CN115864971A - Flexible inclination tracking photovoltaic support system - Google Patents

Abstract

The invention relates to a flexible inclination tracking photovoltaic support system, which comprises a plurality of rows of photovoltaic supports and a longitudinal stabilizing mechanism connected with the photovoltaic supports; the photovoltaic support comprises an inclination angle component, the upper end of the inclination angle component is connected with a transverse traction steel cable, and the middle of the inclination angle component is respectively connected with each transverse end upright post or each transverse middle upright post in a rotating mode so as to enable the inclination angle component to rotate around a certain supporting point on each transverse end upright post or each transverse middle upright post. The longitudinal stabilizing mechanism comprises a plurality of stabilizing supports, the upper ends of the stabilizing supports are connected with the transverse traction steel cable in a buckling mode, and the lower ends of the stabilizing supports are connected with the longitudinal supporting steel cable in a buckling mode; and the longitudinal supporting steel cable longitudinally penetrates through each row of photovoltaic supports, and two ends of the longitudinal supporting steel cable are respectively connected with the vertical end part stand columns. An inclination angle tracking transmission system is formed by the inclination angle assembly, the longitudinal stabilizing mechanism, the transverse traction steel cable and the solar assembly, the solar altitude angle is tracked in real time, 8-10% of generated energy can be improved in middle and high latitude areas, the vacancy of the middle and high latitude level single-shaft tracking support is made up, and the maintenance amount is small.

Description

Flexible inclination tracking photovoltaic support system

Technical Field

The invention relates to the technical field of photovoltaics, in particular to a flexible inclination tracking photovoltaic support system.

Background

The support divide into fixed, fixed adjustable, flat single-axis tracking support, oblique single-axis tracking support, biax tracking support, and fixed support simple structure, the maintenance volume is little, is the main force army of photovoltaic trade, but the generated energy is low and this product short slab. The adjustable support is fixed, the inclination angle is adjusted once every quarter, the generated energy increase is limited and can be improved by 3%, and the structure is simple and the maintenance amount is small. The flat single shaft tracks the bracket, and the generated energy can be improved by 8 to 10 percent along with rising and falling of Taiyang east and west every day, the system has a complex structure and high maintenance amount, is suitable for low and medium latitude areas, and is a tracking support main force army.

For example, chinese patent document CN106487322A discloses a flat single-axis tracking bracket, which includes a supporting column with an eccentric bearing mounted on the top, a main beam fixed in the eccentric bearing, a battery panel fixed above the main beam through a fixing mechanism, and a driving mechanism arranged on the top of the supporting column and used for driving the main beam to rotate around the axis direction of the main beam, where the battery panel, the main beam, and the eccentric bearing are combined to form a rotating mechanism, and the eccentric bearing is used for positioning the center of gravity of the rotating mechanism on the rotation center line of the main beam, and the system structure is complex and the maintenance amount is high.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: a flexible pitch tracking photovoltaic mounting system is provided that allows a photovoltaic panel assembly to be pitched relative to horizontal.

The technical scheme adopted by the invention for solving the technical problems is as follows: a flexible inclination tracking photovoltaic support system comprises a plurality of rows of photovoltaic supports and a longitudinal stabilizing mechanism connected with the photovoltaic supports; the photovoltaic support comprises

The upper end of the inclination angle component is connected with a transverse traction steel cable, and the middle part of the inclination angle component is respectively and rotatably connected with each transverse end upright post or each transverse middle upright post, so that the inclination angle component rotates around a certain fulcrum on each transverse end upright post or each transverse middle upright post.

Preferably, the longitudinal stabilizing mechanism comprises

The plurality of stabilizing supports are respectively arranged on each row of photovoltaic supports, the upper ends of the stabilizing supports are connected with the transverse traction steel cable buckle, and the lower ends of the stabilizing supports are connected with the longitudinal support steel cable buckle;

and the longitudinal supporting steel cable longitudinally penetrates through each row of photovoltaic supports, two ends of the longitudinal supporting steel cable are respectively connected with the vertical end part upright posts, and the longitudinal supporting steel cable is connected with the lower ends of the stabilizing supports in each row of photovoltaic supports in a buckling manner.

