottom end part of the guide post and fixedly connected with the floating spring in the inner cavity of the guide post,

when the sliding seat moves up and down along with the sliding rail plate, the guide post moves up and down along with the sliding seat synchronously, and the floating spring drives the lead correcting auxiliary block to float up and down.

In a preferred embodiment of the present invention, the middle of the slide rail plate is provided with a sliding slot, and the convex part of the slide seat is arranged in the sliding slot in a matching way.

In a preferred embodiment of the present invention, the sliding seat has a vertically penetrating sliding slot hole, the guide pillar extends into the sliding slot hole, and the top end of the guide pillar is locked with the sliding seat by a limit screw.

In a preferred embodiment of the present invention, the sliding seat is further provided with a sliding rail plate mounting hole, and the sliding seat is fittingly mounted on the sliding rail plate and fixedly connected with the sliding rail plate through the sliding rail plate mounting hole.

In a preferred embodiment of the utility model, the outer diameter of the floating spring is matched with the diameter of the guide post inner cavity, the floating spring is just accommodated in the guide post inner cavity, and the bottom end part of the floating spring is connected with the lead calibration auxiliary block.

In a preferred embodiment of the utility model, the auxiliary lead calibration block comprises a lead area contact block and connecting blocks connected to two sides of the lead area contact block, and the auxiliary lead calibration block is connected with the floating spring in the cavity of the guide pillar through the connecting blocks on two sides.

In a preferred embodiment of the utility model, a lead-erecting U-shaped clamping jaw is arranged in a space above the lead area contact block, and the lead-correcting auxiliary block is arranged in a vertically floating mode and is not in contact with the lead-erecting U-shaped clamping jaw.

In order to solve the technical problem, the utility model adopts another technical scheme that: the utility model provides a remove high temperature cloth and found lead wire all-in-one, including sucking disc subassembly, shovel sword subassembly and lead wire complementary unit, sucking disc subassembly symmetry sets up in the both sides of lead wire complementary unit, and shovel sword subassembly corresponds the setting with the sucking disc subassembly, and the sucking disc subassembly is with high temperature cloth both sides perk, then shovel sword subassembly removes to realize getting rid of high temperature cloth, drives lead wire complementary unit when shovel sword subassembly removes and moves and stands the lead wire.

The utility model has the beneficial effects that: the lead auxiliary mechanism and the high-temperature cloth removing and lead erecting all-in-one machine adopt the spring lead auxiliary mechanism, so that the spring lead auxiliary mechanism can float up and down in the working movement, the precision requirement is eliminated, and the interference between a lead correcting auxiliary block and a U-shaped clamping jaw is effectively avoided; can guarantee to promote the back at the spiller, lead wire complementary unit still can push down high temperature cloth, has eliminated mechanical horizontal error, effectively avoids the backplate fish tail, gets rid of high temperature cloth and alignment lead-out wire more effectively steadily.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without inventive efforts, wherein:

FIG. 1 is a schematic structural diagram of a preferred embodiment of a wire assist mechanism of the present invention;

FIG. 2 is a schematic structural diagram of a preferred embodiment of a slider in the wire assist mechanism of the present invention;

FIG. 3 is a schematic structural diagram of a preferred embodiment of the connection between the sliding base, the guiding post and the auxiliary lead calibration block in the auxiliary lead mechanism of the present invention;

FIG. 4 is a bottom view of FIG. 3;

the components in the drawings are numbered as follows: 100. the lead calibration auxiliary block 110, the lead area contact block 120, the connection block 200, the guide pillar 300, the floating spring 400, the sliding seat 410, the convex part 420, the sliding rail plate mounting hole 430, the sliding groove hole 500, the sliding rail plate 510, the sliding groove 600 and the limit screw.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 4, an embodiment of the present invention includes:

example one

A lead assist mechanism comprising: and a lead correction auxiliary block 100, wherein floating mechanisms capable of enabling the lead correction auxiliary block to float up and down are arranged on two sides of the lead correction auxiliary block.

Specifically, the floating mechanism includes a guide pillar 200, a floating spring 300 disposed in an inner cavity of the guide pillar 200, a sliding seat 400 fixedly connected to the guide pillar 200, and a sliding rail plate 500 for the sliding seat 400 to slide up and down, and the lead calibration auxiliary block 100 is disposed at a bottom end of the guide pillar 200 and fixedly connected to the floating spring 300 in the inner cavity of the guide pillar 200.

Further, the slide rail plate 500 has a sliding slot 510 in the middle, and the protruding portion 410 of the slide carriage 400 is fittingly disposed in the sliding slot 510; the sliding seat 400 is further provided with a sliding rail plate mounting hole 420, and the sliding seat 400 is mounted on the sliding rail plate 500 in a matching manner and is fixedly connected with the sliding rail plate 500 through the sliding rail plate mounting hole 420.

The sliding base 400 has a sliding slot 430 penetrating vertically, the guide pillar 200 extends into the sliding slot 430, and the top end of the guide pillar 200 is locked with the sliding base 400 by a limit screw 600. The outer diameter of the floating spring 300 is matched with the diameter of the inner cavity of the guide post 200, the floating spring 300 is just accommodated in the inner cavity of the guide post 200, and the bottom end part of the floating spring 300 is connected with the lead calibration auxiliary block 100.

