CN118100752A

CN118100752A - Photovoltaic power generation integrated device with stable installation for building

Info

Publication number: CN118100752A
Application number: CN202410525338.2A
Authority: CN
Inventors: 张悦; 赵伟恩; 节茂苍; 宋方锁; 蔡京; 王学昌
Original assignee: Anhui Huazhiyu Construction Engineering Co ltd
Current assignee: Anhui Huazhiyu Construction Engineering Co ltd
Priority date: 2024-04-29
Filing date: 2024-04-29
Publication date: 2024-05-28
Anticipated expiration: 2044-04-29

Abstract

The invention belongs to the technical field of photovoltaic panels, in particular to a photovoltaic power generation integrated device with stable installation for a building, which comprises a plurality of solar panels and two mounting frames, wherein the two mounting frames are respectively positioned at two ends of the solar panels, two sides of the solar panels are respectively provided with a vertically penetrating notch groove at the position corresponding to the mounting frames, the inner wall of the notch groove is provided with a fixing piece, and a mounting piece is arranged between the fixing pieces of two adjacent solar panels; the mounting bracket top is installed the spliced pole with the position that the mounting corresponds, and the mounting downwardly extending solar cell panel's bottom is provided with the fixed plate in one side that the mounting was kept away from to the mounting. According to the solar cell panel, the stability of the solar cell panel in long-time installation and use is improved through the matched fixing piece, the installation piece, the movable piece and the plug-in column, and the problem that the solar cell panel is difficult to unscrew due to corrosion in threaded connection is avoided, so that the convenience of disassembly after long-time use is improved.

Description

Photovoltaic power generation integrated device with stable installation for building

Technical Field

The invention relates to the technical field of photovoltaic panels, in particular to a photovoltaic power generation integrated device with stable installation for buildings.

Background

The photovoltaic power generation system mainly comprises three parts of a solar panel (component), a controller and an inverter, and the photovoltaic power generation integrated device often converts solar energy into electric energy for storage after integrating the three parts.

The patent discloses a chinese patent of CN116545020a discloses a solar photovoltaic power generation energy storage integrated device, including photovoltaic board, still include block terminal and illumination intensity sensor, be provided with in the block terminal: the controller is electrically connected with the illumination intensity sensor; the energy storage battery is electrically connected with the controller and the photovoltaic panel; the grid-connected inverter is electrically connected with the energy storage battery, the controller and the alternating current power grid, and converts direct current generated by the photovoltaic panel or electric energy in the energy storage battery into alternating current which can be directly combined with the alternating current power grid; and the power supply and distribution electric quantity detection circuit is electrically connected with the energy storage battery and the controller.

The patent bulletin is CN 218783759U's chinese patent discloses a photovoltaic power generation energy storage integrated device, belongs to photovoltaic power generation technical field, the on-line screen storage device comprises a base, the top of base is provided with stores up electric regulation subassembly, stores up electric regulation subassembly's top and installs two solar panel components, and cleaning device is installed in solar panel component's the outside, is connected through elevating gear between base and the electric regulation subassembly.

The above-mentioned patents all disclose photovoltaic power generation integrated structure, but as described in the above-mentioned patents and known in conventional means, the solar panel is generally fixed on the mounting frame only through the bolts, and when the solar panel is used outdoors for a long time, the solar panel is easy to loosen and influence the stable use because of the corrosion of the bolts, and the difficulty of disassembling the solar panel is easy to influence because of the corrosion of the bolts.

Disclosure of Invention

Based on the technical problems of the background technology, the invention provides a photovoltaic power generation integrated device with stable installation for a building.

