CN220915198U - Large-span flexible photovoltaic bracket with wind resistance system - Google Patents

Abstract

The utility model discloses a large-span flexible photovoltaic bracket with an anti-wind system, which comprises a plurality of mounting brackets, a plurality of flexible supporting pieces and flexible bearing pieces which are arranged between two adjacent mounting brackets, and a plurality of rod connecting units for connecting and reinforcing the flexible supporting pieces and the flexible bearing pieces, wherein each rod connecting unit comprises at least one triangular connecting unit, each triangular connecting unit comprises two first reinforcing pieces, one second reinforcing piece and three first connecting pieces, and the two first reinforcing pieces and the two second reinforcing pieces are connected with each other through the first connecting pieces to form a triangular distribution structure. The utility model applies the composite triangle structure principle to the flexible photovoltaic bracket, can greatly improve the bearing strength of the flexible photovoltaic bracket to the photovoltaic component, can improve the wind resistance and compression resistance of the flexible photovoltaic bracket, ensures the structural stability of the flexible photovoltaic bracket and the supporting stability of the photovoltaic component, and improves the use effect of the flexible photovoltaic bracket.

Description

Large-span flexible photovoltaic bracket with wind resistance system

Technical Field

The utility model belongs to the field of photovoltaics, relates to a flexible photovoltaic support technology, and in particular relates to a flexible photovoltaic support with a wind resistance system in a large span.

Background

The utility model provides a device for installing and supporting photovoltaic module, it mainly realizes the installation and the support of photovoltaic module on flexible photovoltaic support through two flexible support pieces, current this kind of flexible photovoltaic support its two flexible support pieces are limited to photovoltaic module's bearing capacity, can not reach the user demand of bigger bearing strength, and the holistic wind-resistant compressive capacity of flexible photovoltaic support is relatively poor, no matter the intensity of flexible support piece and the holistic structural strength of flexible photovoltaic support are all weaker, can't guarantee the sustainable bearing effect of flexible photovoltaic support to photovoltaic module, this very big restriction flexible photovoltaic support's use.

Disclosure of Invention

The invention aims to: in order to overcome the defects existing in the prior art, the flexible photovoltaic support with the wind-resistant system in a large span is provided, the composite triangle structure principle is applied to the flexible photovoltaic support, the bearing strength of the flexible photovoltaic support to a photovoltaic module can be greatly improved, the wind-resistant and pressure-resistant capacity of the flexible photovoltaic support can be improved, the structural stability of the flexible photovoltaic support and the supporting stability of the photovoltaic module are guaranteed, and the using effect of the flexible photovoltaic support is improved.

The technical scheme is as follows: in order to achieve the above-mentioned purpose, the utility model provides a flexible photovoltaic support with a wind-resistant system in a large span, comprising a plurality of mounting brackets, a plurality of flexible supporting members and flexible bearing members arranged between two adjacent mounting brackets, and a plurality of rod connection units for connecting and reinforcing the flexible supporting members and the flexible bearing members, wherein the rod connection units comprise at least one triangle connection unit, the triangle connection unit comprises two first reinforcing members, one second reinforcing member and three first connecting rods, the two first reinforcing members and the second reinforcing members are respectively connected with each other through the first connecting rods to form a triangle distribution structure, the two first reinforcing members and the second reinforcing members are respectively used for tightening and fixing the two flexible supporting members and the flexible bearing members, and the two flexible supporting members are used for installing and supporting a photovoltaic module.

Further, the triangular connection unit comprises two triangular connection units, two adjacent first reinforcing members between the two triangular connection units are connected through a second connecting rod, and the second reinforcing members of the two triangular connection units are connected through a third connecting rod.

Further, in the two triangular connection units, the second reinforcement member of one triangular connection unit is connected with the first reinforcement member close to the first reinforcement member of the other triangular connection unit through a fourth connecting rod.

Further, the first reinforcement includes first U-shaped bolt spare and first connection briquetting, first connection briquetting passes through the connecting bolt cooperation and sets up on first U-shaped bolt spare, flexible support piece cooperation is between first U-shaped bolt spare and first connection briquetting.

Further, the second reinforcement includes second U type bolt spare and second connection briquetting, the second connection briquetting passes through the connecting bolt cooperation and sets up on second U type bolt spare, flexible load-carrying member cooperation is between second U type bolt spare and second connection briquetting.

Further, the second connecting press block is connected with the opposite first connecting rod through a fifth connecting rod.

Further, two flexible pull-connecting pieces are arranged between two adjacent mounting brackets, a hook ring is arranged on the fifth connecting rod, and the flexible pull-connecting pieces are matched with the hook ring.

Further, the mounting brackets on two sides are provided with grounding mounting members, each grounding fixing member comprises a plurality of grounding fixing units, each grounding fixing unit comprises a diagonal member, an embedded member and an ear plate arranged on the mounting bracket, two ends of each diagonal member are respectively provided with a grounding connecting member, and the two grounding connecting members are respectively connected with the embedded member and the ear plates.

