CN212052977U

CN212052977U - Building pipeline device capable of generating power

Info

Publication number: CN212052977U
Application number: CN202020400607.XU
Authority: CN
Inventors: 古钧仁
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-03-25
Filing date: 2020-03-25
Publication date: 2020-12-01
Anticipated expiration: 2030-03-25

Abstract

The utility model discloses a building pipeline device capable of generating electricity, which is mainly characterized in that a diversion pipeline is connected to the side of a main pipeline in a building, a power generation device is arranged on the main pipeline, a stop switch is arranged on the diversion pipeline in a matching way, and a control switch is arranged at the position of the main pipeline, which is close to the inlet end of the power generation device; therefore, the water flow generates electricity through the power generation device through the main pipeline, the generated electric energy can be stored for self use or can be integrally used by an external power grid, the maximum utilization efficiency of water resource reactivation is achieved, even if the power generation device is damaged and needs maintenance, the normal supply of water for a building can be stabilized by matching the switching of the stop switch and the control switch, meanwhile, the power generation device is easily and quickly maintained, and the convenience of use and maintenance is further improved.

Description

Building pipeline device capable of generating power

Technical Field

The utility model relates to a piping installation, especially a building piping installation that can generate electricity.

Background

In recent years, with the gradual depletion of limited fuel resources such as petroleum, natural gas and the like, more and more countries invest in the development work of renewable energy sources, wherein the earth water resources are abundant, inexhaustible and inexhaustible, and the hydraulic power generation can be repeatedly used, almost no pollutant is generated during operation, and no fuel is needed, so that the power generation cost is not influenced by the fuel price, and in addition, the operation is highly automated and the required manpower is relatively less, so the power generation cost is relatively lower, and the hydraulic power generation device is one of the most widely renewable energy sources applied to the current human society.

However, the conventional hydroelectric generation depends on relatively large hydroelectric generation facilities such as dams built in lakes and rivers, which not only affect the environmental ecology and residents nearby, but also have huge dam building cost and limited suitable building places, and is limited by the change of rainfall seasons, and if the water is in a dry season, the power generation cannot be performed due to insufficient water, so that manufacturers are invested in the development of small hydroelectric generation devices in many times, so as to provide a water source which is long-lasting and continuous to flow by using domestic water, and simultaneously, the speed of running water flowing from a reservoir and the water amount are converted into electric energy, so that the electric energy can be additionally generated while the water is used, and the function of the water resource can be exerted to the full extent.

However, after practical use, it is found that a common small-sized hydroelectric power generation device is installed in a single pipeline, otherwise the hydroelectric power generation device is easily damaged due to the influence of impurities in water, and the application is quite limited, when the hydroelectric power generation device needs to be maintained, water flow in the pipeline needs to be closed, and the water flow supply cannot be restarted until the hydroelectric power generation device completes maintenance operation, so that the pressure of maintenance personnel is increased, and if the maintenance personnel cannot timely handle the water flow, or the maintenance operation of the hydroelectric power generation device is complex and needs to be disassembled to return to a manufacturing end for processing, the water consumption is inconvenient, and the improvement needs to be realized.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a building plumbing installation that can generate electricity, it not only maintains simply on applying to the building pipeline, and effectively changes the kinetic energy of building water supply and convert the electric energy into to reach the maximum utilization of water resource reactivation.

The utility model relates to a building pipeline device capable of generating electricity, which comprises a main pipeline which is arranged in a building and is used for supplying water, a diversion pipeline with two ends respectively connected with the main pipeline, an electricity generating device which is arranged in the main pipeline and is positioned between two ends of the diversion pipeline, a stop switch which is arranged on the diversion pipeline, and a control switch which is arranged on the main pipeline and is adjacent to the electricity generating device; the power generation device is provided with a body, an inlet end and an outlet end which are respectively formed at two ends of the body, a driving unit arranged in the body, a power generation unit connected with the driving unit and positioned in the body, and an electric energy output unit connected with the power generation unit, wherein the driving unit is driven by water flow to rotate, so that the power generation unit is linked to convert kinetic energy of the water flow into electric energy, and the electric energy output unit outputs the electric energy.

Optionally, the driving unit is a helical blade.

Optionally, the electric energy output unit is externally connected with a battery, and the battery can store the electric energy generated by the electric energy output unit.

Optionally, the diameter of the interior of the body is greater than the diameter of the primary conduit.

Optionally, the main pipe is connected to a reservoir, and water in the reservoir is supplied by the main pipe.

Wherein, the water flows through the power generation device from the main pipeline, so as to generate electric energy for accumulating self-use or externally connecting a power grid for the whole use of a system, and further achieve the maximum utilization effect of water resource reactivation; moreover, by switching the stop switch and the control switch, the water can be normally supplied by bypassing the diversion pipeline when the power generation device is maintained, and the convenience of use and maintenance is further improved.

Drawings

FIG. 1 is a schematic view of a preferred embodiment of the present invention;

FIG. 2 is another schematic view of the preferred embodiment;

FIG. 3 is an action diagram of the preferred embodiment;

fig. 4 is another diagram of the operation of the preferred embodiment.

The reference numbers illustrate: 3-building plumbing, 31-main plumbing, 32-diversion plumbing, 33-power generation, 34-stop switch, 35-control switch, 331-body, 332-inlet, 333-outlet, 334-drive unit, 335-power generation, 336-power output unit, 31D-diameter of main plumbing, 331D-diameter of body, 4-reservoir, 5-battery.

Detailed Description

The foregoing and other features, aspects and utilities of the present invention will be apparent from the following more particular description of preferred embodiments of the invention when read in conjunction with the accompanying drawings.

