CN215817991U - Supporting structure of flexible photovoltaic support - Google Patents

Abstract

The application provides a bearing structure of flexible photovoltaic support, wherein, bearing structure includes: the transverse stay cable, the transverse lower stay cable, the first side upright column, the second side upright column, the first side longitudinal beam, the second side longitudinal beam, the connecting rod, the first lower stay cable and the second lower inclined stay cable; the top of the first side upright post is connected with a first side longitudinal beam, and the top of the second side upright post is connected with a second side longitudinal beam; one end of a transverse inhaul cable is connected with one end of the first side longitudinal beam, the other end of the transverse inhaul cable is connected with one end of the second side longitudinal beam, one end of a transverse lower inhaul cable is connected with the other end of the first side longitudinal beam, and the other end of the transverse lower inhaul cable is connected with the other end of the second side longitudinal beam; the connecting rod is connected between the transverse inhaul cable and the transverse inhaul cable; a first lower stay cable is connected between the connecting rod and the first side upright post, and a second lower stay cable is connected between the connecting rod and the second side upright post. The utility model provides a bearing structure, stable in structure can resist the wind load of direction that makes progress.

Description

Supporting structure of flexible photovoltaic support

Technical Field

The application relates to the technical field of solar photovoltaic, in particular to a supporting structure of a flexible photovoltaic support.

Background

The flexible photovoltaic support is composed of a flexible bearing cable, a steel upright post, a steel inclined post or a stay cable, a steel beam and the like, and has the advantages of simple structure, less material use, light weight, short construction period and the like. The bearing cable of the tension cable is made of flexible rod pieces such as steel strands, the structure has the advantages of large elastic modulus, high strength and the like, and large-span tensioning can be performed, so that adverse factors such as fluctuation of a field are avoided. However, the flexible photovoltaic support has a certain problem in practical use, and because the photovoltaic modules are connected in series by steel strands and have higher rigidity only in the axial direction, horizontal and torsional movement is easy to occur under the action of wind load. And the randomness of wind load caused by the instability of fluid movement requires that the photovoltaic bracket can resist the load in the upper and lower directions. The current flexible support solution only considers vertical downward loads, and when upward wind loads are generated, the structure is prone to vibration instability.

SUMMERY OF THE UTILITY MODEL

In view of this, the present application provides a supporting structure of a flexible photovoltaic support, which is used to solve the problem that the flexible photovoltaic support is difficult to resist the upward load due to the randomness of wind load in the prior art.

To achieve one or part or all of the above or other objects, the present application provides a support structure of a flexible photovoltaic support, the support structure comprising: the transverse stay cable, the transverse lower stay cable, the first side upright column, the second side upright column, the first side longitudinal beam, the second side longitudinal beam, the connecting rod, the first lower stay cable and the second lower inclined stay cable; wherein,

the top of the first side upright post is connected with the first side longitudinal beam, and the top of the second side upright post is connected with the second side longitudinal beam; one end of the transverse inhaul cable is connected with one end of the first side longitudinal beam, the other end of the transverse inhaul cable is connected with one end of the second side longitudinal beam, one end of the transverse lower inhaul cable is connected with the other end of the first side longitudinal beam, and the other end of the transverse lower inhaul cable is connected with the other end of the second side longitudinal beam; the connecting rod is connected between the transverse inhaul cable and the transverse inhaul cable;

and a first lower stay cable is connected between the connecting rod and the first side upright post, and a second lower stay cable is connected between the connecting rod and the second side upright post.

Further, the support structure further comprises: the first stabilizing brace rod, the second stabilizing brace rod and the lower bearing rope are arranged on the supporting frame;

one end of the lower bearing cable is connected with the first side upright post, and the other end of the lower bearing cable is connected with the second side upright post; the first stabilizing brace is arranged between the first side longitudinal beam and the connecting rod, and the second stabilizing brace is arranged between the second side longitudinal beam and the connecting rod; the first stabilizing support rod is sequentially connected with the transverse inhaul cable, the transverse lower inhaul cable and the lower bearing cable, and the second stabilizing support rod is sequentially connected with the transverse inhaul cable, the transverse lower inhaul cable and the lower bearing cable.

