CN107176650A - A kind of pouring-in slow method of reproduction water softening device - Google Patents
A kind of pouring-in slow method of reproduction water softening device Download PDFInfo
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- CN107176650A CN107176650A CN201710625360.4A CN201710625360A CN107176650A CN 107176650 A CN107176650 A CN 107176650A CN 201710625360 A CN201710625360 A CN 201710625360A CN 107176650 A CN107176650 A CN 107176650A
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- water
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- moving plate
- ring catch
- valve
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/42—Treatment of water, waste water, or sewage by ion-exchange
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01J—CHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
- B01J49/00—Regeneration or reactivation of ion-exchangers; Apparatus therefor
- B01J49/50—Regeneration or reactivation of ion-exchangers; Apparatus therefor characterised by the regeneration reagents
- B01J49/53—Regeneration or reactivation of ion-exchangers; Apparatus therefor characterised by the regeneration reagents for cationic exchangers
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01J—CHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
- B01J49/00—Regeneration or reactivation of ion-exchangers; Apparatus therefor
- B01J49/75—Regeneration or reactivation of ion-exchangers; Apparatus therefor of water softeners
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2303/00—Specific treatment goals
- C02F2303/16—Regeneration of sorbents, filters
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2303/00—Specific treatment goals
- C02F2303/22—Eliminating or preventing deposits, scale removal, scale prevention
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- Chemical & Material Sciences (AREA)
- Organic Chemistry (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Life Sciences & Earth Sciences (AREA)
- Hydrology & Water Resources (AREA)
- Engineering & Computer Science (AREA)
- Environmental & Geological Engineering (AREA)
- Water Supply & Treatment (AREA)
- Multiple-Way Valves (AREA)
Abstract
A kind of pouring-in slow method of reproduction water softening device, it is related to drinking water technical field.The present invention is too short with resin contact time to solve existing water softening device salt solution, and regeneration effect is poor, it is impossible to the problem of ensureing thorough to resin regeneration.The present invention includes multi-channel control valve body, water inlet pipe, outlet pipe, blowdown flush pipe, upper water collector, lower water collector, center collector pipe, water filling aqueduct, salt solution aqueduct, salt well, salt box and soft water box body, multi-channel control valve body is arranged on the upper end of soft water box body, water inlet pipe, one end of outlet pipe and blowdown flush pipe is connected with multi-channel control valve body respectively, the upper end of center collector pipe is connected with multi-channel control valve body, the top of center collector pipe is provided with upper water collector, the upper end of upper water collector is connected with multi-channel control valve body, the lower end of center collector pipe is provided with lower water collector, one end of water filling aqueduct and salt solution aqueduct is connected with multi-channel control valve body respectively.The present invention is used for water filtration.
Description
Technical field
The present invention relates to drinking water technical field, and in particular to a kind of pouring-in slow method of reproduction water softening device.
Background technology
With the raising of quality of the life, requirement of the people to water is also increasingly stricter, and the demand to soft water is also more and more.
Soft water is free from or containing less solubility calcium, the water of magnesium compound, using soft water can effective delay skin aging, prevent after heating
Water fouling, extension paddles the service life of household electrical appliances.To the profit of life hundred, none does harm to.Water softening device is to apply ion exchange technique,
By the calcium in the sodium ion and water on resin, magnesium is swapped, so as to adsorb calcium unnecessary in water, magnesium ion reaches removal
The purpose of incrustation scale.But water softening device was used after a period of time, and the calcium of resin surface, magnesium ion will progressively reach saturation.At this moment must
With salt solution come reducing/regenerating resin must be made to come back to the state with exchange capacity of absorption.But the water softening device of existing market is equal
Using the method for siphon come to resin regeneration.High energy consumption, volume is excessive, and the height of hydraulic pressure directly affects the recovery of resin during regeneration
Ability.Also, the method flow velocity is too fast, and salt solution is too short with resin contact time, its regeneration effect reduction, it is impossible to ensure to resin
Regeneration is thorough.The salt solution not made full use of is drained off, and consumes substantial amounts of salt and water.
The content of the invention
The present invention is too short with resin contact time in order to solve existing water softening device salt solution, and regeneration effect is poor, it is impossible to guarantee pair
The problem of resin regeneration is thorough, and then propose a kind of pouring-in slow method of reproduction water softening device.
The present invention adopts the technical scheme that to solve above-mentioned technical problem:
A kind of pouring-in slow method of reproduction water softening device include multi-channel control valve body, water inlet pipe, outlet pipe, blowdown flush pipe,
Upper water collector, lower water collector, center collector pipe, water filling aqueduct, salt solution aqueduct, salt well, salt box and soft water box body, salt box
The side of soft water box body is arranged on, multi-channel control valve body is arranged on the upper end of soft water box body, water inlet pipe, outlet pipe and blowdown
One end of flush pipe is connected with multi-channel control valve body respectively, and center collector pipe is vertically arranged in the inside of soft water box body, center
The upper end of collector pipe is connected with multi-channel control valve body, and the top of center collector pipe is provided with upper water collector, the upper end of upper water collector with
Multi-channel control valve body is connected, and the lower end of center collector pipe is provided with lower water collector, and salt well is horizontally set on the bottom of salt box, and water filling is led
One end of water pipe and salt solution aqueduct is connected with multi-channel control valve body respectively, the other end of water filling aqueduct sequentially pass through salt box and
Salt well and the side for being arranged on salt lower box part, the other end of salt solution aqueduct sequentially pass through salt box and salt well and are arranged under salt box
The opposite side in portion.
