CN220342276U

CN220342276U - Photovoltaic board mounting structure

Info

Publication number: CN220342276U
Application number: CN202321686049.8U
Authority: CN
Inventors: 唐涛
Original assignee: Anhui Wanneng Jiangnan Construction And Development Co ltd
Current assignee: Anhui Wanneng Jiangnan Construction And Development Co ltd
Priority date: 2023-06-29
Filing date: 2023-06-29
Publication date: 2024-01-12
Anticipated expiration: 2033-06-29

Abstract

The application provides a photovoltaic board mounting structure belongs to photovoltaic board technical field. The photovoltaic panel mounting structure includes a support assembly and a mounting assembly. The support assembly comprises a base, swing joint has the stand on the base, installation component is including the swivel mount, the swivel mount lower extreme with the stand is articulated, set up on the stand with the recess of swivel mount looks adaptation, swivel mount upper end activity fork out fork arm, every the fork arm lower extreme with the swivel mount is articulated, every the photovoltaic board is all detachably installed to the fork arm upper end, set up on the base with the stand with the storage tank of photovoltaic board looks adaptation. In this application: the fork arm and the rotary seat can be folded and stored in the stand column, the photovoltaic panel and the stand column can be folded and stored in the base, the photovoltaic panel can be stacked in the base, the storage effect is better, the carrying is convenient, and the fork arm can be unfolded, so that the larger photovoltaic panel can be installed.

Description

Photovoltaic board mounting structure

Technical Field

The application relates to the technical field of photovoltaic panels, in particular to a photovoltaic panel mounting structure.

Background

A photovoltaic panel assembly is a power generation device that generates direct current when exposed to sunlight.

Chinese patent application number is CN202223170848.8, discloses portable photovoltaic board mounting structure, and this scheme mainly is provided with flexible post and supports the backup pad, and flexible post can be accomodate in the base, and the photovoltaic board is installed in the backup pad.

However, in the process of implementing the technical solution in the embodiment of the present application, the present inventors have found that at least the following technical problems exist in the above technology:

the support plate is not scalable, and for ease of movement as a whole, the support plate cannot be provided too large, typically not larger than the size of the base, thus limiting the size of the photovoltaic panel.

Disclosure of Invention

In order to remedy the above-mentioned shortcomings, the present application provides a photovoltaic panel mounting structure, which aims to improve the problems mentioned in the background art.

The embodiment of the application provides a photovoltaic panel mounting structure, including supporting component and installation component. The support assembly comprises a base, swing joint has the stand on the base, installation component is including the swivel mount, the swivel mount lower extreme with the stand is articulated, set up on the stand with the recess of swivel mount looks adaptation, swivel mount upper end activity fork out fork arm, every the fork arm lower extreme with the swivel mount is articulated, every the photovoltaic board is all detachably installed to the fork arm upper end, set up on the base with the stand with the storage tank of photovoltaic board looks adaptation.

In a specific embodiment, the base comprises a cart and a supporting plate, wherein the supporting plate is hinged with the cart, and pile holes are formed in the supporting plate.

In the implementation process, after the trolley is in place, the supporting plates on the two sides are unfolded outwards to be attached to the ground, the supporting area is increased, the stability is improved, in addition, in the case of high wind, external ground nails can be used for penetrating through pile holes to drive the ground, the trolley is completely fixed on the ground, and in the embodiment, the supporting plates are all positioned through bolts when being unfolded and stored.

In a specific embodiment, a baffle is hinged on the cart, and the baffle is movably abutted against the upright post.

In the implementation process, after the upright posts are erected from the storage groove, the baffle plates are turned towards one side of the upright posts and are propped against one side of the upright posts to form positioning.

In a specific embodiment, the upper end of the upright post is in threaded connection with a screw, and a circumferential array on the rotary seat is provided with a positioning hole matched with the screw.

In the implementation process, the rotating angle of the rotating seat is rotated, so that the photovoltaic panel is aligned to the sun, and then the screw is inserted into the appointed positioning hole inwards to lock the deflection angle of the rotating seat.

In a specific embodiment, the installation component further comprises a middle seat, each fork rod is hinged with a connecting rod, the inner ends of all the connecting rods are hinged with the middle seat, the middle seat is fixedly connected with an inserting rod, and the lower end of the inserting rod is movably inserted into the rotary seat.

In a specific embodiment, the middle seat is provided with a placement groove which is matched with one corner of the photovoltaic panel, the middle seat is connected with a pressing block in a threaded manner, and the pressing block is movably abutted against all the photovoltaic panels.

In the implementation process, the middle seat is positioned at the center of the fork rod, the middle seat axially moves during unfolding, the inserted bar withdraws a part from the swivel seat, the four fork rods are outwards ejected through the connecting rods, then one corners of the four photovoltaic panels are tightly fastened on the middle seat by the pressing blocks, so that the mounting points and the stable fork rod postures are increased, in another embodiment, the inserted bar is rotationally connected with the middle seat, the lower end of the inserted bar is in threaded connection with the swivel seat, the inner end of the inserted bar is in an inner hexagon, the inserted bar is rotated in the middle seat by utilizing the position of a screw hole of the pressing block, so that the inserted bar axially moves, then the pressing block is in threaded connection with the middle seat, the inner end of the inserted bar is plugged, and thus, the inserted bar can have an axial fixing effect with the swivel seat, and the stability can be increased.