Further, the support structure further comprises: the first side pull rod, the second side pull rod, the third side pull rod and the fourth side pull rod; wherein,

the first side pull rod is connected with one end of the first side longitudinal beam, and the second side pull rod is connected with the other end of the first side longitudinal beam;

the third side pull rod is connected with one end of the second side longitudinal beam, and the fourth side pull rod is connected with the other end of the second side longitudinal beam.

Furthermore, the first side pull rod, the second side pull rod, the third side pull rod and the fourth side pull rod are all finish-rolled deformed steel bars.

Further, the transverse inhaul cable, the transverse lower inhaul cable, the first lower inclined inhaul cable and the second lower inclined inhaul cable are made of steel strands or high-strength steel wires.

Further, the support structure further comprises: a plurality of springs; the transverse inhaul cable is connected with the first side longitudinal beam and the second side longitudinal beam through springs, the transverse lower inhaul cable is connected with the first side longitudinal beam and the second side longitudinal beam through springs, the first lower inclined inhaul cable is connected with the first side upright post through a spring, and the second lower inclined inhaul cable is connected with the second side upright post through a spring.

Furthermore, the position where the lower bearing cable is connected with the first side upright is the top of the first side upright, and the position where the lower bearing cable is connected with the second side upright is the top of the second side upright; the position where the first lower stay cable is connected with the first side upright post is the bottom of the first side upright post, and the position where the second lower stay cable is connected with the second side upright post is the bottom of the second side upright post.

Furthermore, the first stabilizing support rod is a triangular structure formed by sequentially connecting three rods, and three end points of the triangular structure are respectively connected with the transverse inhaul cable, the transverse lower inhaul cable and the lower bearing cable; the second stabilizing support rod is a triangular structure formed by sequentially connecting three rods, and three end points of the triangular structure are respectively connected with the transverse inhaul cable, the transverse lower inhaul cable and the lower bearing cable.

To achieve one or part or all of the above or other objects, the present application provides a support structure of a flexible photovoltaic support, including: the transverse stay cable, the transverse lower stay cable, the first side upright column, the second side upright column, the middle upright column, the first side longitudinal beam, the second side longitudinal beam, the middle longitudinal beam, the first connecting rod, the second connecting rod, the first lower bearing cable, the second lower bearing cable, the third lower inclined stay cable, the fourth lower inclined stay cable, the fifth lower inclined stay cable, the sixth lower inclined stay cable, the third stabilizing stay cable, the fourth stabilizing stay cable, the fifth stabilizing stay cable and the sixth stabilizing stay cable are arranged in the transverse direction; wherein,

the top of the first side upright post is connected with the first side longitudinal beam, the top of the second side upright post is connected with the second side longitudinal beam, and the top of the middle upright post is connected with the middle longitudinal beam;

one end of the transverse inhaul cable is connected with one end of the first side longitudinal beam, the other end of the transverse inhaul cable is connected with one end of the second side longitudinal beam, one end of the transverse lower inhaul cable is connected with the other end of the first side longitudinal beam, the other end of the transverse lower inhaul cable is connected with the other end of the second side longitudinal beam, one end of the middle longitudinal beam is connected with the transverse inhaul cable, and the other end of the middle longitudinal beam is connected with the transverse lower inhaul cable;

a first connecting rod is arranged between the first side upright and the middle upright, and a second connecting rod is arranged between the second side upright and the middle upright; one end of each of the first connecting rod and the second connecting rod is connected with a transverse inhaul cable, and the other end of each of the first connecting rod and the second connecting rod is connected with a transverse lower inhaul cable;

a third downward inclined guy cable is connected between the first side upright post and the connecting rod adjacent to the first side upright post, a fourth downward inclined guy cable is connected between the second side upright post and the connecting rod adjacent to the second side upright post, and a fifth downward inclined guy cable and a sixth downward inclined guy cable are respectively connected between the middle upright post and the connecting rod adjacent to the middle upright post;

