CN111403518A - High-temperature cloth circulating device of solar battery component laminating machine - Google Patents

Abstract

The invention discloses a high-temperature cloth circulating device of a solar cell module laminating machine, which comprises an upper box body circulating device and a lower box body circulating device, wherein the upper box body circulating device and the lower box body circulating device are in synchronous transmission; the upper box body circulating device comprises an upper box body roller, an upper box body chain wheel, an upper box body chain, upper high-temperature cloth, an upper box body high-temperature cloth pull rod, an upper box body mandrel and an upper box body elastic piece; the lower box body circulating device comprises a lower box body roller, a lower box body chain wheel, a lower box body chain, lower high-temperature cloth, a lower box body high-temperature cloth pull rod, a lower box body mandrel and a lower box body elastic piece; the invention provides a high-temperature cloth circulating device of a solar cell module laminating machine, which solves the problems of high-temperature cloth accumulation and damage in the transmission process, thereby improving the production efficiency of a solar cell module and reducing the production cost.

Description

High-temperature cloth circulating device of solar battery component laminating machine

Technical Field

The invention relates to the technical field of laminating machines, in particular to a high-temperature cloth circulating device of a solar cell module laminating machine.

Background

When a solar battery pack laminating machine laminates a battery pack, a lower high-temperature cloth is needed to transport the battery pack, an upper high-temperature cloth is used to isolate the battery pack from a silicon rubber plate on the laminating machine, a high-temperature cloth driving device is arranged for operating the high-temperature cloth, the high-temperature cloth is connected with the high-temperature cloth driving device through a fixing device, and the high-temperature cloth is driven by the high-temperature cloth driving device to operate.

In the high-temperature cloth circulating device of the middle-layer press in the prior art, the front end and the rear end of the upper high-temperature cloth and the rear end of the lower high-temperature cloth are fixed by fixing devices, and the mode can cause the problems that the upper high-temperature cloth and the lower high-temperature cloth are stacked and are easy to damage during lamination; one is that the preceding, the rear end of low high temperature cloth is fixed by fixing device, and the front end of high temperature cloth is fixed, and the rear end passes through the spring to be connected with fixing device, designs like this, and the phenomenon of piling up still can appear in low high temperature cloth, though high temperature cloth does not pile up, but the spring can be scraped with the roller at both ends, causes the damage of abnormal sound and roller, spring.

Therefore, it is an urgent need to solve the problem of providing a high temperature cloth circulating device for a solar cell module laminator capable of preventing high temperature cloth stacking and damage.

Disclosure of Invention

In view of the above, the invention provides a high-temperature cloth circulating device for a solar cell module laminating machine, which solves the problems of high-temperature cloth accumulation and damage in the transmission process, thereby improving the production efficiency of the solar cell module and reducing the production cost;

in order to realize the scheme, the invention adopts the following technical scheme:

the high-temperature cloth circulating device of the solar cell module laminating machine comprises an upper box body circulating device and a lower box body circulating device, wherein the upper box body circulating device and the lower box body circulating device are in synchronous transmission;

the upper box body circulating device comprises an upper box body roller, an upper box body chain wheel, an upper box body chain, upper high-temperature cloth, an upper box body high-temperature cloth pull rod, an upper box body mandrel and an upper box body elastic piece; the number of the upper box body rollers is four, the two ends of the upper box body rollers are coaxially and integrally connected with a rotating shaft, the upper box body chain wheel is installed on the rotating shaft, and the upper box body chain is installed on the upper box body chain wheel; the upper high-temperature cloth is provided with a plurality of pieces, and the adjacent upper high-temperature cloth is connected through the high-temperature cloth pull rod of the upper box body to form an annular conveying structure; the upper box body core shaft is arranged on two opposite sides of the upper high-temperature cloth, the upper box body core shaft on one side is connected with the adjacent upper box body high-temperature cloth pull rod through a plurality of upper box body elastic pieces, and the upper box body core shaft on the other side is directly connected with the adjacent upper box body high-temperature cloth pull rod; two ends of the upper box high-temperature cloth pull rod are arranged on the upper box chain;