The invention provides a photovoltaic power generation integrated device with stable installation for a building, which comprises a plurality of solar panels and two mounting frames, wherein the two mounting frames are respectively positioned at two ends of the solar panels, two sides of the solar panels are respectively provided with a vertically penetrating notch groove at the position corresponding to the mounting frames, the inner wall of the notch groove is provided with a fixing piece, and a mounting piece is arranged between the fixing pieces of two adjacent solar panels; the solar cell panel is characterized in that the plugging column is arranged at the position, corresponding to the fixing piece, of the top of the mounting frame, the fixing piece downwards extends out of the bottom of the solar cell panel, the fixing plate is arranged on one side, away from the mounting piece, of the fixing plate, the through hole is formed in the position, corresponding to the plugging column, of the top of the fixing plate, the movable piece capable of horizontally moving is arranged between the plugging column and the mounting piece, and the plugging holes are formed in the positions, corresponding to the movable piece, of the two sides of the plugging column.

Preferably, the spout has been seted up towards the outer wall of mounting to the mounting, and the mounting sets up to the columnar structure with spout inner wall sliding contact, the top of mounting is fixed with the roof, and the bottom mounting of mounting has the bottom block, and the external diameter of bottom block is less than the external diameter of mounting, the bottom mounting of bottom block has the spring two, and the spacing groove has been seted up to the bottom of spout, bottom block outer wall and spout inner wall sliding contact.

Preferably, the first connecting groove extending upwards is formed in two sides of the bottom end of the mounting piece, the second connecting groove extending horizontally is formed in the top end of the first connecting groove, the third connecting groove extending downwards is formed in one end, away from the first connecting groove, of the second connecting groove, the third connecting groove extends downwards vertically relative to the second connecting groove, the depth of the first connecting groove is gradually reduced from bottom to top, and the bottom end of the third connecting groove is plugged.

Preferably, the movable piece is provided with the locating plate, and the through-hole has been seted up to the central point of locating plate, and through-hole inner wall sliding connection has the movable rod, and the one end that the movable rod is close to the installed part is fixed with the contact ball, and the one end that the movable rod kept away from the installed part is fixed with the grafting piece with the spliced eye adaptation, the one end that the movable rod outer wall is close to the grafting piece is fixed with the connecting plate, is connected with spring one between connecting plate and the locating plate.

Preferably, the bottom of the inner wall of one side of the chute is provided with a first hole adapted to the positioning plate, two ends of the first hole are provided with bolt holes, the positioning plate is provided with positioning bolts in threaded connection with the bolt holes, the center of the first hole is provided with a second hole in sliding contact with the outer wall of the connecting plate, and the center of the second hole is provided with a third hole in sliding contact with the outer wall of the plug block.

Preferably, a plurality of abutting blocks are fixed on the side face, facing the positioning plate, of the contact ball.

Preferably, the bottom of the mounting piece is provided with a conical part close to the bottom block, the outer diameter of the conical part gradually decreases from top to bottom, and the outer walls of the two sides of the conical part are both fixedly provided with horizontally extending inserting blocks.

Preferably, a slot matched with the insert block is formed in the top position of the inner wall of one side of the chute, and a concave slot is formed in the outer wall of the conical part above the insert block.

Preferably, a mounting groove is formed in one side, close to the positioning plate, of the top of the insertion block, a magnetic block is fixed to the inner wall of the mounting groove, an embedded groove is formed in the side wall of the positioning plate, located above the insertion block, of the positioning plate, and a magnetic attraction piece is fixed to the inner wall of the embedded groove.

Preferably, the top positions of the two sides of the mounting piece are provided with vertically extending fixing grooves, elastic strips are fixed at positions, close to the inner walls of the sliding grooves, of the inner walls of the bottoms of the fixing grooves, clamping blocks of arc structures are fixed at the top ends of one sides, far away from the fixing grooves, of the elastic strips, and the clamping blocks are matched with the slots.