The beneficial effect that includes compared with prior art of the present invention is:
The present invention is slowly regenerated to resin, not limited by hydraulic pressure using mode is slowly injected into.Pass through turning for banked direction control valves
Change commanders regeneration salt solution be slowly injected into water softening device filter material chamber body from the bottom to top to resin carry out cyclic regeneration, make resin for a long time with
Regeneration salt solution, which is fully contacted, does not stay dead angle, and regeneration is abundant, favorable regeneration effect, after it regenerates every time compared with existing water softening device
Service life can extend more than 60%.The calcium after regeneration is exchanged, magnesium concentrated water is drained by rinse mouth.Therefore be very beneficial to balance to
Direction of regeneration movement is whole.Regenerative process is simple and practical, and effluent quality is good, and salt amount, water content consumption are low.This water softening device passes through multichannel
Valve can realize 4 functions, operation, regeneration, rinse, it is straight-through, user is not once need soft water directly to turn by banked direction control valves
Feed-through locations are changed to, allow water not by the direct water outlet of water softening device, soft water hard water can arbitrarily be changed according to use demand.
Brief description of the drawings
Fig. 1 is the overall structure diagram of the present invention;
Fig. 2 is the front view of multi-channel control valve body 1 in the present invention;
Fig. 3 is the top view of valve inner housing 25 in the present invention;
Fig. 4 is the top view of stator 36 in the present invention;
Fig. 5 is the top view of moving plate 37 in the present invention;
Fig. 6 is the overall structure diagram in running of the present invention, and the wherein direction of arrow represents the direction of current;
Fig. 7 is the overall structure diagram in regenerative process of the present invention, and the wherein direction of arrow represents the direction of current;
Fig. 8 is the overall structure diagram in flushing process of the present invention, and the wherein direction of arrow represents the direction of current;
Fig. 9 is the overall structure diagram in straight-through process of the present invention, and the wherein direction of arrow represents the direction of current.
Embodiment
Embodiment one:Illustrate present embodiment with reference to Fig. 1 and Fig. 9, one kind described in present embodiment is pouring-in slow
Slow method of reproduction water softening device include multi-channel control valve body 1, water inlet pipe 2, outlet pipe 3, blowdown flush pipe 4, upper water collector 5, under catchment
Device 6, center collector pipe 7, water filling aqueduct 11, salt solution aqueduct 13, salt well 17, salt box 19 and soft water box body 23, salt box 19
The side of soft water box body 23 is arranged on, multi-channel control valve body 1 is arranged on the upper end of soft water box body 23, water inlet pipe 2, outlet pipe
3 and one end of blowdown flush pipe 4 connected respectively with multi-channel control valve body 1, center collector pipe 7 is vertically arranged in soft water box body 23
Inside, the upper end of center collector pipe 7 connects with multi-channel control valve body 1, and the top of center collector pipe 7 is provided with upper water collector 5, on
The upper end of water collector 5 is connected with multi-channel control valve body 1, and the lower end of center collector pipe 7 is provided with lower water collector 6, and the level of salt well 17 is set
Put in the bottom of salt box 19, one end of water filling aqueduct 11 and salt solution aqueduct 13 is connected with multi-channel control valve body 1 respectively, water filling
The other end of aqueduct 11 sequentially passes through salt box 19 and salt well 17 and the side for being arranged on the bottom of salt box 19, salt solution aqueduct 13
The other end sequentially passes through salt box 19 and salt well 17 and the opposite side for being arranged on the bottom of salt box 19.
It is so designed that to set in the resin filter material chamber 18 of resin filter material chamber 18 in the bottom of soft water box body 23 and fills resin, next part
Hydrophone 6 is arranged in resin filter material chamber 18, and salt box 19 is divided into superposed salt chamber 20 and the salt solution positioned at bottom by salt well 17
The other end of chamber 12, water filling aqueduct 11 and salt solution aqueduct 13 is arranged in salt water cavity 12, salt solution aqueduct 13 it is another
End is arranged on the bottom of salt water cavity 12.
Running reclaimed water is entered in multi-channel control valve body 1 through water inlet pipe 2, and resin is exited into by upper water collector 5
Filter material chamber 18, water carries out ion exchange with resin, and by the calcium in the sodium ion and water on resin, magnesium is swapped, so as to inhale
Unnecessary calcium, magnesium ion in attached water, reach the purpose of scale removal, and water after treatment enters center by lower water collector 6
In collector pipe 7, then process multi-channel control valve body 1 is flowed out by outlet pipe 3;
Regenerative process reclaimed water is entered in multi-channel control valve body 1 through water inlet pipe 2, and salt solution is entered via water filling aqueduct 11
In chamber 12, because the density of salt solution is big, the bottom of salt water cavity 12 is sunk to, so as to salt solution is pressed into salt solution aqueduct 13, salt
Water is entered in center collector pipe 7 by multi-channel control valve body 1, is entered through lower water collector 6 in resin filter material chamber 18, to resin
Reducing/regenerating is carried out, the water after regeneration enters upper water collector 5, is discharged by multi-channel control valve body 1 via blowdown flush pipe 4;
Flushing process reclaimed water is entered in multi-channel control valve body 1 through water inlet pipe 2, by center collector pipe 7 and lower water collector 6
Enter in resin filter material chamber 18, resin is rinsed, the water after flushing enters upper water collector 5, by multi-channel control valve body 1
Discharged via blowdown flush pipe 4;
Straight-through process reclaimed water is entered in multi-channel control valve body 1 through water inlet pipe 2, is flowed out by outlet pipe 3.
