CN216470221U - Battery string feeding anti-skid device and string welding machine - Google Patents

Abstract

The utility model relates to a battery string feeding anti-skid device and a stringer. The battery string feeding antiskid device comprises a conveyer belt follow-up mechanism, a battery string pressing mechanism and a lifting mechanism; the conveying belt follow-up mechanism is arranged on the battery string pressing mechanism, and the battery string pressing mechanism is arranged on the lifting mechanism; the lifting mechanism is configured to drive the battery string pressing mechanism to descend so as to press the battery string on the battery string conveying belt, and to drive the conveying belt follow-up mechanism to descend to contact with the battery string conveying belt so that the conveying belt follow-up mechanism can move along with the battery string conveying belt. When the battery string is fed, the battery string is tightly pressed on the battery string conveying belt through the battery string pressing mechanism, the battery string pressing mechanism moves along with the battery string conveying belt through the conveying belt follow-up mechanism, the battery string can be prevented from slipping on the battery string conveying belt, the normal feeding of the battery string is ensured, and the discharging efficiency of the battery string is further ensured.

Description

Battery string feeding anti-skid device and string welding machine

Technical Field

The utility model relates to solar cell production equipment, in particular to a cell string feeding anti-skidding device and a string welding machine.

Background

In the production process of the battery string, after the battery string is welded, the battery string is generally conveyed by a conveying belt. When the conveying speed of the conveying belt is relatively high, the phenomenon that the battery strings slip on the conveying belt can occur, so that the battery strings cannot be conveyed to a preset blanking position, and the blanking efficiency of the battery strings is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a battery string feeding anti-skidding device capable of stably conveying battery strings and a stringer, aiming at the problem that the existing battery strings can skid during conveying.

In a first aspect, the utility model provides a battery string feeding antiskid device, which comprises a conveyer belt follow-up mechanism, a battery string pressing mechanism and a lifting mechanism, wherein the conveyer belt follow-up mechanism is arranged on the conveyer belt; wherein: the conveying belt follow-up mechanism is arranged on the battery string pressing mechanism, and the battery string pressing mechanism is arranged on the lifting mechanism; the lifting mechanism is configured to drive the battery string pressing mechanism to descend so as to press the battery string on the battery string conveying belt, and drive the conveying belt follow-up mechanism to descend to contact the battery string conveying belt so that the conveying belt follow-up mechanism can move along with the battery string conveying belt.

When the battery string is fed, the battery string is tightly pressed on the battery string conveying belt through the battery string pressing mechanism, the battery string pressing mechanism moves along with the battery string conveying belt through the conveying belt follow-up mechanism, the battery string can be prevented from slipping on the battery string conveying belt, the normal feeding of the battery string is ensured, and the discharging efficiency of the battery string is further ensured.

Furthermore, the battery string pressing mechanism comprises a pressing block and a pressing block mounting plate, the pressing block is mounted below the pressing block mounting plate, and the pressing block mounting plate is mounted on a movable part of the lifting mechanism.

The pressing block of the battery string pressing mechanism is driven to lift through the lifting mechanism, the structure is simple, the assembly and the maintenance are convenient, and the production cost and the use cost can be reduced.

Furthermore, two pressing blocks are arranged at intervals along the conveying direction perpendicular to the conveying belt of the battery string.

The battery string is tightly pressed on the battery string conveying belt through the two pressing blocks, so that the contact area between the pressing blocks and the battery string conveying belt can be increased, and the friction force is increased.

Furthermore, the conveyer belt servo-actuated mechanism includes two follow-up blocks, and two follow-up blocks are symmetrically installed at the both ends of briquetting mounting panel.

The battery string pressing mechanism moves along with the battery string conveying belt through the two follow-up blocks arranged at the two ends of the pressing block mounting plate, so that the space can be fully utilized, and the size of the whole device is reduced.

Furthermore, the follow-up block is connected to the pressing block mounting plate through the oval hole.

