CN220243473U - Anchor device of photovoltaic power generation booster station - Google Patents

Abstract

The utility model belongs to the technical field of photovoltaic power station anchoring equipment, in particular to an anchoring device of a photovoltaic power generation booster station, three groups of photovoltaic plates are arranged on four groups of first support frames and second support frames at intervals, auxiliary fixing plates are obliquely arranged on two groups of auxiliary support rods, sliding grooves are formed in the auxiliary fixing plates, spring plates are slidably connected to the inner side walls of the two groups of sliding grooves, a plurality of groups of damping rods are arranged between the spring plates and the inner side walls of the sliding grooves, damping springs are arranged between the spring plates and the sliding grooves, auxiliary columns fixedly connected with the spring plates are slidably connected to the auxiliary fixing plates, one ends of the auxiliary columns are fixedly connected with moving plates, fixing hooks are arranged on the moving plates, and traction ropes are arranged between the fixing hooks and anchor blocks: the utility model can effectively offset the tensile force generated by shaking and avoid the phenomenon of rope breakage.

Description

Anchor device of photovoltaic power generation booster station

Technical Field

The utility model belongs to the technical field of photovoltaic power station anchoring equipment, and particularly relates to an anchoring device of a photovoltaic power generation booster station.

Background

The floating type photovoltaic power station is established on water of a pool, a small lake, a reservoir, a impounding reservoir and the like so as to solve the problem of large occupied area of the traditional photovoltaic power generation; advantages of floating photovoltaic power plant: the land is saved, and the land resources are not occupied when the land is built on the water surface; the improvement of the generated energy water body has a cooling effect on the photovoltaic module, so that the surface temperature of the module can be restrained from rising, and the higher generated energy is obtained, and according to Japanese related data research, the generated energy of the panel can be increased by about 14% due to the cooling effect of the water surface; the evaporation and algae propagation are reduced, and the solar cell panel is covered on the water surface, so that the evaporation capacity of the water surface can be reduced theoretically, and the algae propagation in the water is inhibited, thereby being beneficial to the protection of water resources and the like;

when the floating type photovoltaic power station is installed, the floating type photovoltaic power station needs to be fixed, the floating type photovoltaic power station is prevented from shaking on the water surface, the generated energy of a battery plate is influenced, the conventional general anchoring method is adopted for fixing, but due to weather factors, shaking can occur on the water surface, the floating type photovoltaic power station is caused to shake seriously, tension is generated, and a fixing rope is easy to break.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model aims to provide an anchoring device of a photovoltaic power generation booster station, which solves the technical problems that a floating photovoltaic power station shakes seriously, generates tensile force and easily breaks a fixed rope due to shaking of the water surface caused by weather factors.

The scheme adopted by the utility model is as follows: the utility model provides an anchor of photovoltaic power generation booster station, includes two sets of main skeletons and two sets of anchor blocks, its characterized in that, two sets of main skeletons between the interval be equipped with two sets of auxiliary stay bars, two sets of main skeletons bottom can dismantle and be connected with the flotation pontoon body, one of them set of main skeletons on can dismantle and be connected with four sets of first support frames, another set of main skeletons on can dismantle and be connected with four sets of second support frames, four sets of first support frame and second support frame on the interval be equipped with three sets of photovoltaic boards, two sets of auxiliary stay bars on all slope be equipped with auxiliary fixing plate, auxiliary fixing plate on set up the sliding tray, two sets of sliding tray inside wall sliding connection have the spring plate, spring plate and sliding tray inside wall between be equipped with array damping pole, spring plate and sliding tray between be equipped with damping spring, auxiliary fixing plate on sliding connection have the auxiliary column with spring plate fixed connection, auxiliary column one end fixedly connected with movable plate, movable plate on be equipped with the fixed hook, fixed hook and anchor block between be equipped with haulage rope.

Preferably, two groups of pontoon hoops are arranged at intervals at the bottom of the main framework, and the two groups of pontoon hoops are matched with the pontoon body.

Preferably, two groups of auxiliary support rods are provided with T-shaped grooves, four groups of first support frames and second support frames are fixedly connected with T-shaped blocks matched with the T-shaped grooves, and fastening screws matched with the T-shaped grooves are arranged on the T-shaped blocks.

