CN217598794U - Photovoltaic power generation floats link plate truss group - Google Patents

Abstract

The utility model relates to the technical field of photovoltaic power generation, and discloses a photovoltaic power generation floating hanging plate truss group, which comprises a plurality of float groups which are uniformly distributed, wherein a cross beam is fixedly arranged between every two adjacent float groups, a plurality of uniformly distributed vertical beams are fixedly arranged at the tops of the float groups, and photovoltaic plate mounting frames are fixedly arranged at the tops of the vertical beams; adjacent two be equipped with the spacing post of flotation pontoon between the flotation pontoon group, the fixed cable rope that is cruciform structure that is equipped with of lateral wall of the spacing post of flotation pontoon, the cable rope is kept away from the one end and the adjacent two of the spacing post of flotation pontoon the lateral wall fixed connection of flotation pontoon group. The utility model discloses the equipment of being convenient for has reduced constructor's operating strength, and the stability in use is strong, has improved the safety in utilization.

Description

Photovoltaic power generation floats link plate truss group

Technical Field

The utility model relates to a photovoltaic power generation technical field especially relates to a floating link plate truss group of photovoltaic power generation.

Background

Solar photovoltaic power generation is developed rapidly as a green clean renewable energy source, but the development of a land solar photovoltaic power station is greatly limited due to the fact that land solar photovoltaic power generation needs to occupy larger land area and scarcity of land resources, and therefore solar photovoltaic power generation equipment can be installed on the water surface.

The floating hanging plate truss for photovoltaic power generation at present needs to be installed on the water surface, so that the requirement on the installation structure of the floating hanging plate truss is high, the installation structure of the floating hanging plate truss needs to be easy to operate, and the operation intensity of water surface constructors can be reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that the floating hanging plate truss group for photovoltaic power generation is not convenient to install in the prior art, and providing a floating hanging plate truss group for photovoltaic power generation.

In order to realize the purpose, the utility model adopts the following technical scheme:

a photovoltaic power generation floating hanging plate truss group comprises a plurality of floating cylinder groups which are uniformly distributed, wherein a cross beam is fixedly arranged between every two adjacent floating cylinder groups, a plurality of vertical beams which are uniformly distributed are fixedly arranged at the tops of the plurality of floating cylinder groups, and photovoltaic plate mounting frames are fixedly arranged at the tops of the plurality of vertical beams;

adjacent two be equipped with the spacing post of flotation pontoon between the flotation pontoon group, the fixed cable rope that is the cruciform structure that is equipped with of lateral wall of the spacing post of flotation pontoon, the cable rope is kept away from the one end and the adjacent two of the spacing post of flotation pontoon the lateral wall fixed connection of flotation pontoon group.

Furthermore, the buoy group comprises multisection flotation pontoon, and adjacent two be provided with the semicircle snap ring and the semicircle draw-in groove of mutual matching between the flotation pontoon.

Further, the both ends of flotation pontoon are all fixed and are equipped with the bracket, the lateral wall of bracket is equipped with crossbeam installation position and longeron installation position, the crossbeam passes through crossbeam installation position fixed mounting in on the flotation pontoon, erect the roof beam and pass through longeron installation position fixed mounting in on the flotation pontoon.

Furthermore, the post wall of the spacing post of flotation pontoon slides and overlaps and is equipped with the combination string rope ring, the stay cord hole has all been seted up to the both ends outer wall of flotation pontoon, the one end of stay cord with combination string rope ring fixed connection, and the other end of stay cord with stay cord hole fixed connection.

Furthermore, the column wall top cover of the spacing post of flotation pontoon is equipped with the string ring and keeps off the hoop, the lateral wall that the string ring kept off the hoop be equipped with the fender hoop fixed pin that the spacing post of flotation pontoon was pegged graft and is set up.

Furthermore, both ends of the buoy group are fixedly provided with buoy flange plugs.

Further, the spacing post of flotation pontoon adopts the solid rod of combined material, and the lower extreme of the spacing post of flotation pontoon adopts the pointed end setting.

Compared with the prior art, the utility model provides a photovoltaic power generation floats link plate truss group possesses following beneficial effect:

1. this photovoltaic power generation floats link plate truss group adopts a plurality of flotation pontoons to constitute through the flotation pontoon group, and through semicircle snap ring and semicircle draw-in groove fixed connection between two adjacent flotation pontoons to can assemble flotation pontoon group fast.

