CN202266706U

CN202266706U - Water treating multifunctional control valve

Info

Publication number: CN202266706U
Application number: CN2011203370820U
Authority: CN
Inventors: 崔好印
Original assignee: Individual
Current assignee: Individual
Priority date: 2011-09-09
Filing date: 2011-09-09
Publication date: 2012-06-06
Anticipated expiration: 2021-09-09

Abstract

The utility model discloses a water treating multifunctional control valve, which includes a valve body, wherein a raw water inlet, a treated water outlet, a waste water outlet, a jet water inlet and a salt water inlet are arranged on the valve body; an ejector is arranged between the jet water inlet and the salt water inlet; two valve cavities are arranged in the valve body; a cavity central pipe outer hole, a jet water inlet hole and a central pipe inner hole are distributed around the center inside the valve cavity A; a movable valve plate and a fixed valve plate are arranged in each valve cavity respectively; hole sites corresponding to the valve cavity are both arranged on the movable valve plate and the fixed valve plate respectively; the movable valve plate and the fixed valve plate are matched in corresponding hole sites, and the sealed end surfaces thereof are rotatably covered together, so as to form the water treating multifunctional control valve integrating co-current regeneration demineralization, countercurrent regeneration demineralization and purification into the same control valve body; the hole site on the movable valve plate can be covered on the corresponding fixed valve through the coupler on the movable valve plate, so as to form different flowing water treating channels; the water treating multifunctional control valve can achieve the effect with only one set of die, thereby saving the production cost; and the water treating multifunctional control valve has a simple structure, and is convenient to operate.

Description

The water treatment multifunctional control valve

Technical field

The utility model relates to a kind of water treatment control valve, especially relates to the multifunctional control valve of a kind of use water treatment in industry or people's industry.

Background technique

At present, or in the processing of industry domestic use of water, all must switch with multifunctional control valve, functions such as realization is softening, purification, flushing, backwash need be opened purge valve and softener valve mould separately, make trouble; Simultaneously most of control valve all is through the moving up and down the control valve body water flow inside and change the direction of a stream of water of piston, through filtrate is just washed, backwash, or regeneration and the moisturizing of salt case accomplish former water is purified softening.This valve design and assembling more complicated, the operating procedure trouble, maintenance is inconvenient, and piston and supporting rubber parts are easy to wear out, and the valve body material cost of production is very high.

The day for announcing is that the Chinese granted patent ZL200820007713.0 on December 10th, 2008 discloses a kind of water treatment with Full Automatic Liquid pressure-controlled multichannel integrated valve, is made up of valve body, actuating motor; Level orientation is provided with intake pipe on the valve body, and inlet valve is equipped with in the intake pipe outlet, and valve body is provided with the last interface that communicates with the hydraulic pressure cavity of inlet valve; The intake pipe below is provided with outlet pipe; The outlet pipe inlet is equipped with outlet valve, and valve body is provided with the lower interface that communicates with the hydraulic pressure cavity of outlet valve; Between intake pipe and the outlet pipe, the valve body left and right side is provided with regeneration chamber, water source, salt water cavity and other cavity volume, regeneration is provided with passage in chamber, water source, salt water cavity and other cavity volume, the passway is lower than the cavity volume end face; The jet salt sucting device is housed in the salt water cavity; Intake pipe is provided with the following current hole or the outlet pipe that are connected with the chamber, water source of regenerating and is provided with the reverse flow hole that is connected with the chamber, water source of regenerating; Each cavity volume end face is equipped with cover plate, and control valve is equipped with in position corresponding with the part passage on the cover plate; Valve body is provided with pressure distributor, and the actuating motor output shaft is connected with pressure distributor, and the distribution interface of pressure distributor is communicated with each valve hydraulic pressure cavity.But this complex structural designs, the working service cost is high; And exist the operating procedure trouble equally, maintenance is inconvenient, and piston and supporting rubber parts are easy to wear out, and the valve body material cost of production is than problems such as height.

The model utility content

The utility model is to solve to need to adopt multifunctional control valve to switch in the existing water treatment procedure, and functions such as realization is softening, purification, flushing, backwash need be opened softener valve and purge valve mould separately, make trouble; Perhaps valve designs and the assembling more complicated; The operating procedure trouble; Maintenance present situation such as inconvenience and provide a kind of simple in structure; Easy to operate, cost of production is lower, and economize the salt water-saving in the using process, integrate co-current regeneration, counter-current regeneration softens, purify, the water treatment multifunctional control valve of multi-purpose valve.