Preferably, the auxiliary fixing plate is provided with a protective shell in a detachable manner, and the protective shell is provided with a rectangular groove corresponding to the spring plate.

Preferably, the spring plate is arranged in an arch shape.

The utility model has the beneficial effects that: if the water surface shakes, the rope drives the movable plate to overcome the elastic action of the spring plate, the spring plate moves, the elastic force of the damping spring and the damping rod is overcome to move to the position of the auxiliary column, most of the pulling force generated by vibration is counteracted, and the rope is effectively prevented from being broken due to the generated pulling force.

Drawings

Fig. 1 is one of the perspective views of the present utility model.

Fig. 2 is a second perspective view of the present utility model.

Fig. 3 is a partial enlarged view of a of fig. 2.

Fig. 4 is one of the perspective cross-sectional views of the present utility model.

Fig. 5 is a partial enlarged view of B of fig. 4.

Fig. 6 is a partial enlarged view of C of fig. 4.

Reference numerals: 1. a main skeleton; 2. an anchor block; 3. an auxiliary support rod; 4. a pontoon body; 5. a first support frame; 6. a second support frame; 7. a photovoltaic panel; 8. an auxiliary fixing plate; 9. a sliding groove; 10. a spring plate; 11. a damping rod; 12. a damping spring; 13. an auxiliary column; 14. a moving plate; 15. a fixed hook; 16. a traction rope; 17. buoy hoop; 18. a "T" shaped slot; 19. a "T" shaped block; 20. a fastening screw; 21. a protective shell; 22. rectangular grooves.

Detailed Description

The foregoing and other features, aspects and advantages of the utility model will become more apparent from the following detailed description of the embodiments with reference to the accompanying drawings 1-6. The following embodiments are described in detail with reference to the drawings.

Exemplary embodiments of the present utility model will be described below with reference to the accompanying drawings.

The first embodiment of the anchoring device of the photovoltaic power generation booster station comprises two groups of main frameworks 1 and two groups of anchor blocks 2, and is characterized in that two groups of auxiliary supporting rods 3 are arranged between the two groups of main frameworks 1 at intervals, a pontoon body 4 is detachably connected to the bottom of the two groups of main frameworks 1, four groups of first supporting frames 5 are detachably connected to one group of main frameworks 1, four groups of second supporting frames 6 are detachably connected to the other group of main frameworks 1, three groups of photovoltaic plates 7 are arranged between the four groups of first supporting frames 5 and the second supporting frames 6 at intervals, auxiliary fixing plates 8 are obliquely arranged on the two groups of auxiliary supporting rods 3, sliding grooves 9 are formed in the auxiliary fixing plates 8, spring plates 10 are slidably connected to the inner side walls of the two groups of the sliding grooves 9, a plurality of damping rods 11 are arranged between the spring plates 10 and the inner side walls of the sliding grooves 9, auxiliary fixing plates 8 are slidably connected with auxiliary posts 13 fixedly connected with the sliding plates 10, one end of each auxiliary fixing plate 13 is fixedly connected with one end of each auxiliary hook 15, and one end of each auxiliary hook 15 is fixedly connected with each auxiliary hook 15; two groups of pontoon hoops 17 are arranged at the bottom of the main framework 1 at intervals, and the pontoon hoops 17 are matched with the pontoon body 4; a protective shell 21 is detachably connected to the auxiliary fixing plate 8, and a rectangular groove 22 corresponding to the spring plate 10 is formed in the protective shell 21; the spring plate 10 is arranged in an arch shape.

