CN216774653U - Photovoltaic cell panel support - Google Patents

Abstract

The application discloses a photovoltaic cell panel bracket, which relates to the technical field of photovoltaic cell panels and comprises a bracket base and an insertion block, the top of the bracket base is provided with an inserting hole channel, the left side wall and the right side wall of the inserting hole channel are sequentially and symmetrically provided with a first clamping hole channel and a second clamping hole channel from top to bottom, a first clamping piece is arranged in the first clamping hole channel, a second clamping piece is arranged in the second clamping hole channel, pushing pieces are symmetrically arranged on the left side and the right side of the top of the bracket base, the photovoltaic solar panel is hoisted by the crane, then the splicing block at the bottom of the photovoltaic solar panel is aligned with the splicing pore at the top of the bracket base, the photovoltaic solar panel is slowly put down, in the lowering process, the inserting block can extrude the first clamping piece and the second clamping piece which are positioned in the inserting pore channel, when the inserting block is completely inserted into the inserting hole channel, the first clamping piece and the second clamping piece limit and fix the inserting block.

Description

Photovoltaic cell panel support

Technical Field

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

Background

With the development of economy and social progress, people put higher and higher requirements on energy, and the search for new energy becomes an urgent subject facing human beings at present. Solar energy is a clean renewable new energy source and is more and more favored by people.

Current photovoltaic cell board mostly needs the manual work to come photovoltaic cell board fixed mounting on the support through instruments such as spanner, screwdriver at the in-process of installation, and the process of installation not only wastes time and energy, has still increased labour cost, and based on this, this application designs a photovoltaic cell board support to solve the above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

An object of this application is to provide a photovoltaic cell board support to solve the above-mentioned problem that artifical installation is wasted time and energy, is increased labour cost.

In order to achieve the above purpose, the present application provides the following technical solutions: the photovoltaic cell support comprises a support base and an inserting block, wherein the inserting block is fixedly connected with a fixed end at the bottom of a photovoltaic cell panel, an inserting hole is formed in the top of the support base, a first clamping hole and a second clamping hole are sequentially and symmetrically formed in the left side wall and the right side wall of the inserting hole from top to bottom, a first clamping piece is arranged in the first clamping hole, a second clamping piece is arranged in the second clamping hole, pushing pieces are symmetrically arranged on the left side and the right side of the top of the support base, and the driving end of the pushing pieces is abutted to the stressed ends of the first clamping piece and the second clamping piece.

Based on above-mentioned technical characteristics, hang up photovoltaic solar panel through the loop wheel machine, aim at the grafting pore at support base top with the grafting piece that is located photovoltaic solar panel bottom afterwards, put down photovoltaic solar panel slowly, at the in-process of transferring, the grafting piece can extrude first fastener and the second fastener that is located the grafting pore, and when the grafting piece inserted the grafting pore completely, first fastener and second fastener carried on spacing fixedly to the grafting piece.

Preferably, in the photovoltaic cell panel support, the first engaging piece includes a first spring located in the first engaging hole, and a first engaging block is connected to one side of the first spring close to the inserting hole.

Based on the technical characteristics, when the first clamping block is extruded by the inserting block, the first clamping block moves towards the first clamping hole channel, and when the inserting block is completely inserted into the inserting hole channel, the first clamping block limits and fixes the inserting block under the action of the first spring.

Preferably, in the photovoltaic cell panel support, the first engaging block is provided with a groove.

Based on the technical characteristics, the pushing piece can extend into the second clamping pore passage through the arranged groove.

Preferably, in the photovoltaic cell panel support, the second engaging piece includes a second spring located in the second engaging hole, and a second engaging block is connected to a side of the second spring close to the inserting hole.

Based on the technical characteristics, when the second clamping block is extruded by the inserting block, the second clamping block moves towards the second clamping pore channel, and when the inserting block is completely inserted into the inserting pore channel, the second clamping block limits and fixes the inserting block under the action of the second spring.

Preferably, in the photovoltaic cell panel support, the pushing member includes a pushing rod slidably disposed at the top of the support base, the pushing rod is sequentially provided with a return spring, a first pushing block and a second pushing block from top to bottom, the first pushing block is matched with the first clamping piece, the second pushing block is matched with the second clamping piece, and the top of the return spring is fixedly connected with the inner cavity of the support base.

Based on the technical characteristics, when the solar photovoltaic panel is required to be plugged, the pushing rod at the top of the support base is pressed, the pushing rod drives the first pushing block and the second pushing block to move downwards, the first pushing block moving downwards pushes the first clamping block to move towards the inner cavity of the first clamping hole channel, the second pushing block moving downwards pushes the second clamping block to move towards the inner cavity of the second clamping hole channel, the constraint of the first clamping block and the second clamping block is avoided, and the solar photovoltaic panel can be smoothly separated from the plugging hole channel.

Preferably, in the photovoltaic cell panel support, an installation hole is formed in an inner cavity of the support base, and the push rod is located in the installation hole.

