CN213402882U

CN213402882U - Be adapted to big subassembly photovoltaic system on water

Info

Publication number: CN213402882U
Application number: CN202022600366.6U
Authority: CN
Inventors: 张生朝; 张�杰; 姚美齐
Original assignee: Suzhou Branch Of Sichuan Atlas Engineering Design Co ltd; Suzhou Atsi New Energy Development Co ltd
Current assignee: Suzhou Branch Of Sichuan Atlas Engineering Design Co ltd; Suzhou Atsi New Energy Development Co ltd
Priority date: 2020-11-11
Filing date: 2020-11-11
Publication date: 2021-06-08
Anticipated expiration: 2030-11-11

Abstract

The utility model discloses a be adapted to big subassembly photovoltaic system on water, include: floating platform, support and photovoltaic module. The floating platform is provided with a plurality of rows of floating body units which are arranged in parallel and a plurality of connecting floating bodies which are connected between two adjacent floating body units. The support is provided with a plurality of and sets up on floating platform along longitudinal arrangement, and the support has and connects the support body that the body is connected fixed and set up in support body top and a pair of bearing support body that the slope set up dorsad. The photovoltaic modules are correspondingly fixed on the bearing frame body which is obliquely arranged back to back in pairs. The utility model discloses a two slopes are arranged, fix photovoltaic module respectively in pairs on the support body that bears that the slope set up dorsad, can reduce area, increase installed capacity. Meanwhile, the support is used for installing and fixing the photovoltaic module on two sides, and the bearing support bodies which are arranged back to back are arranged on the support so as to conveniently realize the installation and the fixation of the photovoltaic module.

Description

Be adapted to big subassembly photovoltaic system on water

Technical Field

The utility model relates to a photovoltaic technology field, especially a photovoltaic system on water that is adapted to big subassembly.

Background

The traditional solar power station is based on land and roof, but with the rapid expansion of the installation capacity of the solar power station in recent years, the available land is less and less, and the land becomes a scarce resource; the resources of the roof power station are also scarce, and most roofs need to be reinforced to meet the construction requirements of the solar power station. In this case, photovoltaic systems on water adapted to large assemblies are present on the market.

A photovoltaic system suitable for large assemblies in the prior art generally comprises a floating platform and a photovoltaic assembly arranged on the floating platform, wherein the photovoltaic assembly is fixed on the floating platform through a support. Due to the generally limited size of the floating platform on the water surface. In the prior art, the utilization rate of the floating platform is low by a mounting and fixing mode of the light resistance assembly on the floating platform, and the space of the floating platform cannot be fully utilized.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an it is adapted to big subassembly photovoltaic system on water to solve not enough among the prior art, it can fix photovoltaic module respectively in pairs on the support body that bears that the slope set up dorsad, all installs photovoltaic module in support both sides, can reduce area, increase installed capacity.

The utility model provides a be adapted to big subassembly photovoltaic system on water, include:

the floating platform is provided with a plurality of rows of floating body units which are arranged in parallel and a plurality of connecting floating bodies which are connected between two adjacent floating body units;

the bracket is provided with a plurality of supporting frame bodies which are arranged on the floating platform along the longitudinal direction, and each supporting frame body is provided with a supporting frame body which is fixedly connected with the connecting floating body and a pair of bearing frame bodies which are arranged above the supporting frame bodies and are obliquely arranged back to back;

and the photovoltaic modules are correspondingly fixed on the bearing frame body which is obliquely arranged back to back in pairs.

As a further improvement of the utility model, the pair of bearing frame bodies are symmetrically arranged on the supporting frame body.

As a further improvement, the inclination angle of the bearing frame body is not more than 10 degrees.

As a further improvement of the utility model, be provided with the floorbar on the support body, connect the center connection post and the symmetry setting in the middle of the floorbar and be in two marginal spliced poles of the relative both sides of center connection post, center connection post height is higher than marginal spliced pole, it is fixed with center connection post and corresponding marginal spliced pole connection respectively to bear the support body.

As a further improvement of the utility model, photovoltaic module is fixed through compressing tightly the installation of piece bear on the support body, it has and follows to compress tightly the piece bear the gliding briquetting of the extending direction of support body and will the briquetting locking is fixed bear the retaining member on the support body.