2. This photovoltaic power generation floats link plate truss group through setting up the bracket at the flotation pontoon both ends, and is provided with crossbeam installation position and longeron installation position on the bracket, can be with crossbeam and perpendicular roof beam fixed mounting on the bracket to can install the crossbeam on the flotation pontoon group with perpendicular roof beam.

3. This photovoltaic power generation floats link plate truss group, through the spacing post of the flotation pontoon that is equipped with, stay rope and string rope ring fender hoop, according to the difference of water level, the floating height of pontoon group is different for the combination string rope ring slides on the spacing post of flotation pontoon, and the lower extreme of the spacing post of flotation pontoon inserts at the bottom, thereby makes the position of pontoon group obtain the restriction, makes the use steadiness of pontoon group.

The part that does not relate to among the device all is the same with prior art or can adopt prior art to realize, the utility model discloses the equipment of being convenient for has reduced constructor's operating strength, and the stability in use is strong, has improved the safety in utilization.

Drawings

Fig. 1 is a schematic structural view of a photovoltaic power generation floating hanging plate truss group provided by the utility model;

FIG. 2 is a schematic top view of the structure of FIG. 1;

FIG. 3 is a schematic view of the semi-circular clasp of FIG. 2;

fig. 4 is a schematic structural view of the semicircular clamping groove in fig. 2.

In the figure: 1. a buoy group; 2. a cross beam; 3. a vertical beam; 4. a photovoltaic panel mounting rack; 5. a float limiting column; 6. a pull cord; 7. a float bowl; 8. a semicircular snap ring; 9. a semicircular clamping groove; 10. a beam mounting position; 11. a longitudinal beam mounting position; 12. combining a rope hanging ring; 13. a rope pulling hole; 14. a rope hanging ring retaining hoop; 15. a stop hoop fixing pin; 16. a buoy flange plug; 17. a bracket.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1-4, a photovoltaic power generation floating hanging plate truss group comprises a plurality of floating cylinder groups 1 which are uniformly distributed, wherein floating cylinder flange plugs 16 are fixedly arranged at two ends of each floating cylinder group 1, and the two ends of each floating cylinder group 1 can be plugged and sealed; a cross beam 2 is fixedly installed between every two adjacent buoy groups 1, a plurality of uniformly distributed vertical beams 3 are fixedly arranged at the tops of the buoy groups 1, and photovoltaic panel installation frames 4 are fixedly installed at the tops of the vertical beams 3; a buoy limit column 5 is arranged between every two adjacent buoy groups 1, the buoy limit columns 5 are made of composite solid bars, and the lower ends of the buoy limit columns 5 are arranged at the top ends, so that the buoy limit columns 5 can be conveniently inserted into underwater soil; the fixed cable rope 6 that is the cruciform structure that is equipped with of lateral wall of the spacing post of flotation pontoon 5, the one end that the spacing post of flotation pontoon 5 was kept away from to cable rope 6 and the lateral wall fixed connection of two adjacent flotation pontoon groups 1.

The buoy group 1 is composed of a plurality of sections of buoys 7, semicircular snap rings 8 and semicircular clamping grooves 9 which are matched with each other are arranged between every two adjacent buoys 7, the buoy group 1 is convenient to disassemble into the buoys 7, and the sizes of the buoys 7 are allowed by available automobile transportation standards, so that the buoy group is convenient to transport.

All fixed bracket 17 that is equipped with in the both ends of flotation pontoon 7, bracket 17's lateral wall is equipped with crossbeam installation position 10 and longeron installation position 11, and crossbeam 2 passes through crossbeam installation position 10 fixed mounting on flotation pontoon 7, erects roof beam 3 and passes through longeron installation position 11 fixed mounting on flotation pontoon 7, and bracket 17 is equipped with the mounting hole, can guarantee to carry out fixed mounting with crossbeam 2 and perpendicular roof beam 3.