Based on the technical characteristics, the push rod is placed through the arranged installation pore channel.

Preferably, in the photovoltaic cell panel support, an insertion rod matched with the first clamping piece and the second clamping piece is arranged at the bottom of the insertion block.

Based on the technical characteristics, the insertion rod is matched with the first clamping piece and the second clamping piece, so that the insertion rod, the insertion block and the solar photovoltaic panel can be bound to the top of the installation base.

Compared with the prior art, the beneficial effects of this application are:

photovoltaic solar panel is hoisted through the loop wheel machine, the grafting pore at support base top is aimed at to the grafting piece that will be located the photovoltaic solar panel bottom afterwards, slowly put down photovoltaic solar panel, at the in-process of transferring, the grafting piece can extrude first fastener and the second fastener that are located the grafting pore, when the grafting piece inserts the grafting pore completely, first fastener and second fastener carry out spacing fixed to the grafting piece, this makes at the in-process of solar panel installation, no longer need the manual work to install fixedly through instruments such as spanner to solar panel, when promoting work efficiency greatly, the human cost has also been saved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic structural diagram of the present application;

FIG. 2 is a schematic diagram of a plug block structure according to the present application;

FIG. 3 is an enlarged view of the portion A of FIG. 1;

FIG. 4 is a schematic view of a push rod of the present application;

fig. 5 is a schematic view of a first clamping block structure according to the present application.

In the drawings, the reference numbers indicate the following list of parts:

1. a bracket base; 2. an insertion block; 3. inserting the pore channel; 4. a first engaging hole; 5. a second engaging hole; 6. a first engaging member; 601. a first spring; 602. a first card and a block; 7. a second engaging member; 701. a second spring; 702. a second card and block; 8. a pusher member; 801. a push rod; 802. a return spring; 803. a first pushing block; 804. a second pushing block; 9. a groove; 10. a plug rod.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

Referring to fig. 1 and 2, a photovoltaic cell panel bracket includes a bracket base 1 and an insertion block 2, the insertion block 2 is fixedly connected to a fixed end of the bottom of the photovoltaic cell panel, an insertion rod 10 is disposed at the bottom of the insertion block 2 and is matched with a first engaging member 6 and a second engaging member 7, and the insertion rod 10 is matched with the first engaging member 6 and the second engaging member 7, so that the insertion rod 10, the insertion block 2 and the solar photovoltaic panel can be constrained at the top of the mounting base 1.

Referring to fig. 3 and 4, an insertion hole 3 is formed at the top of a support base 1, a first clamping hole 4 and a second clamping hole 5 are symmetrically arranged on the left side wall and the right side wall of the insertion hole 3 from top to bottom, a first clamping piece 6 is arranged in the first clamping hole 4, a second clamping piece 7 is arranged in the second clamping hole 5, pushing pieces 8 are symmetrically arranged on the left side wall and the right side wall of the top of the support base 1, the driving ends of the pushing pieces 8 are abutted to the stressed ends of the first clamping piece 6 and the second clamping piece 7, the photovoltaic solar panel is lifted by a crane, then the insertion block 2 at the bottom of the photovoltaic solar panel is aligned to the insertion hole 3 at the top of the support base 1, the photovoltaic solar panel is slowly lowered, in the lowering process, the insertion block 2 can squeeze the first clamping piece 6 and the second clamping piece 7 in the insertion hole 3, when the insertion block 2 is completely inserted into the insertion hole 3, the first engaging member 6 and the second engaging member 7 limit and fix the insert block 2.

The first engaging member 6 includes a first spring 601 located in the first engaging hole 4, one side of the first spring 601 near the inserting hole 3 is connected with a first engaging block 602, when the inserting block 2 extrudes the first engaging block 6, the first engaging block 6 moves into the first engaging hole 4, and when the inserting block 2 is completely inserted into the inserting hole 3, the first engaging block 6 limits and fixes the inserting block 2 under the action of the first spring 601.

The second engaging member 7 includes a second spring 701 located in the second engaging hole 5, one side of the second spring 701 close to the inserting hole 3 is connected with a second engaging block 702, when the inserting block 2 extrudes the second engaging block 702, the second engaging block 702 moves into the second engaging hole 5, and when the inserting block 2 is completely inserted into the inserting hole 3, the second engaging block 702 performs limiting and fixing on the inserting block 2 under the action of the second spring 701.

The pushing member 8 comprises a pushing rod 801 slidably arranged at the top of the bracket base 1, a return spring 802, a first pushing block 803 and a second pushing block 804 are sequentially arranged on the pushing rod 801 from top to bottom, the first pushing block 803 is matched with the first clamping member 6, the second pushing block 804 is matched with the second clamping member 7, the top of the return spring 802 is fixedly connected with the inner cavity of the bracket base 1, when the solar photovoltaic panel needs to be disassembled, the pushing rod 801 at the top of the bracket base 1 is pressed, the pushing rod 801 drives the first pushing block 803 and the second pushing block 804 to move downwards, the first pushing block 803 moving downwards pushes the first clamping block 602 to move towards the inner cavity of the first clamping hole channel 4, the second pushing block 804 moving downwards pushes the second clamping block 702 to move towards the inner cavity of the second clamping hole channel 5, the constraint of the first clamping block 602 and the second clamping block 702 is avoided, and the solar photovoltaic panel can be smoothly separated from the inserting hole channel 3.

