CN208791255U - A kind of water process energy recycle device - Google Patents
A kind of water process energy recycle device Download PDFInfo
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- CN208791255U CN208791255U CN201821263713.7U CN201821263713U CN208791255U CN 208791255 U CN208791255 U CN 208791255U CN 201821263713 U CN201821263713 U CN 201821263713U CN 208791255 U CN208791255 U CN 208791255U
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- commutation
- cylinder
- piston
- valve seat
- high pressure
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 title claims abstract description 89
- 238000000034 method Methods 0.000 title claims abstract description 18
- 230000008569 process Effects 0.000 title claims abstract description 16
- 239000002351 wastewater Substances 0.000 claims abstract description 86
- JEGUKCSWCFPDGT-UHFFFAOYSA-N h2o hydrate Chemical compound O.O JEGUKCSWCFPDGT-UHFFFAOYSA-N 0.000 claims abstract description 40
- 239000013535 sea water Substances 0.000 claims description 38
- 238000001223 reverse osmosis Methods 0.000 claims description 7
- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 claims description 6
- 238000007789 sealing Methods 0.000 claims description 5
- 125000004122 cyclic group Chemical group 0.000 claims description 3
- 238000009826 distribution Methods 0.000 claims description 3
- 238000011026 diafiltration Methods 0.000 claims 1
- 238000006243 chemical reaction Methods 0.000 abstract description 9
- 238000001914 filtration Methods 0.000 abstract description 6
- 238000005265 energy consumption Methods 0.000 abstract description 5
- 230000008859 change Effects 0.000 abstract description 2
- 230000004992 fission Effects 0.000 abstract description 2
- 238000005516 engineering process Methods 0.000 description 10
- 238000010586 diagram Methods 0.000 description 9
- 238000010612 desalination reaction Methods 0.000 description 5
- 230000006872 improvement Effects 0.000 description 4
- 238000012545 processing Methods 0.000 description 4
- 238000011084 recovery Methods 0.000 description 4
- FAPWRFPIFSIZLT-UHFFFAOYSA-M Sodium chloride Chemical compound [Na+].[Cl-] FAPWRFPIFSIZLT-UHFFFAOYSA-M 0.000 description 3
- 230000000694 effects Effects 0.000 description 3
- 239000000463 material Substances 0.000 description 3
- 230000001172 regenerating effect Effects 0.000 description 3
- 238000005266 casting Methods 0.000 description 2
- 230000006837 decompression Effects 0.000 description 2
- 238000011033 desalting Methods 0.000 description 2
- 239000000243 solution Substances 0.000 description 2
- 230000009471 action Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 239000012267 brine Substances 0.000 description 1
- 238000012512 characterization method Methods 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 238000005520 cutting process Methods 0.000 description 1
- 230000007812 deficiency Effects 0.000 description 1
- 238000011161 development Methods 0.000 description 1
- 238000006073 displacement reaction Methods 0.000 description 1
- 239000012530 fluid Substances 0.000 description 1
- 238000005242 forging Methods 0.000 description 1
- 239000002440 industrial waste Substances 0.000 description 1
- 238000001746 injection moulding Methods 0.000 description 1
- 238000003698 laser cutting Methods 0.000 description 1
- 238000003754 machining Methods 0.000 description 1
- 230000005389 magnetism Effects 0.000 description 1
- 238000012423 maintenance Methods 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 239000012528 membrane Substances 0.000 description 1
- 239000007769 metal material Substances 0.000 description 1
- 238000003801 milling Methods 0.000 description 1
- 238000007639 printing Methods 0.000 description 1
- 238000004080 punching Methods 0.000 description 1
- 238000011160 research Methods 0.000 description 1
- HPALAKNZSZLMCH-UHFFFAOYSA-M sodium;chloride;hydrate Chemical compound O.[Na+].[Cl-] HPALAKNZSZLMCH-UHFFFAOYSA-M 0.000 description 1
- 229920002994 synthetic fiber Polymers 0.000 description 1
Abstract
The utility model is a kind of water process energy recycle device, including the first cylinder, the second cylinder, cartridge piston, commutation valve seat, pressure pump and filter core, commutation valve seat includes reversal valve, and reversal valve includes commutation chamber, reversing piston, the first stopper section, the second stopper section, the first waterwater entrance, the second waterwater entrance, the second wastewater outlet, first changes water through-hole and second change water through-hole.The first cylinder of the utility model, the second cylinder are connected with commutation valve seat fission, simple structure, technical difficulty is low, it can effectively reduce cost and be not easy failure, high pressure waste water after filter element filtering is drained into the commutation chamber in reversal valve by it, realize that reversing piston realizes commutation due to magnetic force repels each other between reversing piston and cartridge piston, the intracavitary high pressure waste water that commutates is got enter into the first high pressure waste water area/second high pressure waste water area, auxiliary pushing cartridge piston, to reduce the energy consumption of pressure pump, its recyclable 95%~98% energy conversion efficiency, energy conversion efficiency are high.
