CN204258693U - A kind of integral type photovoltaic system waterborne - Google Patents

Abstract

The utility model embodiment discloses a kind of integral type photovoltaic system waterborne, for making whole system become a rigidly connected entirety, thus improves stability.Integral type in the utility model embodiment photovoltaic system waterborne comprises: multiple photovoltaic module, holder device, jockey, fixture and levitation device; Described multiple photovoltaic module is arranged on described holder device respectively, and described holder device is for supporting described multiple photovoltaic module; Described holder device is connected with described fixture by described jockey; Described fixture is arranged on described levitation device.The utility model embodiment can make whole system become a rigidly connected entirety, thus improves stability.

Description

A kind of integral type photovoltaic system waterborne

Technical field

The utility model relates to field of photovoltaic power generation, particularly relates to a kind of integral type photovoltaic system waterborne.

Background technology

Along with the vigorous development of global economy, generation of electricity by new energy technology also develops rapidly thereupon, and solar energy enriches with its stock number and widely distributed feature becomes one of regenerative resource with development potentiality most.At present, the model of most of photovoltaic generation sets up base station on ground or roof, and by contrast, the installation of photovoltaic generating system waterborne then lacks practicality, and cost is higher is inconvenient to again promote.

Because of the pond in some areas and lake more, and large-area vacant lot is less, thus it is more difficult to cause installing photovoltaic system, so prior art proposes a kind of floated photovoltaic generating system waterborne, this system is combined by several photovoltaic system integrated units independent of each other.

But in the prior art, each photovoltaic system integrated unit in this floated photovoltaic generating system waterborne is self-existent each other, there is no and be rigidly connected, therefore the poor stability in water, and each photovoltaic system integrated unit needs more materials, also makes cost higher.

Utility model content

The utility model embodiment provides a kind of integral type photovoltaic system waterborne, and whole system can be made to become a rigidly connected entirety, stabilized structure, with low cost.

The integral type that the utility model embodiment provides photovoltaic system waterborne, comprising:

Multiple photovoltaic module, holder device, jockey, fixture and levitation device;

Described multiple photovoltaic module is arranged on described holder device respectively, and described holder device is for supporting described multiple photovoltaic module;

Described holder device is connected with described fixture by described jockey;

Described fixture is arranged on described levitation device.

Alternatively, described holder device comprises installing rack and Duo Gen support post, described many support posts are for supporting described installing rack, and one end of every root support post is arranged in described fixture, and the other end of described every root support post is connected with described installing rack.

Alternatively, described jockey comprises: rectangular tube and clip;

Described holder device is connected with described fixture by described rectangular tube, and described fixture is arranged on described levitation device by described clip.

Alternatively, described rectangular tube comprises: rectangular steel pipe and connecting plate, and described rectangular steel pipe is fixed on described connecting plate;

One end of described support post is arranged in described rectangular steel pipe, and described connecting plate is arranged in described fixture;

Described connecting plate comprises bolt hole, and described bolt hole is used for by bolt, and described connecting plate and described fixture are installed by bolt.

Alternatively, described fixture comprises:

Short flute profile foundry goods and long trough foundry goods;

Described short flute profile foundry goods is used for the multiple holder devices in fixing same row;

Described long trough foundry goods is used for the holder device of fixing at least two row.

Alternatively, described short flute profile foundry goods and long trough foundry goods comprise several installing holes in a row.

Alternatively, described clip is U-shaped clip;

Described U-shaped clip is connected with described fixture by screw bolt and nut.

Alternatively, described levitation device comprises polythene PE hollow cylinder.

Alternatively, described PE hollow cylinder comprises:

PE pipe with for sealing the faces end head plugging at PE pipe two ends;

Described faces end head plugging is used for PE pipe described in shutoff.

Alternatively, the specification of described PE hollow cylinder and quantity are associated with the total weight of described photovoltaic module, holder device, jockey and fixture.

As can be seen from the above technical solutions, the utility model embodiment has the following advantages:

In the utility model embodiment, integral type photovoltaic system waterborne is integrally fixed on the water surface, is rigidly connected in this internal system, sound construction, the good stability in water, and rigidly connected component costs is cheap.

Accompanying drawing explanation

Fig. 1 is the first schematic diagram of integral type photovoltaic system waterborne in the utility model embodiment;

Fig. 2 is the second schematic diagram of integral type photovoltaic system waterborne in the utility model embodiment;

Fig. 3 is the 3rd schematic diagram of integral type photovoltaic system waterborne in the utility model embodiment;

Fig. 4 is the 4th schematic diagram of integral type photovoltaic system waterborne in the utility model embodiment;

Fig. 5 is the 5th schematic diagram of integral type photovoltaic system waterborne in the utility model embodiment;

Fig. 6 is the 6th schematic diagram of integral type photovoltaic system waterborne in the utility model embodiment;

Fig. 7 is the 7th schematic diagram of integral type photovoltaic system waterborne in the utility model embodiment;

Fig. 8 is the 8th schematic diagram of integral type photovoltaic system waterborne in the utility model embodiment.

