CN217693148U - Flexible support with triangular support structure - Google Patents

Abstract

The utility model discloses a flexible support with triangular support structure for the support of solar photovoltaic panel, flexible support transversely form side by a plurality of groups atress support unit, every group atress support unit includes a steel strand wires, no. two steel strand wires and No. three steel strand wires that are parallel to each other, every group atress support unit still includes a triangular support structure, triangular support structure according to the spatial position of a steel strand wires, no. two steel strand wires and No. three steel strand wires, by two support connecting rods and a pull rod of connecting two support connecting rods, the shaping becomes handstand plane triangle-shaped structure, every angle point of plane triangle-shaped is connected with a steel strand wires, no. two steel strand wires and No. three steel strand wires respectively through the cable clip; the utility model discloses can carry out longitudinal tie with transversal arrangement's flexible support, make each atress support unit even become unified atress structure to guarantee photovoltaic module safe operation under the wind load effect.

Description

Flexible support with triangular support structure

Technical Field

The utility model relates to a solar photovoltaic support technical field especially relates to a flexible support with triangular supports structure.

Background

In recent years, the photovoltaic industry in China is rapidly developed, available land resources are less and less, and the traditional fixed support cannot meet the market demand. The method for installing the photovoltaic module by adopting the flexible support is more and more accepted by the market, however, the flexible support is installed by adopting the steel strand and has larger span, and the difficult problem of how to ensure the safe operation of the photovoltaic module under the action of wind load is needed to be solved urgently.

Disclosure of Invention

The utility model aims at providing a flexible support with triangular support structure, this triangular support structure can carry out longitudinal connection with transversely arranged's atress support unit, makes each flexible support unit link into unified atress structure to guarantee photovoltaic module safe operation under the wind load effect.

In order to achieve the above purpose, the technical scheme of the utility model is that: a flexible support with a triangular support structure is used for supporting a solar photovoltaic panel, and is formed by transversely arranging a plurality of groups of stress support units in parallel, wherein each group of stress support units comprises a first steel strand, a second steel strand and a third steel strand which are parallel to each other, the second steel strand is higher than the first steel strand, namely, a plane formed by the first steel strand and the second steel strand forms an inclination angle with a horizontal plane, photovoltaic modules are arranged on the first steel strand and the second steel strand to meet the installation requirements of different inclination angles of the modules, and the third steel strand is positioned right below the central lines of the first steel strand and the second steel strand;

each group of stressed bracket units also comprises a triangular support structure, the triangular support structure is formed into an inverted plane triangle structure by two support connecting rods and a pull rod for connecting the two support connecting rods according to the spatial positions of the first steel strand, the second steel strand and the third steel strand, and each angular point of the plane triangle is respectively connected with the first steel strand, the second steel strand and the third steel strand through cable clamps;

the utility model provides an optimal technical scheme is: the triangular support structure is characterized by further comprising a longitudinal diagonal rod, and the bottom corner point of one triangular support structure and the top corner point of the adjacent triangular support structure are connected obliquely through the longitudinal diagonal rod between the adjacent stress support units, so that the triangular support structures are prevented from turning on one side.

The utility model provides an additional preferred technical scheme is: the vertical connecting rod is respectively connected with the triangular supporting structures of the stress bracket units in the same plane through the hoops to connect the stress bracket units into a unified stress structure.

The utility model provides a more preferred technical scheme is: the longitudinal connecting rod, the longitudinal inclined rod and the triangular supporting structure are also formed into a plane triangular structure on the same plane.

The utility model provides a more preferred technical scheme is: and the connection between each angular point of the triangular support structure is connected through a check bolt.

The beneficial effects of the utility model are that:

the utility model discloses can carry out longitudinal tie with transversal arrangement's atress support unit, make each flexible support unit even become unified atress structure to guarantee photovoltaic module safe operation under the wind load effect.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings.