Description
[technical field]
The utility model relates to the energy regeneratings of pressurized fluid in water process, in particular to a kind of water process energy regenerating to fill
It sets.
[background technique]
Water process definitely refers to sea water desalination processing or discharge of industrial wastes processing etc., by taking sea water desalination as an example, reverse osmosis sea
Water desalination (SWRO) is one of the mainstream technology of current sea water desalination, and the concentrated water overbottom pressure of reverse osmosis membrane discharge is up to 5.5~6.5
MPa calculates according to 40% rate of recovery, about 60% feed water pressure energy is also contained in the strong brine of discharge, by this portion
Point energy regenerating becomes the energy consumption that reverse osmosis seawater desalting can be greatly reduced into water energy, reduce energy consumption be reduce sea water desalination at
This most effective means, and the realization of this target depends on the utilization of Energy Recovery Technology.
With the extensive application of reverse osmosis technology, various forms of energy recycle devices also occur in succession.In in August, 2010
In " development and application of reverse osmosis seawater desalting Energy Recovery Technology " text that " Chinese water supply and drainage " text published is published
Be described in detail: earliest energy recycle device is hydraulic turbine formula (as depicted in figs. 1 and 2), but since its energy turns
Inefficient (only reaching 65%~80%) is changed, occurs Work-exchange type energy recovery device later, is compared in early days typically
Rotator type pressure exchanger (as shown in Figure 3) and plunger valve governor pressure exchanger (as shown in Figure 4).Energy returns in the country
The research of receiving apparatus is started late, and the switching of high and low pressure water is relatively typically carried out using multiple pneumatic operated valves, is controlled by PLC
The movement (as shown in Figure 5) of valve, the energy conversion efficiency of above-mentioned various forms of energy recycle devices is still undesirable (to be reached
90%~95%) it, and needs to be controlled using booster pump, electrically-controlled valve and PLC, there are at high cost, flow is small, and control is difficult,
The problems such as technical difficulty is big;In view of the above-mentioned problems, external develop a novel energy recycle device (as shown in Figure 6), though
The right energy recycle device improves energy conversion efficiency (can reach 95%~98%), but still remains construction complexity, skill
The problems such as art difficulty is high, and flow is small.
For above situation, we provide a solutions.
[utility model content]
The purpose of this utility model is to be to have overcome the deficiencies of the prior art and provide a kind of simple structure, technical difficulty
The water process energy recycle device low, energy conversion efficiency is high.
