CN103644096B - Energy-efficient micro-power water pump - Google Patents
Energy-efficient micro-power water pump Download PDFInfo
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- CN103644096B CN103644096B CN201310572856.1A CN201310572856A CN103644096B CN 103644096 B CN103644096 B CN 103644096B CN 201310572856 A CN201310572856 A CN 201310572856A CN 103644096 B CN103644096 B CN 103644096B
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- inlet pipe
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- work tank
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Abstract
Energy-efficient micro-power water pump, it relates to pump technology field;The upper end of compressed air cylinder is connected with one end of air inlet pipe one, the other end of air inlet pipe one respectively with air inlet pipe two, one end of air inlet pipe three connects, and junction is separately installed with automatic regulating valve one, automatic regulating valve two, gas regulation tank is arranged on air inlet pipe two, in air inlet pipe three, one end of exhaustor is arranged on gas regulation tank, non-return valve four it is separately installed with on gas regulation tank, non-return valve five, non-return valve six, the other end of exhaustor respectively with work tank one, the upper end of work tank two connects, air inlet pipe two, the other end of air inlet pipe three respectively with work tank one, the upper end of work tank two connects, work tank one, capsule pacemaker one it is separately installed with in work tank two, capsule pacemaker two;It uses gasbag-type to move back and forth principle, does not has rotating part, durable in use, energy-efficient, and lift is high, and flow is big, and conveniently moving is widely used, simple in construction, and due to compressed gas repeated work, energy resource consumption is few, and production cost is low, and service life is long.
Description
Technical field:
The present invention relates to pump technology field, be specifically related to a kind of energy-efficient micro-power water pump.
Background technology:
Water pump is conveying liquid or the machinery making fluid pressurization.It by the mechanical energy of prime mover or its
He sends liquid to by external energy, makes liquid energy increase, be mainly used to carry liquid include water,
Oil, acid & alkali liquid, emulsion, suspended emulsion and liquid metal etc., it is possible to conveying liquid, gas mix
Compound and the liquid containing suspended solids.Existing water pump is mechanical type, needs electricity or burns
Oil, it wastes the energy, and cost is high, and has rotating part, and service life is short.
Summary of the invention:
It is an object of the invention to provide a kind of energy-efficient micro-power water pump, it uses gasbag-type past
Multiple motion principle, does not has rotating part, durable in use, energy-efficient, and lift is high, and flow is big,
Conveniently moving, is widely used, simple in construction, due to compressed gas repeated work, energy resource consumption
Few, production cost is low, and service life is long.
In order to solve the problem existing for background technology, the present invention is to adopt the following technical scheme that
It comprises compressed air cylinder 1, work tank 1, work tank 23, gas regulation tank 4, air inlet
Pipe 1, air inlet pipe 26, air inlet pipe 37, exhaustor 8, lifting pipe 9, capsule pacemaker
One 10, capsule pacemaker 2 11, water inlet pipe 12, non-return valve 1, non-return valve 3 14,
Non-return valve 4 15, non-return valve 5 16, non-return valve 6 17, automatic regulating valve 1, automatically adjust
Joint valve 2 19, the upper end of compressed air cylinder 1 is connected with one end of air inlet pipe 1, air inlet pipe
The other end of 1 one end with air inlet pipe 26, air inlet pipe 37 respectively is connected, and junction
Being separately installed with automatic regulating valve 1, automatic regulating valve 2 19, gas regulation tank 4 is installed
In air inlet pipe 26, air inlet pipe 37, one end of exhaustor 8 is arranged on gas regulation tank 4
On, gas regulation tank 4 is separately installed with non-return valve 4 15, non-return valve 5 16, non-return valve
6 17, the other end of exhaustor 8 upper end with work tank 1, work tank 23 respectively is connected,
Air inlet pipe 26, air inlet pipe 37 the other end respectively with work tank 1, work tank 23
Upper end connect, be separately installed with in work tank 1, work tank 23 capsule pacemaker 1,
Capsule pacemaker 2 11, work tank 1, the lower end of work tank 23 are mounted on water inlet pipe
12, water inlet pipe 12 is provided with non-return valve 1, work tank 1, work tank 23 are respectively
Be provided with joint one 2-1 that pumps up water, pump up water interface 3-1, one end of lifting pipe 9 respectively with pump up water
Joint one 2-1, the interface 3-1 that pumps up water connect, and are provided with non-return valve 3 14 on lifting pipe 9.
The operation principle of the present invention is: when the compressed gas in compressed air cylinder 1 is along air inlet pipe one
5 when travelling forward, and automatic regulating valve 1 is opened, automatic regulating valve 2 19 check, compression
Enter in work tank 1 along air inlet pipe 26 under gas pressure effect in compressed air cylinder
Capsule pacemaker 1, expands rapidly after capsule pacemaker 1 pressurized, by work tank 1
In deposit water discharge from lifting pipe 9, non-return valve 3 14 open;When in work tank 1
Water storage be discharged after, non-return valve 3 14 close, non-return valve 4 15 open, capsule pacemaker
1 pressure releases shrink, work tank 1 under vacuum by the water in pond along water inlet pipe 12
Suck in work tank 1, complete the cycle of operation of work tank 1, when in work tank 1
After water storage arrives spacing value, non-return valve 6 17 is opened, the pressed gas in gas regulation tank 4
Enter in the capsule pacemaker 2 11 in work tank 23 by air inlet pipe 37, the most automatically
Regulation valve 2 19 open, the compressed gas in compressed air cylinder along air inlet pipe 1 to air inlet pipe
37 supplement compressed gas, make the rapid pressurized of capsule pacemaker 2 11 expand, by work tank two
Water storage in 3 is discharged, and enters week renaturation circulation duty.
