CN101915226A - Novel gas-pressure liquid transfer machine - Google Patents
Novel gas-pressure liquid transfer machine Download PDFInfo
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- CN101915226A CN101915226A CN 201010242026 CN201010242026A CN101915226A CN 101915226 A CN101915226 A CN 101915226A CN 201010242026 CN201010242026 CN 201010242026 CN 201010242026 A CN201010242026 A CN 201010242026A CN 101915226 A CN101915226 A CN 101915226A
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- transfer machine
- liquid transfer
- pressure liquid
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Abstract
The invention discloses a novel gas-pressure liquid transfer machine, relating to the technical field of energy utilization and energy saving. The novel gas-pressure liquid transfer machine comprises a cylinder body. A piston is arranged in the cylinder body; the upper part of the cylinder body is provided with a high-pressure gas inlet hole; the lower end of the cylinder body is connected with a work pipe; the work pipe is provided with a reducing valve; the cylinder body is provided with a water inlet hole; and the piston is arranged between the high-pressure gas inlet hole and the water inlet hole. The novel gas-pressure liquid transfer machine changes the traditional kinetic energy transfer mode and energy utilization, directly utilizes high-pressure gas, does not need to consume energy sources and reduces the consumption of natural energy sources, such as oil, gas and the like. Meanwhile, the novel gas-pressure liquid transfer machine has simple mechanism, can be applied to all fields and even can gradually replace kinetic energy transfer equipment, such as combustion engines, automobile engines and the like. The novel gas-pressure liquid transfer machine can save a large number of natural energy sources and reduces the damages to the nature, and moreover, the utilization process of the novel gas-pressure liquid transfer machine does not pollute the environment.
Description
Technical field
The present invention relates to using energy source, field of energy-saving technology, the concrete a kind of novel gas-pressure liquid transfer machine that is meant new research and development.
Background technique
The transmission of the kinetic energy of prior art all is to change oil product or electric energy into kinetic energy, as the motor of internal-combustion engine, automobile etc.The kinetic energy of prior art changes all to be needed to consume a large amount of energy, not only environment has been caused destruction, has also polluted environment, and our ecology has also been caused destruction.
Summary of the invention
The objective of the invention is a kind of novel gas-pressure liquid transfer machine of preparing based on a kind of new kinetic energy transition regime.
The present invention to achieve these goals, a kind of novel gas-pressure liquid transfer machine is provided, described novel gas-pressure liquid transfer machine comprises cylinder body, cylinder interior is provided with piston, cylinder body top is equipped with the pressurized gas suction port, and the cylinder body lower end connects the work done pipe by the work done tube valve, and the work done pipe is provided with reduction valve, cylinder body is provided with the water inlet, and piston is compressed between pore and the water inlet in high pressure air.
Described work done pipe is inelastic flexible pipe.
Be provided with between described work done pipe work done end and cylinder body by restoring extension spring.
Described cylinder body outer installment is by the liquid position display unit.
Described piston optimum efficiency is a T type plug.
Novel gas-pressure liquid transfer machine operation of the present invention: 1, preparatory stage: close pressurized gas suction port valve and work done pipe reduction valve, open the work done tube valve, open the water inlet valve, pouring into liquid to tank body (can be water, also can be oil), wait to arrive certain liquid level, close the water inlet valve, close the work done tube valve.Open pressurized gas suction port valve again and inject pressurized gas to tank body, certain pressure to be reached is closed pressurized gas suction port valve.2, the acting stage: the work done pipe is in bent state, opens the work done tube valve, because the pressure effect, the work done pipe stretches acting, drives the machine turns that is connected on the work done pipe.3, recovery stage: open work done pipe reduction valve, make its work done pipe return to bent state by restoring extension spring.4, do work the stage repeatedly: repeat above-mentioned 2,3 steps and do work repeatedly, when the water level in the tank body, high-pressure gas pressure do not reach certain water level or pressure, repeat above-mentioned the 1st step, repeating above-mentioned 2,3 steps.So just can realize doing work repeatedly, realize the conversion of kinetic energy.
Novel gas-pressure liquid transfer machine beneficial effect of the present invention is: novel gas-pressure liquid transfer machine of the present invention has changed existing kinetic energy transmission means and using energy source, it is directly to utilize pressurized gas, and do not need consumes energy, reduce consumption natural energy resources such as oil, gas.While, novel gas-pressure liquid transfer machine of the present invention mechanism was simple, can apply to every field, even can progressively replace kinetic energy transmission equipments such as internal-combustion engine, motor car engine.Novel gas-pressure liquid transfer machine of the present invention mechanism can save a large amount of natural energy resources, reduce the destruction to nature, and it utilizes process free from environmental pollution.
Description of drawings
Fig. 1 novel gas-pressure liquid transfer machine structural representation of the present invention;
Fig. 2 novel gas-pressure liquid transfer machine one mode of execution structural representation of the present invention.
