CN218913047U - High-rise hydroelectric generation device - Google Patents

Abstract

The utility model discloses a high-rise hydroelectric generation device, which comprises: including roof water tank, a plurality of floor water tank, vertical water pipe and hydraulic generator, roof water tank and a plurality of floor water tank top all are equipped with the water level sensor, and roof water tank and a plurality of floor water tank are respectively through floor water pipe and vertical water piping connection, and a plurality of floor water pipes are equipped with the electron water valve respectively, and the electron water valve passes through the circuit to be connected with the water level sensor that corresponds, and vertical water pipe lower extreme is equipped with hydraulic generator. Still include a plurality of rose boxes and vertical blow off pipe, the rose box is connected with floor water tank is adjacent, and a plurality of rose boxes all are connected with vertical blow off pipe through the water pipe, and the rose box is used for collecting the life drainage of this layer and a plurality of floors above, and thick miscellaneous sewage passes through vertical blow off pipe discharge, and the thin water gets into the floor water tank. The water outlet at the lower end of the vertical water pipe impacts the hydraulic generator to rotate for power generation. The lower end of the vertical water pipe is provided with a convergent square water outlet which is aligned to square blades on one side of the impeller of the hydraulic generator.

Description

High-rise hydroelectric generation device

Technical Field

The utility model relates to the technical field of high-rise hydroelectric power generation devices, in particular to a high-rise hydroelectric power generation device.

Background

Whether it is a residential building or an office building, a large amount of water is required every day, most of the water is discharged, especially the water for the residential building, but only some coarse substances, such as bath water, face washing water, vegetable washing water and the like, are used up, and the domestic water is simply discharged as sewage and is not reused, so that the domestic water is unfortunately used up. Most of life drainage of the actual floors only needs simple filtration and can be used for hydroelectric power generation, but a power generation scheme and a device for utilizing the drainage of the high-rise building are lacking at present, so that unnecessary hydraulic resource waste is caused.

The present utility model has been made based on the above-described situation.

Disclosure of Invention

The technical problem to be solved by the utility model is to overcome the defects of the technology and provide the high-rise hydroelectric generation device.

In order to solve the technical problems, the technical scheme provided by the utility model is that the high-rise hydroelectric generation device comprises: including roof water tank, a plurality of floor water tank, vertical water pipe and hydraulic generator, roof water tank and a plurality of floor water tank top all are equipped with the water level sensor, roof water tank and a plurality of floor water tank are respectively through water pipe and vertical water piping connection, and is a plurality of the water pipe is equipped with the electron water valve respectively, the electron water valve passes through the circuit and is connected with the water level sensor that corresponds, vertical water pipe lower extreme is equipped with hydraulic generator.

Still include a plurality of rose boxes and vertical blow off pipe, the rose box is connected and is communicated through the apopore with floor water tank is adjacent, a plurality of the rose box is all connected with vertical blow off pipe through the water pipe.

As an improvement, the filter box is used for collecting living drainage of a plurality of floors above the floor, coarse impurity is discharged through a vertical drain pipe, and the rest of fine water enters the floor water tank.

As an improvement, the water outlet at the lower end of the vertical water pipe impacts the hydraulic generator to rotate for power generation.

As an improvement, a convergent square water outlet is arranged at the lower end of the vertical water pipe, and the convergent square water outlet is aligned to square blades on one side of the impeller of the hydraulic generator.

As an improvement, when the water level touches the threshold value of the water level sensor, the water level sensor sends a switch-on signal to the electronic water valve.

As an improvement, a filter net pipe is arranged in the filter box.

Compared with the prior art, the utility model has the advantages that: the life drain pipe of the floor is connected to the corresponding filter tank, the roof water tank is placed on the roof to collect rainwater, when the water level of each water tank rises to reach the threshold value of the water level sensor, the electronic water valve can be opened to discharge water, the hydraulic generator receives water to impact to generate electricity, and when the water level drops to the bottom, the electronic water valve can be closed to store water.

The high-rise hydroelectric power generation device can be arranged in residential buildings or office buildings, natural water and domestic wastewater are collected, and the water automatically impacts and generates power due to gravity, so that the device is simple and economical to implement, and has high practical value and popularization value.

Drawings

Fig. 1 is a schematic diagram of a hydraulic power generation device for a high building according to the present utility model.

Fig. 2 is a schematic diagram of a hydraulic power generation device for a high building according to the present utility model.

Fig. 3 is a schematic diagram of a hydraulic generator and a convergent square water outlet of a high-rise hydroelectric power generating device according to the present utility model.

Fig. 4 is a schematic view of a partial structure of a high-rise hydroelectric power generating device according to the present utility model.

