CN219164482U - Movable photovoltaic support - Google Patents

Abstract

The utility model relates to a movable photovoltaic bracket, which comprises a plurality of groups of bracket units, wherein the plurality of groups of bracket units are arranged between two guide rails in a side-by-side sliding manner, the bracket units are connected with each other through a bracket connecting device, a drainage beam is arranged on each bracket unit, and a plurality of groups of waterproof photovoltaic assemblies with sealing structures are arranged between two adjacent drainage beams; a first sealing waterproof assembly is arranged between two adjacent rows of waterproof photovoltaic assemblies, the outermost sides of the plurality of rows of waterproof photovoltaic assemblies are provided with peripheral sealing assemblies in a sealing manner, and the bottoms of the peripheral sealing assemblies are connected with the upper surface of the installation position in a sealing manner; the waterproof photovoltaic modules are electrically connected through connecting wires; the installation position on one side of the guide rail is provided with a winding wheel assembly connected with the bracket unit. Adopt mobilizable support unit installation waterproof photovoltaic module and multiple seal structure, realize swiftly removing waterproof photovoltaic module under the condition that does not influence the electricity generation, seal structure can carry out sealing treatment to the mounted position, realizes waterproof, deodorant gas and overflows the effect.

Description

Movable photovoltaic support

Technical Field

The utility model relates to the technical field of solar photovoltaic module installation and application, in particular to a movable photovoltaic bracket.

Background

With the rising price of energy, the development and utilization of new energy have become a major topic of research in the current energy field. Because solar energy has the advantages of no pollution, no regional limitation, inexhaustible and the like, research on solar power generation becomes a main direction for developing and utilizing new energy, and power generation by utilizing a photovoltaic solar module is a main mode for using solar energy by people at present.

In the sewage treatment industry, the sewage treatment enterprises are basic life supporting facilities which are required to be configured in each city, the operation is carried out for 24 hours as the sewage treatment enterprises are continuous, the electricity consumption is large and stable, the sewage treatment enterprises have more spaces, and the application of the photovoltaic solar module to the spaces is a good choice. In the air of a large amount of sewage pools in the years, the construction investment of photovoltaic, particularly the mode of hanging a photovoltaic panel by pulling a steel rope through a flexible bracket is relatively large.

The existing photovoltaic solar module structure has the following defects:

(1) After placing the photovoltaic on the sewage treatment tank part, the support of the conventional photovoltaic power station is not movable, so that the operation is inconvenient during maintenance or fault repair, and the photovoltaic module and the support are required to be removed before required operation, thereby greatly increasing the labor cost and affecting the photovoltaic power generation capacity of the operation on the same day.

(2) The sewage treatment pond has the discharge of foul smell, needs to seal to avoid the foul smell to spill over based on the environmental protection demand, and conventional power station does not have fine sealing function, and single glass subassembly does not have suitable well sealed photovoltaic solution on the market at present yet, and single glass material itself weather resistance is also insufficient.

Disclosure of Invention

The applicant provides a movable photovoltaic support aiming at the problems of immovable support and poor sealing effect of a photovoltaic power station in the prior art, so that the support can be moved conveniently, good sealing can be realized quickly, and the generated energy is not influenced.

The technical scheme adopted by the utility model is as follows:

the movable photovoltaic bracket comprises guide rails which are arranged at intervals, a plurality of groups of bracket units are arranged between the two guide rails in a side-by-side sliding manner, the bracket units are connected with each other through a bracket connecting device, the bracket unit at the outermost side is fixed with a mounting position or the guide rail through a fixing device, the upper surface of each bracket unit is provided with a drainage beam perpendicular to the length direction of the guide rail, and the movable photovoltaic bracket further comprises a plurality of groups of waterproof photovoltaic assemblies which are arranged between two adjacent drainage beams in a side-by-side manner;

the waterproof photovoltaic module is of a sealed rectangular structure, and the periphery of the waterproof photovoltaic module comprises a group of oppositely arranged mounting frames and another group of oppositely arranged connecting frames; the installation frames are fixedly installed on two adjacent drainage beams, and the adjacent connection frames are in sealing connection with each other;

