CN214959398U - Single crystalline silicon solar cell carrying equipment - Google Patents

Abstract

The utility model discloses a single crystal silicon solar wafer carries on equipment, including flexible adjusting part, panel and protection supporting component, flexible adjusting part is sunken to be connected and is located under the ground plane, the panel is connected and is located on the flexible adjusting part, the protection supporting component is connected and is located subaerially and locate flexible adjusting part top, flexible adjusting part is including accomodating cavity, flexible stand and power storage module, the protection supporting component includes protection apron, observation window, draw bolt, connecting rod and support bar. The utility model relates to a solar facilities technical field specifically indicates a can be when carrying out the during operation according to set for automatically regulated battery piece angle, can provide good guard action, can not influence the place when not using and carry out the monocrystalline silicon solar wafer carrying on equipment that other activities are carried out to the solar wafer under bad weather.

Description

Single crystalline silicon solar cell carrying equipment

Technical Field

The utility model relates to a solar facilities technical field specifically indicates a single crystalline silicon solar wafer carries on equipment.

Background

The single crystal silicon solar cell is a solar cell which takes a high-purity single crystal silicon rod as a raw material and is developed fastest at present. The structure and the production process of the solar cell are established, the product is widely used in space and ground, the monocrystalline silicon refers to the condition that the silicon material is integrally crystallized into a monocrystalline form, the monocrystalline silicon is a photovoltaic power generation material which is commonly used at present, the monocrystalline silicon solar cell is the most mature technology in the silicon-based solar cell, and the photoelectric conversion efficiency of the solar cell is the highest compared with the polycrystalline silicon solar cell and the amorphous silicon solar cell. The production of high-efficiency monocrystalline silicon batteries is established on the basis of high-quality monocrystalline silicon materials and mature processing technology, solar-grade monocrystalline silicon rods are adopted for ground-applied solar batteries and the like in order to reduce production cost, and material performance indexes are widened. Some of the silicon single crystal rods can also be made of head and tail materials processed by semiconductor devices and waste secondary silicon single crystal materials through redraw to be special single crystal silicon rods for solar cells, and the single crystal silicon rods are cut into slices, wherein the thickness of the slices is about 0.3 mm generally. The silicon wafer is made into a raw material silicon wafer to be processed to process the solar cell through the working procedures of polishing, grinding, cleaning and the like, and firstly, the silicon wafer is doped and diffused with trace dopants such as boron, phosphorus, antimony and the like. The diffusion is carried out in a high temperature diffusion furnace made of quartz tubes. Thus forming P > N junctions on the silicon wafer. And then, printing the finely-prepared silver paste on a silicon wafer by adopting a screen printing method to form a grid line, sintering the grid line to form a back electrode, and coating an antireflection source on the surface with the grid line to prevent a large amount of photons from being reflected by the smooth surface of the silicon wafer. Therefore, the single silicon solar cell is manufactured, the single silicon solar cell needs certain carrying equipment, the solar cell can generate electricity smoothly and plays a role, the existing equipment for carrying the single silicon solar cell is only used for simply arranging the cell on the frame and then is put into use, no protective measures are taken for the cell, the angle of the solar cell cannot be adjusted, the power is enabled to be maximum at all times, the solar cell is more easily damaged when the solar cell is in severe weather, unnecessary loss is caused, a large-area open place is needed for placing the equipment, and land resource waste is serious.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a can be when carrying out the during operation according to set for automatically regulated battery piece angle, can provide good guard action, can not influence the single crystal silicon solar wafer carrying on equipment that the place carries out other activities to the solar wafer under bad weather.

The utility model adopts the following technical scheme: the utility model relates to a single crystal silicon solar cell carrying equipment, which comprises a telescopic adjusting component, a cell panel and a protective supporting component, wherein the telescopic adjusting component is concavely connected and arranged below the ground plane, the cell panel is connected and arranged on the telescopic adjusting component, the protective supporting component is connected and arranged on the ground and arranged above the telescopic adjusting component, the telescopic adjusting component comprises a storage cavity, a telescopic upright post and a power storage module, the storage cavity is concavely arranged below the ground, the telescopic upright post is connected and arranged on the inner bottom wall of the storage cavity, the power storage module is connected and arranged on the inner bottom wall of the storage cavity, the protective supporting component comprises a protective cover plate, an observation window, a pulling bolt, a connecting rod and a supporting strip, the protective cover plate is hinged and arranged above the storage cavity in two pieces, the observation window is embedded and arranged on the protective cover plate, the pulling bolt is hinged and arranged on the protective cover plate, the support bars horizontally penetrate between the two protective cover plates, and the connecting rods are fixedly connected to one sides of all the support bars.

Further, the inner wall of the containing cavity is evenly coated with a waterproof coating.

Further, the height of the upper surface of the protective cover plate is flush with the height of the ground.

Furthermore, a waterproof adhesive tape is connected between the two protective cover plates.

Furthermore, the observation window is made of high-strength toughened glass.