the lower box body circulating device comprises a lower box body roller, a lower box body chain wheel, a lower box body chain, lower high-temperature cloth, a lower box body high-temperature cloth pull rod, a lower box body mandrel and a lower box body elastic piece; the four lower box body rollers are coaxially and integrally connected with rotating shafts at two ends, the lower box body chain wheel is arranged on the rotating shafts, and the lower box body chain is arranged on the lower box body chain wheel; the lower high-temperature cloth is provided with a plurality of pieces, and the adjacent lower high-temperature cloth is connected through the lower box body high-temperature cloth pull rod to form an annular conveying structure; the lower box body core shafts are arranged on two opposite side edges of the lower high-temperature cloth; two lower box core shafts are arranged on one side edge of the lower high-temperature cloth in parallel, the lower box core shaft positioned at the edge of the lower high-temperature cloth is directly connected with the adjacent lower box high-temperature cloth pull rod, and the lower box core shaft positioned at the edge of the lower high-temperature cloth is connected with the lower box core shaft positioned at the inner side of the edge of the lower high-temperature cloth through a plurality of lower box elastic pieces; the other side edge of the lower high-temperature cloth is provided with a lower box body mandrel which is directly connected with the adjacent lower box body high-temperature cloth pull rod; and two ends of the lower box high-temperature cloth pull rod are arranged on the lower box chain.

Preferably, in the high-temperature cloth circulating device for a solar cell module laminating machine, gears are respectively mounted on the rotating shaft of one upper box roller and the rotating shaft of one adjacent lower box roller, and the two gears are in meshing synchronous transmission.

Preferably, in the high-temperature cloth circulating device of the solar cell module laminating machine, the rotating shafts at two ends of the upper box roller and the lower box roller are fixed on the roller stand columns through bearings, and the roller stand columns are fixed on the frame body.

Preferably, in the high-temperature cloth circulating device of a solar cell module laminator, the upper high-temperature cloth and the lower high-temperature cloth are pressed into strip-shaped cloth bags at high temperature, and the upper box mandrel and the lower box mandrel are respectively located in the strip-shaped cloth bags of the upper high-temperature cloth and the lower high-temperature cloth.

Preferably, in the above high temperature cloth circulating apparatus for a solar cell module laminator, the upper high temperature cloth edge is provided with an upper high temperature cloth notch.

Preferably, in the high-temperature cloth circulating device for a solar cell module laminator, the edge of the lower high-temperature cloth is provided with a lower high-temperature cloth notch.

According to the technical scheme, compared with the prior art, the high-temperature cloth circulating device of the solar cell module laminating machine is provided, the problems of stacking and damage of upper-circulating high-temperature cloth are solved, and the problem of damage to equipment caused by connection of the upper-temperature cloth by using a metal elastic part in the prior art is also solved;

simultaneously, high temperature cloth piles up the lamination chamber that appears keeping away from the laminator in lower box elastic component department when normal circulation down, and when crossing lower box roller, lower box elastic stretching high temperature cloth satisfies normal endless demand, has avoided low high temperature cloth to pile up near lamination chamber, damaged.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a top view of the upper tank circulation device;

FIG. 3 is a top view of the lower tank circulation device;

FIG. 4 is a side view of a lower high temperature cloth with two strip-shaped cloth bags;

FIG. 5 is a side view of a connection structure of a lower high-temperature cloth with two strip-shaped cloth bags, a lower box body mandrel, a lower box body elastic part and a lower box body high-temperature cloth pull rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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.

The embodiment of the invention discloses a high-temperature cloth circulating device of a solar cell module laminating machine, which solves the problems of high-temperature cloth accumulation and damage in the transmission process, thereby improving the production efficiency of a solar cell module and reducing the production cost.

The high-temperature cloth circulating device of the solar cell module laminating machine comprises an upper box body circulating device 1 and a lower box body circulating device 2, wherein the upper box body circulating device 1 and the lower box body circulating device 2 are in synchronous transmission;

the upper box body circulating device 1 comprises an upper box body roller 11, an upper box body chain wheel 12, an upper box body chain 13, upper high-temperature cloth 14, an upper box body high-temperature cloth pull rod 15, an upper box body mandrel 16 and an upper box body elastic part 17; four upper box body rollers 11 are arranged, two ends of each upper box body roller are coaxially and integrally connected with a rotating shaft, an upper box body chain wheel 12 is installed on the rotating shaft, and an upper box body chain 13 is installed on the upper box body chain wheel 12; the upper high-temperature cloth 14 is provided with a plurality of pieces, and the adjacent upper high-temperature cloth 14 are connected through an upper box high-temperature cloth pull rod 15 to form an annular conveying structure;

the upper box body mandrel 16 is arranged on two opposite sides of the upper high-temperature cloth 14, wherein the upper box body mandrel 16 on one side is connected with the adjacent upper box body high-temperature cloth pull rod 15 through a plurality of upper box body elastic pieces 17, and the upper box body mandrel 16 on the other side is directly connected with the adjacent upper box body high-temperature cloth pull rod 15; two ends of the upper box high-temperature cloth pull rod 15 are arranged on the upper box chain 13, so that an upper circulation whole body is formed;

go up high temperature cloth 14 and all be straight when normal circulation, do not pile up, when crossing last box roller 11, go up box elastic component 17 tensile, satisfy the length demand of normal circulation, avoided increasing the length of high temperature cloth 14 and satisfied normal circulation, just also avoided piling up of high temperature cloth 14.