Further, the auxiliary calibration lead block 100 includes a contact block 110 and connection blocks 120 connected to both sides of the contact block 110, and the auxiliary calibration lead block 100 is connected to the floating spring 300 in the inner cavity of the guide post 200 through the connection blocks 120.

A lead-erecting U-shaped clamping jaw is arranged in a space above the lead region contact block 110, and the lead-correcting auxiliary block 100 is arranged in a vertically floating mode and is not in contact with the lead-erecting U-shaped clamping jaw.

In the utility model, when the slide carriage 400 moves up and down along with the slide rail plate 500, the guide post 200 moves up and down synchronously along with the slide carriage 400, and the floating spring 300 drives the lead calibration auxiliary block 100 to float up and down.

The spring lead auxiliary mechanism can enable the spring lead auxiliary mechanism to float up and down in the working movement, eliminates the precision requirement, effectively avoids the interference between the lead correction auxiliary block and the U-shaped clamping jaw, and can continue to be further reduced to adapt to the size of shorter high-temperature cloth when the descending height of the U-shaped clamping jaw is higher, so that the high-temperature cloth can be more effectively, reliably and stably removed and the lead wire can be straightened.

Example two

A high-temperature cloth removing and lead erecting integrated machine comprises a sucker assembly, a scraper knife assembly and a lead auxiliary mechanism, wherein the sucker assembly is symmetrically arranged at two sides of the lead auxiliary mechanism, the scraper knife assembly and the sucker assembly are correspondingly arranged,

the sucking disc subassembly is with high temperature cloth both sides perk, then the scraper knife subassembly removes and realizes getting rid of high temperature cloth, drives the motion of lead wire complementary unit and stands the lead wire when the scraper knife subassembly removes.

The lead auxiliary mechanism floating up and down can ensure that the lead auxiliary mechanism can still press high-temperature cloth after the scraper knife is lifted, mechanical horizontal errors are eliminated, back plate scratches are effectively avoided, and lead wires are more effectively straightened.

The lead auxiliary mechanism and the high-temperature cloth removing and lead erecting all-in-one machine have the advantages that:

the spring lead auxiliary mechanism is adopted, so that the spring lead auxiliary mechanism can float up and down in the working movement, the precision requirement is eliminated, and the interference between the lead correction auxiliary block and the U-shaped clamping jaw is effectively avoided;

can guarantee to promote the back at the spiller, lead wire complementary unit still can push down high temperature cloth, has eliminated mechanical horizontal error, effectively avoids the backplate fish tail, gets rid of high temperature cloth and alignment lead-out wire more effectively steadily.

The above description is only an embodiment of the present invention, and is not intended to limit the scope of the present invention, and all equivalent structures or equivalent processes performed by the present invention or directly or indirectly applied to other related technical fields are also included in the scope of the present invention.

Claims (8)

1. A lead assist mechanism, comprising: a lead correction auxiliary block, wherein floating mechanisms capable of enabling the lead correction auxiliary block to float up and down are arranged on two sides of the lead correction auxiliary block,

the floating mechanism comprises a guide post, a floating spring arranged in the cavity of the guide post, a sliding seat fixedly connected on the guide post and a sliding rail plate for the sliding seat to slide up and down, the lead correcting auxiliary block is arranged at the bottom end part of the guide post and fixedly connected with the floating spring in the cavity of the guide post,

when the sliding seat moves up and down along with the sliding rail plate, the guide post moves up and down along with the sliding seat synchronously, and the floating spring drives the lead correcting auxiliary block to float up and down.

2. The wire assist mechanism of claim 1, wherein the slide plate has a slide slot in the middle thereof, and the protruding portion of the slide is fitted into the slide slot.

3. The lead assist mechanism according to claim 1, wherein the slide base has a vertically extending slot, the guide post extends into the slot, and the top end of the guide post is locked to the slide base by a stop screw.

4. The lead assist mechanism as claimed in claim 1, wherein the slide base further has a slide plate mounting hole, and the slide base is fittingly mounted on the slide plate and fixedly connected to the slide plate through the slide plate mounting hole.

5. The lead assist mechanism of claim 3, wherein the outer diameter of the floating spring is matched to the diameter of the guide post cavity, the floating spring is received in the guide post cavity, and the bottom end of the floating spring is connected to the lead correction assist block.

6. The lead assist mechanism of claim 5 wherein the calibration lead assist block includes a lead area contact block and connection blocks connected to both sides of the lead area contact block, the calibration lead assist block being connected to the floating spring in the guide post cavity through the connection blocks on both sides.

7. The wire assist mechanism according to claim 6, wherein a wire-raising U-shaped claw is provided in a space above the wire area contact block, and the wire correction sub-block is provided floating up and down without contacting the wire-raising U-shaped claw.

8. An integrated machine for removing high-temperature cloth and erecting leads, which is characterized by comprising a sucker component, a scraper knife component and a lead auxiliary mechanism, wherein the lead auxiliary mechanism is the lead auxiliary mechanism in any one of claims 1 to 7, the sucker component is symmetrically arranged at two sides of the lead auxiliary mechanism, the scraper knife component and the sucker component are correspondingly arranged,

the sucking disc subassembly is with high temperature cloth both sides perk, then the scraper knife subassembly removes and realizes getting rid of high temperature cloth, drives the motion of lead wire complementary unit and stands the lead wire when the scraper knife subassembly removes.

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