Embodiment two:Illustrate present embodiment with reference to Fig. 1, the upper end of salt box 19 described in present embodiment, which is provided with, to be added
Salt mouthful 21, plus the outside of salt mouthful 21 are provided with salt case lid 22.Other compositions and connected mode are identical with embodiment one.
It is so designed that when the salt in salt chamber 20 is not enough, salt case lid 22 can be opened, carried out from Jia Yankou 21 plus salt, then
It is further continued for using.
Embodiment three:Illustrate present embodiment with reference to Fig. 1, stating the spinning of salt case lid 22 described in present embodiment is adding
The outside of salt mouthful 21.Other compositions and connected mode are identical with embodiment two.
It is so designed that the opening and closing for being easy to salt case lid 22.
Embodiment four:Illustrate present embodiment with reference to Fig. 1, water filling aqueduct 11 is provided with described in present embodiment
Current limiter 9, current limiter 9 is arranged on the outside of multi-channel control valve body 1 and salt box 19.Other compositions and connected mode and specific implementation
Mode one, two or three are identical.
It is designed so as to be controlled the flow rate of water in water filling aqueduct 11, to ensure salt solution in regenerative process
Fully contacted with resin.By current limiter 9 with 600 milliliters per minute of flow velocity, resin is slowly regenerated, not limited by hydraulic pressure
System.
Embodiment five:Illustrate present embodiment with reference to Fig. 1 to Fig. 5, multi-channel control valve body 1 described in present embodiment
Including valve shell body 15, stator 36, moving plate 37 and rotation handle 8, the middle part of the interior lower end of valve shell body 15 is provided with valve inner housing
25, stator 36 and moving plate 37 are successively set on the upper end of valve inner housing 25 from the bottom to top, and stator 36 and moving plate 37 constitute an appearance
The cross section of chamber, stator 36 and moving plate 37 is circle, rotates the middle part that handle 8 is inserted into the upper end of valve shell body 15, rotates hand
The end of handle 8 and the upper end of moving plate 37 are affixed.Other compositions and connected mode are identical with embodiment four.
Be designed so as in by rotary motion handle 8 so as to realizing to multi-channel control valve body 1 each different path
Control.
Embodiment six:Illustrate present embodiment with reference to Fig. 1 to Fig. 9, valve inner housing 25 is wrapped described in present embodiment
Include valve outer ring catch 25-1, valve inner ring catch 25-2 and six valve separation retaining sheet 25-3, valve outer ring catch 25-1 and valve inner ring gear
Piece 25-2 is fixed in the middle part of the interior lower end of valve shell body 15 successively from outside to inside, and six valve separation retaining sheet 25-3 are along the circumferential direction
It is uniformly arranged between valve outer ring catch 25-1 and valve inner ring catch 25-2, each valve separation retaining sheet 25-3 is radially set
Put, valve inner ring catch 25-2 inner side is connected provided with surge tank 24, one end of blowdown flush pipe 4 is rinsed with rinsing surge tank 24,
Delivery port groove 38, regeneration are constituted between valve outer ring catch 25-1, valve inner ring catch 25-2 and two neighboring valve separation retaining sheet 25-3
Water filling port groove 39, flushing delivery port groove 42, salt solution water sink 43, operation intake chamber 41 and flushing water filling port groove 40, water filling water guide
One end of pipe 11 is connected with regeneration water filling port groove 39, rinses the upper end of delivery port groove 42 and operation intake chamber 41 and upper water collector 5
The circular arc dividing plate 25-4 of valve 1/6th, the circular arc dividing plate 25-4 of valve 1/6th two ends point are provided with connection, salt solution injection groove 43
Not affixed with valve separation retaining sheet 25-3, the circular arc dividing plate 25-4 of valve 1/6th inner side is provided with brine regeneration mouthful 10, brine regeneration
Mouth 10 is connected with the upper end for rinsing water filling port Cao40Yu centers collector pipe 7, and delivery port groove 38 is connected with one end of outlet pipe 3, salt
One end of water aqueduct 13 is connected with salt solution water sink 43, and valve shell body 15 is connected with one end of water inlet pipe 2,
Stator (36) includes lower baffle plate (36-1), stator outer ring catch (36-2), stator inner ring catch (36-3) and six
Stator separation retaining sheet (36-4), lower baffle plate (36-1) is fixed in the upper surface of valve inner housing (25), stator outer ring catch (36-2)
It is respectively and fixedly connected to stator inner ring catch (36-3) on lower baffle plate (36-1) upper surface, outside stator outer ring catch (36-2) and valve
Circle catch (25-1) be correspondingly arranged, stator inner ring catch (36-3) is correspondingly arranged with valve inner ring catch (25-2), six stators every
Along the circumferential direction it is uniformly arranged between stator outer ring catch (36-2) and stator inner ring catch (36-3) from catch (36-4), often
Individual stator separation retaining sheet (36-4) is radially set, and each stator separation retaining sheet (36-4) isolates gear with a valve respectively
