CN201934246U - Communicated semi-closed differential-pressure-type quantitative water cycle power generation device - Google Patents

Abstract

The utility model relates to a power generation device utilizing water, and particularly discloses a communicated semi-closed differential-pressure-type quantitative water cycle power generation device. The power generation device comprises a generator, a water turbine, a water turbine chamber, a return chamber, a water discharging pool, a purification pool, a water pumping device, a return tube, a communicating tube, a pressure tube and a draft tube, wherein the water discharging pool penetrates the return chamber through the communicating tube and is communicated with the purification pool, the return chamber is completely sealed, the water discharging pool is provided with one open end port, and the purification pool is provided with one open end port; the water pumping device comprises a water pump, a water suction tube and a water discharging tube, and the return chamber is communicated with the outside of the water discharging pool through the water pumping device; and the water turbine is arranged in the water turbine chamber and connected with the generator, and the pressure tube is communicated with the purification pool. The communicated semi-closed differential-pressure-type quantitative water cycle power generation device has the advantages of strong applicability and practicability, easiness in operation, environment friendliness, low cost and the like.

Description

The semiclosed differential gauge water circulation electric generating apparatus of a kind of connection

Technical field

The utility model relates to the device that utilizes water to generate electricity, and relates in particular to the device that the water that utilizes the circulation gauge water in the connecting vessels can carry out circulating generation.

Background technique

At present, generation mode has a variety of, as: heat energy power-generating, nuclear energy power generation, wind energy power, solar electrical energy generation, hydroelectric power etc.

Heat energy power-generating be to use early and most popular generation mode, but this generation mode need consume a large amount of non-renewable resources, as: oil, coal etc., simultaneously, this generation mode can discharge a large amount of carbon dioxide in the process of generating, caused serious pollution to air.

Nuclear energy power generation is the generation mode that cleans the most, can not pollute to air, and still, nuclear energy power generation need prevent the leakage of nuclear radiation, also will handle nuclear waste, and its technology is very complicated, and therefore, nuclear energy power generation fails generally to promote always.

Solar electrical energy generation, wind energy power and hydroelectric power are not only environmental protection but also safe generation mode, and wherein, hydroelectric power has three kinds of basic modes, i.e. dam formula hydroelectric power, water channeling type hydroelectric power and hybrid hydroelectric power.But, the water energy that hydroelectric three kinds of modes are utilized, only be confined to natural artesian water, be that solar electrical energy generation, wind energy power or hydroelectric power all will be subjected to the influence of weather, season, geographical environment bigger, the power station can only be built in the relatively abundanter area of solar energy, wind energy or waterpower resourses; And this three kinds of generation modes, especially solar energy and wind energy all are difficult to continual and steady power supply.

Although people make great efforts to develop a kind of not only environmental protection, but also are not subjected to the electricity generating device of natural condition restriction always,, the progress of breakthrough formula is not but arranged always.

The model utility content

Technical problem to be solved in the utility model is to provide a kind of hydroelectric installation that is not subjected to natural condition restriction, environmental protection, energy extensive use.

In order to solve the problems of the technologies described above, the technical solution of the utility model is like this:

The semiclosed differential gauge water circulation electric generating apparatus of a kind of connection comprises generator, water turbine, turbine chamber, backwash chamber, water outlet pool, staticizes pond, water plug, backwash pipe, connecting tube, pressure tube and draft tube, wherein,

Described water outlet pool is by passing the backwash chamber connecting tube and staticizing the pond and be interconnected, and described backwash chamber seals fully, described water outlet pool and staticize the pond one port open is all arranged;

Described water plug comprises water pump, suction sleeve and outlet pipe, and described suction sleeve and outlet pipe are connected by water pump, and external communications is realized by water plug and water outlet pool in described backwash chamber;

Described backwash pipe is connected with backwash chamber, draft tube respectively, described turbine chamber is connected with draft tube, pressure tube respectively, in the described turbine chamber water turbine is housed, described water turbine links to each other with generator, described pressure tube with staticize the pond and be connected.

Preferably, described backwash chamber is 1, and described water plug is 2.

Preferably, the semiclosed differential gauge water circulation electric generating apparatus of described connection also comprises level relay, this level relay is positioned on the water surface that staticizes the pond, is used to survey the situation of change of water level, to guarantee replenishing the water source for the in time semiclosed differential gauge water circulation electric generating apparatus of connection.

The semiclosed differential gauge water circulation electric generating apparatus of connection described in the utility model is applied in water pump and water turbine respectively in the semiclosed water circulation system of connection, and it is poor to make that water pump and water turbine form certain height, carry out differential work, utilize the suction operation of water pump low lift, with less intake, and make the output of the work acquisition of water turbine than macro-energy.

When using the semiclosed differential gauge water circulation electric generating apparatus of connection described in the utility model,, make in the device to be interconnected earlier with all valve opens; In water outlet pool, pour water then, arrive the water line of setting (being generally) apart from the position of the high 0.5m in pond until water outlet pool and the water that staticizes in the pond; Open water pump again, make the water plug water that backwash is indoor be pumped to water outlet pool.At this moment, because its impeller speed change rotation produces during pump working powerful centrifugal force and climbing power, make the indoor water generation speed change of backwash flow, cause the indoor water of backwash that the pressure of water in the backwash pipe is sharply descended, make the state that forms negative pressure in the backwash pipe, thereby negative pressure makes draft tube form negative-pressure sucking the water suction backwash pipe of draft tube, under the atmospheric pressure state acting in conjunction of the negative pressure state of draft tube and pressure tube, the water generates pressure flow is moving in the initiation pressure pipe, cause water turbine that the rotation consistent with water (flow) direction takes place and do work, the energy that the water turbine acting is produced is converted into electric energy output by generator, water behind the acting commentaries on classics energy is sucked out and is disposed to draft tube, and process backwash pipe backwash is to the backwash chamber.

