CN220067277U - Waterproof splicing structure of photovoltaic power generation plate - Google Patents

Abstract

The utility model discloses a waterproof splicing structure of a photovoltaic power generation plate, which comprises the following components: the frame body structure is fixed on the periphery of the power generation plate body, and the protection frame is arranged on the adjacent frame body structure and used for preventing water at the joint of the adjacent power generation plate bodies; the device also comprises a plurality of fastening components which are slidably arranged on the adjacent frame body structures and are used for driving the horizontal direction and the vertical direction of the protective frame to move, when the protective frame horizontally moves, the fastening components are used for stirring the splicing of the adjacent frame body structures, and when the protective frame vertically moves, the fastening components are used for further reinforcing the splicing of the adjacent frame body structures. According to the utility model, the frame body structure fixed on the periphery of the power generation plate body is matched with the protection frame between the adjacent frame body structures, so that the adjacent power generation plate bodies can be spliced in advance, the connection parts of the adjacent power generation plate bodies are protected, and the splicing between the adjacent power generation plate bodies is further reinforced through the plurality of fastening components between the adjacent frame body structures.

Description

Waterproof splicing structure of photovoltaic power generation plate

Technical Field

The utility model relates to the technical field of spliced structures of photovoltaic power generation plates, in particular to a waterproof spliced structure of a photovoltaic power generation plate.

Background

The photovoltaic power generation panel is also called a solar panel, along with the progress of society, the demand for electric energy is very big, besides common power generation equipment, the photovoltaic power generation is high in environmental protection and energy-saving, so popular among the masses, in the current photovoltaic installation engineering, when the photovoltaic power generation panel is installed, the mounting structure can be used, but the stability of the existing mounting structure is poor, and a plurality of photovoltaic panels are behind the mounting structure and are installed on a support, glue needs to be applied between two photovoltaic panels to prevent water, so that water does not drop below a photovoltaic greenhouse, but the mode construction is complicated, the waterproof effect is gradually deteriorated after a period of use, and therefore, the waterproof splicing structure of the photovoltaic power generation panel is provided.

Disclosure of Invention

The utility model aims to provide a waterproof splicing structure of a photovoltaic power generation plate, which is characterized in that the splicing structure is matched with a protective frame between adjacent frame structures through a frame structure fixed on the periphery of the power generation plate body, so that the adjacent power generation plate body can be spliced in advance, the joint of the adjacent power generation plate bodies is protected, and the splicing between the adjacent power generation plate bodies is further reinforced through a plurality of fastening assemblies between the adjacent frame structures.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a waterproof splice structure of a photovoltaic power generation panel, comprising: the frame body structure is fixed on the periphery of the power generation plate body, and the protection frame is arranged on the adjacent frame body structure and used for preventing water at the joint of the adjacent power generation plate bodies; the device also comprises a plurality of fastening components which are slidably arranged on the adjacent frame body structures and are used for driving the horizontal direction and the vertical direction of the protective frame to move, when the protective frame horizontally moves, the fastening components are used for stirring the splicing of the adjacent frame body structures, and when the protective frame vertically moves, the fastening components are used for further reinforcing the splicing of the adjacent frame body structures.

Preferably, the frame structure comprises two mounting plates, wherein the two mounting plates are respectively fixed on opposite sides of the power generation plate body, and two step parts, the two step parts are respectively fixed on the other opposite sides of the power generation plate body, and the mounting plates are connected with the end parts of the step parts; the power generation plate further comprises a through groove formed in each step part and used for enabling wires of the power generation plate body to pass through.

