CN110492830A - Solar components floating system and its structure - Google Patents

Abstract

The present invention provides a kind of solar components floating system and its structures, including modular assembly, the modular assembly includes float structure and mounting structure, the float structure includes two the first floating bodies being oppositely arranged and the second floating body between two the first floating bodies, the mounting structure includes the interconnecting piece for the mounting portion of installation photovoltaic component and for connecting two the first floating bodies and second floating body, and with the first connection structure for being connected with the first floating body of adjacent modular assemblies on first direction on first floating body, there are two be oppositely arranged and be respectively used to connect the second connection structure of the interconnecting piece of adjacent modular assemblies in the interconnecting piece and second direction tool on first floating body, the first direction is mutually perpendicular to second direction.The present invention constitutes floating system using modular floating structure, can need to adjust the quantity of modular assembly according to project, reduce system cost most possibly in the case where meeting project demand.

Description

Solar components floating system and its structure

Technical field

The invention belongs to technical field of photovoltaic modules, more particularly, to a kind of solar components floating system and its structure.

Background technique

Current floating photovoltaic system, provides the buoyancy of needs using the floating body of fixed shape, but this fixation The floating body of shape is in the higher project of some buoyancy requirements, it is understood that there may be because buoyancy is unsatisfactory for the feelings that can not implement due to requirement Condition, and can not be configured accordingly according to the configuration of project.

In addition, the floating system of the prior art is since there is also following defects: 1, floating body size mistake for the limitation of float structure 2 Greatly, larger to the interference of the ecosystem in water, violate the principle of ecological protection；2, float structure is irregular and volume is larger, Not readily transportable, storage and installation.

Summary of the invention

Regarding the issue above, the present invention provides a kind of floating structure for solar components floating system；

It is another object of the present invention in view of the above-mentioned problems, provide it is a kind of based on above-mentioned floating structure for solar energy group Part floating system.

In order to achieve the above objectives, present invention employs following technical proposals:

A kind of floating structure for solar components floating system, including modular assembly, the modular assembly include floating Body structure and mounting structure, the float structure include two the first floating bodies being oppositely arranged and are located between two the first floating bodies The second floating body, the mounting structure includes for the mounting portion of installation photovoltaic component and for connecting two the first floating bodies and institute The interconnecting piece of the second floating body is stated, and is had on first floating body for the first floating body with adjacent modular assemblies on first direction The first connected connection structure, there are two be oppositely arranged and be respectively used to connect the interconnecting piece and for tool on first floating body The second connection structure of the interconnecting piece of adjacent modular assemblies, the first direction are mutually perpendicular to second direction on two directions.

In the above-mentioned floating structure for solar components floating system, second connection structure includes being located at institute State the mounting base of the first floating body upper surface or side, the both ends of the interconnecting piece, which are respectively provided with, to be adapted with the mounting base The both ends of installation end, the interconnecting piece are connected on two the first floating bodies by the installation end and mounting base.

In the above-mentioned floating structure for solar components floating system, the mounting structure includes at least two peaces Arrangement, each mounting assembly include the mounting portion and interconnecting piece, and at least two mounting assemblies phase in a first direction It is mutually arranged in parallel.

In the above-mentioned floating structure for solar components floating system, the mounting portion is in two-way plane or arc The mounting rod of shape structure, the interconnecting piece are the connecting rod in planar structure, and the both ends of the mounting rod pass through the peace respectively Dress end is connected with the both ends of the connecting rod.

In the above-mentioned floating structure for solar components floating system, has on the installation end and be horizontally mounted Hole, the mounting base be with the bearing block for being horizontally mounted the adaptable horizontal shaft hole in hole, the installation end is located at institute It states one side of bearing block and is horizontally mounted hole and be superimposed with horizontal shaft hole mutually level, pass through the water also cross mutual horizontal superposition Installation end is connected by bolt/pivot pin of flat mounting hole and horizontal shaft hole with bearing block.