Piece (25-3) is correspondingly arranged, the inner side of stator inner ring catch (36-3) provided with pouring mouthful (32) is rinsed, rinse pouring mouthful (32) with
Surge tank (24) connection is rinsed, the outside of stator inner ring catch (36-3) is provided with the circular arc dividing plate (36-5) of stator 5/6ths, fixed
The circular arc dividing plate (36-5) of piece 5/6ths is arranged between stator outer ring catch (36-2) and stator inner ring catch (36-3), stator
It is interior between 5/6ths circular arc dividing plates (36-5), stator outer ring catch (36-2) and two neighboring stator separation retaining sheet (36-4)
Side is respectively equipped with operation delivery port (16), operation water inlet (28) and salt solution water inlet (14), and operation delivery port (16) is arranged on
The upper end of delivery port groove (38) and connected with delivery port groove (38), operation water inlet (28) is arranged on the upper of operation intake chamber (41)
End and with operation intake chamber (41) connect, salt solution water inlet (14) be arranged on the upper end of salt solution water sink (43) and with salt solution water filling
Groove (43) is connected, stator inner ring catch (36-3), stator outer ring catch (36-2) and two neighboring stator separation retaining sheet (36-4)
Between inner side provided with rinse water inlet (27), rinse water inlet (27) be arranged on rinse water filling port groove (40) upper end and with punching
Wash water filling port groove (40) connection, stator inner ring catch (36-3), the circular arc dividing plate (36-5) of stator 5/6ths and two neighboring fixed
Inner side between piece separation retaining sheet (36-4) is respectively equipped with salt solution water filling port (29), rinses delivery port (30) and regeneration water filling port
(31), salt solution water filling port (29) is arranged on the upper end of brine regeneration mouthful (10) and connected with brine regeneration mouthful (10), rinses water outlet
Mouth (30) is arranged on the upper end for rinsing delivery port groove (42) and connected with rinsing delivery port groove (42), and regeneration water filling port (31) is set
Connected in the upper end of regeneration water filling port groove (39) and with regeneration water filling port groove (39),
Moving plate 37 includes overhead gage 37-1, moving plate outer ring catch 37-2, moving plate inner ring catch 37-3 and six moving plate isolation
Catch 37-4, moving plate outer ring catch 37-2, moving plate inner ring catch 37-3 and six moving plate separation retaining sheet 37-4 are fixed in gear
On plate 37-1 lower surface, moving plate outer ring catch 37-2 is correspondingly arranged with stator outer ring catch 36-2, moving plate inner ring catch 37-3
It is correspondingly arranged with stator inner ring catch 36-3, six moving plate separation retaining sheet 37-4 are along the circumferential direction uniformly arranged in moving plate outer ring gear
Between piece 37-2 and moving plate inner ring catch 37-3, each moving plate separation retaining sheet 37-4 is radially set, each moving plate every
It is correspondingly arranged respectively with a stator separation retaining sheet 36-4 from catch 37-4, moving plate inner ring catch 37-3 inner side is provided with groove
44, overhead gage 37-1 are arranged on moving plate inner ring catch 37-3 and two neighboring moving plate provided with water inlet gap 33, water inlet gap 33
Inner side between separation retaining sheet 37-4, the side of water inlet gap 33 is provided with the circular arc dividing plate 37-5 of moving plate 2/6ths, six points of moving plate
Two circular arc dividing plate 37-5 two ends it is affixed with moving plate separation retaining sheet 37-4 respectively, the one of the circular arc dividing plate 37-5 of moving plate 2/6ths
Side provided with hollow guiding gutter 34 is rinsed, rinse hollow guiding gutter 34 be arranged on moving plate outer ring catch 37-2 and two neighboring moving plate every
From the inner side between catch 37-4, rinse hollow guiding gutter 34 and connected with groove 44, the opposite side of water inlet gap 33 is provided with
The circular arc dividing plate 37-6 of moving plate 1/6th, the hollow guiding gutter of water outlet is provided between water inlet gap 33 and the hollow guiding gutter 34 of flushing
35, the hollow guiding gutter 35 of water outlet is arranged on the circular arc dividing plate 37-6 of moving plate 1/6th, moving plate outer ring catch 37-2, slitted close to water inlet
Between the moving plate separation retaining sheet 37-4 of 33 sides of mouth and the moving plate separation retaining sheet 37-4 of the close hollow side of guiding gutter 34 of flushing
Inner side.Other compositions and connected mode are identical with embodiment five.
In present embodiment in the top view of the top view of Fig. 4 stators 36 and Fig. 5 moving plates 37, dash area represents the region
It is interior to be filled with core body, i.e., it is solid construction by dash area.It is designed so as in enhancing sealing.
Bottom land where salt solution water sink 43, regeneration water filling port groove 39 and delivery port groove 38 is equipped with bottom plate, i.e. salt solution and noted
Tank 43 is only communicated with salt solution aqueduct 13, is not connected with other components, regeneration water filling port groove 39 only with water filling aqueduct 11
Communicate, do not connected with other components, delivery port groove 38 is only communicated with outlet pipe 3, do not connected with other components.