Referring to fig. 1, in a preferred embodiment of a building plumbing device capable of generating electricity according to the present invention, the building plumbing device 3 includes a main pipe 31 disposed in a building and used for supplying water, a diversion pipe 32 having two ends respectively connected to the main pipe 31, an electricity generating device 33 disposed in the main pipe 31 and located between two ends of the diversion pipe 32, a stop switch 34 disposed on the diversion pipe 32, and a control switch 35 disposed in the main pipe 31 and adjacent to the electricity generating device 33, wherein in the embodiment, the main pipe 31 is further connected to a reservoir 4, so that water in the reservoir 4 is supplied by the main pipe 31.

Still further, the power generating device 33 has a body 331, an inlet end 332 and an outlet end 333 respectively formed at two ends of the body 331, a driving unit 334 disposed in the body 331, a power generating unit 335 connected to the driving unit 334 and located in the body 331, and an electric energy output unit 336 connected to the power generating unit 335, wherein in the present embodiment, the electric energy output unit 336 is further connected to a battery 5, and a diameter 331D of the interior of the body 331 is larger than a diameter 31D of the main pipe 31, as shown in fig. 2, and the driving unit 334 is exemplified by a helical blade.

Referring to fig. 3, when the power generation device 33 is normally operated, the control switch 35 is turned on, and the stop switch 34 is turned off, so that the water flow is not discharged from the diversion pipeline 32, at this time, a user turns on a water source to make the water flow downward from the reservoir 4 under the action of gravity, and then enters the main body 331 through the main pipeline 31 via the inlet end 332, at this time, the diameter 331D of the main body 331 is larger than the diameter 31D of the main pipeline 31, so that the water flow does not generate a back-blocking phenomenon in the process of entering the main body 331 from the main pipeline 31 and driving the driving unit 334, and at the same time, the water flow can sufficiently contact and impact the driving unit 334 to rapidly drive the driving unit 334 to rotate, thereby improving the overall power generation efficiency, and then the driving unit 334 is used to link the power generation unit 335, so as to convert the kinetic energy of the water flow into electric energy, the generated electric energy is output outwards through the electric energy output unit 336, and can be stored in the battery 5 for self-accumulation or directly externally connected to a power grid (not shown) for systematic integration, or extra electric energy can be sold to power companies, and the like, if a building is provided with a solar panel, the generated electric energy can be stored in the battery 5 for standby, so that the economic benefit is greatly improved, and when water flows from the body 331 to the main pipeline 31 through the outlet end 333, because the diameter 331D of the body 331 is larger than the diameter 31D of the main pipeline 31, the water flow can be concentrated to effectively increase the flow rate of the water flow, and meanwhile, the loss of reduction of the flow of the water flow is effectively avoided, so that the electric energy can be additionally generated while the water is used, and the maximum utilization effect of water resource regeneration is achieved.

Referring to fig. 4, when the power generating device 33 is maintained or the power generating device 33 needs to be disassembled and taken out, the control switch 35 is turned off and the stop switch 34 is turned on, so that the water flow from the reservoir 4 to the power generating device 33 through the main pipeline 31 is blocked by the control switch 35 and then enters the diversion pipeline 32, and at this time, the two ends of the diversion pipeline 32 just avoid the power generating device 33, so that the water flow can pass through the diversion pipeline 32 from the main pipeline 31 and then enter the main pipeline 31 again, thereby avoiding the inconvenient water use of users caused by the maintenance of the power generating device 33, stabilizing the normal water supply of the building, and easily and quickly maintaining the power generating device 33, and further improving the convenience of use and maintenance.

To sum up the foregoing, the present invention provides a building pipeline device capable of generating power by gravity action of water flow, utilizing water flow to generate power by the power generation device 33 on the main pipeline 31, and simultaneously, the power can be stored for self use or for unified use by an external power grid, so as to achieve the maximum utilization of water resource regeneration, and further, timely matching the control switch 35 and the stop switch 34 to guide water flow design, therefore, when performing maintenance operation of the power generation device 33, the water flow supplied by the building can be guided to bypass the diversion pipeline 32, so that the maintenance operation of the power generation device 33 can be performed simultaneously under the normal supply of water to the building, and more convenience in use and maintenance can be increased.

However, the above description is only for the purpose of illustrating the preferred embodiments of the present invention, and the scope of the present invention should not be limited thereby, and all simple equivalent changes and modifications made in the claims and the specification of the present invention should be covered by the present invention.

Claims

1. A building plumbing installation capable of generating electricity, comprising: the system comprises a main pipeline arranged in a building and used for supplying water, a diversion pipeline with two ends respectively connected with the main pipeline, a power generation device arranged in the main pipeline and positioned between two ends of the diversion pipeline, a stop switch arranged on the diversion pipeline, and a control switch arranged on the main pipeline and adjacent to the power generation device; the power generation device is provided with a body, an inlet end and an outlet end which are respectively formed at two ends of the body, a driving unit arranged in the body, a power generation unit connected with the driving unit and positioned in the body, and an electric energy output unit connected with the power generation unit, wherein the driving unit is driven by water flow to rotate, so that the power generation unit is linked to convert kinetic energy of the water flow into electric energy, and the electric energy output unit outputs the electric energy.

2. A building plumbing installation capable of generating electricity as claimed in claim 1 wherein: the driving unit is a helical blade.

3. A building plumbing installation capable of generating electricity as claimed in claim 1 wherein: the electric energy output unit is externally connected with a battery, and the battery can store the electric energy generated by the electric energy output unit.

4. A building plumbing installation capable of generating electricity as claimed in claim 1 wherein: the diameter of the interior of the body is greater than the diameter of the main conduit.

5. A building plumbing installation capable of generating electricity as claimed in claim 1 wherein: the main pipe is connected to a reservoir, and water in the reservoir is supplied by the main pipe.