The lower box body circulating device 2 comprises a lower box body roller 21, a lower box body chain wheel 22, a lower box body chain 23, lower high-temperature cloth 24, a lower box body high-temperature cloth pull rod 25, a lower box body mandrel 26 and a lower box body elastic piece 27; the number of the lower box body rollers 21 is four, the two ends of the lower box body rollers are coaxially and integrally connected with a rotating shaft, a lower box body chain wheel 22 is installed on the rotating shaft, and a lower box body chain 23 is installed on the lower box body chain wheel 22; the lower high-temperature cloth 24 is provided with a plurality of pieces, and the adjacent lower high-temperature cloth 24 are connected through a lower box body high-temperature cloth pull rod 25 to form an annular conveying structure;

the lower box body core shafts 26 are arranged on two opposite side edges of the lower high-temperature cloth 24; two lower box body mandrels 26 are arranged on one side edge of the lower high-temperature cloth 24 in parallel, the lower box body mandrel 26 positioned at the edge of the lower high-temperature cloth 24 is directly connected with the adjacent lower box body high-temperature cloth pull rod 25, and the lower box body mandrel 26 positioned at the edge of the lower high-temperature cloth 24 is connected with the lower box body mandrel 26 positioned at the inner side of the edge of the lower high-temperature cloth 24 through a plurality of lower box body elastic pieces 27; the other side edge of the lower high-temperature cloth 24 is provided with a lower box body mandrel 26 which is directly connected with the adjacent lower box body high-temperature cloth pull rod 25.

Thus, the deformation of the lower box elastic part 27 can be limited, when the lower high-temperature cloth 24 between the two lower box mandrels 26 is tightened and straightened, the lower box elastic part 27 can not be stretched continuously, and the deformation is the maximum value; the two ends of the lower box high-temperature cloth pull rod 25 are arranged on the lower box chain 23, so that a lower circulation whole is formed.

During normal cycling, the lower high temperature cloth 24 builds up at the lower box spring 27, away from the lamination chamber of the laminator. When passing through the lower box roller 21, the lower box elastic part 27 stretches to straighten the lower high-temperature cloth 24, so that the requirement of normal circulation is met, and the condition that the lower high-temperature cloth 24 is accumulated near a laminating cavity and is damaged is avoided.

In order to further optimize the technical scheme, the rotating shaft of one upper box roller 11 and the rotating shaft of one lower box roller 21 adjacent to the rotating shaft are respectively provided with a gear 3, and the two gears 3 are in meshed synchronous transmission.

In order to further optimize the technical scheme, rotating shafts at two ends of the upper box roller 11 and the lower box roller 21 are fixed on roller stand columns through bearings, the roller stand columns are fixed on a frame body, the frame is a frame of laminator equipment and can be used for mounting the upper box roller 11 and the lower box roller 21, and the frame is not shown in the attached drawings of the specification.

In order to further optimize the technical scheme, the strip-shaped cloth bags 4 are pressed on the upper high-temperature cloth 14 and the lower high-temperature cloth 24 through high temperature, and the upper box mandrel 16 and the lower box mandrel 26 are respectively positioned in the strip-shaped cloth bags 4 of the upper high-temperature cloth 14 and the lower high-temperature cloth 24.

The upper high-temperature cloth 14 and the lower high-temperature cloth 24 are high-temperature laminated cloth special for the solar laminating machine, and are formed by soaking high-performance glass fiber serving as a base material and suspended polytetrafluoroethylene emulsion serving as a raw material; the strip-shaped cloth bag 4 can be formed by a high-temperature pressing forming method, so that the upper box body mandrel 16 and the lower box body mandrel 26 are respectively positioned in the strip-shaped cloth bag 4 of the upper high-temperature cloth 14 and the lower high-temperature cloth 24.

In order to further optimize the technical scheme, the edge of the upper high-temperature cloth 14 is provided with an upper high-temperature cloth notch for connecting the upper box body mandrel 16 with the upper box body elastic part 17 and connecting the upper box body mandrel 16 with the upper box body high-temperature cloth pull rod 15.

In order to further optimize the technical scheme, the edge of the lower high-temperature cloth 24 is provided with a lower high-temperature cloth notch for connecting the lower box core shaft 26 with the lower box elastic part 27 and connecting the lower box core shaft 26 with the lower box high-temperature cloth pull rod 25.