As shown in the figure: 1. the water level sensor comprises a roof water tank, 2, a floor water tank, 3, a vertical water pipe, 4, a hydraulic generator, 5, a water level sensor, 6, a floor water pipe, 7, an electronic water valve, 8, a filter box, 9, a vertical blow-down pipe, 10 and a convergent square water outlet.

Detailed Description

The utility model relates to a high-rise hydroelectric power generation device, which is further described in detail below with reference to the accompanying drawings.

Referring to fig. 1 to 4, a high-rise hydroelectric power generation device comprises a roof water tank 1, a plurality of floor water tanks 2, a vertical water pipe 3 and a hydraulic generator 4, wherein water level sensors 5 are arranged at the tops of the roof water tank 1 and the plurality of floor water tanks 2, the roof water tank 1 and the plurality of floor water tanks 2 are respectively connected with the vertical water pipe 3 through floor water pipes 6, a plurality of floor water pipes 6 are respectively provided with an electronic water valve 7, the electronic water valve 7 is connected with the corresponding water level sensors 5 through circuits, and the hydraulic generator 4 is arranged at the lower end of the vertical water pipe 3.

Still include a plurality of rose boxes 8 and vertical blow off pipe 9, rose box 8 and floor water tank 2 are adjacent to be connected and communicate through the apopore, a plurality of rose box 8 all is connected with vertical blow off pipe 9 through the water pipe.

The filter box 8 is used for collecting domestic drainage of a plurality of floors above the floor, coarse and impurity pollutants are discharged through the vertical drain pipe 9, and the rest of fine water enters the floor water tank 2.

And the water outlet at the lower end of the vertical water pipe 3 impacts the hydraulic generator 4 to rotate for power generation.

The lower end of the vertical water pipe 3 is provided with a convergent square water outlet 10, and the convergent square water outlet 10 is aligned to square blades on one side of an impeller of the hydraulic generator 4.

When the water level touches the threshold value of the water level sensor 5, the water level sensor 5 sends a switch-on signal to the electronic water valve 7.

A filter net pipe is arranged in the filter box 8.

In the concrete implementation of the utility model, the living drain pipes of floors are connected to the corresponding filter boxes 8, the roof water tanks 1 are placed on the roof to collect rainwater, when the water level of each water tank rises to reach the threshold value of the water level sensor 5, the electronic water valve 7 can be opened to discharge water, the hydraulic generator 4 receives water impact to generate electricity, and when the water level falls to the bottom, the electronic water valve 7 can be closed to store water in the water tanks.

The high-rise hydroelectric power generation device can be arranged in residential buildings or office buildings, natural water and domestic wastewater are collected, and the water automatically impacts and generates power due to gravity, so that the device is simple and economical to implement, and has high practical value and popularization value.

The utility model and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the utility model as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present utility model.

Claims (6)

1. A high-rise hydroelectric generation device is characterized in that: the water level sensor comprises a roof water tank (1), a plurality of floor water tanks (2), a vertical water pipe (3) and a hydraulic generator (4), wherein water level sensors (5) are arranged at the tops of the roof water tank (1) and the plurality of floor water tanks (2), the roof water tank (1) and the plurality of floor water tanks (2) are respectively connected with the vertical water pipe (3) through floor water pipes (6), a plurality of floor water pipes (6) are respectively provided with an electronic water valve (7), the electronic water valves (7) are connected with the corresponding water level sensors (5) through circuits, and the hydraulic generator (4) is arranged at the lower end of the vertical water pipe (3);

still include a plurality of rose boxes (8) and vertical blow off pipe (9), rose boxes (8) are connected and are communicated through the apopore with floor water tank (2) is adjacent, a plurality of rose boxes (8) are all connected with vertical blow off pipe (9) through the water pipe.

2. A high-rise hydroelectric power generation device according to claim 1, wherein: the filter box (8) is used for collecting living drainage of a plurality of floors above the floor, coarse impurity is discharged through the vertical blow-down pipe (9), and the rest of fine water enters the floor water tank (2).

3. A high-rise hydroelectric power generation device according to claim 1, wherein: and water discharged from the lower end of the vertical water pipe (3) impacts the hydraulic generator (4) to rotate for power generation.

4. A high-rise hydroelectric power generation device according to claim 1, wherein: the lower end of the vertical water pipe (3) is provided with a convergent square water outlet (10), and the convergent square water outlet (10) is aligned to square blades on one side of an impeller of the hydraulic generator (4).

5. A high-rise hydroelectric power generation device according to claim 1, wherein: when the water level touches the threshold value of the water level sensor (5), the water level sensor (5) sends a switch-on signal to the electronic water valve (7).

6. A high-rise hydroelectric power generation device according to claim 1, wherein: a filter net pipe is arranged in the filter box (8).

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