CN105626156A - Press power generation system - Google Patents

Abstract

The invention relates to the field of generators, in particular to a press power generation system. The press power generation system comprises a press set, a compressed air storage cabinet, a generator set and a low-pressure air storage cabinet; the low-pressure air storage cabinet is connected with the press set; the press set is additionally connected with the compressed air storage cabinet for storing pressed air; the compressed air storage cabinet is additionally connected with the generator set; and the generator set is also connected with the low-pressure air storage cabinet. The press power generation system, provided by the invention, is provided with the press set for compressing air; after the storage of the compressed air storage cabinet reaches a certain threshold, the pressure can supply power generation energy to the generator set so as to solve the energy problem, and the energy cannot damage the environment or generate the pollution; and after the air provides the energy to the generator set, and the pressure is released to insufficiently provide the power generation energy, the air is conveyed to the press set after being stored through the low-pressure air storage cabinet, so that the recycling also can be realized, and the efficiency of the press set is improved.

Description

Forcing press electricity generation system

Technical field

The present invention relates to electrical generator fields, in particular to a kind of forcing press electricity generation system.

Background technology

Electric energy is easier to regulation and control than other energy in production, transmission, use, and therefore, it is optimal secondary energy sources. Generating is in Central Position in power industry, decides the scale of power industry, also has influence on the development of the links such as transmission of electricity, power transformation, distribution in power system.

Current generation mode has five kinds, and it is fire dynamic power, wind-power generating, hydrodynamic force generating, nuclear power generation and solar electrical energy generation respectively.

Thermal power generation generally refers to utilize the heat energy produced during the fuel combustions such as oil, coal and natural gas to add hot water, makes water become high temperature, high-pressure steam, the general name of the mode then generated electricity by steam pushing generator again. It is referred to as thermal power plant using coal, oil or natural gas as the power plant of fuel. The capital equipment system of heat power station includes: fuel feed system, water supply system, vapour system, cooling system, electrical system and some other auxiliary treating apparatus. But, fire dynamic power has higher dangerous and bigger pollution, and environment is easily damaged by it.

It is a kind of mode most basic in Wind Power Utilization that wind energy is changed into electric energy. Wind-driven generator generally has the component compositions such as wind wheel, electromotor (including device), direction-regulator (empennage), pylon, speed-limiting safety mechanism and energy storage device. The operation principle of wind-driven generator is fairly simple, and wind wheel rotates under the action of the forces of the wind, and the kinetic energy that it is kept watch is changed into the mechanical energy of rotor shaft. But owing to the wind speed of nature is extremely unstable, the output of wind-driven generator also extremely unstable.

The ultimate principle of hydrodynamic force generating is to utilize the height of water, and hydrous water turbine generator produces electric power, namely utilizes the potential energy of water to transfer the mechanical energy of water wheels to, then with mechanical energy pushing generator, and obtain electric power. Scientists, with the natural endowment of this height of water, effectively utilizes stream power engineering and mechanical-physical etc., and collocation is to reach the highest generated energy meticulously, cheap free of contamination electric power again for people to use. But, hydrodynamic force generating has certain being confined to, and it can must realize under the natural endowment with the higher height of water.

As for nuclear power generation and solar electrical energy generation, it is due to the factor of raw material and natural conditions, using, nuclear power exists dispute, therefore, how to solve the energy problem of generating, and solving while energy problem not welding, also want can sustainable acquisition electric energy, be current problem demanding prompt solution.

Summary of the invention

It is an object of the invention to provide a kind of forcing press electricity generation system, to solve above-mentioned problem.

Provide a kind of forcing press electricity generation system in an embodiment of the present invention, including pressure unit, compressed gas container, generating set and low pressure gas storage holder;

Described low pressure gas storage holder connects described pressure unit, pressurizes for air is flowed to pressure unit;

Described pressure unit is also connected with compressed gas container, for by the air storage after pressurization;

Described compressed gas container is also connected with described generating set, starts described generating set after reaching certain threshold value for the pressure in described compressed gas container;

Described generating set is also connected with described low pressure gas storage holder, for the gas after release pressure is circulated utilization.

Further, described pressure unit is that multiple forcing press is arranged in parallel.

Further, described pressure unit is that multiple forcing press is arranged in series.

