CN221127160U - Flexible support for photovoltaic engineering solar panel - Google Patents

Abstract

The utility model provides a flexible support for a photovoltaic engineering solar panel, which comprises a support column, a main beam and a photovoltaic solar panel, wherein the top of the support column is fixedly connected with the main beam, the top of the main beam is fixedly connected with a side plate, and the inner side of the side plate is fixedly connected with a first fixed wheel and a second fixed wheel. The utility model has the advantages that: the second cable wire cooperation joist, branch, the auxiliary girder of lower floor is wind-resistant structure, and the joist is trapezium structure, and structural strength is high, and joist and auxiliary girder are even as an organic whole, and the inboard fixed connection's of joist branch is supporting photovoltaic solar panel, carries out stable support to it, improves the stability of structure, improves the integration of photovoltaic solar panel and supporting structure, and photovoltaic solar panel and supporting array become a stable space whole and can effectively resist wind vibration, and the wind-resistant ability is strong, and displacement swing reduces, reduces the occult phenomenon of splitting of photovoltaic solar panel and takes place, has solved the problem that exists among the prior art.

Description

Flexible support for photovoltaic engineering solar panel

Technical Field

The utility model relates to the technical field of photovoltaic supports, in particular to a flexible support for a photovoltaic engineering solar panel.

Background

The flexible photovoltaic support technology is to change purlines in the traditional rigid support technology into steel strands, namely, photovoltaic panels are installed on the steel strands in rows, and the flexible photovoltaic support technology is gradually favored in the market due to the advantages of large span, high land utilization rate, low manufacturing cost, short construction period and the like. But also has the characteristics of flexible structural design and the like, has poor wind resistance, and has great displacement swing and great potential safety hazard under the action of larger wind force.

Disclosure of utility model

The object of the present utility model is to solve at least one of the technical drawbacks.

Therefore, an object of the present utility model is to provide a flexible support for a photovoltaic engineering solar panel, so as to solve the problems mentioned in the background art and overcome the defects existing in the prior art.

In order to achieve the above object, an embodiment of an aspect of the present utility model provides a flexible support for a photovoltaic engineering solar panel, including a support column, a main beam and a photovoltaic solar panel, wherein the top of the support column is fixedly connected with the main beam, the top of the main beam is fixedly connected with a side plate, the inner side of the side plate is fixedly connected with a first fixed wheel and a second fixed wheel, the wheel grooves of the first fixed wheel and the second fixed wheel are fixedly connected with a transverse first steel cable, the wheel grooves of the first fixed wheel and the second fixed wheel are fixedly connected with a transverse second steel cable, and the first steel cable and the second steel cable are fixedly connected;

The photovoltaic solar panel is characterized in that sliding sleeves are fixedly connected to two sides of the photovoltaic solar panel, locking pins are connected to the sliding sleeves in a threaded mode, and rotary buttons are fixedly connected to the end parts of the locking pins;

The sliding sleeve is sleeved on the two first steel cables, the two second steel cables are sleeved with joists, the inner sides of the joists are fixedly connected with vertical struts, and the struts are fixedly connected to the bottom of the photovoltaic solar panel;

And a transverse auxiliary beam is fixedly connected between the main beams, and the top of the auxiliary beam is fixedly connected with the joist.

By any of the above schemes, it is preferable that the strut is fixedly connected with the main beam by a plurality of bolts and nuts, and the main beam is perpendicular to the auxiliary beam.

The technical scheme is adopted: the support structure main body consists of a support column, a main beam, a joist, a first steel rope, a second steel rope, a support rod and an auxiliary beam, wherein the support structure is a double steel rope structure, the first steel rope structure on the upper layer is a flexible support structure, a photovoltaic solar panel is installed through a sliding sleeve, a rotating button is used for tightening a lock pin, and the end part of the lock pin is tightly propped against the first steel rope to realize the installation of the photovoltaic solar panel.

By any of the above schemes, it is preferable that the main beam and the auxiliary beam are welded, and the photovoltaic solar panel is obliquely arranged.