In a specific embodiment, each insert rod is rotatably connected with a screw rod at the upper end, and screw holes matched with the screw rods are formed in the lower end of the photovoltaic panel.

In a specific embodiment, the lower end of the screw is hinged with a rotating rod.

In the realization process, the lower surface of the photovoltaic plate is provided with the mounting plate, the mounting plate is provided with the screw hole, the screw rod and the screw rod form an L shape through deflecting the rotating rod and serve as a spanner to rotate the screw rod, the mounting plate and the photovoltaic plate are tightly combined at the top end of the fork rod, and tool-free mounting is realized.

Compared with the prior art, the beneficial effects of this application are: the fork arm and the rotary seat can be folded and stored in the stand column, the photovoltaic panel and the stand column can be folded and stored in the base, the photovoltaic panel can be stacked in the base, the storage effect is better, the carrying is convenient, and the fork arm can be unfolded, so that the larger photovoltaic panel can be installed.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some examples of the present application and therefore should not be considered as limiting the scope, and that other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of a photovoltaic panel mounting structure according to an embodiment of the present application in an unfolded state;

fig. 2 is a schematic structural view of a folded state of a photovoltaic panel mounting structure according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of connection relationship between a fork rod and a photovoltaic panel according to an embodiment of the present application;

fig. 4 is a schematic view of a partial enlarged structure at a in fig. 1 according to an embodiment of the present application.

In the figure: 100-a support assembly; 110-a base; 111-pushing; 112-stay plates; 113-a baffle; 120-upright posts; 130-a screw; 200-mounting an assembly; 210-transposition; 220-fork bar; 230-photovoltaic panel; 240-middle seat; 250-connecting rod; 260-insert rod; 270-briquetting; 280-screw; 290-turn bar.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application.

Referring to fig. 1-4, the present application provides a photovoltaic panel mounting structure comprising a support assembly 100 and a mounting assembly 200. The support assembly 100 comprises a base 110, the base 110 is movably connected with a stand column 120, the installation assembly 200 comprises a swivel base 210, the lower end of the swivel base 210 is hinged with the stand column 120, a groove matched with the swivel base 210 is formed in the stand column 120, the upper end of the swivel base 210 is movably forked to form fork rods 220, the lower end of each fork rod 220 is hinged with the swivel base 210, a photovoltaic panel 230 is detachably installed at the upper end of each fork rod 220, and a storage groove matched with the stand column 120 and the photovoltaic panel 230 is formed in the base 110. Wherein, fork arm 220 and swivel mount 210 can fold and accomodate in stand 120, and photovoltaic board 230 and stand 120 can fold again and accomodate in base 110, and photovoltaic board 230 also can stack in base 110, accomodate the effect better, portable because fork arm 220 can expand, can install bigger photovoltaic board 230.

Referring to fig. 1-2, a base 110 includes a cart 111 and a supporting plate 112, the supporting plate 112 is hinged to the cart 111, and pile holes are formed in the supporting plate 112. After the cart 111 is in place, the supporting plates 112 on two sides are unfolded outwards to be attached to the ground, the supporting area is increased, the stability is improved, in addition, in the case of high wind, external ground nails can be used for penetrating through pile holes to be driven into the ground, the cart 111 is completely fixed on the ground, and in the embodiment, the supporting plates 112 are all positioned through bolts when being unfolded and stored.

Referring to fig. 1-2, a baffle 113 is hinged to the cart 111, and the baffle 113 is movably abutted against the upright 120. After the upright 120 is erected from the storage groove, the baffle 113 is turned over to the side of the upright 120 and is abutted against the side of the upright 120, thereby positioning.

Referring to fig. 1-3, a screw 130 is screwed to an upper end of the upright 120, and positioning holes matched with the screw 130 are circumferentially arranged on the swivel base 210. The swivel mount 210 is rotated by an angle such that the photovoltaic panel 230 faces the sun, and then the screw 130 is inserted into the designated positioning hole inward to lock the deflection angle of the swivel mount 210.

Referring to fig. 1-4, the mounting assembly 200 further includes a middle seat 240, each fork rod 220 is hinged with a connecting rod 250, the inner ends of all the connecting rods 250 are hinged with the middle seat 240, the middle seat 240 is fixedly connected with an inserting rod 260, and the lower end of the inserting rod 260 is movably inserted into the swivel seat 210. The middle seat 240 is provided with a placement groove which is matched with one corner of the photovoltaic panel 230, the middle seat 240 is connected with a pressing block 270 in a threaded manner, and the pressing block 270 is movably abutted against all the photovoltaic panels 230. The middle seat 240 is positioned at the center of the fork rod 220, when the middle seat 240 is unfolded, a part of the inserted rod 260 is pulled out from the swivel seat 210, the four fork rods 220 are ejected outwards through the connecting rods 250, then the four photovoltaic panels 230 are tightly fastened on the middle seat 240 by the pressing blocks 270 to increase the mounting points and stabilize the posture of the fork rods 220, in another embodiment, the inserted rod 260 is rotationally connected with the middle seat 240, the lower end of the inserted rod 260 is in threaded connection with the swivel seat 210, the inner end of the inserted rod 260 is in a hexagon, the inserted rod 260 is inserted into the middle seat 240 from the position of a screw hole of the pressing blocks 270 by using a spanner, so that the inserted rod 260 moves axially, then the pressing blocks 270 are in threaded connection with the middle seat 240, and thus the inserted rod 260 has an axial fixing effect with the swivel seat 210, and the stability can be increased.