Further, forcing press electricity generation system also includes automatic control system;

Described automatic control system is connected with described pressure unit, described compressed gas container, described generating set and described low pressure gas storage holder respectively.

Further, described forcing press includes the first main body, first piston, self-supporting device, head-tank, low pool;

Wherein, described first body top is open, it is provided with cavity bottom inside described first piston and is provided with first row penstock, described first piston is positioned at described first main body, described first piston is connected by guider with described self-supporting device, described self-supporting device is positioned at inside described first body exterior and is provided with water discharging valve, described head-tank is positioned at described first body top, described head-tank is introduced by described first body top by the first compression tube, and described low pool is introduced by the first bottom part body;

During work, first described head-tank adds water to described self-supporting device, described first piston is pulled up to described first body top by described self-supporting device, open described head-tank first to pressurize valve, described head-tank internal water flows in described first piston chamber via the first compression tube, open described self-supporting device water discharging valve simultaneously, along with the increase of the water yield in described first piston chamber, described first piston moves downward, when the air pressure in described first main body reaches preset threshold value, be arranged in described first main body first give vent to anger valve open by air discharge, when described first piston runs to described first bottom part body, described first air outlet valve cuts out, described first pressurization valve closing, described first row penstock is opened, the opening installation the first air intake valve in described first main body simultaneously, described head-tank adds water to described self-supporting device, and described first piston is retracted described first body top by described self-supporting device.

Further, described self-supporting device also includes the second piston;

Described second internal piston is provided with cavity bottom and is provided with second row penstock, described second piston is positioned at the second main body, described head-tank is positioned at described second body top, described head-tank is introduced by described second body top by the second compression tube, when described first piston is positioned at described first lower body part, described second row penstock is closed, described head-tank second valve that pressurizes is opened, described head-tank internal water flows in described second piston chamber via the second conduit, described second piston moves downward, when the air pressure in described second main body reaches preset threshold value, be arranged in described second main body second give vent to anger valve open by air discharge.

Further, described low pool is connected with described first main body and the second main body respectively by low level filler pipe, and described low pool is for the supply of the water yield.

Further, described first main body and the second bottom part body are respectively equipped with drainage arrangement, described drainage arrangement is connected with described head-tank by head-tank upper hose, when described piston is moved downward by described press body top, the water in described press body is pressed in described head-tank via described drainage arrangement and described head-tank upper hose.

Further, the described first valve of giving vent to anger is connected by conduit with described second air outlet valve door.

Further, described forcing press also includes control equipment, and described control equipment is for controlling the switch of each valve.

Forcing press electricity generation system provided by the invention, by arranging pressure unit, air is compressed, storage by compressed gas container, after reaching certain threshold value, its pressure just can provide the energy of generating to generating set, and then solve the problem of the energy, and the energy will not welding, do not produce to pollute; After air provides energy to generating set, its earth pressure release is to, when being not enough to the energy providing generating, flowing to pressure unit after storing again through low pressure gas storage holder, moreover it is possible to realizes recycling, increases the efficiency of pressure unit.

Accompanying drawing explanation

In order to be illustrated more clearly that the specific embodiment of the invention or technical scheme of the prior art, the accompanying drawing used required in detailed description of the invention or description of the prior art will be briefly described below, apparently, accompanying drawing in the following describes is some embodiments of the present invention, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the structural representation of forcing press electricity generation system of the present invention;

Fig. 2 is the another kind of structural representation of forcing press electricity generation system of the present invention;

Fig. 3 is the schematic diagram of the gas circulating direction of forcing press electricity generation system of the present invention;

Fig. 4 is the structural representation of the Power Cycle of forcing press electricity generation system of the present invention;

Fig. 5 is the structural representation of the air press of forcing press electricity generation system of the present invention;

Fig. 6 is the another kind of structural representation of the air press of forcing press electricity generation system of the present invention.