a first lower bearing cable is connected between the top of the first side upright and the top of the middle upright, and a second lower bearing cable is connected between the top of the second side upright and the top of the middle upright;

the third stabilizing strut is arranged between the first side longitudinal beam and the first connecting rod, the fourth stabilizing strut is arranged between the second side longitudinal beam and the second connecting rod, the fifth stabilizing strut is arranged between the middle longitudinal beam and the first connecting rod, and the sixth stabilizing strut is arranged between the middle longitudinal beam and the second connecting rod;

the third stabilizing brace is sequentially connected with the transverse inhaul cable, the transverse lower inhaul cable and the first lower bearing cable, the fourth stabilizing brace is sequentially connected with the transverse inhaul cable, the transverse lower inhaul cable and the second lower bearing cable, the fifth stabilizing brace is sequentially connected with the transverse inhaul cable, the transverse lower inhaul cable and the first lower bearing cable, and the sixth stabilizing brace is sequentially connected with the transverse inhaul cable, the transverse lower inhaul cable and the second lower bearing cable.

To achieve one or part or all of the above or other objects, the present application also proposes a support structure of a flexible photovoltaic support, the support structure comprising: the device comprises a transverse inhaul cable, a transverse lower inhaul cable, a plurality of upright columns, longitudinal beams with the same number as the upright columns, a plurality of connecting rods, a plurality of lower bearing cables, a plurality of lower inclined inhaul cables and a plurality of stable support rods; wherein,

the top of any upright post is connected with the longitudinal beam; the transverse inhaul cable is sequentially connected with one ends of all the longitudinal beams, and the transverse lower inhaul cable is sequentially connected with the other ends of all the longitudinal beams;

the connecting rod is arranged between any two upright posts; one end of any connecting rod is connected with a transverse inhaul cable, and the other end of the connecting rod is connected with a transverse lower inhaul cable; a lower stay cable is connected between any connecting rod and the upright column adjacent to the connecting rod;

a lower bearing cable is connected between the tops of any two adjacent upright columns;

at least one stabilizing brace rod is arranged between any connecting rod and the longitudinal beam adjacent to the connecting rod, and any stabilizing brace rod is sequentially connected with the transverse inhaul cable, the transverse lower inhaul cable and the lower bearing cable.

The embodiment of the application has the following beneficial effects:

the utility model provides a bearing structure of flexible photovoltaic support through setting up oblique cable down for the wind load from bottom to top can be resisted to the structure, through setting up stabilizing brace rod and lower bearing cable, will stabilize the brace rod again and transversely the cable, transversely cable and lower bearing cable connect gradually, make bearing structure can resist the wind load of upward direction, above-mentioned structural arrangement makes whole bearing structure overall structure stable.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Wherein:

fig. 1 is a schematic structural view of a support structure of a flexible photovoltaic support according to an embodiment of the present application;

fig. 2 is a schematic structural view of a support structure of a flexible photovoltaic support according to an embodiment of the present application after installation of a photovoltaic panel.

Reference numerals:

1. a transverse stay cable; 2. a transverse lower cable; 3. a first side column; 4. a second side column; 5. a first side rail; 6. a second side stringer; 7. a connecting rod; 8. a first lower stay cable; 9. a second underlisting cable; 10. a lower bearing cable; 11. a first stabilizing strut; 12. a second stabilizing strut; 13. a first side pull rod; 14. a second side pull rod; 15. a third side pull rod; 16. the fourth side pull rod.

Detailed Description

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used in the description of the application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the terms "including" and "having," and any variations thereof, in the description and claims of this application and the description of the above figures are intended to cover non-exclusive inclusions. The terms "first," "second," and the like in the description and claims of this application or in the above-described drawings are used for distinguishing between different objects and not for describing a particular order.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings.