As a further improvement of the utility model, each row of floating body units comprises a plurality of main floating bodies which are sequentially connected along the longitudinal direction, and the connecting floating bodies are connected between two main floating bodies which are opposite along the transverse direction;

the floating platform is also provided with a walkway floating body which is arranged at the edge position of the floating body unit and is fixedly connected with the floating body unit, and two walkway floating bodies at opposite positions on the adjacent floating body units are also connected through the connecting floating body.

As a further improvement of the present invention, the main floating body has a body portion extending along a longitudinal direction, main connecting portions disposed at opposite sides of the body portion, and an intermediate connecting portion located between the two main connecting portions; the connecting floating body is fixedly arranged on the middle connecting part; the main connecting parts are fixedly connected with the main connecting parts on the adjacent main floating bodies.

As a further improvement of the utility model, the main connecting part comprises a pair of hanging lugs arranged at one end of the body part, and the hanging lugs at opposite positions on two adjacent main floating bodies are stacked up and down and are connected and fixed through a locking part;

one end of the body part is also provided with a limiting abutting part arranged between the pair of hanging lugs, and after the two adjacent main floating bodies are connected and fixed, the two opposite limiting abutting parts are abutted with each other.

As a further improvement of the utility model, the connecting floating body is provided with a connecting body part and floating body connecting parts which are arranged on two opposite side surfaces of the connecting body part and protrude outwards; a groove which is sunken inwards and is matched with the floating body connecting part is formed on the side surface of the body part, and the middle connecting part is arranged in the groove and is used for being connected and fixed with the floating body connecting part;

the connecting body part is also provided with a first abutting part, and the body part is provided with a second abutting part; and the second abutting part abuts against the first abutting part after the intermediate connecting part is fixedly connected with the floating body connecting part.

As a further improvement of the utility model, one end of the connecting floating body is connected and fixed with the main floating body at least through two floating body connecting parts; correspondingly, at least two intermediate connecting parts are also arranged on the body part, a first bracket mounting part used for being connected and fixed with the bracket is also arranged between the two intermediate connecting parts, and a plurality of second bracket mounting parts connected and fixed with the bracket are also arranged on the connecting body part.

Compared with the prior art, the utility model discloses a two slopes are arranged, fix photovoltaic module respectively in pairs on the bearing frame body that the slope set up dorsad, all install photovoltaic module in support both sides, can reduce area, increase installed capacity, can be more in limited space arrange photovoltaic module to improve whole floating platform's space availability factor. Meanwhile, a support for installing and fixing the photovoltaic module is arranged, and a bearing frame body which is arranged back to back is arranged on the support so as to conveniently realize the installation and fixation of the photovoltaic module.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a large-module waterborne photovoltaic system according to an embodiment of the present invention;

fig. 2 is a schematic partial structure diagram of a photovoltaic system adapted to a large module above water according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a bracket adapted to a large-module above-water photovoltaic system according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a main floating body adapted to a large-module above-water photovoltaic system disclosed by the embodiment of the invention;

fig. 5 is a schematic structural view of a connection floating body adapted to a large-module above-water photovoltaic system disclosed by the embodiment of the invention;

fig. 6 is a schematic structural view of a walkway floating body in a large-module above-water photovoltaic system disclosed by the embodiment of the invention;

description of reference numerals: 1-floating platform, 11-floating body unit, 110-groove, 111-main floating body, 112-body part, 1121-second abutting part, 113-main connecting part, 1131-hanging lug, 1132-limiting abutting part, 114-middle connecting part, 115-first bracket mounting part, 12-connecting floating body, 121-connecting body part, 122-floating body connecting part, 1211-first abutting part, 1212-second bracket mounting part, 13-walkway floating body, 2-bracket, 21-support frame body, 211-bottom beam, 212-middle connecting column, 213-edge connecting column, 22-bearing frame body, 221-first supporting rod, 222-second supporting rod, 3-photovoltaic module and 4-pressing block.

Detailed Description

The embodiments described below by referring to the drawings are exemplary only for explaining the present invention, and should not be construed as limiting the present invention.