Preferably, each group of fastening components comprises a sliding groove formed in the back surface of the adjacent step part, the inside of each sliding groove is respectively provided with a mounting strip and a supporting seat, the supporting seats are fixed with the corresponding side step parts through bolt structures, the horizontal section of the protection frame is clamped with the upper surfaces of the adjacent step parts, and the two ends of the horizontal section of the protection frame are respectively connected with the upper surfaces of the mounting strips and the supporting seats in a sliding manner; the first connecting piece is rotationally connected to the mounting strip through a first pin shaft, and a first torsion spring is arranged between the first connecting piece and the mounting strip and used for resetting the first connecting piece; the second hinge part is fixed on the upper surface of the supporting seat, and is rotationally connected with a second connecting piece through a second pin shaft, and a second torsion spring is arranged between the second connecting piece and the second hinge part and used for resetting the second connecting piece; the opposite surfaces of the second connecting piece and the first connecting piece are respectively fixed with a second abutting block and a first abutting block, and when the second connecting piece and the first connecting piece move towards each other, the first abutting blocks and the second abutting blocks sequentially abut against the protective frame; and the screw transmission assembly is arranged between the second connecting piece and the first connecting piece and used for driving the second connecting piece to move opposite to and away from the first connecting piece.

Preferably, the side wall of the first supporting block is also fixed with a supporting plate.

Preferably, the screw transmission assembly comprises a first hinge part, the first hinge part is rotationally connected to the first connecting part through a third pin shaft, and a transmission rod fixed on the first hinge part, wherein the transmission rod consists of a smooth section and a threaded section; the screw sleeve is arranged on the second connecting piece and can rotate in a limiting mode, and the threaded section of the transmission rod extends to the inside of the screw sleeve to be in limiting threaded connection with the screw sleeve.

Preferably, the bolt structure comprises a through hole formed in the supporting seat, a plurality of threaded holes formed in the side wall of the step portion, and a bolt body arranged in the through hole, wherein the bolt body penetrates through the through hole and is screwed into the corresponding threaded holes and is used for fixing the supporting seat and the step portion.

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

the utility model is arranged on the frame body structure, the structure is convenient for splicing the adjacent power generation plate bodies, and the adjacent power generation plate bodies can be preliminarily spliced by matching with the protection frame clamped between the adjacent frame body structures, and the joints of the adjacent power generation plate bodies are protected, such as dust prevention, water prevention and the like: and then a plurality of fastening components which are arranged on the adjacent step parts in a sliding way can be used for tightly mounting the adjacent power generation plate bodies.

Drawings

FIG. 1 is a schematic diagram of a splice state structure of the present utility model;

FIG. 2 is a schematic top view of FIG. 1;

FIG. 3 is a schematic view of the bottom structure of FIG. 1;

FIG. 4 is a schematic side view of the structure of FIG. 1;

FIG. 5 is an enlarged schematic view of the fastening assembly;

FIG. 6 is a schematic view of the mounting state of the frame structure;

fig. 7 is a schematic perspective view of another view of fig. 6.

In the figure: 1. a mounting plate; 2. a step portion; 3. a mounting bar; 4. a first connector; 5. a first abutment; 6. a retaining plate; 7. a first hinge; 8. a transmission rod; 9. a screw sleeve; 10. a power generation plate body; 11. a handle; 12. a second connector; 13. a second abutting block; 14. a second hinge; 15. a support base; 16. a bolt body; 17. a protective frame; 18. and (5) through grooves.

Detailed Description

In the description of the present utility model, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model. Embodiments of the present utility model will be described in detail below with reference to the accompanying drawings.

Referring to fig. 1 to 7, the present utility model preferably provides the following technical solutions: a waterproof splice structure of a photovoltaic power generation panel, comprising: the frame body structure is fixed on the periphery of the power generation plate body 10, and the protection frame 17 is arranged on the adjacent frame body structure and used for preventing water at the joint of the adjacent power generation plate bodies 10; the device also comprises a plurality of fastening components which are slidably arranged on the adjacent frame body structures and are used for driving the protective frame 17 to move horizontally and vertically, when the protective frame 17 moves horizontally, the fastening components are used for poking the adjacent frame body structures to splice, and when the protective frame 17 moves vertically, the fastening components are used for further reinforcing the splicing of the adjacent frame body structures.