Preferably, the stabilizing support comprises

The two ends of the stabilizing transverse rod are respectively connected with the two transverse traction steel cables in each row of photovoltaic supports in a buckling mode, and the middle of the stabilizing transverse rod is rotatably connected with the upper end of the stabilizing longitudinal rod;

the upper end of the stabilizing longitudinal rod is rotationally connected with the stabilizing transverse rod, and the lower end of the stabilizing longitudinal rod is connected with the longitudinal supporting steel cable in a buckling manner;

one end of the stabilizing cross bar is pulled to move up and down by a telescopic mechanism in a telescopic way.

Preferably, the flexible inclination tracking photovoltaic support system further comprises

Two ends of the transverse supporting steel cable are respectively connected with the transverse end upright columns of each row of photovoltaic supports;

the transverse supporting steel cable of the photovoltaic support is connected with a fixing seat buckle arranged on the stabilizing longitudinal rod of the stabilizing support.

Preferably, the inclination angle component comprises an end rotating beam, the end rotating beam comprises a longitudinal steel beam and a transverse steel beam, the two longitudinal steel beams are connected through a plurality of transverse steel beams, two ends of one longitudinal steel beam are respectively connected with the transverse traction steel cables, the middle part of one longitudinal steel beam is rotatably connected with the transverse end upright post, and the transverse steel beam at one end of the end rotating beam is stretched and pulled by a stretching mechanism to move up and down so that the photovoltaic panel component installed on the transverse traction steel cable forms an inclination angle relative to a horizontal line.

Preferably, the tilt angle assembly comprises a middle rotating beam, and two ends of the middle rotating beam are respectively connected with a transverse pulling steel cable; the middle part of the middle rotating beam is rotatably connected with the transverse middle upright post, and one end of the middle rotating beam is pulled by a telescopic mechanism to move up and down, so that the photovoltaic panel assembly arranged on the transverse pulling steel cable forms an inclination angle relative to the horizontal line.

Preferably, the telescopic mechanism is a jack mechanism, the jack mechanism comprises a telescopic connecting rod assembly, the top of the telescopic connecting rod assembly is connected with a top connecting seat, and the bottom of the telescopic connecting rod assembly is respectively connected with a first bottom connecting seat and a second bottom connecting seat.

Preferably, the flexible inclination tracking photovoltaic support system further comprises a first driving steel cable and a second driving steel cable;

the first driving steel cable and the second driving steel cable form an annular driving steel cable which is connected between two transverse end upright columns of each row of photovoltaic supports, the first driving steel cable is connected with a first bottom connecting seat at the bottom of the jack mechanism, and the second driving steel cable is connected with a second bottom connecting seat at the bottom of the jack mechanism; when the first driving steel cable and the second driving steel cable are pulled oppositely, the telescopic connecting rod component of the jack mechanism is driven to do the supporting or contracting movement.

Preferably, the flexible inclination tracking photovoltaic support further comprises a driving mechanism, and the driving mechanism pulls the first driving steel cable or the second driving steel cable, so that the first driving steel cable and the second driving steel cable are pulled oppositely.

Preferably, a plurality of supporting pieces are arranged on a transverse supporting steel cable of the photovoltaic support, the lower ends of the supporting pieces are in buckle connection with the transverse supporting steel cable, sleeve holes are formed in the upper ends of the supporting pieces, and the sleeve holes penetrate through a sliding rod connected with a first bottom connecting seat at the bottom of the jack mechanism or a sliding rod connected with a second bottom connecting seat at the bottom of the jack mechanism, or the sleeve holes penetrate through a first driving steel cable or a second driving steel cable.

