CN101539089A - Hydraulic energy recycling device - Google Patents
Hydraulic energy recycling device Download PDFInfo
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- CN101539089A CN101539089A CN200910068414A CN200910068414A CN101539089A CN 101539089 A CN101539089 A CN 101539089A CN 200910068414 A CN200910068414 A CN 200910068414A CN 200910068414 A CN200910068414 A CN 200910068414A CN 101539089 A CN101539089 A CN 101539089A
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Abstract
The invention relates to a hydraulic energy recycling device which comprises a pressure vessel, a water pump cavity water inlet, a water pump cavity, a water pump impeller and a water pump cavity water outlet. The center of the water pump impeller is provided with a common transmission shaft which extends out of the water pump cavity, enters an air pump cavity and is inserted into the center of an air pump impeller. The air pump cavity is internally provided with a high pressure air outlet and a high pressure air inlet of the air pump cavity along the radial direction as well as a low pressure vent hole of the air pump cavity along the axial direction, and the low pressure vent hole is communicated with atmosphere. The high pressure air inlet of the air pump cavity is communicated with an exhaust hole of the pressure vessel by an electromagnetic air pump; the high pressure air outlet of the air pump cavity is communicated with the pressure vessel by a check air valve; the wall of the pressure vessel is provided with a pressure limiting air valve; an electromagnetic gas valve is connected with a remote switch. When water flow enters the water pump cavity from the water pump cavity water inlet and flows out of the water pump cavity water outlet, the water flow drives the water pump impeller to rotate; under the transmission of the common transmission shaft, the air pump impeller and the water pump impeller synchronously rotate to lead high pressure gas generated along the radial direction of the air pump cavity to flow out of the high pressure air outlet of the air pump cavity and enter the pressure vessel through the check air valve to be stored; when being needed, mechanical energy is obtained by converting compressed air in a reverse way.
Description
Technical field
Present invention relates in general to a kind of water can recycle device, relate in particular to a kind of have current mechanical energy is converted to pressure energy and under certain condition with pressure energy and the machinery device of conversion using mechanism mutually.
Background technique
We will use tap water every day in the daily life, yet the mechanical energy that we perhaps do not recognize current and are loaded with when current flow out from tap be in vain waste, these mechanical energy are after water factory consumes a large amount of electric energy pressurizations water to be flowed to the user, we have only used water, and released the energy that current were loaded with, and these energy can be recycled with easy device.
Summary of the invention
We can make the current impeller rotate and the continuous pressurized air of driving air pump when normal use calculates water by water energy recycle device of the present invention, make mechanical energy be converted to pressure energy and are stored in the pressurized container.When we need mechanical energy again, open the air valve high-pressure air and just can promote wheel rotation output mechanical energy feed water pump and draw water, circulate or the like, contained energy just can be able to abundant recycling in the tap water like this.
This device comprises pressurized container 1, pump chamber water intake 3, pump chamber 5, water pump vane 7, pump chamber water outlet 9.Wherein, water pump vane 7 centers have a shared transmission shaft 13 to stretch out pump chamber 5 and enter air pump chamber body 11, insert the center of air pump impeller 13.Upwards there are air pump chamber high pressure air outlet 17 and an air pump chamber high pressure admission mouth 21 in the footpath in the air pump cavity 11, has air pump chamber low pressure ventilating hole 19 and atmosphere to be communicated with on axially.Air pump chamber high pressure admission mouth 21 is communicated with by Electromagnetic air pump 25 and pressurized container relief opening 27; Air pump chamber high pressure air outlet 17 is communicated with by non-return air valve 29 and pressurized container 1; Limited pressure valve 31 on the pressure vessel wall; Electromagnetic gas valve 25 connects teleswitch 35.Enter pump chamber 5 and as current when pump chamber water outlet 9 flows out (when we normally use tap water) from pump chamber water intake 3, current can order about water pump vane 7 and rotate, do to rotate synchronously to make the footpath of air pump cavity 11 upwards produce pressurized gas at the transmission therapeutic method to keep the adverse qi flowing downward pump impeller 15 of shared transmission shaft 13 and water pump vane 7, pressurized gas just 17 flow out and enter the pressurized container 1 by non-return air valve 29 from air pump chamber high pressure air outlet; As long as current are constantly arranged through just can just opening pressure release automatically to ensure safety when pressure reaches setting value time limit pressure valve 31 to pressurized container 1 continuous supercharging.The folding of electromagnetic gas valve 25 is by teleswitch 35 controls that are connected to civil power.When we need the feedwater flow supercharging or allow its circulation time, open by teleswitch 35 control electromagnetic gas valves 25, high-pressure air in the pressurized container 1 just can flow out and enter air pump cavity 11 backs and enter atmosphere from air pump chamber low pressure ventilating hole 19 from air pump chamber high pressure admission mouth 21 from pressurized container relief opening 27, the mobile meeting of high-pressure air is rotated air pump impeller 15, thereby and can cross shared transmission shaft 13 drive water pump vanes 7 and rotate water body supercharging or the circulation that makes in the pump chamber 5.