The position of the follow-up block can be adjusted through the waist circular hole, and the follow-up block is convenient to mount.

Further, elevating system includes installation piece and lift cylinder, and the lift cylinder is installed on the installation piece.

The lifting mechanism adopts a lifting cylinder, and has simple structure and low cost.

Further, there are two lift cylinders, and two lift cylinders are installed at the side of installation piece at the interval, and two lift cylinders are configured as vertical lift.

Two lifting cylinders are adopted to lift the battery string pressing mechanism, so that the battery string pressing mechanism can be ensured to be lifted stably.

Furthermore, the anti-skid device for feeding the battery string further comprises a guide mechanism, and the lifting mechanism is installed on the guide mechanism and can translate along the guide mechanism.

The lifting mechanism is arranged on the guide mechanism, so that the lifting mechanism can move on the guide mechanism stably.

Furthermore, the guide mechanism comprises two parallel slide rails, and the mounting block of the lifting mechanism is respectively matched on the two slide rails in a sliding manner through the two slide blocks.

The guide mechanism adopts a slide rail and slide block structure, has simple structure and is convenient to manufacture and install.

In a second aspect, the utility model provides a series welding machine, which comprises a battery string conveying belt, a battery string feeding mechanism and a battery string feeding anti-skid device as in any one of the first aspect; wherein: the battery string feeding antiskid device is arranged on a movable part of the battery string feeding mechanism; the battery string feeding mechanism is configured to drive the battery string feeding antiskid device to move above the battery string conveying belt; the battery string feeding antiskid device is configured to press the battery string against the battery string conveyor belt so that the battery string moves along with the battery string conveyor belt.

The battery string feeding antiskid device is arranged on the battery string feeding mechanism of the string welding machine, so that the string welding machine cannot slip on a battery string conveying belt when the battery string is fed, and the production efficiency of the string welding machine can be ensured.

Drawings

Fig. 1 is a schematic perspective view of an alternative embodiment of the anti-slip device for feeding a battery string according to the present invention.

Fig. 2 is a top view of fig. 1.

Fig. 3 is a left side view of fig. 1.

Fig. 4 is a right side view of fig. 1.

In fig. 1 to 4, the present invention includes:

the battery string is fed into the antiskid device 1;

a conveyer belt follow-up mechanism 10, a follow-up block 11 and a waist circular hole 12;

the battery string pressing mechanism 20, the pressing block 21 and the pressing block mounting plate 22;

a lifting mechanism 30, a mounting block 31 and a lifting cylinder 32;

a guide mechanism 40, a slide rail 41, and a slider 42;

the battery string feeding mechanism 50.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

As shown in fig. 1 to 4, the present invention provides a battery string feeding antiskid device 1 applied to a stringer, which prevents a battery string from slipping on a battery string conveyor belt when the battery string is fed by the stringer.

As an alternative embodiment, the battery string feeding antiskid device 1 includes a conveyor belt following mechanism 10, a battery string pressing mechanism 20, and a lifting mechanism 30.

Wherein: the conveyer belt follow-up mechanism 10 is arranged on the battery string pressing mechanism 20, and the battery string pressing mechanism 20 is arranged on the lifting mechanism 30; the elevator mechanism 30 is configured to lower the battery string pressing mechanism 20 to press the battery string against the battery string conveyor belt, and to lower the conveyor belt follower mechanism 10 into contact with the battery string conveyor belt so that the conveyor belt follower mechanism 10 can move along with the battery string conveyor belt.

When the battery string is fed, the battery string is tightly pressed on the battery string conveying belt through the battery string pressing mechanism 20, the battery string pressing mechanism 20 moves along with the battery string conveying belt through the conveying belt follow-up mechanism 10, the battery string can be prevented from slipping on the battery string conveying belt, the normal feeding of the battery string is ensured, and the discharging efficiency of the battery string is further ensured.