The beneficial effects of the invention are as follows:

According to the application, the contact ball at one end of the movable piece is clamped into the connecting groove III by inserting the mounting frame and then rotating, and the other end of the movable piece is inserted into the inserting hole of the inserting column, so that the two adjacent photovoltaic panels are rapidly and fixedly mounted through the mounting piece, the movable pieces at two sides and the inserting column; the end part of the movable part is inserted into the plug hole, and the connecting groove II and the connecting groove III are vertically arranged, so that the contact ball cannot horizontally move in the connecting groove, and two adjacent photovoltaic panels are effectively and stably installed for a long time; and the contact ball is in contact with the connecting groove to limit, and when the part is fixed for a long time, the large-area adhesion between the end part of the movable part and the installation part is not caused even if the part is partially corroded, so that the rapid disassembly operation of the installation part is not affected.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a photovoltaic power generation integrated device with stable installation for construction;

Fig. 2 is a schematic structural diagram of a mounting frame for a photovoltaic power generation integrated device with stable installation for construction;

fig. 3 is a schematic structural view of a solar panel, a fixing member and a mounting member of the photovoltaic power generation integrated device with stable installation for construction;

Fig. 4 is a schematic structural view of a fixing member and a plug-in post of the photovoltaic power generation integrated device with stable installation for construction;

fig. 5 is a schematic structural view of a fixing member of the photovoltaic power generation integrated device with stable installation for construction;

Fig. 6 is a schematic diagram of a movable member of the integrated photovoltaic power generation device with stable installation for construction;

Fig. 7 is a schematic structural diagram of a mounting member of the photovoltaic power generation integrated device with stable installation for construction;

FIG. 8 is a schematic structural view showing the position of a mounting member of a photovoltaic power generation integrated device with stable installation for construction;

FIG. 9 is an enlarged schematic view of a portion A1 of the photovoltaic power generation integrated apparatus for building installation stabilization according to the present invention shown in FIG. 8;

FIG. 10 is a schematic view of an enlarged A2 part structure of the photovoltaic power generation integrated device with stable installation for construction according to the present invention shown in FIG. 8

FIG. 11 is a schematic diagram of two structural diagrams of a mounting member position of a photovoltaic power generation integrated device with stable installation for construction;

Fig. 12 is a schematic view of three structures of a mounting member for mounting a stable photovoltaic power generation integrated device for construction according to the present invention;

fig. 13 is a schematic diagram of a four-structure view of a mounting member for mounting a stable photovoltaic power generation integrated device for construction;

FIG. 14 is an enlarged schematic view of a portion B of the photovoltaic power generation integrated device for building according to the present invention;

Fig. 15 is a schematic diagram of a fifth structural view of a mounting member of a photovoltaic power generation integrated device with stable installation for construction;

Fig. 16 is an enlarged schematic view of a C-section structure of the photovoltaic power generation integrated apparatus for building installation stabilization according to the present invention shown in fig. 15.

In the figure: the solar cell panel comprises a solar cell panel, a 101 notch groove, a 2 mounting rack, a 3 fixing piece, a 301 sliding groove, a 302 limiting groove, a 303 first hole, a 304 second hole, a 305 third hole, a 306 bolt hole, a 307 slot, a 4 mounting piece, a 5 moving piece, a 6 plug-in post, a 601 plug-in hole, a 7 fixing plate, a 701 perforation, an 8 limiting plate, a 9 positioning plate, a 10 moving rod, an 11 plug-in block, a 12 connecting plate, a 13 first spring, a 14 contact ball, a 15 positioning bolt, a 16 abutting block, a 17 magnetic attraction piece, a 18 top plate, a 19 bottom block, a 20 second spring, a 21 connecting groove, a 22 connecting groove, a 23 connecting groove, a 24 plug-in block, a 25 magnetic block, a 26 concave groove, a 27 elastic strip and a 28 clamping block.