Owing to by this device the energy that is loaded with in the water is recycled, has therefore been saved this water energy.If foundation water energy of the present invention recycle device is widely used and may frequently rotates supercharging when daily water consumption, those of ordinary skill in the art is to be understood that, by using the water energy water that recycle device reclaimed of the present invention can will be very considerable, and purposes also is very widely.
Description of drawings
Fig. 1 is that mechanical energy of the present invention transfers pressure energy schematic representation to;
Fig. 2 is that pressure of the present invention can transfer the mechanical energy schematic representation to;
Fig. 3 is the plunger booster mode schematic representation of the embodiment of the invention two
Embodiment
Embodiment one: this device comprises pressurized container 1, pump chamber water intake 3, pump chamber 5, water pump vane 7, pump chamber water outlet 9.Wherein, water pump vane 7 centers have a shared transmission shaft 13 to stretch out pump chamber 5 and enter air pump chamber body 11, insert the center of air pump impeller 13.Upwards there are air pump chamber high pressure air outlet 17 and an air pump chamber high pressure admission mouth 21 in the footpath in the air pump cavity 11, has air pump chamber low pressure ventilating hole 19 and atmosphere to be communicated with on axially.Air pump chamber high pressure admission mouth 21 is communicated with by Electromagnetic air pump 25 and pressurized container relief opening 27; Air pump chamber high pressure air outlet 17 is communicated with by non-return air valve 29 and pressurized container 1; Limited pressure valve 31 on the pressure vessel wall; Electromagnetic gas valve 25 connects teleswitch 35.Enter pump chamber 5 and as current when water pump chamber water outlet 9 flows out (when we normally use tap water) from water pump chamber water intake 3, current can order about water pump vane 7 and rotate, make to rotate synchronously the radially generation pressurized gas that make air pump cavity 11 at the transmission therapeutic method to keep the adverse qi flowing downward pump impeller 15 of shared transmission shaft 13 and water pump vane 7, pressurized gas just 17 flow out and enter the pressurized container 1 by non-return air valve 29 from air pump chamber high pressure air outlet; As long as current are constantly arranged through just can just opening pressure release automatically to ensure safety when pressure reaches setting value time limit pressure valve 31 to pressurized container 1 continuous supercharging.The folding of electromagnetic gas valve 25 is by teleswitch 35 controls that are connected to civil power.When we need the feedwater flow supercharging or allow its circulation time, open by teleswitch 35 control electromagnetic gas valves 25, high-pressure air in the pressurized container 1 just can flow out and enter air pump cavity 11 backs and enter atmosphere from air pump chamber low pressure ventilating hole 19 from air pump chamber high pressure admission mouth 21 from pressurized container relief opening 27, the mobile meeting of high-pressure air is rotated air pump impeller 15, thereby and can cross shared transmission shaft 13 drive water pump vanes 7 and rotate water body supercharging or the circulation that makes in the pump chamber 5.