During operation, rotary motion handle 8, make into water gap 33 with run water inlet 28 position it is corresponding, water outlet is hollow to be led
Tank 35 will rinse water inlet 27 and be connected with operation delivery port 16.Running reclaimed water enters multi-way control valve through water inlet pipe 2
In body 1, water is first into valve shell body 15, then operation water inlet 28 is entered by water inlet gap 33, then by fortune
Traveling tank 41, is entered in water collector 5, then exits into resin filter material chamber 18 by upper water collector 5, and water is carried out with resin
Ion exchange, by the calcium in the sodium ion and water on resin, magnesium is swapped, so that calcium unnecessary in water is adsorbed, magnesium ion,
The purpose of scale removal is reached, water after treatment is entered in center collector pipe 7 by lower water collector 6, enters back into multichannel
In application valve body 1, enter in flushing water inlet 27, then enter via the hollow guiding gutter 35 of water outlet by rinsing water filling port groove 40
Enter to run in delivery port 16, subsequently into delivery port groove 38, flowed out by outlet pipe 3;
During regeneration, rotary motion handle 8, make into water gap 33 with regenerate water filling port 31 position it is corresponding, water outlet is hollow to be led
Tank 35 connects salt solution water inlet 14 with salt solution water filling port 29, and water inlet will be run by rinsing hollow guiding gutter 34 and groove 44
28 connect with pouring mouthful 32 is rinsed.Regenerative process reclaimed water is entered in multi-channel control valve body 1 through water inlet pipe 2, and water is first into
In valve shell body 15, then entered in regeneration water filling port 31, then entered via regeneration water filling port groove 39 by water inlet gap 33
Into water filling aqueduct 11, the water adjusted by current limiter 9 after control is entered in salt water cavity 12 via water filling aqueduct 11, by
It is big in the density of salt solution, the bottom of salt water cavity 12 is sunk to, so that salt solution is pressed into salt solution aqueduct 13, salt solution enters multichannel
In application valve body 1, first pass around in salt solution water sink 43, then enter the hollow guiding gutter 35 of water outlet by salt solution water inlet 14
In, subsequently into salt solution water filling port 29, enter in center collector pipe 7, enter through lower water collector 6 by brine regeneration mouthful 10
Into resin filter material chamber 18, reducing/regenerating is carried out to resin, the water after regeneration enters upper water collector 5, into multi-channel control valve body 1
In, entered by running intake chamber 41 in operation water inlet 28, subsequently into rinsing in hollow guiding gutter 34 and groove 44,
Enter in flushing surge tank 24, then discharged via blowdown flush pipe 4 by rinsing pouring mouthful 32;
During flushing, rotary motion handle 8 makes corresponding into water gap 33 and the position for rinsing water inlet 27, and flushing hollow is led
Tank 34 will rinse delivery port 30 with groove 44 and be connected with pouring mouthful 32 is rinsed.Flushing process reclaimed water is entered through water inlet pipe 2
In multi-channel control valve body 1, water is first into valve shell body 15, then enters flushing water inlet 27 by water inlet gap 33
In, then entered via flushing water filling port groove 40 in center collector pipe 7, resin filter material chamber 18 is entered by lower water collector 6
In, resin is rinsed, the water after flushing enters upper water collector 5, enters in multi-channel control valve body 1, by rinsing water outlet
Mouth groove 42 enters flushing delivery port 30, subsequently into rinsing in hollow guiding gutter 34 and groove 44, by rinsing pouring mouthful
32 enter in flushing surge tank 24, are then discharged via blowdown flush pipe 4;
When straight-through, rotary motion handle 8 makes corresponding with the position for running delivery port 16 into water gap 33.In straight-through process
Water is entered in multi-channel control valve body 1 through water inlet pipe 2, and water is first into valve shell body 15, is then entered by water inlet gap 33
Enter into operation delivery port 16, then into delivery port groove 38, be directly over outlet pipe 3 and flow out.
Embodiment seven:Illustrate present embodiment with reference to Fig. 3 to Fig. 5, valve 1/6th described in present embodiment is justified
Arc dividing plate 25-4, the circular arc dividing plate 36-5 of stator 5/6ths, the circular arc dividing plate 37-5 of moving plate 2/6ths and moving plate 1/6th are justified
Arc dividing plate 37-6 arc radius all same.Other compositions and connected mode are identical with embodiment six.
It is designed so as to the sealing against each other in each cavity volume between guarantee valve inner housing 25, stator 36 and moving plate 37.
Embodiment eight:Illustrate present embodiment, rotation handle 8 and valve described in present embodiment with reference to Fig. 1 and Fig. 2
Sealing ring is provided between shell body 15.Other compositions and connected mode are identical with embodiment five, six or seven.
The sealing for ensureing multi-channel control valve body 1 is so designed that, prevents from leaking during rotary motion handle 8.
Embodiment nine:Illustrate present embodiment with reference to Fig. 1 and Fig. 2, valve shell body 15 described in present embodiment with
Gap is provided between stator 36 and moving plate 37.Other compositions and connected mode are identical with embodiment eight.
It is designed so as in water after entering in valve shell body 15, can quickly enters in water inlet gap 33.
Embodiment ten:Illustrate present embodiment with reference to Fig. 1 to Fig. 9, water inlet pipe 2, water outlet described in present embodiment
Control valve is equipped with pipe 3 and blowdown flush pipe 4.Other compositions and connected mode are identical with embodiment nine.
It is designed so as to the independent control to water inlet pipe 2, outlet pipe 3 and blowdown flush pipe 4 in realization.
