CN110053731A - Floatation type photovoltaic power generation installation system - Google Patents

Abstract

The invention discloses a kind of floatation type photovoltaic power generation installation systems, it is related to technical field of photovoltaic power generation, including floatation type photovoltaic power generation array, the floatation type photovoltaic power generation array includes at least two girders parallel to each other, floating cylinder is installed below the girder, several crossbeams perpendicular to girder are equidistantly installed on the girder, one group of photovoltaic module is installed on adjacent two girders, photovoltaic module described in every group includes several pieces of photovoltaic panels being mounted equidistant along girder length direction；The present invention swims in the bracket of photovoltaic module on the water surface using floating cylinder, easy for installation, and stability is high, and difficulty of construction is low；Multiple floatation type photovoltaic power generation arrays can be spliced into photovoltaic electricity generating array, photovoltaic electricity generating array can further be spliced to form large-scale photovoltaic generating system, not only solve the problem that photovoltaic project is built in wide waters, and photovoltaic generating system is greatly improved in the stability in wide waters, reduce the risk of water surface installation photovoltaic component.

Description

Floatation type photovoltaic power generation installation system

Technical field

The present invention relates to technical field of photovoltaic power generation, more particularly to a kind of floatation type photovoltaic power generation installation system.

Background technique

The advantages that photovoltaic plant is due to its green non-pollution and by extensive concern and development.In recent years, due to photovoltaic plant Construction be no longer limited to land, since earth water surface area accounts for about the 79% of the earth gross area, build photovoltaic electric waterborne Stand can farthest using wide water area resource and facilitate promoted land resource utilization rate, so photovoltaic electric waterborne An important directions of photovoltaic industry development certainly will also be become by standing.And how photovoltaic module to be stablized and be arranged on the water surface, it is this Field technical staff's problem to be solved.

Summary of the invention

The technical problem to be solved by the present invention is to the shortcomings that overcoming the prior art, provide a kind of floatation type photovoltaic power generation Installation system.

In order to solve the above technical problems, technical scheme is as follows:

A kind of floatation type photovoltaic power generation installation system, including floatation type photovoltaic power generation array, the floatation type photovoltaic power generation array Including at least two girders parallel to each other, floating cylinder is installed below the girder, on the girder along its length Several crossbeams perpendicular to girder are mounted equidistant, one group of photovoltaic module, every group of institute are installed on adjacent two girders Stating photovoltaic module includes several pieces of photovoltaic panels being mounted equidistant along girder length direction.

Further, it is located at below any photovoltaic panel on girder and one group of front column and rear column is installed, front column is with after Opposite with photovoltaic panel two sides connection, the length of rear column are greater than the length of front column respectively for the upper end of column.

A kind of preceding floatation type photovoltaic power generation installation system, the end of adjacent two girders is provided with curb girder, girder Be symmetrically arranged with connecting hole on curb girder, adjacent two pass through between girder or curb girder in two floatation type photovoltaic power generation arrays Connecting hole is provided with connecting rod, and two floatation type photovoltaic power generation arrays are realized by connecting rod to be spliced, several floatation type photovoltaics Photovoltaic electricity generating array is formed after power generation array splicing.

A kind of preceding floatation type photovoltaic power generation installation system, floatation type photovoltaic power generation installation system include being spliced into square Several photovoltaic electricity generating arrays of shape photovoltaic generating system, in the adjacent photovoltaic electricity generating array of any two adjacent two sides it Between be provided with the first maintenance channel, the outer side edges of rectangular photovoltaic power generation system are provided with the second maintenance channel, and the first maintenance is logical Road and the second maintenance channel include two connection girders parallel to each other and are mounted equidistant along girder length direction several Root connects perpendicular to the connecting cross beam of connection girder and is equipped with buoyancy tank below girder, on the connection girder of the first maintenance channel Channel steel grating and gantry are installed, header box is installed on gantry, the cable of photovoltaic electricity generating array is arranged in gantry, Channel steel grating is installed, channel steel grating and gantry are along the length of connection girder on the connection girder of the second maintenance channel Direction setting.

A kind of preceding floatation type photovoltaic power generation installation system, rectangular photovoltaic power generation system are connected with several pieces of subsea anchors Hook has been mounted equidistant on the connection girder of the second maintenance channel along its length for block, and underwater anchor block is by wirerope and hangs Hook connects.

