CN113726283B - Portable and foldable photovoltaic bracket - Google Patents

Abstract

The invention discloses a portable and foldable photovoltaic bracket, and relates to the technical field of photovoltaic brackets. The photovoltaic panel comprises a group of side plate bodies, a photovoltaic panel assembly, a group of front supporting legs and a group of rear supporting legs, wherein a group of sliding grooves are formed in the side plate bodies, embedded grooves are formed in the opposite ends of the two sliding grooves, a first inclined column and a second inclined column are respectively fixed at the lower parts of the two ends of the side plate bodies, waist-shaped grooves are formed in the inner sides of the first inclined column and the outer sides of the second inclined column, and limiting grooves are respectively fixed at the positions, located at the upper parts of the waist-shaped grooves, of the inner sides of the first inclined column and the outer sides of the second inclined column. According to the invention, the integral photovoltaic panel is divided into the fixed first photovoltaic panel and the two foldable photovoltaic panels capable of sliding along the side plate bodies, the two side plate bodies with relatively short length are shared for supporting, and the front support leg and the rear support leg which are convenient to fold and occupy smaller space are designed, so that the space occupied by the folded integral photovoltaic support is greatly reduced, and the portability of the integral photovoltaic support is improved.

Description

Portable and foldable photovoltaic bracket

Technical Field

The invention belongs to the technical field of photovoltaic supports, and particularly relates to a portable and foldable photovoltaic support.

Background

In order to improve the use effect and service life of the photovoltaic panel, a photovoltaic bracket (for supporting the photovoltaic panel to ensure the angle of incident light and protecting the photovoltaic panel) needs to be provided, and for the photovoltaic panel which is convenient to carry and move, the smaller the occupied area of the photovoltaic bracket is, the better, so that the foldable or telescopic photovoltaic bracket is generated.

However, because the specification of the photovoltaic panel is constant, the size of the installation surface structure of the photovoltaic bracket is constant, the existing photovoltaic bracket only carries out large-range folding on the supporting leg with a maintained angle, the surface area occupied by the photovoltaic bracket is still large, the problem of overlarge occupied space still occurs, and the carrying and the use of a user are not facilitated.

Disclosure of Invention

The invention aims to provide a portable and foldable photovoltaic bracket, which is characterized in that an integral photovoltaic plate is divided into a fixed first photovoltaic plate and two foldable photovoltaic plates capable of sliding along side plate bodies, the two side plate bodies with relatively short length are shared for supporting, and a front supporting leg and a rear supporting leg which are convenient to fold and occupy small space are designed, so that the space occupied by the folded integral photovoltaic bracket is greatly reduced, and the portability of the integral photovoltaic bracket is improved.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a portable and foldable photovoltaic bracket, which comprises a group of side plate bodies, a photovoltaic plate assembly, a group of front supporting legs and a group of rear supporting legs;

a group of sliding grooves are formed in the side plate body, and embedded grooves are formed in the opposite ends of the two sliding grooves;

the lower parts of the two ends of the side plate body are respectively fixed with a first inclined column and a second inclined column, the inner sides of the first inclined column and the outer sides of the second inclined column are respectively provided with a waist-shaped groove, and the positions of the inner sides of the first inclined column and the outer sides of the second inclined column and positioned at the upper parts of the waist-shaped grooves are respectively fixed with a limiting groove;

reinforcing rods are fixed between the front support legs and between the rear support legs, end rods are fixed on the outer side of the top ends of the front support legs and the inner side of the top ends of the rear support legs, the front support legs are slidably arranged on the inner side of the first inclined column through the end rods and the kidney grooves, the rear support legs are slidably arranged on the outer side of the second inclined column through the end rods and the kidney grooves, and the end parts of the front support legs and the end parts of the rear support legs are in clearance fit with the limiting grooves;

a first cushion block is fixed on the inner side of the front supporting leg, and a second cushion block is fixed on the inner side of the rear supporting leg;

the photovoltaic panel assembly comprises a first photovoltaic panel and two foldable photovoltaic panels;

the first photovoltaic panel is fixed between a group of side panel bodies, and the foldable photovoltaic panel comprises a second photovoltaic panel and a third photovoltaic panel which rotate mutually;

the two ends of the second photovoltaic plate are respectively provided with a first wire sleeve in sliding connection with the sliding groove, one foldable photovoltaic plate is movably arranged on the upper part of the first cushion block, and the other foldable photovoltaic plate is movably arranged on the upper part of the second cushion block.