Operation principle
During operation, rotary motion handle 8, make into water gap 33 with run water inlet 28 position it is corresponding, water outlet is hollow to be led
Tank 35 will rinse water inlet 27 and be connected with operation delivery port 46.Running reclaimed water enters multi-way control valve through water inlet pipe 2
In body 1, water is first into valve shell body 15, then operation water inlet 28 is entered by water inlet gap 33, then by fortune
Traveling tank 41, is entered in water collector 5, then exits into resin filter material chamber 18 by upper water collector 5, and water is carried out with resin
Ion exchange, by the calcium in the sodium ion and water on resin, magnesium is swapped, so that calcium unnecessary in water is adsorbed, magnesium ion,
The purpose of scale removal is reached, water after treatment is entered in center collector pipe 7 by lower water collector 6, enters back into multichannel
In application valve body 1, enter in flushing water inlet 27, then enter via the hollow guiding gutter 35 of water outlet by rinsing water filling port groove 40
Enter to run in delivery port 16, subsequently into delivery port groove 38, flowed out by outlet pipe 3;
During regeneration, rotary motion handle 8, make into water gap 33 with regenerate water filling port 31 position it is corresponding, water outlet is hollow to be led
Tank 35 connects salt solution water inlet 14 with salt solution water filling port 29, and water inlet will be run by rinsing hollow guiding gutter 34 and groove 44
28 connect with pouring mouthful 32 is rinsed.Regenerative process reclaimed water is entered in multi-channel control valve body 1 through water inlet pipe 2, and water is first into
In valve shell body 15, then entered in regeneration water filling port 31, then entered via regeneration water filling port groove 39 by water inlet gap 33
Into water filling aqueduct 11, the water adjusted by current limiter 9 after control is entered in salt water cavity 12 via water filling aqueduct 11, by
It is big in the density of salt solution, the bottom of salt water cavity 12 is sunk to, so that salt solution is pressed into salt solution aqueduct 13, salt solution enters multichannel
In application valve body 1, first pass around in salt solution water sink 43, then enter the hollow guiding gutter 35 of water outlet by salt solution water inlet 14
In, subsequently into salt solution water filling port 29, enter in center collector pipe 7, enter through lower water collector 6 by brine regeneration mouthful 10
Into resin filter material chamber 18, reducing/regenerating is carried out to resin, the water after regeneration enters upper water collector 5, into multi-channel control valve body 1
In, entered by running intake chamber 41 in operation water inlet 28, subsequently into rinsing in hollow guiding gutter 34 and groove 44,
Enter in flushing surge tank 24, then discharged via blowdown flush pipe 4 by rinsing pouring mouthful 32;
During flushing, rotary motion handle 8 makes corresponding into water gap 33 and the position for rinsing water inlet 27, and flushing hollow is led
Tank 34 will rinse delivery port 30 with groove 44 and be connected with pouring mouthful 32 is rinsed.Flushing process reclaimed water is entered through water inlet pipe 2
In multi-channel control valve body 1, water is first into valve shell body 15, then enters flushing water inlet 27 by water inlet gap 33
In, then entered via flushing water filling port groove 40 in center collector pipe 7, resin filter material chamber 18 is entered by lower water collector 6
In, resin is rinsed, the water after flushing enters upper water collector 5, enters in multi-channel control valve body 1, by rinsing water outlet
Mouth groove 42 enters flushing delivery port 30, subsequently into rinsing in hollow guiding gutter 34 and groove 44, by rinsing pouring mouthful
32 enter in flushing surge tank 24, are then discharged via blowdown flush pipe 4;
When straight-through, rotary motion handle 8 makes corresponding with the position for running delivery port 16 into water gap 33.In straight-through process
Water is entered in multi-channel control valve body 1 through water inlet pipe 2, and water is first into valve shell body 15, is then entered by water inlet gap 33
Enter into operation delivery port 16, then into delivery port groove 38, be directly over outlet pipe 3 and flow out.
Claims (10)
1. a kind of pouring-in slow method of reproduction water softening device, it is characterised in that:The pouring-in slow method of reproduction water softening device bag of one kind
Include multi-channel control valve body (1), water inlet pipe (2), outlet pipe (3), blowdown flush pipe (4), upper water collector (5), lower water collector (6),
Center collector pipe (7), water filling aqueduct (11), salt solution aqueduct (13), salt well (17), salt box (19) and soft water box body
(23), salt box (19) is arranged on the side of soft water box body (23), and multi-channel control valve body (1) is arranged on soft water box body (23)
Upper end, one end of water inlet pipe (2), outlet pipe (3) and blowdown flush pipe (4) is connected with multi-channel control valve body (1) respectively, center collection
Water pipe (7) is vertically arranged in the inside of soft water box body (23), and upper end and the multi-channel control valve body (1) of center collector pipe (7) connect
Logical, the top of center collector pipe (7) is provided with upper water collector (5), and the upper end of upper water collector (5) is connected with multi-channel control valve body (1),
The lower end of center collector pipe (7) is provided with lower water collector (6), and salt well (17) is horizontally set on the bottom of salt box (19), water filling water guide
One end of pipe (11) and salt solution aqueduct (13) is connected with multi-channel control valve body (1) respectively, the other end of water filling aqueduct (11)
Sequentially pass through salt box (19) and salt well (17) and the side for being arranged on salt box (19) bottom, the other end of salt solution aqueduct (13) according to
It is secondary to pass through salt box (19) and salt well (17) and the opposite side for being arranged on salt box (19) bottom.
2. a kind of pouring-in slow method of reproduction water softening device according to claim 1, it is characterised in that:The salt box (19) it is upper
End is provided with salt mouthful (21) is added, and Jia Yankou (21) outside is provided with salt case lid (22).
3. a kind of pouring-in slow method of reproduction water softening device according to claim 2, it is characterised in that:Salt case lid (22) rotation
Mounted in the outside for adding salt mouthful (21).
