CN106762858B - Novel hoisting water source height/gas pressure intensity device - Google Patents
Novel hoisting water source height/gas pressure intensity device Download PDFInfo
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- CN106762858B CN106762858B CN201611024726.4A CN201611024726A CN106762858B CN 106762858 B CN106762858 B CN 106762858B CN 201611024726 A CN201611024726 A CN 201611024726A CN 106762858 B CN106762858 B CN 106762858B
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 title claims abstract description 349
- 238000011144 upstream manufacturing Methods 0.000 claims abstract description 42
- 239000012530 fluid Substances 0.000 claims abstract description 27
- 238000007789 sealing Methods 0.000 claims description 76
- 230000009182 swimming Effects 0.000 claims 2
- 238000005381 potential energy Methods 0.000 abstract description 3
- 239000002184 metal Substances 0.000 abstract description 2
- 238000009776 industrial production Methods 0.000 abstract 1
- 239000007788 liquid Substances 0.000 description 7
- 238000010586 diagram Methods 0.000 description 5
- 238000000034 method Methods 0.000 description 4
- 238000005457 optimization Methods 0.000 description 4
- 230000006837 decompression Effects 0.000 description 3
- 125000004122 cyclic group Chemical group 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 230000005611 electricity Effects 0.000 description 2
- 239000002245 particle Substances 0.000 description 2
- 241001365789 Oenanthe crocata Species 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000002706 hydrostatic effect Effects 0.000 description 1
- 238000010248 power generation Methods 0.000 description 1
- 230000001737 promoting effect Effects 0.000 description 1
- 230000003068 static effect Effects 0.000 description 1
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04F—PUMPING OF FLUID BY DIRECT CONTACT OF ANOTHER FLUID OR BY USING INERTIA OF FLUID TO BE PUMPED; SIPHONS
- F04F1/00—Pumps using positively or negatively pressurised fluid medium acting directly on the liquid to be pumped
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Water Treatment By Electricity Or Magnetism (AREA)
- Other Liquid Machine Or Engine Such As Wave Power Use (AREA)
Abstract
The present invention relates to a kind of lifting fluid pressure or the devices of height.Existing lifting fluid pressure or the apparatus structure of height are complicated, not convenient for safeguarding.The present invention includes the fluid means and motive fluid device of height to be hoisted, it is characterized by: the motive fluid device includes upstream water source and downstream water source, the second closed container is equipped between upstream and downstream water source, second closed container is equipped with water inlet pipe and outlet pipe, and it is communicated respectively with upstream water source and downstream water source by water inlet pipe and outlet pipe, and solenoid valve is respectively equipped on water inlet pipe and outlet pipe, top is equipped with metal tracheae between the first closed container at the top of second closed container, first object pond bottom of pond height is greater than the water source water surface to be hoisted, the water source water surface in upstream is higher than the downstream water source water surface.The invention further relates to the device of lift gas pressure, design rationally, can be widely used in agricultural, industrial production and people's life with the potential energy or pressure of lifting fluid.
Description
Technical field
The present invention relates to a kind of devices of Novel hoisting water source height/gas pressure intensity.
Background technique
In nature, there are the water of certain drop or the kinetic energy of flowing water or potential energy that cannot all obtain good utilization, be
Solve the problems, such as this technology, the present inventor's application number: 201510974275.X, publication number: " the lifting fluid pressure of 105465054A
Or the device of height ", it doing work using power lift, lifting fluid pressure or height, structure is complicated, simultaneously because with
Some metal machinery devices, get rusty easily, not convenient for safeguarding.
Summary of the invention
The technical problem to be solved by the present invention is to how overcome the drawbacks described above of the prior art, a kind of Novel hoisting water is provided
Source height/gas pressure intensity device.
In order to solve the above technical problems, the utility model promoted water source height device include height to be hoisted fluid means and
Motive fluid device, the fluid means of height to be hoisted include water source, the first closed container and first object pond to be hoisted, to
It is promoted and is equipped with communicating pipe between water source and the first closed container bottom, and linker is constituted by the communicating pipe, on the communicating pipe
Equipped with check valve or solenoid valve, between first closed container and first object pond be equipped with the first stalk, this first liter
Liquid pipe lower ending opening is passed through first closed container bottom, which passes through first object pond pond
Bottom, and the first object pond water surface or more is extended to, and also be provided with check valve or solenoid valve on first stalk, feature exists
Include upstream water source and downstream water source in: the motive fluid device, be equipped with the second closed container between upstream and downstream water source, this
Two closed containers are equipped with water inlet pipe and outlet pipe, and by water inlet pipe and outlet pipe respectively with upstream water source and downstream water source phase
It is logical, and solenoid valve is respectively equipped on water inlet pipe and outlet pipe, it is set between the second closed container top and the first closed container top
There is rigid tracheae.
First object pond bottom of pond height is greater than the water source water surface to be hoisted, and the water source water surface in upstream is higher than the downstream water source water surface.
It is designed in this way, relative to invention before, eliminates apparatus capable of fluctuating and hose, structure is simpler.
As optimization comprising third closed container, the second target pond and the second stalk, first object pond and the
Three closed containers are connected to by check valve or solenoid valve, and the second stalk lower ending opening is passed through third closed container bottom, and second
Stalk upper end opening passes through the second target pond bottom of pond, and extends to the second target pond water surface or more, and second liter of liquid
Check valve or solenoid valve also are provided on pipe, the rigidity upper tracheal sets two branch pipes, a branch pipe and the described first closed appearance
It being communicated at the top of device, another branch pipe is communicated with third closed container top, and is respectively equipped with solenoid valve on two branch pipes, the
Two target pond bottom of pond height are greater than first object pond water surface elevation.
As optimization, it is additionally provided with a pressure enlarger on the rigidity tracheae, which includes one
Sliding sleeve and rigid link, the rigid link are arranged in sliding sleeve, and sliding sleeve both ends set big cylinder body and small cylinder body respectively, big cylinder body and
Small cylinder body is respectively equipped with air inlet/outlet adjacent to one end of sliding sleeve, and big cylinder body passes through rigid tracheae and is connected to the second closed container, small
Cylinder body passes through rigid tracheae and is connected to the first sealing container, and the rigid link both ends are respectively equipped with big sealing plate and small sealing plate, large and small
Sealing plate is separately positioned in big cylinder body and small cylinder body;
Big sealing plate and the inner wall hermetic seal with big cylinder body and small cylinder body respectively of small sealing plate, respectively constitute two shared piston rods
Large and small cylinder;Or heavy caliber bellows and small-bore bellows are respectively equipped on the outside of big sealing plate and small sealing plate,
And large and small bore bellows inner end seals be fixed on big sealing plate and small sealing plate respectively, outside large and small bore bellows
Sealing is fixed on the outermost side floor panels of large and small cylinder body respectively at end, and is sealed respectively, and covers corresponding rigid air pipe inlet.