Detailed Description

Example 1: referring to fig. 1-16, a photovoltaic power generation integrated device with stable installation for a building comprises a plurality of solar panels 1 and two installation frames 2, wherein one side of each solar panel 1, facing each installation frame 2, is provided with a back, a grid-connected box is arranged in the middle of the back of each solar panel 1, the two installation frames 2 are respectively positioned at two ends of each solar panel 1, vertical penetrating notch grooves 101 are formed in positions, corresponding to the installation frames 2, of the two sides of each solar panel 1, fixing pieces 3 are installed on the inner walls of the notch grooves 101, and installation pieces 4 are arranged between the fixing pieces 3 of two adjacent solar panels 1; the solar cell panel comprises a mounting frame 2, a fixing piece 3, a fixing plate 7, a limiting plate 8, a through hole 701, a movable piece 5, a splicing hole 601, a notch groove 101, and a splicing column 6, wherein the splicing column 6 is arranged at the position, corresponding to the fixing piece 3, of the top of the mounting frame 2, the fixing piece 3 downwards extends out of the bottom of the solar cell panel 1, the fixing plate 7 and the limiting plate 8 are arranged on one side, away from the mounting piece 4, of the fixing piece 3, the fixing plate 7, the limiting plate 8 and the fixing piece 3 are integrally formed, the limiting plate 8 is positioned above the fixing plate 7, the outer wall of the bottom of the fixing plate 7 is abutted to the top of the mounting frame 2, the through hole 701 is arranged at the position, corresponding to the splicing column 6, of the fixing plate 7, the movable piece 5 is arranged between the splicing column 6 and the mounting piece 4, the splicing hole 601 is arranged at the positions, corresponding to the movable piece 5, of two sides of the splicing column 6, and the frame positions of the two sides of the solar cell panel 1 are preset with notch grooves 101 when in manufacturing; firstly, a fixing piece 3 is arranged at the position of a notch groove 101 of a solar cell panel 1, the fixing piece 3 and the notch groove 101 can be directly and fixedly arranged in a welding mode, and the fixing piece 3 and the inner wall of the notch groove 101 can be fixedly arranged in a clamping mode between a preset clamping block and a clamping groove, so that the top of a limit plate 8 on one side of the bottom of the fixing piece 3 is abutted against the bottom of the solar cell panel 1, and the fixing piece 3 is flush with the outer side edge of the solar cell panel 1;

During installation, the solar panel 1 is placed at a corresponding position of the installation frame 2, the through holes 701 of the fixing plate 7 on the fixing piece 3 are inserted into the inserting columns 6, and the top ends of the inserting columns 6 are abutted with the bottom of the limiting plate 8 so as to initially limit the placed solar panel 1; then sequentially placing a plurality of solar panels 1, enabling two adjacent solar panels 1 to be attached to each other, inserting a mounting piece 4 between two fixing pieces 3 at corresponding positions, extruding movable pieces 5 at two side positions outwards by using the inserted mounting pieces 4, enabling one end of each movable piece 5 to be inserted into an inserting hole 601, enabling the other end of each movable piece 5 to abut against each mounting piece 4, and limiting an inserting column 6 and each mounting piece 4 through two ends of each movable piece 5;

The fixing piece 3 is prevented from shaking in the horizontal direction by limiting the plug-in column 6 through the through holes 701 and the limiting plates 8, and the fixing piece 3 is prevented from sliding in the vertical direction by the pressing of the movable piece 5 and the plug-in column 6 in the horizontal direction and the low-pressure operation of the movable pieces 5 at the two sides of the mounting piece 4, so that the stability of the connection between the fixing piece 3 and the mounting frame 2 is improved; the stability of the connection between the mounting piece 4 and the fixed piece 3 is improved by the pressing of the movable pieces 5 on the two sides to the mounting piece 4; the stability of connection between two adjacent fixing pieces 3 is improved through the bonding between two adjacent solar panels 1 and the limit of the mounting piece 4 to the two fixing pieces 3;

The solar panel 1 is downwards extended out of the fixing piece 3, so that the mounting piece 4 is downwards extended, and even if the top of the mounting piece 4 is rusted near the position of the external environment, the stability of connection between the fixing pieces 3 is not affected, so that the stability of the solar panel 1 in long-time installation and use is improved; the two solar panels 1 can be loosened and separated by pulling up the mounting piece 4, so that the problem that the solar panels are difficult to unscrew due to corrosion in threaded connection is avoided, and the convenience of disassembly after long-time use is improved;

The solar panels 1 are mutually abutted and installed, and the side edges of the solar panels 1 at the two side edge positions are not provided with the fastening pieces 3 which are buckled, so that nuts can be screwed into the plugging posts 6 at the edge positions when the solar panels 1 are inserted and placed, and the fastening pieces 3 at the edge positions and the mounting frame 2 are fixed by screwing and pressing down.

