CN221255622U - Solar photovoltaic pontoon water lifting pump station - Google Patents

Abstract

The utility model discloses a solar photovoltaic pontoon water lifting pump station, which comprises a photovoltaic power generation mechanism, wherein the photovoltaic power generation mechanism is sequentially connected with a pontoon pump and a high-level water tank through an inverter; the photovoltaic power generation mechanism comprises a photovoltaic plate, and a photovoltaic bracket is connected to the bottom of the photovoltaic plate. The clean and green solar energy is utilized to be converted into electric energy, water is lifted to a reservoir at a high place through electricity generated by photovoltaics in a clear period of weather, so that the irrigation problem is solved, and meanwhile, the construction cost of a water pump station is reduced.

Description

Solar photovoltaic pontoon water lifting pump station

Technical Field

The utility model belongs to the technical field of irrigation equipment, and relates to a solar photovoltaic pontoon water lifting pump station.

Background

The partial remote poor mountain areas in China have serious resource water shortage, engineering water shortage and facility water shortage caused by the climate characteristics, special geographical topography conditions, no irrigation facilities and the like, especially the problem of water shortage in arid years is more remarkable, so that drinking water for people and livestock and irrigation water for agricultural production are short, irrigation facilities are lacking in the areas, the current production level is low, the masses are difficult to live, and the production and the life of local masses are severely restricted.

The traditional water lifting pump station engineering water pump adopts commercial power in operation, but in remote mountain areas and areas lacking electric power facilities, the electric power facilities are far away from water source areas, the construction cost of the electric power facilities is high, the fund of engineering construction is difficult to prepare, and the construction of the traditional water lifting pump station is restricted. Due to the limitation of the terrain conditions, the height difference between most mountain water sources and irrigation areas is large, the running cost of the traditional water lifting pump station is high, and the masses are hard to bear the cost.

Disclosure of utility model

The utility model aims to provide a solar photovoltaic pontoon water lifting pump station, which solves the problem of high construction cost of water lifting pump stations in partial areas in the prior art.

The technical scheme adopted by the utility model is that the solar photovoltaic pontoon water lifting pump station comprises a photovoltaic power generation mechanism, wherein the photovoltaic power generation mechanism is sequentially connected with a pontoon pump and a high-level water tank through an inverter; the photovoltaic power generation mechanism comprises a photovoltaic plate, and a bracket is connected to the bottom of the photovoltaic plate.

The utility model is also characterized in that:

The photovoltaic panel comprises a plurality of photovoltaic modules, and the photovoltaic modules are connected through a bracket combination.

The plurality of photovoltaic modules are arranged in a vertical double row mode.

The support includes a plurality of purlins and truss, and two photovoltaic modules of same row are fixed through the purlin, and same line photovoltaic module passes through truss connection, and the truss is fixed in the purlin bottom, connects through the tie-beam between the truss, and the tie-beam bottom is connected with the support stand.

The bottom of the stand column of the bracket is sleeved with a pre-buried steel pipe.

Purlin drags are provided with between purlin and the crossbeam.

The water outlet pipe of the pontoon pump comprises a water delivery steel pipe, the water delivery steel pipe is connected with a double-layer steel wire winding rubber pipe through a joint, and a steel strand layer is wrapped outside the double-layer steel wire winding rubber pipe close to the joint end.

Still include the ballast, the water delivery steel pipe is fixed on the ballast.

The beneficial effects of the utility model are as follows: according to the solar photovoltaic pontoon water lifting pump station, clean and green solar energy is utilized to be converted into electric energy, water is lifted to a reservoir at a high place through photovoltaic power generation in a clear period of weather, so that the irrigation problem is solved, and meanwhile, the construction cost of the water pump station is reduced; the support adopts a purline longitudinal arrangement and truss transverse arrangement scheme to fixedly support a plurality of photovoltaic modules, so that the stability of the photovoltaic modules is ensured; the double-layer steel wire winding rubber tube is connected with the joint, a steel strand layer reinforcing transition section is arranged at the joint of the joint and the double-layer steel wire winding rubber tube, and the pipeline of the connecting section is effectively prevented from being pulled apart, so that the durability of the pipeline at the joint is improved, and the reasonable service life is prolonged.

