CN212486431U - Opposite-pulling structure for mounting large-span photovoltaic panel - Google Patents

Abstract

The utility model relates to a to drawing structure for installation of large-span photovoltaic board. The device comprises a tank body, wherein an opening of the tank body is connected with a plurality of transverse ropes and longitudinal ropes, the intersection of any transverse rope and any longitudinal rope is connected through a connecting part, the connecting part comprises an upper layer clamping plate and a lower layer clamping plate, the lower surface of the upper layer clamping plate and the upper surface of the lower layer clamping plate are both provided with opening limiting grooves, the upper layer clamping plate and the lower layer clamping plate are fixedly connected through four U-shaped bolts, each opening limiting groove penetrates through a U-shaped bolt, the upper layer clamping plate, the lower layer clamping plate, the transverse ropes and the longitudinal ropes form a limiting gap, the transverse ropes and the longitudinal ropes are oppositely pulled through the transverse ropes and the longitudinal ropes arranged at the opening of the tank body, the photovoltaic panel is installed by utilizing the structure and the limiting gap between the upper layer clamping plate and the lower layer clamping plate, the oppositely-pulling structure between the transverse ropes and the longitudinal ropes is stable, has good practicability.

Description

Opposite-pulling structure for mounting large-span photovoltaic panel

Technical Field

The utility model belongs to the technical field of photovoltaic power generation, especially, relate to a to drawing structure for installation of large-span photovoltaic board.

Background

The patent with the name of an angle-adjustable large-span photovoltaic support is disclosed in the existing Chinese patent database, the application number is CN201621135798.1, the application date is 20161018, the publication number is CN206251023U, and the publication date is 20170613, the patent comprises a supporting component, a prestressed cable and a photovoltaic panel, the prestressed cable is connected between two supporting components, the photovoltaic panel is fixedly connected to the prestressed cable, the supporting component comprises a foundation, a vertical rod (11), a cross beam (12) and two height adjusting rods (13), the bottom end of the vertical rod is anchored on the foundation, the top end of the vertical rod is hinged to the cross beam, the prestressed cable is connected between the cross beams of the two supporting components, the number of the prestressed cable is more than two, one end of each height adjusting rod is hinged to the foundation, and the other end of each height adjusting rod is hinged to two ends of the cross beam, and the: this photovoltaic support mounting is higher at the degree of difficulty in large-scale pond, need place the base in the pond, and the installation is complicated, is difficult to lay the photovoltaic board suitable at the pond body opening part, has certain limitation.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is that current photovoltaic board is all installed through the base that is located the effluent water sump, because the span of effluent water sump is great, the photovoltaic board construction and installation degree of difficulty is big, in order to improve its weak point, the utility model provides a to drawing structure for installation of large-span photovoltaic board.

In order to achieve the purpose, the utility model is realized by the following technical proposal:

the opposite-pulling structure for mounting the large-span photovoltaic panel comprises a pool body, wherein a plurality of tightened transverse ropes are connected to a pool body opening at horizontal intervals, a plurality of tightened longitudinal ropes are connected to the pool body opening at horizontal intervals, each transverse rope and each longitudinal rope are located in the same horizontal plane to form a net-shaped framework, the intersection of any transverse rope and any longitudinal rope is connected through a connecting part, the connecting part comprises an upper layer clamping plate and a lower layer clamping plate which are arranged at intervals, crossed opening limiting grooves are formed in the lower surface of the upper layer clamping plate and the upper surface of the lower layer clamping plate, the opening limiting grooves of the upper layer clamping plate and the opening limiting grooves of the lower layer clamping plate are arranged in opposite directions to enclose a space for embedding the transverse ropes or the longitudinal ropes, the upper layer clamping plate and the lower layer clamping plate are fixedly connected through four U-shaped bolts, each opening limiting groove penetrates through the corresponding U-shaped bolt, and the upper layer clamping, And the lower clamping plate, the corresponding transverse ropes and the corresponding longitudinal ropes enclose a limiting gap for inserting the corners of the external photovoltaic panel.

The utility model discloses in, set up criss-cross horizontal rope and vertical rope at the cell body opening part, the cross department at arbitrary horizontal rope and arbitrary vertical rope is provided with upper splint and lower floor's splint, upper splint and lower floor's splint are in the centre with horizontal rope and vertical rope clamp, place the photovoltaic board at upper splint simultaneously, lower floor's splint, the horizontal rope that corresponds encloses synthetic spacing clearance with the vertical rope that corresponds in, through U type bolt with upper splint and lower floor's splint locking, can enough guarantee between horizontal rope and the vertical rope to drawing stable in structure, the stability of photovoltaic board installation has been guaranteed again.