The column wall of the buoy limiting column 5 is slidably sleeved with a combined rope hanging ring 12, the outer walls of two ends of the buoy 7 are respectively provided with a rope pulling hole 13, one end of a rope pulling rope 6 is fixedly connected with the combined rope hanging ring 12, and the other end of the rope pulling rope 6 is fixedly connected with the rope pulling hole 13; the column wall top cover of the spacing post 5 of flotation pontoon is equipped with hanging ring fender hoop 14, and the lateral wall of hanging ring fender hoop 14 is equipped with the fender hoop fixed pin 15 of pegging graft setting with the spacing post 5 of flotation pontoon, and hanging ring fender hoop 14 can restrict the sliding position of combination string ring 12 on the spacing post 5 of flotation pontoon.

The frame structure is made of a high-molecular composite material which is corrosion-resistant, salt-alkali resistant, ageing-resistant, weather-resistant and maintenance-free.

The utility model discloses in, during the use, assemble a plurality of flotation pontoons 7 earlier, make 7 end to end connections of flotation pontoon and connect through semicircle snap ring 8 and semicircle draw-in groove 9, fix crossbeam 2 at the top of flotation pontoon group 1 again, erect roof beam 3 and fix at the top of flotation pontoon group 1, fix photovoltaic board mounting bracket 4 at the top of erecting roof beam 3 simultaneously, then put into spacing post 5 of flotation pontoon between two adjacent flotation pontoon groups 1 and make the lower extreme of spacing post 5 of flotation pontoon insert in submarine soil, fixed connection guy cable rope 6 between bracket 17 on combination string ring 12 and flotation pontoon group 1 after that, and guy cable rope 6 is the setting of cross distribution, thereby can be according to the difference of water level, flotation height of flotation pontoon group 1 is different, make combination string ring 12 slide adjusting on spacing post 5 of flotation pontoon.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. A photovoltaic power generation floating hanging plate truss group comprises a plurality of buoy groups (1) which are uniformly distributed, and is characterized in that a cross beam (2) is fixedly installed between every two adjacent buoy groups (1), a plurality of uniformly distributed vertical beams (3) are fixedly arranged at the tops of the buoy groups (1), and photovoltaic plate mounting frames (4) are fixedly installed at the tops of the vertical beams (3);

adjacent two be equipped with spacing post of flotation pontoon (5) between flotation pontoon group (1), the fixed cable rope (6) that are the cruciform structure that are equipped with of lateral wall of spacing post of flotation pontoon (5), cable rope (6) are kept away from the one end and the adjacent two of spacing post of flotation pontoon (5) the lateral wall fixed connection of flotation pontoon group (1).

2. The photovoltaic power generation floating hanging plate truss group according to claim 1, wherein the buoy set (1) is composed of a plurality of buoys (7), and a semicircular snap ring (8) and a semicircular snap groove (9) which are matched with each other are arranged between every two adjacent buoys (7).

3. The photovoltaic power generation floating hanging plate truss group as claimed in claim 2, wherein brackets (17) are fixedly arranged at both ends of the buoy (7), a cross beam mounting position (10) and a longitudinal beam mounting position (11) are arranged on the side wall of each bracket (17), the cross beam (2) is fixedly arranged on the buoy (7) through the cross beam mounting position (10), and the vertical beam (3) is fixedly arranged on the buoy (7) through the longitudinal beam mounting position (11).

4. The photovoltaic power generation floating hanging plate truss group as claimed in claim 2, wherein the column wall of the buoy limiting column (5) is slidably sleeved with a combined hanging rope ring (12), the outer walls of two ends of the buoy (7) are respectively provided with a pulling rope hole (13), one end of the pulling rope (6) is fixedly connected with the combined hanging rope ring (12), and the other end of the pulling rope (6) is fixedly connected with the pulling rope hole (13).

5. The photovoltaic power generation floating hanging plate truss group according to claim 1, wherein a rope hanging ring retaining hoop (14) is sleeved on the top of the column wall of the float limiting column (5), and retaining hoop fixing pins (15) inserted into the float limiting column (5) are arranged on the side wall of the rope hanging ring retaining hoop (14).

6. The photovoltaic power generation floating hanging plate truss group according to claim 1, wherein both ends of the buoy group (1) are fixedly provided with buoy flange plugs (16).

7. The photovoltaic power generation floating hanging plate truss group as claimed in claim 1, wherein the buoy limit columns (5) are made of composite solid bars, and the lower ends of the buoy limit columns (5) are arranged at pointed ends.

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