CN108173485A - A kind of lattice flexible photovoltaic stent system - Google Patents

Abstract

The present invention relates to a kind of lattice flexible photovoltaic stent system, including flexiblesystem and trussing；Flexiblesystem is made of the steel wire rope and photovoltaic panel of two or two or more；Trussing includes transverse truss, longitudiual truss and column；The transverse truss is vertical with span direction, and transverse truss section is in space up-side down triangle, and transverse truss is welded by angle steel；Steel cord ends are fixed on transverse truss；Longitudiual truss is equipped in transverse truss vertical direction, the longitudiual truss is welded by angle steel；The transverse truss and longitudiual truss are erected at the top of column.The beneficial effects of the invention are as follows：Transverse truss is replaced traditional column beam support system by the present invention, improves the bending resistance of support system；Longitudiual truss is being equipped with perpendicular to transverse truss direction, longitudiual truss is counteracted due to horizontal pull caused by flexible structure.

Description

A kind of lattice flexible photovoltaic stent system

Technical field

The invention belongs to solar-photovoltaic technology field, more particularly to a kind of lattice flexible photovoltaic stent system.

Background technology

Flexible photovoltaic system has that span is big as a kind of novel photovoltaic structure form, the advantages such as wide adaptation range, It is rapidly developed.At present, traditional flexible support mainly includes flexiblesystem, support system and anchor system.Due to Flexible support span is big, and the horizontal force of capital is often larger, needs to transfer force on the drawing anchor on ground by oblique pull steel wire rope. Draw anchor pulling capacity it is larger, many steel structural roofs do not draw anchor impetus or pulling capacity will to steel construction stress generate compared with It is big to influence, so as to limit popularization of the flexible photovoltaic stent in building roof.

Invention content

The purpose of the present invention is overcoming deficiency of the prior art, a kind of lattice flexible photovoltaic stent system is provided.

In order to realize above-mentioned technical purpose, present invention employs following technical schemes：

A kind of lattice flexible photovoltaic stent system, including flexiblesystem and trussing；Flexiblesystem is by two or two More than root steel wire rope and photovoltaic panel composition；Trussing includes transverse truss, longitudiual truss and column；The transverse truss with Span direction is vertical, and transverse truss section is in space up-side down triangle, and transverse truss is welded by angle steel；Steel cord ends are fixed On transverse truss；Longitudiual truss is equipped in transverse truss vertical direction, the longitudiual truss is welded by angle steel；Described Transverse truss and longitudiual truss are erected at the top of column.

As preferred：If α is item area photovoltaic module optimum angle of incidence, a is the width of transverse truss, and b is transverse truss Highly, c is the angle steel spacing of transverse truss, and e, f are respectively the length and width of photovoltaic module；

To ensure that transverse truss has stronger bending resistance to span centre drag-line：

A=1.5*b

C=a

If photovoltaic module is laid with using vertical,：

B=(e-150mm) * sin α

If photovoltaic module is laid with using lateral,：

B=(f-150mm) * sin α.

As preferred：If m is longitudiual truss height, n is the angle steel spacing of longitudiual truss, then：

M=b

N=c.

Beneficial effects of the present invention：

(1) transverse truss is replaced traditional column beam support system by the present invention, improves the bending resistance of support system.

(2) longitudiual truss is being equipped with perpendicular to transverse truss direction, longitudiual truss is counteracted due to produced by flexible structure Horizontal pull.

(3) for compared to traditional flexible photovoltaic stent, this system draws anchor without providing, have stress is small, stability is strong, The advantages such as applied widely.

Description of the drawings

Fig. 1 is the stereogram of lattice flexible photovoltaic stent system of the present invention；

Fig. 2 is the schematic three dimensional views of transverse truss of the present invention；

Fig. 3 is the schematic three dimensional views of longitudiual truss of the present invention；

Fig. 4 is the structure diagram of transverse truss of the present invention；

Fig. 5 is the structure diagram of longitudiual truss of the present invention；

Reference sign：Flexiblesystem 1, transverse truss 2, longitudiual truss 3, column 4, angle steel 5.

Specific embodiment

The present invention is described further with reference to embodiment.The explanation of following embodiments is merely used to help understand this Invention.It should be pointed out that for those skilled in the art, without departing from the principle of the present invention, also Can to the present invention some improvement and modification can also be carried out, these improvement and modification also fall into the protection domain of the claims in the present invention It is interior.

The lattice flexible photovoltaic stent system is mainly made of flexiblesystem 1 and trussing two parts.Flexibility system System 1 is made of the steel wire rope and photovoltaic panel of two or two or more.Trussing includes transverse truss 2, longitudiual truss 3 and column 4.The transverse truss 2 is vertical with span direction, and section is in space up-side down triangle, is welded by angle steel 5.The steel wire rope end Portion is fixed on transverse truss 2.Longitudiual truss 3 is equipped in 2 vertical direction of transverse truss, the longitudiual truss 3 is welded by angle steel 5 It forms.The transverse truss 2 and longitudiual truss 3 is erected at 4 top of column.

If α is item area photovoltaic module optimum angle of incidence, a is the width of transverse truss 2, and b is 2 height of transverse truss, and c is 5 spacing of angle steel of transverse truss 2, e, f are respectively the length and width of photovoltaic module.If photovoltaic module is laid with using vertical,：

B=(e-150mm) is laterally laid with if * sin α photovoltaic modulies use,：

B=(f-150mm) * sin α is ensure that transverse truss 2 has stronger bending resistance to span centre drag-line：

A=1.5*b

C=a

If m is 3 height of longitudiual truss, n is 5 spacing of angle steel of longitudiual truss 3, then

M=b

N=c.

Claims (3)

1. a kind of lattice flexible photovoltaic stent system, it is characterised in that：Including flexiblesystem (1) and trussing；Flexibility system System (1) is made of the steel wire rope and photovoltaic panel of two or two or more；Trussing includes transverse truss (2), longitudiual truss (3) With column (4)；The transverse truss (2) is vertical with span direction, and transverse truss (2) section is in space up-side down triangle, lateral purlin Frame (2) is welded by angle steel (5)；Steel cord ends are fixed on transverse truss (2)；In transverse truss (2), vertical direction is set There is longitudiual truss (3), the longitudiual truss (3) is welded by angle steel (5)；The transverse truss (2) and longitudiual truss (3) It is erected at the top of column (4).

2. lattice flexible photovoltaic stent system according to claim 1, it is characterised in that：If α is item area photovoltaic Component optimum angle of incidence, a are the width of transverse truss (2), and b is transverse truss (2) height, and c is the angle steel (5) of transverse truss (2) Spacing, e, f are respectively the length and width of photovoltaic module；Then：

A=1.5*b

C=a

If photovoltaic module is laid with using vertical,：

B=(e-150mm) * sin α

If photovoltaic module is laid with using lateral,：

B=(f-150mm) * sin α.

3. lattice flexible photovoltaic stent system according to claim 2, it is characterised in that：If m is high for longitudiual truss (3) Degree, n are angle steel (5) spacing of longitudiual truss (3), then：

M=b

N=c.