It is designed in this way, pressure enlarger can effectively promote pressure, can be by water source elevated height to higher.
As optimization, it is connected between upstream water source and downstream water source by a jet vacuum pump, the jet vacuum pump
Shell is equipped with a water inlet, water outlet and suction inlet, and water inlet and water outlet are communicated with upstream water source and downstream water source respectively,
And solenoid valve is additionally provided between water outlet and downstream water source, the outlet pipe upper end on the second closed container and the suction inlet phase
It is logical, it is communicated by the suction inlet of jet vacuum pump with downstream water source, the outlet pipe lower end on the second closed container is passed through always the
The bottom of two closed containers.It is designed in this way, structure is simpler.
As optimization, a pressure release container is additionally provided between first closed container and downstream water source, the pressure release container
Bottom is equipped with one and leads directly to the down tube into downstream water source, which is equipped with one and leads directly at the top of the first closed container
Upper tube, and solenoid valve is respectively equipped in top tube and down tube,
It further includes the first closed container of mirror image, the first stalk of mirror image first object pond, mirror image communicating pipe and mirror image,
The second closed container of mirror image is additionally provided between upstream and downstream water source, which is equipped with water inlet pipe and outlet pipe,
And it is communicated respectively with upstream water source and downstream water source by water inlet pipe and outlet pipe, and be respectively equipped with electricity on water inlet pipe and outlet pipe
Magnet valve is equipped with rigid tracheae between mirror image the second closed container top and the first closed container of mirror image top,
A mirror image pressure release container is additionally provided between the first closed container of mirror image and downstream water source, the mirror image pressure release container bottom
Portion is equipped with one and leads directly to the down tube into downstream water source, which is equipped with one and leads directly into the first closed container of mirror image
The upper tube at top, and solenoid valve is respectively equipped in top tube and down tube,
First closed container bottom is connected by a connecting pipe with mirror image pressure release container bottom, the first closed container of mirror image
Bottom is connected by a connecting pipe with pressure release container bottom, and is equipped with solenoid valve on two communicating pipes.It is designed in this way, it can be with
Water is extracted into several times to tens times height higher than former drop with relatively low drop water.
The device of Novel hoisting gas pressure intensity of the present invention, gas device and motive fluid device including pressure to be hoisted,
The gas device of pressure to be hoisted includes the gas source of pressure to be hoisted, the first closed container and target container, pressure to be hoisted
It is connected between gas source and the first closed container by check valve or solenoid valve, is set between first closed container and target container
There is communicating pipe, check valve or solenoid valve also are provided on the communicating pipe, it is characterised in that: the motive fluid device includes upper water
Source and downstream water source are equipped with the second closed container between upstream and downstream water source, which is respectively equipped with water inlet pipe
And outlet pipe, and communicated respectively with upstream water source and downstream water source by water inlet pipe and outlet pipe, and on water inlet pipe and outlet pipe
It is respectively equipped with solenoid valve, top is equipped with rigid tracheae between the second closed container top and the first closed container.
Be designed in this way, the gas pressure intensity in target container can be improved, be drawn water for strange land, air pressure motor, cylinder or
Other need to use using the equipment of compressed air.
The device of Novel hoisting water source height/gas pressure intensity of the present invention, is widely used in the various rivers for having flowing water potential energy
It is littoral.
Detailed description of the invention
The device for promoting water source height to the utility model with reference to the accompanying drawing is described further:
Fig. 1 is the structural schematic diagram of the embodiment one for the device that the utility model promotes water source height;
Fig. 2 is the structural schematic diagram of the embodiment two for the device that the utility model promotes water source height;
Fig. 3 is another structural representation of the cylinder body and sealing plate of the embodiment two for the device that the utility model promotes water source height
Figure;
Fig. 4 is the structural schematic diagram of the embodiment three for the device that the utility model promotes water source height;
Fig. 5 is the structural schematic diagram of the embodiment four for the device that the utility model promotes water source height;
Fig. 6 is the structural schematic diagram of the embodiment five for the device that the utility model promotes water source height;
In figure: 1 is water source to be hoisted, 2 be the first closed container, 3 be first object pond, 4 be communicating pipe, 5 be unidirectional
Valve, 6 be the first stalk, 7 be upstream water source, 8 be downstream water source, 9 be the second closed container, 91 be water inlet pipe, 92 be water outlet
Pipe, 10 be rigidity tracheae, 11 be third closed container, 12 be the second target pond, 13 be the second stalk, 150 be sliding sleeve,
151 be rigid link, 152 be big cylinder body, 153 be small cylinder body, 154 be air inlet/outlet, 155 be big sealing plate, 156 be small sealing plate,
157 it is heavy caliber bellows, 158 be small-bore bellows, 16 be jet vacuum pump, 17 be pressure release container, 171 is
Down tube, 172 are upper tube;18 be target container, 19 be the air outlet valve of target container, 20 be solenoid valve,
A, B, C, D, E, F, R, S, X, Y are water level;
G, H, I, O, P, Q are large and small sealing plate position;
K, L, M are the position of water particle in the duct;
N, V, N', V' are certain particle of gas in closed container.
In Fig. 5,2' is the first closed container of mirror image, 3' is mirror image first object pond, 4' is mirror image communicating pipe, 6' is mirror
As the first stalk, 9' be the second closed container of mirror image, (2011), 2012, (2021), 2022, (1721), 1722,1731,
1732,1741,1751,2031,2032,2041,2042,2051,2052 be solenoid valve, 10,10' be rigid tracheae, 17' is mirror
As pressure release container, 171,171' be down tube, 172,172' be upper tube, (173 be vertical communicating pipe, and 173' is that mirror image is connected to vertically
Pipe)
Specific embodiment
Embodiment one: as shown in Figure 1, the device of the utility model promotion water source height includes the fluid means of height to be hoisted
With motive fluid device, the fluid means of height to be hoisted includes water source 1, the first closed container 2 and first object water to be hoisted
Pond 3 is equipped with communicating pipe 4 between 2 bottom of water source 1 and the first closed container to be hoisted, and constitutes linker by the communicating pipe 4,
The communicating pipe 4 is equipped with check valve 5 (check valve can be replaced with solenoid valve), first closed container 2 and first object pond 3
Between be equipped with the first stalk 6, which is passed through 2 bottom of the first closed container, first liter of liquid
6 upper end opening of pipe passes through 3 bottom of pond of first object pond, and extends to 3 water surface of first object pond or more, and first stalk
Check valve 5 also is provided on 6 (check valve can be replaced with solenoid valve), it is characterised in that: the motive fluid device includes upper water
Source 7 and downstream water source 8, the second closed container 9 is equipped between upstream and downstream water source 7,8, which is equipped with water inlet
Pipe 91 and outlet pipe 92, and communicated respectively with upstream water source 7 and downstream water source 8 by water inlet pipe 91 and outlet pipe 92, and intake
It is respectively equipped with solenoid valve on pipe 91 and outlet pipe 92, is equipped between 2 top of 9 top of the second closed container and the first closed container rigid
Property tracheae 10.3 bottom of pond height of first object pond is greater than 1 water surface of water source to be hoisted, and water source 7 water surface in upstream is higher than downstream water source 8
The water surface.
