CN216565076U - High-concentration photovoltaic module debugging equipment - Google Patents

Abstract

The application discloses high-power spotlight photovoltaic module debugging equipment, including a supporting seat, be fixed with the support on the supporting seat, be equipped with a plurality of mounting panels that can adjust on the support, two mounting panels are a set of, be equipped with the second bracing piece between two mounting panels with a set of, be equipped with battery module mounting platform on the second bracing piece, be equipped with the adjustment tank on the mounting panel, be equipped with four sliders on the adjustment tank, two sliders with the one end are a set of, the bottom of mounting panel is equipped with four third clamping screw, four third clamping screw and four slider one-to-ones, be equipped with a plurality of first bracing pieces on the slider. The solar cell module comprises a light source, a cell module mounting platform and a condenser module debugging platform, can quickly adjust the condenser, enables the focus spot of each condenser and the corresponding gallium arsenide cell in the solar cell module to be positioned at the correct spatial position, and is mounted to form a standard high-power concentrating photovoltaic module, and the mounting efficiency is high.

Description

High-concentration photovoltaic module debugging equipment

Technical Field

The utility model relates to the technical field of photovoltaic power generation, in particular to high-concentration photovoltaic module debugging equipment.

Background

High Concentration Photovoltaic (HCPV) refers to a technology for directly converting concentrated sunlight into electric energy through a photovoltaic cell with high conversion efficiency, and is different from the traditional silicon crystal type and thin film type (HCPV) technology, and the most obvious advantage of the technology is its high photoelectric conversion efficiency. When the solar cell chip focuses sunlight by about 500 times, the photoelectric conversion efficiency of the solar cell chip is between 36 and 40 percent, and the efficiency of the photoelectric module is between 22 and 28 percent. The efficiency of the whole system is between 18 and 20 percent.

In the condenser lens subassembly installation, need debug the installation to battery module, condenser lens module, the battery that corresponds in each condenser lens focus spot and the battery module is in exact spatial position, because the mirror surface of condenser lens is irregular shape, so the mounted position just can make up the installation after needing to confirm, for this reason we have designed a high spotlight photovoltaic module debugging equipment and have solved above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The application provides a high-power spotlight photovoltaic module debugging equipment, has solved spotlight photovoltaic installation, and the light spot is difficult for confirming, the difficult fixed problem of seeking of spatial position who corresponds the battery in condensing lens focus spot and the battery module.

The application provides high-power concentrating photovoltaic module debugging equipment, which comprises a supporting seat, wherein a support is fixed on the supporting seat, a plurality of adjustable mounting plates are arranged on the support, two mounting plates are in a group, a second supporting rod is arranged between two mounting plates in the same group, a battery module mounting platform is arranged on the second supporting rod, an adjusting groove is arranged on the mounting plates, four sliding blocks are arranged on the adjusting groove, two sliding blocks at the same end are in a group, four third clamping screws are arranged at the bottom of each mounting plate, the four third clamping screws and the four sliding blocks are in one-to-one correspondence, a plurality of first supporting rods are arranged on each sliding block, an adjusting bolt penetrates through one end of each first supporting rod, a placing block is fixed at one end of each adjusting bolt, a placing groove is arranged on each placing block, a vertical rod is fixed at one side of the supporting seat, the vertical rod is fixed with a cross rod, the cross rod is positioned above the support, and the cross rod is fixed with a parallel light emitting mechanism.

Preferably, battery module mounting platform is including fixing the installation piece of second bracing piece one side, one side of installation piece is equipped with the mounting groove, one side of installation piece is equipped with first clamping screw, first clamping screw extend to in the mounting groove, just first clamping screw's one end is equipped with the rubber pad.

Preferably, the parallel light emitting mechanism comprises a plurality of light boards fixed on the cross rod, a plurality of parallel light lamps are arranged on the light boards at equal intervals, and one light board corresponds to the four sliding blocks on the lower portion.

Preferably, the bottom of mounting panel is fixed with a plurality of clamp blocks, two the clamp block is a set of, and the same two of a set of the clamp block is located the both sides of support, and one of them one side of clamp block is equipped with the second clamping screw.