In this embodiment, through setting up at the framework structure, as shown in fig. 6, 7, the concatenation between the adjacent electricity generation board body 10 of this structure is convenient for, and cooperation joint is at the protection frame 17 between adjacent framework structure this moment, can carry out preliminary concatenation to adjacent electricity generation board body 10 to protect its junction, for example dustproof, waterproof etc: the adjacent power generation plate bodies 10 can be tightly installed through a plurality of fastening components which are slidably installed on the adjacent step parts 2, and particularly as shown in fig. 5, the protection frame 17 can be driven to horizontally move during operation through the structural characteristics of the fastening components, so that the adjacent power generation plate bodies 10 are combined, and then the protection frame 17 is further driven to downwards, so that the splicing of the adjacent power generation plate bodies 10 is reinforced, and the protection plate bodies are combined with the structure shown in fig. 1-4.

Further, the frame structure comprises two mounting plates 1, wherein the two mounting plates 1 are respectively fixed on opposite sides of the power generation plate body 10, and two step parts 2, the two step parts 2 are respectively fixed on the other opposite sides of the power generation plate body 10, and the mounting plates 1 are connected with the end parts of the step parts 2; and further comprises a through groove 18 formed on each step part 2 for the passage of the wires of the power generation panel body 10.

Because the two mounting plates 1 are connected with the ends of the two step parts 2 and form a rectangular frame, as shown in fig. 6 and 7, the shape of the step part 2 is preferably L-shaped, and the adjacent step parts 2 are spliced to form an inverted T shape and are matched with the horizontal lower surface of the protection frame 17, and when the protection frame 17 is clamped on the adjacent step parts 2, as shown in fig. 5, the pre-splicing process of the adjacent power generation plate body 10 is completed.

Further, each group of fastening components comprises sliding grooves formed in the back surfaces of the adjacent step parts 2, the inside of each sliding groove is respectively provided with a mounting strip 3 and a supporting seat 15, the supporting seats 15 are fixed with the corresponding side step parts 2 through bolt structures, the horizontal sections of the protection frames 17 are clamped on the upper surfaces of the adjacent step parts 2, and the two ends of each protection frame 17 are respectively connected with the upper surfaces of the mounting strips 3 and the supporting seats 15 in a sliding manner; the first connecting piece 4 is rotatably connected to the mounting strip 3 through a first pin shaft, and a first torsion spring is arranged between the first connecting piece 4 and the mounting strip 3 and used for resetting the first connecting piece 4; the second hinge piece 14 is fixed on the upper surface of the supporting seat 15, the second hinge piece 14 is rotatably connected with the second connecting piece 12 through a second pin shaft, and a second torsion spring is arranged between the second connecting piece 12 and the second hinge piece 14 and used for resetting the second connecting piece 12; the second abutting block 13 and the first abutting block 5 are respectively fixed on the opposite surfaces of the second connecting piece 12 and the first connecting piece 4, and when the second connecting piece 12 and the first connecting piece 4 move towards each other, the first abutting block 5 and the second abutting block 13 sequentially abut against the protection frame 17; and a screw drive assembly disposed between the second link 12 and the first link 4 for driving the second link 12 to operate opposite and opposite the first link 4.

As shown in fig. 5, since the mounting bar 3 is rotationally connected with the first connecting piece 4 through the first pin shaft, and the supporting seat 15 is fixed with the second hinge piece 14, and the second hinge piece 14 is rotationally connected with the second connecting piece 12 through the second pin shaft, the first connecting piece 4 and the second connecting piece 12 can relatively or separately run through the screw transmission assembly, so that the first abutting block 5 is fixed on the first connecting piece 4, the second abutting block 13 fixed on the second connecting piece 12 abuts against or is separated from the protecting frame 17, and the splicing and the disassembly of the adjacent power generation plate body 10 are further completed, and it is noted that: here through the bolt structure, then supporting seat 15 is fixed with corresponding side step portion 2 this moment, later through screw drive assembly's structural feature, can make the second support piece 13 promote the protection frame 17 to the supporting seat 15 direction after moving, even make adjacent step portion 2 be close to and closely laminate each other to supporting seat 15, later first support piece 5 contradicts protection frame 17 upper surface, accomplishes adjacent power generation board body 10's inseparable concatenation process.