In the above-mentioned floating structure for solar components floating system, the connecting rod is floating through described second Body；Alternatively, the connecting rod is located above second floating body, and it is connected on second floating body by bolt or briquetting.

In the above-mentioned floating structure for solar components floating system, first connection structure includes being fixed on It is located at the first floating body side wall or the structure of mounting hole close to the first floating body edge on first floating body, is worn by bolt/pin Two structure of mounting hole of adjacent first floating body are crossed so that two the first floating bodies to be connected.

In the above-mentioned floating structure for solar components floating system, first floating body is along the two of first direction A opposite flank is extended with extendable platform, and the structure of mounting hole includes at least two pins being provided on the extendable platform Hole.

In the above-mentioned floating structure for solar components floating system, two extendable platforms of each first floating body With different height, and when horizontal positioned one of extendable platform upper surface and another extendable platform lower surface phase It flushes.

A kind of solar components floating system, including several modular assemblies, several modular assemblies are with first direction Successively array arranges with second direction, to obtain the array type floating system using the modular assembly as junior unit, and first party It is connected between upward adjacent modular assemblies by the first connection structure, passes through the between the adjacent modular assemblies in second direction Two connection structures are connected.

The present invention has the advantages that 1, using modular floating structure constitute floating system, can be according to project needs The quantity for adjusting modular assembly, system cost is reduced in the case where meeting project demand most possibly；2, floating using two kinds Body can be met the requirements, and floating body type is few, and floating body regular shape, reduce demand when production, transport and storage；3, floating body ruler It is very little small compared with similar product, the hiding rare of water body is reduced, it is smaller to the disturbance of the ecosystem in water；4, it can be achieved between module fast Speed connection, improves in-site installation efficiency；5, arc or two-way planarized structure advantageously reduce wind load and the acquisition of array More solar energy irradiation.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of modular assembly in the embodiment of the present invention one；

Fig. 2 is the structural schematic diagram of mounting assembly in the embodiment of the present invention one；

Fig. 3 is the structural schematic diagram of the first floating body in the embodiment of the present invention one；

Fig. 4 is the structural schematic diagram of solar components floating system in the embodiment of the present invention two.

Appended drawing reference: modular assembly 1；Float structure 2；First floating body 21；Second floating body 22；Second connection structure 23；Peace Fill seat 231；Bearing block 232；Horizontal shaft hole 233；Extendable platform 24；Pin hole 25；First connection structure 26；Mounting structure 3；Peace Dress portion 31；Interconnecting piece 32；Installation end 33；Mounting assembly 34；It is horizontally mounted hole 35；First direction X；Second direction Y；Photovoltaic module 4。

Specific embodiment

The present invention will be further described in detail with reference to the accompanying drawings and detailed description.

Embodiment one

As shown in Figure 1, present embodiment discloses a kind of floating structure for solar components floating system, including module Component 1, modular assembly 1 include float structure 2 and mounting structure 3, and float structure 2 includes two the first floating bodies 21 being oppositely arranged And the second floating body 22 being located between two the first floating bodies 21, mounting structure 3 includes the mounting portion 31 for installation photovoltaic component 4 With the interconnecting piece 32 for connecting two the first floating bodies 21 and the second floating body 22, and on the first floating body 21 tool there are two being oppositely arranged And for the first connection structure 26 for being connected with the first floating body 21 of adjacent modular assemblies 1 on first direction X with to first direction X Splicing module component 1, there are two be oppositely arranged and be respectively used on connection interconnecting piece 32 and second direction Y for tool on the first floating body 21 Second connection structure 23 of the interconnecting piece 32 of adjacent modular assemblies 1 with to second direction Y splicing module component 1, first direction X with Second direction Y is mutually perpendicular to.

