CN112994601A

CN112994601A - Photovoltaic power generation equipment

Info

Publication number: CN112994601A
Application number: CN202110197781.8A
Authority: CN
Inventors: 陈国荣
Original assignee: Individual
Current assignee: Changzhou Jinyu Precision Technology Co ltd
Priority date: 2020-04-17
Filing date: 2020-04-17
Publication date: 2021-06-18
Anticipated expiration: 2040-04-17
Also published as: CN112994601B; CN112910384A; CN111404456A; CN111404456B

Abstract

The invention discloses a photovoltaic power generation device. Its structure includes an assembly frame, a battery board, a fixture and a battery box. The battery board is provided with a splicing port, a current drainage block and a parts box. The upper and lower sides of the battery board are provided with drainage blocks to prevent the battery The surface and back of the panel are affected by the wind, and the drainage block has the effect of reducing the force of the wind on the panel, preventing the stability of the panel from being affected by excessive wind. The buffer block has the function of unloading, converting the wind into rotating power for consumption. Reduce the force of the wind on the battery panel, the triangular groove prevents the slider from having too much resistance to the wind force, and prevents the slider from being damaged due to too fast sliding speed, and the triangle block prevents the slider from loosening under the action of the wind, and the battery panel is blown After shaking, the support rod squeezes the spring, and the squeezing force is transmitted to the ground surface through the fixed block, which makes the ground surface more stable, and has the effect of stabilizing the fixed column. The fixed block makes the ground surface firmer and lowers the the degree of shaking.

Description

Photovoltaic power generation equipment

Technical Field

The invention relates to the field of power generation equipment, in particular to photovoltaic power generation equipment.

Background

Portable power generation equipment provides service for outdoor power supply, power generation equipment adopts solar power generation, solar cell panel absorbs solar energy effect better with horizontal plane slope 40 degrees time, and solar cell panel is when being located high slope department in the field, solar energy is higher to the intensity of illumination of panel, but because high slope department wind-force is great, the area that the panel bore wind-force is great, and when open-air high slope department passes through the support and fixes the panel in the soil, wind-force acts on the panel surface, cause the support to rock in the soil, cause the angular deviation who becomes flexible and make the panel easily, influence its stability, cause and reduce the degree of absorption of panel to solar energy.

Disclosure of Invention

The invention is realized by the following technical scheme: the utility model provides a photovoltaic power generation equipment, its structure is including equipment frame, panel, fixer, battery box, the panel inlays solid the installation in equipment frame surface, the equipment frame inlays solid the installation in the inside of fixer, the panel carries out the electricity with the battery box and is connected, the panel is equipped with and pieces together interface, drainage piece, part box, the laminating of drainage piece is both ends about the part box, the concatenation mouth inlays solid the installation in equipment frame surface, piece together the interface laminating both ends around the part box, the drainage piece is equipped with two, piece together the interface laminating at the both ends downside of drainage piece.

As a further improvement of the invention, the drainage block is provided with a buffer block, a drainage groove, a slider and a fixing plate, two sides of the slider are attached to the surface of the drainage groove, the drainage groove is attached to two sides of the buffer block, the drainage groove and the fixing plate are of an integrated structure, the fixing plate is attached to the upper end of the part box, the surface of the drainage groove is smooth, and linear sliding grooves are distributed on the surface of the drainage groove.

As a further improvement of the invention, the buffer block comprises a rotating plate, a ball body and two fixed rods, wherein the rotating plate is welded on the outer surface of the ball body, the fixed rods are welded on two sides of the ball body, the fixed rods are fixedly embedded at the upper end of the fixed plate, and the two rotating plates are symmetrically distributed by taking the fixed rods as centers.

As a further improvement of the invention, the slider is provided with a triangular groove, a sponge block and a triangular block, the triangular block is attached to the surface of the drainage groove, the triangular block is connected to two sides of the sponge block, the triangular groove and the sponge block are positioned on the same central axis, the triangular block is attached to the outer side of the triangular groove, and under the action of wind, the sponge block slides to clean the battery panel.