In order to solve above-mentioned technical problem, the utility model is adopted the following technical solutions:
A kind of water process energy recycle device, including
First cylinder, includes barrel chamber in first cylinder, and the first cylinder is equipped in axial one end for sealing this
First end cover of end, the other end are not closed completely, and the first end cover has axially penetrated through the first water inlet and
One water outlet;
Second cylinder, includes barrel chamber in second cylinder, and the axial one end of the second cylinder is equipped with for sealing this
Second end cover of end, the other end are not closed completely, and the second end cover has axially penetrated through the second water inlet and
Two water outlets;
Commutate valve seat, which is cyclic structure;In commutation valve seat inner shaft to being provided at least one reversal valve,
The reversal valve includes commutation chamber, and the commutation chamber is equipped in commutation chamber by middle part outward axially through commutation valve seat
Low pressure wastewater outlet is equipped with the first waterwater entrance and the second waterwater entrance, first waterwater entrance, second in commutation chamber two sides
Waterwater entrance and the intracavitary commutation valve seat pedestal that extends radially through of low pressure wastewater outlet self-commutation pass to outside commutation valve seat;First waste water enters
Mouth, the second waterwater entrance are equipped with the first stopper section and the second stopper section, first backstop between low pressure wastewater outlet respectively
Portion and the second stopper section self-commutation valve seat pedestal are intracavitary radially projecting to commutating;In the opposite commutation chamber of low pressure wastewater outlet
Side is equipped with the first drainage hole and the second drainage hole, and first drainage hole and the second drainage hole are divided into the two of commutation chamber
It holds and commutates outside valve seat respectively at intracavitary be conducted to of the end self-commutation;Intracavitary reversing piston, reversing piston packet are additionally provided with commutating
The first commutation plug, the second commutation plug and commutation connecting rod are included, the first commutation plug can be between the first stopper section and the end
Commutate intracavitary movement, and the first waterwater entrance of closing can be blocked when the first commutation plug is resisted against the end, open first draining
Through-hole, second commutation plug can in the intracavitary movement of commutation between the second stopper section and the end, and second commutation plug against
The second waterwater entrance of closing, open second drainage hole, the first commutation plug and the second commutation plug can be blocked when the end
Magnetic element is equipped in the one side towards reversal valve end respectively;
The internal diameter of first cylinder and the second cylinder is identical, and the first cylinder and the second cylinder are with completely not closed end
Portion seals the both ends for being socketed on reversal valve seat respectively;
Cartridge piston, the cartridge piston include first piston, second piston and cylinder connecting rod;First piston is set to first
In the barrel chamber of cylinder, it can move that the barrel chamber of the first cylinder is divided into first is fresh between the first end cover and commutation valve seat
Sea-water area and the first high pressure waste water area, the first drainage hole connection to the first high pressure waste water area;Second piston is set to second
In the barrel chamber of cylinder, it can move that the barrel chamber of the second cylinder is divided into second is fresh between the second end cover and commutation valve seat
Sea-water area and the second high pressure waste water area, the second drainage hole connection to the second high pressure waste water area;The both ends of the commutation chamber
Connection is distinguished to the first high pressure waste water area and the second high pressure waste water area in portion;Cylinder connecting rod is separately connected through the axle center of commutation valve seat
First piston and second piston are equipped with magnetic element, magnetism member in the one side of first piston and second piston towards commutation valve seat
Part repels each other with the first commutation plug and the magnetic element of the second commutation beyond the Great Wall;
Four check-valves are connected on the first water inlet, the first water outlet, the second water inlet and the second water outlet;
Pressure pump, the water outlet of the pressure pump are connected in parallel in two check-valves of the first water inlet and the second water inlet;
Filter core, the one end of the filter core are equipped with fresh seawater entrance, and the other end is equipped with pure water outlet and high pressure waste water goes out
Mouthful, which is connected in parallel in two check-valves of the first water outlet and the second water outlet, which exports simultaneously
Connection is connected on the first waterwater entrance and the second waterwater entrance.
In further improvement project, the reversal valve includes multiple, and circle distribution is in commutation valve seat.
In further improvement project, first cylinder, the second cylinder are identical with the outer diameter of commutation valve seat.
In further improvement project, the inner wall of the inner wall and the first cylinder, the second cylinder of the commutation chamber outwardly is held
It is flat.
In further improvement project, the filter core is reverse osmosis filter core.
Compared with prior art, the utility model has the beneficial effects that the first cylinder of the utility model, the second cylinder and changing
It is connected to valve seat fission, simple structure, technical difficulty is low, can effectively reduce cost and is not easy failure, after filter element filtering
High pressure waste water is drained into the commutation chamber in reversal valve, living in cylinder since magnetic force repels each other between reversing piston and cartridge piston
During plug is mobile, reversing piston is pushed to realize commutation, the intracavitary high pressure waste water that commutates is got enter into the first high pressure waste water
In area/second high pressure waste water area, auxiliary pushing cartridge piston can be recycled 95%~98% to reduce the energy consumption of pressure pump 80
Energy conversion efficiency, energy conversion efficiency are high.