Further, mounting structure 3 here includes at least two mounting assemblies 34, before each mounting assembly 34 includes State mounting portion 31 and interconnecting piece 32, and at least two mounting assemblies 34 are arranged parallel to each other on X in a first direction, the present embodiment with For two mounting assemblies 34, two mounting assemblies 34 are connected to the both ends end on 21 first direction X of the first floating body, light The structure of glass-encapsulated can be used in volt component 4, or the structure of non-glass materials encapsulation, wherein non-glass structure envelope The structure of dress, can be to avoid photovoltaic module 4 in the process of running without containing the free sodium ion generated in glass by potential difference The generation of potential induction attenuation (PID).Packed 4 two sides of photovoltaic module are connected on the mounting portion 31 on both sides, and light Volt component 4 can be fixed on mounting portion 31 by modes such as briquetting, bolt or magnetic.

Specifically, as shown in Fig. 2, mounting portion 31 be in two-way plane or arcuate structure mounting rod, interconnecting piece 32 be in The connecting rod of planar structure, the both ends of mounting rod pass through installation end 33 respectively and are connected with the both ends of connecting rod.Mounting rod, installation End 33 and connecting rod are in integral structure, and can be made of engineering plastics, glass reinforced plastic or metal material.Photovoltaic module 4 is arc-shaped Structure or planar structure, when mounting portion 31 is arcuate structure, the arc-shaped structure of photovoltaic module 4, when photovoltaic module 4 is in When two-way plane, photovoltaic module 4 is in planar structure, and by the light of two or more planar structures in a modular assembly 1 Volt component 4 is composed.Using two-way plane or the mounting rod of arcuate structure, make light while providing support for photovoltaic module 4 Volt component 4 forms certain tilt angle, so as to obtain more solar energy irradiation, while can be improved the wind load of system Lotus.

Further, connecting rod runs through the second floating body 22；Alternatively, connecting rod is located at 22 top of the second floating body, and pass through spiral shell Bolt or briquetting are connected on the second floating body 22.Here two the first floating bodies 21 and second floating body 22 constitute a module group The basic elemental floating body of part 1, the first floating body 21 are connected simultaneously for the mounting structure 3 with adjacent modular assemblies 1 with installation end 33 And first floating body 21 be connected, provide buoyancy for floating system, the second floating body 22 is only connected with mounting structure 3, can be according to buoyancy need One or more second floating bodies 22 are configured for each modular assembly 1.Whole system is only needed using two kinds of floating bodies, and two kinds floating Shape is more regular, and packed and transported is convenient.First floating body 21 and 22 material of the second floating body can be high density polyethylene (HDPE), glass The materials such as glass steel, stainless steel, structure type can be enclosed, be also possible to non-enclosed.

First floating body 21 and the second floating body 22, which can according to need, is correspondingly arranged reinforcing rib and/or anti-skid structure.

Preferably, the more reinforcing ribs along connecting rod axial arranging be can connect between mounting rod and connecting rod to improve peace The intensity of arrangement 34.

Specifically, as shown in figure 3, the first connection structure 26 includes being fixed on the first floating body 21 to be located at 21 side of the first floating body The structure of mounting hole of wall or close first floating body, 21 edge, is arranged on 21 side wall of the first floating body here, is worn by bolt/pin Two structure of mounting hole of adjacent first floating body 21 are crossed so that two the first floating bodies 21 to be connected.

Further, the first floating body 21 is extended with extendable platform 24, mounting hole knot along two opposite flanks of first direction X Structure includes at least two pin holes 25 being provided on extendable platform 24, and two extendable platforms 24 of each first floating body 21 have Have a different height, and when horizontal positioned one of extendable platform 24 upper surface and another extendable platform 24 lower surface Be flush smooth, the specific assembling process are as follows: by two that is just able to maintain adjacent first floating body, 21 upper surface when splicing in this way A first floating body 21 is arranged along first direction X, then by higher 24 direction of extendable platform in one of them 21 position of the first floating body Another lower extendable platform 24 in 21 position of the first floating body, and two about 24 extendable platforms are stacked, after superposition, extend Pin hole 25 on platform 24 is also stacked up and down, is then carried out using the pin hole 25 of pin/screw bolt passes two superpositions Fixed installation.