As shown in fig. 1, the utility model discloses a flexible support with triangular support structure for the support of solar photovoltaic panel, flexible support by a plurality of groups atress support unit transversely form side by side, each group atress support unit includes a steel strand wires 1, no. two steel strand wires 2 and No. three steel strand wires 3 that are parallel to each other, no. two steel strand wires 2 are higher than a steel strand wires 1 highly, the plane that a steel strand wires 1 and No. two steel strand wires 2 formed forms the inclination with the horizontal plane, arrange photovoltaic module 4 above a steel strand wires 1 and No. two steel strand wires 2, can satisfy the installation requirement at the different inclinations of subassembly, no. three steel strand wires 3 are located under a steel strand wires 1 and No. two steel strand wires 2 central line;

each group of stressed bracket units also comprises a triangular support structure, the triangular support structure is formed into an inverted plane triangular structure by two support connecting rods 51 and a pull rod 52 connected with the two support connecting rods 51 according to the spatial positions of the first steel strand 1, the second steel strand 2 and the third steel strand 3, and each angular point of the plane triangular structure is respectively connected with the first steel strand 1, the second steel strand 2 and the third steel strand 3 through cable clamps;

the triangular support structure is characterized by further comprising a longitudinal inclined rod 6, and the bottom corner point of one triangular support structure is obliquely connected with the top corner point of the adjacent triangular support structure through the longitudinal inclined rod 6 between the adjacent stressed bracket units, so that the triangular support structures are prevented from side turning.

The stress-bearing support unit is characterized by further comprising a longitudinal connecting rod 7, wherein the longitudinal connecting rod 7 is respectively connected with the triangular supporting structures of the stress-bearing support units in the same plane through hoops to connect the stress-bearing support units into a unified stress-bearing structure.

The longitudinal connecting rod 7 and the longitudinal inclined rod 6 and the triangular support structure are also formed into a plane triangular structure on the same plane.

And the connection between each angular point of the triangular support structure is connected through a check bolt.

In some embodiments, the brace rod 51, the pull rod 52, the longitudinal inclined rod 6 and the longitudinal connecting rod 7 in the triangular stabilizing structure 5 can be made of square tubes or round tubes.

In some embodiments, the longitudinal connecting rod 7 is connected with the triangular stabilizing structure 5 in a hoop manner, so that the influence of construction errors on a stress system is reduced.

This embodiment can carry out longitudinal tie with transversely arranged's atress support unit, makes each flexible support unit even become unified atress structure to guarantee photovoltaic module safe operation under the wind load effect.

The embodiments described are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Claims (5)

1. A flexible support with a triangular support structure is used for supporting a solar photovoltaic panel and is characterized in that the flexible support is formed by transversely arranging a plurality of groups of stress support units in parallel, each group of stress support units comprises a first steel strand, a second steel strand and a third steel strand which are parallel to each other, the second steel strand is higher than the first steel strand, a plane formed by the first steel strand and the second steel strand forms an inclination angle with a horizontal plane, photovoltaic components are arranged on the first steel strand and the second steel strand to meet the installation requirements of different inclination angles of the components, and the third steel strand is positioned right below the central lines of the first steel strand and the second steel strand;

each group of stress support units further comprises a triangular support structure, the triangular support structure is formed into an inverted plane triangular structure by two support connecting rods and a pull rod connected with the two support connecting rods according to the spatial positions of the first steel strand, the second steel strand and the third steel strand, and each angular point of the plane triangular structure is respectively connected with the first steel strand, the second steel strand and the third steel strand through cable clamps.

2. The flexible support with the triangular support structure according to claim 1, further comprising a longitudinal diagonal rod, wherein the bottom corner point of one triangular support structure and the vertex corner point of the adjacent triangular support structure are connected obliquely between the adjacent stressed support units through the longitudinal diagonal rod, so that the triangular support structure is prevented from rolling over.

3. The flexible support frame with triangular supporting structures as claimed in claim 2, further comprising a longitudinal connecting rod, wherein the longitudinal connecting rod is connected with the triangular supporting structures of the stress support frame units in the same plane through the hoop, so as to connect the stress support frame units into a unified stress structure.

4. A flexible stent having a triangular supporting structure according to claim 3, wherein the longitudinal links, the longitudinal diagonal links and the triangular supporting structure are formed in a planar triangular structure in the same plane.

5. A flexible stent with a triangular supporting structure according to claim 1, characterized in that the connection between each corner point of the triangular supporting structure is connected by a check bolt.

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