In this embodiment, the battery string compressing mechanism 20 optionally includes a press block 21 and a press block mounting plate 22, the press block 21 being mounted below the press block mounting plate 22, and the press block mounting plate 22 being mounted on a movable part of the elevating mechanism 30.

The lifting mechanism 30 drives the pressing block 21 of the battery string pressing mechanism 20 to lift, the structure is simple, the assembly and the maintenance are convenient, and the production cost and the use cost can be reduced.

In one embodiment, the press block 21 is optionally provided in two pieces, and is arranged at intervals in the conveying direction perpendicular to the battery string conveying belt.

The battery string is tightly pressed on the battery string conveying belt through the two pressing blocks 21, so that the contact area between the pressing blocks 21 and the battery string conveying belt can be increased, and the friction force is increased.

As an alternative embodiment, the conveyer belt follow-up mechanism 10 includes two follow-up blocks 11, and the two follow-up blocks 11 are symmetrically installed at two ends of the press block installation plate 22.

The battery string pressing mechanism 20 moves along with the battery string conveying belt through the two follow-up blocks 11 arranged at the two ends of the pressing block mounting plate 22, so that the space can be fully utilized, and the volume of the whole device is reduced.

Optionally, the follower block 11 is connected to the press block mounting plate 22 through the waist circular hole 12.

The position of the follow-up block 11 can be adjusted through the waist circular hole 12, and the follow-up block 11 is convenient to mount.

Optionally, the follower block 11 is made of an angle steel with an L-shaped cross section. The follow-up block 11 is made of angle steel, so that the production cost can be reduced.

As an alternative embodiment, the lifting mechanism 30 includes a mounting block 31 and a lifting cylinder 32, and the lifting cylinder 32 is mounted on the mounting block 31.

The lifting mechanism 30 adopts a lifting cylinder 32, and has simple structure and low cost.

In one embodiment, optionally, there are two lifting cylinders 32, two lifting cylinders 32 are installed on the side of the mounting block 31 at intervals, and the two lifting cylinders 32 are configured to lift vertically.

Two lifting cylinders 32 are used for lifting the battery string pressing mechanism 20, so that the battery string pressing mechanism 20 can be ensured to be lifted stably.

As an alternative embodiment, the battery string feeding antiskid device 1 further includes a guide mechanism 40, and the lifting mechanism 30 is mounted on the guide mechanism 40 to be translatable along the guide mechanism 40.

The elevating mechanism 30 is mounted on the guide mechanism 40 so that the elevating mechanism 30 can be smoothly moved on the guide mechanism 40.

Alternatively, the guiding mechanism 40 includes two sliding rails 41 arranged in parallel, and the mounting block 31 of the lifting mechanism 30 is slidably fitted on the two sliding rails 41 through two sliding blocks 42.

The guide mechanism 40 adopts a structure of a slide rail 41 and a slide block 42, and has a simple structure and is convenient to manufacture and install.

The utility model also provides a series welding machine, which comprises a battery string conveying belt, a battery string feeding mechanism 50 and the battery string feeding antiskid device 1; wherein: the battery string feeding antiskid device 1 is installed on the movable part of the battery string feeding mechanism 50; the battery string feeding mechanism 50 is configured to drive the battery string feeding antiskid device 1 to move above the battery string conveying belt; the battery string feeding antiskid device 1 is configured to press the battery string against the battery string conveying belt so that the battery string moves along with the battery string conveying belt.

By arranging the battery string feeding antiskid device 1 on the battery string feeding mechanism 50 of the stringer, the stringer is prevented from slipping on the battery string conveyor belt when feeding the battery string, and the production efficiency of the stringer can be ensured.

Alternatively, the battery string feeding mechanism 50 employs a feeding cylinder, and the mounting block 31 of the elevating mechanism 30 of the battery string feeding antiskid device 1 is connected to the piston rod of the feeding cylinder through a bracket. In the process that the follow-up block 11 moves along with the battery string conveying belt, the feeding cylinder does not provide driving force and is only responsible for driving the pressing block 21 to extend out after the feeding is finished, so that the pressing block 21 moves above the battery string.