It includes third closed container 11, the second target pond 12 and the second stalk 13, first object pond 3 and third
For closed container 11 by check valve 5 (check valve can be by solenoid valve replacement), 13 lower end of the second stalk is passed through third closed container
11 bottoms, 13 upper end of the second stalk are passed through in second target pond 12 from lower part, also are provided on second stalk 13
Check valve 5 (check valve can be by solenoid valve replacement), 10 top of the rigidity tracheae set two branch pipes, a branch pipe and described first
It is communicated at the top of closed container 2, another branch pipe is communicated with the third closed container 11, and is respectively equipped with electromagnetism on two branch pipes
Valve 20,12 bottom of pond height of the second target pond are greater than first object pond water surface elevation.
The course of work is as follows:
Assuming that the water in a certain the second closed container of moment 9 is full, 91 solenoid valve 20 of water inlet pipe, 92 solenoid valve of outlet pipe
20 all power loss are closed, the first closed container 2, and only a small amount of water, is empty container, the gas of side waterborne in third closed container 11
Pressure is P0+PCD, the solenoid valve 20 of branch road between rigid tracheae 10 and the first closed container 2, rigid tracheae 10 and third are close
Close branch road between container 11 solenoid valve 20 be electric opening state.
Artificial at this time or automatic control 91 solenoid valve of water inlet pipe, 20 power loss is closed, and 92 solenoid valve 20 of outlet pipe obtains electric opening,
The water of second closed container 9 is discharged to downstream water source 8, and the water quality in the second closed container 9 is reduced, and volume reduces, and second is close
Closing container 9 is the constant container of total volume, so the gas volume of side waterborne increases, and gaseous mass is constant, its pressure must
It is fixed to reduce, it is less than atmospheric pressure PO, and the gas part of the second closed container 9 is with the first closed container 2, third closed container
What 11 gas part was connected, so the gas pressure intensity in the first closed container 2 reduces, it is less than atmospheric pressure PO, so the
The check valve 5 (check valve can be replaced with solenoid valve) of one stalk 6 is closed, between water source 1 to be hoisted and the first closed container 2
4 check valve 5 (check valve can be replaced with solenoid valve) of communicating pipe is opened, and water enters the first closed container 2 from water source 1 to be hoisted
It is interior.
Identical reason, the gas pressure intensity in third closed container 11 also reduce, and are less than atmospheric pressure PO, so second liter of liquid
The check valve 5 (check valve can be replaced with solenoid valve) of pipe 13 is closed, the company between first object pond 3 and third closed container 11
4 check valve 5 (check valve can be replaced with solenoid valve) of siphunculus is opened, and water enters in third closed container 11 from first object pond 3.
When there was only a small amount of water in the second closed container 9 is empty container, the first closed container 2, third closed container 11
Inside having entered a large amount of water is almost full, artificial at this time or automatic control 92 solenoid valve of outlet pipe, 20 power loss closing, water inlet pipe
91 solenoid valves 20 obtain electric opening, and water enters in the second closed container 9 from upstream water source 7.Water in second closed container 9 is more next
More, shared volume is increasing, and the second closed container 9 is the constant container of total volume, so face gas waterborne part institute
It is smaller and smaller to account for volume, and gaseous mass is constant, so gas pressure intensity is increasing, and the gas part of the second closed container 9
It is to be connected with the first closed container 2, the gas part of third closed container 11, so the gas in the first closed container 2
Pressure increases, and is greater than atmospheric pressure PO, it is equal to PO+PAB, 4 check valve of communicating pipe between water source 1 to be hoisted and the first closed container 2
5 (check valve can be replaced with solenoid valve) are closed, and P is worked asO+PAB> is equal to PO+PCDWhen, that is, water column AB be higher than water column CD when, first liter of liquid
The check valve 5 (check valve can be replaced with solenoid valve) of pipe 6 is opened, and water is forced into first object pond 3 from the first closed container 2
It is interior.
Identical reason, it is assumed that when water column CD is high with water column EF etc., HCD=HEF, gas pressure intensity in third closed container 11
Increase, is greater than atmospheric pressure PO, it is equal to PO+PAB, 4 check valve 5 of communicating pipe between water source 1 to be hoisted and the first closed container 2
(check valve can be replaced with solenoid valve) closes, and works as PO+PAB> PO+PEFWhen, i.e. HAB> HEFWhen, the check valve 5 of the second stalk 13
(check valve can be replaced with solenoid valve) opens, and water is forced into the second target pond 12 from third closed container 11, thus reach by
Water: from 1 → the first 2 → first object of closed container pond, 3 → third closed container of water source, 11 → the second target pond to be hoisted
12 purpose.
When in the second closed container 9 into full water, the first closed container 2, only a small amount of water in third closed container 11
For empty container, the pressure of side waterborne is P0+PCD。
Artificial at this time or automatic control 91 solenoid valve of water inlet pipe, 20 power loss is closed, and 92 solenoid valve 20 of outlet pipe obtains electric opening row
Water, into next cyclic process.
Embodiment two: as Figure 2-3: being additionally provided with a pressure enlarger, the pressure on the rigidity tracheae 10
Enlarger includes a sliding sleeve 150 and rigid link 151, and the rigid link 151 is arranged in sliding sleeve 150, and 150 liang of sliding sleeve
End sets big cylinder body 152 and small cylinder body 153 respectively, big cylinder body 152 and small cylinder body 153 adjacent to one end of sliding sleeve 150 be respectively equipped with into
Gas outlet 154, and big cylinder body 152 passes through rigid tracheae 10 and is connected to the second closed container 9, small cylinder body 153 passes through rigid tracheae 10
It is connected to the first sealing container 2,151 both ends of rigid link are respectively equipped with big sealing plate 155 and small sealing plate 156, large and small sealing plate
155, it 156 is separately positioned in big cylinder body 152 and small cylinder body 153;
Big sealing plate 155 and the inner wall hermetic seal with big cylinder body 152 and small cylinder body 153 respectively of small sealing plate 156, respectively constitute two
The large and small cylinder of a shared piston rod, as shown in Figure 2.