In the invention, referring to fig. 1-16, a chute 301 is arranged on the outer wall of a fixing piece 3 facing a mounting piece 4, the chute 301 between two adjacent fixing pieces 3 is spliced to form a sliding hole, the mounting piece 4 is arranged to be in sliding contact with the inner wall of the chute 301, the top end of the mounting piece 4 is fixed with a top plate 18, the bottom end of the mounting piece 4 is fixed with a bottom block 19, the outer diameter of the bottom block 19 is smaller than the outer diameter of the mounting piece 4, the bottom end of the bottom block 19 is fixed with a second spring 20, the bottom end of the chute 301 is provided with a limiting groove 302, the limiting grooves 302 between two adjacent fixing pieces 3 are spliced to form a limiting hole, the outer wall of the bottom block 19 is in sliding contact with the inner wall of the chute 301, two sides of the bottom end of the mounting piece 4 are respectively provided with a first connecting groove 21 extending upwards, the two connecting grooves 21 respectively correspond to the positions of two movable pieces 5, the top end of the first connecting groove 21 is provided with a second connecting groove 22 which extends horizontally, one end of the second connecting groove 22 away from the first connecting groove 21 is provided with a third connecting groove 23 which extends downwards, the third connecting groove 23 extends downwards vertically relative to the second connecting groove 22, the depth of the first connecting groove 21 is gradually reduced from bottom to top, the inner wall of the first connecting groove 21 is provided with an inclined surface structure with the top end outwards, the bottom end of the first connecting groove 21 is flush with the outer wall of the bottom block 19, the top end of the first connecting groove 21 is flush with the inner wall of the second connecting groove 22, and the bottom end of the third connecting groove 23 is blocked, so that in a normal state, as shown in fig. 13-14, the mounting piece 4 stretches out towards the inside of the sliding groove 301 and the movable piece 5 does not stretch out towards one end of the plug post 6, so as to ensure that the plug post 6 is buckled at the position of the through hole 701; when the mounting piece 4 is inserted, the outer wall of the bottom block 19 does not press the end part of the movable piece 5;

Along with the descending insertion of the mounting piece 4, the second spring 20 enters the limiting groove 302, so that the end parts of the movable pieces 5 at two sides enter from the bottom end of the first connecting groove 21, and the movable pieces 5 are gradually pressed outwards along the inclined surface of the first connecting groove 21, and the second spring 20 is pressed until the end parts of the movable pieces 5 enter the second connecting groove 22, and the other end parts of the movable pieces 5 are inserted into the inserting holes 601, as shown in fig. 12; then the mounting piece 4 is rotated to enable the end part of the movable piece 5 to be propped and limited at the end part of the second connecting groove 22, as shown in fig. 11; after the mounting piece 4 is released, the mounting piece 4 moves upwards by the upward jacking elastic force of the second spring 20, as shown in fig. 8-9, and the end part of the movable piece 5 enters the third connecting groove 23 for limiting and mounting;

During limit installation, the limit on the two sides of the end part of the movable part 5 is realized through the third connecting groove 23, so that the installation part 4 is prevented from deflecting in long-time use, and the installation part 4 is prevented from naturally descending when no external force is exerted by the elastic force of the second spring 20 in limit, so that the long-time use stability of the installation part 4 is improved; the fixing piece 3 fixed with the solar panel 1 keeps stable for a long time through the limit of the plug-in post 6 and the limit of the connecting groove III 23 on the movable piece 5; and when receiving outside striking vibrations, make the vibrations of mounting 4 and mounting 3 offset each other and disperse through the connection of moving part 5 to further improve the stability of solar cell panel 1 long-time installation use.