When the floating type photovoltaic power generation device is used, the device is integrally put into water, the whole device floats on the water surface through the pontoon body 4, one end of a rope is fixed with the anchor block 2, the other end of the rope is fixed with the fixed hooks 15 arranged on the movable plate 14, the device is integrally fixed under the action of the two groups of anchor blocks 2, energy is absorbed through the photovoltaic plate 7, when the water surface shakes, the auxiliary fixed plate 8 is obliquely arranged on the auxiliary fixed plate 8 due to the fact that the spring plate 10 is slidably connected to the inner side wall of the sliding groove 9, the damping spring 12 is arranged between the spring plate 10 and the sliding groove 9, the auxiliary fixed plate 8 is slidably connected with the auxiliary column 13 fixedly connected with the spring plate 10, one end of the auxiliary column 13 is fixedly connected with the movable plate 14, therefore, the rope drives the movable plate 14 to overcome the elastic force action of the spring plate 10, the spring plate 10 moves to overcome the elastic force of the damping spring 12 and the damping rod 11 to the position of the auxiliary column 13, and the tension generated by vibration is counteracted, the tension generated by the vibration is effectively avoided, meanwhile, the auxiliary fixed plate 8 is obliquely arranged on the auxiliary support rod 3, the auxiliary fixed plate 8 is inclined due to the generated tension, the tension is inclined and the generated by the generated tension force, the vibration is balanced and the tension force is well, the vibration is damped and the vibration is generated.

In the second embodiment, on the basis of the first embodiment, two sets of auxiliary supporting rods 3 are provided with T-shaped grooves 18, the bottoms of the four sets of first supporting frames 5 and the second supporting frames 6 are fixedly connected with T-shaped blocks 19 matched with the T-shaped grooves 18, and the T-shaped blocks 19 are provided with fastening screws 20 matched with the T-shaped grooves 18.

When the photovoltaic panel fixing device is used, when the first support frame 5 and the second support frame 6 are installed, the T-shaped blocks 19 fixedly connected to the bottoms of the first support frame 5 and the second support frame 6 are matched with the T-shaped grooves 18, the T-shaped blocks are moved to the appointed positions, the T-shaped blocks are fixed through fastening screws, the first support frame 5 and the second support frame 6 are fixed, stability is guaranteed, and the positions of the first support frame 5 and the second support frame 6 are convenient to adjust, so that the photovoltaic panel fixing device is suitable for the width of photovoltaic panels of different types.

The above description is only for the purpose of illustrating the utility model, and it should be understood that the utility model is not limited to the above embodiments, but various modifications consistent with the idea of the utility model are within the scope of the utility model.

Claims (5)

1. The utility model provides an anchor of photovoltaic power generation booster station, includes two sets of main skeleton (1) and two sets of anchor block (2), its characterized in that, two sets of main skeleton (1) between the interval be equipped with two sets of auxiliary stay bars (3), two sets of main skeleton (1) bottom can dismantle and be connected with flotation pontoon body (4), one of them set of main skeleton (1) on can dismantle and be connected with four first support frames (5) of group, another set of main skeleton (1) on can dismantle and be connected with four second support frames (6), four sets of first support frames (5) and second support frames (6) on the interval be equipped with three sets of photovoltaic board (7), two sets of auxiliary stay bars (3) on all slope be equipped with auxiliary fixed plate (8), auxiliary fixed plate (8) on seted up sliding tray (9), two sets of sliding tray (9) inside wall sliding connection have spring board (10), spring board (10) and sliding tray (9) inside wall between be equipped with array damping rod (11), board (10) and sliding tray (9) on be equipped with spring (12) and auxiliary column (13) on the fixed connection has auxiliary column (14), a traction rope (16) is arranged between the fixed hook (15) and the anchor block (2).

2. The anchoring device of the photovoltaic power generation booster station according to claim 1, wherein two groups of pontoon hoops (17) are arranged at the bottom of the main framework (1) at intervals, and the pontoon hoops (17) are matched with the pontoon body (4).

3. The anchoring device of the photovoltaic power generation booster station according to claim 2, wherein two groups of auxiliary supporting rods (3) are provided with T-shaped grooves (18), the bottoms of the four groups of first supporting frames (5) and the second supporting frames (6) are fixedly connected with T-shaped blocks (19) matched with the T-shaped grooves (18), and the T-shaped blocks (19) are provided with fastening screws (20) matched with the T-shaped grooves (18).

4. The anchoring device of the photovoltaic power generation booster station according to claim 3, wherein a protective shell (21) is detachably connected to the auxiliary fixing plate (8), and a rectangular groove (22) corresponding to the spring plate (10) is formed in the protective shell (21).

5. The anchoring device of a photovoltaic power generation booster station according to claim 4, wherein the spring plates (10) are arranged in an arch shape.