a first sealing waterproof component is arranged between two adjacent rows of waterproof photovoltaic components, the first sealing waterproof component is in sealing connection with the upper surface of the installation frame below the first sealing waterproof component, peripheral sealing components are arranged on the installation frame and the connection frame at the outermost side of the plurality of rows of waterproof photovoltaic components in a sealing manner, and the bottom of the peripheral sealing components is in sealing connection with the upper surface of the installation position;

the waterproof photovoltaic modules are electrically connected through connecting wires;

and a winding wheel assembly is arranged at the installation position on one side of the guide rail and is connected with the bracket unit.

As a further improvement of the above technical scheme:

the structure of the bracket unit is as follows: including the support frame, the support frame is frame-shaped structure, and a plurality of installed parts are installed to frame-shaped structure bottom that is located the guide rail top, the installed part is U-shaped bending structure, passes a set of opposite side of U-shaped bending structure installs the connecting axle, install the pulley on the connecting axle, the pulley periphery is provided with the recess, install the traction hook on the support unit, traction hook is connected with the reel subassembly.

Two ends of the connecting shaft extend out of two sides of the U-shaped bending structure.

The cross-sectional structure of the bracket frame is herringbone.

And a triangular gasket is arranged between the mounting piece and the bracket frame.

The drainage beam is also provided with a single installation frame which is symmetrically arranged with the installation frame, and the single installation frame and the installation frame have the same structure;

the first sealing waterproof assembly has the structure that: including installing in the sealed first waterproof cover of installation frame and single installation frame upper surface through sealing material, first waterproof cover is rectangular plate structure, surface mounting has a plurality of spring leaves under the first waterproof cover between installation frame and the single installation frame, the spring leaf is the platy bending structure that the symmetry set up, and the spring leaf joint is in the bottom of installation frame and single installation frame.

The length of the guide rail is greater than or equal to the total length of the plurality of groups of bracket units.

The structure of the guide rail is as follows: the guide rail comprises a limiting plate, wherein the limiting plate is of a U-shaped bending structure, a folded edge is arranged on the upper part of the opposite side of the U-shaped bending structure towards the inner side, and a guide rail strip of a protruding structure is arranged in the middle of the upper surface of the bottom of the limiting plate.

The peripheral seal assembly has the structure that: the sealing device comprises a sealing film which is arranged in a bending manner, wherein fixing pieces are arranged on the upper part and the lower part of the sealing film.

And a transition plate is arranged between two adjacent rows or between two adjacent rows of waterproof photovoltaic modules in the plurality of rows of waterproof photovoltaic modules, the transition plate is fixed on the adjacent drainage beam, and a second sealing waterproof module is arranged between the transition plate and the waterproof photovoltaic modules.

The transition plate is of a sealed rectangular structure and comprises a first sealing frame arranged on one group of side edges of the transition plate and a second sealing frame arranged on the other group of side edges of the transition plate, and the first sealing frame is fixedly arranged on the drainage beam; the first sealing frame and the mounting frame have the same structure; the second sealing frame and the connecting frame have the same structure;

the second sealing waterproof assembly has the structure that: the waterproof cover comprises a second waterproof cover which is arranged on the upper surfaces of an installation frame and a first sealing frame in a sealing mode through sealing materials, the second waterproof cover is of a rectangular plate-shaped structure, a plurality of spring pieces are arranged on the lower surface of the second waterproof cover between the installation frame and the first sealing frame, and the spring pieces are clamped at the bottoms of the installation frame and the first sealing frame.

The beneficial effects of the utility model are as follows:

the waterproof photovoltaic module is compact and reasonable in structure and convenient to operate, the waterproof photovoltaic module and various sealing structures are installed through the movable support unit, the waterproof photovoltaic module can be moved quickly under the condition that the power generation of the waterproof photovoltaic module is not affected, the sealing structures can seal the installation position, and meanwhile the waterproof and deodorant air overflowing effects are achieved.