An installation pore channel is formed in the inner cavity of the bracket base 1, the push rod 801 is located in the installation pore channel, and the push rod 801 is placed through the installation pore channel.

Referring to fig. 5, the first engaging block 602 is provided with a groove 9, and the groove 9 allows the pushing member 8 to extend into the second engaging hole 5.

The working principle is as follows: when a solar photovoltaic panel needs to be installed, the photovoltaic solar panel is lifted up by a crane, then the insertion block 2 at the bottom of the photovoltaic solar panel is aligned to the insertion hole 3 at the top of the support base 1, the photovoltaic solar panel is slowly put down, in the process of putting down, the insertion block 2 can extrude the first clamping piece 6 and the second clamping piece 7 which are positioned in the insertion hole 3, when the insertion block 2 is completely inserted into the insertion hole 3, because the groove on the surface of the insertion rod 10 at the bottom of the insertion block 2 is matched with the first clamping piece 602 and the second clamping piece 702, under the action of the first spring 601, the first clamping piece 602 pops out the first clamping hole 4 and limits and fixes the insertion rod 10, meanwhile, under the action of the second spring 701, the second clamping piece 702 pops out the second clamping hole 5 and limits and fixes the insertion rod 10, the length of the insertion rod 10 is greater than the depth of the insertion hole 3, when the solar photovoltaic panel needs to be disassembled, the pushing rod 801 on the top of the bracket base 1 is pressed, the groove 9 is formed in the first clamping block 602, the groove 9 enables the pushing rod 801 to extend into the second clamping hole 5 through the groove 9, the pushing rod 801 drives the first pushing block 803 and the second pushing block 804 to move downwards, the first pushing block 803 moving downwards pushes the first clamping block 602 to move into the inner cavity of the first clamping hole 4, the second pushing block 804 moving downwards pushes the second clamping block 702 to move into the inner cavity of the second clamping hole 5, the constraint of the first clamping block 602 and the second clamping block 702 is avoided, the solar photovoltaic panel can smoothly break away from the inserting hole 3 under the action of the crane, and in the process of installing the solar panel, the solar panel does not need to be installed and fixed manually through tools such as a wrench and the like, the labor cost is also saved when the working efficiency is greatly improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. The utility model provides a photovoltaic cell board support, includes support base (1) and grafting piece (2), grafting piece (2) and photovoltaic cell board bottom stiff end fixed connection, its characterized in that: the support base is characterized in that a splicing hole channel (3) is formed in the top of the support base (1), a first clamping hole channel (4) and a second clamping hole channel (5) are sequentially and symmetrically arranged on the left side wall and the right side wall of the splicing hole channel (3) from top to bottom, a first clamping piece (6) is arranged in the first clamping hole channel (4), a second clamping piece (7) is arranged in the second clamping hole channel (5), pushing pieces (8) are symmetrically arranged on the left side and the right side of the top of the support base (1), and the driving end of each pushing piece (8) is abutted to the stressed end of each first clamping piece (6) and the stressed end of each second clamping piece (7).

2. A photovoltaic panel support according to claim 1, in which: the first clamping piece (6) comprises a first spring (601) located in the first clamping hole channel (4), and one side, close to the inserting hole channel (3), of the first spring (601) is connected with a first clamping block (602).

3. A photovoltaic panel support according to claim 2, characterised in that: a groove (9) is formed in the first clamping block (602).

4. A photovoltaic panel support according to claim 1, characterised in that: the second clamping piece (7) comprises a second spring (701) positioned in the second clamping hole channel (5), and a second clamping block (702) is connected to one side, close to the inserting hole channel (3), of the second spring (701).

5. A photovoltaic panel support according to claim 1, characterised in that: the pushing piece (8) comprises a pushing rod (801) which is arranged at the top of the support base (1) in a sliding mode, a reset spring (802), a first pushing block (803) and a second pushing block (804) are sequentially arranged on the pushing rod (801) from top to bottom, the first pushing block (803) is matched with the first clamping piece (6), the second pushing block (804) is matched with the second clamping piece (7), and the top of the reset spring (802) is fixedly connected with the inner cavity of the support base (1).

6. A photovoltaic panel support according to claim 5, in which: an installation pore channel is formed in the inner cavity of the bracket base (1), and the push rod (801) is located in the installation pore channel.

7. A photovoltaic panel support according to claim 1, characterised in that: the bottom of the insertion block (2) is provided with an insertion rod (10) which is matched with the first clamping piece (6) and the second clamping piece (7).

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