Further, the support bar material sets up for high strength steel.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: the single crystal silicon solar cell carrying equipment has the advantages that before the single crystal silicon solar cell carrying equipment is used, the cell panel is protected in the containing cavity, the internal state can be checked according to the observation window, when the work is started, the connecting rod is manually moved to drive all the supporting bars to be drawn out from the space between the two protective cover plates, the protective cover plate is opened by pulling the pulling bolt, the telescopic upright posts are controlled to lift the battery panel, the orientation angle of the battery panel can be realized by different heights of the telescopic upright posts, when one telescopic upright post is lifted and the other telescopic upright post is fixed, the orientation of the battery board can be changed into one side, when the battery board is in bad weather and needs to be stored and used in an empty place, the battery board is retracted, the supporting bars are inserted back again, the stress in the middle of the protective cover plate is guaranteed, the middle waterproof rubber strip can also prevent the interior from being wet, the ground is leveled immediately at the moment, various activities can be carried out, and the battery board is protected.

Drawings

Fig. 1 is a schematic view of the overall structure of a single crystal silicon solar cell carrying device of the present invention;

fig. 2 is a top view of the single crystal silicon solar cell mounting apparatus of the present invention.

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Wherein, 1, flexible adjusting part, 2, panel, 3, protection supporting component, 4, accomodate the cavity, 5, flexible stand, 6, power storage module, 7, protection apron, 8, observation window, 9, draw the bolt, 10, connecting rod, 11, support bar, 12, waterproof coating, 13, waterproof adhesive tape.

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 some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in the figures 1-2, the utility model relates to a single crystal silicon solar cell carrying device, which comprises a telescopic adjusting component 1, a cell panel 2 and a protective supporting component 3, wherein the telescopic adjusting component 1 is connected below the ground plane in a concave manner, the cell panel 2 is connected on the telescopic adjusting component 1, the protective supporting component 3 is connected on the ground and above the telescopic adjusting component 1, the telescopic adjusting component 1 comprises a receiving cavity 4, a telescopic upright post 5 and a power storage module 6, the receiving cavity 4 is arranged below the ground in a concave manner, the telescopic upright post 5 is connected on the inner bottom wall of the receiving cavity 4, the power storage module 6 is connected on the inner bottom wall of the receiving cavity 4, the protective supporting component 3 comprises a protective cover plate 7, an observation window 8, a bolt 9, a connecting rod 10 and a supporting strip 11, the protective cover plate 7 is hinged above the receiving cavity 4 in two blocks, the observation window 8 is inlaid on the protective cover plate 7, the pull bolt 9 is hinged on the protective cover plate 7, the support bars 11 horizontally penetrate between the two protective cover plates 7, and the connecting rods 10 are fixedly connected on one sides of all the support bars 11.

Wherein, the inner wall of the containing cavity 4 is evenly coated with a waterproof coating 12; the height of the upper surface of the protective cover plate 7 is flush with the height of the ground; a waterproof rubber strip 13 is connected between the two protective cover plates 7; the observation window 8 is made of high-strength toughened glass; the support bar 11 material sets up for high strength steel.

During specific use, before using, the intracavity is accomodate in panel 2 protection, and can look over the internal state according to observation window 8, when starting work, manual movement connecting rod 10 drives all support bars 11 and takes out from between two protection apron 7, pull bolt 9 through the pulling and open protection apron 7, control flexible stand 5 risees panel 2, the different height that the flexible stand of orientation angle accessible 5 of panel 2 risees realizes, when the flexible stand 5 risees the opposite side of one side is fixed, can change panel 2 orientation into orientation one side setting, when meeting with bad weather and need accomodate panel 2 and use empty place, withdraw panel 2, reinsert back support bar 11, guarantee the atress in the middle of protection apron 7, middle waterproof rubber strip 13 also can prevent inside humidity, ground becomes level and smooth immediately this moment.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Claims (6)

1. A single crystal silicon solar cell carrying device is characterized in that: the solar cell panel comprises a telescopic adjusting component, a cell panel and a protective supporting component, wherein the telescopic adjusting component is concavely connected and arranged below a ground plane, the cell panel is connected and arranged on the telescopic adjusting component, the protective supporting component is connected and arranged on the ground and above the telescopic adjusting component, the telescopic adjusting component comprises a storage cavity, a telescopic stand column and a power storage module, the storage cavity is concavely arranged below the ground, the telescopic stand column is connected and arranged on the inner bottom wall of the storage cavity, the power storage module is connected and arranged on the inner bottom wall of the storage cavity, the protective supporting component comprises a protective cover plate, an observation window, a pull bolt, a connecting rod and a supporting strip, the protective cover plate is hinged and arranged above the storage cavity in two pieces, the observation window is embedded and arranged on the protective cover plate, the pull bolt is hinged and arranged on the protective cover plate, and the supporting strip is horizontally arranged between the two protective cover plates, the connecting rods are fixedly connected to one sides of all the supporting bars.

2. The single crystal silicon solar cell mounting apparatus according to claim 1, wherein: the inner wall of the containing cavity is evenly coated with a waterproof coating.

3. The single crystal silicon solar cell mounting apparatus according to claim 1, wherein: the height of the upper surface of the protective cover plate is flush with the ground height.

4. The single crystal silicon solar cell mounting apparatus according to claim 1, wherein: and a waterproof adhesive tape is connected between the two protective cover plates.

5. The single crystal silicon solar cell mounting apparatus according to claim 1, wherein: the observation window is made of high-strength toughened glass.

6. The single crystal silicon solar cell mounting apparatus according to claim 1, wherein: the support bar material sets up for high strength steel.

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