Preferably, the number of the first supporting rods on the same sliding block is 3 or 4.

Preferably, the adjusting groove is a trapezoidal sliding groove.

According to the technical scheme, the application provides a debugging device for a high-power concentrating photovoltaic module, when in use, the bottom of a concentrating mirror is fixedly provided with three or four mounting rods during production, the mounting rods of the concentrating mirror are placed on a placing block, a solar cell is mounted on a cell module mounting platform, a parallel light emitting mechanism is started, the position of a mounting plate is transversely adjusted and fixed according to the reflecting position of the concentrating mirror, then the position of a sliding block is adjusted, the placing angle of the concentrating mirror is finely adjusted through an adjusting bolt according to the deflection angle, so that the light-collecting point of the solar cell is reflected to the specified position of the solar cell, when the concentrating mirror on the four sliding blocks is focused on the solar cell at the middle position, the solar cell and the concentrating mirror are mounted together through a support, and because the manufacturing deviation of the concentrating mirror is not large, the adjusting bolt is only needed for subsequent mounting, the angle of the light-gathering plate can be finely adjusted, and the standard high-concentration photovoltaic module is formed by combination, so that the high-concentration photovoltaic module can be quickly and correctly installed on site.

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

1. through the arrangement of the mounting plate and the sliding block, the adjustment of the light-gathering plate in any horizontal direction can be realized, the rapid positioning of the light-gathering plate is realized, and the mounting precision is improved;

2. through the arrangement of the adjusting bolts, the placing blocks and the placing grooves, the light collecting plate can be placed quickly and finely adjusted, so that a light source can accurately fall on the solar cell, and the mounting precision of the light collecting plate is improved;

3. the solar cell panel is fixed through the matching of the cell module mounting platform and the second support rod, so that the light-gathering plate is convenient to position and assemble and mount, and the mounting efficiency is improved;

4. through the setting of parallel light emission mechanism, simulation sunshine launches the parallel light, can assist the solar panel to look for the position fast, and quick installation improves the spotlight ability of solar panel.

In summary, the solar cell module comprises a light source, a cell module mounting platform and a condenser module debugging platform, and can rapidly adjust the condenser, so that the focus spot of each condenser and the corresponding gallium arsenide cell in the solar cell module are located at the correct spatial position and are mounted to form a standard high-concentration photovoltaic module, and the mounting efficiency is high.

Drawings

In order to more clearly illustrate the technical solution of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without any creative effort.

Fig. 1 is a schematic structural diagram of a high-concentration photovoltaic module debugging device according to the present invention;

fig. 2 is a schematic view of a mounting structure of a placement block of a high-concentration photovoltaic module debugging device according to the present invention;

fig. 3 is a schematic structural diagram of a battery module mounting platform of the high-concentration photovoltaic module debugging device provided by the utility model;

fig. 4 is an enlarged view of a structure at a position a of the high-concentration photovoltaic module debugging device provided by the utility model;

fig. 5 is a schematic view of a slider mounting structure of a high-concentration photovoltaic module debugging device according to the present invention;

fig. 6 is a schematic structural view of a parallel light emitting mechanism of a high-concentration photovoltaic module debugging device according to the present invention.

In the figure: the lamp comprises a support base 1, a support 2, a sliding block 3, a mounting plate 4, a first supporting rod 5, a light plate 6, a cross rod 7, a vertical rod 8, an adjusting bolt 9, a placing block 10, a placing groove 11, a mounting block 12, a mounting groove 13, a second supporting rod 14, a first clamping screw 15, a clamping block 16, a second clamping screw 17, an adjusting groove 18, a third clamping screw 19 and a parallel light lamp 20.

Detailed Description

In order to make those skilled in the art better understand the technical solutions in the present application, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings.