A kind of preceding floatation type photovoltaic power generation installation system, any one underwater anchor block and two extensions adjacent thereto Wirerope between hook is in V-shape.

A kind of preceding floatation type photovoltaic power generation installation system, steel between any one underwater anchor block and adjacent hook The length of cord is greater than the distance between the underwater anchor block and hook 2-3m.

A kind of preceding floatation type photovoltaic power generation installation system, adjacent floatation type photovoltaic power generation array and photovoltaic hair Pedal is provided between electric square matrix and adjacent maintenance maintenance channel.

A kind of preceding floatation type photovoltaic power generation installation system, the connection master of the first maintenance channel and the second maintenance channel It is also equipped with several support cant beams on beam, supports the both ends of cant beam to be separately positioned on two connection girders, and along adjacent two The diagonal of root connecting cross beam is arranged.

A kind of installation method of floatation type photovoltaic generating system, comprising the following steps:

S1: the installation of floatation type photovoltaic power generation array is carried out on bank；

S2: the floatation type photovoltaic power generation array that splicing is completed is pushed into shallow water area, carries out the splicing of photovoltaic electricity generating array；

S3: carrying out the sinking work of underwater anchor block by hull, by drawing wirerope on underwater anchor block after the completion of sinking；

S4: being moved to deepwater regions for the photovoltaic electricity generating array that splicing is completed, carry out the splicing of photovoltaic generating system, and by first Maintenance channel and the second maintenance channel splice to photovoltaic generating system；

The upper end of wirerope: being fixedly connected on photovoltaic generating system by S5 after the completion of splicing, completes floatation type photovoltaic power generation system The installation of system.

The beneficial effects of the present invention are:

(1) present invention swims in the bracket of photovoltaic module on the water surface using floating cylinder, easy for installation, and stability is high, and construction is difficult It spends low；In addition, multiple floatation type photovoltaic power generation arrays can be spliced into photovoltaic electricity generating array, photovoltaic electricity generating array can further splice Large-scale photovoltaic generating system is formed, the problem that photovoltaic project is built in wide waters is not only solved, optimizes photovoltaic money Source, and multiple photovoltaic power generation arrays splice be greatly improved photovoltaic generating system in the stability in wide waters mutually, reduce The risk of water surface installation photovoltaic component；

(2) present invention is provided with front column and rear column below every piece of photovoltaic panel, by front column and rear column to light The supporting role for lying prostrate plate, is tiltedly mounted on photovoltaic panel on girder, compared to being laid on girder, can more effectively acquire too Positive energy, obtains higher photovoltaic utilization rate；

(3) present invention is equipped with the first maintenance channel and the second maintenance channel in photovoltaic generating system, moves convenient for operator It moves to photovoltaic generating system, photovoltaic module is safeguarded, ensure that the long-term normal work of photovoltaic generating system；

(4) present invention the underwater anchor block of muti-piece is connected on photovoltaic generating system, by underwater anchor block to photovoltaic generating system into Row is firm, substantially increases the stability of photovoltaic generating system, power generation array is avoided to topple, protect photovoltaic generating system preferably Maintain an equal level weighing apparatus；

(5) in the present invention between underwater anchor block and adjacent hook the length of wirerope be greater than between underwater anchor block and hook away from From making wirerope there are certain activity surplus, the problem for preventing rope capacity caused by being substantially increased because of the water surface inadequate.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of floatation type photovoltaic power generation array；

Fig. 2 is the top view of Fig. 1；

Fig. 3 is the structural schematic diagram of photovoltaic generating system；

Fig. 4 is the structural schematic diagram of the first maintenance channel；

Fig. 5 is the structural schematic diagram of the second maintenance channel；

Wherein: 1, girder；2, cylinder is floated；3, crossbeam；4, photovoltaic panel；5, front column；6, rear column；7, curb girder；8, connecting rod；9, Photovoltaic electricity generating array；10, the first maintenance channel；11, the second maintenance channel；12, girder is connected；13, connecting cross beam；14, buoyancy tank； 15, channel steel grating；16, gantry；17, underwater anchor block；18, wirerope；19, pedal；20, cant beam is supported；21, it links up with.

Specific embodiment

It is right below according to specific embodiment and in conjunction with attached drawing to make the contents of the present invention be easier to be clearly understood The present invention makes further details of explanation.

