CN221042709U - Flexible bicycle shed photovoltaic supporting structure - Google Patents

Abstract

The utility model discloses a flexible shed photovoltaic support structure, which comprises a plurality of rows of flexible photovoltaic supports, wherein the rows of flexible photovoltaic supports are used for lifting, hanging and tensioning steel strands, and a photovoltaic panel is installed on the basis of the steel strands; each row of flexible photovoltaic supports comprises a plurality of supporting columns which are arranged at intervals along the length direction of the supporting columns, steel strands are fixed between the tops of two adjacent supporting columns, a plurality of photovoltaic panel supports are fixed at intervals along the length direction of the steel strands of the plurality of rows of flexible photovoltaic supports, a plurality of photovoltaic panels which are arranged front and back are fixed between the two adjacent photovoltaic panel supports, and a waterproof groove seat for sealing a gap between the two adjacent photovoltaic panels is fixed between the two adjacent photovoltaic panels; the left side, the right side, the front side and the back side of the multi-row flexible photovoltaic support are respectively provided with an anchoring structure for stretching the steel strands. The shed roof composed of a plurality of photovoltaic panels can effectively absorb illumination, meanwhile, vehicles in the shed are prevented from being subjected to rain, ventilation performance of the shed is guaranteed, and power generation efficiency is high.

Description

Flexible bicycle shed photovoltaic supporting structure

Technical Field

The utility model relates to the technical field of photovoltaic equipment, in particular to a flexible shed photovoltaic support structure.

Background

At present, the construction of the photovoltaic project is greatly promoted by the state, the construction of the photovoltaic power stations at home and abroad often adopts the structural form of a traditional bracket, namely, a space bracket with a triangular steel structure is adopted as the basis of the photovoltaic power station, and then the densely distributed land piles with small span form the basic framework structure of the photovoltaic power station. The photovoltaic power station structure causes the waste of land and natural resources, and due to the fact that gentle land resources suitable for building the photovoltaic power station are more and more limited, the structure of the small-span flexible photovoltaic power station bracket cannot solve the current problems of the terrain and the environment. Especially, as urban vehicles increase, the demand of parking spaces increases, so that a large amount of new sheds are required to be built to meet the parking requirements, but due to the structural limitation of the photovoltaic support, the photovoltaic devices are difficult to be arranged on the sheds in a quantity-maximized mode, and the arrangement space of a large number of photovoltaic devices is wasted.

Therefore, it is desirable to design a photovoltaic support structure for a shed to maximize the number and area of photovoltaic devices disposed without affecting parking.

Disclosure of utility model

The utility model aims to solve the defects of the background technology and provide the flexible shed photovoltaic support structure which does not influence parking and maximally meets the arrangement requirements of photovoltaic equipment.

The flexible shed photovoltaic support structure comprises a plurality of rows of flexible photovoltaic supports, wherein the rows of flexible photovoltaic supports are used for lifting, hanging and tensioning steel strands and are used for installing photovoltaic panels on the basis of the steel strands; each row of flexible photovoltaic brackets comprises a plurality of supporting columns which are arranged at intervals along the length direction of the flexible photovoltaic brackets, the steel strands are fixed between the tops of two adjacent supporting columns, a plurality of photovoltaic panel brackets are fixed on a plurality of rows of the steel strands of the flexible photovoltaic brackets at intervals along the length direction of the flexible photovoltaic brackets, a plurality of photovoltaic panels which are arranged front and back are fixed between two adjacent photovoltaic panels, and a waterproof groove seat for blocking a gap between two adjacent photovoltaic panels is fixed between the two adjacent photovoltaic panels; the left side, the right side, the front side and the rear side of the flexible photovoltaic support are provided with anchoring structures for stretching the steel strands. The anchoring structure may be an anchor disc structure buried underground, and is an existing device, and the structure is not repeated.