Compared with the prior art, the beneficial effects of the utility model are that: this device is through setting up criss-cross horizontal rope and vertical rope at the cell body opening part and to drawing the structure, utilizes this structure and carries out the installation of photovoltaic board through the spacing clearance between upper splint and the lower floor's splint, can enough guarantee to drawing stable in structure between horizontal rope and the vertical rope, has guaranteed the stability of photovoltaic board installation again, and the device is applicable to in the industrial production, has good practicality.

The upper through grooves are formed in two sides of any opening limiting groove of the upper layer clamping plate, the lower through grooves are formed in the lower layer clamping plate opposite to the upper through grooves, and the U-shaped bolts sequentially penetrate through the corresponding upper through grooves and the corresponding lower through grooves.

Each upper through groove extends to the corresponding side eave of the upper clamping plate, and each lower through groove extends to the corresponding side eave of the lower clamping plate. The photovoltaic board can be installed fast and dismantle from the side in the middle of upper splint and the splint of lower floor, the installation of the photovoltaic board of being convenient for carry on of large-span.

The lower surface of the upper layer clamping plate and the upper surface of the lower layer clamping plate are both provided with anti-skid lines. The setting up of anti-skidding line can enough avoid horizontal rope and vertical rope to take place not hard up, can increase the frictional force between photovoltaic board corner and upper splint, the splint of lower floor again for the photovoltaic board is more stable.

Cell body oral area rigid coupling has the mounting bracket, and the vertical motor that is provided with on the mounting bracket is connected with the connecting rod coaxial with the output shaft in the motor output shaft free end that is located the cell body, and the connecting rod free end is connected with the stirring vane that the level set up.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic view of the structure in the cell body.

Fig. 3 is a schematic view of the structure of the connecting member.

In the figure: 1 cell body, 2 horizontal ropes, 3 vertical ropes, 4 adapting unit, 5 upper splint, 6 lower splint, 7 open-ended spacing grooves, 8U type bolt, 9 spacing clearances, run through the groove on 10, run through the groove under 11, 12 mounting brackets, 13 motors, 14 connecting rods, 15 stirring vane.

Detailed Description

The technical solution of the present application will be further described and explained with reference to the accompanying drawings and embodiments.

As shown in fig. 1-2, a counter-pulling structure for installing a large-span photovoltaic panel, which comprises a tank body 1, wherein a plurality of tightened transverse ropes 2 are horizontally connected to an opening of the tank body 1 at intervals, a plurality of tightened longitudinal ropes 3 are horizontally connected to an opening of the tank body 1 at intervals, each transverse rope 2 and each longitudinal rope 3 are positioned in the same horizontal plane to form a net-shaped framework, a crossing part of any transverse rope 2 and any longitudinal rope 3 is connected through a connecting part 4, each connecting part 4 comprises an upper clamping plate 5 and a lower clamping plate 6 which are arranged at intervals, cross opening limiting grooves 7 are respectively arranged on the lower surface of the upper clamping plate 5 and the upper surface of the lower clamping plate 6, the opening limiting grooves 7 of the upper clamping plate 5 and the opening limiting grooves 7 of the lower clamping plate 6 are oppositely arranged to enclose a space for embedding the transverse ropes 2 or the longitudinal ropes 3, the upper clamping plate 5 and the lower clamping plate 6 are fixedly connected through four U-shaped bolts 8, each opening limiting groove 7 penetrates through the corresponding U-shaped bolt 8, and the upper layer clamping plate 5, the lower layer clamping plate 6, the corresponding transverse rope 2 and the corresponding longitudinal rope 3 enclose a limiting gap 9 for inserting and connecting the corner of the external photovoltaic panel. The two sides of any opening limiting groove 7 of the upper layer splint 5 are provided with upper through grooves 10, the lower layer splint 6 which is right opposite to the upper through grooves 10 is provided with lower through grooves 11, and each U-shaped bolt 8 sequentially penetrates through the corresponding upper through groove 10 and the corresponding lower through groove 11. Each upper through groove 10 extends to the corresponding edge of the upper clamping plate 5, and each lower through groove 11 extends to the corresponding edge of the lower clamping plate 6. The photovoltaic board can be installed fast and dismantle from the side in the middle of upper splint 5 and lower splint 6, the installation of carrying out the photovoltaic board of the large-span of being convenient for. The lower surface of the upper layer clamping plate 5 and the upper surface of the lower layer clamping plate 6 are both provided with anti-skid lines. The setting up of anti-skidding line can enough avoid horizontal rope 2 and vertical rope 3 to take place not hard up, can increase the frictional force between photovoltaic board corner and upper splint 5, the splint 6 of lower floor again for the photovoltaic board is more stable. An installation frame 12 is fixedly connected to an opening of the tank body 1, a motor 13 is vertically arranged on the installation frame 12, a connecting rod 14 coaxial with an output shaft is connected to the free end of an output shaft of the motor 13 positioned in the tank body 1, and a stirring blade 15 horizontally arranged is connected to the free end of the connecting rod 14.