Among the figure, the 31-cylinder body; The 32-piston; 33-pressurized gas suction port; 34-work done pipe piston; 16-work done pipe; 36-work done pipe reduction valve; The 37-water inlet; 17-restores extension spring; The 1-barometer; The 2-cylinder block; 3-air inlet switch; The 4-relief opening; The 5-admission line; The 6-air compressor; The 7-gas cylinder; 8-T word piston vent plug; 9-T word piston liquid plug; 10-T word plug restoring device; 11-does not have the liquid storage of pressure cabinet; 12-fluid infusion switch; 13-high pressure liquid cabinet; 14-work done pipe switch; The 15-reduction valve; 16-work done pipe; 17-restores extension spring; The 18-tooth bar; The 19-fast pulley; 20-tooth fast pulley; The 21-drive wheel; The 22-finder; The 23-oriental toothed gear; The 24-oil hydraulic cylinder; The 25-hydraulic seal; 26-air pressure sealing gland; The 27-plenum chamber; Dead valve under the 28-hydraulic pressure; 29-work done pipe is section not.
Embodiment
Embodiment 1
Make a novel gas-pressure liquid transfer machine.As shown in Figure 1:
Novel gas-pressure liquid transfer machine comprises cylinder body 31, cylinder interior is provided with piston 32, cylinder body 31 tops are equipped with pressurized gas suction port 33, cylinder body 31 lower ends connect work done pipe 16 by work done tube valve 34, work done pipe 16 is provided with reduction valve 19, cylinder body 31 is provided with water inlet 37, and piston 32 is compressed between pore 33 and the water inlet 37 in high pressure air.
Work done pipe 16 is inelastic flexible pipe.
Be provided with between work done pipe work done end and cylinder body by restoring extension spring 17.
The cylinder body outer installment is by liquid position display unit 39.
The novel gas-pressure liquid transfer machine operation of present embodiment: 1, preparatory stage: close pressurized gas suction port valve and work done pipe reduction valve, open the work done tube valve, open the water inlet valve, pouring into liquid to tank body (can be water, also can be oil), wait to arrive certain liquid level, close the water inlet valve, close the work done tube valve.Open pressurized gas suction port valve again and inject pressurized gas to tank body, certain pressure to be reached is closed pressurized gas suction port valve.2, the acting stage: the work done pipe is in bent state, opens the work done tube valve, because the pressure effect, the work done pipe stretches acting, drives the machine turns that is connected on the work done pipe.3, recovery stage: open work done pipe reduction valve, make its work done pipe return to bent state by restoring extension spring.4, do work the stage repeatedly: repeat above-mentioned 2,3 steps and do work repeatedly, when the water level in the tank body, high-pressure gas pressure do not reach certain water level or pressure, repeat above-mentioned the 1st step, repeating above-mentioned 2,3 steps.So just can realize doing work repeatedly, realize the conversion of kinetic energy.
Embodiment 2
Gas-pressure liquid transfer machine of the present invention not only can use separately, and also can organize more and unite use, as shown in Figure 2:
A1 is a gas-pressure liquid transfer machine, and B2 also is a gas-pressure liquid transfer machine, on the top of cylinder body pressure gauge 1 is installed, and cylinder body top is equipped with the pressurized gas suction port, and the pressurized gas suction port of two gas-pressure liquid transfer machines is connected with gas cylinder, air compressor.Piston T word plug in the cylinder body, two gas-pressure liquid transfer machine dress liquid partly communicate, and the bottom is connected with two work done pipes respectively, and the work done pipe is equipped with valve and reduction valve, is provided with between work done pipe work done end and cylinder body by restoring extension spring.Work done pipe work done end connects tooth bar.State the cylinder body outer installment by liquid position display unit (not looking among the figure).
Because gas is easy to be compressed the high pressure of utilizing the pressurized gas in the high pressure gas chamber 27 and makes T word piston vent plug 8 obtain a very big downward Driving force.T word plug liquid plug 9 also moved down simultaneously when T word piston vent plug 8 moved down.Because the characteristics of T word plug are two faces of size, constant the focusing on the point of air pressure size that big face is subjected to, just little plug liquid is beyond the Great Wall.The characteristics of Here it is T word plug, the pressure that large size is subjected to focus on the point just on the T word plug liquid plug 9, by constant the putting in the airtight high pressure liquid cabinet on the liquid of T word plug liquid plug 9 sizes.
Because liquid oil almost can not compress, external force be added in pressure on the airtight liquid can be constant it size and by liquid to all directions transmission.Therefore the pressure that is added on high pressure liquid cabinet 13 liquid-liquid can the constant liquid transfer in work done pipe 16 of size.The characteristics of work done pipe 16 are that diameter is constant behind the pressurized, and length is constant, and flexible pipe is round, and suffered pressure equal and opposite in direction, the direction of tube wall all directions cancelled out each other on the contrary.Force pipe to move down to push away straight tube and be subjected to a very big downward Driving force on the terminus area of pipe.Pipe and tooth bar 18 connect together and move down synchronously, and rack drives oriental toothed gear 23 is to counterclockwise rotating, and the output energy is finished once acting to the external world.There is not absolute rigid body in the world, work done pipe 16 also is equally can not any deformation not have, may become big little by little, when 16 changes of work done pipe are big, T word piston liquid plug 9 moves down a little, gas cylinder 7 replenishes pressurized gas by admission line 5, air inlet switch 3 to plenum chamber 27 simultaneously, finishes acting for the first time.Close work done pipe switch 14 then, open reduction valve 15 to 16 decompressions of work done pipe, because work done pipe 16 has deformation, restore the decompression back, and the decompression valve port can go out a little liquid oil, and liquid oil flows back to does not have the oil conservater of pressure.Restoring extension spring 17 pulling work done pipes and tooth bar restores.Because the effect of finder 22 is arranged, moving runner 21 is to clockwise idle running, and the A group is all finished once acting.When closing A group switch 14, open the switch 14 of B group, B group beginning work done, identical with the above, because 23 two wheels of oriental toothed gear reach the purpose of continuous output energy on a main shaft.Because work done pipe 16 has deformation just to become greatly, becoming to have liquid oil to enrich greatly, and the liquid oil in the just required little by little high pressure liquid cabinet 13 replenishes, so T word piston liquid plug 9 moves down a little.