Further, the photovoltaic board support includes the support backup pad, the last fixed surface of support backup pad is connected with and is used for installing and fix the photovoltaic board fixed bolster of photovoltaic board, the lower fixed surface of support backup pad is connected with the steel strand wires fixed bolster, the steel strand wires can pass and detachable be fixed in the steel strand wires fixed bolster.

Further, the waterproof groove seat comprises a groove seat bottom plate, a groove seat straight plate and a groove seat top plate, wherein the groove seat bottom plate is arranged along the direction perpendicular to the support plate of the support, the groove seat straight plate is vertically fixed on the upper surface of the middle part of the groove seat bottom plate and is arranged along the length direction of the groove seat bottom plate, the groove seat top plate is vertically and fixedly connected to the front side and the rear side of the top of the groove seat straight plate, and one end of the groove seat straight plate is inserted into the photovoltaic plate support and supported on the support plate of the support; the front or rear part of the photovoltaic panel is fixed in a space surrounded by the groove seat top plate, the groove seat straight plate and the groove seat bottom plate.

Further, the photovoltaic panel fixing support comprises two photovoltaic panel fixing support straight plates which are vertically fixed on the left side and the right side of the upper surface of the support supporting plate and are arranged along the length direction of the support supporting plate, and the top of each photovoltaic panel fixing support straight plate is vertically and fixedly connected with a photovoltaic panel fixing support transverse plate which extends to the outer side of the support supporting plate; the support supporting plate, the photovoltaic plate fixing support straight plate and the photovoltaic plate fixing support transverse plate enclose a light Fu Banka connecting groove which can be clamped and matched with the side part of the photovoltaic plate; and the support supporting plate is detachably fixed with a photovoltaic panel fixing assembly used for fixing the photovoltaic panel in the light Fu Banka connecting groove.

Further, the photovoltaic panel fixing assembly comprises a photovoltaic panel clamping component which is matched with the outer side part of the support plate of the support, can clamp the bottom of the photovoltaic panel with the outer side part of the support plate of the support, and a photovoltaic panel locking component which is matched with the photovoltaic panel clamping component, can fix the photovoltaic panel in the photovoltaic panel clamping component; the photovoltaic panel clamping component is a U-shaped clamping plate, and the outer side part of the support supporting plate is positioned in a U-shaped groove of the U-shaped clamping plate; the photovoltaic board locking part comprises an upper layer of clamping plate and a lower layer of clamping plate which vertically penetrate through the U-shaped clamping plate, and a photovoltaic board locking bolt which is connected with the upper layer of clamping plate and the lower layer of clamping plate of the U-shaped clamping plate through threads.

Further, the steel strand fixing support comprises two steel strand fixing support plates which are vertically and fixedly connected to the left side and the right side of the bottom surface of the support plate and are arranged along the length direction of the support plate, and a steel strand fixing assembly used for fixing the steel strand is detachably fixed in the steel strand fixing support plates.

Further, the two steel strand fixing support plates are provided with a plurality of groups of component mounting grooves which are used for mounting the steel strand fixing components at intervals along the length direction of the two steel strand fixing support plates, the two steel strand fixing support plates comprise two component mounting grooves which are respectively arranged on the two steel strand fixing support plates and extend from the bottom surface of the steel strand fixing support plates to the bottom surface of the support plate, and the steel strand fixing components are detachably fixed in the component mounting grooves; the steel strand fixing assembly comprises an upper steel strand fixing support and a lower steel strand fixing support, wherein the upper steel strand fixing support is located in the assembly mounting groove, the lower steel strand fixing support is located below the steel strand fixing support plate, the top of the upper steel strand fixing support is detachably fixed on the support supporting plate, the width of the narrowest part of the lower steel strand fixing support is larger than the groove width of the assembly mounting groove, the lower steel strand fixing support is detachably fixed below the upper steel strand fixing support, and the upper steel strand fixing support and the lower steel strand fixing support enclose into a steel strand fixing groove for mounting and clamping the steel strand.