The utility model is described in further detail in conjunction with attached drawing and specific embodiment below:
[Detailed description of the invention]
Fig. 1 is first technology schematic diagram one;
Fig. 2 is first technology schematic diagram two;
Fig. 3 is first technology schematic diagram three;
Fig. 4 is first technology schematic diagram four;
Fig. 5 is first technology schematic diagram five;
Fig. 6 is first technology schematic diagram six;
Fig. 7 is the structural schematic diagram one of the utility model embodiment one;
Fig. 8 is the structural schematic diagram two of the utility model embodiment one;
Fig. 9 is the structural schematic diagram of the utility model embodiment two.
[specific embodiment]
The embodiments of the present invention are described below in detail, the embodiment described example is shown in the accompanying drawings, wherein from beginning
Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.
Orientation shown by attached drawing should not be understood as the specific protection scope for limiting the utility model, only for preferred embodiment
Reference understand, can with product component shown in figure carry out position variation or quantity increase or structure simplify.
Mutually " connection " relationship of component shown in " connection " described in the specification and attached drawing, it can be understood as fixed
Ground connects or is detachably connected or is formed the connection of one;It can be and be directly connected directly or be connected by intermediary, ability
Domain those of ordinary skill can understand connection relationship as the case may be and it can be concluded that be spirally connected or rivet or weld or clamping or
The modes such as interlocking carry out different embodiments in an adequate manner for using.
Orientation shown in the nouns of locality such as upper and lower, left and right described in the specification, top, bottom and attached drawing, each component can be straight
Contact passes through the other characterisation contact between them;As above can for surface and oblique upper or it only indicates height
In other objects;Other orientation can also be made to analogize understanding.
The represented making material with physical form component in specification and attached drawing, can use metal material or
Nonmetallic materials or other synthetic materials;It is all to be related to mechanical processing technique used by there is the component of physical form and can be punching
Pressure, forging and stamping, casting, wire cutting, laser cutting, casting, injection molding, number milling, 3 D-printing, machining etc.;The common skill in this field
Art personnel adaptively can be selected or be combined selection according to different processing conditions, cost, precision, but be not limited to above-mentioned
Material and manufacture craft.
The utility model is a kind of water process energy recycle device, including
First cylinder 10, includes barrel chamber in first cylinder 10, and the first cylinder 10 is equipped in axial one end and is used for
The first end cover 12 of the end is sealed, the other end is not closed completely, and the first end cover 12 has axially penetrated through first
Water inlet 13 and the first water outlet 14;
Second cylinder 20 includes barrel chamber in second cylinder 20, and the axial one end of the second cylinder 20, which is equipped with, to be used for
The second end cover 22 of the end is sealed, the other end is not closed completely, and the second end cover 22 has axially penetrated through second
Water inlet 23 and the second water outlet 24;
Commutate valve seat 30, which is cyclic structure;Axially at least one is provided in 30 inside of commutation valve seat
Reversal valve, the reversal valve include commutation chamber 41, and the commutation chamber 41 is close to axially through commutation valve seat 30 in commutation chamber 41
The middle part in outside is equipped with low pressure wastewater outlet 46, is equipped with the first waterwater entrance 44 and the second waterwater entrance in commutation 41 two sides of chamber
45, commutation is extended radially through in 46 self-commutation chamber 41 of first waterwater entrance 44, the second waterwater entrance 45 and low pressure wastewater outlet
30 pedestal of valve seat passes to outside commutation valve seat 30;First waterwater entrance 44, the second waterwater entrance 45 respectively with low pressure wastewater outlet 46
Between be equipped with the first stopper section 42 and the second stopper section 43,43 self-commutation valve seat 30 of first stopper section 42 and the second stopper section
