CN210129837U - Flat single-axis tracking support - Google Patents

Abstract

The utility model discloses a flat single-axis tracking support, include: the device comprises two rows of vertical columns and transversely arranged component mounting cables, wherein the component mounting cables are positioned between the two rows of vertical columns, and the end parts of the component mounting cables are connected with the vertical columns; further comprising: the device comprises a bearing cable, a T-shaped support rod and a horizontal push rod; the bearing cable is positioned below the component mounting cable, and the end part of the bearing cable is connected with the upright post; the T-shaped support rods are arranged between the component mounting cable and the bearing cable according to a transverse preset interval; the T-shaped support rod comprises a cross rod and a vertical rod; the bottom ends of the vertical rods are fixed on the bearing cables, and the middle parts of the transverse rods are fixed on the component mounting cables; the bottom end of the vertical rod of each T-shaped support rod is also connected with one end of the horizontal push rod; the photovoltaic module is installed on the horizontal pole of two adjacent T type vaulting poles. The utility model provides a technical scheme can realize photovoltaic module's inclination adjustment with simpler supporting structure, lower maintenance cost.

Description

Flat single-axis tracking support

Technical Field

The utility model relates to a photovoltaic support technical field especially relates to a flat single-axis tracking support.

Background

At present, the solar energy flat single-axis tracking support has an obvious advantage in generating capacity compared with a fixed support due to the fact that the solar azimuth angle is tracked in real time.

The current flat single-axis tracking support reaches the inclination angle of adjustment photovoltaic module, and then tracks the purpose in the sun azimuth through installing photovoltaic module on rolling bearing along with rolling bearing's rotation. Because the existing flat single-shaft tracking support is mainly realized by a steel pipe and a matched rotating bearing and needs to be driven by a corresponding motor, the structure of the tracking support is more complex. And the components such as the rotating bearing, the motor and the like are easy to break down under outdoor severe weather conditions (high humidity environment, sand wind weather and the like), the service life is short, and the maintenance cost of the conventional flat single-shaft tracking support is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a flat single-axis tracking support can realize photovoltaic module's inclination adjustment with simpler supporting structure, lower maintenance cost.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a flat single-axis tracking mount comprising: the device comprises two rows of vertical columns and transversely arranged component mounting cables, wherein the component mounting cables are positioned between the two rows of vertical columns, and the end parts of the component mounting cables are connected with the vertical columns; further comprising: the device comprises a bearing cable, a T-shaped support rod and a horizontal push rod; the bearing cable is positioned below the component mounting cable, and the end part of the bearing cable is connected with the upright post; the T-shaped support rods are arranged between the component mounting cable and the bearing cable according to a transverse preset interval; the T-shaped support rod comprises a cross rod and a vertical rod; the bottom ends of the vertical rods are fixed on the bearing cables, and the middle parts of the transverse rods are fixed on the component mounting cables; the bottom end of the vertical rod of each T-shaped support rod is also connected with one end of the horizontal push rod; the photovoltaic module is installed on the horizontal pole of two adjacent T type vaulting poles.

Preferably, the predetermined pitch is equal to the width of the photovoltaic module.

Preferably, the T-shaped stay is a rigid stay.

Preferably, the assembly mounting cable and the load bearing cable are both steel strands.

The embodiment of the utility model provides a flat single-axis tracking support, adopt the cable structure to replace the bearing structure of current tracking support, specifically, the cable includes unit mount cable and bearing cable, set up T type vaulting pole between unit mount cable and bearing cable, with photovoltaic module direct mount on two adjacent T type vaulting poles, and connect horizontal push rod in the montant bottom of T type vaulting pole, when the montant bottom of horizontal push rod horizontal promotion T type vaulting pole, the photovoltaic module on its top can be along with the slope and the slope of T type vaulting pole, inclination depends on the distance that promotes of horizontal push rod to the montant bottom. It is thus clear that this scheme does not adopt mechanical bearing structure can realize that photovoltaic module's inclination is adjustable, and the structure of this scheme is simpler, the maintenance cost is lower.