Embodiment

The utility model embodiment provides a kind of integral type photovoltaic system waterborne, for making whole system become a rigidly connected entirety, thus improves stability.

Refer to Fig. 1, in the utility model embodiment, integral type photovoltaic system waterborne embodiment comprises:

Photovoltaic module 100, holder device 200, jockey 300, fixture 400 and levitation device 500;

This photovoltaic module 100 is arranged on holder device 200, and holder device 200 is for supporting photovoltaic module 100;

This holder device 200 is connected with fixture 400 by jockey 300;

This fixture 400 is arranged on levitation device 500.

It should be noted that, the photovoltaic system waterborne of the integral type in the utility model embodiment is by multiple photovoltaic module and form with holder device, and its quantity can make corresponding adjustment according to actual needs, does not specifically limit herein.

In the utility model embodiment, integral type photovoltaic system waterborne is integrally fixed on the water surface, is rigidly connected in this internal system, sound construction, the good stability in water, and rigidly connected component costs is cheap.

For ease of understanding, below each several part of integral type photovoltaic system waterborne in the utility model embodiment is described respectively:

One, holder device:

Refer to Fig. 2, the holder device 200 in the utility model embodiment comprises installing rack 201 and many support posts 202;

Many support posts 202 are for supporting installing rack 201, and one end of every root support post 202 is arranged in fixture 400, and the other end of every root support post 202 is connected with installing rack 201.

Be understandable that, in actual applications, the structure of installing rack can carry out the adjustment on arrangement mode to it as required, such as horizontal for photovoltaic module monolithic placement or monolithic vertically can be placed, also polylith photovoltaic module can be used to place with horizontal or vertical arrangement mode, can also design other arrangement mode according to actual needs, and the material of installing rack also can be selected, so place does not limit.

In the utility model embodiment, holder device has the effect supporting photovoltaic module, and this holder device can carry out the adjustment on arrangement mode to it according to actual needs simultaneously, improves flexibility of the present utility model, also strengthens practicality on the other hand.

Two, jockey:

Refer to Fig. 3, the jockey 300 in the utility model embodiment comprises rectangular tube 301 and clip 302;

Holder device 200 is connected with fixture 400 by rectangular tube 301, and fixture 400 is arranged on levitation device 500 by clip 302;

This clip 302 is U-shaped clips, and U-shaped clip is connected with fixture 400 by screw bolt and nut.

It should be noted that, the clip type in the utility model embodiment can be U-shaped clip, also can be the clip of other type, such as square or V-arrangement clip, also can be that other play clip that is fixing and connection function, so place is not construed as limiting.

Please consult Fig. 4 further, the rectangular tube 301 in the utility model embodiment comprises rectangular steel pipe 3011 and connecting plate 3012;

One end of support post 202 is arranged in rectangular steel pipe 3011, and connecting plate 3012 is arranged in fixture 400.

It should be noted that, the mode that one end of support post is arranged on rectangular steel pipe can be direct insertion, also can be welded with rectangular steel pipe one end of support post, or other can realize the mode of fixation, so place does not limit.

Please consult Fig. 5 further, the connecting plate 3012 in the utility model embodiment also comprises bolt hole 30121;

Connecting plate 3012 comprises bolt hole 30121, bolt hole 30121 is for passing through bolt, and connecting plate 3012 and fixture 400 are installed by bolt.

Secondly, in the utility model embodiment, use U-shaped clip and rectangular tube as jockey, well firm effect can be played, the moulding of U-shaped clip agrees with mutually with the profile of levitation device, reach good fixed effect, further improved the stability of the utility model entirety simultaneously with rectangular tube by screw bolt reinforcing support post.

Three, fixture:

Refer to Fig. 6, the fixture 400 in the utility model embodiment comprises short flute profile foundry goods 410 and long trough foundry goods 420;

Short flute profile foundry goods 410 is for the multiple holder devices 200 in fixing same row;

Long trough foundry goods 420 is for the holder device 200 of fixing at least two row.

Please consult Fig. 7 further, the short flute profile foundry goods 410 in the utility model embodiment and long trough foundry goods 420 comprise several installing holes in a row 401.

It should be noted that, this long trough foundry goods and short flute profile foundry goods can be channel-section steels, also can be angle steel, can also be the foundry goods of other similar flute profile, so place is not specifically limited the kind of this flute profile foundry goods and material.