Further, the grounding connecting piece comprises a U-shaped ring, a baffle plate matched on the U-shaped ring and a pull piece baffle head arranged on the baffle plate, and two ends of the pull piece are respectively matched and connected to the two pull piece baffle heads.

Further, the mounting bracket comprises a cross beam and two upright posts, and two cross-arranged inter-column support rods are arranged between the two upright posts.

The beneficial effects are that: compared with the prior art, the utility model applies the principle of the composite triangle structure to the flexible photovoltaic support, forms the composite structure of a plurality of triangle structures through the matching design of the rod connecting unit, the flexible bearing piece and the like, can greatly improve the bearing strength of the flexible photovoltaic support to the photovoltaic module, can improve the wind resistance and the compression resistance of the flexible photovoltaic support, ensures the structural stability of the flexible photovoltaic support and the supporting stability of the photovoltaic module, solves the problems of poor structural stability, easy deviation, falling off and the like of the photovoltaic module on the flexible photovoltaic support, ensures the stability of the photovoltaic module on the flexible photovoltaic support, and improves the use effect of the flexible photovoltaic support.

Drawings

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

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a partial enlarged view at B in FIG. 2;

FIG. 4 is an enlarged view of a portion of FIG. 2 at C;

FIG. 5 is an enlarged view of a portion of FIG. 1 at E;

FIG. 6 is an enlarged view of a portion of FIG. 5 at F;

FIG. 7 is a partial enlarged view at G in FIG. 5;

Fig. 8 is a partial enlarged view at H in fig. 5.

Detailed Description

The present utility model is further illustrated in the accompanying drawings and detailed description which are to be understood as being merely illustrative of the utility model and not limiting of its scope, and various modifications of the utility model, which are equivalent to those skilled in the art upon reading the utility model, will fall within the scope of the utility model as defined in the appended claims.

As shown in fig. 1, the utility model provides a large-span flexible photovoltaic support with a wind-resistant system, which comprises three mounting supports 1, four flexible supporting pieces 51, two flexible bearing pieces 52 and two flexible pull-connecting pieces 53 are arranged between two adjacent mounting supports 1, two rod connecting units 2 are arranged between two adjacent mounting supports 1, grounding mounting members are arranged on the mounting supports 1 positioned on two sides, the four flexible supporting pieces 51 form two rows of supporting parts, and a photovoltaic assembly 8 is mounted on the two flexible supporting pieces 51.

As shown in fig. 2 to 4, the mounting bracket 1 includes a cross beam 12 and two upright posts 11, two cross column support rods 14 are disposed between the two upright posts 11, the ground mounting member includes four ground fixing units, each ground fixing unit includes a cable-stayed member 13, an embedded member 21, and an ear plate 32 disposed on the cross beam 12, both ends of the cable-stayed member 13 are provided with ground connection members, each ground connection member includes a U-shaped ring 22, a baffle 23 fitted on the U-shaped ring 22, and a pull member blocking head 24 disposed on the baffle 23, both ends of the cable-stayed member 13 are respectively connected to the two pull member blocking heads 24 in a matched manner, the two U-shaped rings 22 are respectively connected to the embedded member 21 and the ear plate 32, an anchor 33 connected to the flexible support member 51 is disposed on the cross beam 12, the flexible support member 51 passes through the cable-stayed member 31 and the anchor 33 and is locked, and opposite forces of the two form a balanced stress system.

As shown in fig. 5 to 8, the rod connection unit 2 includes two triangle connection units, the triangle connection unit includes two first reinforcements, a second reinforcement and three head rods 54, two first reinforcements and second reinforcement are respectively through head rod 54 interconnect formation triangle distribution structure, first reinforcement includes first U-shaped bolt 61 and first connection briquetting 62, first connection briquetting 62 passes through two first connecting bolt 63 cooperation setting on first U-shaped bolt 61, flexible support 51 cooperation is between first U-shaped bolt 61 and first connection briquetting 62, the second reinforcement includes second U-shaped bolt 71 and second connection briquetting 72, second connection briquetting 72 passes through two second connecting bolt 73 cooperation setting on second U-shaped bolt 71, flexible bearing piece 52 cooperation is between second U-shaped bolt 71 and second connection briquetting 72, two adjacent first reinforcements pass through second connecting rod 57 between two triangle connection units link to each other, two triangle connection unit's second reinforcement passes through third connecting rod 59 cooperation setting on first U-shaped bolt 61, flexible support 51 cooperation on the second connecting rod 56 in two triangle connection units, one of them is through the second hook joint 56 of them, the other end is connected with the fifth connection briquetting 72 through the first hook joint 56 in the second connection briquetting 56, the second reinforcement in the second triangle connection unit is connected with the fifth connection briquetting 56 through the fifth connection briquetting 56.