Pedestal is radially projecting into commutation chamber 41;The first drainage hole is equipped in the inside of the opposite commutation chamber 41 of low pressure wastewater outlet 43
47 and second drainage hole 48, first drainage hole 47 and the second drainage hole 48 are divided into both ends and the difference of commutation chamber 41
It commutates outside valve seat 30 in being conducted in the end self-commutation chamber 41;It is additionally provided with reversing piston in commutation chamber 41, reversing piston includes
There are the first commutation plug 51, second commutation plug 52 and commutation connecting rod 53, the first commutation plug 51 can be in the first stopper section 42 and the end
It is moved in commutation chamber 41 between portion, and the first waterwater entrance of closing can be blocked when the first commutation plug 51 is resisted against the end
44, open first drainage hole 47, the second commutation plug 52 can be in the commutation chamber 41 between the second stopper section 43 and the end
It is mobile, and the second waterwater entrance 45 of closing, open second drainage hole can be blocked when the second commutation plug 52 is resisted against the end
48, the first commutation plug 51 and the second commutation plug 52 are equipped with magnetic element 50 in the one side towards reversal valve end respectively;
First cylinder 10 is identical with the internal diameter of the second cylinder 20, and the first cylinder 10 and the second cylinder 20 be not with completely
Closed end respectively sealing shroud be connected to commutation valve seat 30 both ends;
Cartridge piston, the cartridge piston include first piston 61, second piston 62 and cylinder connecting rod 63;First piston 61
In the barrel chamber of the first cylinder 10, it can move between the first end cover 12 and commutation valve seat 30 by the first cylinder 10
Barrel chamber is divided into the first fresh seawater area 11 and the first high pressure waste water area 15, and 47 connection of the first drainage hole is useless to the first high pressure
Pool 15;Second piston 62 is set in the barrel chamber of the second cylinder 20, can be between the second end cover 22 and commutation valve seat 30
It is mobile that the barrel chamber of second cylinder 20 is divided into the second fresh seawater area 21 and the second high pressure waste water area 25, second drainage hole
48 connection to the second high pressure waste water area 25;Connection is distinguished to the first high pressure waste water area 15 and second in the both ends of the commutation chamber 41
High pressure waste water area 25;Cylinder connecting rod 63 is separately connected first piston 61 and second piston 62 through the axle center of commutation valve seat 30,
The one side of first piston 61 and second piston 62 towards commutation valve seat 30 is equipped with magnetic element 50, the magnetic element 50 and the first commutation
Magnetic element 50 on plug 51 and the second commutation plug 52 repels each other;
Four check-valves 70 are connected to the first water inlet 13, the first water outlet 14, the second water inlet 23 and second go out
On the mouth of a river 24;
Pressure pump 80, the water outlet of the pressure pump 80 are connected in parallel in the first water inlet 13 and the two of the second water inlet 23 stop
Return valve 70;
Filter core 90, the one end of the filter core are equipped with fresh seawater entrance 91, and the other end is equipped with pure water outlet 92 and high pressure
Wastewater outlet 93, the fresh seawater entrance 91 are connected in parallel in two check-valves 70 of the first water outlet 14 and the second water outlet 24,
High pressure waste water outlet 93 is connected in parallel on the first waterwater entrance 44 and the second waterwater entrance 45.
When first used, the second water inlet 23 can be closed by successively opening the check-valves 70 at the first water inlet 13
Check-valves 70 at the check-valves 70 at place, and the first water inlet 13 of closure, opens the check-valves 70 at the second water inlet 23, makes
It obtains pressure pump 80 and promotes seawater in the first cylinder 10 from the first water inlet 13, or seawater is promoted second from the second water inlet 23
In cylinder 20, the air in the first cylinder 10 and in the second cylinder 20 is emptied, then again from the first water outlet 14 or the second
Water outlet 24 pushes in filter core 90, and filter core 90 filters clean pure water after the completion of filtering, through the discharge of pure water outlet 92, leads to
Cross high pressure wastewater outlet 93 be discharged high pressure waste water, high pressure waste water pass through respectively the first waterwater entrance 44 or the second waterwater entrance 45 into
Enter intracavitary to commutating.
