CN207603506U - Photovoltaic bracket system waterborne - Google Patents

Abstract

The utility model is related to a kind of stent systems, particularly a kind of photovoltaic bracket system waterborne, including at least one photovoltaic panel component, stent, at least one floating drum, the stent includes steel guide rail, cant beam, steel column, pedestal, steel bottom girder, pressing sleeve, the photovoltaic panel component is fixed on by pressing sleeve on the steel guide rail, the steel guide rail is fixed by screws with the cant beam, the cant beam is fixedly connected with the steel column, the steel column is fixed by screws with the pedestal, the pedestal is fixed by screws with the steel bottom girder, the branch is set up on the floating drum.The utility model stable structure, install convenient have very strong stability, and can rationally dispose height, space, density by the different permutation and combination of photovoltaic panel component, be conducive to extend the service life of component and improve generating efficiency on the water.

Description

Photovoltaic bracket system waterborne

Technical field

The utility model is related to a kind of stent system, particularly a kind of photovoltaic bracket system waterborne.

Background technology

The photovoltaic bracket component part important as photovoltaic plant, it carries the power generation main body of photovoltaic plant.Stent Selection directly affects operational safety, breakage rate and the construction investment of photovoltaic module, selects suitable photovoltaic bracket that can not only drop Low project cost, it may also reduce late maintaining cost.Conventional photovoltaic stent infield on the ground, but with photovoltaic plant Development, is becoming tight ground resource day, particularly the water resources such as lake are relatively abundant, area of land rareness, therefore water surface photovoltaic Power station increasingly attracts attention.

The fixed and floatation type of existing water surface photovoltaic bracket point, fixed water surface photovoltaic bracket use pre-cast concrete pipe Stake, constructing operation is complicated, and assembling flexibility is inadequate；The water surface photovoltaic support structure stability of floatation type is poor, and climate influences Larger, resistance to compression wind loading rating is insufficient.

Utility model content

To solve the above problems, the utility model is intended to provide a kind of photovoltaic bracket system waterborne.

To achieve these goals, the technical solution adopted in the utility model is：A kind of photovoltaic bracket system waterborne, including At least one photovoltaic panel component, stent, at least one floating drum, the stent include steel guide rail, cant beam, steel column, pedestal, steel Bottom girder, pressing sleeve, the photovoltaic panel component are fixed on by pressing sleeve on the steel guide rail, and the steel guide rail passes through with the cant beam Screw is fixedly connected, and the cant beam is fixedly connected with the steel column, and the steel column is screwed company with the pedestal It connects, the pedestal is fixed by screws with the steel bottom girder, and the branch is set up on the floating drum.

Further, two steel guide rails form a square planar with two cant beams, are used to support and fix The photovoltaic panel component.

Further, the pressing sleeve includes briquetting and screw, and the pressing sleeve is fixed on two adjacent photovoltaic panels The centre of component or the side of the photovoltaic panel component.

Further, articulated joint is equipped between the cant beam and the steel column, passes through the screw in the articulated joint point The cant beam and the steel column are not connected.

Further, it is fixedly connected between the steel bottom girder and the floating drum by Z-shaped connector.

Further, the steel guide rail is fixedly connected by guide-rail coupling member.

Further, security maintenance channel floating drum is further included.

The beneficial effects of the utility model are：

1st, stable structure, install convenient do not need to any welding, and the requirement to installation tool is low.

2nd, bottom is by floating drum firm and reliable connection, so system has very strong stability on the water.

3rd, by the different permutation and combination of photovoltaic panel component, height, space, density is rationally disposed, is formd good Sunshine, ventilation, cooling environment are conducive to extend the service life of component and improve generating efficiency.

Description of the drawings

Fig. 1 is the side structure schematic diagram of the utility model；

Fig. 2 is schematic enlarged-scale view at the A of the utility model；

Fig. 3 is the arrangement figure of the photovoltaic bracket unit waterborne of the utility model.

Specific embodiment

The technical issues of in order to solve the utility model, technical solution and advantageous effect are more clearly understood, below In conjunction with the embodiments, the present invention is further described in detail.It should be appreciated that specific embodiment described herein is only To explain the utility model, it is not used to limit the utility model.