Pressurized container 1 is in order to storing compressed air, and pump chamber water intake 3 is connected after the household tap water water supply table, by pump chamber water outlet 9 as the family water-supplying mouth.When we normally use tap water, current enter pump chamber 5 and when pump chamber water outlet 9 flows out from pump chamber water intake 3, current can order about water pump vane 7 and rotate, transmission therapeutic method to keep the adverse qi flowing downward pump impeller 15 and water pump vane 7 at shared transmission shaft 13 make to rotate synchronously the radially generation pressurized gas that make air pump cavity 11, pressurized gas just 17 flow out and enter the pressurized container 1 by non-return air valve 29 from air pump chamber high pressure air outlet, open 29 inboards to pressurized container 1 of wherein non-return air valve, and gas can only enter pressurized container 1 from non-return air valve 29.Pressurized container relief opening 27 is closed by electromagnetic gas valve 25, and electromagnetic gas valve 25 is elements of a normally off, only just can open exhaust when teleswitch 35 is opened power supply.When we during at normal water, water pump vane 7 is driving wheels, air pump impeller 15 is driven wheels; And when we needed mechanical energy and open air valve, 15 in air pump impeller was gone up driving wheel, and water pump vane 7 has then become driven wheel.When reaching setting value time limit pressure valve 31, pressure just can open pressure release automatically to ensure safety.The folding of electromagnetic gas valve 25 is by teleswitch 35 controls that are connected to civil power, and teleswitch 35 can be controlled by the user, also can be linked, be triggered by relevant device.When we need the feedwater flow supercharging or allow its circulation time, open by teleswitch 35 control electromagnetic gas valves 25, high-pressure air in the pressurized container 1 just can flow out and enter air pump cavity 11 backs and enter atmosphere from air pump chamber low pressure ventilating hole 19 from air pump chamber high pressure admission mouth 21 from pressurized container relief opening 27, the mobile meeting of high-pressure air is rotated air pump impeller 15, thereby and can cross shared transmission shaft 13 and drive water pump vanes 7 rotations and make the water body supercharging in the pump chamber 5 or circulate in pipeline.We want normal water every day, as long as current are constantly arranged through just can be to pressurized container 1 continuous supercharging.
Embodiment two: this device comprises pressurized container 1, pump chamber water intake 3, pump chamber 5, water pump vane 7, pump chamber water outlet 9.Wherein, water pump vane 7 centers have a shared transmission shaft 13 to stretch out pump chamber 5 and enter air pump chamber body 11, insert the center of air pump impeller 13 and extend to the outside of air pump cavity 11 from the low pressure ventilating hole 19 that air pump cavity 11 axis make progress.More simple and efficient for making to the compression of air, the end that shared transmission shaft 13 extends the air pump cavity directly upwards has cam 37, stretch in the pipeline with cam 37 corresponding piston rods 41, inner-walls of duct forms compression chamber 39 naturally, and there are compression chamber suction port 45 and and the end formation air valve mechanism of piston rod 41 in the pipeline top.Be with Returnning spring 43 on the piston rod 41, the bottom sidewall of compression chamber 39 has high pressure air outlet 47 to be communicated with by non-return air valve 29 and pressurized container 1.Air pump chamber high pressure admission mouth 21 is communicated with by Electromagnetic air pump 25 and pressurized container relief opening 27; Limited pressure valve 31 on the pressure vessel wall; Electromagnetic gas valve 25 connects teleswitch 35.Enter pump chamber 5 and as current when water pump chamber water outlet 9 flows out (when we normally use tap water) from water pump chamber water intake 3, current can order about water pump vane 7 and rotate, cam 37 and water pump vane 7 are done to rotate synchronously and continuous pushing tow piston rod 41 under the transmission of shared transmission shaft 13, when piston rod 41 is extended in compression chamber 39 by pushing tow, one end of piston rod 41 is with 45 sealings of compression chamber suction port, air in the compression chamber is compressed the back from 47 flowing out and enter the pressurized container 1 by non-return air valve 29 from the compression chamber air outlet, under the acting in conjunction of cam 37 and Returnning spring 43, piston rod 41 meeting reciprocating continuous superchargings in compression chamber 39 just can be opened pressure release to ensure safety automatically when pressure reaches setting value time limit pressure valve 31.The folding of electromagnetic gas valve 25 is by teleswitch 35 controls that are connected to civil power.When we need the feedwater flow supercharging or allow its circulation time, open by teleswitch 35 control electromagnetic gas valves 25, high-pressure air in the pressurized container 1 just can flow out and enter air pump cavity 11 backs and enter atmosphere from air pump chamber low pressure ventilating hole 19 from air pump chamber high pressure admission mouth 21 from pressurized container relief opening 27, the mobile meeting of high-pressure air is rotated air pump impeller 15, thereby and can cross shared transmission shaft 13 drive water pump vanes 7 and rotate water body supercharging or the circulation that makes in the pump chamber 5.