The utility model also has the following advantages:

(1) The waterproof photovoltaic assemblies are sealed through the connecting frame structure; sealing is realized between two adjacent rows of waterproof photovoltaic modules through the structure of the first sealing waterproof module; the peripheral sealing assembly is used for sealing the periphery of the movable photovoltaic bracket. Realize the omnibearing sealing of movable photovoltaic support structure.

(2) Two adjacent rows of waterproof photovoltaic modules are electrically connected through connecting wires. The length of the connecting line is not less than the width of the rack unit so that when the rack unit is moved, a sufficient space can be opened as an access opening or other uses; in addition, the connecting wires can be replaced with different length specifications according to actual requirements.

(3) The groove structure arranged on the circumferential surface of the pulley is matched with the guide rail strip, so that the stable sliding of the bracket unit is realized; meanwhile, the contact area between the pulley and the guide rail can be reduced in the matching structure, so that the pulley can slide easily.

(4) The arrangement of the transition plate replaces the installation of the waterproof photovoltaic module, and the installation cost is reduced under the condition of being applicable; when overhauling, the transition plate is dismantled to form an overhauling space, and the position of the bracket unit can be changed by moving; the maintenance space can be enlarged on the original basis by moving the bracket unit 1 left and right.

Drawings

FIG. 1 is a schematic view of the present utility model (excluding the transition plate from the wire wheel assembly and the peripheral seal assembly).

Fig. 2 is a side view of the present utility model (with the wire wheel assembly and peripheral seal assembly omitted).

Fig. 3 is a partial enlarged view at a in fig. 2.

Fig. 4 is a front view of the present utility model.

Fig. 5 is a schematic view of the installation of a single bracket unit, waterproof photovoltaic module and drainage beam of the present utility model.

Fig. 6 is a schematic view of the frame structure of the bracket of the present utility model (the cross section is herringbone).

Fig. 7 is a schematic view of the frame structure of the bracket of the present utility model.

Fig. 8 is a partial enlarged view at B in fig. 4.

FIG. 9 is a schematic structural view of the present utility model (including transition plates, rails, wire wheel assemblies and peripheral seal assemblies omitted).

Fig. 10 is a partial enlarged view at C in fig. 9.

Fig. 11 is a schematic view of the structure of the present utility model (excluding the transition plate) moving leftwards.

Fig. 12 is a schematic view showing the structure of the present utility model (excluding the transition plate) moving rightward.

Fig. 13 is a schematic view of the structure of the present utility model (including the transition plate) with the transition plate removed.

Fig. 14 is a schematic view showing a structure of the present utility model (including a transition plate) in which a plurality of sets of rack units are moved rightward together after the transition plate is removed.

Wherein:

1. a stand unit; 101. a bracket frame; 102. a pulley; 103. a connecting shaft; 104. a mounting member; 105. triangular gaskets;

2. a waterproof photovoltaic module; 201. installing a frame; 202. connecting the frames; 203. a single mounting frame;

3. a first seal waterproof assembly; 301. a first waterproof cover; 302. a sealing material; 303. a spring piece;

4. a drainage beam; 5. a peripheral seal assembly;

6. a guide rail; 601. a guide rail; 602. a limiting plate;

7. a transition plate; 701. a first sealing frame; 8. a second sealing waterproof assembly; 801. and a second waterproof cover.

Detailed Description

The following describes specific embodiments of the present utility model with reference to the drawings.

As shown in fig. 1-5, the movable photovoltaic support of this embodiment includes a guide rail 6 disposed at intervals, a plurality of groups of support units 1 are slidably mounted between two guide rails 6 side by side, each support unit 1 is connected to each other by a support connection device, the outermost support unit 1 is fixed to a mounting position or the guide rail 6 by a fixing device, a drainage beam 4 is mounted on the upper surface of each support unit 1 perpendicular to the length direction of the guide rail 6, and a plurality of groups of waterproof photovoltaic modules 2 are mounted between two adjacent drainage beams 4 side by side. The plurality of slidable bracket units 1 provide mounting positions for the waterproof photovoltaic module 2, so that the waterproof photovoltaic module 2 can be conveniently moved under the condition that the waterproof photovoltaic module 2 is not dismounted; the bracket connecting device is used for preventing the bracket units 1 from sliding randomly; the fixing means are fixed to the mounting locations or rails 6 for the overall positioning of the plurality of rack units 1, preventing movement of the rack units 1.