Further, the sleeve is arranged at two ends of one side of the second photovoltaic plate, a group of connecting edges are fixed on one side of the third photovoltaic plate, shaft bodies are fixed at the end parts of the connecting edges, and the second photovoltaic plate and the third photovoltaic plate rotate with each other through the sleeve and the shaft bodies.

Further, the first photovoltaic board includes the frame body, be fixed with the photovoltaic board in the frame body, the structural feature of second photovoltaic board and third photovoltaic board is unanimous with the structural feature of first photovoltaic board.

Further, second wire sleeves are arranged at two ends of the outer frame body of the first photovoltaic panel, a through hole is formed in the center of the side plate body, and the second wire sleeves penetrate through the through hole.

Further, a group of limiting plates are fixed on the lower portion of one side, close to the second photovoltaic plate, of the third photovoltaic plate, gaps are formed between the limiting plates, and wire openings are formed in one sides, close to the gaps, of outer frame bodies on the third photovoltaic plate and the second photovoltaic plate.

Further, an upper supporting edge is fixed at a position which is positioned on the inner side of the side plate body and above the side of the embedded groove, and the upper supporting edge is opposite to the first inclined column in position.

Further, the lower supporting edge is fixed at the position which is positioned at the inner side of the side plate and below the side of the first photovoltaic plate, and the upper supporting edge and the lower supporting edge are respectively positioned at the positions at two sides of the first photovoltaic plate.

Further, a notch is formed in one side, close to the rear supporting leg, of the second cushion block, and the notch is opposite to the second inclined column in position.

Further, a third cushion block is fixed on the surface, close to the front supporting leg, of the second cushion block, and the third cushion block and the second cushion block are vertically distributed.

Further, the height of the embedded groove at the upper part of the first photovoltaic plate is consistent with the thickness of the second photovoltaic plate, and the height of the embedded groove at the lower part of the first photovoltaic plate is consistent with the sum of the thicknesses of the second photovoltaic plate and the third photovoltaic plate.

The invention has the following beneficial effects:

according to the invention, the integral photovoltaic panel is divided into the fixed first photovoltaic panel and the two foldable photovoltaic panels capable of sliding along the side plate bodies, the two side plate bodies with relatively short length are shared for supporting, and the front support leg and the rear support leg which are convenient to fold and occupy smaller space are designed, so that the space occupied by the folded integral photovoltaic support is greatly reduced, and the portability of the integral photovoltaic support is improved.

Of course, it is not necessary for any one product to practice the invention to achieve all of the advantages set forth above at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a portable and foldable photovoltaic module according to the present invention;

FIG. 2 is a cross-sectional view of the structure of the present invention;

FIG. 3 is a schematic view of the structure of the present invention from the bottom view;

FIG. 4 is a schematic view of the folded structure of the present invention;

FIG. 5 is a cross-sectional view of the folded structure of the present invention;

FIG. 6 is a schematic view of the structure of two side plate bodies and a first photovoltaic panel;

FIG. 7 is a schematic structural view of a second photovoltaic panel and a third photovoltaic panel;

FIG. 8 is a schematic view of the front leg structure;

FIG. 9 is a schematic view of the rear leg structure;

in the drawings, the list of components represented by the various numbers is as follows:

1-side plate body, 2-photovoltaic panel assembly, 3-front support leg, 4-rear support leg, 5-reinforcing rod, 101-chute, 102-embedded groove, 103-first inclined column, 104-second inclined column, 105-kidney-shaped groove, 106-limit groove, 107-through opening, 108-upper supporting edge, 109-lower supporting edge, 201-first photovoltaic panel, 202-second photovoltaic panel, 203-third photovoltaic panel, 204-sleeve, 205-connecting edge, 206-shaft body, 207-outer frame body, 208-second wire sleeve, 209-limit plate, 210-notch, 211-first wire sleeve, 301-end rod, 302-first cushion, 401-second cushion, 402-third cushion and 403-notch.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-9, the invention is a portable and foldable photovoltaic bracket, which comprises a group of side plate bodies 1, a photovoltaic plate assembly 2, a group of front supporting legs 3 and a group of rear supporting legs 4;

a group of sliding grooves 101 are formed in the side plate body 1, and embedded grooves 102 are formed in the opposite ends of the two sliding grooves 101;

the lower parts of the two ends of the side plate body 1 are respectively fixed with a first inclined column 103 and a second inclined column 104, the inner side of the first inclined column 103 and the outer side of the second inclined column 104 are respectively provided with a waist-shaped groove 105, and the positions of the inner side of the first inclined column 103 and the outer side of the second inclined column 104, which are positioned at the upper part of the waist-shaped groove 105, are respectively fixed with a limit groove 106;