Or heavy caliber bellows 157 are respectively equipped on the outside of big sealing plate 155 and small sealing plate 156 and small-bore ripple is stretched
The draw 158, and large and small bore bellows 157,158 inner ends seal be fixed on big sealing plate 155 and small sealing plate 156 respectively,
Large and small bore bellows 157,158 outer ends seal respectively to be fixed on the outermost side floor panels of large and small cylinder body 153, and close respectively
Envelope, and 10 entrance of corresponding rigid tracheae is covered, as shown in Figure 3.
Remaining structure of embodiment two is as shown in embodiment one, slightly
The course of work is as follows: assuming that the water in the second closed container of a certain moment 9 is full, 91 solenoid valve 20 of water inlet pipe,
92 solenoid valve 20 of outlet pipe all power loss are closed, big sealing plate 155 in the position right end I, small sealing plate 156 also in the most right position Q, in order to
Convenient for calculating, it is assumed that the area S of big sealing plate 155GreatlyIt is small 156 area S of sealing plateIt is smallN times, i.e. SGreatly=NSIt is small, the first closed appearance at this time
There was only a small amount of water in device 2, volume shared by gas is maximum in the first closed container 2, and gas pressure intensity is also maximum, to be hoisted at this time
Check valve 5 (check valve can be replaced with solenoid valve) between water source 1 and the first closed container 2 on communicating pipe 4 is closed, first liter of liquid
Check valve 5 (check valve can be replaced with solenoid valve) in pipe 6 is opened, and water is flowed to from the first closed container 2 by the first stalk 6
First object pond 3.
At this point, artificial or automatic control 92 solenoid valve 20 of outlet pipe obtains electric opening, 91 solenoid valve of water inlet pipe, 20 power loss is closed,
Water in second closed container 9 flows to downstream water source 8 by outlet pipe 92, and the volume of the Mass lost of water, water reduces, and second
The total volume of closed container 9 is constant, so the gas volume on 9 top of the second closed container increases, and is stored in the second closed appearance
Gas gross mass in device 9 and big cylinder body 152 be it is constant, so the gas pressure intensity in the second closed container 9, big cylinder body 152
PGreatlyReduce.So the power F of big sealing plate 155 to the rightGreatly=PGreatly*SGreatlyReduce.
But the power F that small sealing plate 156 is subject to the leftIt is small=PIt is small*SIt is smallIt is unchanged, so small sealing plate 156 is by power F to the leftIt is small
Greater than big sealing plate 155 by power F to the rightGreatly, small sealing plate 156 pushes big sealing plate 155 to run to the left by rigid link 151.
Big sealing plate 155 finally arrives the position G from the position I to the position H.
Small sealing plate 156 finally arrives the position O from Q position to P position.
Because rigid link 151 is connected to big sealing plate 155 and small sealing plate 156, large and small sealing plate 155,156 to the end
When stop motion, power suffered by large and small sealing plate 155,156 is equal, it may be assumed that FGreatly=PGreatly*SGreatly=FIt is small=PIt is small*SIt is smallAnd SGreatly=NSIt is smallInstitute
With PIt is small=NPGreatlyGas pressure intensity P in i.e. small sealing plate 156It is smallEqual to gas pressure intensity P in big sealing plate 155GreatlyN times when reach balance, size
Sealing plate 155,156 does not rerun.
When the water quality in the second closed container 9 is reduced to a certain numerical value, the volume of water upper gas also increases to certain
The gross mass of one numerical value and gas in the second closed container 9, big cylinder body 152, rigid tracheae 10 is constant, so gas pressure
The big reduction of strong P, can be less than atmospheric pressure PO;And big sealing plate 155 is connected to small sealing plate 156, small cylinder by rigid link 151
Gas pressure intensity P in body 153 is small to might be less that atmospheric pressure PO, and small cylinder body 153 is close with first further through rigid tracheae 10
It closes container 2 to communicate, so the gas pressure intensity P in the first closed container 2 is less than atmospheric pressure PO, water source 1 and first to be hoisted
4 check valve 5 (check valve can be replaced with solenoid valve) of communicating pipe between closed container 2 is opened, and water enters the from water source 1 to be hoisted
In one closed container 2, the check valve 5 (check valve can be replaced with solenoid valve) of the first stalk 6 is closed.
At this point, artificial or automatic control 92 solenoid valve of outlet pipe, 20 power loss is closed, 91 solenoid valve 20 of water inlet pipe obtains electric opening,
Water is entered in the second closed container 9 from upstream water source 7 by water inlet pipe 91, and the water in the second closed container 9 increases, and volume increases
Greatly, along with the unexpected power loss of 92 solenoid valve of outlet pipe 20 is closed, water generates water hammer effect, the pressure of water in the second closed container 9
Strong to increase suddenly, the gas volume of the side waterborne of the second closed container 9 reduces, and pressure increases, and big cylinder body 152 be with it is second close
9 gas part of container is closed to communicate, so the big increase of gas pressure intensity P in big cylinder body 152, so the power F of big sealing plate 155 to the right
The big big increase of * S of greatly=P.
But power F that small sealing plate 156 is subject to the left it is small=the small * S of P is small unchanged, so small sealing plate 156S is small by the left
Power F be less than big sealing plate 155 it is big by thrust F to the right, big sealing plate 155S passes through greatly rigid link 151 and pushes small sealing plate
156 run to the right.
Big sealing plate 155 is from the position G to the position H finally to the position I in big cylinder body 152.
Small sealing plate 156 is from O position to P position finally to the position Q.
Because rigid link 151 is connected to big sealing plate 155 and small sealing plate 156, large and small sealing plate (155) to the end
156 it is out of service when, power suffered by large and small sealing plate (155) 156 is equal, it may be assumed that F is big=the big * S of P is big=F is small=the small * S of P is small and S
Greatly=NS is small, thus P it is small=NP is big, i.e., gas pressure intensity P is small big equal to the gas pressure intensity P in big sealing plate 155 in small sealing plate 156
Reach balance at N times, large and small sealing plate 156 does not rerun.
Since the rigid tracheae 10 of small cylinder body 153 connection is communicated with the first closed container 2, so working as small sealing plate 156
It runs to the right, when gas partial volume reduces in small cylinder body 153, gas pressure intensity is also with increase, gas in the first closed container 2
Pressure also increases, so (check valve can electricity consumption for the check valve 5 between water source to be hoisted 1 and the first closed container 2 on communicating pipe 4
Magnet valve replacement) it closes, as the N/mono- of height of the height of water column AB greater than water column CD, i.e. HAB > 1/N HDC, HDC is small
When NHAB, check valve 5 (check valve can be replaced with solenoid valve) in the first stalk 6 is opened, and water is from 2 quilt of the first closed container
Press to first object pond 3.