Pressurized container 1 is in order to storing compressed air, and water pump chamber water intake 3 is connected on after the household tap water water supply table, by water pump chamber water outlet 9 as the family water-supplying mouth.When we normally use tap water, current enter pump chamber 5 and when water pump chamber water outlet 9 flows out from water pump chamber water intake 3, current can order about water pump vane 7 and rotate, cam 37 and water pump vane 7 are done to rotate synchronously and continuous pushing tow piston rod 41 under the transmission of shared transmission shaft 13, when piston rod 41 is extended in compression chamber 39 by pushing tow, one end of piston rod 41 is compression chamber suction port 45 sealing, and the air in the compression chamber is compressed the back from 47 flowing out and enter the pressurized container 1 by non-return air valve 29 from the compression chamber air outlet.When reaching setting value time limit pressure valve 31, pressure just can open pressure release automatically to ensure safety.The folding of electromagnetic gas valve 25 is by teleswitch 35 controls that are connected to civil power.When we need the feedwater flow supercharging or allow its circulation time, open by teleswitch 35 control electromagnetic gas valves 25, high-pressure air in the pressurized container 1 just can flow out and enter air pump cavity 11 backs and enter atmosphere from air pump chamber low pressure ventilating hole 19 from air pump chamber high pressure admission mouth 21 from pressurized container relief opening 27, the mobile meeting of high-pressure air is rotated air pump impeller 15, thereby and can cross shared transmission shaft 13 drive water pump vanes 7 and rotate water body supercharging or the circulation that makes in the pump chamber 5.We want normal water every day, as long as current are constantly arranged through just can be to pressurized container 1 continuous supercharging.
Therefore, those of ordinary skill in the art should be appreciated that in not breaking away from the spirit and scope of the present invention that limited by appended claim, can carry out various distortion to the present invention.
Claims (2)
1, a kind of water energy recycle device is comprising pressurized container (1), pump chamber water intake (3), pump chamber (5), water pump vane (7), pump chamber water outlet (9); Wherein, water pump vane (7) center has a shared transmission shaft (13) to stretch out pump chamber (5) and enters air pump chamber body (11), inserts the center of air pump impeller (13); Upwards there are air pump chamber high pressure air outlet (17) and air pump chamber high pressure admission mouth (21) in the footpath in the air pump cavity (11), air pump chamber low pressure ventilating hole (19) and atmosphere connection is arranged on axially; Air pump chamber high pressure admission mouth (21) is communicated with by Electromagnetic air pump (25) and pressurized container relief opening (27); Air pump chamber high pressure air outlet (17) is communicated with by non-return air valve (29) and pressurized container (1); Limited pressure valve (31) on the pressure vessel wall; Electromagnetic gas valve (25) connects teleswitch (35); Enter pump chamber (5) and when pump chamber water outlet (9) flows out as current from pump chamber water intake (3), current can order about water pump vane (7) and rotate, transmission therapeutic method to keep the adverse qi flowing downward pump impeller (15) and water pump vane (7) at shared transmission shaft (13) are done to rotate synchronously to make the footpath of air pump cavity (11) upwards produce pressurized gas, and pressurized gas just flow out from air pump chamber high pressure air outlet (17) and enter the pressurized container (1) by non-return air valve (29); As long as current are constantly arranged through just can just opening pressure release automatically to ensure safety when pressure reaches setting value time limit pressure valve (31) to constantly supercharging of pressurized container (1); The folding of electromagnetic gas valve (25) is controlled by the teleswitch that is connected to civil power (35); When we need the feedwater flow supercharging or allow its circulation time, open by teleswitch (35) control electromagnetic gas valve (25), high-pressure air in the pressurized container (1) just can flow out and enter air pump cavity (11) back and enter atmosphere from air pump chamber low pressure ventilating hole (19) from air pump chamber high pressure admission mouth (21) from pressurized container relief opening (27), the mobile meeting of high-pressure air is rotated air pump impeller (15), and shared transmission shaft (13) drives water pump vane (7) thereby rotates water body supercharging or the circulation that makes in the pump chamber (5) excessively.