Further, the steel strand fixing brackets are provided with a plurality of bracket fixing holes at intervals along the length direction, and the tops of the supporting upright posts are fixedly connected with the bracket fixing holes through a first connecting structure or a second connecting structure.

Further, the first connecting structure comprises at least two pull wires, wherein two ends of one pull wire are detachably fixed in the top of the support upright post and the bracket fixing hole at the end part of the steel strand fixing bracket, and two ends of the other pull wire are detachably fixed in the top of the support upright post and the bracket fixing hole in the middle part of the steel strand fixing bracket.

Still further, the second connection structure includes at least one acting as go-between and at least one connective bar, the both ends of acting as go-between can be dismantled and be fixed in the top of stand and in the support fixed orifices of steel strand wires fixed bolster tip, connective bar's one end can be dismantled and be fixed in the upper portion of stand, the other end can be dismantled and be fixed in the support fixed orifices of steel strand wires fixed bolster middle part.

The beneficial effects of the utility model are as follows: the flexible shed photovoltaic support structure designed by the utility model provides bearing capacity for the photovoltaic panel support through the steel stranded wires, and the steel stranded wires with different section sizes can provide corresponding tensile strength according to engineering requirements. The photovoltaic panel support is connected with the support upright post through the pull wire and the connecting rod, and the influence of wind load on the photovoltaic panel is further reduced by means of the pull force provided by the pull wire and the connecting rod. Meanwhile, the gap between the front and rear adjacent photovoltaic plates is filled through the structure of the waterproof groove seat, and the roof of the shed formed by the plurality of photovoltaic plates effectively absorbs illumination, so that vehicles in the shed are prevented from being subjected to rain, the ventilation performance of the shed is ensured, and the power generation efficiency is high.

Drawings

FIG. 1 is a top view of a flexible shed photovoltaic support structure of the present utility model;

FIG. 2 is a front view of a flexible shed photovoltaic support structure of the present utility model;

FIG. 3 is a left side view of the flexible shed photovoltaic support structure of the present utility model;

FIG. 4 is a front view of the mounting structure of the photovoltaic panel bracket of the present utility model;

FIG. 5 is a bottom view of the mounting structure of the photovoltaic panel bracket of the present utility model;

FIG. 6 is a front view of a photovoltaic panel bracket of the present utility model;

FIG. 7 is a left side view of a photovoltaic panel bracket of the present utility model;

FIG. 8 is a schematic view of the photovoltaic panel of the present utility model mounted in a photovoltaic panel holder;

FIG. 9 is a top view of a fixing bracket on a steel strand according to the present utility model;

FIG. 10 is a front view of a fixing bracket on a steel strand according to the present utility model;

FIG. 11 is a left side view of a fixing bracket on a steel strand according to the present utility model;

FIG. 12 is a top view of a lower strand fixing bracket according to the present utility model;

FIG. 13 is a front view of a lifting bracket of the present utility model;

FIG. 14 is a left side view of the waterproof seat of the present utility model;

FIG. 15 is a top view of a waterproof seat according to the present utility model;

FIG. 16 is a schematic view of a photovoltaic panel mounted in a waterproof housing according to the present utility model;

FIG. 17 is a top view of a photovoltaic panel of the present utility model connected to a photovoltaic panel bracket and a waterproof socket;

FIG. 18 is a front view of a connecting rod of the present utility model;

FIG. 19 is a schematic view showing the structure of the support column of the present utility model fixed to the photovoltaic panel bracket by the first connecting structure;

FIG. 20 is a schematic view of a structure in which a support post is fixed to a photovoltaic panel bracket by a second connection structure;

FIG. 21 is a front view of the utility model with the post flange secured to the end plate of the pipe stake;

FIG. 22 is a cross-sectional view A-A of FIG. 21;