There is advantages that employing gasbag-type moves back and forth principle, do not rotate
Part, durable in use, energy-efficient, lift is high, and flow is big, and conveniently moving is widely used,
Simple in construction, due to compressed gas repeated work, energy resource consumption is few, and production cost is low, uses
Life-span is long.
Accompanying drawing illustrates:
Fig. 1 is the structural representation of the present invention.
Detailed description of the invention:
Referring to Fig. 1, this detailed description of the invention adopts the following technical scheme that it comprises compressed air
Tank 1, work tank 1, work tank 23, gas regulation tank 4, air inlet pipe 1, air inlet pipe
26, air inlet pipe 37, exhaustor 8, lifting pipe 9, capsule pacemaker 1, capsule rise
Fight device 2 11, water inlet pipe 12, non-return valve 1, non-return valve 3 14, non-return valve 4 15,
Non-return valve 5 16, non-return valve 6 17, automatic regulating valve 1, automatic regulating valve 2 19, pressure
The upper end of contracting air tank 1 is connected with one end of air inlet pipe 1, and the other end of air inlet pipe 1 divides
It is not connected with one end of air inlet pipe 26, air inlet pipe 37, and junction is separately installed with automatically
Regulation valve 1, automatic regulating valve 2 19, gas regulation tank 4 be arranged on air inlet pipe 26,
In air inlet pipe 37, one end of exhaustor 8 is arranged on gas regulation tank 4, gas regulation tank
Non-return valve 4 15, non-return valve 5 16, non-return valve 6 17, exhaustor 8 it is separately installed with on 4
Other end upper end with work tank 1, work tank 23 respectively be connected, air inlet pipe 26,
The other end of air inlet pipe 37 upper end with work tank 1, work tank 23 respectively is connected, work
Capsule pacemaker 1, capsule pacemaker two it is separately installed with in making tank 1, work tank 23
11, work tank 1, the lower end of work tank 23 are mounted on water inlet pipe 12, water inlet pipe 12
On non-return valve 1 is installed, work tank 1, work tank 23 are respectively arranged with the joint that pumps up water
One 2-1, pump up water interface 3-1, one end of lifting pipe 9 respectively with joint one 2-1 that pumps up water, raise
Water interface 3-1 connects, and is provided with non-return valve 3 14 on lifting pipe 9.
It is reciprocal that mechanical water pump formula rotary motion principle is changed over gasbag-type by this detailed description of the invention
Motion principle;The pressed gas in coal gas or gas tank is used to be used as power;Use oxygen or oxygen
Pressed gas in tank is used as power;Use the pressed gas start in liquefied gas or liquid gas storage tank
Power;The pressed gas in compressed air or compressed air cylinder is used to be used as power;Use drop one meter
Circulating water be used as power;The method using reverse stop valve paraphase carries out two-way water sucting principle.
This detailed description of the invention uses gasbag-type to move back and forth principle, does not has rotating part, so
It is durable in use, energy-efficient.Owing to need not electricity, without oil firing, only with the gas having pressure
Body (such as liquefied gas, oxygen, acetylene, steam reservoir) or flowable water are used as power source, drive
Water is taken out the height being pressed onto more than 1000 meter by main body, and flow is up to more than 10/t.
Owing to this water pump has lift high, flow is big, conveniently moving, random strong, extensively applies
At building secondary water-supply, field irrigation, fire-fighting fire extinguishing, forest protection, combat a natural disaster the aspects such as rescue.
It is used as power with various sources of the gas owing to this water pump uses, and compressed gas repeated work, use
Tolerance is the fewest, so water pump operation cost is cheap, is 1/2nd of electricity cost.
Owing to the power of this water pump is to be used as power with various sources of the gas, so being greatly improved its
Ease of use and randomness, fully expanded its purposes scope.
Due to the simple in construction of this water pump, production cost is little, and service life is long, market demand
Greatly.It it is a new high-tech product with high content of technology.
The foregoing is only presently preferred embodiments of the present invention, not in order to limit the present invention,
All within the spirit and principles in the present invention, any modification, equivalent substitution and improvement etc. made,
Should be included within the scope of the present invention.
