CN210123952U - Photovoltaic support on water - Google Patents

Abstract

The utility model relates to an overwater photovoltaic support, which comprises a buoy and a vertical supporting rod; the three adjacent buoys are encircled into an equilateral triangle shape through a first framework, a bearing component is arranged on the inner side of the first framework through a second framework, a vertical supporting rod is inserted into a guide sleeve arranged at the center of the bearing component, and a thread layer at the root of the vertical supporting rod is in threaded connection with the inner thread pipe wall on the inner side of the guide sleeve. The utility model discloses a method of "complementary" formula concatenation is linked every three adjacent buoys of group through the skeleton, is assembling the roof that the load was used at every group buoy interlocking center department simultaneously. The front and back 'complementary' assembling mode greatly reduces the installation control and simplifies the later-stage worker dismounting and mounting process.

Description

Photovoltaic support on water

Technical Field

The utility model relates to a photovoltaic support, especially photovoltaic support on water.

Background

The photovoltaic support is an important component of the photovoltaic power station and bears a power generation main body of the photovoltaic power station. The selection of the support directly influences the operation safety, the breakage rate and the construction investment of the photovoltaic module, and the selection of the appropriate photovoltaic support can not only reduce the engineering cost, but also reduce the later maintenance cost. The traditional photovoltaic support mounting place is on the ground, but with the development of photovoltaic power stations, ground resources are increasingly tense, and particularly in lakes and other regions with rich water resources and rare land, the water surface photovoltaic power stations are more and more concerned.

The existing water surface photovoltaic support is divided into a fixed type and a floating type, the fixed water surface photovoltaic support adopts a prefabricated cement pipe pile, the construction operation is complex, and the assembly flexibility is not enough; the floating type water surface photovoltaic support structure is poor in stability, greatly influenced by weather and insufficient in compression resistance and wind resistance.

Disclosure of Invention

The utility model discloses the technical problem that needs to solve, the utility model provides a photovoltaic support on water of construction convenience, compact structure, saving installation space.

In order to solve the technical problem, the utility model provides an overwater photovoltaic support, which comprises a buoy and a vertical supporting rod; the three adjacent buoys are encircled into an equilateral triangle shape through a first framework, a bearing component is arranged on the inner side of the first framework through a second framework, a vertical supporting rod is inserted into a guide sleeve arranged at the center of the bearing component, and a thread layer at the root of the vertical supporting rod is in threaded connection with the inner thread pipe wall on the inner side of the guide sleeve.

Furthermore, the buoys arranged at the inner end are connected with a floating plate for treading through soft ropes, and an anti-skid plate is arranged on the upper surface of the floating plate for treading.

Furthermore, the bearing assembly comprises a top plate, a sealing base is installed at the bottom of the top plate, an arc-shaped end face is reserved at the edge of the sealing base, and a guide sleeve is inserted between the sealing base and the top plate.

Furthermore, the ear piece is installed to the second skeleton side, the last support bar and the perpendicular branch fixed connection of installing of ear piece.

After adopting above-mentioned structure, compare with prior art, the utility model discloses a method of "complementary" formula concatenation is carried out every three adjacent buoys of group chain through the skeleton, is assembling the roof that the load was used in every group buoy chain center department simultaneously. Rongguo ejector pins support the vertical supporting rods for mounting the photovoltaic panel. The front and back 'complementary' assembling mode greatly reduces the installation control and simplifies the later-stage worker dismounting and mounting process.

Drawings

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

Fig. 1 is the utility model discloses photovoltaic support's on water plan view.

Fig. 2 is the utility model discloses photovoltaic support force-bearing component's on water structural schematic.

In the figure: the device comprises a buoy 1, a multidirectional through pipe 1-1, a first framework 2-1, a second framework 2-1, a force bearing component 3, a top plate 3-1, a sealing base 3-2, an arc-shaped end face 3-3, a vertical supporting rod 4, a soft rope 5, a floating plate 6 for treading, an anti-skid plate 6-1, a guide sleeve 7, an internal thread pipe wall 7-1 and an ear piece 8.