Drawings

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

in the figure, 1 is a vertical column, 2 is an assembly mounting cable, 3 is a bearing cable, 4 is a T-shaped support rod, 5 is a horizontal push rod, and 6 is a photovoltaic assembly.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention, including: the device comprises two rows of vertical columns 1 which are longitudinally arranged and component mounting cables 2 which are transversely arranged, wherein the component mounting cables 2 are positioned between the two rows of vertical columns 1, and the end parts of the component mounting cables 2 are connected with the vertical columns 1; further comprising: the device comprises a bearing rope 3, a T-shaped stay bar 4 and a horizontal push rod 5; the bearing cable 3 is positioned below the component mounting cable 2, and the end part of the bearing cable 3 is connected with the upright post 1; the T-shaped support rods 4 are arranged between the component mounting cable 2 and the bearing cable 3 at a transverse preset interval; the T-shaped support rod 4 comprises a cross rod and a vertical rod; the bottom ends of the vertical rods are fixed on the bearing cable 3, and the middle parts of the transverse rods are fixed on the component mounting cables 2; the bottom end of the vertical rod of each T-shaped support rod 4 is also connected with one end of the horizontal push rod 5; photovoltaic module 6 installs on the horizontal pole of two adjacent T type vaulting poles 4.

In this embodiment, the predetermined spacing is equal to the width of the photovoltaic module 6, such that the photovoltaic module 6 exactly spans two adjacent T-shaped struts.

In this embodiment, the T-shaped stay 4 is a rigid stay.

In this embodiment, the assembly installation cable 2 and the bearing cable 3 are both steel strands.

The embodiment of the utility model provides a flat single-axis tracking support, adopt the cable structure to replace the bearing structure of current tracking support, specifically, the cable includes unit mount cable and bearing cable, set up T type vaulting pole between unit mount cable and bearing cable, with photovoltaic module direct mount on two adjacent T type vaulting poles, and connect horizontal push rod in the montant bottom of T type vaulting pole, when the montant bottom of horizontal push rod horizontal promotion T type vaulting pole, the photovoltaic module on its top can be along with the slope and the slope of T type vaulting pole, inclination depends on the distance that promotes of horizontal push rod to the montant bottom. It is thus clear that this scheme does not adopt mechanical bearing structure can realize that photovoltaic module's inclination is adjustable, and the structure of this scheme is simpler, the maintenance cost is lower.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention.

Claims (4)

1. A flat single-axis tracking mount, comprising: the device comprises two rows of vertical columns (1) which are longitudinally arranged and component mounting cables (2) which are transversely arranged, wherein the component mounting cables (2) are positioned between the two rows of vertical columns (1), and the end parts of the component mounting cables (2) are connected with the vertical columns (1); further comprising: the device comprises a bearing cable (3), a T-shaped support rod (4) and a horizontal push rod (5); the bearing cable (3) is positioned below the component mounting cable (2), and the end part of the bearing cable (3) is connected with the upright post (1); the T-shaped support rods (4) are arranged between the component mounting cable (2) and the bearing cable (3) according to a transverse preset interval; the T-shaped support rod (4) comprises a cross rod and a vertical rod; the bottom end of the vertical rod is fixed on the bearing cable (3), and the middle part of the transverse rod is fixed on the component mounting cable (2); the bottom end of the vertical rod of each T-shaped support rod (4) is also connected with one end of the horizontal push rod (5); the photovoltaic module (6) is arranged on the cross bars of the two adjacent T-shaped support rods (4).

2. The flat single-axis tracking stand according to claim 1, characterized in that the transverse predetermined pitch is equal to the width of the photovoltaic module (6).

3. The flat single axis tracking stand according to claim 1, characterized in that the T-brace (4) is a rigid brace.

4. The flat single-axis tracking bracket according to claim 1, characterized in that the assembly mounting cable (2) and the load bearing cable (3) are both steel strands.

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