CN217457748U - Battery string conveying device - Google Patents

Abstract

The utility model relates to a solar cell production facility technical field, in particular to battery cluster conveyer, including transport module and transition bridge piece, transport module includes upper reaches transport module and low reaches transport module, the below of transition bridge piece has accommodation space, the transition bridge piece is located between upper reaches transport module and the low reaches transport module and plays the bearing effect, the below of low reaches transport module is provided with straight line transfer rail, and the direction of transportation of upper reaches transport module and low reaches transport module is unanimous, and the direction of transportation of straight line transfer rail is perpendicular with the direction of transportation of low reaches transport module; the transition bridge piece comprises a horizontal transverse piece and a mounting piece fixedly connected with at least one end of the horizontal transverse piece downwards; the utility model discloses realize battery piece cluster group from the transition between stringer to typesetter, prevent that it from welding the space etc. that takes the roll to overturn, fold and slide in, double symmetry sets up in addition and effectively improves conveying efficiency.

Description

Battery string conveying device

Technical Field

The utility model relates to a solar cell production facility technical field, in particular to battery cluster conveyer.

Background

In the transportation process that the crystalline silicon photovoltaic module is sent into the typesetting machine after the welding of the cell strings is finished, the cell string transmission between the two conveyor belts is carried out in a superposition mode, namely the cell strings freely drop from the conveyor belt at a high position to the conveyor belt at a low position for transmission. For sheet-like workpieces such as battery strings, the solder strip can contact and impact the next section of conveyor belt in advance during the conveying process, the solder strip is easy to turn, fold or skew during the conveying process, and even the whole battery string is easy to slide into a gap between the butted conveyor belts. Due to the above problems, it is necessary to provide a battery string conveying apparatus which is efficient and reliable.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the shortcomings of the prior art and providing a battery string conveying device.

In order to achieve the above purpose, the utility model adopts the following scheme:

the utility model provides a battery cluster conveyer, includes transfer module and transition bridge piece, transfer module includes upper reaches transfer module and low reaches transfer module, the below of transition bridge piece has accommodation space, the transition bridge piece is located between upper reaches transfer module and the low reaches transfer module and plays the takeover effect, the below of low reaches transfer module is provided with sharp transfer rail, and the direction of transportation of upper reaches transfer module and low reaches transfer module is unanimous, and the direction of transportation of sharp transfer rail is mutually perpendicular with the direction of transportation of low reaches transfer module.

Furthermore, the transition bridge piece comprises a horizontal transverse piece and a mounting piece fixedly connected with at least one end of the horizontal transverse piece downwards, a space is formed between the horizontal transverse piece and the mounting piece to accommodate one end of the downstream conveying module to extend into, and the mounting piece is detachably connected with the rack of the upstream conveying module.

Furthermore, one end of the transition bridge piece close to the upstream conveying module is lower than the upper surface of the upstream conveying module, one end of the transition bridge piece close to the downstream conveying module is higher than the upper surface of the downstream conveying module, a downward slope is arranged on the upper surface of one end of the upstream conveying module close to the transition bridge piece, a downward slope is also arranged on the upper surface of one end of the transition bridge piece close to the upstream conveying module, and the two slopes are opposite inwards.

Further, the upstream conveying module and the downstream conveying module are one of a belt conveyor or a roller conveyor, a long-strip-shaped hollow channel is arranged in the middle of the upstream conveying module and the downstream conveying module along the conveying direction, a small convex plate extends out of the middle section of the transverse sheet to one side of the upstream conveying module, and the convex plate is located in the hollow channel and inclines downwards.

Further, a protective layer is arranged on the transition bridge piece, and the protective layer is made of high-temperature-resistant cloth with the lower surface coated with viscose glue and adhered to the upper surface of the transition bridge piece.

Furthermore, the transverse sheet and the mounting sheet are equal in thickness, a through mounting hole is formed in the mounting sheet, and a screw bolt penetrates through the mounting hole to connect the transition bridge sheet with the upstream transmission module.

Further, the width of the transverse piece in the length direction is not less than the total outer width of the conveyor belt, and a cutting inclined surface is arranged on the side face, close to the downstream conveying module, of the mounting piece.

Further, the convex plate is inclined downwards by 5-15 degrees relative to the plane of the transverse sheet.