As shown in fig. 1, 2 and 5, the waterproof photovoltaic module 2 has a sealed rectangular structure, and the periphery of the waterproof photovoltaic module 2 includes a set of oppositely arranged mounting frames 201 and another set of oppositely arranged connecting frames 202; the installation frames 201 are fixedly installed on two adjacent drainage beams 4, and the adjacent connection frames 202 are mutually connected in a sealing mode. The waterproof photovoltaic modules 2 in the same row are sealed through the structure.

As shown in fig. 4, a first sealing waterproof component 3 is installed between two adjacent rows of waterproof photovoltaic components 2, the first sealing waterproof component 3 is in sealing connection with the upper surface of an installation frame 201 below the first sealing waterproof component, peripheral sealing components 5 are installed on the installation frame 201 and a connection frame 202 on the outermost side of the plurality of rows of waterproof photovoltaic components 2 in a sealing manner, and the bottom of each peripheral sealing component 5 is in sealing connection with the upper surface of an installation position. Sealing is realized between two adjacent rows of waterproof photovoltaic modules 2 through the structure of a first sealing waterproof module 3; the peripheral sealing assembly 5 is used for sealing the periphery of the movable photovoltaic bracket.

The waterproof photovoltaic modules 2 are electrically connected through connecting wires. The length of the connection line is not less than the width of the rack unit 1 so that a sufficient space can be opened as an access opening or other uses when the rack unit 1 is moved; in addition, the connecting wires can be replaced with different length specifications according to actual requirements.

A reel assembly is arranged at the installation position on one side of the guide rail 6, and the reel assembly is connected with the bracket unit 1. The traction hook on the bracket unit 1 is connected with the winding wheel assembly, the bracket unit 1 is moved by rotating the winding wheel, and the rotating winding wheel can adopt a manual or mechanical method.

As shown in fig. 3, the rack unit 1 has the structure that: including support frame 101, support frame 101 is frame-shaped structure, and a plurality of installed parts 104 are installed to frame-shaped structure bottom that is located guide rail 6 top, and installed parts 104 are U-shaped bending structure, and connecting axle 103 is installed to a set of opposite side that passes U-shaped bending structure, installs pulley 102 on the connecting axle 103, and pulley 102 circumference is provided with the recess, installs the traction hook on the support unit 1, and the traction hook is connected with the reel subassembly. The groove structure arranged on the circumferential surface of the pulley 102 is matched with the guide rail 601, so that the stable sliding of the bracket unit 1 is realized; meanwhile, the contact area between the pulley 102 and the guide rail 6 can be reduced in the matching structure, so that the pulley 102 can easily slide.

As shown in fig. 3, two ends of the connecting shaft 103 extend out of two sides of the U-shaped bending structure. By this structure being engaged with the hemming structure of the upper portion of the stopper 602, the holder unit 1 is prevented from moving upward during sliding.

As shown in fig. 6, the cross-sectional structure of the bracket frame 101 is herringbone. Is suitable for different requirements of various installation places.

As shown in fig. 3, a triangular spacer 105 is provided between the mount 104 and the bracket frame 101. With the triangular spacer 105, the pulley 102 can be ensured to be vertically installed in the case where the bottom surface of the bracket frame 101 is inclined.

As shown in fig. 8, the drainage beam 4 is further provided with a single installation frame 203 symmetrically arranged with the installation frame 201, and the single installation frame 203 has the same structure as the installation frame 201. Through setting up single installation frame 203 and the installation frame 201 symmetry of the same structure in drainage beam 4 top, provide the space of joint spring leaf 303 for the sealed effect of first sealed waterproof assembly 3 is better.