With reference to fig. 1 and 2, a first embodiment of the present application proposes a support structure of a flexible photovoltaic support, the support structure comprising: the device comprises a transverse stay cable 1, a transverse lower stay cable 2, a first side upright 3, a second side upright 4, a first side longitudinal beam 5, a second side longitudinal beam 6, a connecting rod 7, a first lower stay cable 8 and a second lower inclined stay cable 9; wherein,

the top of the first side upright post 3 is connected with the first side longitudinal beam 5, and the top of the second side upright post 4 is connected with the second side longitudinal beam 6; one end of the transverse inhaul cable 1 is connected with one end of the first side longitudinal beam 5, the other end of the transverse inhaul cable 1 is connected with one end of the second side longitudinal beam 6, one end of the transverse lower inhaul cable 2 is connected with the other end of the first side longitudinal beam 5, and the other end of the transverse lower inhaul cable 2 is connected with the other end of the second side longitudinal beam 6; the connecting rod 7 is connected between the transverse inhaul cable 1 and the transverse inhaul cable 2;

a first lower stay cable 8 is connected between the connecting rod 7 and the first side upright 3, and a second lower stay cable 9 is connected between the connecting rod 7 and the second side upright 4.

In this embodiment, the connecting rod 7 is preferably disposed right in the middle between the first side column 3 and the second side column 4, that is, the distance from the connecting rod 7 to the first side column 3 is equal to the distance from the connecting rod 7 to the second side column 4, the connecting rod 7 and the first side column 3 are connected by disposing the first lower stay 8, and the connecting rod 7 and the second side column 4 are connected by disposing the second lower stay 9.

To the above-mentioned support structure of flexible photovoltaic support, this application also proposes a second embodiment, wherein, the support structure further includes: a first stabilizing brace 11, a second stabilizing brace 12 and a lower bearing cable 10;

one end of the lower bearing cable 10 is connected with the first side upright post 3, and the other end is connected with the second side upright post 4; the first stabilizer stay 11 is disposed between the first side member 5 and the connecting rod 7, and the second stabilizer stay 12 is disposed between the second side member 6 and the connecting rod 7; the first stabilizing stay 11 is sequentially connected with a transverse inhaul cable 1, a transverse lower inhaul cable 2 and the lower bearing cable 10, and the second stabilizing stay 12 is sequentially connected with the transverse inhaul cable 1, the transverse lower inhaul cable 2 and the lower bearing cable 10.

In this embodiment, the first stabilizer bar 11 and the second stabilizer bar 12 are both a structure connected by a plurality of bars, and the structure may be a triangular frame or a triangular plate with a honeycomb mechanism, and since the sides of the three sides are fixed, the shape of the triangle is unique and will not deform. The first stabilizing support rod 11 is fastened with the transverse stay rope 1, the transverse lower stay rope 2 and the lower bearing rope 10, the second stabilizing support rod 12 is fastened with the transverse stay rope 1, the transverse lower stay rope 2 and the lower bearing rope 10, and under the action of the first lower stay rope 8 and the second lower inclined stay rope 9, the structural deflection is reduced, the overall stability of the structure is ensured, and the structure is not easy to vibrate and destabilize no matter wind load from bottom to top or wind load from top to bottom is generated.

To the above-mentioned support structure of flexible photovoltaic support, this application also proposes a third embodiment, wherein the support structure further comprises: a first side link 13, a second side link 14, a third side link 15, and a fourth side link 16; wherein,

the first side pull rod 13 is connected with one end of the first side longitudinal beam 5, and the second side pull rod 14 is connected with the other end of the first side longitudinal beam 5;

the third side pull rod 15 is connected with one end of the second side longitudinal beam 6, and the fourth side pull rod 16 is connected with the other end of the second side longitudinal beam 6.

In the present embodiment, the first side link 13, the second side link 14, the third side link 15, and the fourth side link 16 serve to balance the tension of the first side column 3 and the second side column 4, and resist wind pressure to prevent the side columns from falling.

To the above-mentioned support structure of flexible photovoltaic support, the present application further provides a fourth embodiment, wherein, first side pull rod 13, second side pull rod 14, third side pull rod 15 and fourth side pull rod 16 are finish rolling screw-thread steel.

