CN211549886U - Water flow power generation device - Google Patents

Abstract

The utility model provides a water flow power generation device, including compression reaction vessel, buffer container, catchment container and power generation mechanism, reaction vessel has sealed chamber, and buffer container has sealed chamber, and air duct intercommunication is passed through to compression reaction vessel's sealed chamber and buffer container's sealed chamber, and the intercommunication has first water flow pipeline and second water flow pipeline between buffer container's sealed chamber and the catchment container, and power generation mechanism includes turbine and generator, and the turbine setting is in first water flow pipeline, the drive shaft fixed connection of turbine and generator. The utility model discloses a rivers power generation facility flows in to the container that catchments through the water that produces among the gaseous oppression buffer vessel in the compression reaction container, and then drives turbine or screw and rotate and drive the generator electricity generation, and foretell rivers power generation facility need not receive geographical environment's restriction, can freely remove geographical position.

Description

Water flow power generation device

Technical Field

The utility model relates to a power generation facility, concretely relates to rivers power generation facility.

Background

The hydraulic power generation is realized by that a building concentrates the fall of natural water flow to form a water head, and the flow of the natural water flow is collected and regulated by a reservoir, so that when the water flow passes through a water turbine generator set, a water turbine is pushed by the water flow to rotate, the water turbine drives a generator to generate power, and the mechanical energy is converted into electric energy. However, the existing hydroelectric power generation utilizes potential energy to be finally converted into electric energy, which has certain requirements on the environment and needs to be limited by the geographical environment.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the shortcomings of the prior art and provide a water flow power generation device.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a water flow power generation device comprises a compression reaction container, a buffer container, a water collecting container and a power generation mechanism, wherein the reaction container is provided with a sealed cavity, the buffer container is provided with a sealed cavity, the sealed cavity of the compression reaction container and the sealed cavity of the buffer container are communicated through an air pipeline, the sealed cavity of the compression reaction container and the communication position of the air pipeline are positioned on the upper part of the sealed cavity of the compression reaction container, the sealed cavity of the buffer container and the communication position of the air pipeline are positioned on the upper part of the sealed cavity of the buffer container, a first water flow pipeline and a second water flow pipeline are communicated between the sealed cavity of the buffer container and the water collecting container, the sealed cavity of the buffer container and the communication position of the first water flow pipeline are positioned on the lower part of the sealed cavity of the buffer container, and the communication position of the second water flow pipeline are positioned on the upper part of the sealed cavity of the buffer container, the communication position of the water collecting container and the second water flow pipeline is positioned at the lower part of the water collecting container, a first valve is arranged on the second water flow pipeline, the water collecting container is provided with an air vent or an opening without a top cover, the vertical height of the water collecting container is higher than that of the buffer container, a sealed cavity of the compression reaction container is provided with a deflation valve, the sealed cavity of the compression reaction container is provided with a solid charging hole and a liquid charging hole, the solid charging hole of the compression reaction container is provided with a first sealing cover matched with the solid charging hole, the liquid charging hole is provided with a second sealing cover matched with the liquid charging hole, and the solid charging hole of the compression reaction container and the solid and liquid added by the liquid charging hole can generate gas through chemical reaction;

the power generation mechanism comprises a turbine and a generator, the turbine is arranged in the first water flow pipeline, and a driving shaft of the turbine and a driving shaft of the generator are fixedly connected.

The water flow power generation device can firstly add reaction liquid and reaction solid of gas generated by chemical reaction into the compression reaction container respectively through the compression reaction container, the buffer container, the water collecting container, the power generation mechanism, the air pipeline communicated between the compression reaction container and the buffer container and the two water flow pipelines communicated between the buffer container and the water collecting container, keep the reaction liquid and the reaction solid separated, fill water into the buffer container, then close the compression reaction container, ensure that the compression reaction container, the air pipeline communicated between the compression reaction container and the buffer container, the empty buffer container, the first water flow pipeline communicated with the buffer container and the water collecting container are communicated, close the first valve to ensure that the first water flow pipeline communicated with the buffer container and the water collecting container is closed, and at the moment, mix the reaction liquid and the reaction solid in the compression reaction container, the liquid air pressure generated in the compression reaction container is increased, because the communication position of the buffer container and the air pipeline is positioned at the upper part of the sealing cavity of the buffer container, the pressure in the compression reaction container can press the water in the buffer container to flow into the water collecting container through the first water flow pipeline, the air vent arranged on the water collecting container or the opening without the top cover is used for exhausting, so that the pressure of the water collecting container is consistent with the atmospheric pressure, at the moment, the water flowing in the first water flow pipeline can obtain the turbine rotation, and the turbine rotation drives the generator to generate electricity. When the water level in the buffer container is reduced to a certain water level or no water exists, the power generation is stopped, at the moment, the first sealing cover and the second sealing cover of the compression reaction container are opened, reaction liquid and reaction solid of gas generated through chemical reaction are added, the first valve is opened, the compression reaction container is communicated with the atmosphere at the moment, the water collection container is also communicated with the atmosphere, the vertical height of the water collection container is higher than that of the buffer container, water in the water collection container flows back into the buffer container, the buffer container is provided with a vent hole, water can be added into the water collection container through the vent hole or an opening without a top cover, and the water can flow into the buffer container.