As shown in fig. 8, the first sealing waterproof assembly 3 has the structure that: including sealing material 302 seal mounting in the first waterproof cover 301 of installation frame 201 and single installation frame 203 upper surface, first waterproof cover 301 is rectangular plate structure, and first waterproof cover 301 lower surface between installation frame 201 and the single installation frame 203 installs a plurality of spring pieces 303, and the spring piece 303 is the platy bending structure of symmetry setting, and the bottom at installation frame 201 and single installation frame 203 is blocked to the spring piece 303. The sealing material 302 may be double sided or single sided tape; the spring piece 303 cooperates with the lower frame to prevent the waterproof cover from tilting upward.

The length of the guide rail 6 is equal to or longer than the total length of the plurality of groups of bracket units 1. The guide rail 6 extends out of the bracket unit 1, so that a sufficient space (available for a maintenance channel) is conveniently reserved by moving the bracket unit 1.

As shown in fig. 3, the guide rail 6 has the following structure: the limiting plate 602 is of a U-shaped bending structure, a folded edge is arranged on the upper portion of the opposite side of the U-shaped bending structure to the inner side, and a guide rail strip 601 of a protruding structure is installed in the middle of the upper surface of the bottom of the limiting plate 602.

As shown in fig. 4, the peripheral seal assembly 5 has the structure: the sealing device comprises a sealing film which is arranged in a bending way, wherein fixing pieces are arranged on the upper part and the lower part of the sealing film.

As shown in fig. 9, a transition plate 7 is installed between two adjacent rows or between two adjacent rows of waterproof photovoltaic modules 2 in the multi-row waterproof photovoltaic modules 2, the transition plate 7 is fixed on the adjacent drainage beam 4, and a second sealing waterproof module 8 is installed between the transition plate 7 and the waterproof photovoltaic modules 2. The arrangement of the transition plate 7 replaces the installation of the waterproof photovoltaic module 2, and the installation cost is reduced under the condition of being applicable; when overhauling, the transition plate 7 is dismantled to form an overhauling space, and the position of the bracket unit 1 can be changed by moving; the maintenance space can be enlarged on the original basis by moving the bracket unit 1 left and right.

As shown in fig. 10, the transition plate 7 has a sealed rectangular structure, and includes a first sealing frame 701 disposed on one set of sides of the transition plate 7, and a second sealing frame disposed on the other set of sides of the transition plate 7, where the first sealing frame 701 is fixedly mounted on the drain beam 4; the first sealing frame 701 has the same structure as the mounting frame 201; the second sealing rim is identical in structure to the connecting rim 202. Through the first sealed frame 701 of the same structure and the installation frame 201 are symmetrically arranged above the water draining beam 4 at the position, the space for the clamping spring piece 303 is provided, so that the sealing effect of the second sealed waterproof assembly 8 is better, and the second sealed frame and the connection frame 202 have the same structure, so that the installation and connection form of the transition plate 7 can be the same as those of the multi-row waterproof photovoltaic assembly 2. The plate-shaped part of the main body of the transition plate 7 can be made of metal aluminum plates, stainless steel plates or toughened glass.

As shown in fig. 10, the second sealing waterproof assembly 8 has the structure that: the waterproof cover comprises a second waterproof cover 801 which is arranged on the upper surfaces of an installation frame 201 and a first sealing frame 701 in a sealing mode through a sealing material 302, the second waterproof cover 801 is of a rectangular plate-shaped structure, a plurality of spring pieces 303 are arranged on the lower surface of the second waterproof cover 801 between the installation frame 201 and the first sealing frame 701, and the spring pieces 303 are clamped at the bottoms of the installation frame 201 and the first sealing frame 701.