Because continuous doing work, so T word piston liquid plug 9 moves down continuously, move at last that 28 on dead valve kills valve under the hydraulic pressure, stop acting, open dead valve 28 beginning works done under the hydraulic pressure of B group simultaneously.Start A group T word plug restoring device 10 then, T word plug is restored.The complementary work done continuously of A, B can two groups, also can use more group of number continuous doing work, do work simultaneously etc. as 4,6,8 groups, and key is the high pressure air continuous several times work done in the plenum chamber 27, and usury pollutes with zero.
The above; only be the preferable embodiment of the present invention; but protection scope of the present invention is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the present invention discloses; be equal to replacement or change according to technological scheme of the present invention and inventive concept thereof, all should be encompassed within protection scope of the present invention.
Claims (4)
1. novel gas-pressure liquid transfer machine, it is characterized in that: described novel gas-pressure liquid transfer machine comprises cylinder body, cylinder interior is provided with piston, cylinder body top is equipped with the pressurized gas suction port, the cylinder body lower end connects the work done pipe by the work done tube valve, the work done pipe is provided with reduction valve, and cylinder body is provided with the water inlet, and piston is compressed between pore and the water inlet in high pressure air.
2. novel gas-pressure liquid transfer machine according to claim 1 is characterized in that: described work done pipe is inelastic flexible pipe.
3. novel gas-pressure liquid transfer machine according to claim 1 is characterized in that: be provided with between described work done pipe work done end and cylinder body by restoring extension spring.
4. novel gas-pressure liquid transfer machine according to claim 1 is characterized in that: described cylinder body outer installment is by the liquid position display unit.
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CN 201010242026 CN101915226B (en) | 2010-07-28 | 2010-07-28 | Novel gas-pressure liquid transfer machine |
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CN 201010242026 CN101915226B (en) | 2010-07-28 | 2010-07-28 | Novel gas-pressure liquid transfer machine |
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CN101915226A true CN101915226A (en) | 2010-12-15 |
CN101915226B CN101915226B (en) | 2013-08-07 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103277273A (en) * | 2013-06-03 | 2013-09-04 | 朱剑文 | Coriolis vortex fluid pressure boosting conversion new energy generator |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1333415A (en) * | 2001-08-29 | 2002-01-30 | 李潮赞 | Method using low-temp. liquefied gas as energy source for engine and power device thereof |
US20020159892A1 (en) * | 2001-03-28 | 2002-10-31 | Zaptcioglu Fikret M. | Ocean water pressure energy generation system |
CN1807830A (en) * | 2006-02-06 | 2006-07-26 | 李孝勇 | Hydraulic diameter-variable casing expansion method and apparatus therefor |
CN2837617Y (en) * | 2005-09-27 | 2006-11-15 | 燕山大学 | Universal transmission mechanism employing hermetic liquid |
CN101024374A (en) * | 2006-02-17 | 2007-08-29 | 倪智华 | Novel air-water power automobile |
-
2010
- 2010-07-28 CN CN 201010242026 patent/CN101915226B/en not_active Expired - Fee Related
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20020159892A1 (en) * | 2001-03-28 | 2002-10-31 | Zaptcioglu Fikret M. | Ocean water pressure energy generation system |
CN1333415A (en) * | 2001-08-29 | 2002-01-30 | 李潮赞 | Method using low-temp. liquefied gas as energy source for engine and power device thereof |
CN2837617Y (en) * | 2005-09-27 | 2006-11-15 | 燕山大学 | Universal transmission mechanism employing hermetic liquid |
CN1807830A (en) * | 2006-02-06 | 2006-07-26 | 李孝勇 | Hydraulic diameter-variable casing expansion method and apparatus therefor |
CN101024374A (en) * | 2006-02-17 | 2007-08-29 | 倪智华 | Novel air-water power automobile |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103277273A (en) * | 2013-06-03 | 2013-09-04 | 朱剑文 | Coriolis vortex fluid pressure boosting conversion new energy generator |
CN103277273B (en) * | 2013-06-03 | 2016-08-10 | 朱剑文 | Coriolis vortex fluid pressure boosting conversion new energy generator |
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CN101915226B (en) | 2013-08-07 |
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