As a further improvement of the invention, the fixer is provided with a support rod, a spring, a fixed block, a movable block and a fixed column, wherein the support rod is connected below the assembling frame, the spring is embedded in the fixed column, the upper end of the fixed block is attached to the lower end of the spring, the support rod is clamped in the fixed column, the movable block is movably matched with the support rod, the support rod is attached to the upper end of the spring, the fixed block is movably matched with the ground surface, and the fixed column penetrates through the ground surface.

As a further improvement of the invention, the fixed block is provided with a conical block, a rubber block and a stress block, the conical block is embedded and fixedly arranged in the rubber block, the rubber block is attached to the upper end of the stress block, the stress block is attached to the lower end of the spring, the rubber block is in an annular structure, the rubber block has the function of increasing the friction force with the ground surface, and the conical block can be better fixed on the ground surface.

Advantageous effects

Compared with the prior art, the invention has the beneficial effects that:

1. both sides are equipped with the drainage piece about the panel, prevent that panel surface and back from receiving the influence of wind-force, drainage groove surface on the drainage piece is smooth, and it has linear spout to distribute, have the effect that reduces wind-force to the panel effort, avoid the too big stability that influences the panel of wind-force, the spheroid rotates on the buffer block under the wind-force effect, the function of unloading the power has, convert wind-force into rotatory power and consume, reduce the effort of wind-force to the panel, and under the wind-force effect, the sponge piece can slide, clear up the panel when gliding, prevent that the surface from piling up debris such as silt, the triangular groove avoids the slider too big to the resistance of wind-force, it is impaired to prevent that the too fast messenger slider of slip speed, and the triangular block laminates each other with the drainage groove, avoid the slider to loosen under the wind.

2. The panel is blown and is rocked the back, skew through the movable block, make the bracing piece extrude the spring, the spring cushions the extrusion force, and transmit the extrusion force to the ground surface through the fixed block, make the ground surface more stable, have the effect of stabilizing the fixed column, the rubber block has the effect of increase fixed block and ground surface friction, the toper piece can be better fix at the ground surface, the problem of grabbing the power insecure to the ground surface has been avoided, the fixed block makes the ground surface more firm, and the degree of rocking has been reduced.

Drawings

Fig. 1 is a schematic structural diagram of a photovoltaic power generation apparatus according to the present invention.

Fig. 2 is a schematic perspective view of a battery panel according to the present invention.

Fig. 3 is a schematic perspective view of a drainage block according to the present invention.

Fig. 4 is a schematic plan view of a buffer block according to the present invention.

Fig. 5 is a schematic perspective view of a slider according to the present invention.

Fig. 6 is a schematic plan view of a fastener of the present invention.

Fig. 7 is a schematic perspective view of a fixing block according to the present invention.

In the figure: the assembly rack-1, the battery panel-2, the fixer-3, the battery box-4, the splicing opening-21, the drainage block-22, the part box-23, the buffer block-221, the drainage groove-222, the slider-223, the fixed plate-224, the rotating plate-w 1, the sphere-w 2, the fixed rod-w 3, the triangular groove-a 1, the sponge block-a 2, the triangular block-a 3, the supporting rod-31, the spring-32, the fixed block-33, the movable block-34, the fixed column-35, the conical block-331, the rubber block-332, the stress block-333 and the ground surface-x.

Detailed Description

The technology of the present invention is further described with reference to the accompanying drawings:

example 1:

as shown in fig. 1-5:

the invention relates to photovoltaic power generation equipment which structurally comprises an assembly frame 1, a battery panel 2, a fixer 3 and a battery box 4, wherein the battery panel 2 is fixedly installed on the surface of the assembly frame 1, the assembly frame 1 is fixedly installed inside the fixer 3, the battery panel 2 is electrically connected with the battery box 4, the battery panel 2 is provided with splicing ports 21, a drainage block 22 and a part box 23, the drainage block 22 is attached to the upper end and the lower end of the part box 23, the splicing ports 21 are fixedly installed on the surface of the assembly frame 1, the splicing ports 21 are attached to the front end and the rear end of the part box 23, the drainage block 22 is provided with two splicing ports 21, and the splicing ports 21 are attached to the lower sides of the two ends of the drainage block 22 so as to prevent the surface and the back of the battery panel 2 from.