In this embodiment, the above-mentioned flexible photovoltaic support is used for installing and supporting the photovoltaic module 8, refer to fig. 1, the photovoltaic module 8 is installed on two flexible supporting pieces 51, two rows of photovoltaic modules 8 can be placed on the flexible photovoltaic support altogether, after the installation of the photovoltaic module 8 is completed in this embodiment, because the flexible photovoltaic support is provided with a plurality of triangle connection structures, the overall structural strength and bearing strength of the flexible photovoltaic support are very good, such as the part of the rod connection unit 2, three first connecting rods 54 and fifth connecting rods 56 form two triangle structures, the first connecting rods 54, the second connecting rods 57, the fourth connecting rods 58 and the third connecting rods 59 also form two triangle structures, so that the rod connection unit 2 has excellent structural strength and stability, can play a very good fixing and stabilizing effect on the flexible supporting pieces 51, the flexible bearing pieces 52 and the flexible pull connecting pieces 53, ensure the control stability and bearing effect for the photovoltaic module 8, such as the connection structure of the installation support 1 and the grounding installation member, the connection structure between the piece 13 and the pre-buried piece 21 and the ear support 32 can form a better balanced structure, and the connection structure between the installation support and the embedded piece has better stability.

According to the above, it can be seen that in this embodiment, the principle of the composite triangle structure is applied to the flexible photovoltaic support, through the cooperation design of the rod connection unit, the flexible bearing piece, etc., a composite structure with a plurality of triangle structures is formed, the bearing strength of the flexible photovoltaic support to the photovoltaic module can be greatly improved, and the wind resistance and compression resistance of the flexible photovoltaic support can be improved, the structural stability of the flexible photovoltaic support and the supporting stability of the photovoltaic module are ensured, the problems that the structural stability of the photovoltaic module on the flexible photovoltaic support is poor, offset and falling off are easy to occur are solved, the stability of the photovoltaic module on the flexible photovoltaic support is ensured, and the use effect of the flexible photovoltaic support is improved.

Claims (10)

1. The utility model provides a large-span flexible photovoltaic support that has anti-wind system, its characterized in that includes a plurality of installing support, sets up a plurality of flexible support piece and flexible load-carrying member between two adjacent installing support, is used for connecting and consolidates a plurality of pole connection units of flexible support piece and flexible load-carrying member, the pole connection unit includes at least one triangle connection unit, triangle connection unit includes two first reinforcement, a second reinforcement and three head rod, and two first reinforcement and second reinforcement are used for tightening up two flexible support piece and flexible load-carrying member respectively through head rod interconnect formation triangle-shaped distributed architecture, and two flexible support pieces are used for installing and supporting photovoltaic module.

2. The flexible photovoltaic bracket with a wind-resistant system of claim 1, wherein the delta connection unit comprises two delta connection units, two adjacent first reinforcements between the two delta connection units are connected by a second connecting rod, and two second reinforcements of the two delta connection units are connected by a third connecting rod.

3. The flexible photovoltaic bracket with a wind-resistant system of claim 2, wherein the second reinforcement member of one of the delta connection units is connected to the first reinforcement member of the other delta connection unit by a fourth connecting rod.

4. The flexible photovoltaic bracket with a wind-resistant system of claim 2, wherein the first reinforcement comprises a first U-bolt member and a first connecting block, the first connecting block is disposed on the first U-bolt member by a connecting bolt fit, and the flexible support is disposed between the first U-bolt member and the first connecting block.

5. The flexible photovoltaic bracket with a wind-resistant system of claim 2, wherein the second reinforcement comprises a second U-bolt and a second connection block, the second connection block being disposed on the second U-bolt by a connection bolt fit, the flexible load bearing member being fitted between the second U-bolt and the second connection block.

6. The flexible photovoltaic bracket with a wind-resistant system of claim 5, wherein the second connection block and the opposing first connection bar are connected by a fifth connection bar.

7. The flexible photovoltaic bracket with the wind-resistant system of claim 6, wherein two flexible pull connectors are arranged between two adjacent mounting brackets, the fifth connecting rod is provided with a hook ring, and the flexible pull connectors are matched with the hook ring.

8. The flexible photovoltaic bracket with the wind-resistant system of claim 1, wherein the mounting brackets on two sides are provided with grounding mounting members, the grounding mounting members comprise a plurality of grounding fixing units, each grounding fixing unit comprises a diagonal member, an embedded member and an ear plate arranged on the mounting bracket, both ends of each diagonal member are provided with grounding connecting members, and the two grounding connecting members are respectively connected with the embedded member and the ear plate.

9. The flexible photovoltaic bracket with the wind-resistant system of claim 8, wherein the grounding connecting piece comprises a U-shaped ring, a baffle plate matched on the U-shaped ring and a pull piece baffle head arranged on the baffle plate, and two ends of the pull piece are respectively matched and connected to the two pull piece baffle heads.

10. The flexible photovoltaic bracket with a wind-resistant system of claim 1, wherein the mounting bracket comprises a cross beam and two uprights, between which two cross-disposed inter-post support bars are disposed.