To the bearing structure of above-mentioned flexible photovoltaic support, this application still provides the fifth embodiment, and wherein, horizontal cable 1, horizontal cable 2, first cable 8 and the second cable 9 that inclines down are made for steel strand wires or high strength steel wire down.

To the above-mentioned support structure of flexible photovoltaic support, this application also proposes a sixth embodiment, wherein the support structure further comprises: a plurality of springs; the transverse stay cable 1 is connected with the first side longitudinal beam 5 and the second side longitudinal beam 6 through springs, the transverse lower stay cable 2 is connected with the first side longitudinal beam 5 and the second side longitudinal beam 6 through springs, the first lower stay cable 8 is connected with the first side upright post 3 through a spring, and the second lower inclined stay cable 9 is connected with the second side upright post 4 through a spring.

In this embodiment, a connecting ring may be anchored at each of the positions where the first side member 5 and the second side member 6 are connected to the cables (including the lateral lower cable 1 and the lateral lower cable 2), and a connecting ring may be anchored at each of the positions where the first side pillar 3 and the second side pillar 4 are connected, and then the first lower stay cable 8 is connected to the first side pillar 3 using a spring, and the second lower stay cable 9 is connected to the second side pillar 4 using a spring.

In view of the above supporting structure of the flexible photovoltaic support, the present application also proposes a seventh embodiment, wherein the position where the lower bearing cable 10 is connected to the first side column 3 is the top of the first side column 3, and the position where the lower bearing cable 10 is connected to the second side column 4 is the top of the second side column 4; the position where the first lower stay cable 8 is connected to the first side column 3 is the bottom of the first side column 3, and the position where the second lower stay cable 9 is connected to the second side column 4 is the bottom of the second side column 4.

Aiming at the supporting structure of the flexible photovoltaic bracket, the application also provides an eighth embodiment, wherein the first stabilizing supporting rod 11 is a triangular structure formed by sequentially connecting three rods, and three end points of the triangular structure are respectively connected with a transverse inhaul cable 1, a transverse lower inhaul cable 2 and a lower bearing cable 10; the second stabilizing brace 12 is a triangular structure formed by sequentially connecting three bars, and three end points of the triangular structure are respectively connected with the transverse inhaul cable 1, the transverse inhaul cable 2 and the lower bearing cable 10.

In the seventh and eighth embodiments, the positions where the lower bearing rope 10 is connected with the first side column 3 and the lower bearing rope 10 is connected with the second side column 4 are preferably the top parts of the first side column 3 and the second side column 4; the first and second stabilizing struts 11 and 12 are preferably triangular structures in which three rods are connected in sequence; after the three end points of the triangular structure are respectively connected with the transverse inhaul cable 1, the transverse lower inhaul cable 2 and the lower bearing cable 10, the lower bearing cable 10 shares downward load. In addition, the lower bearing cable 10 can evenly share the downward load, and the number of the first stabilizing brace 11 and the second stabilizing brace 12 can be uniformly set according to the distance between the two uprights, for example, one first stabilizing brace 11 or one second stabilizing brace 12 is set every 2-5 meters (such as 2.5 meters, 3 meters, etc.).

This application ninth embodiment still provides a bearing structure of flexible photovoltaic support, and bearing structure includes: the transverse bracing cable comprises a transverse bracing cable 1, a transverse lower bracing cable 2, a first side upright column 3, a second side upright column 4, a middle upright column, a first side longitudinal beam 5, a second side longitudinal beam 6, a middle longitudinal beam, a first connecting rod, a second connecting rod, a first lower bearing cable, a second lower bearing cable, a third lower inclined bracing cable, a fourth lower inclined bracing cable, a fifth lower inclined bracing cable, a sixth lower inclined bracing cable, a third stabilizing bracing cable, a fourth stabilizing bracing cable, a fifth stabilizing bracing cable and a sixth stabilizing bracing cable; wherein,

the top of the first side upright 3 is connected with the first side longitudinal beam 5, the top of the second side upright 4 is connected with the second side longitudinal beam 6, and the top of the middle upright is connected with the middle longitudinal beam;