Detailed Description

As shown in fig. 1 and 2, an above-water photovoltaic support comprises a buoy and a vertical strut; three adjacent buoys 1 enclose into equilateral triangle shape through first skeleton 2, load bearing component 3 is installed through second skeleton 2-1 to 2 inboard of first skeleton, perpendicular branch 4 is equipped with to the guide sleeve 7 interpolation of load bearing component 3 center installation, the screw thread layer of perpendicular branch 4 root and the inboard internal thread pipe wall 7-1 spiro union of guide sleeve 7. Wherein, the utility model discloses a triangle concatenation mode of "complementary" formula has built a whole set of photovoltaic support on water. The triangular support has higher stability, and the occupied area is greatly reduced compared with the traditional quadrangular frame, so that more photovoltaic panels can be installed and the photovoltaic efficiency is improved. Meanwhile, in order to install the vertical supporting rod 4 for supporting the photovoltaic panel, the inner side of the first framework 2 is provided with a force bearing component 3 through a second framework 2-1. The vertical supporting rod 4 is vertically arranged on the force bearing component 3, and meanwhile, the thread layer at the root part of the vertical supporting rod 4 is in threaded connection with the inner thread pipe wall 7-1 at the inner side of the guide sleeve 7. The stability of the vertical fixation of the vertical strut 4 is enhanced.

As shown in fig. 1, the buoy 1 arranged at the inner end is connected to a floating plate 6 for stepping by a soft rope 5, and a skid prevention plate 6-1 is attached to the upper surface of the floating plate 6 for stepping. Wherein, in order to let the staff conveniently go to install or overhaul, the utility model discloses utilize soft rope 5 will arrange buoy 1 of tip in the inboard and trample and be connected with kickboard 6 to trample before the staff goes up.

As shown in fig. 1 and 2, the force bearing component 3 comprises a top plate 3-1, a sealing base 3-2 is installed at the bottom of the top plate 3-1, an arc-shaped end face 3-3 is reserved at the edge of the sealing base 3-2, and a guide sleeve 7 is inserted between the sealing base 3-2 and the top plate 3-1. The bearing component 3 consists of a top plate 3-1 and a sealing base 3-2, and meanwhile, in order to avoid the influence of water immersion into the bearing component 3 on the structural quality of the bearing component 3, an arc-shaped end surface 3-3 is reserved at the edge of the sealing base 3-2. Meanwhile, a guide sleeve 7 inserted between the sealing base 3-2 and the top plate 3-1 is connected with the vertical supporting rod 4.

As shown in fig. 1, the side of the second frame 2-1 is provided with an ear piece 8, and a support bar arranged on the ear piece 8 is fixedly connected with the vertical support rod 4. Wherein, the support strip of installation on the ear 8 can strengthen the connection stability of perpendicular branch 4, prevents the invasion and attack of wind and rain.

Although specific embodiments of the present invention have been described above, it will be appreciated by those skilled in the art that these are merely examples and that many changes and modifications may be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims.

Claims (4)

1. An overwater photovoltaic support comprises a buoy and a vertical supporting rod; the method is characterized in that: three adjacent buoys (1) enclose into equilateral triangle shape through first skeleton (2), load-bearing component (3) is installed through second skeleton (2-1) to first skeleton (2) inboard, perpendicular branch (4) are equipped with in the interpolation of guide sleeve (7) of load-bearing component (3) center installation, the screw thread layer of perpendicular branch (4) root and the internal thread pipe wall (7-1) spiro union of guide sleeve (7) inboard.

2. The above-water photovoltaic rack of claim 1, wherein: the buoy (1) arranged at the inner end part is connected with a floating plate (6) for stepping through a soft rope (5), and the upper surface of the floating plate (6) for stepping is provided with an antiskid plate (6-1).

3. The above-water photovoltaic rack of claim 1, wherein: the bearing component (3) comprises a top plate (3-1), a sealing base (3-2) is installed at the bottom of the top plate (3-1), an arc-shaped end face (3-3) is reserved at the edge of the sealing base (3-2), and a guide sleeve (7) is inserted between the sealing base (3-2) and the top plate (3-1).

4. The above-water photovoltaic rack of claim 1, wherein: ear piece (8) are installed to second skeleton (2-1) side, the support bar and perpendicular branch (4) fixed connection of installation on ear piece (8).

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