The device comprises a 1-supporting column, 2-steel strands, 3-photovoltaic panel supports (3.1-support plates, 3.2-photovoltaic panel fixing supports, 3.3-steel strand fixing supports), 4-photovoltaic panels, 5-waterproof groove bases (5.1-groove base plates, 5.2-groove base straight plates, 5.3-groove base top plates), 6-photovoltaic panel fixing support straight plates, 7-photovoltaic panel fixing support transverse plates, 8-light Fu Banka connecting grooves, 9-U-shaped clamping plates, 10-photovoltaic panel locking bolts, 11-steel strand fixing support plates, 12-component mounting grooves, 13-steel strand upper fixing supports, 14-steel strand lower fixing supports, 15-steel strand fixing grooves, 16-support fixing holes, 17-pull wires, 18-connecting rods, 19-connecting rod fixing holes, 20-hoops, 21-hoisting supports, 22-anchor piles, 23-end plates, 24-column flanges and 25-waist-shaped holes.

Detailed Description

The utility model will now be described in further detail with reference to the drawings and to specific examples.

The flexible shed photovoltaic support structure as shown in fig. 1-19 comprises a plurality of rows of flexible photovoltaic supports for lifting, suspending and tensioning the steel strands 2 and mounting the photovoltaic panels 4 on the basis of the steel strands 2; each row of flexible photovoltaic supports comprises a plurality of supporting columns 1 which are arranged at intervals along the length direction of the supporting columns, steel strands 2 are fixed between the tops of two adjacent supporting columns 1, a plurality of photovoltaic panel supports 3 are fixed at intervals along the length direction of the steel strands 2 of the plurality of rows of flexible photovoltaic supports, a plurality of photovoltaic panels 4 which are arranged front and back are fixed between the two adjacent photovoltaic panel supports 3, and a waterproof groove seat 5 for blocking a gap between the two adjacent photovoltaic panels 4 is fixed between the two adjacent photovoltaic panels 4; the left side, the right side, the front side and the back side of the multi-row flexible photovoltaic support are provided with anchoring structures for stretching the steel strands 2.

As shown in fig. 4-13, the photovoltaic panel bracket 3 comprises a bracket supporting plate 3.1, the upper surface of the bracket supporting plate 3.1 is fixedly connected with a photovoltaic panel fixing bracket 3.2 for installing and fixing the photovoltaic panel 4, the lower surface of the bracket supporting plate 3.1 is fixedly connected with a steel strand fixing bracket 3.3, and the steel strand 2 can pass through and be detachably fixed in the steel strand fixing bracket 3.3.

As shown in fig. 7-8, the photovoltaic panel fixing bracket 3.2 comprises two photovoltaic panel fixing bracket straight plates 6 vertically fixed on the left and right sides of the upper surface of the bracket supporting plate 3.1 and arranged along the length direction of the bracket supporting plate 3.1, and the top of each photovoltaic panel fixing bracket straight plate 6 is vertically and fixedly connected with a photovoltaic panel fixing bracket transverse plate 7 extending to the outer side of the bracket supporting plate; the support supporting plate 3.1, the photovoltaic panel fixing support straight plate 6 and the photovoltaic panel fixing support transverse plate 7 enclose a light Fu Banka connecting groove 8 which can be clamped and matched with the side part of the photovoltaic panel 4; the support plate 3.1 is detachably fixed with a photovoltaic panel fixing component for fixing the photovoltaic panel 4 in the light Fu Banka connecting groove 8. The photovoltaic panel fixing assembly comprises a U-shaped clamping plate 9 used for clamping the bottom of the photovoltaic panel 4 with the outer side portion of the support supporting plate 3.1, and a photovoltaic panel locking bolt 10 vertically penetrates through an upper layer of clamping plate and a lower layer of clamping plate of the U-shaped clamping plate 9 and is connected with the upper layer of clamping plate and the lower layer of clamping plate of the U-shaped clamping plate 9 through threads, so that the bottom clamp of the photovoltaic panel 4 is fastened in the U-shaped clamping plate 9.