one end of the transverse inhaul cable 1 is connected with one end of the first side longitudinal beam 5, the other end of the transverse inhaul cable 1 is connected with one end of the second side longitudinal beam 6, one end of the transverse lower inhaul cable 2 is connected with the other end of the first side longitudinal beam 5, the other end of the transverse lower inhaul cable 2 is connected with the other end of the second side longitudinal beam 6, one end of the middle longitudinal beam is connected with the transverse inhaul cable 1, and the other end of the middle longitudinal beam is connected with the transverse lower inhaul cable 2;

a first connecting rod is arranged between the first side upright 3 and the middle upright, and a second connecting rod is arranged between the second side upright 4 and the middle upright; one end of each of the first connecting rod and the second connecting rod is connected with a transverse inhaul cable 1, and the other end of each of the first connecting rod and the second connecting rod is connected with a transverse lower inhaul cable 2;

a third downward inclined guy cable is connected between the first side upright post 3 and the first connecting rod, a fourth downward inclined guy cable is connected between the second side upright post 4 and the second connecting rod, a fifth downward inclined guy cable is connected between the middle upright post and the first connecting rod, and a sixth downward inclined guy cable is connected between the middle upright post and the second connecting rod;

a first lower bearing cable is connected between the top of the first side upright 3 and the top of the middle upright, and a second lower bearing cable is connected between the top of the second side upright 4 and the top of the middle upright;

the third stabilizing strut is arranged between the first side longitudinal beam 5 and the first connecting rod, the fourth stabilizing strut is arranged between the second side longitudinal beam 6 and the second connecting rod, the fifth stabilizing strut is arranged between the middle longitudinal beam and the first connecting rod, and the sixth stabilizing strut is arranged between the middle longitudinal beam and the second connecting rod;

the third stabilizing strut is sequentially connected with the transverse inhaul cable 1, the transverse inhaul cable 2 and the first lower bearing cable, the fourth stabilizing strut is sequentially connected with the transverse inhaul cable 1, the transverse inhaul cable 2 and the second lower bearing cable, the fifth stabilizing strut is sequentially connected with the transverse inhaul cable 1, the transverse inhaul cable 2 and the first lower bearing cable, and the sixth stabilizing strut is sequentially connected with the transverse inhaul cable 1, the transverse inhaul cable 2 and the second lower bearing cable.

This tenth embodiment of this application still provides a bearing structure of flexible photovoltaic support, and bearing structure includes: the device comprises a transverse inhaul cable 1, a transverse lower inhaul cable 2, a plurality of upright columns, longitudinal beams with the same number as the upright columns, a plurality of connecting rods, a plurality of lower bearing cables, a plurality of lower inclined inhaul cables and a plurality of stable support rods; wherein,

the top of any upright post is connected with the longitudinal beam; the transverse inhaul cable 1 is sequentially connected with one ends of all the longitudinal beams, and the transverse down-inhaul cable 2 is sequentially connected with the other ends of all the longitudinal beams;

the connecting rod is arranged between any two upright posts; one end of any connecting rod is connected with a transverse inhaul cable 1, and the other end of the connecting rod is connected with a transverse inhaul cable 2; a lower stay cable is connected between any connecting rod and the upright column adjacent to the connecting rod;

a lower bearing cable is connected between the tops of any two adjacent upright columns;

and at least one stabilizing support rod is arranged between any connecting rod and the longitudinal beam adjacent to the connecting rod, and any stabilizing support rod is sequentially connected with the transverse inhaul cable 1, the transverse lower inhaul cable 2 and the lower bearing cable.

It is to be understood that the above-described embodiments are merely illustrative of some, but not restrictive, of the broad invention, and that the appended drawings illustrate preferred embodiments of the invention and do not limit the scope of the invention. This application is capable of embodiments in many different forms and is provided for the purpose of enabling a thorough understanding of the disclosure of the application. Although the present application has been described in detail with reference to the foregoing embodiments, it will be apparent to one skilled in the art that the present application may be practiced without modification or with equivalents of some of the features described in the foregoing embodiments. All equivalent structures made by using the contents of the specification and the drawings of the present application are directly or indirectly applied to other related technical fields and are within the protection scope of the present application.