Furthermore, one side of the transverse sheet is fixedly connected with the mounting sheet and is connected with the rack on the same side of the upstream conveying module, the other side of the transverse sheet is not fixedly connected with the mounting sheet, and one side of the mounting sheet which is not fixedly connected with the mounting sheet is on the same side of the conveying direction of the linear conveying rail.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model provides a battery string conveying device, which has the advantages of scientific structure, reasonable arrangement and low cost, can efficiently realize the transition between two conveying belts from a string welding machine to a typesetting machine of a battery piece string group, and avoids the phenomena of overturning, folding and sliding of a welding belt into a gap between belt rollers; the protective layer effectively protects the surface of the battery string; in addition, the double-row symmetrical arrangement greatly improves the transportation efficiency.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention;

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

fig. 3 is a schematic cross-sectional view of the present invention;

FIG. 4 is an enlarged view of the point B in FIG. 3;

FIG. 5 is a schematic view of a middle transition bridge piece according to the present invention;

FIG. 6 is a schematic side view of a middle transition bridge piece according to the present invention;

fig. 7 is a schematic view of the utility model in use;

fig. 8 is a schematic perspective view of a second embodiment of the present invention.

In the figure: 1. a transfer module; 1a, an upstream transport module; 1b, a downstream transfer module; 2. a transition bridge piece; 2a, a transverse sheet; 2a-1, a convex plate; 2b, mounting pieces; 2b-1, cutting an inclined plane; 3. a protective layer; 4. a vacant road; 5. a series welding machine; 6. a typesetting machine.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1 to 6, in the first embodiment: a battery string conveying device comprises a conveying module 1 and a transition bridge piece 2, wherein the conveying module 1 comprises an upstream conveying module 1a and a downstream conveying module 1b, an accommodating space is arranged below the transition bridge piece 2, the transition bridge piece 2 is positioned between the upstream conveying module 1a and the downstream conveying module 1b and plays a bearing role, the upper part of the transition bridge piece 2 needs to be as flat as possible, and no obvious protruding structure exists, so that the transition conveying is smooth and unimpeded; the upstream transmission module 1a receives the battery strings output by the series welding machine 5, transmits the battery strings to the downstream transmission module 1b through the transition bridge piece 2, and finally transmits the battery strings into the typesetter 6;

the linear conveying rail is arranged below the downstream conveying module 1b, the conveying directions of the upstream conveying module 1a and the downstream conveying module 1b are consistent, the conveying direction of the linear conveying rail is perpendicular to the conveying direction of the downstream conveying module 1b, after the conveyed object (namely the battery string) is transferred from the upstream conveying module 1a to the downstream conveying module 1b and is stopped stably, the linear conveying rail drives the downstream conveying module 1b above the linear conveying rail to be integrally conveyed to the typesetting machine 6, and therefore the battery string is conveyed into the typesetting machine 6.

The transition bridge piece 2 comprises a horizontal transverse piece 2a and a mounting piece 2b fixedly connected with at least one end of the horizontal transverse piece downwards, a space is formed by the horizontal transverse piece 2a and the mounting piece 2b, one end of the downstream conveying module 1b extends into the space, and the mounting piece 2b is detachably connected with a rack of the upstream conveying module 1 a; the thicknesses of the transverse sheet 2a and the mounting sheet 2b are equal, a through mounting hole is formed in the mounting sheet 2b, a screw bolt penetrates through the mounting hole to connect the transition bridge sheet 2 with the upstream transmission module 1a, and the transition bridge sheet 2 is convenient to disassemble and assemble in a screw bolt connection mode; because horizontal piece 2a and installation piece 2b are the shaping of bending of a monoblock panel or divide the polylith welding to form, when having needs, the inclination of horizontal piece 2a can be changed to the angle of connection of adjustment horizontal piece 2a and installation piece 2 b.