As shown in fig. 1, 11 and 12, in the case that the transition plate 7 is not installed in the movable photovoltaic bracket, the present utility model is in actual use:

first, the first waterproof sealing assemblies 3 mounted on the adjacent waterproof photovoltaic assemblies 2 at the positions (hereinafter referred to as maintenance spaces) to be removed are detached, and meanwhile, the connection relationship between the bracket units 1 below the first waterproof sealing assemblies 3 is relieved by opening the bracket connection devices, and the integral positioning state of the plurality of bracket units 1 is relieved by opening the fixing devices;

connecting traction hooks on a plurality of bracket units 1 on the left side of the overhaul space with a winding wheel assembly, and rotating the winding wheel assembly manually or mechanically, wherein the plurality of bracket units 1 on the left side move to the left side as shown in fig. 11;

connecting traction hooks on a plurality of bracket units 1 on the right side of the overhaul space with a winding wheel assembly, and rotating the winding wheel assembly manually or mechanically, wherein the plurality of bracket units 1 on the left side move to the right side, as shown in fig. 12;

remove suitable maintenance space, then fixed a plurality of support units 1 about through fixing device, make it can not slide at will, make things convenient for the use and personnel's safety in maintenance space.

As shown in fig. 9, 13 and 14, in the case of installing the transition plate 7 in the movable photovoltaic bracket, the present utility model is in actual use:

firstly, the transition plate 7 is detached from a second sealing waterproof assembly 8 installed on an adjacent waterproof photovoltaic assembly 2, the integral positioning state of a plurality of bracket units 1 is relieved by opening a fixing device, and the installation part of the original transition plate 7 forms an opening position;

the first sealing waterproof assemblies 3 mounted on the adjacent waterproof photovoltaic assemblies 2 on the third row and the fourth row of bracket units 1 at the left side of the opening position and the connection relationship between the corresponding third bracket units 1 and the corresponding fourth bracket units 1 are released by opening the bracket connecting device, so that the three bracket units 1 can move together on the guide rail 6 as a whole, as shown in fig. 13;

the traction hooks on the bracket units 1 are connected with the winding wheel assembly, the winding wheel assembly is rotated manually or mechanically, and the three bracket units 1 on the left side of the opening position are integrally moved to the right, as shown in fig. 14;

the position of the opening position is changed at the moment, namely the position of the required maintenance space;

for safety, the rightmost bracket unit 1 of the three bracket units 1 after the movement is connected and fixed with the bracket unit 1 on the right side by a bracket connecting device.

The above description is intended to illustrate the utility model and not to limit it, the scope of which is defined by the claims, and any modifications can be made within the scope of the utility model.

Claims (11)

1. A movable photovoltaic support, its characterized in that: the solar energy water-proof photovoltaic system comprises guide rails (6) which are arranged at intervals, a plurality of groups of support units (1) are arranged between the two guide rails (6) in a side-by-side sliding manner, the support units (1) are connected with each other through a support connecting device, the support units (1) at the outermost side are fixed with mounting positions or the guide rails (6) through fixing devices, the upper surface of each support unit (1) is perpendicular to the length direction of the guide rail (6) and is provided with a drainage beam (4), and the solar energy water-proof photovoltaic system further comprises a plurality of groups of waterproof photovoltaic assemblies (2) which are arranged between two adjacent drainage beams (4) in a side-by-side manner;

the waterproof photovoltaic module (2) is of a sealed rectangular structure, and the periphery of the waterproof photovoltaic module (2) comprises a group of installation frames (201) which are oppositely arranged and another group of connection frames (202) which are oppositely arranged; the installation frames (201) are fixedly installed on two adjacent drainage beams (4), and adjacent connection frames (202) are connected with each other in a sealing mode;

a first sealing waterproof assembly (3) is arranged between two adjacent rows of waterproof photovoltaic assemblies (2), the first sealing waterproof assembly (3) is in sealing connection with the upper surface of an installation frame (201) below the first sealing waterproof assembly, peripheral sealing assemblies (5) are arranged on the installation frame (201) and a connection frame (202) at the outermost side of the plurality of rows of waterproof photovoltaic assemblies (2) in a sealing manner, and the bottom of each peripheral sealing assembly (5) is in sealing connection with the upper surface of an installation position;

the waterproof photovoltaic modules (2) are electrically connected through connecting wires;

a winding wheel assembly is arranged at the installation position on one side of the guide rail (6), and the winding wheel assembly is connected with the bracket unit (1).