Accompanying drawing labelling:

1: generating set 2: compressed gas container 3: pressure unit

4: low pressure gas storage holder 5: water circulating pump 6: pond

7: forcing press 8: compressor 9: rising pipeline

10: letdown line 11: head-tank 12: the first pressurization valve

13: the first compression tube 14: the first main bodys 15: first piston

16: first row penstock 17: the first is given vent to anger valve 18: conduit

19: low pool 20: self-supporting device 21: filler pipe

22: guider 23: the second is given vent to anger valve 24: second row penstock

25: the second piston 26: the second main body 27: the second compression tubes

28: the second pressurization valves

Detailed description of the invention

For making the object, technical solutions and advantages of the present invention clearly, technical scheme will be carried out clear, complete description below. Obviously, described embodiment is only a part of embodiment of the present invention, rather than whole embodiments. Based on the embodiment in the present invention, all other embodiments that those of ordinary skill in the art are obtained under the premise not making creative work, broadly fall into the scope that the present invention protects.

In describing the invention, it should be noted that, orientation or the position relationship of the instruction such as term " " center ", " on ", D score, "left", "right", " vertically ", " level ", " interior ", " outward " be based on orientation shown in the drawings or position relationship; be for only for ease of the description present invention and simplifying and describe; rather than instruction or imply indication device or element must have specific orientation, with specific azimuth configuration and operation, be therefore not considered as limiting the invention. Additionally, term " first ", " second ", " the 3rd " are only for descriptive purposes, and it is not intended that indicate or hint relative importance.

In describing the invention, in addition it is also necessary to explanation, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, for instance, it is possible to it is fixing connection, it is also possible to be removably connect, or connect integratedly; Can be mechanically connected, it is also possible to be electrical connection; Can be joined directly together, it is also possible to be indirectly connected to by intermediary, it is possible to be the connection of two element internals. For the ordinary skill in the art, it is possible to concrete condition understands above-mentioned term concrete meaning in the present invention.

As shown in figures 1-6, the invention provides a kind of forcing press 7 electricity generation system, including pressure unit 3, compressed gas container 2, generating set 1 and low pressure gas storage holder 4;

Described low pressure gas storage holder 4 connects described pressure unit 3, pressurizes for air is flowed to pressure unit 3;

Described pressure unit 3 is also connected with compressed gas container 2, for by the air storage after pressurization;

Described compressed gas container 2 is also connected with described generating set 1, starts described generating set 1 after reaching certain threshold value for the pressure in described compressed gas container 2;

Described generating set 1 is also connected with described low pressure gas storage holder 4, for the gas after release pressure is circulated utilization.

The normal temperature compressed gas that forcing press 7 is produced, is transported in gas storage holder through piping and carries out voltage stabilizing, when the tolerance air pressure in gas storage holder reaches certain threshold value, starts to supply stable compression air to generating set 1, and generating set 1 starts to continuously run. Compression air after generating set 1 use, pressure reduces, and tolerance does not reduce. Still have certain pressure to be back to low pressure gas storage holder 4, when the air pressure in low pressure gas storage holder 4 and generating set 1 outlet pressure close to time, start to discharge in forcing press 7 cavity, to start supercharging incremental for forcing press 7 from this time.

Whole process to ensure to carry out in the environment sealed, it is to avoid gas leakage, to reach maximum best work efficiency.

Owing to air starts to the whole process returning in forcing press 7 from turn of tidal stream to be circulate sealing state from forcing press 7, gas will not subtract stream, and air still has use value after generating set 1 use terminates, and forms the complete tolerance process system of backflow supercharging. Being back in forcing press 7 air chamber, forcing press 7 compressor 8 after unloading can be produced thrust upwards, make the size of compressor 8 meeting pressure according to backflow gas and tolerance, make compressor 8 in controlled range, do not need lowering or hoisting gear traction just can complete its uphill process, thus improve the production efficiency of pressure unit 3.

It is preferred embodiment that described pressure unit 3 is arranged in parallel for multiple forcing presses 7.

Multiple forcing presses 7 are arranged in parallel, it is possible to carry high compressed air to endlessly by multiple forcing presses 7 compressed gas container 2, when any forcing press 7 breaks down, additionally it is possible to ensure that the normal operation of generating set 1 is uninterrupted.

It is preferred embodiment that described pressure unit 3 is arranged in series for multiple forcing presses 7.

Multiple forcing presses 7 are arranged in series, it is possible to give to the most stable of pressure of compressed gas container 2, and its force value can reach a higher value, to ensure that generating set 1 can quickly start, generates electricity.

It is preferred embodiment that forcing press 7 electricity generation system also includes automatic control system;

Described automatic control system is connected with described pressure unit 3, described compressed gas container 2, described generating set 1 and described low pressure gas storage holder 4 respectively.