The beneficial effects of the invention are: the tilt assembly is rotated about a pivot point on each of the lateral end uprights or the lateral center upright such that the photovoltaic panel assembly mounted on the lateral pulling cables is tilted. Vertical stabilizing mean makes multirow photovoltaic support longitudinal difficult to receive the wind-force influence to empty, promotes multirow photovoltaic support at fore-and-aft stability.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic structural view of the longitudinal stabilizing mechanism of the present invention;

FIG. 2 is a schematic view of the present invention showing the connection between the stabilizer bracket and the longitudinal and lateral support cables;

FIG. 3 is a schematic view of the construction of the present invention with the end turn beam connected to the transverse end post;

FIG. 4 is a schematic view of the construction of the present invention with the intermediate rotating beam connected to a transverse pulling cable;

FIG. 5 is a schematic diagram of the drive mechanism driving the jack mechanism of the present invention;

FIG. 6 is an overall block diagram of the photovoltaic mounting system of the present invention;

wherein: 1. transversely pulling the steel cable; 2. a transverse end upright; 31. a longitudinal steel beam; 32. a transverse steel beam; 33. a middle rotating beam; 4. a transverse middle upright post; 5. a photovoltaic panel assembly; 61. stabilizing the cross bar; 62. stabilizing the longitudinal bar; 63. a fixed seat; 7. a jack mechanism; 8. a drive mechanism; 91. a longitudinal support wire rope; 92. a transverse support wire rope; 10. and a support member.

Detailed Description

The invention will now be further described with reference to the accompanying drawings. These drawings are simplified schematic diagrams only illustrating the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1-6, a stable flexible pitch tracking photovoltaic mounting system includes a plurality of rows of photovoltaic mounts and a longitudinal stabilizing mechanism connecting the plurality of rows of photovoltaic mounts.

The photovoltaic support comprises an inclination angle component, the upper end of the inclination angle component is connected with a transverse traction steel cable, and the middle of the inclination angle component is respectively connected with each transverse end upright post or each transverse middle upright post in a rotating mode so that the inclination angle component can rotate around a certain supporting point on each transverse end upright post or each transverse middle upright post.

Preferably, the longitudinal stabilizing mechanism comprises

The plurality of stabilizing supports are respectively arranged on each row of photovoltaic supports, the upper ends of the stabilizing supports are connected with the transverse traction steel cable 1 in a buckling mode, and the lower ends of the stabilizing supports are connected with the longitudinal supporting steel cable 91 in a buckling mode;

and the longitudinal supporting steel cable 91 longitudinally penetrates through each row of photovoltaic supports, two ends of the longitudinal supporting steel cable 91 are respectively connected with the vertical end part stand columns, and the longitudinal supporting steel cable 91 is connected with the lower ends of the stabilizing supports in each row of photovoltaic supports in a buckling manner.

The longitudinal stabilizing mechanism enables the multiple rows of photovoltaic supports to be longitudinally not prone to being toppled under the influence of wind power, and the stability of the multiple rows of photovoltaic supports in the longitudinal direction is improved.

Specifically, as an alternative implementation manner in this embodiment, as shown in fig. 2, the stabilizing bracket comprises

The two ends of the stabilizing cross rod 61 are respectively connected with the two transverse traction steel cables 1 in each row of photovoltaic supports in a buckling mode, and the middle of the stabilizing cross rod 61 is rotatably connected with the upper end of the stabilizing longitudinal rod 62;

the upper end of the stabilizing longitudinal rod 62 is rotationally connected with the stabilizing transverse rod 61, and the lower end of the stabilizing longitudinal rod is connected with the longitudinal supporting steel cable 91 in a buckling manner;

one end of the stabilizing cross bar 61 is pulled by a telescopic mechanism to move up and down.

Specifically, as an alternative embodiment in this embodiment, as shown in fig. 3, the flexible pitch tracking photovoltaic support further includes a lateral support cable 92, two ends of which are respectively connected to the lateral end columns 2 of each row of photovoltaic supports;

specifically, as an alternative embodiment in this embodiment, as shown in fig. 2, the lateral support steel cable 92 of the photovoltaic bracket is connected with the fixing seat 63 disposed on the stabilizing longitudinal rod 62 of the stabilizing bracket in a snap-fit manner.