reinforcing rods 5 are fixed between the front support legs 3 and the rear support legs 4, end rods 301 are fixed on the outer sides of the top ends of the front support legs 3 and the inner sides of the top ends of the rear support legs 4, the front support legs 3 are slidably arranged on the inner sides of the first inclined columns 103 through the end rods 301 and the waist-shaped grooves 105, the rear support legs 4 are slidably arranged on the outer sides of the second inclined columns 104 through the end rods 301 and the waist-shaped grooves 105, and the end parts of the front support legs 3 and the end parts of the rear support legs 4 are in clearance fit with the limiting grooves 106;

a first cushion block 302 is fixed on the inner side of the front supporting leg 3, and a second cushion block 401 is fixed on the inner side of the rear supporting leg 4;

the photovoltaic panel assembly 2 comprises a first photovoltaic panel 201 and two foldable photovoltaic panels;

the first photovoltaic panel 201 is fixed between a group of side panel bodies 1, and the foldable photovoltaic panel comprises a second photovoltaic panel 202 and a third photovoltaic panel 203 which rotate with each other;

the two ends of the second photovoltaic panel 202 are respectively provided with a first wire sleeve 211 which is in sliding connection with the chute 101, one foldable photovoltaic panel is movably arranged on the upper part of the first cushion block 302, and the other foldable photovoltaic panel is movably arranged on the upper part of the second cushion block 401.

As shown in fig. 1-3, fig. 5 and fig. 7, two ends of one side of the second photovoltaic panel 202 are respectively provided with a sleeve 204, one side of the third photovoltaic panel 203 is fixed with a group of connecting edges 205, the end parts of the connecting edges 205 are fixed with shaft bodies 206, and the second photovoltaic panel 202 and the third photovoltaic panel 203 mutually rotate through the sleeves 204 and the shaft bodies 206.

As shown in fig. 1 to 7, the first photovoltaic panel 201 includes an outer frame 207, and the photovoltaic panels are fixed in the outer frame 207, and structural features of the second photovoltaic panel 202 and the third photovoltaic panel 203 are consistent with structural features of the first photovoltaic panel 201.

As shown in fig. 1, 3-4 and 6, two ends of the outer frame 207 of the first photovoltaic panel 201 are respectively provided with a second wire sleeve 208, a through hole 107 is formed in the center of the side plate 1, the second wire sleeve 208 penetrates through the through hole 107, and wires between the first photovoltaic panel 201 and the second photovoltaic panel 202 are connected outside the side plate 1 through the first wire sleeve 211 and the second wire sleeve 208.

As shown in fig. 2-3 and fig. 7, a group of limiting plates 209 are fixed on the lower portion of the third photovoltaic plate 203 near the side of the second photovoltaic plate 202, a notch 210 is formed between the group of limiting plates 209, wire openings are formed on the sides of the third photovoltaic plate 203 and the outer frame 207 on the second photovoltaic plate 202 near the notch 210, and a connecting wire between the second photovoltaic plate 202 and the third photovoltaic plate 203 passes through the wire openings.

As shown in fig. 2 and fig. 5-6, an upper abutment edge 108 is fixed at a position on the inner side of the side plate body 1 and above a side of an embedded groove 102, and the upper abutment edge 108 is opposite to the first inclined post 103.

As shown in fig. 2 and fig. 5-6, a lower abutment edge 109 is fixed at a position inside the side plate body 1 and below the side of the first photovoltaic panel 201, and the upper abutment edge 108 and the lower abutment edge 109 are respectively located at positions on both sides of the first photovoltaic panel 201.

As shown in fig. 1, 3 and 9, a notch 403 is formed on a side of the second cushion block 401 near the rear leg, and the notch 403 is opposite to the second diagonal column 104.

As shown in fig. 2, 5 and 9, a third pad 402 is fixed on a surface of the second pad 401 near the front leg 3, and the third pad 402 is vertically distributed with the second pad 401.

Wherein as shown in fig. 2, the height of the embedded groove 102 at the upper part of the first photovoltaic panel 201 is identical to the thickness of the second photovoltaic panel 202, and the height of the embedded groove 102 at the lower part of the first photovoltaic panel 201 is identical to the sum of the thicknesses of the second photovoltaic panel 202 and the third photovoltaic panel 203.