2, as the described water energy of claim (1) recycle device, it is characterized in that for making more simple and efficient to the compression of air, the end that shared transmission shaft (13) extends the air pump cavity directly upwards has cam (37,) and the corresponding piston rod of cam (37) (41) stretch in the pipeline, inner-walls of duct forms compression chamber (39) naturally, the pipeline top have compression chamber suction port (45) and and the end of piston rod (41) formation air valve mechanism; Be with Returnning spring (43) on the piston rod (41), the bottom sidewall of compression chamber (39) has high pressure air outlet (47) to be communicated with by non-return air valve (29) and pressurized container (1); Air pump chamber high pressure admission mouth (21) is communicated with by Electromagnetic air pump (25) and pressurized container relief opening (27); Limited pressure valve (31) on the pressure vessel wall; Electromagnetic gas valve (25) connects teleswitch (35); Enter pump chamber (5) and when water pump chamber water outlet (9) flows out as current from water pump chamber water intake (3), current can order about water pump vane (7) and rotate, cam under the transmission of shared transmission shaft (13) (37) and water pump vane (7) are done to rotate synchronously and continuous pushing tow piston rod (41), when piston rod (41) is extended in compression chamber (39) by pushing tow, one end of piston rod (41) seals compression chamber suction port (45), air in the compression chamber is compressed the back from flowing out from compression chamber air outlet (47) and entering the pressurized container (1) by non-return air valve (29), under the acting in conjunction of cam (37) and Returnning spring (43), piston rod (41) can reciprocating continuous supercharging in compression chamber (39).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN200910068414A CN101539089A (en) | 2009-04-10 | 2009-04-10 | Hydraulic energy recycling device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN200910068414A CN101539089A (en) | 2009-04-10 | 2009-04-10 | Hydraulic energy recycling device |
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CN101539089A true CN101539089A (en) | 2009-09-23 |
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CN200910068414A Pending CN101539089A (en) | 2009-04-10 | 2009-04-10 | Hydraulic energy recycling device |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102887565A (en) * | 2011-08-22 | 2013-01-23 | 厦门市冷空器制冷科技有限公司 | Energy recovery device for seawater desalination equipment |
CN102909437A (en) * | 2012-10-11 | 2013-02-06 | 山推工程机械股份有限公司 | Oil absorption device |
CN103883459A (en) * | 2014-02-17 | 2014-06-25 | 无锡永信能源科技有限公司 | Open type circulating water potential energy recovery system |
CN107041702A (en) * | 2017-06-14 | 2017-08-15 | 袁哲 | A kind of automatic bathing device |
CN108392919A (en) * | 2018-01-18 | 2018-08-14 | 苏州海森伯格环保科技有限公司 | A kind of energy-saving duster |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN2111396U (en) * | 1991-08-05 | 1992-07-29 | 修道恩 | All-purpose gas pressure pump |
GB2308864A (en) * | 1996-01-03 | 1997-07-09 | Simon Derricutt | Mechanically coupled heat engine and compressor arrangement |
CN1509373A (en) * | 2001-04-10 | 2004-06-30 | ������һ���ɷ�����˾ | Wind powered hydoelectric power plant and method of operation thereof |
-
2009
- 2009-04-10 CN CN200910068414A patent/CN101539089A/en active Pending
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2111396U (en) * | 1991-08-05 | 1992-07-29 | 修道恩 | All-purpose gas pressure pump |
GB2308864A (en) * | 1996-01-03 | 1997-07-09 | Simon Derricutt | Mechanically coupled heat engine and compressor arrangement |
CN1509373A (en) * | 2001-04-10 | 2004-06-30 | ������һ���ɷ�����˾ | Wind powered hydoelectric power plant and method of operation thereof |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102887565A (en) * | 2011-08-22 | 2013-01-23 | 厦门市冷空器制冷科技有限公司 | Energy recovery device for seawater desalination equipment |
CN102887565B (en) * | 2011-08-22 | 2014-09-17 | 厦门市冷空器制冷科技有限公司 | Energy recovery device for seawater desalination equipment |
CN102909437A (en) * | 2012-10-11 | 2013-02-06 | 山推工程机械股份有限公司 | Oil absorption device |
CN102909437B (en) * | 2012-10-11 | 2015-10-07 | 山推工程机械股份有限公司 | A kind of Oil sucking device |
CN103883459A (en) * | 2014-02-17 | 2014-06-25 | 无锡永信能源科技有限公司 | Open type circulating water potential energy recovery system |
CN107041702A (en) * | 2017-06-14 | 2017-08-15 | 袁哲 | A kind of automatic bathing device |
CN108392919A (en) * | 2018-01-18 | 2018-08-14 | 苏州海森伯格环保科技有限公司 | A kind of energy-saving duster |
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Application publication date: 20090923 |