Specifically, as an optional implementation manner in this embodiment, as shown in fig. 3, the tilt assembly includes an end rotating beam, the end rotating beam includes longitudinal steel beams 31 and transverse steel beams 32, two longitudinal steel beams 31 are connected through a plurality of transverse steel beams 32, two ends of one longitudinal steel beam 31 are respectively connected with the transverse pull steel cable 1, a middle portion of one longitudinal steel beam 31 is rotatably connected with the transverse end upright 2, and the transverse steel beam 32 at one end of the end rotating beam is telescopically pulled by a telescopic mechanism to move up and down, so that the photovoltaic panel assembly 5 mounted on the transverse pull steel cable 1 forms a tilt angle with respect to a horizontal line. The central portion of longitudinal steel beam 31 may be rotatably connected to transverse end uprights 2 by means of bearing assemblies or other rotating assemblies. The telescopic mechanism pulls the transverse steel beam 32 at one end of the end rotating beam to move downwards, and the middle part of the longitudinal steel beam 31 rotates around a certain supporting point of the transverse end upright post 2, so that the photovoltaic panel component 5 installed on the transverse pulling steel cable 1 forms inclination. The inclination angle of the photovoltaic panel assembly 5 can be adjusted by adjusting the telescopic amount of the telescopic mechanism without manual timing adjustment. The telescopic mechanism can adopt a jack mechanism or an electric push rod and the like. The jack mechanism can be driven by the electric driving mechanism to extend and retract.

Specifically, as an alternative embodiment in this embodiment, as shown in fig. 4, the tilt angle assembly includes a middle rotating beam 33, and both ends of the middle rotating beam 33 are respectively connected to the transverse pulling cables 1; the middle part of the middle rotating beam 33 is rotatably connected with the transverse middle upright post 4, and one end of the middle rotating beam 33 is telescopically pulled by a telescopic mechanism to move up and down, so that the photovoltaic panel assembly 5 arranged on the transverse pulling steel cable 1 forms an inclination angle relative to the horizontal line.

The telescoping mechanism pulls one end of the middle rotating beam 33 to move downwards, and the middle part of the middle rotating beam 33 rotates around a certain fulcrum of the transverse middle upright post 4, so that the photovoltaic panel assembly 5 installed on the transverse pulling steel cable 1 forms an inclination. The inclination angle of the photovoltaic panel assembly 5 can be adjusted by adjusting the telescopic amount of the telescopic mechanism, and the telescopic mechanism can adopt a jack mechanism or an electric push rod and the like. The jack mechanism can be driven by the electric driving mechanism to extend and retract.

Specifically, as an optional implementation manner in this embodiment, as shown in fig. 1 to fig. 6, the telescopic mechanism is a jack mechanism 7, the jack mechanism 7 includes a telescopic link assembly, a top connecting seat is connected to a top of the telescopic link assembly, and a bottom of the telescopic link assembly is connected to the first bottom connecting seat and the second bottom connecting seat respectively. The specific structure of the jack mechanism 7 can be referred to chinese patent document CN21622326U.

Specifically, as an alternative implementation manner in this embodiment, as shown in fig. 1 to 6, the flexible inclination tracking photovoltaic rack system further includes a first driving cable and a second driving cable;

the first driving steel cable and the second driving steel cable form an annular driving steel cable which is connected between two transverse end upright columns 2 of each row of photovoltaic supports, the first driving steel cable is connected with a first bottom connecting seat at the bottom of the jack mechanism 7, and the second driving steel cable is connected with a second bottom connecting seat at the bottom of the jack mechanism 7; when the first driving steel cable and the second driving steel cable are pulled oppositely, the telescopic connecting rod component of the jack mechanism 7 is driven to do supporting or contracting motion.

Specifically, as an optional implementation manner in this embodiment, as shown in fig. 5, the flexible pitch tracking photovoltaic support further includes a driving mechanism 8, and the driving mechanism 8 pulls the first driving cable or the second driving cable, so that the first driving cable and the second driving cable are pulled toward each other. The driving mechanism 8 can adopt an air cylinder or an electric push rod and the like.