Further, the second connection structure 23 includes the mounting base 231 positioned at 21 upper surface of the first floating body or side, this In setting in upper surface, the both ends of connecting rod are connected on two the first floating bodies 21 by installation end 33 and mounting base 231.

Further, as shown in Figures 2 and 3, have on installation end 33 and be horizontally mounted hole 35, mounting base 231 be with It is horizontally mounted the bearing block 232 of the adaptable horizontal shaft hole 233 in hole 35, installation end 33 is located at one side of bearing block 232 and level Mounting hole 35 is superimposed with the mutually level of horizontal shaft hole 233, by being horizontally mounted hole 35 and water also cross mutual horizontal superposition Installation end 33 is connected by bolt/pivot pin of flat axis hole 233 with bearing block 232.Here bearing block 232 can also use bolt knot Structure replaces, and has corresponding pin hole on installation end 33, sequentially passes through latch structure and bolt using bolt when installation Hole.

The first floating body 21 and connecting rod are connected using aforementioned second connection structure 23, is made between the first floating body 21 and connecting rod Be able to carry out by a small margin it is opposite circumferentially rotate, can stress between release module component 1, reduce failure risk, improve mould The reliability of block assembly 1.

Embodiment two

As shown in figure 4, present embodiment discloses a kind of solar components floating system, including the mould in several embodiments one Block assembly 1, several modular assemblies 1 with first direction X and second direction Y successively array arrange, with obtain with modular assembly 1 be it is small Cellular array type floating system, and be connected between adjacent modular assemblies 1 by the first connection structure 26 on first direction X, It is connected between adjacent modular assemblies 1 on second direction Y by the second connection structure 23.By several first floating bodies 21 and second Buoyancy needed for floating body 22 provides array.

The present embodiment can need spirit according to project by the 1 forming array type floating system of modular assembly of multiple junior units The quantity of corresponding module component 1 is configured livingly.First connection structure 26 and the second connection structure 23 describe in example 1, Details are not described herein, is connected respectively with adjacent modular assembly 1 by the first connection structure 26 and the second connection structure 23, module It can be realized Fast Installation between component 1, improve in-site installation efficiency.

The output wiring box of the photovoltaic module 4 of each modular assembly 1 can be set at both ends, i.e., respectively close to modular assembly Any position between two the first floating bodies 21 also can be set in one end of 1 two the first floating bodies 21, for realizing with it is adjacent The photovoltaic module 4 of modular assembly 1 interconnects, and multiple modular assemblies 1 constitute complete floating battle array by the interconnection of transverse direction and longitudinal direction Column.Photovoltaic module 4 is by being connected to next stage header box or inverter from the interconnection of tape cable and the confluence of output cable.

Further, it is circumferentially surrounded in the periphery of floating array using the first floating body 21 and/or the second floating body 22, so It will be interconnected between adjacent the first floating body 21 and/or the second floating body 22 using forms such as briquettings afterwards, it is logical to constitute peripheral O&M Road, cable support floating body, equipment mounting structure 3 etc..

Specific embodiment described herein is only an example for the spirit of the invention.The neck of technology belonging to the present invention The technical staff in domain can make various modifications or additions to the described embodiments or replace by a similar method In generation, however, it does not deviate from the spirit of the invention or beyond the scope of the appended claims.

Although modular assembly 1 is used more herein；Float structure 2；First floating body 21；Second floating body 22；Second connects Binding structure 23；Mounting base 231；Bearing block 232；Horizontal shaft hole 233；Extendable platform 24；Pin hole 25；First connection structure 26； Mounting structure 3；Mounting portion 31；Interconnecting piece 32；Installation end 33；Mounting assembly 34；It is horizontally mounted hole 35；First direction X；Second party To Y；The terms such as photovoltaic module 4, but it does not exclude the possibility of using other terms.The use of these items is only for more square Just essence of the invention is described and explained；Being construed as any additional limitation is disagreed with spirit of that invention Back.