The utility model is to solve the problems of the technologies described above the concrete technological scheme that is adopted to be: a kind of water treatment multifunctional control valve; Comprise valve body; Be located between former water inlet, processing water out, wastewater outlet, water jets inlet, salt water inlet, water jets inlet and the salt water inlet on the valve body and be provided with liquid jetting device; It is characterized in that: be provided with two valve pockets of A valve pocket and B valve pocket in the valve body; The A valve pocket is inner to be provided with the outer hole of A valve pocket center tube, A valve pocket water jets inlet opening, A valve pocket center tube endoporus around central distribution; Wherein the A valve pocket is connected with former water inlet; A valve pocket water jets inlet opening is connected with adverse current salt water inlet, following current salt water inlet, water jets inlet; Also be provided with A moving valve plate, A fixed valve plate in the A valve pocket; Be provided with four A fixed valve plate through holes and two A fixed valve plate sectors around central distribution on the end face of A fixed valve plate, the water jets inlet opening is corresponding cooperates with the corresponding cooperation in the first water jets inlet opening of A valve pocket, A fixed valve plate fourth hole and A fixed valve plate second sector and A valve pocket second with the corresponding cooperation of A valve pocket center tube endoporus, A fixed valve plate second through hole and A fixed valve plate first sector for the wherein outer corresponding cooperation in hole of A fixed valve plate first through hole and A valve pocket center tube, A fixed valve plate third through-hole; The A moving valve plate is provided with A moving valve plate normal open hole, A moving valve plate blind hole and A moving valve plate first sector, A moving valve plate second sector, A moving valve plate the 3rd sector, and each pore size distribution of A moving valve plate and A fixed valve plate is on the nose circle face that same radius cooperatively interacts; Be provided with the B valve pocket around central distribution in the B valve pocket and handle water out hole, the outer hole of B valve pocket center tube, B valve pocket wastewater outlet hole, B valve pocket center tube endoporus; Wherein B valve pocket processing water out hole 31 is connected with the processing water out; B valve pocket wastewater outlet hole is connected with wastewater outlet; Also be provided with B fixed valve plate, B moving valve plate in the B valve pocket; B fixed valve plate end face has four B fixed valve plate through holes around central distribution, the wherein interior corresponding cooperation of processing water out of B fixed valve plate first through hole and B valve pocket, the corresponding cooperation in hole outside B fixed valve plate second through hole and the B valve pocket center tube; B fixed valve plate third through-hole and the corresponding cooperation in B valve pocket wastewater outlet hole; B fixed valve plate fourth hole is provided with B moving valve plate first sector and B moving valve plate second sector with the corresponding cooperation of B valve pocket center tube endoporus, B moving valve plate, and each pore size distribution of B moving valve plate and B fixed valve plate is on the nose circle face that same radius cooperatively interacts; Be respectively equipped with coupling on the other end of A moving valve plate and B moving valve plate, coupling is provided with and coupling and the gland that is connected with B valve pocket inner wall sealing of A valve pocket respectively, passes gland and valve body top cover on the coupling and is connected with the rotational power parts.Straight-through softening jar of moving valve plate center; Integrate that co-current regeneration, counter-current regeneration soften, purify, the water treatment multifunctional control valve of multi-purpose valve; Cooperate with the end face seal of fixed valve plate through moving valve plate, position, hole on the moving plate on blind hole and lead to the hole site and the fixed valve plate covers the position and changes to reach and realize softening, purification, flushing, backwash different needs; Save in the common water treatment and need open the co-current regeneration softener valve, the counter-current regeneration softener valve, purge valve three mold costs only need just can realize at a mold, save production cost, and simple in structure, easy to operate; Can the hole on moving valve plate and the fixed valve plate cooperatively interacted through manual or electronic drive coupling, the purification of accomplishing water-treating equipment be just washed with softening, backwash, processes such as regeneration and the moisturizing of salt case.Valve three in the realization using process is used effect.

As preferably, in described four A fixed valve plate through holes and two the A fixed valve plate sectors, wherein position, the hole size of A fixed valve plate first through hole and A fixed valve plate third through-hole is the twice of other two A fixed valve plate through holes and two A fixed valve plate sector sizes.The effective realization covers the position relation through through hole on the fixed valve plate and the room on sector position and A valve pocket and the A moving valve plate, and function course such as realization is softening, purification, flushing, backwash are switched.

As preferably, the lower end surface edge of described coupling is provided with the edge dog that is connected with A moving valve plate or B moving valve plate.Through dog with coupling be located at the moving valve plate dorsal edge on groove clamping mutually, reach the effect that clamps moving valve plate and effectively drive rotation work, realize that coupling drives moving valve plate and fixed valve plate end face fitted seal is accomplished the different working process.