In the invention, referring to fig. 1-16, a positioning plate 9 is arranged on a movable piece 5, a through hole is formed in the center position of the positioning plate 9, a movable rod 10 is horizontally and slidably connected to the inner wall of the through hole, a contact ball 14 is fixed at one end of the movable rod 10 close to a mounting piece 4, the contact ball 14 is positioned at one side of the positioning plate 9 close to the mounting piece 4, a plug block 11 matched with a plug hole 601 is fixed at one end of the movable rod 10 far away from the mounting piece 4, the plug block 11 is positioned at one side of the positioning plate 9 far away from the mounting piece 4, a connecting plate 12 is fixed at one end of the outer wall of the movable rod 10 close to the plug block 11, a first spring 13 is connected between the connecting plate 12 and the positioning plate 9, a first hole 303 matched with the positioning plate 9 is formed at the bottom end of the inner wall of one side of the sliding groove 301, bolt holes 306 are formed at two ends of the first hole 303, a positioning bolt 15 screwed into the bolt holes 301 are formed in the two ends of the positioning plate 9, normal insertion of the mounting piece 4 is ensured, a second hole 304 matched with the outer wall 304 of the connecting plate 12 is formed at the center position of the first hole 303, a second hole 304 is slidably contacted with the third hole 304 is formed at the center position of the second hole 11 far away from the mounting piece 9, and the first hole 305 is enabled to be in the position of the first hole 3 and the first hole 3 is enabled to be contacted with the first hole 3 and the end of the first hole 3 through the first hole 3 and the second hole, and the first hole 15 is enabled to be slidably contacted with the third hole 3;

Under the elastic force of the first spring 13, the plug 11 is positioned in the third hole 305 and the contact ball 14 extends towards the center position close to the chute 301, as shown in fig. 14; after the mounting piece 4 is inserted, the contact ball 14 moves in the first connecting groove 21, the second connecting groove 22 and the third connecting groove 23 so as to press the contact ball 14 towards the positioning plate 9, and the plug block 11 is inserted into the plug hole 601 for limiting and fixing mounting, as shown in fig. 9.

In the invention, referring to fig. 1-16, a plurality of abutting blocks 16 are fixed on the side surface of the contact ball 14 facing the positioning plate 9, and when the contact ball 14 corresponds to the second 22 or third 23 connecting grooves, the end parts of the abutting blocks 16 are in abutting contact with the side wall of the positioning plate 9; after the mounting piece 4 is inserted, the movable rod 10 and the plug block 11 are extruded to limit the plug block 11 and the plug post 6, and meanwhile, the contact ball 14 is extruded to limit the position between the abutting block 16 and the positioning plate 9; the stability of connection between the fixing piece 3 and the plug-in column 6 is improved through the limit of the plug-in block 11 and the plug-in column 6, the stability of connection between the mounting piece 4 and the fixing piece 3 is improved through the extrusion limit between the supporting block 16 and the positioning plate 9, thereby the stability of long-time installation and use of the solar cell panel 1 and the mounting frame 2 is effectively improved, and when impact vibration is received outside, the vibration conducted by the mounting frame 2 from the plug-in column 6, the vibration conducted by the solar cell panel 1 from the fixing piece 3 or the positioning plate 9 and the vibration conducted by the position of the mounting piece 4 offset the acting force mutually, so that the stable anti-loosening effect of connection between all components is improved.

Example 2: embodiment 2 includes all structures and methods of embodiment 1, refer to fig. 1-16, a photovoltaic power generation integrated device with stable installation for building, further include that the position of the bottom of the installation piece 4 close to the bottom block 19 is set to be a conical portion, the outer diameter of the conical portion gradually decreases from top to bottom, the outer diameter of the top end of the conical portion is the same as the outer diameter of the installation piece 4, the outer diameter of the bottom end of the conical portion is the same as the outer diameter of the bottom block 19, two side outer walls of the conical portion are both fixed with horizontally extending plug blocks 24, when the installation piece 4 is pressed down, when the contact balls 14 correspond to the position of the second connecting groove 22, the bottom outer walls of the plug blocks 24 are just attached to the bottom inner wall of the sliding groove 301, as shown in fig. 11, so that when the installation piece 4 is installed or removed, the pressing down of the installation piece 4 is limited by attaching the plug blocks 24 to the bottom of the sliding groove 301, attaching and limiting the contact balls 14 to the top of the second connecting groove 22, and when the installation piece 4 rotates, attaching and limiting the contact balls 14 to the end of the second connecting groove 22, so that workers can accurately and effectively install or remove the installation device under the condition that the workers cannot see the inside is improved.