In order to further optimize the technical scheme, two strip-shaped cloth bags 4 are arranged on one side edge of the lower high-temperature cloth 24 in parallel; the other side edge of the lower high-temperature cloth 24 is provided with a strip-shaped cloth bag 4; the strip-shaped cloth bag 4 is provided with a cloth bag gap.

In order to further optimize the technical scheme, one end of the lower box elastic part 27 is connected with the lower box mandrel 26 positioned on the inner side of the edge of the lower high-temperature cloth 24 at the cloth bag notch, and the other end of the lower box elastic part 27 is connected with the lower box mandrel 26 positioned on the edge of the lower high-temperature cloth 24 on the same side at the lower high-temperature cloth notch.

In order to further optimize the technical scheme, the elastic piece is a silica gel strip.

In order to further optimize the technical scheme, the plugs 5 are arranged at the two ends of the upper box mandrel 16 and the lower box mandrel 26.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. The high-temperature cloth circulating device of the solar cell module laminating machine is characterized by comprising an upper box body circulating device and a lower box body circulating device, wherein the upper box body circulating device and the lower box body circulating device are in synchronous transmission;

the upper box body circulating device comprises an upper box body roller, an upper box body chain wheel, an upper box body chain, upper high-temperature cloth, an upper box body high-temperature cloth pull rod, an upper box body mandrel and an upper box body elastic piece; the number of the upper box body rollers is four, rotating shafts are arranged at two ends of the upper box body rollers, the upper box body chain wheel is installed on the rotating shafts, and the upper box body chain is installed on the upper box body chain wheel; the upper high-temperature cloth is provided with a plurality of pieces, and the adjacent upper high-temperature cloth is connected through the high-temperature cloth pull rod of the upper box body to form an annular conveying structure; the upper box body core shaft is arranged on two opposite sides of the upper high-temperature cloth, the upper box body core shaft on one side is connected with the adjacent upper box body high-temperature cloth pull rod through a plurality of upper box body elastic pieces, and the upper box body core shaft on the other side is directly connected with the adjacent upper box body high-temperature cloth pull rod; two ends of the upper box high-temperature cloth pull rod are arranged on the upper box chain;

the lower box body circulating device comprises a lower box body roller, a lower box body chain wheel, a lower box body chain, lower high-temperature cloth, a lower box body high-temperature cloth pull rod, a lower box body mandrel and a lower box body elastic piece; the number of the lower box body rollers is four, rotating shafts are arranged at two ends of the lower box body rollers, the lower box body chain wheel is installed on the rotating shafts, and the lower box body chain is installed on the lower box body chain wheel; the lower high-temperature cloth is provided with a plurality of pieces, and the adjacent lower high-temperature cloth is connected through the lower box body high-temperature cloth pull rod to form an annular conveying structure; the lower box body core shafts are arranged on two opposite side edges of the lower high-temperature cloth; two lower box core shafts are arranged on one side edge of the lower high-temperature cloth in parallel, the lower box core shaft positioned at the edge of the lower high-temperature cloth is directly connected with the adjacent lower box high-temperature cloth pull rod, and the lower box core shaft positioned at the edge of the lower high-temperature cloth is connected with the lower box core shaft positioned at the inner side of the edge of the lower high-temperature cloth through a plurality of lower box elastic pieces; the other side edge of the lower high-temperature cloth is provided with a lower box body mandrel which is directly connected with the adjacent lower box body high-temperature cloth pull rod; and two ends of the lower box high-temperature cloth pull rod are arranged on the lower box chain.

2. The high-temperature cloth circulating device for the solar cell module laminating machine as claimed in claim 1, wherein gears are respectively mounted on the rotating shaft of one upper box roller and the rotating shaft of an adjacent lower box roller, and the gears are in mesh synchronous transmission.

3. The high-temperature cloth circulating device for the solar cell module laminating machine as claimed in claim 1, wherein the rotating shafts at two ends of the upper box roller and the lower box roller are fixed on roller columns through bearings, and the roller columns are fixed on a frame body.

4. The high-temperature cloth circulating device for the solar cell module laminating machine according to claim 1, wherein the upper high-temperature cloth and the lower high-temperature cloth are pressed into strip-shaped cloth bags by high temperature, and the upper box mandrel and the lower box mandrel are respectively positioned in the strip-shaped cloth bags of the upper high-temperature cloth and the lower high-temperature cloth.

5. The high temperature cloth circulating device of a solar battery pack laminating machine according to claim 1, wherein the upper high temperature cloth edge is provided with an upper high temperature cloth notch.

6. The high-temperature cloth circulating device for the solar cell module laminating machine according to claim 1, wherein the edge of the lower high-temperature cloth is provided with a lower high-temperature cloth notch.

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