During operation, set up criss-cross horizontal rope 2 and vertical rope 3 at 1 opening part of cell body, be provided with upper splint 5 and lower splint 6 in the crossing of arbitrary horizontal rope 2 and arbitrary vertical rope 3, upper splint 5 and lower splint 6 press from both sides horizontal rope 2 and vertical rope 3 in the centre, place the photovoltaic board at upper splint 5 simultaneously, lower splint 6, horizontal rope 2 that corresponds encloses synthetic spacing clearance 9 with vertical rope 3 that corresponds in, through U type bolt 8 with upper splint 5 and lower splint 6 locking, can enough guarantee the stability of drawing between horizontal rope 2 and the vertical rope 3, the stability of photovoltaic board installation has been guaranteed again.

The present invention is not limited to the above embodiments, and based on the technical solutions disclosed in the present invention, those skilled in the art can make some replacements and transformations for some technical features without creative labor according to the disclosed technical contents, and these replacements and transformations are all within the protection scope of the present invention.

Claims (5)

1. The utility model provides a to drawing structure for installation of large-span photovoltaic board, including the cell body, its characterized in that: the horizontal interval of the opening of the pool body is connected with a plurality of tightened horizontal ropes, the horizontal interval of the opening of the pool body is connected with a plurality of tightened vertical ropes, each horizontal rope and each vertical rope are positioned in the same horizontal plane to form a net-shaped framework, the intersection of any horizontal rope and any vertical rope is connected through a connecting part, the connecting part comprises an upper layer splint and a lower layer splint which are arranged at intervals, the lower surface of the upper layer splint and the upper surface of the lower layer splint are both provided with crossed opening limiting grooves, the opening limiting grooves of the upper layer splint and the opening limiting grooves of the lower layer splint are arranged in opposite directions to enclose a space for embedding the horizontal ropes or the vertical ropes, the upper layer splint and the lower layer splint are fixedly connected through four U-shaped bolts, each opening limiting groove passes through the corresponding U-shaped bolt, the upper layer clamping plate, the lower layer clamping plate, the corresponding transverse ropes and the corresponding longitudinal ropes are enclosed to form limiting gaps for inserting corners of the peripheral photovoltaic panels.

2. The counter-pulling structure for installation of a large-span photovoltaic panel according to claim 1, wherein: the upper through grooves are formed in two sides of any opening limiting groove of the upper layer clamping plate, the lower through grooves are formed in the lower layer clamping plate opposite to the upper through grooves, and the U-shaped bolts sequentially penetrate through the corresponding upper through grooves and the corresponding lower through grooves.

3. The counter-pulling structure for installation of a large-span photovoltaic panel according to claim 2, wherein: each upper through groove extends to the corresponding side eave of the upper clamping plate, and each lower through groove extends to the corresponding side eave of the lower clamping plate.

4. The counter-pulling structure for installation of a large-span photovoltaic panel according to claim 3, wherein: the lower surface of the upper layer clamping plate and the upper surface of the lower layer clamping plate are both provided with anti-skid lines.

5. A counter-pulling structure for installation of a large-span photovoltaic panel according to any one of claims 1-4, wherein: cell body oral area rigid coupling has the mounting bracket, and the vertical motor that is provided with on the mounting bracket is connected with the connecting rod coaxial with the output shaft in the motor output shaft free end that is located the cell body, and the connecting rod free end is connected with the stirring vane that the level set up.

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