Claims (10)

1. a kind of floating structure for solar components floating system, which is characterized in that including modular assembly (1), the mould Block assembly (1) includes float structure (2) and mounting structure (3), the float structure (2) include two be oppositely arranged it is first floating Body (21) and the second floating body (22) being located between two the first floating bodies (21), the mounting structure (3) includes for installing light Lie prostrate the mounting portion (31) of component (4) and the interconnecting piece for connecting two the first floating bodies (21) and second floating body (22) (32), and on first floating body (21) have for the first floating body (21) with adjacent modular assemblies (1) on first direction (X) Connected the first connection structure (26), there are two be oppositely arranged and be respectively used to connect the company tool on first floating body (21) The second connection structure (23) of the interconnecting piece (32) of adjacent modular assemblies (1) in socket part (32) and second direction (Y), described first Direction (X) is mutually perpendicular to second direction (Y).

2. according to the floating structure according to claim 1 for solar components floating system, which is characterized in that described Second connection structure (23) includes the mounting base (231) positioned at the first floating body (21) upper surface or side, the connection The both ends in portion (32) are respectively provided with the installation end (33) being adapted with the mounting base (231), the both ends of the interconnecting piece (32) It is connected on two the first floating bodies (21) by the installation end (33) and mounting base (231).

3. according to the floating structure according to claim 2 for solar components floating system, which is characterized in that described Mounting structure (3) includes at least two mounting assemblies (34), and each mounting assembly (34) includes the mounting portion (31) and connects Socket part (32), and at least two mounting assemblies (34) are arranged parallel to each other on (X) in a first direction.

4. according to the floating structure according to claim 3 for solar components floating system, which is characterized in that described Mounting portion (31) is the mounting rod in two-way plane or arcuate structure, and the interconnecting piece (32) is the connecting rod in planar structure, The both ends of the mounting rod are connected by the installation end (33) with the both ends of the connecting rod respectively.

5. according to the floating structure according to claim 4 for solar components floating system, which is characterized in that described Have on installation end (33) and be horizontally mounted hole (35), the mounting base (231) is with being horizontally mounted hole (35) Xiang Shi with described The bearing block (232) for the horizontal shaft hole (233) answered, the installation end (33) are located at one side of the bearing block (232) and level Mounting hole (35) is superimposed with horizontal shaft hole (233) mutually level, by being horizontally mounted hole also cross mutual horizontal superposition (35) installation end (33) is connected with bearing block (232) with bolt/pivot pin of horizontal shaft hole (233).

6. according to the floating structure according to claim 5 for solar components floating system, which is characterized in that described Connecting rod runs through second floating body (22)；Alternatively, the connecting rod is located above second floating body (22), and pass through bolt Or briquetting is connected on second floating body (22).

7. according to the floating structure according to claim 1 for solar components floating system, which is characterized in that described First connection structure (26) includes being fixed on first floating body (21) to be located at the first floating body (21) side wall or floating close to first The structure of mounting hole at body (21) edge, by bolt/pin pass through adjacent first floating body (21) two structure of mounting hole with incite somebody to action Two the first floating bodies (21) are connected.

8. according to the floating structure according to claim 7 for solar components floating system, which is characterized in that described First floating body (21) is extended with extendable platform (24) along two opposite flanks of first direction (X), and the structure of mounting hole includes At least two pin holes (25) being provided on the extendable platform (24).

9. according to the floating structure according to claim 8 for solar components floating system, which is characterized in that each Two extendable platforms (24) of the first floating body (21) have different height, and one of extendable platform when horizontal positioned (24) upper surface and the lower surface of another extendable platform (24) are flush.

10. a kind of solar components floating system, which is characterized in that including several moulds described in any one of claim 1-9 Block assembly (1), with first direction (X) and second direction (Y), successively array arranges several modular assemblies (1), to obtain with described Modular assembly (1) is the array type floating system of junior unit, and on first direction (X) between adjacent modular assemblies (1) by the One connection structure (26) is connected, and passes through the second connection structure (23) phase between the adjacent modular assemblies (1) in second direction (Y) Connection.