The embodiment of the utility model provides a: as shown in fig. 1-6, a large assembly above-water photovoltaic system is disclosed, comprising: the photovoltaic module comprises a floating platform 1, a plurality of supports 2 arranged on the floating platform 1 and a photovoltaic module 3 fixed on the supports 2, wherein the photovoltaic module 3 is fixed on the floating platform 1 through the supports 2. The floating platform 1 can float on the water surface, so the arrangement of the photovoltaic module 3 on the water body can be realized through the mode, the photovoltaic system is mainly suitable for deeper water area environments such as reservoirs, large fishponds, near offshore areas, the water surface of coal mining subsidence areas and the like, the use position of the photovoltaic module 3 is widened, and the better light energy power generation is realized by using the wide water surface.

The support 2 is provided in plurality and arranged in parallel on the floating platform 1, in this embodiment the floating platform 1 has a plurality of rows of floating body units 11 arranged in parallel and a plurality of connecting floating bodies 12 connected between two rows of floating body units 11, wherein the connecting floating bodies 12 are arranged vertically between two rows of floating body units 11 and the connecting floating bodies 12 are arranged in parallel in the transverse direction. In order to realize more stable installation and fixation of the bracket 2, the bracket 2 is installed and fixed on the connecting floating body 12, and simultaneously, the bracket 2 is also connected and fixed with two connected rows of floating units 11. Each support 2 has a corresponding connecting float 12 associated therewith.

Specifically, as shown in fig. 3, a support frame body 21 and a pair of support frame bodies 22 which are arranged above the support frame body and are inclined away from each other are arranged on the support frame 2, wherein the support frame bodies 22 are used for installing and fixing the photovoltaic module 3, and the support frame body 21 is used for being connected and fixed with the connection floating body 12. The carrier 22 includes a first support rod 221 and a second support rod 222 obliquely disposed at opposite sides of the support frame 21, wherein an oblique direction of the first support rod 221 is opposite to an oblique direction of the second support rod 222.

The photoresist assemblies 3 are fixedly arranged on the bearing frame body which is obliquely arranged back to back in pairs. Each carrier 22 is provided with a corresponding photovoltaic module 3 corresponding thereto. After the photovoltaic module 3 is mounted and fixed on the carrier body 22, the inclination direction and the inclination angle of the photovoltaic module 3 are consistent with those of the carrier body 22. Therefore, the two photovoltaic modules 3 fixed to the first support bar 221 and the second support bar 222 are inclined in opposite directions. It should be noted that in order to ensure the stability of the installation and fixation of the photovoltaic module 3, the photovoltaic module 3 may transversely span a plurality of carrier bodies 22 after the installation and fixation, and it is preferable that each photovoltaic module 3 is transversely connected and fixed with two carrier bodies 22.

In this implementation, be equipped with support 2 on floating platform to thereby set up support 2 to contain two bearing frame body 22 that the slope set up dorsad and thereby realized assembling two photovoltaic module 3 that the slope set up mutually back to back on a support 2, realized setting up more photovoltaic module 3 on limited floating platform 1, thereby improve whole floating platform 1's application efficiency. In the prior art, the common scheme is that the photovoltaic modules 3 are arranged in parallel along a single direction, in order to avoid the influence of the shadow of the photovoltaic module on the front side on the shadow of the photovoltaic module on the rear side, enough gaps are needed between the photovoltaic module and the shadow, and the arrangement of the structure inevitably causes the waste of the space of the floating platform. The photovoltaic modules 3 can be arranged more in a limited space, so that the space utilization efficiency of the whole floating platform 1 is improved. It should be noted that the orientation of the photoresist assembly 3 in the prior art generally points to the south side after being installed and fixed, in this embodiment, due to the adoption of the double-slope arrangement, the photovoltaic assemblies 3 are installed on both sides, and in order to enable the photovoltaic assemblies 3 on both sides to be irradiated by sufficient sunlight, the photovoltaic assemblies 3 are installed and fixed and then are inclined towards the east-west direction.