As shown in fig. 5, rubber pads may be disposed on the upper and lower surfaces of the outer frame 207 of the first photovoltaic panel 201 to improve friction between the foldable photovoltaic panel and the first photovoltaic panel 201, or magnets may be disposed to improve fixing ability between the foldable photovoltaic panel and the first photovoltaic panel 201.

The working principle of the invention is as follows:

1. when the folding is needed, the process is as follows:

referring to fig. 1-5, the third photovoltaic panel 203 of the right-end foldable photovoltaic panel is turned 180 degrees counterclockwise, at this time, the third photovoltaic panel 203 is folded on the upper surface of the second photovoltaic panel 202 to form a whole, and then the foldable photovoltaic panel is lifted upwards, so that the first wire sleeve 211 at the end of the second photovoltaic panel 202 can slide into the chute 101 along the embedded groove 102, and then the foldable photovoltaic panel is moved to a position right above the first photovoltaic panel 201 along the chute 101;

rotating the third photovoltaic panel 203 of the left-end foldable photovoltaic panel clockwise by 180 degrees, wherein the third photovoltaic panel 203 is folded on the upper surface of the second photovoltaic panel 202 to form a whole, and the foldable photovoltaic panel is moved to the position right below the first photovoltaic panel 201 through the embedded groove 102 and the sliding groove 101, and the third photovoltaic panel 203 is positioned between the second photovoltaic panel 202 and the first photovoltaic panel 201;

the front supporting leg 3 and the rear supporting leg 4 slide downwards along the kidney-shaped groove 105, when the front supporting leg 3 and the rear supporting leg 4 slide to the bottom end of the kidney-shaped groove 105, the end parts of the front supporting leg 3 and the rear supporting leg 4 are separated from the limiting groove 106, the front supporting leg 3 and the rear supporting leg 4 can rotate at the moment, the front supporting leg 3 and the rear supporting leg 4 can rotate inwards, the front supporting leg 3 and the rear supporting leg 4 can be folded, and meanwhile the upper surface of the third cushion block 402 on the rear supporting leg 4 supports against the bottom surface of the foldable photovoltaic panel below the first photovoltaic panel 201.

2. When the invention needs to be unfolded, the flow is as follows:

turning the front and rear legs 3 and 4, turning the front and rear legs 3 and 4 to an angle parallel to the first and second diagonal columns 103 and 104, moving the ends of the front and rear legs 3 and 4 into the limit grooves 106, and restricting the movement track of the front and rear legs 3 and 4, thereby expanding the front and rear legs 3 and 4, and at this time, the front and rear legs 3 and 4 have a certain distance liftable function (the front and rear legs 3 and 4 can slide a small distance along the limit grooves 106);

the left foldable photovoltaic plate is moved out, the foldable photovoltaic plate is moved outwards through the sliding groove 101, when the foldable photovoltaic plate moves to the end part of the sliding groove 101, the third photovoltaic plate 203 can be rotated anticlockwise for 180 degrees to be unfolded, the angle between the third photovoltaic plate 203 and the second photovoltaic plate 202 is ensured through the limiting plate 209, at the moment, the side plate body 1 and the photovoltaic plate assembly 2 naturally fall down, the first cushion block 302 of the front supporting leg 3 can prop against the right rear part of the second photovoltaic plate 202 on the foldable photovoltaic plate, the upper prop edge 108 props against the left upper part of the second photovoltaic plate 202, and the position of the foldable photovoltaic plate can be fixed;

finally, the right foldable photovoltaic plate is moved out, the foldable photovoltaic plate is moved outwards through the sliding groove 101, when the foldable photovoltaic plate moves to the end of the sliding groove 101, along with gravity, the first wire sleeve 211 of the second photovoltaic plate 202 falls into the embedded groove 102, at the moment, the left side and the right side of the bottom of the second photovoltaic plate 202 respectively fall on the lower supporting edge 109 and the second cushion block 401, and the third photovoltaic plate 203 is rotated clockwise for 180 degrees to be unfolded.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (10)