As shown in fig. 7-8, the steel strand fixing support 3.3 includes two steel strand fixing support plates 11 vertically and fixedly connected to the left and right sides of the bottom surface of the support plate 3.1 and arranged along the length direction of the support plate 3.1, and a steel strand fixing assembly for fixing the steel strand 2 is detachably fixed in the steel strand fixing support plates 11. As shown in fig. 6, two steel strand fixing support plates 11 are provided with a plurality of groups of component mounting grooves 12 for mounting steel strand fixing components at intervals along the length direction thereof, each of the two groups of component mounting grooves 12 is formed in the two steel strand fixing support plates 11 and extends from the bottom surface of the steel strand fixing support plate 11 to the bottom surface of the support plate 3.1, and the steel strand fixing components are detachably fixed in the component mounting grooves 12. As shown in fig. 9-12, the steel strand fixing assembly comprises an upper steel strand fixing bracket 13 positioned in the assembly mounting groove 12 and a lower steel strand fixing bracket 14 positioned below the steel strand fixing bracket plate 11, the lifting bracket 21 is positioned above the bracket supporting plate 3.1, the width of the narrowest part of the lower steel strand fixing bracket 14 is larger than the groove width of the assembly mounting groove 12, the lower steel strand fixing bracket 14, the upper steel strand fixing bracket 13 and the lifting bracket 21 are detachably fixed through the U-shaped bolts, and the upper steel strand fixing bracket 13 and the lower steel strand fixing bracket 14 enclose a steel strand fixing groove 15 for mounting and clamping the steel strand 2: the U-shaped bolts are arranged on the lifting support 21 in a falling mode, bottoms of two ends of the U-shaped bolts penetrate through a bottom plate of the lifting support 21 and the support plate 3.1 and are connected with the steel strand upper fixing support 13 and the steel strand lower fixing support 14 in a threaded mode, and the steel strand 2 is locked in the steel strand fixing groove 15.

As shown in fig. 14 to 17, the waterproof tank base 5 comprises a tank base bottom plate 5.1 arranged along the direction vertical to the support plate 3.1 of the support, a tank base straight plate 5.2 vertically fixed on the upper surface of the middle part of the tank base bottom plate 5.1 and arranged along the length direction of the tank base bottom plate 5.1, and a tank base top plate 5.3 vertically fixedly connected to the front side and the rear side of the top of the tank base straight plate 5.2, wherein one end of the tank base straight plate 5.2 is inserted into the photovoltaic panel support 3 and supported on the support plate 3.1; the front or rear part of the photovoltaic panel 4 is fixed in a space enclosed by the groove seat top plate 5.3, the groove seat straight plate 5.2 and the groove seat bottom plate 5.1.

As shown in fig. 4, 6 and 19, the steel strand fixing brackets 3.3 are provided with a plurality of bracket fixing holes 16 at intervals along the length direction thereof, and the top of the supporting upright 1 can be connected and fixed with the bracket fixing holes 16 through a first connecting structure. The first connecting structure comprises two pull wires 17, wherein two ends of one pull wire 17 are detachably fixed in the support fixing holes 16 at the top of the support upright 1 and the end part of the steel strand fixing support 3.3, and two ends of the other pull wire 17 are detachably fixed in the support fixing holes 16 at the top of the support upright 1 and the middle part of the steel strand fixing support 3.3.

As shown in fig. 4, 6, 18 and 20, the strand fixing support 3.3 may also be connected and fixed to the support fixing hole 16 by a second connection structure. The second connection structure comprises a stay wire 17 and a connecting rod 18, wherein two ends of the stay wire 17 are detachably fixed in a support fixing hole 16 at the top of the support upright 1 and the end part of the steel strand fixing support 3.3, one end of the connecting rod 18 is detachably fixed on a hoop 20 at the upper part of the support upright 1 through a connecting rod fixing hole 19, and the other end of the connecting rod 18 is detachably fixed in a support fixing hole 16 in the middle part of the steel strand fixing support 3.3 through the connecting rod fixing hole 19.