Preferably, the turbine is replaced by a propeller.

The water flow power generation device drives the propeller to rotate through water flow to drive the generator to generate power.

Preferably, a check valve is arranged on the first water flow pipeline.

The water flow power generation device can avoid water flow from flowing back in the first water flow pipeline.

Preferably, the compression reaction vessel is provided with more than two parallel seal cavities, the upper part of each seal cavity of the compression reaction vessel is communicated with the seal cavity of the buffer vessel through an air pipeline, the air pipeline comprises an air main pipe and a plurality of air branch pipes communicated with the air main pipe, the air main pipe is communicated with the upper part of the seal cavity of the buffer vessel, each air branch pipe is provided with at least one valve, each air branch pipe is communicated with the upper part of one seal cavity of the compression reaction vessel, the number of the air branch pipes is equal to that of the seal cavities of the compression reaction vessel, and each seal cavity of the compression reaction vessel is provided with a gas release valve, a solid charging opening and a liquid charging opening.

The water flow power generation device can alternatively use the sealing cavities through the sealing cavities connected in parallel, when the reaction liquid and the reaction solid in the sealing cavity are used up, another sealing cavity can be used for adding the reaction liquid and the reaction solid into the sealing cavity which uses up the reaction liquid and the reaction solid, so that the water flow power generation device can operate for a longer time and alternately reciprocates, and the power generation efficiency is improved

Preferably, the compression reaction vessel is provided with 3-8 parallel sealed cavities.

Preferably, a first pressure gauge and a first liquid level gauge are arranged in the sealed cavity of the compression reaction vessel.

The water flow power generation device can monitor the pressure in the compression reaction container and the condition of the reaction liquid through the pressure gauge and the liquid level gauge which are arranged in the sealing cavity of the compression reaction container.

Preferably, a second pressure gauge and a second liquid level gauge are arranged in the sealed cavity of the buffer container.

The water flow power generation device can monitor the pressure in the buffer container and the condition of the reaction liquid through the pressure gauge and the liquid level gauge which are arranged in the sealing cavity of the buffer container.

Preferably, the buffer container is provided with 2-10 parallel sealing cavities, the sealing cavity of each buffer container is provided with a water filling port and a fifth sealing cover matched with the water filling port, and the sealing cavity of each buffer container is communicated with the sealing cavity of the compression reaction container through an air pipeline.

The water flow power generation device can realize continuous operation of the water flow power generation device by alternately using more than 2 parallel sealing cavities of the compression reaction container and 2-10 parallel sealing cavities of the buffer container.

Preferably, a solid feeding hopper is arranged in the sealing cavity of the compression reaction vessel, the solid feeding hopper is provided with an inlet and an outlet, the inlet of the solid feeding hopper is communicated with a solid feeding port of the compression reaction vessel, a water filling port and a third sealing cover matched with the water filling port are arranged in the sealing cavity of the buffer vessel, or a water collecting vessel is provided with a water filling port and a fourth sealing cover matched with the water filling port.

The water flow power generation device can place reaction solids into the solid feeding hopper by arranging the solid feeding hopper, and then controls the rate of gas generation by chemical reaction by controlling the solid feeding hopper to continuously and fixedly mix the reaction solids into the reaction liquid.