As preferably, the lower end surface center position of described coupling is provided with the center dog.With the groove clamping mutually that is located at moving valve plate back side center position, further improve clamping and the interlock effect between coupling and the moving valve plate.

As preferably, the upper-end surface center position of described coupling is provided with threaded connection hole.Be used as the hole of fixed handle, be screwed to screw in this threaded connection hole, in electronic control, fix rotating disk; Can certainly be through manually controlling rotating disk.

As preferably, described valve body is on the outward edge of A valve pocket and be located at a pair of A valve body convex parts that is connected with the A fixed valve plate of centerline.Be used to realize that the location between A fixed valve plate and the A valve pocket outward edge clamps.

As preferably, described A fixed valve plate be provided with two pairs with A valve body convex parts opposite position and the card body that is located by connecting, have between the every pair of card body with A valve body convex parts corresponding matching apart from the gap.The card body of A fixed valve plate is contained on the outer peripheral convex parts of A valve pocket apart from ipt card, realizes that the location of A fixed valve plate and A valve pocket clamps, can certainly adopt other mode to reach the location assembling effect that realizes A fixed valve plate and A valve pocket.

As preferably, described valve body is on the outward edge of B valve pocket and be located at a pair of B valve body convex parts that is connected with the B fixed valve plate of centerline; Described B fixed valve plate be provided with two pairs with B valve body convex parts opposite position and the card body that is located by connecting, have between the every pair of card body with B valve body convex parts corresponding matching apart from the gap.The card body of B fixed valve plate is contained on the outer peripheral convex parts of B valve pocket apart from ipt card, realizes that the location of B fixed valve plate and B valve pocket clamps, can certainly adopt other mode to reach the location assembling effect that realizes B fixed valve plate and B valve pocket.

As preferably, B moving valve plate first sector of described B moving valve plate is adjacent with the B moving valve plate second sector position, and B moving valve plate first sector and B moving valve plate second sector constitute semicircle shape.The effective realization covers the position relation through sector position on the B moving valve plate and the room on B valve pocket and the B fixed valve plate, the switching of functions such as realization is softening, purification, flushing, backwash.

As preferably, be provided with seal ring between described gland and the coupling, gland is connected with the A valve pocket or the B valve pocket inner thread of valve body, is provided with seal ring between gland and A valve pocket or the B valve pocket inwall.Realize being tightly connected each other.

The beneficial effect of the utility model is:

1. can the hole on moving valve plate and the fixed valve plate cooperatively interacted through manual or electronic drive coupling, the purification of accomplishing water-treating equipment be just washed with softening, backwash, processes such as regeneration and the moisturizing of salt case.

2. the collection co-current regeneration is softening; Counter-current regeneration is softening; Purification function is in same control valve body; Cooperate with the end face seal of fixed valve plate through moving valve plate, position, hole on the moving plate on blind hole and lead to the hole site and the fixed valve plate covers the position and changes to reach and realize softening, purification, flushing, backwash different production process need; Save in the common water treatment and need open the co-current regeneration softener valve, the counter-current regeneration softener valve, purge valve three mold costs only need just can realize at a mold, save production cost, and simple in structure, easy to operate.

3. when controlling automatically, the panel of control valve separates with control panel, and the two connects through datawire, and control panel can be placed in the panel draw-in groove of control valve.In actual use, or control valve is installed in below the cupboard than on the higher tank body, can be directly when operation control panel hand held in, easy-to-operat.

Description of drawings:

Below in conjunction with accompanying drawing and embodiment the utility model is done further detailed description.

Fig. 1 is the valve body structure schematic representation of the utility model water treatment multifunctional control valve.

Fig. 2 is the plan structure schematic representation of the A fixed valve plate of the utility model water treatment multifunctional control valve.

Fig. 3 is the plan structure schematic representation of the B fixed valve plate of the utility model water treatment multifunctional control valve.

Fig. 4 is the plan structure schematic representation of the A moving valve plate of the utility model water treatment multifunctional control valve.

Fig. 5 is the plan structure schematic representation of the B moving valve plate of the utility model water treatment multifunctional control valve.

Fig. 6 is the axial sectional structure schematic representation of the coupling of the utility model water treatment multifunctional control valve.

Fig. 7 is the plan structure schematic representation of the gland of the utility model water treatment multifunctional control valve.

Fig. 8 is to use the plan structure schematic representation of the another kind of A fixed valve plate in the utility model water treatment multifunctional control valve A valve pocket.