One end of the transition bridge piece 2 close to the upstream conveying module 1a is lower than the upper surface of the upstream conveying module 1a, one end of the transition bridge piece 2 close to the downstream conveying module 1b is higher than the upper surface of the downstream conveying module 1b, and step-by-step height difference is formed between the upstream and the downstream, so that forward conveying is facilitated; through set up the layer board of lifting it under the conveyer belt, the one end upper surface that upstream transfer module 1a is close to transition bridge piece 2 is provided with decurrent slope, and transition bridge piece 2 is close to one end upper surface of upstream transfer module 1a and also is provided with decurrent slope through buckling, and the clearance between the two is controlled very little, and two slopes are relative inwards, let the battery piece better transition, ensure that it can not follow clearance roll-off.

The upstream conveying module 1a and the downstream conveying module 1b are belt conveyors, which are carrying media of a conveying system and are one of conveying apparatuses with a wider application range at present, and power devices such as motors are used for providing power for belt pulleys to enable the belt to drive materials thereon to move along a required direction, and a long-strip-shaped empty channel 4 is arranged in the middle of the conveying direction, and the specific arrangement form is as follows: dividing the belt into a left row and a right row which move synchronously; a small convex plate 2a-1 extends out of one side of the upstream conveying module 1a in the middle section of the transverse sheet 2a, the convex plate 2a-1 is positioned in the empty channel 4 and inclines downwards, specifically, the convex plate 2a-1 inclines downwards by 5-15 degrees relative to the plane of the transverse sheet 2a, the slope is reasonably set, and smooth transmission of the battery strings between the upstream conveying module 1a and the transition bridge sheet 2 is facilitated.

Be provided with protective layer 3 on transition bridge piece 2, protective layer 3 scribbles the high temperature resistant cloth of viscose for the lower surface, and its adhesion is at the upper surface of transition bridge piece 2, and the surface of high temperature resistant cloth is softer, can provide certain striking buffering, also can avoid the battery piece at the in-process of transmission directly with transition bridge piece 2 contacts to reduce the friction damage that causes the battery cluster.

The width of the transverse piece 2a in the length direction is not less than the total outer width of the conveyor belt, and the side face, close to the downstream conveying module 1b, of the mounting piece 2b is provided with a cutting inclined plane 2b-1, so that the obstruction in the moving path of the downstream conveying module 1b is reduced to the minimum, and the downstream conveying module 1b and the mounting piece 2b are prevented from being collided.

Because the downstream conveying module 1b needs to be driven by the linear conveying rail below to move longitudinally into the typesetting machine 6, one side of the transverse sheet 2a is fixedly connected with the mounting sheet 2b and is connected with the rack on the same side of the upstream conveying module 1a, the other side of the transverse sheet is not fixedly connected with the mounting sheet 2b, and one side of the mounting sheet 2b which is not fixedly connected with the mounting sheet is on the same side of the conveying direction of the linear conveying rail.

The transmission module 1 is driven by a servo motor, the stroke length of the linear transmission rail is more than twice of the width of the transmission belt, the linear transmission rail can enter the working range of the typesetting machine 6, and the typesetting machine can be adapted to various typesetting machines 6 with different widths.

The utility model discloses a battery cluster conveyer work flow: referring to fig. 7, the number of the transmission modules 1 and the number of the transition bridge pieces 2 are two, and as shown in the figure, the upstream transmission module 1a is symmetrically arranged with respect to a series welder 5 (omitted in the figure), and the series welder 5 is used for accurately and reliably welding the solar cells in series into a cell string, and can set the cell spacing, the number of single-string cells, the welding temperature, and the like as required, and after the welding process is completed, the cell string is transmitted to the upstream transmission module 1 a; next, the transition bridge piece 2 connects the upstream transmission module 1a with the downstream transmission module 1b, the stroke tail end of the linear transmission rail extends into the typesetting machine 6 (omitted in the figure), when the battery string successfully passes through the transition bridge piece 2 and reaches the downstream transmission module 1b, the linear transmission rail works, the welded battery string is sent into the typesetting machine 6 for string arrangement operation, and the typesetting machine 6 automatically grabs the battery string and puts the battery string on the glass which is regularly positioned; in conclusion, the solar cell realizes efficient and reliable transmission from the series welding machine 5 to the typesetting machine 6 on two channels on two sides of the device.