At this point, artificial or automatic control allows 91 solenoid valve of water inlet pipe, 20 power loss to close, 92 solenoid valve 20 of outlet pipe obtains electric beat
It opens, the above course of work can be repeated.
Heavy caliber bellows 157 can also be respectively equipped on the outside of big sealing plate 155 and small sealing plate 156 and small-bore ripple is stretched
The draw 158, and large and small bore bellows 157,158 inner ends seal be fixed on big sealing plate 155 and small sealing plate 156 respectively,
Large and small bore bellows 157,158 outer ends seal respectively to be fixed on the outermost side floor panels of large and small cylinder body 152,153, and point
It does not seal, and covers 10 entrance of corresponding rigid tracheae.Others are designed by above method, by the course of work of the present embodiment,
It can achieve identical effect and purpose.
Embodiment three: as shown in figure 4, passing through 16 phase of jet vacuum pump between upstream water source 7 and downstream water source 8
Even, the shell of the jet vacuum pump 16 is equipped with a water inlet, water outlet and suction inlet, water inlet and water outlet respectively with upstream
Water source 7 and downstream water source 8 communicate, and solenoid valve 20 is additionally provided between water outlet and downstream water source 8, on the second closed container 9
92 upper end of outlet pipe is communicated with the suction inlet, is communicated by the suction inlet of jet vacuum pump 16 with downstream water source 8, second is closed
92 lower end of outlet pipe on container 9 is passed through always the bottom of the second closed container 9.Remaining structure is as described in embodiment 1, slightly.
The course of work is as follows:
Assume initially that 20 power loss of solenoid valve between 16 water outlet of jet vacuum pump and downstream water source 8 is closed, water inlet pipe 91
Solenoid valve 20 obtains electric opening, is full of water in the second closed container 9, at this point, water level highest in the second closed container 9, water is most,
The gas volume on 9 top of the second closed container is minimum, gas pressure intensity N point PNIt is maximum.Since the top of the second closed container 9 passes through
Rigid tracheae 10 is communicated with the top of the first closed container 2, so the gas pressure of 2 top V point of the first closed container at this time
Strong PVMaximum is equal to PO+PAB, so the check valve 5 between water source to be hoisted 1 and the first closed container 2 on communicating pipe 4 is (unidirectional
Valve can be replaced with solenoid valve) it closes, work as HEF< HABWhen, (check valve can use solenoid valve generation to the check valve 5 in the first stalk 6
For) open, water flows to first object pond 3 from the first closed container 2, reaches purpose of drawing water.
Solenoid valve 20 that is artificial at this time or automatically controlling between 16 water outlet of jet vacuum pump and downstream water source 8 obtains electric beat
It opens, 91 solenoid valve of water inlet pipe, 20 power loss is closed, and the water at upstream water source 7 flows to downstream water source 8 by K → L → M point, wherein jet stream
Most narrow at 16 point L of vacuum pump, flow velocity of the water at L is most fast, PLPressure is minimum.
Due to pressure P at LLIt is small, the pressure P of gas N point in the second closed container 9NGreatly, 91 solenoid valve 20 of water inlet pipe loses again
Be electrically turn off, thus the water in the second closed container 9 flowed at L by outlet pipe 92 → M to downstream water source 8.
Water quality in second closed container 9 is reduced, and water volume reduces, and the gas volume in portion waterborne increases, N point gas pressure
Strong PNReduce, since the top of the second closed container 9 is communicated by rigid tracheae 10 with the top of the first closed container 2,
So the gas V point pressure P in the first closed container 2VReduce.
Work as PV< PO+PEFWhen the first stalk 6 in check valve 5 (check valve can be replaced with solenoid valve) close, work as PV< PO
+PSRWhen, the check valve 5 between water source 1 to be hoisted and the first closed container 2 on communicating pipe 4 (check valve can be replaced with solenoid valve)
It opens, water enters in the first closed container 2 from water source 1 to be hoisted, and water increases in the first closed container 2.
When the discharge reduction in the second closed container 9 is to certain numerical value, N point pressure PNIt is also reduced to certain numerical value, the
Water in one closed container 2 also increases to certain numerical value.
20 power loss of solenoid valve that is artificial at this time or automatically controlling between 16 water outlet of jet vacuum pump and downstream water source 8 is closed
It closes, 91 solenoid valve 20 of water inlet pipe obtains electric opening, and the water at this time point K → L → M no longer flows, and is hydrostatic state, pressure P at LL
Increase, 9 top N point gas pressure intensity P of the second closed containerNIncrease, water adds to the by water inlet pipe 91 from upstream water source 7 at this time
In two closed containers 9, the water in the second closed container 9 is more and more, and volume shared by water is increasing, static when balance,
N point gas pressure intensity P at this timeNFor PO+PABFor maximum rating.
The above course of work is repeated at this time.
Embodiment four: as shown in Figure 5: being additionally provided with a pressure release between first closed container 2 and downstream water source 8 and hold
Device 17,17 bottom of pressure release container are equipped with a down tube 171 led directly into downstream water source 8, which is equipped with one
The upper tube 172 at the top of the first closed container is led directly to, and is respectively equipped with solenoid valve 1721,1711 in top tube and down tube.
Embodiment four further include the first closed container of mirror image 2', mirror image first object pond 3', mirror image communicating pipe 4' and
Mirror image the first stalk 6' is additionally provided with mirror image the second closed container 9' between upstream and downstream water source, on second closed container of mirror image
It is communicated respectively with upstream water source and downstream water source equipped with water inlet pipe and outlet pipe, and by water inlet pipe and outlet pipe, and water inlet pipe
Be respectively equipped with solenoid valve 2012,2022 on outlet pipe, the mirror image top the second closed container 9' and the first closed container of mirror image 2'
Rigid tracheae 10' is equipped between top, which is equipped with solenoid valve 2032.
A mirror image pressure release container 17', the mirror image pressure release are additionally provided between mirror image the first closed container 2' and downstream water source 8
The bottom container 17' is equipped with a down tube 171' led directly into downstream water source 8, and mirror image pressure release container 17' is equipped with one and leads directly to
Enter the upper tube 172' at the top of the first closed container of mirror image 2', and be respectively equipped on upper tube 172' and down tube 171' solenoid valve 1722,
1712。
First closed container, 2 bottom is connected by a connecting pipe 174 with the bottom mirror image pressure release container 17', mirror image first
The bottom closed container 2' is connected by a connecting pipe 175 with 17 bottom of pressure release container, and is all provided on two communicating pipe 174,175
There is solenoid valve 1741,1751.
It is equipped with communicating pipe 4 between pond 1 to be hoisted and the first closed container 2, communicating pipe 4 is equipped with solenoid valve 2051, to
It is promoted and is equipped with communicating pipe 4' between pond 1 and the first closed container of mirror image 2', siphunculus 4' is equipped with solenoid valve 2052.