Fig. 9 is to use the plan structure schematic representation of the another kind of A moving valve plate in the utility model water treatment multifunctional control valve A valve pocket.

Figure 10 is the utility model water treatment multifunctional control valve working state and the schematic representation that cooperates of A fixed valve plate and A moving valve plate when just washing state.

The schematic representation that cooperates of B fixed valve plate and B moving valve plate when Figure 11 is the utility model water treatment multifunctional control valve working state.

The schematic representation that cooperates of Figure 12 A fixed valve plate that is the utility model water treatment multifunctional control valve when adverse current is inhaled the salt state and A moving valve plate.

The schematic representation that cooperates of Figure 13 B fixed valve plate that is the utility model water treatment multifunctional control valve when adverse current is inhaled salt state and backwash state and B moving valve plate.

Figure 14 is the schematic representation that cooperates of the utility model water treatment multifunctional control valve A fixed valve plate and A moving valve plate when the backwash state.

Figure 15 is the schematic representation that cooperates of the utility model water treatment multifunctional control valve A fixed valve plate and A moving valve plate when adverse current moisturizing state.

Figure 16 is the schematic representation that cooperates of the utility model water treatment multifunctional control valve B fixed valve plate and B moving valve plate at adverse current moisturizing state and when just washing state.

Embodiment

Embodiment 1:

Among Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, the embodiment shown in Figure 7; A kind of water treatment multifunctional control valve; Comprise valve body 10; The former water inlet 17 that is connected with valve body 10, handle water out 11, wastewater outlet 12, water jets inlet can select from A water jets inlet 13 or B water jets enter the mouth 131 introducing, adverse current salt water inlet 14, following current salt water inlet 15, water jets enter the mouth 13 and the salt water inlet between be provided with liquid jetting device 16; Wherein liquid jetting device 16 can be confirmed to be arranged on A water jets inlet 13 according to the requirements of process of actual conditions production and also is arranged on B water jets 131 places that enter the mouth; Be provided with

A valve pocket

20 and 30 two valve pockets of B valve pocket in the valve body 10; A valve pocket 20 is inner to be provided with the outer hole 21 of A valve pocket center tube, the A valve pocket first water jets inlet opening 22, the A valve pocket second water jets inlet opening 24, A valve pocket center tube endoporus 23 around central distribution; Wherein the A valve pocket is connected with former water inlet 17; The A valve pocket first water jets inlet opening 22, the A valve pocket second water jets inlet opening 24 are connected with adverse current salt water inlet 14, following current salt water inlet 15, water jets inlet 13; Also be provided with A moving valve plate 60, A fixed valve plate 40 in the A valve pocket 20 simultaneously; Be provided with four A fixed valve plate through holes and two A fixed valve plate sectors around central distribution on the end face of A fixed valve plate 40 (see figure 2)s, the wherein outer hole 21 corresponding cooperations of A fixed valve plate first through hole 41 and A valve pocket center tube, A fixed valve plate third through-hole 44 with the 23 corresponding cooperations of A valve pocket center tube endoporus, A fixed valve plate second through hole 42 and A fixed valve plate first sector 43 with the first water jets inlet opening, the 22 corresponding cooperations of A valve pocket, A fixed valve plate fourth hole 45 and A fixed valve plate