The beneficial effects of the utility model reside in that: the utility model provides a water flow power generation device, the utility model discloses a water flow power generation device passes through compression reaction container, buffer container, the container catchments, power generation mechanism and the air conduit of intercommunication between compression reaction container and buffer container, the cooperation of two water flow pipelines of intercommunication between buffer container and container catchments, water through producing in the compression reaction container in the gaseous oppression buffer container flows in to the container catchments through first water flow pipeline, and then drive turbine or screw rotate and drive the generator electricity generation, foretell water flow power generation device need not receive geographical environment's restriction, can freely remove geographical position.

Drawings

Fig. 1 is a schematic structural diagram of a water current power generation device according to an embodiment of the present invention.

The device comprises a compression reaction container, a sealing cavity of the compression reaction container, a buffering container, a sealing cavity of the buffering container, a water collecting container, a water generator, a water turbine, a water inlet of the compression reaction container, a liquid charging port of the compression reaction container, a solid charging port of the compression reaction container, a water feeding hopper, 11, an air branch pipe, a water feeding main pipe, a water feeding pipeline, 14, a valve on the air branch pipe, 15, a first valve, 16, a second water flow pipeline, 17, an air vent of the water collecting container or an opening without a top cover, 18, a check valve, 19, the first water flow pipeline, and 20, a fifth sealing cover matched with a water filling port of the buffering container.

Detailed Description

For better illustrating the objects, technical solutions and advantages of the present invention, the present invention will be further described with reference to the following embodiments.

Example 1

As the embodiment of the utility model provides a rivers power generation facility, rivers power generation facility includes compression reaction vessel 1, buffer container 3, water collecting container 5 and power generation mechanism, reaction vessel has sealed chamber 2, buffer container has sealed chamber 4, compression reaction vessel's sealed chamber 2 and buffer container's sealed chamber 4 communicate through air conduit 13, the department of communication of compressed reaction vessel's sealed chamber 2 and air conduit 13 is located the upper portion of compression reaction vessel's sealed chamber, buffer container's sealed chamber 4 and air conduit 13's department of communication is located the upper portion of buffer container's sealed chamber, first rivers pipeline 19 and second rivers pipeline 16 are communicated between buffer container's sealed chamber 4 and the water collecting container 5, buffer container's sealed chamber and the department of communication of first rivers pipeline are located the lower part of buffer container's sealed chamber, buffer container and the department of communication of second rivers pipeline are located the upper portion of buffer container's sealed chamber, the communicating part of the water collecting container and the second water flow pipeline is positioned at the lower part of the water collecting container, a first valve 15 is arranged on a second water flow pipeline 16, the water collecting container is provided with an air vent or an opening 17 without a top cover, the vertical height of the water collecting container is higher than that of the buffer container, a gas release valve is arranged in a sealing cavity of the compression reaction container, a solid charging hole 9 and a liquid charging hole 8 are arranged in the sealing cavity 2 of the compression reaction container, a first sealing cover matched with the solid charging hole of the compression reaction container is arranged at the solid charging hole of the compression reaction container, a second sealing cover matched with the liquid charging hole is arranged at the liquid charging hole, and the solid charging hole of the compression reaction container and solid and liquid added by the liquid charging hole;

the power generation mechanism comprises a turbine 7 and a generator 6, the turbine 7 is arranged in the first water flow pipeline 19, and a driving shaft of the turbine and a driving shaft of the generator are fixedly connected.

Further, the turbine is replaced with a propeller. The power generation function of the water flow power generation device can be realized by driving the propeller to rotate through water flow to drive the generator to generate power.

In order to prevent the water from flowing backward in the first water flow pipe, the first water flow pipe 19 is provided with a check valve 18.

In order to enable the compression reaction container to continuously operate, the compression reaction container is provided with more than two parallel seal cavities, the upper part of each seal cavity of the compression reaction container is communicated with the seal cavity of the buffer container through an air pipeline 13, the air pipeline 13 comprises an air main pipe 12 and a plurality of air branch pipes 11 communicated with the air main pipe, the air main pipe 12 is communicated with the upper part of the seal cavity 4 of the buffer container, each air branch pipe 11 is provided with at least one valve 15, each air branch pipe is communicated with the upper part of one seal cavity of the compression reaction container, the number of the air branch pipes is equal to that of the seal cavities of the compression reaction container, and each seal cavity of the compression reaction container is provided with a deflation valve, a solid charging opening and a liquid charging opening.

Further, the compression reaction container is provided with 3-8 parallel sealing cavities.

In order to monitor the pressure and the condition of the reaction liquid in the compression reaction vessel, a first pressure gauge and a first liquid level gauge are arranged in a sealed cavity of the compression reaction vessel.