Automatic control system is each operation point of the electrification technique as well as line that forcing press 7 is matched, passes through program, it is achieved the control system of automated production process.

It is preferred embodiment that described forcing press 7 includes the first main body 14, first piston 15, self-supporting device 20, head-tank 11, low pool 19;

Wherein, described first main body 14 top is open, described first piston 15 inside is provided with cavity bottom and is provided with first row penstock 16, described first piston 15 is positioned at described first main body 14, described first piston 15 is connected by guider 22 with described self-supporting device 20, described self-supporting device 20 is positioned at described first main body 14 External Internal and is provided with water discharging valve, described head-tank 11 is positioned at described first main body 14 top, described head-tank 11 is introduced by described first main body 14 top by the first compression tube 13, described low pool 19 is introduced by bottom the first main body 14, during work, first described head-tank 11 adds water to described self-supporting device 20, described first piston 15 is pulled up to described first main body 14 top by described self-supporting device 20, open described head-tank 11 first pressurization valve 12, described head-tank 11 internal water flows in described first piston 15 chamber via the first compression tube 13, open described self-supporting device 20 water discharging valve simultaneously, along with the increase of the water yield in described first piston 15 chamber, described first piston 15 moves downward, when the air pressure in described first main body 14 reaches preset threshold value, be arranged in described first main body 14 first give vent to anger valve 17 open by air discharge, when described first piston 15 runs to bottom described first main body 14, described first air outlet valve cuts out, described first pressurization valve 12 is closed, described first row penstock 16 is opened, the opening installation the first air intake valve in described first main body 14 simultaneously, described head-tank 11 adds water to described self-supporting device 20, and described first piston 15 is retracted described first main body 14 top by described self-supporting device 20.

May be provided for the situation of air press 7 collaborative work shown in two groups of the application to improve work efficiency the embodiment of the present application, now, described self-supporting device 20 also includes the second piston 25;

Described second piston 25 inside is provided with cavity bottom and is provided with second row penstock 24, described second piston 25 is positioned at the second main body 26, described head-tank 11 is positioned at described second main body 26 top, described head-tank 11 is introduced by described second main body 26 top by the second compression tube 27, when described first piston 15 is positioned at described first main body 14 bottom, described second row penstock 24 is closed, described head-tank 11 second pressurization valve 28 is opened, described head-tank 11 internal water flows in described second piston 25 chamber via the second conduit 18, described second piston 25 moves downward, when the air pressure in described second main body 26 reaches preset threshold value, be arranged in described second main body 26 second give vent to anger valve 23 open by air discharge.

Being preferred embodiment that described low pool 19 is connected with described first main body 14 and the second main body 26 respectively by low level filler pipe 21, described low pool 19 is for the supply of the water yield.

Such setting, it is possible to avoid owing to consuming the insufficient problem of water in the head-tank 11 caused.

It is respectively equipped with drainage arrangement bottom described first main body 14 and the second main body 26, described drainage arrangement is connected with described head-tank 11 by head-tank 11 upper hose, when described piston is moved downward by described forcing press 7 body top, the water in described forcing press 7 main body is pressed in described head-tank 11 via described drainage arrangement and described head-tank 11 upper hose.

The mode that such circulation priming apparatus can also be by water circulating pump 5 realizes. Namely water circulating pump 5 is used to be supplied water to the pond 6 of forcing press 7 by rising pipeline 9 by the water discharged by letdown line 10 from forcing press 7.

It is preferred embodiment that the described first give vent to anger with described second valve 23 of valve 17 of giving vent to anger is connected by conduit 18.

In order to ensure that produced air-flow is the most enough greatly when using two linkages, the embodiment of the present application may be provided for conduit 18, first give vent to anger with described second valve 23 of valve 17 of giving vent to anger is connected by conduit 18, makes the air-flow of generation draw through same conduit 18, in order to increase the pressure of air-flow.

Being preferred embodiment that described forcing press 7 also includes control equipment, described control equipment is for controlling the switch of each valve.

Forcing press 7 electricity generation system provided by the invention, by arranging pressure unit 3, air is compressed, storage by compressed gas container 2, after reaching certain threshold value, its pressure provides the energy of generating just can to generating set 1, and then solve the problem of the energy, and the energy will not welding, do not produce to pollute; After air provides energy to generating set 1, its earth pressure release is to, when being not enough to the energy providing generating, flowing to pressure unit 3 after storing again through low pressure gas storage holder 4, moreover it is possible to realizes recycling, increases the efficiency of pressure unit 3.