second sector

46 and 24 corresponding cooperations of the second water jets inlet opening; A moving valve plate 60 (see figure 4)s are provided with A moving valve plate normal open hole 61, A moving valve plate blind hole 63 and A moving valve plate first sector 62, A moving valve plate second sector 64, A moving valve plate the 3rd sector 65; Each pore size distribution of A moving valve plate 60 and A fixed valve plate 40 is on the nose circle face that same radius cooperatively interacts; Be provided with the B valve pocket around central distribution in the B valve pocket 30 and handle water out hole 31, the outer hole 32 of B valve pocket center tube, B valve pocket wastewater outlet hole 33, B valve pocket center tube endoporus 34; Wherein B valve pocket processing water out hole 31 is connected with processing water out 11; B valve pocket wastewater outlet hole 33 is connected with wastewater outlet 12; Also be provided with B fixed valve plate 50, B moving valve plate 70 in the B valve pocket 30; B fixed valve plate 50 (see figure 3) end faces have four B fixed valve plate through holes around central distribution, and wherein B fixed valve plate first through hole 51 is handled water out 31 corresponding cooperations with the B valve pocket in the B valve pocket 30, B fixed valve plate second through hole 52 and the outer hole 32 corresponding cooperations of B valve pocket center tube; B fixed valve plate third through-hole 53 and the 33 corresponding cooperations of B valve pocket wastewater outlet hole; B fixed valve plate fourth hole 54 and the 34 corresponding cooperations of B valve pocket center tube endoporus, B moving valve plate 70 (see figure 5)s are provided with B moving valve plate first sector 71 and B moving valve plate second sector 72, and B moving valve plate first sector 71 is adjacent with B moving valve plate second sector 72 positions; Be about 1/4th B valve pocket inner chamber circle size respectively, B moving valve plate first sector 71 constitutes semicircle shape with B moving valve plate second sector 72.Each pore size distribution of B moving valve plate 70 and B fixed valve plate 50 is on the nose circle face that same radius cooperatively interacts; Be respectively equipped with coupling 80 on the other end of A moving valve plate 60 and B moving valve plate 70; The lower end surface edge of coupling 80 (see figure 6)s is provided with the edge dog 82 that is connected with A moving valve plate 60 or B moving valve plate 70; The lower end surface center position of coupling 80 is provided with center dog 81, is installed on for coupling on the back side of A moving valve plate 60 or B moving valve plate 70 to give security.The upper-end surface center position of coupling 80 is provided with threaded connection hole 83.Coupling 80 is provided with the gland 90 that is connected with B valve pocket 30 inner wall sealings with coupling and difference A valve pocket 10, and the top of gland 90 (see figure 7)s is distributed with four blind holes 92 around center hole 91.The operation that is easy for installation and removal, coupling 80 upper ends are passed gland and valve body top cover and are connected with the rotational power parts.Certainly blind hole 92 quantity also can be other quantity in addition.In four A fixed valve plate through holes and two the A fixed valve plate sectors, wherein A fixed valve plate first through hole 41 is twices of other two A fixed valve plate through holes and two A fixed valve plate sector sizes with position, the hole size of A fixed valve plate third through-hole 44.Valve body 10 is on the outward edge of A valve pocket 20 and be located at a pair of A valve body convex parts 25 that is connected with A fixed valve plate 20 of centerline.A fixed valve plate 20 be provided with two pairs with A valve body convex parts 25 opposite positions and the card body 47 that is located by connecting, have between the every pair of card body 47 with A valve body convex parts 25 corresponding matching apart from gap 471.Realize A fixed valve plate 40 and outer peripheral the clamping of A valve pocket end face.Valve body 10 is on the outward edge of B valve pocket 30 and be located at a pair of B valve body convex parts 35 that is connected with B fixed valve plate 30 of centerline.B fixed valve plate 30 be provided with two pairs with B valve body convex parts 35 opposite positions and the card body 55 that is located by connecting, have between the every pair of card body 55 with B valve body convex parts 35 corresponding matching apart from gap 551.Realize B fixed valve plate 50 and outer peripheral the clamping of B valve pocket end face.Be provided with seal ring between gland 90 and the coupling 80, gland 90 is connected with the A valve pocket 20 or B valve pocket 30 inner threads of valve body, is provided with seal ring between gland 90 and A valve pocket 20 or B valve pocket 30 inwalls.

Embodiment 2:

Among Fig. 8, the embodiment shown in Figure 9, the A fixed valve plate first through hole 41A of the A fixed valve plate 40A (see figure 8) of another kind of structure and the outer hole 21 corresponding cooperations of A valve pocket center tube, A fixed valve plate third through-hole 44A with the 23 corresponding cooperations of A valve pocket center tube endoporus, the A fixed valve plate second through hole 43A and the A fixed valve plate first sector 42A with the first water jets inlet opening, the 22 corresponding cooperations of A valve pocket, A fixed valve plate fourth hole 46A and the A fixed valve plate

second sector

45A and 24 corresponding cooperations of the second water jets inlet opening; The A moving valve plate 60 of the A moving valve plate 60A (see figure 9) of another kind of structure is provided with A moving valve plate normal open hole 61A, A moving valve plate blind hole 64A and the A moving valve plate first sector 62A, the A moving valve plate second sector 63A, A moving valve plate the 3rd sector 65A, and each pore size distribution of the A moving valve plate 60A of another kind of structure and A fixed valve plate 40A is on the nose circle face that same radius cooperatively interacts.Other are identical with embodiment 1.

1, following is filtrate through adopting like resin, to the softening process of water treatment, adopts counter-current regeneration that the utility model is further specified:

When adopting counter-current regeneration, with nut shutoff following current salt water inlet 15, liquid jetting device 16 places B water jets 131 positions that enter the mouth.