Drawings

FIG. 1 is a schematic diagram of a solar photovoltaic pontoon water pumping station according to the utility model;

FIG. 2 is a top view of a photovoltaic module in a solar photovoltaic pontoon water lift pump station of the present utility model;

FIG. 3 is a schematic structural view of a truss in a solar photovoltaic pontoon water pumping station of the utility model;

FIG. 4 is a schematic diagram of the structure of a pre-buried steel pipe in a solar photovoltaic pontoon water pumping station;

FIG. 5 is a schematic diagram of the structure of the pontoon pump outlet in the solar photovoltaic pontoon water-lifting pump station of the utility model.

In the figure, 1 a photovoltaic power generation mechanism, 2 an inverter, 3 a pontoon pump, 31 a water delivery steel pipe, 32a double-layer steel wire wound rubber pipe, 33 a steel stranded wire layer, 4a high-level water tank, 5a photovoltaic panel, 6 a bracket, 61 a purlin, 62 a truss, 621 a cross beam, 622 a diagonal brace, 63 a connecting beam, 64 a bracket upright post, 65 a purlin tractor, 66 a pre-buried steel pipe and 7 a ballast.

Detailed Description

The utility model will be described in detail below with reference to the drawings and the detailed description.

Example 1

The solar photovoltaic pontoon water lifting pump station is shown in fig. 1, and comprises a photovoltaic power generation mechanism 1, wherein the photovoltaic power generation mechanism 1 is electrically connected with a pontoon pump 3 through an inverter 2, the pontoon pump 3 is positioned under the water surface, and a water outlet pipe of the pontoon pump 3 is connected with a high-level water tank 4; the photovoltaic power generation mechanism 1 comprises a photovoltaic panel 5, and a photovoltaic bracket 6 is connected to the bottom of the photovoltaic panel 5.

Example 2

The solar photovoltaic pontoon water lifting pump station is shown in fig. 1, and comprises a photovoltaic power generation mechanism 1, wherein the photovoltaic power generation mechanism 1 is electrically connected with a pontoon pump 3 through an inverter 2, the pontoon pump 3 is positioned under the water surface, and a water outlet pipe of the pontoon pump 3 is connected with a high-level water tank 4; the photovoltaic power generation mechanism 1 comprises a photovoltaic panel 5, and a photovoltaic bracket 6 is connected to the bottom of the photovoltaic panel 5.

In this embodiment, as shown in fig. 2, the photovoltaic panel 5 includes a plurality of photovoltaic modules, and the plurality of photovoltaic modules are connected in combination by the photovoltaic bracket 6. The plurality of photovoltaic modules are arranged in a vertical double row mode.

Example 3

The solar photovoltaic pontoon water lifting pump station is shown in fig. 1, and comprises a photovoltaic power generation mechanism 1, wherein the photovoltaic power generation mechanism 1 is electrically connected with a pontoon pump 3 through an inverter 2, the pontoon pump 3 is positioned under the water surface, and a water outlet pipe of the pontoon pump 3 is connected with a high-level water tank 4; the photovoltaic power generation mechanism 1 comprises a photovoltaic panel 5, and a bracket 6 is connected to the bottom of the photovoltaic panel 5.

As shown in fig. 2, the photovoltaic panel 5 includes a plurality of photovoltaic modules, which are combined and connected by a photovoltaic bracket 6. The plurality of photovoltaic modules are arranged in a vertical double row mode. In this embodiment, an arrangement of 2 rows and 9 columns is adopted.

The support 6 comprises a plurality of purlines 61 and trusses 62, two photovoltaic modules in the same column are fixed through the purlines 61, the photovoltaic modules in the same row are connected through trusses 62, the trusses 62 are fixed at the bottom of the purlines 61, the trusses 62 are connected through connecting beams 63, and support stand columns 64 are connected to the bottoms of the connecting beams 63. As shown in fig. 3, each truss 62 includes a cross beam 621, and the cross beam 621 is connected with the stand column 64 through a diagonal brace 622; the photovoltaic panels in the same row are connected by a beam 621, and purlines 61 are vertically fixed above the beam 621. As shown in fig. 4, the bottom of the stand column 64 is sleeved with the embedded steel pipe 66, the stand column 64 and the embedded steel pipe 66 are connected by adopting a plug-in opposite-penetrating bolt, so that the height direction is convenient to adjust, the bolt connection enables the stand to release stress through effective deformation, and the construction and installation speed is high and convenient. Purlin 61 and beam 621 are provided with purlin trailer 65 therebetween. In this embodiment, the bracket 6 includes four trusses 62, four purlins 61, and three connecting beams 63. The support 6 is distinguished according to the range of adaptation to different mountain slopes, mainly by adjusting the length of the support uprights 64 and the diagonal braces to adapt to the mountain terrain.