It is to be appreciated that in actual applications, long trough foundry goods can be connected with the fixture on bank by steel wire rope, also can realize by other means fixing with bank, does not limit herein.

Again, in the utility model embodiment, short flute profile foundry goods secures multiple holder devices of same row, long trough foundry goods is then secure the above holder device of at least two row, the fixing integral type photovoltaic system waterborne by long trough foundry goods and short flute profile foundry goods, makes the steadiness of whole system device in water better.

Four, levitation device:

Refer to Fig. 8, the levitation device in the utility model embodiment is polyethylene (PE, Polyethylene) hollow cylinder, this PE hollow cylinder comprise PE pipe 501 with for sealing the faces end head plugging 502 at PE pipe two ends;

This faces end head plugging 502 is for shutoff PE pipe 501.

Both by high temperature melt edge, then are bonded together by PE pipe 501 and faces end head plugging 502, make both become the PE hollow cylinder of a sealing.

It should be noted that, specification and the quantity of PE hollow cylinder can be adjusted according to practical application, it is 100 millimeters that specification includes diameter, the PE pipe of 110 millimeters or 120 millimeters, also can be other specifications, the PE hollow cylinder used can be quantitatively 6 rows, or other are by obtaining data after measuring and calculating, photovoltaic module in the specification of PE hollow cylinder and quantity and integral type photovoltaic system waterborne, holder device, the total weight of jockey and fixture is associated, and when integral type photovoltaic system waterborne is suspended in waterborne, certain corresponding relation is there is between buoyancy and gravity, concrete adjustment can be done to the specification of PE hollow cylinder and quantity according to this corresponding relation, and its quantity and specification can meet the requirement of buoyancy needed for system, so place does not limit.

Further, in the utility model embodiment, use PE hollow cylinder to provide buoyancy for integral type photovoltaic system waterborne, effectively can strengthen the durability of this integral type photovoltaic system waterborne, and can neatly according to the arrangement mode of actual conditions design PE hollow cylinder, specification and quantity.

The above, above embodiment only in order to the technical solution of the utility model to be described, is not intended to limit; Although be described in detail the utility model with reference to previous embodiment, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of each embodiment technical scheme of the utility model.

Claims (10)

1. an integral type photovoltaic system waterborne, is characterized in that, comprising:

Multiple photovoltaic module, holder device, jockey, fixture and levitation device;

Described multiple photovoltaic module is arranged on described holder device respectively, and described holder device is for supporting described multiple photovoltaic module;

Described holder device is connected with described fixture by described jockey;

Described fixture is arranged on described levitation device.

2. integral type according to claim 1 photovoltaic system waterborne, is characterized in that,

Described holder device comprises installing rack and Duo Gen support post, and described many support posts are for supporting described installing rack, and one end of every root support post is arranged in described fixture, and the other end of described every root support post is connected with described installing rack.

3. integral type according to claim 2 photovoltaic system waterborne, is characterized in that, described jockey comprises: rectangular tube and clip;

Described holder device is connected with described fixture by described rectangular tube, and described fixture is arranged on described levitation device by described clip.

4. integral type according to claim 3 photovoltaic system waterborne, is characterized in that, described rectangular tube comprises: rectangular steel pipe and connecting plate, and described rectangular steel pipe is fixed on described connecting plate;

One end of described support post is arranged in described rectangular steel pipe, and described connecting plate is arranged in described fixture;

Described connecting plate comprises bolt hole, and described bolt hole is used for by bolt, and described connecting plate and described fixture are installed by bolt.

5. the photovoltaic system waterborne of the integral type according to any one of Claims 1-4, is characterized in that, described fixture comprises:

Short flute profile foundry goods and long trough foundry goods;

Described short flute profile foundry goods is used for the multiple holder devices in fixing same row;

Described long trough foundry goods is used for the holder device of fixing at least two row.

6. integral type according to claim 5 photovoltaic system waterborne, is characterized in that, described short flute profile foundry goods and long trough foundry goods comprise several installing holes in a row.

7., according to the arbitrary described integral type photovoltaic system waterborne of claim 3 to 4, it is characterized in that,

Described clip is U-shaped clip;

Described U-shaped clip is connected with described fixture by screw bolt and nut.

8. the photovoltaic system waterborne of the integral type according to any one of Claims 1-4, is characterized in that, described levitation device comprises polythene PE hollow cylinder.

9. integral type according to claim 8 photovoltaic system waterborne, is characterized in that, described PE hollow cylinder comprises:

PE pipe with for sealing the faces end head plugging at PE pipe two ends;

Described faces end head plugging is used for PE pipe described in shutoff.

10. integral type according to claim 8 photovoltaic system waterborne, is characterized in that, specification and the quantity of described PE hollow cylinder are associated with the total weight of described photovoltaic module, holder device, jockey and fixture.