For better installation, the pair of carrier bodies 22 are symmetrically disposed on the support body 21 in this embodiment, and the inclination angle of the carrier bodies 22 does not exceed 10 °. The illumination effect of the photovoltaic module 3 on the carrier body 22 is affected by the too large inclination angle of the carrier body. The inclination angle that will bear support body 22 sets into the low-angle, and the cooperation simultaneously sets up the nearly level and smooth curved surface that can make two photovoltaic module 3 totalities after the installation present as middle slight perk with the bearing support body 22 symmetry of both sides to better illumination effect has been guaranteed.

In order to better achieve the stability of the installation and fixation of the photovoltaic module 3, an isosceles triangle structure is formed between the symmetrically arranged carrier bodies 22 arranged on the support body 21. The pair of carrier bodies 22 are connected to each other. The support frame body 21 is provided with a bottom beam 211, a middle connecting column 212 arranged in the middle of the bottom beam 211 and edge connecting columns 213 symmetrically arranged on two opposite sides of the middle connecting column 212, and the edge connecting columns 213 are also fixed on the bottom beam 211. The height of the middle connection column 212 is higher than that of the edge connection columns 213 at the two sides, the carrier bodies 22 are respectively connected and fixed with the middle connection column 212 and the corresponding edge connection columns 213, the pair of carrier bodies 22 are mutually connected and fixed, and the mutual connection positions of the pair of carrier bodies 22 are fixed on the middle connection column 212, that is, the pair of carrier bodies 22 share one middle connection column 212. The floorbar 211 is fixedly connected with the connecting floating body 12, two ends of the floorbar 211 extend out of the connecting floating body 12 and extend to the floating body units 1 on two sides and are fixed on the floating body units 1, and the installation fixation of the frame body 2 and the installation fixation of the photovoltaic assembly 3 on the frame body 2 are realized simultaneously through the arrangement of the structure. The bracket 2 is made of aluminum alloy. In this embodiment, the bracket 2 can also be used for installing and fixing cables in the photovoltaic array, so that the cables are prevented from being easily damaged due to water immersion.

In this embodiment, the photovoltaic module 3 is fixed on the carrier body 22 by a pressing member, and the pressing member has a pressing block 4 that can slide along the extending direction of the carrier body and a locking member that locks and fixes the pressing block 4 on the carrier body 22. Bear the weight of the spout that is provided with on the support body 22 in this embodiment and set up along its extending direction, the retaining member have lock bolt with the lock nut of lock bolt looks adaptation, lock bolt's nut slides and sets up in the spout, and the notch position of spout inwards contracts in order to form the butt limiting plate, and the butt limiting plate is followed the spout slippage with the restriction nut with nut looks butt. The screw rod of the locking bolt penetrates through the pressing block 4 and is in threaded fit with the locking bolt so as to tightly press and fix the pressing block on the bearing frame body 22, and the pressing block 4 is provided with a pressing part used for abutting against the photovoltaic module 3. Two pressing blocks 4 are arranged on each bearing frame body 22 to realize compression joint fixation of the photovoltaic modules 3, and the two pressing blocks 4 are respectively arranged on two opposite sides of the photovoltaic modules 3 and respectively compress and fix the edges of the photovoltaic modules 3. Set briquetting 4 to the photovoltaic module 3 that can be suitable for multiple size to slidable setting on bearing frame body 22, can adjust according to photovoltaic module 3's actual size to can improve support 2's suitability.

In this embodiment, each floating body unit 11 includes a plurality of main floating bodies 111 connected in sequence in a transverse direction, and the connecting floating bodies 12 are used for connecting two main floating bodies 111 opposite in the transverse direction. That is, two rows of floating body units 11 arranged in parallel are connected and fixed between two main floating bodies 111 facing each other in the transverse direction by connecting floating bodies 12.

The floating platform 1 also has walkway floats 13 which are arranged at the edge of the floating body units 11 and are fixedly connected with the floating body units 11, and the two walkway floats 13 at opposite positions on the adjacent floating body units 11 are also connected through the connecting floats 12.