During installation, due to uneven ground and uneven terrain, a certain adjustment allowance is reserved for the bracket 6 in design, the bracket 6 is always reserved for a certain adjustment allowance, the horizontal distance in the north-south direction is mainly controlled by foundation construction, the positioning of the bracket upright post 64 is determined by the distance, the problem of fixed connection between the connecting beam 63 and the top of the bracket upright post 64 is caused by overlarge positioning deviation, and secondly, the vertical relationship between the central line of the northeast-west foundation and the central line of the northeast-north foundation is ensured all the time, so that the parallelogram is avoided after the purline 61 is installed, and the assembly installation difficulty is caused. Continuous holes are formed on the east-west direction of the connecting position of the purlines 61 and the connecting beams 63, so that construction deviation of the spacing between foundation piles is adapted, and the spacing between the foundation piles can be considered along with slopes along the east-west direction.

As shown in fig. 5, the water outlet pipe of the pontoon pump 3 comprises a water delivery steel pipe 31, the water delivery steel pipe 31 is connected with a double-layer steel wire winding rubber pipe 32 through a joint, and the double-layer steel wire winding rubber pipe 32 is wrapped with a steel stranded wire layer 33 near the joint end. Still including the ballast 7, water delivery steel pipe 31 is fixed on the ballast 7.

Through the mode, the solar photovoltaic pontoon water lifting pump station disclosed by the utility model converts clean and green solar energy into electric energy, and water is lifted to the reservoir at the high position through photovoltaic power generation in a clear period of weather to solve the irrigation problem; the support adopts a purline longitudinal arrangement and truss transverse arrangement scheme to fixedly support a plurality of photovoltaic panels, so that the stability of the photovoltaic panels is ensured; the double-layer steel wire winding rubber tube is connected with the joint, and a steel strand layer reinforcing transition section is arranged at the joint of the joint and the double-layer steel wire winding rubber tube, so that the durability of a pipeline at the joint is improved, and the reasonable service life is prolonged.

Claims (8)

1. The solar photovoltaic pontoon water lifting pump station is characterized by comprising a photovoltaic power generation mechanism (1), wherein the photovoltaic power generation mechanism (1) is electrically connected with a pontoon pump (3) through an inverter (2), and a water outlet pipe of the pontoon pump (3) is connected with a high-level water tank (4); the photovoltaic power generation mechanism (1) comprises a photovoltaic plate (5), and a support (6) is connected to the bottom of the photovoltaic plate (5).

2. Solar photovoltaic pontoon water pumping station according to claim 1, wherein said photovoltaic panel (5) comprises a plurality of photovoltaic modules, a plurality of said photovoltaic modules being connected in combination by means of a bracket (6).

3. The solar photovoltaic pontoon water pumping station of claim 2, wherein a plurality of said photovoltaic modules are arranged in a vertical double row.

4. A solar photovoltaic pontoon water pumping station according to claim 3, wherein the bracket (6) comprises a plurality of purlines (61) and trusses (62), two photovoltaic modules in the same column are fixed by the purlines (61), the photovoltaic modules in the same row are connected by the trusses (62), the trusses (62) are fixed at the bottom of the purlines (61), the trusses (62) are connected by connecting beams (63), and the bottom of the connecting beams (63) is connected with bracket columns (64).

5. The solar photovoltaic pontoon water pumping station of claim 4, wherein the bottom of the support column (64) is sleeved with a pre-buried steel pipe (66).

6. The solar photovoltaic pontoon water pumping station of claim 4, wherein a purlin trailer (65) is disposed between the purlin (61) and the cross beam (621).

7. The solar photovoltaic pontoon water pumping station according to claim 1, wherein the pontoon pump (3) water outlet pipe comprises a water delivery steel pipe (31), the water delivery steel pipe (31) is connected with a double-layer steel wire winding rubber pipe (32) through a joint, and the double-layer steel wire winding rubber pipe (32) is wrapped with a steel strand layer (33) near the joint end.

8. The solar photovoltaic pontoon water pumping station according to claim 7, further comprising a ballast (7), wherein the water delivery steel pipe (31) is fixed to the ballast (7).