The semiclosed differential gauge water circulation electric generating apparatus of connection described in the utility model has strong, practical, the easy operation of applicability, environmental protection, low cost and other advantages.

Description of drawings

Fig. 1 is a side structure schematic representation of the present utility model.

Fig. 2 is a plan structure schematic representation of the present utility model.

Embodiment

Below in conjunction with drawings and Examples the utility model is further described.

As depicted in figs. 1 and 2, the semiclosed differential gauge water circulation electric generating apparatus of a kind of connection of the utility model, comprise generator 1, water turbine 2, turbine chamber 3, backwash chamber 4, level relay 5, water outlet pool 6, staticize pond 7,2 water plugs 8, backwash pipe 9, connecting tube 10, pressure tube 11 and draft tubes 12, wherein

Described water outlet pool 6 is by passing backwash chamber 4 connecting tube 10 and staticizing pond 7 and be interconnected, and described backwash chamber 4 seal fully, described water outlet pool 6 with staticize pond 7 port open all arranged;

Described water plug 8 comprises water pump 8-1, suction sleeve 8-2 and outlet pipe 8-3, described suction sleeve 8-2 and outlet pipe 8-3 are connected by water pump 8-1, the lift of water pump 8-1 is defined as and is not more than 4m, and external communications is realized by water plug 8 and water outlet pool 6 in described backwash chamber 4;

Described backwash pipe 9 is connected with backwash chamber 4, draft tube 12 respectively, described turbine chamber 3 is connected with draft tube 12, pressure tube 11 respectively, in the described turbine chamber 3 water turbine 2 is housed, described water turbine 2 links to each other with generator 1, described pressure tube 11 with staticize pond 7 and be connected;

Described level relay 5 is positioned on the water surface that staticizes pond 7, is used to survey the situation of change of water level, to guarantee replenishing the water source for the in time semiclosed differential gauge water circulation electric generating apparatus of connection.

When using the semiclosed differential gauge water circulation electric generating apparatus of connection described in the utility model,, make in the device to be interconnected earlier with all valve opens; In water outlet pool 6, pour water then, until water outlet pool 6 with staticize the water line that water pond 7 in arrives setting (being generally apart from the position of the high 0.5m in pond, is 50m with respect to the height of water turbine 2); Open water pump 8-1 again, make water plug that the water in the backwash chamber 4 is pumped to water outlet pool 6.At this moment, because its impeller speed change rotation produces during water pump 8-1 work powerful centrifugal force and climbing power, make the water generation speed change in the backwash chamber 4 flow, cause the water in the backwash chamber 4 that the pressure of water in the backwash pipe 9 is sharply descended, make the states that form negative pressure in the backwash pipe 9, thereby negative-pressure sucking makes draft tube 12 form negative pressure the water suction backwash pipe 9 of draft tube 12, under the atmospheric pressure state acting in conjunction of the negative pressure state of draft tube 12 and pressure tube 11, the water generates pressure flow is moving in the initiation pressure pipe, cause water turbine 2 that the rotations consistent with water (flow) direction take place and do work, the energy that water turbine 2 actings are produced is converted into electric energy output by generator 1, water behind the acting commentaries on classics energy is sucked out and is disposed to draft tube 12, and process backwash pipe 9 backwash are to backwash chamber 4.

The semiclosed differential gauge water circulation electric generating apparatus of connection described in the utility model has strong, practical, the easy operation of applicability, environmental protection, low cost and other advantages.

The foregoing description only is a kind of in the utility model plurality of embodiments; it is not qualification to the utility model design; under the prerequisite that does not break away from the utility model design philosophy; various modification and improvement that engineers and technicians in related domain make the technical solution of the utility model all should fall into protection domain of the present utility model.

Claims (3)

1. one kind is communicated with semiclosed differential gauge water circulation electric generating apparatus, comprises generator, water turbine, turbine chamber, it is characterized in that, and also comprise backwash chamber, water outlet pool, staticize the pond, water plug, backwash pipe, connecting tube, pressure tube and draft tube, wherein,

Described water outlet pool is by passing the backwash chamber connecting tube and staticizing the pond and be interconnected, and described backwash chamber seals fully, described water outlet pool and staticize the pond one port open is all arranged;

Described water plug comprises water pump, suction sleeve and outlet pipe, and described suction sleeve and outlet pipe are connected by water pump, and external communications is realized by water plug and water outlet pool in described backwash chamber;

Described backwash pipe is connected with backwash chamber, draft tube respectively, described turbine chamber is connected with draft tube, pressure tube respectively, in the described turbine chamber water turbine is housed, described water turbine links to each other with generator, described pressure tube with staticize the pond and be connected.

2. the semiclosed differential gauge water circulation electric generating apparatus of connection according to claim 1 is characterized in that described backwash chamber is 1, and described water plug is 2.

3. the semiclosed differential gauge water circulation electric generating apparatus of connection according to claim 1 and 2 is characterized in that, the semiclosed differential gauge water circulation electric generating apparatus of described connection also comprises level relay, and this level relay is positioned on the water surface that staticizes the pond.

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