Referring to fig. 1-6, a high-power concentrating photovoltaic module debugging device comprises a supporting seat 1, wherein the supporting seat 1 is formed by welding h-shaped steel, is convenient to move and is stably supported, a support 2 is fixed on the supporting seat 1, the support 2 is of a parallel-bar structure and can be fixed by a connecting rod to improve a better supporting plane, a plurality of adjustable mounting plates 4 are arranged on the support 2, the mounting plates 4 are made of aluminum alloy materials, the mounting plates 4 can move along the direction of the support 2, two mounting plates 4 are in a group, a second supporting rod 14 is arranged between two mounting plates 4 in the same group, a battery module mounting platform is arranged on the second supporting rod 14 and is used for rapidly mounting a solar battery, the position is fixed, the photovoltaic module is formed by combining four concentrating mirrors, the curved surface of the concentrating mirrors is fixed, so that the position of the concentrating point of the concentrating mirrors in the same batch is not greatly changed, the position of the battery module mounting platform is fixed and can not be changed, the battery mounting position does not need to be changed, the battery module mounting platform can be adjusted into a height-adjustable battery module mounting platform, the battery module mounting platform is suitable for mounting light-gathering plates with different sizes, the mounting plate 4 is provided with an adjusting groove 18, the adjusting groove 18 is a trapezoidal sliding groove and can be changed into a dovetail groove, but the trapezoidal sliding groove is easy to obtain, the adjusting groove 18 is provided with four sliding blocks 3, the sliding blocks 3 can slide in the length direction of the mounting plate 4, so that the adjustment of the sliding blocks 3 in the horizontal direction is realized, two sliding blocks 3 at the same end are a group and are a group together with two adjacent sliding blocks 3, the four sliding blocks 3 form a mounting platform for placing four light-gathering plates to form a light gathering system of a photovoltaic module, the bottom of the mounting plate 4 is provided with four third clamping screws 19, and the position of the light-gathering plates is not changed greatly, only fine adjustment is carried out along the length direction of the mounting plate 4, so that the third clamping screws 19 can fix the sliding block 3 by abutting against different positions of the sliding block 3, four third clamping screws 19 correspond to four sliding blocks 3 one by one, a plurality of first supporting rods 5 are arranged on the sliding block 3, the number of the first supporting rods 5 on the same sliding block 3 is 3 or 4 and is used for supporting the light-gathering plate, one end of each first supporting rod 5 is provided with an adjusting bolt 9 in a penetrating manner, each adjusting bolt 9 can be screwed and adjusted on the corresponding first supporting rod 5, one end of each adjusting bolt 9 is fixedly provided with a placing block 10, the position of each placing block 10 can be adjusted by screwing the adjusting bolt 9, each placing block 10 is provided with a placing groove 11, the mounting rod of the light-gathering plate is placed in the placing groove 11 to support the light-gathering plate, a vertical rod 8 is fixedly arranged on one side of the supporting seat 1, a transverse rod 7 is fixedly arranged on the vertical rod 8, and the transverse rod 7 is positioned above the support 2, and the cross rod 7 is fixed with a parallel light emitting mechanism which simulates sunlight and provides a parallel light source, so that the focusing position can be conveniently found during installation, and the installation efficiency is high.

According to the solar cell module mounting platform, the battery module mounting platform comprises a mounting block 12 fixed on one side of a second support rod 14, the mounting block 12 can be made of plastic, a mounting groove 13 is formed in one side of the mounting block 12 and can be fixed through the edge of a solar cell, a first clamping screw 15 is arranged on one side of the mounting block 12, the first clamping screw 15 extends into the mounting groove 13 and fixes the solar cell through the first clamping screw 15, and a rubber pad is arranged at one end of the first clamping screw 15 to protect the solar cell.

In the utility model, the parallel light emitting mechanism comprises a plurality of light plates 6 fixed on a cross bar 7, the light plates 6 are arranged in parallel with the mounting plate 4, a plurality of parallel lights 20 are arranged on the light plates 6 at equal intervals to emit parallel light sources to simulate sunlight, one light plate 6 corresponds to four sliding blocks 3 on the lower part, and four light collecting plates on the four sliding blocks 3 are in a group.

According to the utility model, a plurality of clamping blocks 16 are fixed at the bottom of the mounting plate 4, two clamping blocks 16 form a group, the two clamping blocks 16 in the same group are positioned at two sides of the bracket 2, the mounting plate 4 is limited by the clamping blocks 16 at two sides when moving, one side of one clamping block 16 is provided with a second clamping screw 17, and the position of the mounting plate 4 is fixed by screwing the second clamping screw 17.