Claims (10)

1. A support structure for a flexible photovoltaic support, the support structure comprising: the transverse stay cable, the transverse lower stay cable, the first side upright column, the second side upright column, the first side longitudinal beam, the second side longitudinal beam, the connecting rod, the first lower stay cable and the second lower inclined stay cable; wherein,

the top of the first side upright post is connected with the first side longitudinal beam, and the top of the second side upright post is connected with the second side longitudinal beam; one end of the transverse inhaul cable is connected with one end of the first side longitudinal beam, the other end of the transverse inhaul cable is connected with one end of the second side longitudinal beam, one end of the transverse lower inhaul cable is connected with the other end of the first side longitudinal beam, and the other end of the transverse lower inhaul cable is connected with the other end of the second side longitudinal beam; the connecting rod is connected between the transverse inhaul cable and the transverse inhaul cable;

and a first lower stay cable is connected between the connecting rod and the first side upright post, and a second lower stay cable is connected between the connecting rod and the second side upright post.

2. The support structure of a flexible photovoltaic rack according to claim 1, further comprising: the first stabilizing brace rod, the second stabilizing brace rod and the lower bearing rope are arranged on the supporting frame;

one end of the lower bearing cable is connected with the first side upright post, and the other end of the lower bearing cable is connected with the second side upright post; the first stabilizing brace is arranged between the first side longitudinal beam and the connecting rod, and the second stabilizing brace is arranged between the second side longitudinal beam and the connecting rod; the first stabilizing support rod is sequentially connected with the transverse inhaul cable, the transverse lower inhaul cable and the lower bearing cable, and the second stabilizing support rod is sequentially connected with the transverse inhaul cable, the transverse lower inhaul cable and the lower bearing cable.

3. The support structure of a flexible photovoltaic rack according to claim 1, further comprising: the first side pull rod, the second side pull rod, the third side pull rod and the fourth side pull rod; wherein,

the first side pull rod is connected with one end of the first side longitudinal beam, and the second side pull rod is connected with the other end of the first side longitudinal beam;

the third side pull rod is connected with one end of the second side longitudinal beam, and the fourth side pull rod is connected with the other end of the second side longitudinal beam.

4. The support structure of a flexible photovoltaic stent of claim 3, wherein the first, second, third and fourth side tie bars are finish rolled deformed steel.

5. The support structure of a flexible photovoltaic support according to claim 1, wherein the lateral stay, the lateral underbridge, the first underbridge and the second underbridge are made of steel strands or high-strength steel wires.

6. The support structure of a flexible photovoltaic rack according to claim 1, further comprising: a plurality of springs; the transverse inhaul cable is connected with the first side longitudinal beam and the second side longitudinal beam through springs, the transverse lower inhaul cable is connected with the first side longitudinal beam and the second side longitudinal beam through springs, the first lower inclined inhaul cable is connected with the first side upright post through a spring, and the second lower inclined inhaul cable is connected with the second side upright post through a spring.

7. The support structure of a flexible photovoltaic rack according to claim 2, wherein the position where the lower bearing cable is connected to the first side column is the top of the first side column, and the position where the lower bearing cable is connected to the second side column is the top of the second side column; the position where the first lower stay cable is connected with the first side upright post is the bottom of the first side upright post, and the position where the second lower stay cable is connected with the second side upright post is the bottom of the second side upright post.

8. The support structure of a flexible photovoltaic support according to claim 2, wherein the first stabilizing brace is a triangular structure formed by connecting three rods in sequence, and three end points of the triangular structure are respectively connected with the transverse stay, the transverse downdraft cable and the lower bearing cable; the second stabilizing support rod is a triangular structure formed by sequentially connecting three rods, and three end points of the triangular structure are respectively connected with the transverse inhaul cable, the transverse lower inhaul cable and the lower bearing cable.