It is preferable from any of the above aspects that the first fixed sheave is located laterally below the second fixed sheave and the first wire rope is located above the second wire rope.

The technical scheme is adopted: this flexible support adopts two cable designs, and the second cable cooperation joist of lower floor, branch, auxiliary girder are wind-resistant structure, and the joist is trapezium structure, and structural strength is high, and the joist links as an organic wholely with the auxiliary girder, and the inboard fixedly connected's of joist branch is supporting photovoltaic solar panel, carries out stable support to it, improves the stability of structure, improves photovoltaic solar panel and support structure's integration, and photovoltaic solar panel and support array become a stable space whole and can effectively resist wind and shake, and the wind-resistant ability is strong, and displacement swing reduces, reduces the occult phenomenon of splitting of photovoltaic solar panel.

In any of the above embodiments, it is preferable that the sliding sleeve and the photovoltaic solar panel are integrally formed, and an end of the locking pin abuts against the surface of the first steel cable.

It is preferable in any of the above-described embodiments that the lock pin and the knob are integrally formed, and that the two first cables are parallel to each other.

By any of the above schemes, preferably, the vertical section of the joist is trapezoid, and the top ends of the struts are welded with the bottom of the photovoltaic solar panel.

It is preferable in any of the above-described aspects that the number of the sub beams is two.

Compared with the prior art, the utility model has the following advantages and beneficial effects:

This flexible support for photovoltaic engineering solar panel, through first tight pulley, the second tight pulley, first cable, the second cable, the sliding sleeve, the lockpin, the turn button, the joist, branch and the cooperation setting of auxiliary girder, this flexible support adopts two cable designs, the second cable cooperation joist of lower floor, branch, auxiliary girder is wind-resistant structure, the joist is trapezium structure, structural strength is high, joist and auxiliary girder link as an organic whole, the inboard fixedly connected branch of joist supports the photovoltaic solar panel, carry out stable support to it, improve the stability of structure, improve the integration of photovoltaic solar panel and supporting structure, photovoltaic solar panel and supporting array become a stable space whole can effectively resist wind and shake, wind-resistant ability is strong, displacement swing reduces, reduce the hidden crack phenomenon of photovoltaic solar panel and take place, the problem that exists among the prior art has been solved.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The foregoing and/or additional aspects and advantages of the utility model will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

FIG. 1 is a schematic view of a first view of the present utility model;

FIG. 2 is a schematic diagram of a second view of the present utility model;

FIG. 3 is a schematic diagram of a prior art structure;

fig. 4 is an enlarged schematic view of the structure of fig. 1 a according to the present utility model.

In the figure: the solar photovoltaic solar panel comprises a 1-pillar, a 2-main beam, a 3-photovoltaic solar panel, a 4-first fixed wheel, a 5-second fixed wheel, a 6-first steel cable, a 7-second steel cable, an 8-sliding sleeve, a 9-locking pin, a 10-rotating button, an 11-joist, a 12-strut, a 13-auxiliary beam and a 14-side plate.

Description of the embodiments

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

As shown in fig. 1-4, the flexible support for the photovoltaic engineering solar panel comprises a support column 1, a main beam 2 and a photovoltaic solar panel 3, wherein the top of the support column 1 is fixedly connected with the main beam 2, the top of the main beam 2 is fixedly connected with a side plate 14, the inner side of the side plate 14 is fixedly connected with a first fixed wheel 4 and a second fixed wheel 5, transverse first steel ropes 6 are fixedly connected in wheel grooves of the first fixed wheel 4 and the second fixed wheel 5, transverse second steel ropes 7 are fixedly connected in wheel grooves of the first fixed wheel 4 and the second fixed wheel 5, and the first steel ropes 6 and the second steel ropes 7 are fixedly connected;

The two sides of the photovoltaic solar panel 3 are fixedly connected with sliding sleeves 8, locking pins 9 are connected to the sliding sleeves 8 in a threaded manner, and turning buttons 10 are fixedly connected to the end parts of the locking pins 9;

The sliding sleeve 8 is sleeved on the two first steel cables 6, the two second steel cables 7 are sleeved with joists 11, the inner sides of the joists 11 are fixedly connected with vertical struts 12, and the struts 12 are fixedly connected to the bottom of the photovoltaic solar panel 3;

A transverse auxiliary beam 13 is fixedly connected between the main beams 2, and the top of the auxiliary beam 13 is fixedly connected with the joist 11.