Claims (1)
- The most energy-efficient micro-power water pump, it is characterised in that it comprises compressed air cylinder (1), work Make tank one (2), work tank two (3), gas regulation tank (4), air inlet pipe one (5), air inlet pipe two (6), air inlet pipe three (7), exhaustor (8), lifting pipe (9), capsule pacemaker one (10), glue Capsule pacemaker two (11), water inlet pipe (12), non-return valve one (13), non-return valve three (14), check Valve four (15), non-return valve five (16), non-return valve six (17), automatic regulating valve one (18), automatically Regulation valve two (19), the upper end of compressed air cylinder (1) is connected with one end of air inlet pipe one (5), enters The other end of trachea one (5) one end with air inlet pipe two (6), air inlet pipe three (7) respectively is connected, And junction is separately installed with automatic regulating valve one (18), automatic regulating valve two (19), gas is adjusted Joint tank (4) is arranged in air inlet pipe two (6), air inlet pipe three (7), and one end of exhaustor (8) is installed On gas regulation tank (4), gas regulation tank (4) is separately installed with non-return valve four (15), inverse Only valve five (16), non-return valve six (17), the other end of exhaustor (8) respectively with work tank one (2), The upper end of work tank two (3) connects, air inlet pipe two (6), the other end difference of air inlet pipe three (7) It is connected with the upper end of work tank one (2), work tank two (3), work tank one (2), work tank two (3) Inside it is separately installed with capsule pacemaker one (10), capsule pacemaker two (11), work tank one (2), The lower end of work tank two (3) is mounted on water inlet pipe (12), and water inlet pipe is provided with check on (12) Valve one (13), work tank one (2), work tank two (3) be respectively arranged with the joint one (2-1) that pumps up water, Pump up water interface (3-1), and one end of lifting pipe (9) is respectively with the joint one (2-1) that pumps up water, pumping up water connects Mouth (3-1) connects, and is provided with non-return valve three (14) on lifting pipe (9);Its operation principle is: when the compressed gas in compressed air cylinder (1) is along air inlet pipe one (5) When travelling forward, automatic regulating valve one (18) is opened, automatic regulating valve two (19) check, compression Work tank one (2) is entered along air inlet pipe two (6) under gas pressure effect in compressed air cylinder In capsule pacemaker one (10), expand rapidly, by work after capsule pacemaker one (10) pressurized Deposit water in tank one (2) is discharged from lifting pipe (9), and non-return valve three (14) is opened;Work as work After water storage in tank one (2) is discharged, non-return valve three (14) is closed, and non-return valve four (15) is opened, Capsule pacemaker one (10) pressure release is shunk, and work tank one (2) is under vacuum by pond Water sucks in work tank one (2) along water inlet pipe (12), completes the cycle of operation of work tank one (2), After the water storage in work tank one (2) arrives spacing value, non-return valve six (17) is opened, and gas is adjusted The capsule that pressed gas in joint tank (4) is entered in work tank two (3) by air inlet pipe three (7) rises Fighting in device two (11), automatic regulating valve two (19) is opened simultaneously, the compressed gas in compressed air cylinder Body supplements compressed gas along air inlet pipe one (5) to air inlet pipe three (7), makes capsule pacemaker two (11) Pressurized expands rapidly, is discharged by the water storage in work tank two (3), enters week renaturation circulation work State.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201310572856.1A CN103644096B (en) | 2013-11-18 | 2013-11-18 | Energy-efficient micro-power water pump |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201310572856.1A CN103644096B (en) | 2013-11-18 | 2013-11-18 | Energy-efficient micro-power water pump |
Publications (2)
Publication Number | Publication Date |
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CN103644096A CN103644096A (en) | 2014-03-19 |
CN103644096B true CN103644096B (en) | 2016-08-17 |
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CN201310572856.1A Expired - Fee Related CN103644096B (en) | 2013-11-18 | 2013-11-18 | Energy-efficient micro-power water pump |
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CN (1) | CN103644096B (en) |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106678024B (en) * | 2016-12-16 | 2019-01-08 | 北京建工环境修复股份有限公司 | A kind of water-bag type water body power ecology lifting device and application |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102155374A (en) * | 2011-04-15 | 2011-08-17 | 黄道兴 | Dual-cylinder compressed air water pump |
CN102242957A (en) * | 2010-05-13 | 2011-11-16 | 林晖凡 | Wind energy-saving temperature regulation air supply system |
CN203548099U (en) * | 2013-11-18 | 2014-04-16 | 权进常 | High-efficiency energy-saving micro-power water pump |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6715550B2 (en) * | 2000-01-24 | 2004-04-06 | Shell Oil Company | Controllable gas-lift well and valve |
EP1325207B1 (en) * | 2000-10-11 | 2006-08-23 | Weatherford/Lamb, Inc. | Gas operated pump for use in a wellbore |
-
2013
- 2013-11-18 CN CN201310572856.1A patent/CN103644096B/en not_active Expired - Fee Related
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102242957A (en) * | 2010-05-13 | 2011-11-16 | 林晖凡 | Wind energy-saving temperature regulation air supply system |
CN102155374A (en) * | 2011-04-15 | 2011-08-17 | 黄道兴 | Dual-cylinder compressed air water pump |
CN203548099U (en) * | 2013-11-18 | 2014-04-16 | 权进常 | High-efficiency energy-saving micro-power water pump |
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CN103644096A (en) | 2014-03-19 |
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Granted publication date: 20160817 Termination date: 20201118 |