It should be understood that the orientation or position relationship of the instructions such as term "left", "right" in the description of the present invention, To be based on orientation shown in the drawings or position relationship, being for only for ease of description the utility model rather than requiring this practicality new Type must be with specific azimuth configuration and operation, therefore it is not intended that limitation to the utility model.

As depicted in figs. 1 and 2, including at least one photovoltaic panel component 1, stent 2, at least one floating drum 3, stent 2 wraps Steel guide rail 21, cant beam 22, steel column 23, pedestal 24, steel bottom girder 25, pressing sleeve 26 are included, photovoltaic panel component 1 is fixed by pressing sleeve 26 In on steel guide rail 21, steel guide rail 21 is fixed by screws with cant beam 22, and cant beam 22 is fixedly connected with steel column 23, steel column 23 are fixed by screws with pedestal 24, and pedestal 24 is fixed by screws with steel bottom girder 25, and stent 2 is set on floating drum 3. Two steel guide rails 21 and two cant beams 22 form a square planar, are used to support and fix photovoltaic panel component 1.Pressing sleeve 26 wraps Briquetting and screw are included, pressing sleeve 26 is fixed on the adjacent centre of two photovoltaic panel components 1 or the side of photovoltaic panel component 1. Articulated joint 27 is equipped between cant beam 22 and steel column 23, cant beam 22 and steel column are connected by the screw in articulated joint 27 respectively 23.It is fixedly connected between steel bottom girder 25 and floating drum 3 by Z-shaped connector 28.By setting working service channel in the present embodiment Floating drum 30 facilitates carry out installation and maintenance.

Parallel two steel guide rails, 21, two cant beams, 22 and two bar steel bottom girder, 25, four pedestals 24 and four steel respectively Column 23 forms a photovoltaic bracket unit waterborne, as shown in figure 3, steel guide rail 21 is fixedly connected by guide-rail coupling member 29.Root According to illumination needs and water surface installation requirement, photovoltaic bracket system waterborne can rationally be pacified by the permutation and combination of photovoltaic panel component 1 Height, space, density are put, to make full use of land resource.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, therefore, only This is should be included in all any modification, equivalent and improvement that the utility model the description and the appended drawings content is made etc. Within the protection domain of utility model.

Claims (7)

1. a kind of photovoltaic bracket system waterborne, including at least one photovoltaic panel component, stent, it is characterised in that：Further include to A few floating drum, the stent include steel guide rail, cant beam, steel column, pedestal, steel bottom girder, pressing sleeve, and the photovoltaic panel component leads to Pressing sleeve is crossed to be fixed on the steel guide rail, the steel guide rail is fixed by screws with the cant beam, the cant beam with it is described Steel column is fixedly connected, and the steel column is fixed by screws with the pedestal, and the pedestal passes through with the steel bottom girder Screw is fixedly connected, and the branch is set up on the floating drum.

2. photovoltaic bracket system waterborne according to claim 1, it is characterised in that：Described in two steel guide rails and two Cant beam forms a square planar, is used to support and fixes the photovoltaic panel component.

3. photovoltaic bracket system waterborne according to claim 1, it is characterised in that：The pressing sleeve includes briquetting and screw, The pressing sleeve is fixed on the centre of the photovoltaic panel component of adjacent two or the side of the photovoltaic panel component.

4. photovoltaic bracket system waterborne according to claim 1, it is characterised in that：Between the cant beam and the steel column Equipped with articulated joint, the cant beam and the steel column are connected by the screw in the articulated joint respectively.

5. photovoltaic bracket system waterborne according to claim 1, it is characterised in that：Between the steel bottom girder and the floating drum It is fixedly connected by Z-shaped connector.

6. photovoltaic bracket system waterborne according to claim 1, it is characterised in that：The steel guide rail passes through guide-rail coupling member It is fixedly connected.

7. photovoltaic bracket system waterborne according to claim 1, it is characterised in that：Further include security maintenance channel floating drum.