4. a kind of pouring-in slow method of reproduction water softening device according to claim 1,2 or 3, it is characterised in that:The water filling is led
Water pipe (11) is provided with current limiter (9), and current limiter (9) is arranged on the outside of multi-channel control valve body (1) and salt box (19).
5. a kind of pouring-in slow method of reproduction water softening device according to claim 4, it is characterised in that:The multi-channel control valve body
(1) include valve shell body (15), stator (36), moving plate (37) and rotate handle (8), the middle part of valve shell body (15) interior lower end
Provided with valve inner housing (25), stator (36) and moving plate (37) are successively set on the upper end of valve inner housing (25), stator from the bottom to top
(36) and moving plate (37) constitutes a cavity volume, the cross section of stator (36) and moving plate (37) is circle, rotates handle (8) and inserts
Middle part in valve shell body (15) upper end, the end and the upper end of moving plate (37) for rotating handle (8) is affixed.
6. a kind of pouring-in slow method of reproduction water softening device according to claim 5, it is characterised in that:The valve inner housing (25)
Including valve outer ring catch (25-1), valve inner ring catch (25-2) and six valve separation retaining sheets (25-3), valve outer ring catch (25-1)
It is fixed in the middle part of valve shell body (15) interior lower end, six valve separation retaining sheets successively from outside to inside with valve inner ring catch (25-2)
(25-3) is along the circumferential direction uniformly arranged between valve outer ring catch (25-1) and valve inner ring catch (25-2), each valve isolation gear
Piece (25-3) is radially set, and the inner side of valve inner ring catch (25-2) is provided with flushing surge tank (24), blowdown flush pipe
(4) one end connect with rinsing surge tank (24), valve outer ring catch (25-1), valve inner ring catch (25-2) and two neighboring valve every
From composition delivery port groove (38), regeneration water filling port groove (39), flushing delivery port groove (42), salt solution water sink between catch (25-3)
(43), operation intake chamber (41) and flushing water filling port groove (40), one end and the regeneration water filling port groove (39) of water filling aqueduct (11)
Connection, rinses delivery port groove (42) and operation intake chamber (41) is connected with the upper end of upper water collector (5), in salt solution injection groove (43)
Provided with the circular arc dividing plate (25-4) of valve 1/6th, the two ends of the circular arc dividing plate (25-4) of valve 1/6th respectively with valve separation retaining sheet
(25-3) is affixed, the inner side of the circular arc dividing plate (25-4) of valve 1/6th provided with brine regeneration mouthful (10), brine regeneration mouthful (10) and
Rinse water filling port groove (40) to connect with the upper end of center collector pipe (7), delivery port groove (38) is connected with one end of outlet pipe (3),
One end of salt solution aqueduct (13) is connected with salt solution water sink (43), and valve shell body (15) is connected with one end of water inlet pipe (2),
Stator (36) includes lower baffle plate (36-1), stator outer ring catch (36-2), stator inner ring catch (36-3) and six stators
Separation retaining sheet (36-4), lower baffle plate (36-1) is fixed in the upper surface of valve inner housing (25), stator outer ring catch (36-2) and fixed
Piece inner ring catch (36-3) is respectively and fixedly connected on lower baffle plate (36-1) upper surface, and stator outer ring catch (36-2) is kept off with valve outer ring
Piece (25-1) is correspondingly arranged, and stator inner ring catch (36-3) is correspondingly arranged with valve inner ring catch (25-2), six stator isolation gears
Piece (36-4) is along the circumferential direction uniformly arranged between stator outer ring catch (36-2) and stator inner ring catch (36-3), Mei Geding
Piece separation retaining sheet (36-4) is radially set, each stator separation retaining sheet (36-4) respectively with a valve separation retaining sheet
(25-3) is correspondingly arranged, and pouring mouthful (32) and punching are rinsed in the inner side of stator inner ring catch (36-3) provided with pouring mouthful (32) is rinsed
Surge tank (24) connection is washed, the outside of stator inner ring catch (36-3) is provided with the circular arc dividing plate (36-5) of stator 5/6ths, stator
5/6ths circular arc dividing plates (36-5) are arranged between stator outer ring catch (36-2) and stator inner ring catch (36-3), stator six
Inner side between/five circular arc dividing plates (36-5), stator outer ring catch (36-2) and two neighboring stator separation retaining sheet (36-4)
Operation delivery port (16), operation water inlet (28) and salt solution water inlet (14) are respectively equipped with, operation delivery port (16) is arranged on out
The upper end of mouth of a river groove (38) and connected with delivery port groove (38), operation water inlet (28) is arranged on the upper end of operation intake chamber (41)
And with operation intake chamber (41) connect, salt solution water inlet (14) be arranged on the upper end of salt solution water sink (43) and with salt solution water sink
(43) connect, stator inner ring catch (36-3), stator outer ring catch (36-2) and two neighboring stator separation retaining sheet (36-4) it
Between inner side provided with rinse water inlet (27), rinse water inlet (27) be arranged on rinse water filling port groove (40) upper end and with flushing
Water filling port groove (40) is connected, stator inner ring catch (36-3), the circular arc dividing plate (36-5) of stator 5/6ths and two neighboring stator
Inner side between separation retaining sheet (36-4) is respectively equipped with salt solution water filling port (29), rinses delivery port (30) and regeneration water filling port
(31), salt solution water filling port (29) is arranged on the upper end of brine regeneration mouthful (10) and connected with brine regeneration mouthful (10), rinses water outlet