When softening running state (seeing Fig. 1, Figure 10, Figure 11); A moving valve plate 60 covers A fixed valve plate first through hole 41 through A moving valve plate normal open hole 61 in the A valve pocket 20, and A moving valve plate blind hole 63 covers the half the of A fixed valve plate first sector 43 and A fixed valve plate third through-hole 44; B moving valve plate first sector 71 covers B fixed valve plate second through hole 52 in the B valve pocket 30, and B moving valve plate second sector 72 covers B fixed valve plate third through-hole 53, makes B valve pocket center tube endoporus 34 and B valve pocket handle water out hole 31 and communicates; During operation, former water in former water inlet 17 is flowed through hole 21 outside A moving valve plate normal open hole 61, A fixed valve plate first through hole 41, A valve pocket center tube of A valve pocket 20, filtrate, lower water-dispensing device, center tube successively, B valve pocket center tube endoporus 34, B fixed valve plate fourth hole 54, B fixed valve plate first through hole 51, B valve pocket handle water out hole 31 and arrive and handle water outs 11 and flow out outside the valve bodies 10.

When adverse current is inhaled salt regeneration (seeing Fig. 1, Figure 12, Figure 13); The A moving valve plate normal open hole 61 of A valve pocket 20, covering A fixed valve plate second through hole 42 and A fixed valve plate first sector 43, A moving valve plate blind hole 63 covers the half the of A fixed valve plate fourth holes 45 and A fixed valve plate third through-hole 44; B moving valve plate first sector 71 covers B fixed valve plate fourth hole 54 (seeing Figure 13), B moving valve plate second sector 72 covers B fixed valve plate first through hole 51, and the outer hole 32 of B valve pocket center tube is communicated with B valve pocket wastewater outlet hole 33; When adverse current is inhaled salt regeneration; Former water is through former water inlet 17; Flow into A valve pocket 20; Flow through successively A moving valve plate normal open hole 61, A fixed valve plate second through hole 42, the A valve pocket first water jets inlet opening 22, B water jets inlet 131, liquid jetting device 16 reaches the A valve pocket second water jets inlet opening 24; Because the liquid jetting device nozzle is more tiny, reach in the process of the A valve pocket second water jets inlet opening 24 through liquid jetting device 16 at water, adverse current salt water inlet 14 places produce negative pressure; Make the salt solution in the salt case flow into the A valve pocket second water jets inlet opening 24 through adverse current salt water inlet 14; Salt solution and water jets flow into A fixed valve plate fourth hole 45, A moving valve plate blind hole 63, A fixed valve plate third through-hole 44 together, arrive A valve pocket center tube endoporus 23, flow into the outer hole 32 of B valve pocket center tube, B fixed valve plate second through hole 52, B fixed valve plate third through-hole 53 through lower water-dispensing device, filtrate again, outside B valve pocket wastewater outlet hole 33, wastewater outlet 12 outflow valve bodies 10.

When the backwash state, (see Fig. 1, Figure 13, Figure 14), the A moving valve plate normal open hole 61 in the A valve pocket covers A fixed valve plate third through-hole 44, and A moving valve plate blind hole 63 covers the half the of A fixed valve plate second sector 46 and A fixed valve plate first through hole 41; B moving valve plate first sector 71 in the B valve pocket 30 covers B fixed valve plate fourth hole 54, and B moving valve plate second sector 72 covers B fixed valve plate first through hole 51, and the outer hole 32 of B valve pocket center tube is communicated with B valve pocket wastewater outlet hole 33; Former water flows into the A valve pocket through former water inlet 17; Flow through successively A moving valve plate normal open hole 61, A fixed valve plate third through-hole 44, A valve pocket center tube endoporus 23; Flow into the outer hole 32 of B valve pocket center tube, B fixed valve plate second through hole 52, B fixed valve plate third through-hole 53 through lower water-dispensing device, filtrate again, outside B valve pocket wastewater outlet hole 33, wastewater outlet 12 outflow valve bodies 10.