Example 1: the strut 1 is fixedly connected with the main beam 2 through a plurality of bolts and nuts, and the main beam 2 is vertical to the auxiliary beam 13. The support structure main body comprises a support column 1, a main beam 2, a joist 11, a first steel cable 6, a second steel cable 7, a strut 12 and an auxiliary beam 13, wherein the support structure adopts a double steel cable structure, the first steel cable 6 on the upper layer is of a flexible support structure, the photovoltaic solar panel 3 is installed through a sliding sleeve 8, a rotating knob 10 is used for tightening a lock pin 9, and the end part of the lock pin 9 is tightly propped against the first steel cable 6, so that the installation of the photovoltaic solar panel 3 is realized.

Example 2: the main beam 2 and the auxiliary beam 13 are welded, and the photovoltaic solar panel 3 is obliquely arranged. The first fixed sheave 4 is located laterally below the second fixed sheave 5, and the first wire rope 6 is located above the second wire rope 7. This flexible support adopts two cable designs, and the second cable 7 of lower floor cooperates joist 11, branch 12, auxiliary girder 13 to be wind-resistant structure, and joist 11 is trapezium structure, and structural strength is high, and joist 11 links as an organic wholely with auxiliary girder 13, and the inboard fixedly connected's of joist 11 branch 12 is supporting photovoltaic solar panel 3, carries out stable support to it, improves the stability of structure, improves photovoltaic solar panel 3 and support structure's wholeness, and photovoltaic solar panel 3 and support array become a stable space whole and can effectively resist wind and shake, and the wind-resistant ability is strong, and displacement swing reduces, reduces the occult phenomenon of splitting of photovoltaic solar panel and takes place.

Example 3: the sliding sleeve 8 and the photovoltaic solar panel 3 are of an integrated structure, and the end part of the lock pin 9 is propped against the surface of the first steel cable 6. The locking pin 9 and the knob 10 are of an integral structure, and the two first steel cables 6 are parallel to each other. The vertical section of the joist 11 is trapezoid, and the top end of the strut 12 is welded with the bottom of the photovoltaic solar panel 3. The number of secondary beams 13 is two.

The working principle of the utility model is as follows:

S1, the top of a strut 1 is fixedly connected with a main beam 3;

S2, the top of a main beam 3 is fixedly connected with a first fixed wheel 4 and a second fixed wheel 5, the main body of the support structure consists of a support column 1, a main beam 2, a joist 11, a first steel cable 6, a second steel cable 7, a support rod 12 and an auxiliary beam 13, a double-steel-cable structure is adopted, the first steel cable 6 at the upper layer is of a flexible support structure, a photovoltaic solar panel 3 is installed through a sliding sleeve 8, a rotary knob 10 is used, a locking pin 9 is tightened, and the end part of the locking pin 9 is tightly propped against the first steel cable 6, so that the installation of the photovoltaic solar panel 3 is realized;

S3, the second steel cable 7 at the lower layer is matched with the joist 11, the supporting rod 12 and the auxiliary girder 13 to form an anti-wind structure, the joist 11 is of a trapezoid structure, the structural strength is high, the joist 11 and the auxiliary girder 13 are connected into a whole, the supporting rod 12 fixedly connected with the inner side of the joist 11 supports the photovoltaic solar panel 3, the photovoltaic solar panel 3 is stably supported, the stability of the structure is improved, and the integration of the photovoltaic solar panel 3 and the support structure is improved.