9. A support structure for a flexible photovoltaic support, the support structure comprising: the transverse stay cable, the transverse lower stay cable, the first side upright column, the second side upright column, the middle upright column, the first side longitudinal beam, the second side longitudinal beam, the middle longitudinal beam, the first connecting rod, the second connecting rod, the first lower bearing cable, the second lower bearing cable, the third lower inclined stay cable, the fourth lower inclined stay cable, the fifth lower inclined stay cable, the sixth lower inclined stay cable, the third stabilizing stay cable, the fourth stabilizing stay cable, the fifth stabilizing stay cable and the sixth stabilizing stay cable are arranged in the transverse direction; wherein,

the top of the first side upright post is connected with the first side longitudinal beam, the top of the second side upright post is connected with the second side longitudinal beam, and the top of the middle upright post is connected with the middle longitudinal beam;

one end of the transverse inhaul cable is connected with one end of the first side longitudinal beam, the other end of the transverse inhaul cable is connected with one end of the second side longitudinal beam, one end of the transverse lower inhaul cable is connected with the other end of the first side longitudinal beam, the other end of the transverse lower inhaul cable is connected with the other end of the second side longitudinal beam, one end of the middle longitudinal beam is connected with the transverse inhaul cable, and the other end of the middle longitudinal beam is connected with the transverse lower inhaul cable;

a first connecting rod is arranged between the first side upright and the middle upright, and a second connecting rod is arranged between the second side upright and the middle upright; one end of each of the first connecting rod and the second connecting rod is connected with a transverse inhaul cable, and the other end of each of the first connecting rod and the second connecting rod is connected with a transverse lower inhaul cable;

a third downward inclined inhaul cable is connected between the first side upright column and the first connecting rod, a fourth downward inclined inhaul cable is connected between the second side upright column and the second connecting rod, a fifth downward inclined inhaul cable is connected between the middle upright column and the first connecting rod, and a sixth downward inclined inhaul cable is connected between the middle upright column and the second connecting rod;

a first lower bearing cable is connected between the top of the first side upright and the top of the middle upright, and a second lower bearing cable is connected between the top of the second side upright and the top of the middle upright;

the third stabilizing strut is arranged between the first side longitudinal beam and the first connecting rod, the fourth stabilizing strut is arranged between the second side longitudinal beam and the second connecting rod, the fifth stabilizing strut is arranged between the middle longitudinal beam and the first connecting rod, and the sixth stabilizing strut is arranged between the middle longitudinal beam and the second connecting rod;

the third stabilizing brace is sequentially connected with the transverse inhaul cable, the transverse lower inhaul cable and the first lower bearing cable, the fourth stabilizing brace is sequentially connected with the transverse inhaul cable, the transverse lower inhaul cable and the second lower bearing cable, the fifth stabilizing brace is sequentially connected with the transverse inhaul cable, the transverse lower inhaul cable and the first lower bearing cable, and the sixth stabilizing brace is sequentially connected with the transverse inhaul cable, the transverse lower inhaul cable and the second lower bearing cable.

10. A support structure for a flexible photovoltaic support, the support structure comprising: the device comprises a transverse inhaul cable, a transverse lower inhaul cable, a plurality of upright columns, longitudinal beams with the same number as the upright columns, a plurality of connecting rods, a plurality of lower bearing cables, a plurality of lower inclined inhaul cables and a plurality of stable support rods; wherein,

the top of any upright post is connected with the longitudinal beam; the transverse inhaul cable is sequentially connected with one ends of all the longitudinal beams, and the transverse lower inhaul cable is sequentially connected with the other ends of all the longitudinal beams;

the connecting rod is arranged between any two upright posts; one end of any connecting rod is connected with a transverse inhaul cable, and the other end of the connecting rod is connected with a transverse lower inhaul cable; a lower stay cable is connected between any connecting rod and the upright column adjacent to the connecting rod;

a lower bearing cable is connected between the tops of any two adjacent upright columns;

at least one stabilizing brace rod is arranged between any connecting rod and the longitudinal beam adjacent to the connecting rod, and any stabilizing brace rod is sequentially connected with the transverse inhaul cable, the transverse lower inhaul cable and the lower bearing cable.

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