A kind of floatation type photovoltaic power generation installation system is present embodiments provided, referring to Fig. 3, including four photovoltaic electricity generating arrays 9, this four photovoltaic electricity generating arrays 9 are spliced into the photovoltaic generating system of a rectangle.Wherein, each photovoltaic electricity generating array 9 by Several floatation type photovoltaic power generation arrays are spliced, and referring to Fig. 1, Fig. 2, each floatation type photovoltaic power generation array includes four mutual Parallel girder 1, girder 1 are U-shaped steel, and the crossbeam 3 for being equipped with more perpendicular to girder 1 is bolted on girder 1, More crossbeams 3 are uniformly arranged along the length direction of girder 1, and every crossbeam 3 is both connected on four girders 1, form a light Lie prostrate the mounting bracket of component.Multiple floating cylinders 2 are fixedly installed in the lower section of girder 1, two groups of photovoltaic groups are installed on girder 1 Part is equipped with one group of photovoltaic module referring to fig. 2 between two girders 1, every group of photovoltaic module includes equal along 1 length direction of girder The muti-piece photovoltaic panel 4 of even arrangement.

Lower section on girder 1 positioned at every piece of photovoltaic panel 4 is mounted on one group of front column 5 and rear column 6,5 He of front column The lower end of rear column 6 is mounted by means of bolts on girder 1, and upper end is fixedly connected with the left and right sides of photovoltaic panel 4 respectively. Wherein, the length of front column 5 is less than the length of rear column 6, and therefore, photovoltaic panel 4 is tiltedly mounted on girder 1, compared to tiling On girder 1, solar energy can be more effectively acquired, obtains higher photovoltaic utilization rate.

In each floatation type photovoltaic power generation array, the left end of girder 1 and right end are bolted and are equipped with curb girder 7, curb girder 7 is also U-shaped steel, is equipped with two pieces of connecting plates by bolt correspondence on two curb girders 7, opens up in the end of connecting plate There is connecting hole；Muti-piece connecting plate is equipped with by bolt correspondence on two girders 1 on the outside, is offered in the end of connecting plate Connecting hole be realized two adjacent floatation type photovoltaic power generation arrays can by connecting rod 8 and be spliced, and two floatation type photovoltaic hairs Electric array can be docked along four direction all around.

Referring to Fig. 3, " ten " font is provided in the middle part of the photovoltaic generating system that four photovoltaic electricity generating arrays 9 are spliced to form The first maintenance channel 10, which includes two connection girders 12 parallel to each other and along connecting girder 12 Several connecting cross beams 13 perpendicular to connection girder 12 that length direction is mounted equidistant connect the lower section of girder 12 referring to fig. 4 It is bolted and multiple buoyancy tanks 14 is installed, be equipped on connecting cross beam 13 by bolt and set along connection 12 length direction of girder The channel steel grating 15 and gantry 16 set, wherein channel steel grating 15 is located at the side of gantry 16, channel steel grating 15 for Maintenance personnel moves along photovoltaic electricity generating array 9, and header box is fixedly installed on gantry 16, and the cable of photovoltaic electricity generating array 9 is equal It is arranged in gantry 16.Correspond to the company of floatation type photovoltaic power generation array girder 1 on the connection girder 12 of first maintenance channel 10 It connects hole and connecting hole is also installed, connection girder 12 is connect by connecting rod 8 with girder 1, to realize that the first maintenance channel 10 exists Connection in photovoltaic electricity generating array 9.

The outer side edges of photovoltaic generating system are provided with the second maintenance channel 11 around photovoltaic generating system, the second maintenance Include two connection girders 12 parallel to each other and be mounted equidistant along connection 12 length direction of girder several of channel 11 are hung down Directly in the connecting cross beam 13 of connection girder 12, more support cant beams 20 are also fixedly installed on connection girder 12, referring to Fig. 5, The both ends of support cant beam 20 are separately mounted on two connection girders 12 by bolt, and cant beam 20 is supported to be located at adjacent two companies Connect crossbeam 13 with connect on the diagonal line for the rectangle that girder 12 surrounds, be bolted and be equipped on cant beam and crossbeam 3 Pass through steel grating.In the second maintenance channel 11, the side of connection girder 121 towards photovoltaic electricity generating array 9 is provided with and photovoltaic The connecting hole that the square matrix 9 that generates electricity connects, connection girder 12 are connect by connecting rod 8 with the girder 1 in photovoltaic electricity generating array 9, are realized The connection of second maintenance channel 11 and photovoltaic electricity generating array 9.