Mouth (30) is arranged on the upper end for rinsing delivery port groove (42) and connected with rinsing delivery port groove (42), and regeneration water filling port (31) is set
Connected in the upper end of regeneration water filling port groove (39) and with regeneration water filling port groove (39),
Moving plate (37) includes overhead gage (37-1), moving plate outer ring catch (37-2), moving plate inner ring catch (37-3) and six moving plates
Separation retaining sheet (37-4), moving plate outer ring catch (37-2), moving plate inner ring catch (37-3) and six moving plate separation retaining sheets (37-4)
On the lower surface for being fixed in overhead gage (37-1), moving plate outer ring catch (37-2) is corresponding with stator outer ring catch (36-2) to be set
Put, moving plate inner ring catch (37-3) is correspondingly arranged with stator inner ring catch (36-3), six moving plate separation retaining sheets (37-4) are along circle
Circumferential direction is uniformly arranged between moving plate outer ring catch (37-2) and moving plate inner ring catch (37-3), each moving plate separation retaining sheet
(37-4) is radially set, and each moving plate separation retaining sheet (37-4) is corresponding with a stator separation retaining sheet (36-4) respectively
Set, the inner side of moving plate inner ring catch (37-3) is provided with groove (44), and overhead gage (37-1) enters provided with water inlet gap (33)
Water gap (33) is arranged on the inner side between moving plate inner ring catch (37-3) and two neighboring moving plate separation retaining sheet (37-4), water inlet
The side of gap (33) is provided with the circular arc dividing plate (37-5) of moving plate 2/6ths, the two ends of the circular arc dividing plate (37-5) of moving plate 2/6ths
Affixed with moving plate separation retaining sheet (37-4) respectively, the side of the circular arc dividing plate (37-5) of moving plate 2/6ths is provided with the hollow water guide of flushing
Groove (34), rinses hollow guiding gutter (34) and is arranged on moving plate outer ring catch (37-2) and two neighboring moving plate separation retaining sheet (37-4)
Between inner side, rinse hollow guiding gutter (34) and connected with groove (44), the opposite side of water inlet gap (33) is provided with moving plate
/ 6th circular arc dividing plates (37-6), the hollow guiding gutter of water outlet is provided between water inlet gap (33) and the hollow guiding gutter (34) of flushing
(35), the hollow guiding gutter of water outlet (35) is arranged on the circular arc dividing plate (37-6) of moving plate 1/6th, moving plate outer ring catch (37-2), leaned on
The moving plate separation retaining sheet (37-4) of nearly water inlet gap (33) side and the moving plate isolation close to hollow guiding gutter (34) side of flushing
Inner side between catch (37-4).
7. a kind of pouring-in slow method of reproduction water softening device according to claim 6, it is characterised in that:The valve 1/6th is justified
Six points of arc dividing plate (25-4), the circular arc dividing plate (36-5) of stator 5/6ths, the circular arc dividing plate (37-5) of moving plate 2/6ths and moving plate
One of circular arc dividing plate (37-6) arc radius all same.
8. a kind of pouring-in slow method of reproduction water softening device according to claim 5,6 or 7, it is characterised in that:The rotation hand
Sealing ring is provided between handle (8) and valve shell body (15).
9. a kind of pouring-in slow method of reproduction water softening device according to claim 8, it is characterised in that:The valve shell body (15)
Gap is provided between stator (36) and moving plate (37).
10. a kind of pouring-in slow method of reproduction water softening device according to claim 9, it is characterised in that:The water inlet pipe (2),
Control valve is equipped with outlet pipe (3) and blowdown flush pipe (4).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201710625360.4A CN107176650A (en) | 2017-07-27 | 2017-07-27 | A kind of pouring-in slow method of reproduction water softening device |
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Application Number | Priority Date | Filing Date | Title |
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CN201710625360.4A CN107176650A (en) | 2017-07-27 | 2017-07-27 | A kind of pouring-in slow method of reproduction water softening device |
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CN107176650A true CN107176650A (en) | 2017-09-19 |
Family
ID=59838587
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201710625360.4A Pending CN107176650A (en) | 2017-07-27 | 2017-07-27 | A kind of pouring-in slow method of reproduction water softening device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110410547A (en) * | 2018-04-28 | 2019-11-05 | 芜湖美的厨卫电器制造有限公司 | Salt component and water softening device are inhaled in the water filling of soft water valve |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104671350A (en) * | 2015-02-14 | 2015-06-03 | 哈尔滨斯芙特净水科技有限公司 | Integrated filter material regenerating water softener and filter material regenerating method |
CN104696547A (en) * | 2014-01-20 | 2015-06-10 | 温州市润新机械制造有限公司 | Control valve |
-
2017
- 2017-07-27 CN CN201710625360.4A patent/CN107176650A/en active Pending
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104696547A (en) * | 2014-01-20 | 2015-06-10 | 温州市润新机械制造有限公司 | Control valve |
CN104671350A (en) * | 2015-02-14 | 2015-06-03 | 哈尔滨斯芙特净水科技有限公司 | Integrated filter material regenerating water softener and filter material regenerating method |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110410547A (en) * | 2018-04-28 | 2019-11-05 | 芜湖美的厨卫电器制造有限公司 | Salt component and water softening device are inhaled in the water filling of soft water valve |
CN110410547B (en) * | 2018-04-28 | 2024-02-20 | 芜湖美的厨卫电器制造有限公司 | Water injection and salt suction assembly of soft water valve and water softener |
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Application publication date: 20170919 |