In the invention, referring to fig. 1-16, a slot 307 adapted to the insert block 24 is provided at the top of the inner wall of one side of the chute 301, a concave groove 26 is provided above the insert block 24 on the outer wall of the conical portion, when the solar panel 1 needs to be disassembled and replaced, the two adjacent fixing pieces 3 can be separated and loosened when the mounting piece 4 rotates and slides out, and the insert block 24 on one side of the conical portion is inserted into the slot 307 at the corresponding position of the solar panel 1 to be removed, as shown in fig. 15-16, at this time, the insert block 24 on the other side of the conical portion cannot be contacted with the fixing piece 3 on the solar panel 1 at the adjacent position, and then the solar panel 1 can be separated upwards by the upward drawing of the mounting piece 4, so as to be removed from the solar panel 1 tightly attached to the adjacent position, thereby improving the convenience of removing the solar panel 1 in a midway.

In the invention, referring to fig. 1-16, a mounting groove is formed in one side, close to the positioning plate 9, of the top of the insert block 24, a magnetic block 25 is fixed on the inner wall of the mounting groove, an embedded groove is formed in the upper portion of the side wall of the positioning plate 9, a magnetic suction piece 17 is fixed on the inner wall of the embedded groove, when the contact ball 14 is positioned in the connecting groove III 23, the magnetic block 25 on the insert block 24 is positioned under the magnetic suction piece 17, so that the stability between the mounting piece 4 and the movable piece 5 is improved through the magnetic attraction between the magnetic block 25 and the magnetic suction piece 17 and the spring II 20, and the stability of the mounting piece 4 for limiting the adjacent two fixing pieces 3 is improved, and the long-term mounting and use stability of the solar cell panel 1 is improved.

In the invention, referring to fig. 1-16, the top positions of both sides of the mounting piece 4 are provided with vertically extending fixing grooves, the positions of the inner walls of the bottoms of the fixing grooves close to the inner walls of the sliding grooves 301 are fixed with elastic strips 27, the top end of one side of each elastic strip 27 far away from each fixing groove is fixed with a clamping block 28 with an arc-shaped structure, each clamping block 28 is matched with a slot 307, under the normal state, the elastic strips 27 stay at the edge positions of the fixing grooves under the action of self elasticity, and the outer walls of the elastic strips 27 are flush with the outer walls of the mounting piece 4 and the clamping blocks 28 protrude outwards; when the mounting piece 4 and the clamping block 28 slide into the sliding groove 301, the inner wall of the sliding groove 301 presses the clamping block 28 and the elastic strip 27 into the fixed groove to ensure the normal sliding of the mounting piece 5, as shown in fig. 13; when the contact ball 14 is positioned at the third 23 position of the connecting groove, as shown in fig. 10, the clamping block 28 is positioned at the position of the slot 307, so as to further improve the limit stabilizing effect of the mounting piece 4 on the adjacent two fixing pieces 3.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The utility model provides a photovoltaic power generation integrated device for building installation stability, includes a plurality of solar cell panels (1) and two mounting brackets (2), and two mounting brackets (2) are located the both ends position of solar cell panel (1) respectively, its characterized in that, opening groove (101) that vertically pierces through have all been seted up to the position that solar cell panel (1) both sides correspond with mounting bracket (2), mounting (3) are installed to opening groove (101) inner wall, are provided with mounting (4) between mounting (3) of two adjacent solar cell panels (1);