Assuming that first piston 61 is resisted against at the first end cover 12 of the first cylinder 10, the first commutation plug 51, which is resisted against, to be adjoined
41 end of commutation chamber in adjacent first high pressure waste water area 15, the first drainage hole 47 is open, and the second drainage hole 48, which is blocked, to be filled in, the
One waterwater entrance 44, which is blocked, to be filled in, and the second waterwater entrance 45 is open, and second piston 62 is resisted against commutation 30 end of valve seat, this
When, the high pressure waste water in the second high pressure waste water area 25 has passed through the discharge of low pressure wastewater outlet 46, and the high pressure that filter core 90 generates is useless
Water has been injected into the first high pressure waste water area 15 and due to the opening of the first drainage hole 47, in the first high pressure waste water area 15
Wastewater pressure reduces, and becomes low pressure waste water (as shown in Figure 8);At this point, since the first fresh seawater area 11 is in decompression state, the
One water inlet 13 is opened, and seawater is promoted the first fresh seawater area 11 of the first cylinder 10 by pressure pump 80 from the first water inlet 13
Interior, first piston 61 starts under the pressure of fresh seawater towards the movement of commutation 30 end of valve seat, will be in the first high pressure waste water area
Low pressure waste water is intracavitary to commutating through 47 force feed of the first drainage hole, is most discharged afterwards through low pressure wastewater outlet 46;At the same time, second
Piston 62 follows first piston 61 to link, and the fresh seawater pushed in the second fresh seawater area 21 is entered through the second water outlet 24
In filter core 90, filter core 90 filters clean pure water after the completion of filtering, through the discharge of pure water outlet 92, is exported by high pressure waste water
93 discharge high pressure waste waters, high pressure waste water is entered in commutation chamber 41 by the second open waterwater entrance 45, due to the chamber 41 that commutates
At this time with 25 connection of the second high pressure waste water area, high pressure waste water is injected into the second high pressure waste water area 25 by the chamber that commutates, and high pressure is useless
Water starts to be full of the second high pressure waste water area 25 and auxiliary pushing second piston 62, reinforces the promotion energy of second piston 62, reaches
Energy-efficient effect;As first piston 61 is close and is resisted against commutation 30 end of valve seat, in the effect of the magnetic element 50 to repel each other
Under, reversing piston is pushed under magneticaction, and the first commutation plug 51 is mobile towards 42 direction of the first stopper section in commutation chamber 41
And be resisted against in the first backstop 42, the second commutation plug 52 is resisted against 41 end of commutation chamber for adjoining the second high pressure waste water area 25,
At this point, the first waterwater entrance 44 is open, the second waterwater entrance, which is blocked, to be filled in, and the first drainage hole 47, which is blocked, to be filled in, the second draining
Through-hole 48 is open (as shown in Figure 7).
As the second drainage hole 48 is open, the wastewater pressure in the second high pressure waste water area 25 is reduced, and becomes low pressure waste water,
At this point, the second fresh seawater area 21 is in decompression state, the second water inlet 23 is opened, and pressure pump 80 is by seawater from the second water inlet
23 promote in the second fresh seawater area 21 of the second cylinder 20, and second piston 62 starts under the pressure of fresh seawater towards commutation
30 end of valve seat is mobile, by the low pressure waste water in the second high pressure waste water area 25 through 48 force feed of the second drainage hole to commutation chamber 41
It is interior, most it is discharged afterwards through low pressure wastewater outlet 46;At the same time, first piston 61 follows second piston 62 to link, and push first is new
Fresh seawater in fresh sea-water area 11 enters in filter core 90 through the first water outlet 14, and filter core 90 is after the completion of filtering, by pure
Clean pure water is filtered in the discharge of water out 92, and by 93 discharge high pressure waste water of high pressure waste water outlet, high pressure waste water passes through open
First waterwater entrance 44 enters in commutation chamber 41, and since commutation chamber 41 is at this time with 15 connection of the first high pressure waste water area, high pressure is useless
Water is injected into the first high pressure waste water area 15 by the chamber 41 that commutates, and high pressure waste water starts to be full of the first high pressure waste water area 15 and assist
First piston 61 is pushed, reinforces the promotion energy of first piston 61, reaches energy-efficient effect;As second piston 62 is close and supports
It is against commutation 30 end of valve seat, under the action of magnetic element 50 repelled each other, reversing piston is pushed under magneticaction, and second
Commutation plug 52 is mobile towards 43 direction of the second stopper section in commutation chamber 41 and is resisted against in the second backstop 43, the first commutation plug 51
It is resisted against 41 end of commutation chamber for adjoining the first high pressure waste water area 15, at this point, the second waterwater entrance 45 is open, the first waterwater entrance
44 are blocked plug, and the second drainage hole 48, which is blocked, to be filled in, and the first drainage hole 47 is open.