Specifically, as an optional implementation manner in this embodiment, as shown in fig. 2, a plurality of supporting members 10 are disposed on a transverse supporting steel cable 92 of the photovoltaic support, a lower end of each supporting member 10 is connected to the transverse supporting steel cable 92 in a snap-fit manner, a sleeve hole is formed at an upper end of each supporting member 10, and the sleeve hole is inserted into a sliding rod connected to a first bottom connecting seat at the bottom of the jack mechanism 7 or a sliding rod connected to a second bottom connecting seat at the bottom of the jack mechanism 7, or the sleeve hole is inserted into a first driving steel cable or a second driving steel cable.

The transverse traction steel cable 1, the first driving steel cable, the second driving steel cable and the transverse supporting steel cable 92 are used as flexible parts of the photovoltaic bracket in the X direction, the multiple steel cables are connected between transverse end part upright posts 2 at two ends, end part rotating beams are arranged at the transverse end part upright posts 2, a plurality of transverse middle upright posts 4 and middle rotating beams 33 are arranged in the middle, a longitudinal supporting steel cable 91 is used as a flexible part of the photovoltaic bracket in the Y direction, a stabilizing transverse rod 61 of the stabilizing bracket is used as a rigid part of the photovoltaic bracket in the Y direction, and a stabilizing longitudinal rod 62 of the stabilizing bracket is used as a rigid part of the photovoltaic bracket in the Z direction; the stabilizing cross bar 61 is connected with the transverse traction steel cable 1, the transverse supporting steel cable 92 is connected with the stabilizing longitudinal rod 62, and the stabilizing cross bar 61 is connected with the first driving steel cable and the second driving steel cable through the jack mechanism 7. A plurality of longitudinal and transverse connecting structures are formed, and the driving mechanism 8 pulls the first driving steel cable or the second driving steel cable. The jack mechanisms connected with the end rotating beam, the middle rotating beam and the stabilizing cross rod are connected with the first driving steel cable and the second driving steel cable, the first driving steel cable or the second driving steel cable is pulled by the same driving mechanism 8, so that one ends of the end rotating beam, the middle rotating beam and the stabilizing cross rod synchronously move up and down, and the photovoltaic panel assemblies 5 installed on the transverse traction steel cable 1 can synchronously incline to form an inclination angle.

An inclination angle tracking transmission system is formed by the inclination angle assembly, the longitudinal stabilizing mechanism, the transverse traction steel cable 1 and the solar assembly 5, the solar altitude angle is tracked in real time, 8-10% of generated energy can be improved in middle and high altitude areas, the vacancy of the middle and high altitude level single-shaft tracking support is made up, and the maintenance amount is small.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. The utility model provides a photovoltaic mounting system is trailed at flexible inclination which characterized in that: the photovoltaic bracket fixing device comprises a plurality of rows of photovoltaic brackets and a longitudinal stabilizing mechanism connected with the photovoltaic brackets; the photovoltaic support comprises

The upper end of the inclination angle component is connected with the transverse traction steel cable, and the middle part of the inclination angle component is respectively connected with each transverse end upright post or each transverse middle upright post in a rotating way, so that the inclination angle component rotates around a certain fulcrum on each transverse end upright post or each transverse middle upright post.

2. The flexible pitch tracking photovoltaic mounting system of claim 1, wherein:

the longitudinal stabilizing mechanism comprises

The plurality of stabilizing supports are respectively arranged on each row of photovoltaic supports, the upper ends of the stabilizing supports are connected with the transverse traction steel cable (1) in a buckling manner, and the lower ends of the stabilizing supports are connected with the longitudinal support steel cable (91) in a buckling manner;

and the longitudinal supporting steel cable (91) longitudinally penetrates through each row of photovoltaic supports, two ends of the longitudinal supporting steel cable are respectively connected with the vertical columns at the longitudinal end parts, and the longitudinal supporting steel cable (91) is connected with the lower ends of the stabilizing supports in each row of photovoltaic supports in a buckling manner.

3. The flexible pitch tracking photovoltaic mounting system of claim 1, wherein:

the stabilizing support comprises

The two ends of the stabilizing transverse rod (61) are respectively connected with the two transverse traction steel cables (1) in each row of photovoltaic supports in a buckling mode, and the middle of the stabilizing transverse rod is rotatably connected with the upper end of the stabilizing longitudinal rod (62);

the upper end of the stabilizing longitudinal rod (62) is rotationally connected with the stabilizing transverse rod (61), and the lower end of the stabilizing longitudinal rod is connected with the longitudinal supporting steel cable (91) in a buckling manner;

one end of the stabilizing cross bar (61) is pulled to move up and down by a telescopic mechanism in a telescopic way.