Set up pavement body 13 at the border position of body unit 11 in this embodiment to through connecting body 12 and connecting two adjacent pavement bodies 13, make pavement body 13 and connect and constitute the pavement between body 12 together, the setting of this pavement can make things convenient for personnel to move on floating platform 1, and simultaneously, the border position of body unit 11 realizes the connection of parallel arrangement's body unit 11 at the border position through the cooperation of pavement body 13 and connection body 12, thereby make body unit 11, the edge of connecting floating platform 1 that the amalgamation becomes between body 12 and the pavement body 13 is complete rectangular structure, can improve the stability of whole floating platform 1. In the prior art, as the arrangement of the walkway floating bodies 13 is not arranged at the edge position, part of the main floating bodies 111 can protrude to form redundant parts, and if people want to move back and forth between the two floating body units 11, more redundant main floating bodies 111 and connecting floating bodies need to be arranged, so that waste is caused, and the spliced floating platform 1 is not good for stability while the appearance is influenced due to incomplete patterns. In the embodiment, only three types of floating body structures, namely the main floating body 111, the connecting floating body 12 and the walkway floating body 13, are configured, and the ideal floating platform 1 can be spliced by only the three simple floating body structures, so that construction is more conveniently realized.

Specifically, as shown in fig. 4, the main floating body 111 has a body portion 112 extending in a transverse direction, main connection portions 113 and intermediate connection portions 114 disposed at opposite sides of the body portion 112; the intermediate connection portion 114 is disposed between the two main connection portions 113. The intermediate connection portion 114 and the main connection portion 113 are provided at intervals, and are independent from each other and do not affect each other or share each other. The connecting float 12 is fixedly mounted on the intermediate connecting portion 114; the main connecting portion 113 is fixedly connected to the main connecting portion 113 of the adjacent main floating body 111. In the prior art, the connecting floating body 12 and the main floating body 111 are often connected by using one connecting part in the process of fixedly connecting the floating body 12, namely, the middle connecting part 114 and the main connecting part 113 are partially overlapped, so that the arrangement of the structure needs to simultaneously consider the alignment of the positions of three parts in the installation and fixation process, thereby causing inconvenience in the installation and fixation process, and the fasteners are also easy to cause insecurity of connection when the adjacent two main floating bodies 111 are connected and the connecting floating body 12 are connected simultaneously. In the embodiment, the connecting floating body 12 is independently arranged in the middle of the main floating body 111 and is connected with the floating body 12, so that the connection and fixation of the main floating body 111 are not influenced, and the mounting, dismounting and adjustment of the floating platform 1 are conveniently realized.

Specifically, the main connection portion 113 includes a pair of hanging lugs 1131 disposed at one end of the body portion 112, and the hanging lugs 1131 disposed opposite to each other on two adjacent main floating bodies 111 are stacked up and down and are connected and fixed through a locking member.

One end of the body 112 further has a limit abutting portion 1132 disposed between the pair of the hanging lugs 1131, and after the adjacent two main floating bodies 111 are connected and fixed, the two opposite limit abutting portions 1132 abut against each other.

The main floating body 111 is fixedly connected through the two hanging lugs 1131, the limiting abutting part 1132 is arranged between the two hanging lugs 1131, so that the two main floating bodies 111 connected with each other are limited through the limiting abutting part 1132 which is arranged oppositely, and the stability of installation and fixation of the two main floating bodies 111 can be further improved through the arrangement of the structure. Correspondingly, the walkway floating body 13 disposed at the edge of the floating body unit 11 is also connected and fixed to the adjacent main floating body 111 through the above structure, which is not described herein.

As shown in fig. 5, the connection float 12 has a connection body portion 121, float connection portions 122 provided at opposite sides of the connection body portion 121 and protruding outward; a groove 110 which is sunken inwards and is matched with the floating body connecting part is formed on the side surface of the body part 112, and the middle connecting part 114 is arranged in the groove 110 and is used for being connected and fixed with the floating body connecting part 122; the intermediate connecting portion 114 may be a hanging lug provided on the body portion 112, and the floating body connecting portion 122 is a connecting hanging lug provided on the connecting body portion 121. The hanging lug is arranged in the groove 110 on the body part 112 and then is fixedly connected with the floating body connecting part 122 on the connecting body part 121, and the groove 110 can form a certain positioning on the connecting body part 121 so as to more conveniently realize the connection and the fixation of the connecting body part 121 and the floating body connecting part 122.