In order to monitor the pressure in the buffer container and the condition of the reaction liquid, a second pressure gauge and a second liquid level gauge are arranged in the sealed cavity of the buffer container.

In order to realize the continuous operation of the buffer container, the buffer container is provided with 2-10 parallel sealing cavities, the sealing cavity of each buffer container is provided with a water filling port and a fifth sealing cover 20 matched with the water filling port, and the sealing cavity of each buffer container is communicated with the sealing cavity of the compression reaction container through an air pipeline.

Specifically, as shown in fig. 1, the buffer container is provided with 2 parallel sealed chambers, and the compression reaction container is provided with two parallel sealed chambers.

In order to continuously and fixedly mix the reaction into the reaction liquid and control the gas generation rate of the chemical reaction, a solid feeding hopper is arranged in a sealing cavity of the compression reaction container, the solid feeding hopper is provided with an inlet and an outlet, the inlet of the solid feeding hopper is communicated with a solid feeding port of the compression reaction container, and a water filling port and a third sealing cover matched with the water filling port are arranged in the sealing cavity of the buffer container or a water collecting container is provided with a water filling port and a fourth sealing cover matched with the water filling port.

The use method of the water flow power generation device comprises the following steps:

(1) adding reaction liquid into a compression reaction container, adding reaction solid into the compression reaction container and keeping the reaction solid and the reaction liquid separated, wherein the reaction solid and the reaction liquid can generate gas through chemical reaction, and a sealed cavity in a buffer container is filled with water;

(2) closing a first sealing cover, a second sealing cover and a deflation valve of the compression reaction container, and closing a first valve;

(3) after reaction solid and reaction liquid are mixed, reaction is carried out to generate gas, so that the air pressure of a closed cavity of a compression reaction container is increased, water in the closed cavity of a buffer container is pushed to flow in a first pipeline, and a generator is driven to generate electricity;

(4) and when the water level of the sealing cavity of the buffer tank is reduced to a set water level, opening a first sealing cover, a second sealing cover and a deflation valve of the compression reaction container, and opening a first valve.

The reaction solid and the reaction liquid are respectively: sodium peroxide and water, or alkali metal and water, or sodium superoxide and water, or sodium carbonate and hydrochloric acid.

And because buffer container is provided with 2 ~ 10 parallelly connected seal chamber, the compression reaction vessel is provided with 3 ~ 8 parallelly connected seal chamber, can be through opening and closing of control flap 14, respectively alternate use buffer container's seal chamber and compression reaction vessel's seal chamber, realize the reciprocating motion in turn of the rivers power generation facility of this embodiment.

The principle of the water flow power generation device of the embodiment is as follows: the water flow power generation device comprises a compression reaction container, a buffer container, a water collecting container, a power generation mechanism, an air pipeline communicated between the compression reaction container and the buffer container, and two water flow pipelines communicated between the buffer container and the water collecting container, wherein reaction liquid and reaction solid of gas generated by chemical reaction can be firstly added into the compression reaction container respectively, the reaction liquid and the reaction solid are kept separated, water is filled in the buffer container, then the compression reaction container is closed, so that the compression reaction container, the air pipeline communicated between the compression reaction container and the buffer container, the empty buffer container, a first water flow pipeline communicated with the buffer container and the water collecting container, the water collecting container are communicated, a first valve is closed, the first water flow pipeline communicated with the buffer container and the water collecting container is closed, and the reaction liquid and the reaction solid in the compression reaction container are mixed at the moment, the liquid air pressure generated in the compression reaction container is increased, because the communication position of the buffer container and the air pipeline is positioned at the upper part of the sealing cavity of the buffer container, the pressure in the compression reaction container can press the water in the buffer container to flow into the water collecting container through the first water flow pipeline, the air vent arranged on the water collecting container or the opening without the top cover is used for exhausting, so that the pressure of the water collecting container is consistent with the atmospheric pressure, at the moment, the water flowing in the first water flow pipeline can obtain the turbine rotation, and the turbine rotation drives the generator to generate electricity. When the water level in the buffer container is reduced to a certain water level or no water exists, the power generation is stopped, at the moment, the first sealing cover and the second sealing cover of the compression reaction container are opened, reaction liquid and reaction solid of gas generated through chemical reaction are added, the first valve is opened, the compression reaction container is communicated with the atmosphere at the moment, the water collection container is also communicated with the atmosphere, the vertical height of the water collection container is higher than that of the buffer container, water in the water collection container flows back into the buffer container, the buffer container is provided with a vent hole, water can be added into the water collection container through the vent hole or an opening without a top cover, and the water can flow into the buffer container.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the protection scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention.