As shown in fig. 1, the working principle and working process of the battery string feeding antiskid device 1 are as follows:

when the battery string is conveyed to the battery string conveying belt, the cylinder of the battery string feeding mechanism 50 extends out to drive the pressing block 21 to move to the upper part of the battery string;

the pressing block 21 descends to press the battery string onto the battery string conveying belt, and meanwhile, the follow-up block 11 is also pressed onto the battery string conveying belt;

the battery string conveyer belt rotates to drive the follow-up block 11 to move, and the follow-up block 11 drives the pressing block 21 to move forward along with the rotation of the battery string conveyer belt, so that the feeding of the battery string is completed;

the cylinder of the battery string feeding mechanism 50 extends out to drive the pressing block 21 to move above the battery string, and the process is repeated.

The utility model has been described above with a certain degree of particularity. It will be understood by those of ordinary skill in the art that the description of the embodiments is merely exemplary and that all changes that come within the true spirit and scope of the utility model are desired to be protected. The scope of the utility model is defined by the appended claims rather than by the foregoing description of the embodiments.

Claims (10)

1. A battery string feeding antiskid device is characterized by comprising a conveyer belt follow-up mechanism, a battery string pressing mechanism and a lifting mechanism; wherein:

the conveying belt follow-up mechanism is arranged on the battery string pressing mechanism, and the battery string pressing mechanism is arranged on the lifting mechanism;

the lifting mechanism is configured to drive the battery string pressing mechanism to descend so as to press the battery string on the battery string conveying belt, and drive the conveying belt follow-up mechanism to descend to contact the battery string conveying belt so that the conveying belt follow-up mechanism can move along with the battery string conveying belt.

2. The battery string feeding anti-slip device according to claim 1, wherein the battery string pressing mechanism includes a pressing block and a pressing block mounting plate, the pressing block is mounted below the pressing block mounting plate, and the pressing block mounting plate is mounted on a movable part of the elevating mechanism.

3. The battery string feeding antiskid device according to claim 2, wherein the two blocks are arranged at intervals in a direction perpendicular to a feeding direction of the battery string conveying belt.

4. The battery string feeding anti-slip device according to claim 2, wherein the conveyor belt following mechanism comprises two following blocks, and the two following blocks are symmetrically arranged at two ends of the pressing block mounting plate.

5. The battery string feeding anti-slip device according to claim 4, wherein the follower block is connected to the press block mounting plate through a kidney hole.

6. The battery string feeding anti-slip device according to claim 1, wherein the elevating mechanism includes a mounting block and an elevating cylinder, the elevating cylinder being mounted on the mounting block.

7. The battery string feeding anti-skid device according to claim 6, wherein there are two lifting cylinders, the two lifting cylinders are installed at intervals on the side of the mounting block, and the two lifting cylinders are configured to be vertically lifted.

8. The battery string feeding anti-skid device according to any one of claims 1 to 7, further comprising a guide mechanism, wherein the elevating mechanism is mounted on the guide mechanism to be translatable along the guide mechanism.

9. The battery string feeding anti-skid device according to claim 8, wherein the guide mechanism comprises two parallel slide rails, and the mounting block of the lifting mechanism is slidably fitted on the two slide rails through two slide blocks.

10. A stringer comprising a string conveyor, a string feed mechanism, and the string feed anti-slip device of any one of claims 1-9; wherein:

the battery string feeding antiskid device is arranged on a movable part of the battery string feeding mechanism;

the battery string feeding mechanism is configured to drive the battery string feeding antiskid device to move above the battery string conveying belt;

the battery string feeding antiskid device is configured to press a battery string on the battery string conveyor belt, so that the battery string moves along with the battery string conveyor belt.

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