The drainage block 22 is provided with a buffer block 221, a drainage groove 222, a slider 223 and a fixing plate 224, the two sides of the slider 223 are attached to the surface of the drainage groove 222, the drainage groove 222 is attached to the two sides of the buffer block 221, the drainage groove 222 and the fixing plate 224 are of an integrated structure, the fixing plate 224 is attached to the upper end of the part box 23, the surface of the drainage groove 222 is smooth, linear sliding grooves are distributed in the drainage groove 222, the effect of reducing the acting force of wind power on the battery panel 2 is achieved, and the stability of the battery panel 2 is prevented from being influenced by the overlarge wind power.

The buffer block 221 is composed of a rotating plate w1, a sphere w2 and a fixing rod w3, the rotating plate w1 is welded on the outer surface of the sphere w2, the fixing rods w3 are welded on two sides of the sphere w2, the fixing rods w3 are fixedly installed at the upper end of the fixing plate 224 in an embedded mode, the two rotating plates w1 are arranged, the fixing rods w3 are used as the center and are symmetrically distributed, the sphere w2 rotates, the force unloading function is achieved, wind power is converted into rotating power to be consumed, and acting force of the wind power on the battery panel 2 is reduced.

Wherein, slider 223 is equipped with triangular groove a1, sponge piece a2, triangular block a3, triangular block a3 laminates on drainage groove 222 surface, triangular block a3 is connected in sponge piece a2 both sides, triangular groove a1 is located same central axis with sponge piece a2, triangular block a3 laminates in the outside of triangular groove a1, under the wind-force effect, sponge piece a2 slides and clears up panel 2, prevents that the surface from piling up debris such as silt, and triangular groove a1 avoids slider 223 too big to the resistance of wind-force, prevents that the too fast messenger slider 223 of sliding speed is impaired, and triangular block a3 avoids slider 223 to loosen under the wind-force effect.

The embodiment has the following specific use modes and functions:

in the invention, the upper side and the lower side of the battery board 2 are provided with the drainage blocks 22 to prevent the surface and the back of the battery board 2 from being influenced by wind power, the drainage grooves 222 on the drainage blocks 22 have smooth surfaces, and the linear sliding grooves are distributed, so that the effect of reducing the acting force of wind power on the cell panel 2 is achieved, the influence of overlarge wind power on the stability of the cell panel 2 is avoided, the ball w2 on the buffer block 221 rotates under the action of the wind power, the force unloading function is achieved, the wind power is converted into the rotating power to be consumed, the acting force of the wind power on the cell panel 2 is reduced, under the action of wind power, the sponge block a2 can slide, the battery panel 2 can be cleaned while sliding, impurities such as silt and the like are prevented from being accumulated on the surface, the triangular groove a1 prevents the slider 223 from having overlarge resistance to the wind power, prevents the slider 223 from being damaged due to the overhigh sliding speed, and the triangular block a3 is attached to the drainage groove 222, so that the slider 223 is prevented from being loosened under the action of wind.

Example 2:

as shown in fig. 6-7:

wherein, the fixer 3 is provided with a support rod 31, a spring 32, a fixed block 33, a movable block 34 and a fixed column 35, the support rod 31 is connected below the assembly rack 1, the spring 32 is embedded in the fixing column 35, the upper end of the fixed block 33 is attached to the lower end of the spring 32, the support rod 31 is clamped in the fixed column 35, the movable block 34 is movably matched with the support rod 31, the support rod 31 is attached to the upper end of the spring 32, the fixed block 33 is movably matched with the ground surface x, the fixed column 35 penetrates through the ground surface x, after the battery panel 2 is blown and shaken, the support rod 31 presses the spring 32 by the deflection of the movable block 34, the spring 32 buffers the pressing force, and transmit power to ground surface x through fixed block 33 for ground surface x is more stable, and has the effect of stabilizing fixed column 35, has reduced the degree that fixed column 35 rocked.