The first stalk 6,6 lower end of the first stalk are equipped between first closed container 2 and first object pond 3
It is passed through 2 bottom of the first closed container, which is passed through first object pond 3, and this first liter from bottom
Solenoid valve 2041 also is provided in liquid pipe 6.
The first stalk of mirror image 6' is equipped between mirror image the first closed container 2' and mirror image first object pond 3', it should
The lower end mirror image the first stalk 6' is passed through the bottom mirror image the first closed container 2', and the mirror image upper end the first stalk 6' is the bottom of from
Portion is passed through mirror image first object pond 3', and also is provided with solenoid valve 2042 on first stalk of mirror image 6'.
It is respectively equipped with solenoid valve 2011 and 2021 on the water inlet pipe 91 and outlet pipe 92 of second closed container 9, second is closed
Top is equipped with rigid tracheae 10 between 9 top of container and the first closed container 2, and solenoid valve 2031 is housed on rigid tracheae 10.
Solenoid valve 2012 and 2022, mirror are respectively equipped on the water inlet pipe 91' and outlet pipe 92' of the second closed container of mirror image 9'
As top is equipped on rigid tracheae 10', rigid tracheae 10' between the first closed container of mirror image 2' at the top of the second closed container 9'
Equipped with solenoid valve 2032.
Outlet pipe 171 is equipped between downstream water source 8 and pressure release container 17, outlet pipe 171 is equipped with solenoid valve 1711, connection
Vertical communicating pipe 173 is additionally provided between pipe 4 and outlet pipe 171, which is equipped with solenoid valve 1731.
Mirror image outlet pipe 171' is equipped between downstream water source 8 and mirror image pressure release container 17', mirror image outlet pipe 171' is equipped with
Solenoid valve 1712, is additionally provided with the vertical communicating pipe 173' of mirror image between mirror image communicating pipe 4' and mirror image outlet pipe 171', the mirror image is perpendicular
Direct-connected siphunculus 173' is equipped with solenoid valve 1732.
3 bottom of pond height of first object pond is greater than 1 water surface of water source to be hoisted, and water source 7 water surface A point in upstream is higher than downstream water source
8 water surface X points.
Equally, 3' bottom of pond height in mirror image first object pond is greater than 1 water surface of water source to be hoisted, and water source 7 water surface A point in upstream is high
In 8 water surface X point of downstream water source, remaining structure is as shown in embodiment one, slightly.
The course of work is as follows:
As shown in figure 5, assuming initially that all solenoid valves of a certain moment are all power loss closed state.
Only a small amount of water is empty container state in first closed container 2.Mirror image the first closed container 2' is full water state.
Second closed container 9 is full water state.A small amount of water is empty container state in the second closed container of mirror image 9', and pressure release container 17 is
Full water state.Mirror image pressure release container 17' is full water container state.
Step 1: mirror image the first container 2' pressurizes, drain for the first time, the second closed container of mirror image 9' is intake for the first time, people
For or automatically control solenoid valve 2012,2032,2042 electric opening, other solenoid valve power loss are closed.
The second closed container of mirror image 9'(N' point at this time) pressure be PN'=P0+PAB, the first closed container of mirror image 2'(V'
Point) pressure be PV'=P0+PF'R', it is assumed that water column AB is higher than water column F'R', then PN' > PV'.It can be from pressure eminence according to fluid
The principle of balance is finally reached to the flowing of the low place of suppressing.
So having: water flow 1: the water of water source upstream 7 (A point) → through the second closed container of 2012 → mirror image of solenoid valve 9'(N'
Point) water inlet;
Gas stream: the second closed container of mirror image 9' → 2032 → mirror image of solenoid valve the first closed container 2'(V' point) pressure increasing
Greatly.
Water flow 2: mirror image the first closed container 2'(V' point) water → through 2042 → target of solenoid valve pond 3 (F point)
The height drawn water: HF'R' < HAB
HF'R' this water source > natural-drop HAX
When water in the first closed container of mirror image 2' is reduced to a certain amount, 2012,2032,2042 power loss of solenoid valve is enabled to close
It closes.
As a result: mirror image the first closed container 2' is discharged a part of water and is extracted into target pond 3
The second closed container of mirror image 9' enters a part of water.
Step 2: the first closed container 2 first time exhaust decompression
Second closed container 9 drains for the first time
Artificial or automatic control solenoid valve 2021,2031 obtains electric opening, and other solenoid valve power loss are closed, due to a upper period
Middle solenoid valve 2021 is closed, and solenoid valve 2011 is opened and reaches equilibrium state, at that time the gas pressure in the first closed container 2
For PV=P0+PAB, and due to solenoid valve 2021 at this time electric opening, 2011 power loss of solenoid valve are closed, the second closed container 9 is under
Trip 8 is connected, so (N point) pressure is P in the second closed container 9N=P0+PXB, due to HAB> HXBI.e. Pv > Pn is according to fluid
The principle that can be flowed to pressure lower: have
Gas stream: first closed container 2 (V point) → solenoid valve, 2031 → the second closed container 9 (N point)
Water flow: 9 (N point) → 2021 → water source of solenoid valve downstream 8 (X point) of the second closed container
As a result: first closed container 2 (V point) pressure is reduced to PV=P0+PXB
Second closed container 9 (N point) discharge reduction, pressure reduce.
Step 3: first closed container 2 (V point) second of exhaust decompression.Pressure release container 17 drains for the first time, artificially or certainly
Dynamic control solenoid valve 1721,1711 obtains electric opening, other solenoid valve power loss are closed, due to the gas of (V point) in the first closed container 2
Body pressure is PV+P0+PXB, the solenoid valve 1711 in 17 down tube 171 of pressure release container opens, so:
(gas stream: 2 (V point) → 1721 → pressure release of solenoid valve container 17 (Y point) of the first closed container).
Water flow: pressure release container 17 (Y point) → 1711 → water source of solenoid valve downstream 8 (X point), and due to 17 (Y of pressure release container
Point) than water source downstream 8 (X point) height, when as a result reaching balance: pressure release container 17 (Y point) is negative pressure.First closed container 2 (V point)
For negative pressure.
Step 4: the first closed container 2 is intake, pressure release container 17 is further drained, artificial or automatic control solenoid valve
1711,1721,2051 electric opening is obtained, the power loss of other electromagnetism is closed.