When salt case moisturizing state (seeing Fig. 1, Figure 15, Figure 16); A moving valve plate normal open hole 61 in the A valve pocket covers A fixed valve plate fourth hole 45 and A fixed valve plate second sector 46, and A moving valve plate blind hole 63 covers the half the of A fixed valve plate second through hole 42 and A fixed valve plate first through hole 41; B moving valve plate first sector 71 in the B valve pocket 30 covers B fixed valve plate first through hole 51, and B moving valve plate second sector 72 covers B fixed valve plate second through hole 52, and B valve pocket center tube endoporus 34 and B valve pocket wastewater outlet hole 33 are communicated; Former water flows into A valve pockets 20 through former water inlet 17, and the A moving valve plate normal open hole 61 of flowing through successively, A fixed valve plate fourth hole 45, the A valve pocket second water jets inlet opening 24, adverse current salt water inlet 14 arrive the salt casees, give the moisturizing of salt case; Because the jet nozzle of liquid jetting device 16 is more tiny; Have the fraction current through liquid jetting device 16, B water jets inlet 131, the A valve pocket first water jets inlet opening 22, A fixed valve plate second through hole 42, A moving valve plate blind hole 63, A fixed valve plate first through hole 41, the outer hole 21 of A valve pocket center tube, filtrate, arrival lower water-dispensing device, again in center tube, outside the B valve pocket center tube endoporus 34, B fixed valve plate fourth hole 54, B fixed valve plate third through-hole 53, B valve pocket wastewater outlet hole 33, wastewater outlet 12 outflow valve bodies 10.

When just washing state, (see Fig. 1, Figure 10, Figure 16), the A moving valve plate normal open hole 61 in the A valve pocket covers A fixed valve plate first through hole 41, and A moving valve plate blind hole 63 covers the half the of A fixed valve plate first sector 43 and A fixed valve plate third through-hole 44; B moving valve plate first sector 71 in the B valve pocket 30 covers B fixed valve plate first through hole 51, and B moving valve plate second sector 72 covers B fixed valve plate second through hole 52, and B valve pocket center tube endoporus 34 and B valve pocket wastewater outlet hole 33 are communicated; Former water in former water inlet 17 is flowed through hole 21 outside A moving valve plate normal open hole 61 in the A valve pocket, A fixed valve plate first through hole 41, the A valve pocket center tube, filtrate, lower water-dispensing device, center tube successively, B valve pocket center tube endoporus 34, B fixed valve plate fourth hole 54, B fixed valve plate third through-hole 53, B valve pocket wastewater outlet hole 33, wastewater outlet 12 flow out outside the valve bodies 10.

2, be filtrate through adopting,, adopt co-current regeneration that the utility model is further specified the softening process of water treatment like resin:

During co-current regeneration, with nut shutoff adverse current salt water inlet 14, liquid jetting device 16 places A water jets 13 places that enter the mouth, and operation is just washed, and during the backwash state, communicates no longer repeat specification when the cooperation of moving valve plates and fixed valve plate is with counter-current regeneration in A valve pocket 20 and the B valve pocket 30.

When co-current regeneration is inhaled salt (seeing figure, Figure 15, Figure 16); A moving valve plate normal open hole 61 in the A valve pocket covers A fixed valve plate fourth hole 45 and A fixed valve plate second sector 46, and A moving valve plate blind hole 63 covers the half the of A fixed valve plate second through hole 42 and A fixed valve plate first through hole 41; B moving valve plate first sector 71 in the B valve pocket 30 covers B fixed valve plate first through hole 51, and B moving valve plate second sector 72 covers B fixed valve plate second through hole 52, and B valve pocket center tube endoporus 34 and B valve pocket wastewater outlet hole 33 are communicated; Former water flows into A valve pocket 20 through former water inlet 17; Flow through successively A moving valve plate normal open hole 61, A fixed valve plate fourth hole 45, the A valve pocket second water jets inlet opening 24, A water jets inlet 13, liquid jetting device 16 arrives the A valve pockets first water jets inlet opening 22; Because the liquid jetting device nozzle is more tiny; Arrive in the process of the A valve pocket first water jets inlet opening 22 through liquid jetting device 16 at water; Following current salt water inlet 15 places produce negative pressure; Make the salt solution in the salt case flow into the A valve pocket first water jets inlet opening 22 through following current salt water inlet 15; Salt solution and water jets flow into A fixed valve plate second through hole 42 together, and A moving valve plate blind hole 63, A fixed valve plate first through hole 41, the outer hole 21 of A valve pocket center tube be through filtrate, lower water-dispensing device, center tube, arrive B valve pocket center tube endoporus 34, B fixed valve plate fourth hole 54, B fixed valve plate third through-hole 53, again through B valve pocket wastewater outlet hole 33, wastewater outlet 12 flows out outside the valve bodies 10.