According to the utility model, after the support upright post 1 and the steel stranded wires 2 are constructed, the photovoltaic panel support 3 is fixed on the steel stranded wires 2 along the length direction of the steel stranded wires 2, for convenience in construction, the photovoltaic panel 4 on one side of the photovoltaic panel support 3 and the waterproof groove seat 5 between the front photovoltaic panel 4 and the rear photovoltaic panel 4 can be pre-installed, and when the next group of photovoltaic panel support structures consisting of the photovoltaic panel support 3, the photovoltaic panel 4 and the waterproof groove seat 5 are installed, the photovoltaic panel 4 and the waterproof groove seat 5 of the last group of photovoltaic panel support structures are inserted into the photovoltaic panel support 3 of the next group of photovoltaic panel support structures and fixed, and the operation is repeated until the installation construction of all the photovoltaic panels 4 is completed. The photovoltaic panel 4, the photovoltaic panel bracket 3 and the waterproof groove seat 5 do not have water leakage gaps, and can be used as a roof of a shed while photovoltaic power generation is performed, so that the top of a vehicle below the shed is protected. As shown in fig. 2, the steel strand 2 has a peak area and a trough area, the photovoltaic panel bracket 3 and the support column 1 can be connected by using the second connection structure for the trough area with a lower height of the steel strand 2, and the photovoltaic panel bracket 3 and the support column 1 can be connected by using the first connection structure for the peak area with a higher height of the steel strand 2. To meet the connection requirements of the photovoltaic panel holders 3 of different heights. As shown in fig. 3, in order to reduce the height of the shed, the shed roof may preferably be an inclined structure with a high front and a low rear, so as to further satisfy the installation stability of the photovoltaic panel 4, and a bending structure may be designed at the rear end of the photovoltaic panel bracket 3 to form a hook to limit the photovoltaic panel 4 at the rear end.

As shown in fig. 2, the anchor piles 22 at the left and right ends bear all the tension of the steel strand 2, and the bending moment of the anchor piles 22 is effectively reduced due to low stress points of the anchor piles, so that the construction is facilitated. For the condition that the anchor pile 22 at the end part is higher, the structure of a round steel pile casing can be added on the basis of the conventional pipe pile 22, the crack-resistant bending moment of the pipe pile 22 is increased, and the stability of the pipe pile 22 is improved.

As shown in fig. 3, in order to strengthen the supporting column stress of the end part of the shed, a form of three piles combined and shared steel cross arms is adopted.

As shown in fig. 3, the support column 1 of the present utility model comprises a lower pipe pile and a steel main column coaxially fixed to the top thereof. As shown in fig. 21-22, the top of the pipe pile is connected with a column flange 24 at the bottom of the steel main column through a pipe pile end plate 23, and in order to adapt to the angle of the pipe pile during construction, a kidney-shaped hole 25 is formed in the column flange 24 to enable the pipe pile to be assembled and fixed with the steel main column.

In summary, the flexible shed photovoltaic support structure designed by the utility model provides the bearing capacity for the photovoltaic panel support 3 through the steel stranded wires 2, and the steel stranded wires 2 with different section sizes can provide corresponding tensile strength according to engineering requirements. The photovoltaic panel bracket 3 and the support upright 1 can be connected through the stay wire 17 and the connecting rod 18, and the influence of wind load on the photovoltaic panel 4 is further reduced by means of the tensile force provided by the stay wire 17 and the connecting rod 18. Meanwhile, the gap between the front and rear adjacent photovoltaic plates 4 is filled through the structure of the waterproof groove seat 5, and the roof of the shed formed by the plurality of photovoltaic plates 4 effectively absorbs illumination, so that vehicles in the shed are prevented from being drenched, the ventilation performance of the shed is ensured, and the power generation efficiency is high.