Last it is noted that various embodiments above is only in order to illustrate technical scheme, it is not intended to limit; Although the present invention being described in detail with reference to foregoing embodiments, it will be understood by those within the art that: the technical scheme described in foregoing embodiments still can be modified by it, or wherein some or all of technical characteristic is carried out equivalent replacement; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.

Claims (10)

1. a forcing press electricity generation system, it is characterised in that include pressure unit, compressed gas container, generating set and low pressure gas storage holder;

Described low pressure gas storage holder connects described pressure unit, pressurizes for air is flowed to pressure unit;

Described pressure unit is also connected with compressed gas container, for by the air storage after pressurization;

Described compressed gas container is also connected with described generating set, starts described generating set after reaching certain threshold value for the pressure in described compressed gas container;

Described generating set is also connected with described low pressure gas storage holder, for the gas after release pressure is circulated utilization.

2. forcing press electricity generation system according to claim 1, it is characterised in that described pressure unit is that multiple forcing press is arranged in parallel.

3. forcing press electricity generation system according to claim 1, it is characterised in that described pressure unit is that multiple forcing press is arranged in series.

4. forcing press electricity generation system according to claim 1, it is characterised in that also include automatic control system;

Described automatic control system is connected with described pressure unit, described compressed gas container, described generating set and described low pressure gas storage holder respectively.

5. forcing press electricity generation system according to claim 1, it is characterised in that described forcing press includes the first main body, first piston, self-supporting device, head-tank, low pool;

Wherein, described first body top is open, it is provided with chamber inside described first piston, bottom is provided with first row penstock, described first piston is positioned at described first main body, described first piston is connected by guider with described self-supporting device, described self-supporting device is positioned at inside described first body exterior and is provided with water discharging valve, described head-tank is positioned at described first body top, described head-tank is introduced by described first body top by the first compression tube, and described low pool is introduced by the first bottom part body;

During work, first described head-tank adds water to described self-supporting device, described first piston is pulled up to described first body top by described self-supporting device, open described head-tank first to pressurize valve, described head-tank internal water flows in described first piston chamber via the first compression tube, open described self-supporting device water discharging valve simultaneously, along with the increase of the water yield in described first piston chamber, described first piston moves downward, when the air pressure in described first main body reaches preset threshold value, be arranged in described first main body first give vent to anger valve open by air discharge, when described first piston runs to described first bottom part body, described first air outlet valve cuts out, described first pressurization valve closing, described first row penstock is opened, the opening installation the first air intake valve in described first main body simultaneously, described head-tank adds water to described self-supporting device, and described first piston is retracted described first body top by described self-supporting device.

6. forcing press electricity generation system according to claim 5, it is characterised in that described self-supporting device also includes the second piston;

Described second internal piston is provided with cavity bottom and is provided with second row penstock, described second piston is positioned at the second main body, described head-tank is positioned at described second body top, described head-tank is introduced by described second body top by the second compression tube, when described first piston is positioned at described first lower body part, described second row penstock is closed, described head-tank second valve that pressurizes is opened, described head-tank internal water flows in described second piston chamber via the second conduit, described second piston moves downward, when the air pressure in described second main body reaches preset threshold value, be arranged in described second main body second give vent to anger valve open by air discharge.

7. forcing press electricity generation system according to claim 5, it is characterised in that described low pool is connected with described first main body and the second main body respectively by low level filler pipe, described low pool is for the supply of the water yield.

8. forcing press electricity generation system according to claim 5, it is characterized in that, described first main body and the second bottom part body are respectively equipped with drainage arrangement, described drainage arrangement is connected with described head-tank by head-tank upper hose, when described piston is moved downward by described press body top, the water in described press body is pressed in described head-tank via described drainage arrangement and described head-tank upper hose.

9. forcing press electricity generation system according to claim 5, it is characterised in that the described first valve of giving vent to anger is connected by conduit with described second air outlet valve door.

10. the forcing press electricity generation system according to any one of claim 5-9, it is characterised in that described forcing press also includes control equipment, described control equipment is for controlling the switch of each valve.