Example two: as shown in fig. 8, the difference from the first embodiment is: the upstream transfer module 1a and the downstream transfer module 1b are roller conveyors which move the articles forward by means of friction between the rotating rollers and the articles, and in the middle of their transport direction are arranged elongated lanes 4, in the form of: dividing the rollers into a left row and a right row which move synchronously; when the upstream transfer module 1a adopts a roller conveyor, the top of the roller closest to the transition bridge piece 2 is lower than the next roller, so that a downward slope is arranged as in the first embodiment, and the battery pieces are better transited.

The above description is only a preferred embodiment of the present invention, but the scope of protection of the present invention is not limited thereto, and it should be noted that, for those skilled in the art, changes, modifications or additions shall all belong to the scope of protection of the present invention without departing from the concept of the present invention.

Claims (9)

1. A battery string conveying apparatus, characterized in that: including conveying module (1) and transition bridge piece (2), conveying module (1) includes upper reaches conveying module (1 a) and low reaches conveying module (1 b), the below of transition bridge piece (2) has accommodation space, transition bridge piece (2) are located between upper reaches conveying module (1 a) and low reaches conveying module (1 b) and play and accept the effect, the below of low reaches conveying module (1 b) is provided with the straight line and conveys the rail, and the direction of transportation of upper reaches conveying module (1 a) and low reaches conveying module (1 b) is unanimous, and the direction of transportation of straight line conveying rail is perpendicular mutually with the direction of transportation of low reaches conveying module (1 b).

2. A battery string transfer apparatus according to claim 1, wherein: the transition bridge piece (2) comprises a horizontal transverse piece (2 a) and a mounting piece (2 b) with at least one end fixedly connected downwards, a space is formed between the horizontal transverse piece (2 a) and the mounting piece (2 b) to accommodate one end of the downstream conveying module (1 b) to stretch into the space, and the mounting piece (2 b) is detachably connected with the rack of the upstream conveying module (1 a).

3. A battery string transfer apparatus according to claim 1, wherein: one end of the transition bridge piece (2) close to the upstream conveying module (1 a) is lower than the upper surface of the upstream conveying module (1 a), one end of the transition bridge piece (2) close to the downstream conveying module (1 b) is higher than the upper surface of the downstream conveying module (1 b), a downward slope is arranged on the upper surface of one end of the upstream conveying module (1 a) close to the transition bridge piece (2), a downward slope is also arranged on the upper surface of one end of the transition bridge piece (2) close to the upstream conveying module (1 a), and the two slopes are opposite inwards.

4. A battery string transporting apparatus according to claim 2, wherein: the upstream conveying module (1 a) and the downstream conveying module (1 b) are one of a belt conveyor or a roller conveyor, a long-strip-shaped empty channel (4) is arranged in the middle of the conveying direction, a small convex plate (2 a-1) extends out of the middle section of the transverse sheet (2 a) to one side of the upstream conveying module (1 a), and the convex plate (2 a-1) is located in the empty channel (4) and inclines downwards.

5. A battery string transfer apparatus according to claim 1, wherein: be provided with protective layer (3) on transition bridge piece (2), protective layer (3) are the high temperature resistant cloth that the lower surface scribbled the viscose, and its adhesion is at the upper surface of transition bridge piece (2).

6. A battery string transfer apparatus according to claim 2, wherein: the thickness of the transverse sheet (2 a) is equal to that of the mounting sheet (2 b), a through mounting hole is formed in the mounting sheet (2 b), and a screw bolt penetrates through the mounting hole to connect the transition bridge sheet (2) with the upstream conveying module (1 a).

7. A battery string transfer apparatus according to claim 2, wherein: the width of the transverse piece (2 a) in the length direction is not less than the total outer width of the conveyor belt, and a cutting inclined plane (2 b-1) is arranged on the side face, close to the downstream conveying module (1 b), of the mounting piece (2 b).

8. The battery string transfer apparatus according to claim 4, wherein: the convex plate (2 a-1) is inclined downwards by 5-15 degrees relative to the plane of the transverse sheet (2 a).

9. A battery string transfer apparatus according to claim 2, wherein: one side of the transverse sheet (2 a) is fixedly connected with an installation sheet (2 b) and is connected with the same side rack of the upstream conveying module (1 a), the other side of the transverse sheet is not fixedly connected with the installation sheet (2 b), and one side of the non-fixedly connected installation sheet (2 b) is arranged on the same side of the conveying direction of the linear conveying rail.

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