2. The mobile photovoltaic support of claim 1, wherein: the structure of the bracket unit (1) is as follows: including support frame (101), support frame (101) are frame-shaped structure, and a plurality of installed parts (104) are installed to frame-shaped structure bottom that is located guide rail (6) top, installed parts (104) are U-shaped bending structure, pass a set of opposite side of U-shaped bending structure installs connecting axle (103), install pulley (102) on connecting axle (103), pulley (102) circumference is provided with the recess, install the traction hook on support unit (1), the traction hook is connected with the reel subassembly.

3. A mobile photovoltaic support as claimed in claim 2, wherein: two ends of the connecting shaft (103) extend out of two sides of the U-shaped bending structure.

4. A mobile photovoltaic support as claimed in claim 2, wherein: the cross-section structure of the bracket frame (101) is herringbone.

5. A mobile photovoltaic support as claimed in claim 2, wherein: a triangular gasket (105) is arranged between the mounting piece (104) and the bracket frame (101).

6. The mobile photovoltaic support of claim 1, wherein: a single installation frame (203) which is symmetrically arranged with the installation frame (201) is also arranged on the drainage beam (4), and the single installation frame (203) and the installation frame (201) have the same structure;

the first sealing waterproof assembly (3) has the structure that: including installing frame (201) and single waterproof lid (301) of installing frame (203) upper surface through sealing material (302) seal installation, first waterproof lid (301) are rectangular platy structure, install a plurality of spring pieces (303) of surface mounting under first waterproof lid (301) between frame (201) and the single installation frame (203), spring piece (303) are platy bending structure that the symmetry set up, and spring piece (303) joint is in the bottom of installing frame (201) and single installation frame (203).

7. The mobile photovoltaic support of claim 1, wherein: the length of the guide rail (6) is more than or equal to the total length of the plurality of groups of bracket units (1).

8. The mobile photovoltaic support of claim 1, wherein: the structure of the guide rail (6) is as follows: including limiting plate (602), limiting plate (602) are U-shaped bending structure, the opposite side upper portion of U-shaped bending structure is provided with the hem to the inboard, limiting plate (602) bottom upper surface mid-mounting has guide rail strip (601) of protruding structure.

9. The mobile photovoltaic support of claim 1, wherein: the peripheral seal assembly (5) has the structure that: the sealing device comprises a sealing film which is arranged in a bending manner, wherein fixing pieces are arranged on the upper part and the lower part of the sealing film.

10. The mobile photovoltaic support of claim 1, wherein: a transition plate (7) is arranged between two adjacent rows or between two adjacent rows of waterproof photovoltaic modules (2) in the multi-row waterproof photovoltaic module (2), the transition plate (7) is fixed on the adjacent drainage beam (4), and a second sealing waterproof module (8) is arranged between the transition plate (7) and the waterproof photovoltaic module (2).

11. The mobile photovoltaic support of claim 10, wherein: the transition plate (7) is of a sealed rectangular structure and comprises a first sealing frame (701) arranged on one group of side edges of the transition plate (7) and a second sealing frame arranged on the other group of side edges of the transition plate (7), and the first sealing frame (701) is fixedly arranged on the drainage beam (4); the first sealing frame (701) has the same structure as the mounting frame (201); the second sealing frame and the connecting frame (202) have the same structure;

the second sealing waterproof assembly (8) has the structure that: including installing second waterproof cover (801) in installing frame (201) and first sealed frame (701) upper surface through sealing material (302) seal, second waterproof cover (801) are rectangular plate structure, install a plurality of spring pieces (303) of surface mounting under second waterproof cover (801) between frame (201) and first sealed frame (701), spring piece (303) joint is in the bottom of installing frame (201) and first sealed frame (701).

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