The above description is only of the preferred embodiment of the present utility model, and is not intended to limit the structure of the present utility model in any way. Any simple modification, equivalent variation and modification of the above embodiments according to the technical substance of the present utility model still fall within the scope of the technical solution of the present utility model.

Claims (10)

1. A flexible bicycle shed photovoltaic supporting structure, its characterized in that: the flexible photovoltaic support comprises a plurality of rows of flexible photovoltaic supports, wherein the rows of flexible photovoltaic supports are used for lifting, hanging and tensioning steel strands (2) and are used for installing photovoltaic panels (4) on the basis of the steel strands (2);

Each row of flexible photovoltaic brackets comprises a plurality of supporting columns (1) which are arranged at intervals along the length direction of the flexible photovoltaic brackets, steel strands (2) are fixed between the tops of two adjacent supporting columns (1), a plurality of photovoltaic panel brackets (3) are fixed at intervals along the length direction of the steel strands (2) of the flexible photovoltaic brackets, a plurality of photovoltaic panels (4) which are arranged front and back are fixed between the two adjacent photovoltaic panel brackets (3), and a waterproof groove seat (5) for blocking a gap between the two adjacent photovoltaic panels (4) is fixed between the two adjacent photovoltaic panels (4);

The left side, the right side, the front side and the rear side of the flexible photovoltaic bracket are provided with anchoring structures for stretching the steel strands (2).

2. The flexible shed photovoltaic support structure of claim 1, wherein: the photovoltaic panel support (3) comprises a support plate (3.1), the upper surface of the support plate (3.1) is fixedly connected with a photovoltaic panel fixing support (3.2) for installing and fixing the photovoltaic panel (4), the lower surface of the support plate (3.1) is fixedly connected with a steel strand fixing support (3.3), and the steel strand (2) can penetrate through and be detachably fixed in the steel strand fixing support (3.3).

3. The flexible shed photovoltaic support structure of claim 2, wherein: the waterproof groove seat (5) comprises a groove seat bottom plate (5.1) which is arranged along the direction vertical to the support plate (3.1) of the support, a groove seat straight plate (5.2) which is vertically fixed on the upper surface of the middle part of the groove seat bottom plate (5.1) and is arranged along the length direction of the groove seat bottom plate (5.1), and groove seat top plates (5.3) which are vertically and fixedly connected to the front side and the rear side of the top of the groove seat straight plate (5.2), wherein one end of the groove seat straight plate (5.2) is inserted into the photovoltaic plate support (3) and supported on the support plate (3.1); the front part or the rear part of the photovoltaic panel (4) is fixed in a space surrounded by the groove seat top plate (5.3), the groove seat straight plate (5.2) and the groove seat bottom plate (5.1).

4. The flexible shed photovoltaic support structure of claim 2, wherein: the photovoltaic panel fixing support (3.2) comprises two photovoltaic panel fixing support straight plates (6) which are vertically fixed on the left side and the right side of the upper surface of the support supporting plate (3.1) and are arranged along the length direction of the support supporting plate (3.1), and the top of each photovoltaic panel fixing support straight plate (6) is vertically and fixedly connected with a photovoltaic panel fixing support transverse plate (7) which extends to the outer side of the support supporting plate; the support supporting plate (3.1), the photovoltaic panel fixing support straight plate (6) and the photovoltaic panel fixing support transverse plate (7) enclose a light Fu Banka connecting groove (8) which can be clamped and matched with the side part of the photovoltaic panel (4); and the support supporting plate (3.1) is detachably fixed with a photovoltaic panel fixing assembly used for fixing the photovoltaic panel (4) in the light Fu Banka connecting groove (8).