Since water source 1 (S point) is by atmospheric pressure P0Effect, pressure are greater than first closed container 2 (V point) pressure at this time
(negative pressure) so:
Water flow: 2051 → the first closed container 2 (V point) of water source upstream 1 (S point) → solenoid valve
Gas stream: 2 (V point) → 1721 → pressure release of solenoid valve container 17 (Y point) of the first closed container
Water flow 2: pressure release container 17 (Y point) → 1711 → water source of solenoid valve downstream 8 (X point)
As a result: the first closed container (2) is full of water.Only a small amount of water is empty container state, top in pressure release container 17
Gas pressure intensity (Y point) very little is negative pressure state.
Step 5: pressure release container 17 is intake for the first time, artificial or automatic control solenoid valve 1731,1721 obtains electric opening,
Its solenoid valve power loss is closed.Since (Y point) gas pressure intensity is less than atmospheric pressure P in pressure release container 17 at this time0, and water source to be hoisted 1
(S point) is by pressure P0So:
Water flow: in 1 (S point) → 1731 → pressure release of solenoid valve container 17 of water source to be hoisted (Y point)
Gas stream: 1721 → the first closed container 2 (V point) of (Y point) → solenoid valve in (a small amount of) pressure release container 17.
As a result: entering a part of water in pressure release container 17, until upper gas pressure is P0+PSYWhen stop water inlet.
Step 6: second of pressure release container 17 water inlet,
Second of draining of the first closed container of mirror image 2'
The second closed container of mirror image 9'(the) secondary water inlet
Second closed container, 9 second of draining
Artificial or automatic control solenoid valve 2012,2032,1751,1721,2031,2021 obtains electric opening, other solenoid valves
Power loss is closed.At this time because solenoid valve 2012 obtains electric opening, 2022 power loss are closed, mirror image the second closed container 9'(N' point) it is in
I.e. pressure is P at depth of water ABN'=P0+PAB, and due to solenoid valve 2032 electric opening, the first closed container of mirror image (2') (V'
Point) and mirror image the second closed container 9'(N' point) gas part communicates, so PV'=PN'=P0+PAB。
Electric opening is obtained again because 2011 power loss of solenoid valve is closed, 2021, so the second closed container 9 (N point) is with downstream water
Source 8 (X point) communicates, and place is at depth of water XB, pressure PN=P0+PXB, and since solenoid valve 2031,1721 obtains electric opening, so
Second closed container 9 (N point), the first closed container 2 (V point), pressure release container 17 (Y point) gas part communicate, and pressure is equal, institute
With: PN=PV=PY=PO+PXB.Again since depth of water AB (water source upstream) is bigger than water source downstream XB.That is PAB> PXB, so PN'=
PV'=PO+ Pab is greater than PN=PV=PY=PO+PXB, i.e. PV' > PY, pressure lower can be flowed to from pressure eminence according to fluid
Principle.
Water (stream) 1: upstream 7 (A point) through solenoid valve 2012, into mirror image the second closed container 9'(N' point);
Gas (stream) 1: from mirror image the second closed container 9'(N' point) through solenoid valve 2032, into the first closed container of mirror image
2'(V' point).
Water (stream) 2: mirror image the second closed container 2'(V' point) pass through solenoid valve 1751 into pressure release container 17 (Y point);Just
Just not drained water.
Gas stream 2: pressure release container 17 (Y point) enters the second closed container 9 (N point) through solenoid valve 1721,2031.
3: the second closed container 9 (N point) of water flow is with solenoid valve 2021 to downstream 8 (X point)
As a result water is full of in: mirror image the second closed container 9'(N' point);
Mirror image the first closed container 2'(V' point) there was only a small amount of water.
Pressure release container 17 (Y point) is full of water;
Second closed container 9 (N point) only has a small amount of water, is empty container state, pressure PN=PO+PXB
(the first stage course of work is completed.The second stage course of work is only held entirely by reference to the first stage course of work
Device, water source title are different).
The pressurization of 7th step (referring to the first step) first closed container 2, drains for the first time, 9 first time of the second closed container into
Water.
8th step (referring to second step) mirror image the first closed container 2' first time decompression exhaust, the second closed container of mirror image 9'
It drains for the first time.So analogize, moves in circles.
Embodiment five: as shown in Figure 6: the device of the utility model lift gas pressure includes the gas device of pressure to be hoisted
With motive fluid device, the gas device of pressure to be hoisted includes the gas source of pressure to be hoisted --- Fig. 6 show in example for atmosphere,
First closed container 2 and target container 18, by check valve 5, (check valve can use solenoid valve between atmosphere and the first closed container 2
Instead of) connection, it is equipped with communicating pipe 4 between first closed container 2 and target container 18, also is provided on the communicating pipe 4 unidirectional
Valve 5 (check valve can be replaced with solenoid valve), it is characterised in that: the motive fluid device includes upstream water source 7 and downstream water source
8, the second closed container 9 is equipped between upstream and downstream water source 8, which is respectively equipped with water inlet pipe 91 and water outlet
Pipe 92, and communicated respectively with upstream water source 7 and downstream water source 8 by water inlet pipe 91 and outlet pipe 92, and water inlet pipe 91 and water outlet
Solenoid valve 20 is respectively equipped on pipe 92, top is equipped with rigid tracheae between 9 top of the second closed container and the first closed container 2
10。
The course of work: since full water in the second closed container 9,91 solenoid valve of water inlet pipe, 20 power loss is closed, outlet pipe 92
Solenoid valve 20 obtains electric opening, and the second closed container 9 downstream discharges water at water source, while the air-breathing from the first closed container 2, and first is close
It closing container 2 and forms vacuum, the check valve 5 between the first closed container 2 and atmosphere is opened, and the check valve 5 on communicating pipe 4 is closed,
Second closed container 9 passes through the rigid air-breathing out of first closed container 2 of tracheae 10, the first air-breathing from atmosphere of closed container 2.When
Water in second closed container 9 is put to close to outlet pipe 92, but when being still higher than outlet pipe 92,92 solenoid valve of outlet pipe, 20 power loss is closed
It closes, 91 solenoid valve 20 of water inlet pipe obtains electric opening, fills the water from upstream water source 7 into the second closed container 9, with the second closed container
The water surface rises in 9, in gas enter the first closed container 2 along rigid tracheae 10.Between first closed container 2 and atmosphere
Check valve 5 is automatically closed, and forms high pressure in the first closed container 2, the check valve 5 on communicating pipe 4 is opened, the second closed container 9
Interior gas enters in the first closed container 2, and then enters in target container 18, increases the gas pressure intensity of target container 18, when
After filling water in second closed container 9, into next cyclic process, so in cycles, it is ensured that in target container 18
Always there is the gas of a pressure, when use opens the air outlet valve 19 of target container 18, so that it may using in the target container 18
Drive of high-pressure gas air motor or cylinder or other pneumatic equipments, power generation or work done.