4. The flexible pitch tracking photovoltaic mounting system of claim 3, wherein: the photovoltaic bracket support structure further comprises a transverse supporting steel cable (92), and two ends of the transverse supporting steel cable are respectively connected with the transverse end part upright post (2) of each row of photovoltaic brackets;

the transverse supporting steel cable (92) of the photovoltaic bracket is connected with a fixing seat (63) arranged on a stabilizing longitudinal rod (62) of the stabilizing bracket in a buckling mode.

5. The flexible pitch tracking photovoltaic mounting system of claim 1, wherein: the inclination angle component comprises an end part rotating beam, the end part rotating beam comprises a longitudinal steel beam (31) and a transverse steel beam (32), the two longitudinal steel beams (31) are connected through a plurality of transverse steel beams (32), two ends of one longitudinal steel beam (31) are respectively connected with a transverse traction steel cable (1), the middle part of one longitudinal steel beam (31) is rotatably connected with a transverse end upright post (2), and the transverse steel beam (32) at one end of the end part rotating beam is driven to move up and down through telescopic pulling of a telescopic mechanism, so that a photovoltaic panel component (5) installed on the transverse traction steel cable (1) forms an inclination angle relative to a horizontal line.

6. The flexible pitch tracking photovoltaic mounting system of claim 1, wherein: the inclination angle assembly comprises a middle rotating beam (33), and two ends of the middle rotating beam (33) are respectively connected with a transverse traction steel cable (1); the middle part of the middle rotating beam (33) is rotatably connected with the transverse middle upright post (4), and one end of the middle rotating beam (33) is pulled by a telescopic mechanism to move up and down, so that the photovoltaic panel assembly (5) installed on the transverse pulling steel cable (1) forms an inclination angle relative to the horizontal line.

7. The flexible pitch tracking photovoltaic mounting system of claim 3, 5 or 6, wherein: the telescopic mechanism is a jack mechanism (7), the jack mechanism (7) comprises a telescopic connecting rod assembly, the top of the telescopic connecting rod assembly is connected with a top connecting seat, and the bottom of the telescopic connecting rod assembly is connected with a first bottom connecting seat and a second bottom connecting seat respectively.

8. The flexible pitch tracking photovoltaic mounting system of claim 7, wherein: the device also comprises a first driving steel cable and a second driving steel cable;

the first driving steel cable and the second driving steel cable form an annular driving steel cable which is connected between two transverse end part upright posts (2) of each row of photovoltaic supports, the first driving steel cable is connected with a first bottom connecting seat at the bottom of the jack mechanism (7), and the second driving steel cable is connected with a second bottom connecting seat at the bottom of the jack mechanism (7); when the first driving steel cable and the second driving steel cable are pulled oppositely, the telescopic connecting rod component of the jack mechanism (7) is driven to do supporting or contracting movement.

9. The flexible pitch tracking photovoltaic mounting system of claim 8, wherein: the steel wire rope driving device further comprises a driving mechanism (8), and the driving mechanism (8) pulls the first driving steel wire rope or the second driving steel wire rope so that the first driving steel wire rope and the second driving steel wire rope are pulled oppositely.

10. The flexible pitch tracking photovoltaic mount of claim 8, wherein:

the photovoltaic support is characterized in that a plurality of supporting pieces (10) are arranged on a transverse supporting steel cable (92) of the photovoltaic support, the lower ends of the supporting pieces (10) are connected with the transverse supporting steel cable (92) in a buckling mode, a trepanning is formed in the upper end of each supporting piece (10), a sliding rod connected with a first bottom connecting seat at the bottom of a jack mechanism (7) or a sliding rod connected with a second bottom connecting seat at the bottom of the jack mechanism (7) is sleeved in the trepanning, or a first driving steel cable or a second driving steel cable is sleeved in the trepanning.

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