5. The flexible shed photovoltaic support structure of claim 4, wherein: the photovoltaic panel fixing assembly comprises a photovoltaic panel clamping component and a photovoltaic panel locking component, wherein the photovoltaic panel clamping component is matched with the outer side part of the support supporting plate (3.1) and can clamp the bottom of the photovoltaic panel (4) with the outer side part of the support supporting plate (3.1), and the photovoltaic panel locking component is matched with the photovoltaic panel clamping component and can fix the photovoltaic panel (4) in the photovoltaic panel clamping component; the photovoltaic panel clamping component is a U-shaped clamping plate (9), and the outer side part of the support supporting plate (3.1) is positioned in a U-shaped groove of the U-shaped clamping plate (9); the photovoltaic panel locking component comprises an upper layer of clamping plate and a lower layer of clamping plate which vertically penetrate through the U-shaped clamping plate (9), and a photovoltaic panel locking bolt (10) which is connected with the upper layer of clamping plate and the lower layer of clamping plate of the U-shaped clamping plate (9) through threads.

6. The flexible shed photovoltaic support structure of claim 2, wherein: the steel strand fixing support (3.3) comprises two steel strand fixing support plates (11) which are vertically and fixedly connected to the left side and the right side of the bottom surface of the support plate (3.1) and are arranged along the length direction of the support plate (3.1), and steel strand fixing components used for fixing the steel strands (2) are detachably fixed in the steel strand fixing support plates (11).

7. The flexible shed photovoltaic support structure of claim 6, wherein: the two steel strand fixing support plates (11) are provided with a plurality of groups of component mounting grooves (12) which are used for mounting the steel strand fixing components at intervals along the length direction of the steel strand fixing support plates, the steel strand fixing support plates comprise two component mounting grooves (12) which are respectively arranged on the two steel strand fixing support plates (11) and extend from the bottom surface of the steel strand fixing support plates (11) to the bottom surface of the support plate (3.1), and the steel strand fixing components are detachably fixed in the component mounting grooves (12); the steel strand fixing assembly comprises a steel strand upper fixing support (13) located in an assembly mounting groove (12) and a steel strand lower fixing support (14) located below a steel strand fixing support plate (11), the top of the steel strand upper fixing support (13) is detachably fixed on a support plate (3.1), the width of the narrowest part of the steel strand lower fixing support (14) is larger than the groove width of the assembly mounting groove (12), the steel strand lower fixing support (14) is detachably fixed below the steel strand upper fixing support (13), and the steel strand upper fixing support (13) and the steel strand lower fixing support (14) enclose a steel strand fixing groove (15) for mounting and clamping the steel strand (2).

8. The flexible shed photovoltaic support structure of claim 2, wherein: the steel strand fixing support (3.3) is provided with a plurality of support fixing holes (16) at intervals along the length direction, and the top of the supporting upright post (1) is fixedly connected with the support fixing holes (16) through a first connecting structure or a second connecting structure.

9. The flexible shed photovoltaic support structure of claim 8, wherein: the first connecting structure comprises at least two stay wires (17), wherein two ends of one stay wire (17) are detachably fixed in a support fixing hole (16) at the top of the support upright (1) and the end part of the steel strand fixing support (3.3), and two ends of the other stay wire (17) are detachably fixed in a support fixing hole (16) at the top of the support upright (1) and the middle part of the steel strand fixing support (3.3).

10. The flexible shed photovoltaic support structure of claim 8, wherein: the second connecting structure comprises at least one stay wire (17) and at least one connecting rod (18), wherein two ends of the stay wire (17) are detachably fixed in the top of the support upright (1) and a bracket fixing hole (16) at the end part of the steel strand fixing bracket (3.3), one end of the connecting rod (18) is detachably fixed on the upper part of the support upright (1), and the other end of the connecting rod is detachably fixed in the bracket fixing hole (16) in the middle part of the steel strand fixing bracket (3.3).