Claims (8)

1. The water flow power generation device is characterized by comprising a compression reaction container, a buffer container, a water collecting container and a power generation mechanism, wherein the reaction container is provided with a sealed cavity, the buffer container is provided with a sealed cavity, the sealed cavity of the compression reaction container and the sealed cavity of the buffer container are communicated through an air pipeline, the sealed cavity of the compression reaction container and the communication position of the air pipeline are positioned on the upper part of the sealed cavity of the compression reaction container, the sealed cavity of the buffer container and the communication position of the air pipeline are positioned on the upper part of the sealed cavity of the buffer container, a first water flow pipeline and a second water flow pipeline are communicated between the sealed cavity of the buffer container and the water collecting container, the sealed cavity of the buffer container and the communication position of the first water flow pipeline are positioned on the lower part of the sealed cavity of the buffer container, and the communication position of the second water flow pipeline is positioned on the sealed cavity of the buffer container The part is characterized in that the communicating part of the water collecting container and the second water flow pipeline is positioned at the lower part of the water collecting container, a first valve is arranged on the second water flow pipeline, the water collecting container is provided with an air vent or an opening without a top cover, the vertical height of the water collecting container is higher than that of the buffer container, a sealing cavity of the compression reaction container is provided with a deflation valve, the sealing cavity of the compression reaction container is provided with a solid charging hole and a liquid charging hole, the solid charging hole of the compression reaction container is provided with a first sealing cover matched with the solid charging hole, the liquid charging hole is provided with a second sealing cover matched with the liquid charging hole, and the solid charging hole of the compression reaction container and the solid and liquid added by the liquid charging hole are subjected to chemical reaction to generate gas;

the power generation mechanism comprises a turbine and a generator, the turbine is arranged in the first water flow pipeline, and a driving shaft of the turbine and a driving shaft of the generator are fixedly connected.

2. The water current power plant of claim 1, wherein the turbine is replaced with a propeller.

3. The water current power plant according to claim 1 or 2, wherein a check valve is provided on the first water current pipeline.

4. The water current power generation device according to claim 1 or 2, wherein the compression reaction vessel is provided with more than two parallel seal chambers, the upper part of each seal chamber of the compression reaction vessel is communicated with the seal chamber of the buffer vessel through an air pipeline, the air pipeline comprises an air main pipe and a plurality of air branch pipes communicated with the air main pipe, the air main pipe is communicated with the upper part of the seal chamber of the buffer vessel, each air branch pipe is provided with at least one valve, each air branch pipe is communicated with the upper part of one seal chamber of the compression reaction vessel, the number of the air branch pipes is equal to the number of the seal chambers of the compression reaction vessel, and each seal chamber of the compression reaction vessel is provided with a gas release valve, a solid feed port and a liquid feed port.

5. The water current power generation device according to claim 4, wherein the compression reaction vessel is provided with 3-8 parallel sealed cavities.

6. The water current power generation device according to claim 1 or 2, wherein a first pressure gauge and a first liquid level gauge are arranged in the sealed cavity of the compression reaction container, a second pressure gauge and a second liquid level gauge are arranged in the sealed cavity of the buffer container, the water collecting container or the buffer container is provided with a water feeding pipeline, and a second valve is arranged on the water feeding pipeline.

7. The water flow power generation device according to claim 4, wherein the buffer container is provided with 2-10 parallel sealing cavities, the sealing cavity of each buffer container is provided with a water filling port and a fifth sealing cover matched with the water filling port, and the sealing cavity of each buffer container is communicated with the sealing cavity of the compression reaction container through an air pipeline.

8. The water current power generation device according to claim 1 or 2, wherein a solid feeding hopper is arranged in the sealed cavity of the compression reaction vessel, the solid feeding hopper is provided with an inlet and an outlet, the inlet of the solid feeding hopper is communicated with a solid feeding port of the compression reaction vessel, the sealed cavity of the buffer vessel is provided with a water filling port and a third matched sealing cover or the water collecting vessel is provided with a water filling port and a fourth matched sealing cover.

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