Further, the side wall of the first supporting block 5 is also fixed with a supporting plate 6.

By the arranged retaining plate 6, the contact surface of the fastening component to the upper surface of the horizontal section of the protective frame 17 is enlarged, thereby increasing the connection stability between the protective frame 17 and the step part 2,

further, the screw transmission assembly comprises a first hinge member 7, the first hinge member 7 is rotatably connected to the first connecting member 4 through a third pin shaft, and a transmission rod 8 fixed on the first hinge member 7, and the transmission rod 8 consists of a smooth section and a threaded section; the screw sleeve 9 is arranged on the second connecting piece 12 and can rotate in a limiting way, and the threaded section of the transmission rod 8 extends to the inside of the screw sleeve 9 and is in limiting threaded connection with the screw sleeve 9.

The transmission rod 8 consists of a smooth section and a threaded section, the smooth section is fixedly connected with the first hinging piece 7, the threaded section is in threaded connection with the threaded sleeve 9 and can rotate in the threaded sleeve 9 in a limiting way, so that the transmission rod 8 can move in the threaded sleeve 9 through rotating the threaded sleeve 9, the length of the transmission rod 8 is changed, the first connecting piece 4 and the second connecting piece 12 are enabled to move relatively or relatively, when the length of the transmission rod 8 is prolonged, the first connecting piece 4 can deflect by taking a first pin shaft where the mounting strip 3 is located as an axis through the connecting action of the first hinging piece 7, the second connecting piece 12 deflects by taking a second pin shaft where the second hinging piece 14 is located as an axis, the first connecting piece 4 and the second connecting piece 12 are enabled to move relatively, and the first abutting piece 5 and the second abutting piece 13 are enabled to be separated from the protection frame 17;

when the screw sleeve 9 is made to run reversely, the first abutting block 5 and the second abutting block 13 can be made to abut against the protection frame 17 in sequence, and then after the protection frame 17 horizontally closes the adjacent step parts 2, the upper surface of the protection frame 17 is made to abut against, and then the protection frame 17 and the adjacent step parts 2 are further fastened.

Further, a handle 11 is fixed on the screw sleeve 9 to facilitate the rotation of the screw sleeve 9, as shown in fig. 5.

Further, the bolt structure comprises a through hole formed in the supporting seat 15, a plurality of threaded holes formed in the side wall of the step portion 2, and a bolt body 16 arranged in the through hole, wherein the bolt body 16 is used for fixing the supporting seat 15 and the step portion 2 when penetrating through the through hole and entering the corresponding threaded holes through threads.

The fastening component can be fixed on one of the step parts 2 through the arranged bolt structure, so that the fastening component is convenient to stir the protective frame 17 to horizontally run, the adjacent step parts 2 move towards the direction of the bolt structure, and the splicing of the adjacent step parts 2 is reinforced;

in addition, through the bolt structure that sets up, as shown in fig. 5, the dismantlement of fastening assembly of being convenient for, and then the position of conveniently adjusting fastening assembly to satisfy different fastening demands.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The detachable mounting mode is various, for example, the detachable mounting mode can be matched with the buckle through plugging, for example, the detachable mounting mode can be realized through a bolt connection mode, and the like.

The conception, specific structure, and technical effects produced by the present utility model are clearly and completely described above in connection with the embodiments and the drawings so as to fully understand the objects, features, and effects of the present utility model. It is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments, and that other embodiments obtained by those skilled in the art without inventive effort are within the scope of the present utility model based on the embodiments of the present utility model. In addition, all coupling/connection relationships mentioned herein do not refer to direct connection of the components, but rather, refer to the fact that a more optimal coupling structure may be formed by adding or subtracting coupling aids depending on the particular implementation.

The foregoing embodiments are provided for further explanation of the present utility model and are not to be construed as limiting the scope of the present utility model, and some insubstantial modifications and variations of the present utility model, which are within the scope of the utility model, will be suggested to those skilled in the art in light of the foregoing teachings.