Seawater is pumped by the utility model respectively by successively switching open first water inlet 13 and the second water inlet 23
In first fresh seawater area 11 and the second fresh seawater area 21, and respectively will be extra large by the second water outlet 24 and the first water outlet 14
Water pushes in filter core 90, and the high pressure waste water that filter core 90 generates after filtering enters in commutation chamber 41, due to the first commutation plug 51/
Second commutation plug 52 repels each other with 61/ second piston of first piston, 62 magnetic force, in the mobile process of 61/ second piston 62 of first piston
In, push 51/ second commutation plug 52 of the first commutation plug to realize commutation, the high pressure waste water in chamber 41 that commutates is got enter into first high
It presses in 15/ second high pressure waste water area 25 of waste water district, 61/ second piston 62 of auxiliary pushing first piston, by the first fresh seawater area
11 and the second fresh seawater in fresh seawater area 21 push to filter core 90, to reduce the energy consumption of pressure pump 80, the utility model
In the first cylinder 10, the second cylinder 20 and the seperated connection of commutation valve seat 30, simple structure, technical difficulty is low, can effectively reduce into
Originally and it is not easy failure, 95%~98% energy conversion efficiency can be recycled, energy conversion efficiency is high;In addition, the utility model mentions
A kind of water process energy recycle device supplied is greatly reduced without using booster pump without using solenoid valve to commutate
The failure of part, greatly reduces the cost and maintenance cost of product.
In embodiment two as shown in Figure 9, the reversal valve includes multiple, and circle distribution is in commutation valve seat 30
Interior, multiple reversal valves can cooperate with the first cylinder 10, the second cylinder 20, cartridge piston work simultaneously, can further increase energy and turn
Change efficiency, increases waste water displacement.
Although the utility model is described in detail referring to above example, by the disclosure for those skilled in the art
Member is not it is readily apparent that and the case where departing from the principles of the present invention and scope that the claim limits
Under, the utility model can be made a variety of changes or be modified.Therefore, the detailed description of the embodiment of the present disclosure is only used to explain, and
It is not intended to limit the utility model, but is defined by the subject-matter of the claims the range of protection.
Claims (5)
1. a kind of water process energy recycle device, which is characterized in that including
First cylinder, includes barrel chamber in first cylinder, and the first cylinder is equipped in axial one end for sealing the end
The first end cover, the other end do not close completely, and the first end cover has axially penetrated through the first water inlet and first and gone out
The mouth of a river;
Second cylinder, includes barrel chamber in second cylinder, and the axial one end of the second cylinder is equipped with for sealing the end
The second end cover, the other end do not close completely, and the second end cover has axially penetrated through the second water inlet and second and gone out
The mouth of a river;
Commutate valve seat, which is cyclic structure;It is described in commutation valve seat inner shaft to being provided at least one reversal valve
Reversal valve includes commutation chamber, and the commutation chamber is equipped with low pressure by middle part outward axially through commutation valve seat, in commutation chamber
Wastewater outlet is equipped with the first waterwater entrance and the second waterwater entrance, first waterwater entrance, the second waste water in commutation chamber two sides
Entrance and the intracavitary commutation valve seat pedestal that extends radially through of low pressure wastewater outlet self-commutation pass to outside commutation valve seat;First waterwater entrance,
Second waterwater entrance respectively between low pressure wastewater outlet be equipped with the first stopper section and the second stopper section, first stopper section and
Second stopper section self-commutation valve seat pedestal is intracavitary radially projecting to commutating;It is set on the inside of the opposite commutation chamber of low pressure wastewater outlet
There are the first drainage hole and the second drainage hole, first drainage hole and the second drainage hole are divided into the both ends of commutation chamber simultaneously
It commutates outside valve seat respectively at intracavitary be conducted to of the end self-commutation;Commutate it is intracavitary be additionally provided with reversing piston, reversing piston includes