Referring to fig. 3, a screw 280 is rotatably connected to an upper end of each insert rod 260, and a screw hole adapted to the screw 280 is provided at a lower end of the photovoltaic panel 230. The lower end of the screw 280 is hinged with a rotating rod 290. The lower surface of the photovoltaic plate 230 is provided with a mounting plate, screw holes are formed in the mounting plate, the screw 280 is L-shaped through the deflection rotating rod 290 and the screw 280, the screw 280 is rotated by acting as a spanner, the mounting plate and the photovoltaic plate 230 are tightly combined at the top ends of the fork rods 220, and tool-free mounting is realized.

The working principle of the photovoltaic panel mounting structure is as follows: in the initial state, the fork rod 220 is inwards gathered and lies in the groove on the upright 120 together with the swivel base 210, then the whole body lies in the storage groove on the cart 111, four photovoltaic panels 230 are stacked in the storage groove above the upright 120, the storage effect is good, the portable type solar energy storage device is convenient to carry, when the portable type solar energy storage device needs to be unfolded and used, the supporting plate 112 is outwards unfolded, then the photovoltaic panels 230 are taken out, the upright 120 is erected, the baffle 113 is overturned towards one side of the upright 120 and is abutted against one side of the upright 120 to form a positioning, then the swivel base 210 is upwards rotated out, the middle seat 240 is pulled out by using the screw 130, the four fork rods 220 are outwards unfolded by the action of the connecting rod 250, the four photovoltaic panels 230 are respectively installed on each fork rod 220, then the central corners of the four photovoltaic panels 230 are tightly clamped on the middle seat 240 by using the pressing block 270, the fork rods 220 and the swivel base 210 can be folded and stored in the upright 120, the photovoltaic panels 230 and the upright 120 can be stored in the base 110, the photovoltaic panels 230 can also be stacked in the base 110, and the portable type solar energy storage device can be better in the storage effect, and the portable type solar energy storage device can be realized due to the fact that the fork rods can be unfolded and more conveniently unfolded.

The above is only an example of the present application, and is not intended to limit the scope of the present application, and various modifications and variations will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application. It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

Claims

1. A photovoltaic panel mounting structure is characterized by comprising

The support assembly (100), the support assembly (100) comprises a base (110), and the base (110) is movably connected with a stand column (120);

installation component (200), installation component (200) are including swivel mount (210), swivel mount (210) lower extreme with stand (120) are articulated, offer on stand (120) with recess of swivel mount (210) looks adaptation, swivel mount (210) upper end activity fork out fork arm (220), every fork arm (220) lower extreme with swivel mount (210) are articulated, every fork arm (220) upper end all detachably installs photovoltaic board (230), offer on base (110) with stand (120) with accomodate the groove of photovoltaic board (230) looks adaptation.

2. The photovoltaic panel mounting structure according to claim 1, wherein the base (110) comprises a cart (111) and a supporting plate (112), the supporting plate (112) is hinged to the cart (111), and pile holes are formed in the supporting plate (112).

3. A photovoltaic panel mounting structure according to claim 2, wherein the cart (111) is hinged with a baffle (113), and the baffle (113) is movably abutted against the upright (120).

4. A photovoltaic panel mounting structure according to claim 3, wherein the upper end of the upright (120) is screwed with a screw (130), and the rotary base (210) is provided with a circumferential array of positioning holes adapted to the screw (130).

5. The photovoltaic panel mounting structure according to claim 4, wherein the mounting assembly (200) further comprises a middle seat (240), each fork rod (220) is hinged with a connecting rod (250), the inner ends of all the connecting rods (250) are hinged with the middle seat (240), the middle seat (240) is fixedly connected with a plug rod (260), and the lower end of the plug rod (260) is movably inserted into the rotary seat (210).

6. The photovoltaic panel mounting structure according to claim 5, wherein the middle seat (240) is provided with a placement groove adapted to one corner of the photovoltaic panel (230), the middle seat (240) is screwed with a pressing block (270), and the pressing block (270) is movably abutted against all the photovoltaic panels (230).

7. The photovoltaic panel mounting structure according to claim 6, wherein each of the insert rods (260) is rotatably connected to a screw (280), and the lower end of the photovoltaic panel (230) is provided with a screw hole adapted to the screw (280).

8. The photovoltaic panel mounting structure according to claim 7, wherein the screw (280) is hinged at its lower end with a rotating rod (290).