In addition, between photovoltaic electricity generating array 9 and adjacent the first maintenance channel 10 and the second maintenance channel 11 and Be bolted between adjacent floatation type photovoltaic power generation array and pedal 19 be installed, personnel convenient for safeguarding from maintenance channel into Enter photovoltaic electricity generating array 9, photovoltaic generating system is safeguarded.

In the second maintenance channel 11, girder 121 is connected far from the side of photovoltaic electricity generating array 9 and has been placed equidistant with multiple extensions Hook 21, underwater anchor block 17 are connect by wirerope 18 with hook 21, realize that underwater anchor block 17 connects with stablizing for photovoltaic generating system It connects.Wherein, referring to Fig. 3, the underwater anchor block 17 positioned at the left and right sides of photovoltaic generating system is respectively positioned on two adjacent hooks 21 Between, the wirerope 18 between each underwater anchor block 17 and two neighboring hook 21 is in V-shape；And it is located at photovoltaic generating system Upper and lower ends, since the spacing between hook 21 is more close, and the external force that photovoltaic generating system is subject to is larger, therefore each Hook 21 is connect by wirerope 18 with a underwater anchor block 17.

Wherein, the sectional area diameter of wirerope 18 is greater than >=12mm, between each underwater anchor block 17 and adjacent hook 21 The length of wirerope 18 is greater than the linear distance between the underwater anchor block 17 and hook 21, and more than 2-3m, stays wirerope 18 There is the activity surplus of 2-3m, prevents the problem that 18 length of wirerope is inadequate caused by being substantially increased because of the water surface.It is hung in wirerope 18 It is protected at hook 21 using U-shaped steel bluff piece.

In addition to photovoltaic array, all photovoltaic output cables all use floatation type technique, i.e. the logical floating block of cable swims in water Face, photovoltaic power generation array inner cable collect using gantry 16, and gantry 16 is placed at the maintenance channel among array, collects completion It is connect again with floating block after set carbon bellows when cable cross square matrix afterwards conveys, fixed form uses hood type.Converging equipment is adopted It is lain low with flat manner and is fixed on floating drum, booster apparatus integrally uses lighthouse buoy to combine with steel floating platform, floating platform The individually placed link of anchor block wirerope 18 of surrounding is fixed, and should increase by one of wirerope 18 and surrounding after the completion of fixing Carry out second protection is made in connection at photovoltaic array anchor line.

The present embodiment additionally provides a kind of installation method of floatation type photovoltaic generating system, comprising the following steps:

S1: the installation of floatation type photovoltaic power generation array is carried out on bank, including mounting bracket, floating cylinder 2 and photovoltaic module Installation；

S2: the floatation type photovoltaic power generation array that splicing is completed is pushed into shallow water area, by several floatation type photovoltaic power generation arrays Successively splice, carries out the splicing of photovoltaic electricity generating array 9；

S3: carrying out the sinking work of underwater anchor block 17 by hull, by drawing wirerope 18 on underwater anchor block 17 after the completion of sinking；

S4: being moved to deepwater regions for the photovoltaic electricity generating array 9 that splicing is completed, carry out the splicing of photovoltaic generating system, and by the In one maintenance channel 10 and the splicing to photovoltaic generating system of the second maintenance channel 11；

The upper end of wirerope 18: being fixedly connected on photovoltaic generating system by S5 after the completion of splicing, completes floatation type photovoltaic power generation The installation of system.

In addition to the implementation, the present invention can also have other embodiments；It is all to use equivalent substitution or equivalent transformation shape At technical solution, fall within the scope of protection required by the present invention.

Claims (10)

1. a kind of floatation type photovoltaic power generation installation system, it is characterised in that: including floatation type photovoltaic power generation array, the floatation type Photovoltaic power generation array includes at least two girders (1) parallel to each other, and floating cylinder (2), institute are equipped with below the girder (1) It states and several crossbeams (3) perpendicular to girder (1) is mounted equidistant on girder (1) along its length, adjacent two masters One group of photovoltaic module is installed on beam (1), photovoltaic module described in every group include be mounted equidistant along girder (1) length direction it is several Block photovoltaic panel (4).