1. A lightweight, foldable photovoltaic bracket, characterized by: comprises a group of side plate bodies (1), a photovoltaic plate assembly (2), a group of front supporting legs (3) and a group of rear supporting legs (4);

a group of sliding grooves (101) are formed in the side plate body (1), and embedded grooves (102) are formed in the opposite ends of the two sliding grooves (101);

a first inclined column (103) and a second inclined column (104) are respectively fixed at the lower parts of two ends of the side plate body (1), waist-shaped grooves (105) are respectively formed in the inner side of the first inclined column (103) and the outer side of the second inclined column (104), and limit grooves (106) are respectively fixed at the positions, which are positioned on the upper parts of the waist-shaped grooves (105), of the inner side of the first inclined column (103) and the outer side of the second inclined column (104);

reinforcing rods (5) are fixed between the front support legs (3) and between the rear support legs (4), end rods (301) are fixed on the outer sides of the top ends of the front support legs (3) and the inner sides of the top ends of the rear support legs (4), the front support legs (3) are slidably arranged on the inner sides of the first inclined columns (103) through the end rods (301) and the kidney grooves (105), the rear support legs (4) are slidably arranged on the outer sides of the second inclined columns (104) through the end rods (301) and the kidney grooves (105), and the end parts of the front support legs (3) and the end parts of the rear support legs (4) are in clearance fit with the limiting grooves (106);

a first cushion block (302) is fixed on the inner side of the front supporting leg (3), and a second cushion block (401) is fixed on the inner side of the rear supporting leg (4);

the photovoltaic panel assembly (2) comprises a first photovoltaic panel (201) and two foldable photovoltaic panels;

the first photovoltaic panel (201) is fixed between a group of side panel bodies (1), and the foldable photovoltaic panel comprises a second photovoltaic panel (202) and a third photovoltaic panel (203) which rotate mutually;

the two ends of the second photovoltaic plate (202) are respectively provided with a first wire sleeve (211) which is in sliding connection with the sliding groove (101), one foldable photovoltaic plate is movably arranged on the upper part of the first cushion block (302), and the other foldable photovoltaic plate is movably arranged on the upper part of the second cushion block (401).

2. The portable and foldable photovoltaic bracket according to claim 1, wherein the two ends of one side of the second photovoltaic panel (202) are respectively provided with a sleeve (204), one side of the third photovoltaic panel (203) is fixed with a group of connecting edges (205), the end parts of the connecting edges (205) are fixed with shaft bodies (206), and the second photovoltaic panel (202) and the third photovoltaic panel (203) rotate with each other through the sleeves (204) and the shaft bodies (206).

3. The portable and foldable photovoltaic support according to claim 1, wherein the first photovoltaic panel (201) comprises an outer frame (207), the photovoltaic panels are fixed in the outer frame (207), and structural features of the second photovoltaic panel (202) and the third photovoltaic panel (203) are consistent with structural features of the first photovoltaic panel (201).

4. A portable and foldable photovoltaic support according to claim 3, wherein two ends of the outer frame body (207) of the first photovoltaic panel (201) are respectively provided with a second wire sleeve (208), a through hole (107) is formed in the center of the side plate body (1), and the second wire sleeve (208) penetrates through the through hole (107).

5. A portable and foldable photovoltaic bracket according to claim 3, wherein a group of limiting plates (209) are fixed at the lower part of one side of the third photovoltaic plate (203) close to the second photovoltaic plate (202), a notch (210) is formed between a group of limiting plates (209), and wire openings are formed at one sides of the outer frame (207) of the third photovoltaic plate (203) and the second photovoltaic plate (202) close to the notch (210).

6. A portable and foldable photovoltaic support according to claim 1, characterized in that an upper abutment edge (108) is fixed at a position inside the side plate body (1) and above a side of an embedded groove (102), and the upper abutment edge (108) is opposite to the first inclined column (103).

7. The portable and foldable photovoltaic bracket according to claim 6, wherein a lower abutment edge (109) is fixed at a position which is located below the side of the first photovoltaic panel (201) inside the side plate body (1), and the upper abutment edge (108) and the lower abutment edge (109) are respectively located at positions on both sides of the first photovoltaic panel (201).

8. The portable and foldable photovoltaic bracket according to claim 1, wherein a notch (403) is formed on a side of the second cushion block (401) close to the rear leg, and the notch (403) is opposite to the second diagonal column (104).

9. The portable and foldable photovoltaic bracket according to claim 1, wherein a third cushion block (402) is fixed on a surface of the second cushion block (401) close to the front supporting leg (3), and the third cushion block (402) is vertically distributed with the second cushion block (401).

10. A lightweight foldable photovoltaic support according to claim 1, characterized in that the height of the embedded groove (102) in the upper part of the first photovoltaic panel (201) corresponds to the thickness of the second photovoltaic panel (202), and the height of the embedded groove (102) in the lower part of the first photovoltaic panel (201) corresponds to the sum of the thicknesses of the second photovoltaic panel (202) and the third photovoltaic panel (203).