First commutation plug, the second commutation plug and commutation connecting rod, the first commutation plug can be in the commutation between the first stopper section and the end
Intracavitary movement, and the first waterwater entrance of closing can be blocked when the first commutation plug is resisted against the end, open first drainage hole,
Second commutation plug can be resisted against the end in the intracavitary movement of commutation between the second stopper section and the end, and in the second commutation plug
The second waterwater entrance of closing, open second drainage hole can be blocked when portion, the first commutation plug and the second commutation plug exist respectively
One side towards reversal valve end is equipped with magnetic element;
The internal diameter of first cylinder and the second cylinder is identical, and the first cylinder and the second cylinder are with completely not closed end part
The both ends of reversal valve seat Mi Feng be socketed on;
Cartridge piston, the cartridge piston include first piston, second piston and cylinder connecting rod;First piston is set to the first cylinder
Barrel chamber in, can be moved between the first end cover and commutation valve seat and the barrel chamber of the first cylinder is divided into the first fresh seawater
Area and the first high pressure waste water area, the first drainage hole connection to the first high pressure waste water area;Second piston is set to the second cylinder
Barrel chamber in, can be moved between the second end cover and commutation valve seat and the barrel chamber of the second cylinder is divided into the second fresh seawater
Area and the second high pressure waste water area, the second drainage hole connection to the second high pressure waste water area;The both ends part of the commutation chamber
Other connection is to the first high pressure waste water area and the second high pressure waste water area;Cylinder connecting rod is separately connected first through the axle center of commutation valve seat
Piston and second piston are equipped with magnetic element in the one side of first piston and second piston towards commutation valve seat, the magnetic element with
First commutation plug and the magnetic element of the second commutation beyond the Great Wall repel each other;
Four check-valves are connected on the first water inlet, the first water outlet, the second water inlet and the second water outlet;
Pressure pump, the water outlet of the pressure pump are connected in parallel in two check-valves of the first water inlet and the second water inlet;
Filter core, the one end of the filter core are equipped with fresh seawater entrance, and the other end is equipped with pure water outlet and high pressure waste water exports, should
Fresh seawater entrance is connected in parallel in two check-valves of the first water outlet and the second water outlet, and high pressure waste water outlet is connected in parallel
In on the first waterwater entrance and the second waterwater entrance.
2. a kind of water process energy recycle device according to claim 1, which is characterized in that the reversal valve includes more
It is a, and circle distribution is in commutation valve seat.
3. a kind of water process energy recycle device according to claim 1, which is characterized in that first cylinder, second
Cylinder is identical with the commutation outer diameter of valve seat.
4. a kind of water process energy recycle device according to claim 1, which is characterized in that commutation chamber outwardly interior
The inner wall of wall and the first cylinder, the second cylinder maintains an equal level.
5. a kind of water process energy recycle device according to claim 1, which is characterized in that the filter core is reverse osmosis diafiltration
Core.
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CN201821263713.7U CN208791255U (en) | 2018-08-07 | 2018-08-07 | A kind of water process energy recycle device |
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CN201821263713.7U CN208791255U (en) | 2018-08-07 | 2018-08-07 | A kind of water process energy recycle device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108840401A (en) * | 2018-08-07 | 2018-11-20 | 珠海市荣成科技有限公司 | A kind of water process energy recycle device |
-
2018
- 2018-08-07 CN CN201821263713.7U patent/CN208791255U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108840401A (en) * | 2018-08-07 | 2018-11-20 | 珠海市荣成科技有限公司 | A kind of water process energy recycle device |
CN108840401B (en) * | 2018-08-07 | 2024-05-03 | 珠海市荣成科技有限公司 | Water treatment energy recovery device |
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