Claims (4)
1. a kind of device of Novel hoisting water source height, fluid means and motive fluid device including height to be hoisted, wait mention
The fluid means of rise includes water source, the first closed container and first object pond to be hoisted, water source to be hoisted and first close
It closes and is equipped with communicating pipe between container bottom, and by constituting linker the communicating pipe, the communicating pipe be equipped with check valve or electromagnetism
Valve, is equipped with the first stalk between first closed container and first object pond, which is passed through
First closed container bottom, which passes through first object pond bottom of pond, and extends to the first mesh
The pond water surface or more is marked, and also is provided with check valve or solenoid valve on first stalk, it is characterised in that: the motive fluid dress
It sets including upstream water source and downstream water source, the second closed container is equipped between upstream and downstream water source, which is equipped with
Water inlet pipe and outlet pipe, and communicated respectively with upstream water source and downstream water source by water inlet pipe and outlet pipe, and water inlet pipe and go out
It is respectively equipped with solenoid valve on water pipe, rigid tracheae is equipped between the second closed container top and the first closed container top, it is described
A pressure enlarger is additionally provided on rigid tracheae, which includes a sliding sleeve and rigid link, described rigid
Property connecting rod be arranged in sliding sleeve, sliding sleeve both ends set big cylinder body and small cylinder body respectively, and big cylinder body and small cylinder body are adjacent to one end of sliding sleeve
It is respectively equipped with air inlet/outlet, and big cylinder body passes through rigid tracheae and is connected to the second closed container, small cylinder body passes through rigid tracheae connection
First sealing container, the rigid link both ends are respectively equipped with big sealing plate and small sealing plate, and large and small sealing plate is separately positioned on big cylinder body
In small cylinder body;Big sealing plate and the inner wall hermetic seal with big cylinder body and small cylinder body respectively of small sealing plate respectively constitute two and share work
The large and small cylinder of stopper rod;Or heavy caliber bellows are respectively equipped on the outside of big sealing plate and small sealing plate and small-bore ripple is stretched
The draw, and large and small bore bellows inner end seals be fixed on big sealing plate and small sealing plate respectively, large and small bore ripple is stretched
Draw outer end seals be fixed on the outermost side floor panels of large and small cylinder body respectively, and seals respectively, and covers corresponding rigid tracheae and enter
Mouthful.
2. the device of Novel hoisting water source as described in claim 1 height, it is characterised in that: it include third closed container,
Second target pond and the second stalk, first object pond are connected to third closed container by check valve or solenoid valve, the
Two stalk lower ending openings are passed through third closed container bottom, and the second stalk upper end opening passes through the second target pond bottom of pond,
And the second target pond water surface or more is extended to, and check valve or solenoid valve also are provided on second stalk, the rigidity gas
Pipe top sets two branch pipes, communicates at the top of a branch pipe and first closed container, another branch pipe and the third are closed
Upper vessel portion communicates, and solenoid valve is respectively equipped on two branch pipes, and the second target pond bottom of pond height is greater than first object water
Face height.
3. the device of Novel hoisting water source as described in claim 1 height, it is characterised in that: upstream water source and downstream water source it
Between be connected by jet vacuum pump, the shell of the jet vacuum pump is equipped with a water inlet, water outlet and suction inlet, enters water
Mouth and water outlet are communicated with upstream water source and downstream water source respectively, and are additionally provided with solenoid valve between water outlet and downstream water source, the
Outlet pipe upper end on two closed containers is communicated with the suction inlet, passes through suction inlet and the downstream water source phase of jet vacuum pump
Logical, the outlet pipe lower end on the second closed container is passed through always the bottom of the second closed container.
4. the device of Novel hoisting water source as described in claim 1 height, it is characterised in that: first closed container is under
A pressure release container is additionally provided between swimming source, which is equipped with one and leads directly to the down tube into downstream water source, this is let out
Pressure vessel is equipped with a upper tube led directly at the top of the first closed container, and solenoid valve is respectively equipped in top tube and down tube,
It further includes the first closed container of mirror image, the first stalk of mirror image first object pond, mirror image communicating pipe and mirror image, up and down
The second closed container of mirror image is additionally provided between swimming source, which is equipped with water inlet pipe and outlet pipe, and leads to
It crosses water inlet pipe and outlet pipe to communicate with upstream water source and downstream water source respectively, and is respectively equipped with electromagnetism on water inlet pipe and outlet pipe
Valve is equipped with rigid tracheae between mirror image the second closed container top and the first closed container of mirror image top,
A mirror image pressure release container is additionally provided between the first closed container of mirror image and downstream water source, which sets
There is one to lead directly to the down tube into downstream water source, which is equipped with one and leads directly at the top of the first closed container of mirror image
Upper tube, and solenoid valve is respectively equipped in top tube and down tube,
First closed container bottom is connected by a connecting pipe with mirror image pressure release container bottom, the first closed container of mirror image bottom
It is connected by a connecting pipe with pressure release container bottom, and two communicating pipes was respectively equipped with solenoid valve.
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GB181762A (en) * | 1921-01-25 | 1922-06-26 | Thomas Gaskell Allen | Improvements in or relating to systems of raising liquids |
CN2191309Y (en) * | 1993-12-30 | 1995-03-08 | 煜丰企业有限公司 | Pneumatic liquid conveyer |
CN2849264Y (en) * | 2005-11-11 | 2006-12-20 | 何福鸿 | Non electric power automatic water raiser mechanism |
CN102132668A (en) * | 2010-01-25 | 2011-07-27 | 刘克明 | Micro-irrigation system of liquid/gas energy water pump |
CN202017664U (en) * | 2010-10-26 | 2011-10-26 | 李佳骏 | Environmentally-friendly water pump |
CN105465054A (en) * | 2015-12-21 | 2016-04-06 | 温锡钦 | Device capable of improving fluid pressure intensity or height |
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2016
- 2016-11-14 CN CN201611024726.4A patent/CN106762858B/en not_active Expired - Fee Related
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
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GB181762A (en) * | 1921-01-25 | 1922-06-26 | Thomas Gaskell Allen | Improvements in or relating to systems of raising liquids |
CN2191309Y (en) * | 1993-12-30 | 1995-03-08 | 煜丰企业有限公司 | Pneumatic liquid conveyer |
CN2849264Y (en) * | 2005-11-11 | 2006-12-20 | 何福鸿 | Non electric power automatic water raiser mechanism |
CN102132668A (en) * | 2010-01-25 | 2011-07-27 | 刘克明 | Micro-irrigation system of liquid/gas energy water pump |
CN202017664U (en) * | 2010-10-26 | 2011-10-26 | 李佳骏 | Environmentally-friendly water pump |
CN105465054A (en) * | 2015-12-21 | 2016-04-06 | 温锡钦 | Device capable of improving fluid pressure intensity or height |
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