According to the technical scheme, when in use, the bottom of the condensing lens is produced, the bottom can be fixedly provided with three or four mounting rods, the mounting rods of the condensing lens are placed on the placing block 10, the solar cell is mounted on the battery module mounting platform, the parallel light emitting mechanism is started, the position of the mounting plate 4 is transversely adjusted and fixed according to the reflecting position of the condensing lens, then the position of the sliding block 3 is adjusted, the placing angle of the condensing lens is finely adjusted through the adjusting bolt 9 according to the deflection angle, so that the condensing point of the condensing lens is reflected to the appointed position of the solar cell, when the condensing lens on the four sliding blocks 3 is locally focused on the solar cell at the middle position, the solar cell and the condensing lens are mounted together through the bracket, and as the manufacturing deviation of the condensing lens is not large, the subsequent mounting only needs to adjust the adjusting bolt 9 and finely adjust the angle of the condensing plate, a standard high-concentration photovoltaic module is formed, so that the high-concentration photovoltaic module can be quickly and correctly installed on site.

Other embodiments of the present application will be apparent to those skilled in the art from consideration of the specification and practice of the application disclosed herein. This application is intended to cover any variations, uses, or adaptations of the utility model following, in general, the principles of the application and including such departures from the present disclosure as come within known or customary practice within the art to which the utility model pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope of the disclosure being indicated by the following claims.

It will be understood that the present application is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The above-described embodiments of the present application do not limit the scope of the present application.

Claims (6)

1. The utility model provides a high concentration photovoltaic module debugging equipment, includes supporting seat (1), its characterized in that: the support is characterized in that a support (2) is fixed on the support base (1), a plurality of adjustable mounting plates (4) are arranged on the support (2), two mounting plates (4) are in a group, a second supporting rod (14) is arranged between the two mounting plates (4) in the same group, a battery module mounting platform is arranged on the second supporting rod (14), an adjusting groove (18) is arranged on the mounting plate (4), four sliders (3) are arranged on the adjusting groove (18), the two sliders (3) at the same end are in a group, four third clamping screws (19) are arranged at the bottom of the mounting plate (4), the four third clamping screws (19) correspond to the four sliders (3) one by one, a plurality of first supporting rods (5) are arranged on the sliders (3), an adjusting bolt (9) penetrates through one end of the first supporting rod (5), and a placing block (10) is fixed at one end of the adjusting bolt (9), the supporting frame is characterized in that a placing groove (11) is formed in the placing block (10), a vertical rod (8) is fixed on one side of the supporting base (1), a horizontal rod (7) is fixed on the vertical rod (8), the horizontal rod (7) is located above the support (2), and a parallel light emitting mechanism is fixed on the horizontal rod (7).

2. The high-concentration photovoltaic module debugging equipment according to claim 1, wherein the battery module mounting platform comprises a mounting block (12) fixed on one side of the second support rod (14), a mounting groove (13) is formed on one side of the mounting block (12), a first clamping screw (15) is arranged on one side of the mounting block (12), the first clamping screw (15) extends into the mounting groove (13), and a rubber pad is arranged at one end of the first clamping screw (15).

3. The debugging equipment for high concentration photovoltaic module modules according to claim 1, wherein said parallel light emitting mechanism comprises a plurality of light panels (6) fixed on said cross bar (7), said light panels (6) are provided with a plurality of parallel lights (20) at equal intervals, and one light panel (6) corresponds to the lower four said sliding blocks (3).

4. The debugging equipment for the high-concentration photovoltaic module according to claim 1, wherein a plurality of clamping blocks (16) are fixed at the bottom of the mounting plate (4), two clamping blocks (16) form a group, the two clamping blocks (16) in the same group are positioned at two sides of the bracket (2), and a second clamping screw (17) is arranged at one side of one clamping block (16).

5. The high-concentration photovoltaic module debugging equipment according to claim 1, wherein the number of said first supporting rods (5) on the same sliding block (3) is 3 or 4.

6. The high concentration photovoltaic module debugging equipment according to claim 1, wherein said adjusting groove (18) is a trapezoidal sliding groove.

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