The connecting body 121 further has a first abutting portion 1211, and the body 112 has a second abutting portion 1121; after the intermediate connection portion 114 and the floating body connection portion 122 are connected and fixed, the second abutting portion 1121 abuts against the first abutting portion 1211. The first abutting portion 1211 and the second abutting portion 1121 are cooperatively disposed to better achieve the stability of the connection and fixation of the connecting floating body 12 and the main floating body 111.

One end of the connecting floating body 12 is fixedly connected with the main floating body 111 through at least two floating body connecting parts 122; correspondingly, at least two intermediate connecting portions 114 are also provided on the main body portion 112, a first bracket mounting portion 115 for connecting and fixing with the bracket 2 is also provided between the two intermediate connecting portions 114, and a plurality of second bracket mounting portions 1212 for connecting and fixing with the bracket 2 are also provided on the connecting main body portion 121.

The structure, features and effects of the present invention have been described in detail above according to the embodiment shown in the drawings, and the above description is only the preferred embodiment of the present invention, but the present invention is not limited to the implementation scope shown in the drawings, and all changes made according to the idea of the present invention or equivalent embodiments modified to the same changes should be considered within the protection scope of the present invention when not exceeding the spirit covered by the description and drawings.

Claims

1. A photovoltaic system adapted to large assemblies on water, comprising:

2. The large assembly above water photovoltaic system of claim 1, wherein: the pair of bearing frame bodies are symmetrically arranged on the supporting frame body.

3. The large assembly above water photovoltaic system of claim 1, wherein: the inclination angle of the bearing frame body is not more than 10 degrees.

4. The large assembly above water photovoltaic system of claim 1, wherein: the support frame body is provided with a bottom beam, a middle connecting column connected in the middle of the bottom beam and two edge connecting columns symmetrically arranged on two opposite sides of the middle connecting column, the middle connecting column is higher than the edge connecting columns, and the bearing frame body is fixedly connected with the middle connecting column and the corresponding edge connecting columns respectively.

5. The large assembly above water photovoltaic system of claim 1, wherein: the photovoltaic module is fixed on the bearing frame body through a pressing piece, and the pressing piece is provided with a pressing block capable of sliding along the extending direction of the bearing frame body and a locking piece capable of locking and fixing the pressing block on the bearing frame body.

6. The large assembly above water photovoltaic system of claim 1, wherein: each row of floating body units comprises a plurality of main floating bodies which are sequentially connected along the longitudinal direction, and the connecting floating bodies are connected between two main floating bodies which are opposite along the transverse direction;

7. The large assembly above water photovoltaic system of claim 6, wherein: the main floating body is provided with a body part extending along the longitudinal direction, main connecting parts arranged at two opposite sides of the body part and an intermediate connecting part positioned between the two main connecting parts; the connecting floating body is fixedly arranged on the middle connecting part; the main connecting parts are fixedly connected with the main connecting parts on the adjacent main floating bodies.

8. The large assembly above water photovoltaic system of claim 7, wherein: the main connecting part comprises a pair of hanging lugs arranged at one end of the body part, and the hanging lugs at opposite positions on two adjacent main floating bodies are vertically stacked and connected and fixed through a locking part;

9. The large assembly above water photovoltaic system of claim 8, wherein: the connecting floating body is provided with a connecting body part and floating body connecting parts which are arranged on two opposite side surfaces of the connecting body part and protrude outwards; a groove which is sunken inwards and is matched with the floating body connecting part is formed on the side surface of the body part, and the middle connecting part is arranged in the groove and is used for being connected and fixed with the floating body connecting part;

10. The large-module above-water photovoltaic system of claim 9, wherein: one end of the connecting floating body is fixedly connected with the main floating body through at least two floating body connecting parts; correspondingly, at least two intermediate connecting parts are also arranged on the body part, a first bracket mounting part used for being fixed with the bracket is also arranged between the two intermediate connecting parts, and a plurality of second bracket mounting parts fixed with the bracket are also arranged on the connecting body part.