Wherein, the fixed block 33 is equipped with toper piece 331, rubber block 332, atress piece 333, toper piece 331 is inlayed and is installed inside rubber block 332, the laminating of rubber block 332 is in atress piece 333 upper end, the laminating of atress piece 333 is at spring 32 lower extreme, rubber block 332 is the loop configuration, rubber block 332 has the effect of increase and ground surface x frictional force, toper piece 331 can be better fix at ground surface x, avoided grabbing the not firm problem of power to ground surface x.

The embodiment has the following specific use modes and functions:

in the invention, after the battery panel 2 is blown and shaken, the battery panel is shifted through the movable block 34, so that the support rod 31 extrudes the spring 32, the spring 32 buffers the extrusion force, the extrusion force is transmitted to the ground surface x through the fixed block 33, the ground surface x is more stable, the rubber block 332 has the function of stabilizing the fixed column 35, the rubber block 332 has the function of increasing the friction force between the fixed block 33 and the ground surface x, the conical block 331 can be better fixed on the ground surface x, the problem of weak grabbing force on the ground surface x is avoided, the fixed block 33 enables the ground surface x to be firmer, and the shaking degree is reduced.

The technical scheme of the invention is utilized, or a similar technical scheme is designed by a person skilled in the art based on the inspiration of the technical scheme of the invention, so that the technical effects are achieved, and the technical scheme and the method fall into the protection scope of the invention.

Claims

1. A photovoltaic power generation device, the structure of which comprises an assembly frame (1), a battery plate (2), a fixture (3), and a battery box (4), wherein the battery plate (2) is embedded and mounted on the assembly frame (1) ) surface, the assembly frame (1) is embedded and installed in the interior of the holder (3), and the battery plate (2) is electrically connected to the battery box (4), characterized in that:

The battery board (2) is provided with a splicing port (21), a drainage block (22), and a parts box (23), and the drainage block (22) is attached to the upper and lower ends of the parts box (23). (21) being embedded and fixed on the surface of the assembly frame (1), and the splicing interface (21) is attached to the front and rear ends of the parts box (23);

The drainage block (22) is provided with a buffer block (221), a drainage groove (222), a slider (223), and a fixing plate (224), and both sides of the slider (223) are attached to the drainage groove (222) On the surface, the drainage groove (222) is attached to both sides of the buffer block (221), the drainage slot (222) and the fixing plate (224) are an integrated structure, and the fixing plate (224) is attached to the parts box (23) upper end;

The buffer block (221) is composed of a rotating plate (w1), a sphere (w2), and a fixing rod (w3). The rotating plate (w1) is welded on the outer surface of the sphere (w2), and the fixing rod (w3) is welded. On both sides of the sphere (w2), the fixing rod (w3) is embedded and installed on the upper end of the fixing plate (224);

The slider (223) is provided with a triangular groove (a1), a sponge block (a2), and a triangular block (a3), the triangular block (a3) is attached to the surface of the drainage groove (222), and the triangular block (a3) ) is connected on both sides of the sponge block (a2), and the triangular groove (a1) and the sponge block (a2) are located on the same central axis;

The holder (3) is provided with a support rod (31), a spring (32), a fixed block (33), a movable block (34), and a fixed column (35), and the support rod (31) is connected to the assembly frame ( 1) Below, the spring (3) is embedded in the fixing column (35), the upper end of the fixing block (33) is attached to the lower end of the spring (32), and the support rod (31) is engaged with the fixing column (32). 35) Inside, the movable block (34) is movably matched with the support rod (31), and the support rod (31) is fitted on the upper end of the spring (32).

2 . The photovoltaic power generation device according to claim 1 , wherein the fixed block ( 33 ) is provided with a conical block ( 331 ), a rubber block ( 332 ), and a force-bearing block ( 333 ). 3 . The conical block (331) is embedded and installed inside the rubber block (332), the rubber block (332) is attached to the upper end of the force-bearing block (333), and the force-bearing block (333) is attached to the spring (32) lower end.