Compared with the prior art, the utility model has the following beneficial effects compared with the prior art:

This flexible support for photovoltaic engineering solar panel, through first tight pulley 4, second tight pulley 5, first cable 6, second cable 7, sliding sleeve 8, lockpin 9, turn button 10, joist 11, branch 12 and the cooperation setting of auxiliary girder 13, this flexible support adopts two cable designs, the cooperation of lower floor's second cable 7 joist 11, branch 12, auxiliary girder 13 is wind-resistant structure, joist 11 is trapezium structure, structural strength is high, joist 11 links as an organic whole with auxiliary girder 13, the inboard fixedly connected branch 12 of joist 11 supports photovoltaic solar panel 3, carry out stable support to it, improve the stability of structure, improve the integrality of photovoltaic solar panel 3 and supporting structure, photovoltaic solar panel 3 and supporting array become a stable space integral body and can effectively resist wind and shake, wind-resistant ability is strong, displacement swing reduces, the hidden problem that splits the phenomenon of photovoltaic solar panel and has solved exists among the prior art.

Claims (8)

1. The flexible support for the photovoltaic engineering solar panel comprises a support column (1), a main beam (2) and a photovoltaic solar panel (3), wherein the top of the support column (1) is fixedly connected with the main beam (2), and the flexible support is characterized in that the top of the main beam (2) is fixedly connected with a side plate (14), the inner side of the side plate (14) is fixedly connected with a first fixed wheel (4) and a second fixed wheel (5), transverse first steel ropes (6) are fixedly connected in wheel grooves of the first fixed wheel (4) and the second fixed wheel (5), transverse second steel ropes (7) are fixedly connected in wheel grooves of the first fixed wheel (4) and the second fixed wheel (5), and the first steel ropes (6) and the second steel ropes (7) are fixedly connected;

The photovoltaic solar panel (3) is characterized in that sliding sleeves (8) are fixedly connected to two sides of the photovoltaic solar panel (3), locking pins (9) are connected to the sliding sleeves (8) in a threaded mode, and rotary buttons (10) are fixedly connected to the end portions of the locking pins (9);

The sliding sleeve (8) is sleeved on the two first steel cables (6), the two second steel cables (7) are sleeved with joists (11), the inner sides of the joists (11) are fixedly connected with vertical supporting rods (12), and the supporting rods (12) are fixedly connected to the bottom of the photovoltaic solar panel (3);

A transverse auxiliary beam (13) is fixedly connected between the main beams (2), and the top of the auxiliary beam (13) is fixedly connected with the joist (11).

2. A flexible support for a photovoltaic engineering solar panel as claimed in claim 1, wherein: the support column (1) is fixedly connected with the main beam (2) through a plurality of bolts and nuts, and the main beam (2) is perpendicular to the auxiliary beam (13).

3. A flexible support for a photovoltaic engineering solar panel as claimed in claim 2, wherein: the main beam (2) is welded with the auxiliary beam (13), and the photovoltaic solar panel (3) is obliquely arranged.

4. A flexible support for a photovoltaic engineering solar panel as claimed in claim 3, wherein: the first fixed wheel (4) is positioned below the side of the second fixed wheel (5), and the first steel cable (6) is positioned above the second steel cable (7).

5. A flexible support for a photovoltaic engineering solar panel as claimed in claim 4, wherein: the sliding sleeve (8) and the photovoltaic solar panel (3) are of an integrated structure, and the end part of the lock pin (9) is propped against the surface of the first steel cable (6).

6. A flexible support for a photovoltaic engineering solar panel as claimed in claim 5, wherein: the lock pin (9) and the rotary knob (10) are of an integrated structure, and the two first steel cables (6) are parallel to each other.

7. A flexible support for a photovoltaic engineering solar panel as claimed in claim 6, wherein: the vertical section of the joist (11) is trapezoid, and the top end of the supporting rod (12) is welded with the bottom of the photovoltaic solar panel (3).

8. A flexible support for a photovoltaic engineering solar panel as claimed in claim 7, wherein: the number of the auxiliary beams (13) is two.