The utility model discloses a solar cell panel, including mounting bracket (2), mounting bracket (4), connecting column (6) are installed to the position that mounting bracket (2) top corresponds with mounting (3), and the bottom of solar cell panel (1) is all offered to mounting (3) downwardly extending, and one side that mounting (4) was kept away from to mounting (3) is provided with fixed plate (7), and perforation (701) have been offered to the position that mounting bracket (7) top corresponds with connecting column (6), be provided with movable part (5) that can horizontal migration between connecting column (6) and mounting (4), spliced eye (601) have been offered in the position that connecting column (6) both sides correspond with movable part (5), upwards extending's spread groove (21) have all been offered to the bottom both sides of mounting (4), and horizontally extending's spread groove (22) have been offered to the top position of spread groove (21), and down extending's spread groove (23) have been offered to the one end position of spread groove (21), and spread groove (23) are perpendicular downwardly extending, the depth of spread groove (21) reduces gradually from bottom (23), bottom (9) of connecting column (4) has been offered to the through-hole (9), one end of the movable rod (10) close to the mounting piece (4) is fixed with a contact ball (14), one end of the movable rod (10) away from the mounting piece (4) is fixed with a plug-in block (11) matched with the plug-in hole (601), one end of the outer wall of the movable rod (10) close to the plug-in block (11) is fixed with a connecting plate (12), and a first spring (13) is connected between the connecting plate (12) and the positioning plate (9).

2. The photovoltaic power generation integrated device with stable installation for the building according to claim 1, wherein the fixing piece (3) is provided with a sliding groove (301) towards the outer wall of the installation piece (4), the installation piece (4) is arranged to be in sliding contact with the inner wall of the sliding groove (301) and is of a columnar structure, the top end of the installation piece (4) is fixedly provided with a top plate (18), the bottom end of the installation piece (4) is fixedly provided with a bottom block (19), the outer diameter of the bottom block (19) is smaller than the outer diameter of the installation piece (4), the bottom end of the bottom block (19) is fixedly provided with a second spring (20), the bottom end of the sliding groove (301) is provided with a limiting groove (302), and the outer wall of the bottom block (19) is in sliding contact with the inner wall of the sliding groove (301).

3. The photovoltaic power generation integrated device with stable installation for the building according to claim 2, wherein a first hole (303) matched with the positioning plate (9) is formed at the bottom end of one side inner wall of the sliding groove (301), bolt holes (306) are formed at two ends of the first hole (303), positioning bolts (15) in threaded connection with the bolt holes (306) are arranged on the positioning plate (9), a second hole (304) in sliding contact with the outer wall of the connecting plate (12) is formed at the central position of the first hole (303), and a third hole (305) in sliding contact with the outer wall of the plug-in block (11) is formed at the central position of the second hole (304).

4. A photovoltaic power generation integrated device with stable installation for construction according to claim 3, characterized in that the side of the contact ball (14) facing the positioning plate (9) is fixed with a plurality of abutment blocks (16).

5. A photovoltaic power generation integrated device with stable installation for a building according to claim 3, wherein the bottom of the installation piece (4) is provided with a conical part near the bottom block (19), the outer diameter of the conical part gradually decreases from top to bottom, and the outer walls of the two sides of the conical part are both fixed with horizontally extending inserting blocks (24).

6. The photovoltaic power generation integrated device with stable installation for the building according to claim 5, wherein a slot (307) matched with the insertion block (24) is formed at the top position of the inner wall of one side of the sliding groove (301), and a concave groove (26) is formed above the insertion block (24) on the outer wall of the conical part.

7. The photovoltaic power generation integrated device with stable installation for the building according to any one of claims 5 to 6, wherein an installation groove is formed in one side, close to the positioning plate (9), of the top of the insertion block (24), a magnetic block (25) is fixed on the inner wall of the installation groove, an embedded groove is formed in the side wall of the positioning plate (9) above the insertion block (24), and a magnetic suction sheet (17) is fixed on the inner wall of the embedded groove.

8. The photovoltaic power generation integrated device with stable installation for the building according to claim 6, wherein the top positions of two sides of the installation piece (4) are provided with vertically extending fixing grooves, elastic strips (27) are fixed on the inner walls of the bottoms of the fixing grooves close to the inner walls of the sliding grooves (301), clamping blocks (28) with arc structures are fixed on the top ends of one sides, far away from the fixing grooves, of the elastic strips (27), and the clamping blocks (28) are matched with the slots (307).