2. a kind of floatation type photovoltaic power generation installation system according to claim 1, it is characterised in that: on the girder (1) One group of front column (5) and rear column (6), the front column (5) and rear column (6) are installed below any photovoltaic panel (4) Two sides opposite with photovoltaic panel (4) are connect respectively for upper end, the length of the rear column (6) is greater than the length of front column (5).

3. a kind of floatation type photovoltaic power generation installation system according to claim 1, it is characterised in that: adjacent two masters The end of beam (1) is provided with curb girder (7), is symmetrically arranged with connecting hole, two drifts on the girder (1) and curb girder (7) Connecting rod (8) are provided with by connecting hole between adjacent two girders (1) or curb girder (7) in floating photovoltaic power generation array, Two floatation type photovoltaic power generation arrays realize splicing, several described floatation type photovoltaic power generation arrays by connecting rod (8) Photovoltaic electricity generating array (9) are formed after splicing.

4. a kind of floatation type photovoltaic power generation installation system according to claim 3, it is characterised in that: the floatation type photovoltaic The installation system that generates electricity includes several photovoltaic electricity generating arrays (9) for being spliced into rectangular photovoltaic power generation system, and any two are adjacent The first maintenance channel (10), the rectangular photovoltaic power generation are provided between adjacent two sides in the photovoltaic electricity generating array (9) The outer side edges of system are provided with the second maintenance channel (11),

First maintenance channel (10) and the second maintenance channel (11) include two connection girders (12) parallel to each other with And along be mounted equidistant several of connection girder (12) length direction perpendicular to connection girder (12) connecting cross beam (13, it is described It is equipped with buoyancy tank (14), is equipped on the connection girder (12) of first maintenance channel (10) logical below connection girder (12) Road steel grating (15) and gantry (16) are equipped with header box, the cable of the photovoltaic electricity generating array (9) on the gantry (16) It is arranged in gantry (16), channel steel grating (15) is installed on the connection girder (12) of second maintenance channel (11), The channel steel grating (15) and gantry (16) are along the length direction setting of connection girder (12).

5. a kind of floatation type photovoltaic power generation installation system according to claim 4, it is characterised in that: the rectangular photovoltaic hair Electric system is connected with several pieces of underwater anchor blocks (17), side along its length on the connection girder (12) of second maintenance channel (11) To being mounted equidistant hook (21), the underwater anchor block (17) is connect by wirerope (18) with hook (21).

6. a kind of floatation type photovoltaic power generation installation system according to claim 5, it is characterised in that: any one of water Wirerope (18) between lower anchor block (17) and two hooks (21) adjacent thereto is in V-shape.

7. a kind of floatation type photovoltaic power generation installation system according to claim 5, it is characterised in that: any one of water Between lower anchor block (17) and adjacent hook (21) length of wirerope (18) be greater than the underwater anchor block (17) and hook (21) it Between distance 2-3m.

8. a kind of floatation type photovoltaic power generation installation system according to claim 4, it is characterised in that: the adjacent floating Pedal is provided between formula photovoltaic power generation array and between the photovoltaic electricity generating array (9) and adjacent maintenance maintenance channel (19)。

9. a kind of floatation type photovoltaic power generation installation system according to claim 4, it is characterised in that: first maintenance is logical Several support cant beams (20) are also equipped on the connection girder (12) of road (10) and the second maintenance channel (11), the support is oblique The both ends of beam (20) are separately positioned on two connection girders (12), and along the diagonal of adjacent two connecting cross beams (13) Setting.

10. a kind of installation method based on any floatation type photovoltaic generating system of claim 1-9, it is characterised in that: packet Include following steps:

S1: the installation of floatation type photovoltaic power generation array is carried out on bank；

S2: the floatation type photovoltaic power generation array that splicing is completed is pushed into shallow water area, carries out the splicing of photovoltaic electricity generating array (9)；

S3: carrying out the sinking work of underwater anchor block (17) by hull, by drawing steel wire on underwater anchor block (17) after the completion of sinking It restricts (18)；

S4: being moved to deepwater regions for the photovoltaic electricity generating array (9) that splicing is completed, and carries out the splicing of photovoltaic generating system, and will First maintenance channel (10) and the second maintenance channel (11) are spliced to photovoltaic generating system；

The upper end of wirerope (18): being fixedly connected on photovoltaic generating system by S5 after the completion of splicing, completes floatation type photovoltaic hair The installation of electric system.