Claims (6)

1. Waterproof mosaic structure of photovoltaic power generation board, its characterized in that includes:

the frame body structure is fixed on the periphery of the power generation plate body (10), and the protection frame (17) is arranged on the adjacent frame body structure and used for preventing water at the joint of the adjacent power generation plate bodies (10);

the device also comprises a plurality of fastening components which are slidably arranged on the adjacent frame body structures and are used for driving the protective frame (17) to move horizontally and vertically, when the protective frame (17) moves horizontally, the fastening components are used for poking the adjacent frame body structures to splice, and when the protective frame (17) moves vertically, the fastening components are used for further reinforcing the splicing of the adjacent frame body structures.

2. The waterproof splice structure of a photovoltaic power generation panel according to claim 1, wherein:

the frame body structure comprises two mounting plates (1), wherein the two mounting plates (1) are respectively fixed on opposite sides of the power generation plate body (10), and two step parts (2), the two step parts (2) are respectively fixed on the other opposite sides of the power generation plate body (10), and the mounting plates (1) are connected with the end parts of the step parts (2);

the power generation plate further comprises a through groove (18) formed in each step part (2) and used for allowing wires of the power generation plate body (10) to pass through.

3. The waterproof splice structure of a photovoltaic power generation panel according to claim 1, wherein:

each group of fastening components comprises sliding grooves formed in the back surfaces of adjacent step parts (2), mounting strips (3) and supporting seats (15) are respectively arranged in the two sliding grooves, the supporting seats (15) are fixed with the corresponding side step parts (2) through bolt structures, the horizontal section of the protective frame (17) is clamped with the upper surfaces of the adjacent step parts (2), and two ends of the protective frame are respectively connected with the upper surfaces of the mounting strips (3) and the supporting seats (15) in a sliding manner;

the first connecting piece (4) is rotationally connected to the mounting strip (3) through a first pin shaft, and a first torsion spring is arranged between the first connecting piece (4) and the mounting strip (3) and used for resetting the first connecting piece (4);

the device further comprises a second hinge piece (14) fixed on the upper surface of the supporting seat (15), the second hinge piece (14) is rotationally connected with a second connecting piece (12) through a second pin shaft, and a second torsion spring is arranged between the second connecting piece (12) and the second hinge piece (14) and used for resetting the second connecting piece (12);

the second abutting block (13) and the first abutting block (5) are respectively fixed on the opposite surfaces of the second connecting piece (12) and the first connecting piece (4), and when the second connecting piece (12) and the first connecting piece (4) move towards each other, the first abutting block (5) and the second abutting block (13) sequentially abut against the protection frame (17);

and the screw transmission assembly is arranged between the second connecting piece (12) and the first connecting piece (4) and is used for driving the second connecting piece (12) to move opposite to and away from the first connecting piece (4).

4. A waterproof splice structure of a photovoltaic power generation panel according to claim 3, characterized in that:

the side wall of the first supporting block (5) is also fixed with a supporting plate (6).

5. A waterproof splice structure of a photovoltaic power generation panel according to claim 3, characterized in that:

the screw transmission assembly comprises a first hinge (7), the first hinge (7) is rotationally connected to the first connecting piece (4) through a third pin shaft, and a transmission rod (8) fixed on the first hinge (7), and the transmission rod (8) consists of a smooth section and a threaded section;

the screw sleeve (9) is arranged on the second connecting piece (12) and can rotate at the upper limit, and the thread section of the transmission rod (8) extends to the inside of the screw sleeve (9) to be in limit threaded connection with the screw sleeve (9).

6. A waterproof splice structure of a photovoltaic power generation panel according to claim 3, characterized in that:

the bolt structure comprises a through hole formed in the supporting seat (15), a plurality of threaded holes formed in the side wall of the step portion (2), and a bolt body (16) arranged in the through hole, wherein the bolt body (16) penetrates through the through hole and is used for fixing the supporting seat (15) and the step portion (2) when threads enter the corresponding threaded holes.