When following current moisturizing state (seeing Fig. 1, Figure 12, Figure 13); The A moving valve plate normal open hole 61 of A valve pocket 20, covering A fixed valve plate second through hole 42 and A fixed valve plate first sector 43, A moving valve plate blind hole 63 covers the half the of A fixed valve plate fourth holes 45 and A fixed valve plate third through-hole 44; B moving valve plate first sector 71 covers B fixed valve plate fourth hole 54 (seeing Figure 13), B moving valve plate second sector 72 covers B fixed valve plate first through hole 51, and the outer hole 32 of B valve pocket center tube is communicated with B valve pocket wastewater outlet hole 33; During moisturizing, former water is through former water inlet 17, flows into A valve pocket 20, the A moving valve plate normal open hole 61 of flowing through successively, A fixed valve plate second through hole 42, the A valve pocket first water jets inlet opening 22, flows into the salt casees through following current salt water inlet 15.Because liquid jetting device 16 nozzles are more tiny; Have the fraction current through liquid jetting device 16, A liquid jetting device inlet 13, the A valve pocket second water jets inlet opening 24, again through A fixed valve plate fourth hole 45, A moving valve plate blind hole 63, A fixed valve plate third through-hole 44, A valve pocket center tube endoporus 23 through center tube arrive lower water-dispensing device, filtrate, again through B valve pocket center tube outside outside hole 32, B fixed valve plate second through hole 52, B fixed valve plate third through-hole 53, B valve pocket wastewater outlet hole 33, the wastewater outlet 12 outflow valve bodies 10.

When 3, the utility model was used for water purifying valve, with nut respectively shutoff following current salt water inlet 15 and adverse current salt water inlet 14, the softening working procedure of its working procedure and softener valve, backwash process, just to wash process identical, no longer repeat specification.

Stator in the utility model A valve pocket 20 also can adopt the A fixed valve plate of Fig. 8, A moving valve plate structural representation shown in Figure 9 respectively, and concrete above-mentioned work mode of execution is identical with 1,2,3.

The utility model is not limited to above-mentioned embodiment; The mode of execution that can also have other structures; For example: the shape of A valve pocket or B valve pocket is not limited to circle; Through hole in A valve pocket or the B valve pocket also is not limited to fan shaped borehole, as long as can realize and accomplish various process needs such as softening, purification, flushing, backwash are contrary, the regeneration of following current suction salt being connected of external inlet opening on the basis; The shape of through hole, blind hole and sector on perhaps same moving valve plate and the fixed valve plate also is not limited to fan shape; Can also be other shapes; As long as the end face seal of adopting other shapes can reach each other cooperates; And can accomplish softening, purification, flushing, backwash, contrary, following current and inhale various process such as salt regeneration and need, all do not exceed present technique scheme inventive concept scope, all drop within the protection domain of the utility model technology.

Claims

1. water treatment multifunctional control valve; Comprise valve body (10); Be located between former water inlet (17), processing water out (11), wastewater outlet (12), water jets inlet (13,131), salt water inlet, water jets inlet (13) and the salt water inlet on the valve body and be provided with liquid jetting device (16); It is characterized in that: be provided with (30) two valve pockets of A valve pocket (20) and B valve pocket in the valve body (10); A valve pocket (20) is inner to be provided with the outer hole (21) of A valve pocket center tube, A valve pocket water jets inlet opening (22,24), A valve pocket center tube endoporus (23) around central distribution; Wherein the A valve pocket is connected with former water inlet (17); A valve pocket water jets inlet opening (22,24) is connected with adverse current salt water inlet (14), following current salt water inlet (15), water jets inlet (13); Also be provided with A moving valve plate (60), A fixed valve plate (40) in the A valve pocket (20), be provided with four A fixed valve plate through holes and two A fixed valve plate sectors, wherein A fixed valve plate first through hole (41 around central distribution on the end face of A fixed valve plate (40); 41A) with the outer corresponding cooperation in hole (21) of A valve pocket center tube, A fixed valve plate third through-hole (44; 44A) with the corresponding cooperation of A valve pocket center tube endoporus (23), A fixed valve plate second through hole (42; 43A) with A fixed valve plate first sector (43; 42A) together with the first corresponding cooperation in water jets inlet opening (22) of A valve pocket, A fixed valve plate fourth hole (45,46A) and A fixed valve plate second sector (46; 45A) together with the second corresponding cooperation in water jets inlet opening (24) of A valve pocket; A moving valve plate (60) is provided with A moving valve plate normal open hole (61; 61A), A moving valve plate blind hole (63; 64A) and A moving valve plate first sector (62; 62A), A moving valve plate second sector (64; 63A), A moving valve plate the 3rd sector (65; 65A), each pore size distribution of A moving valve plate (60) and A fixed valve plate (40) is on the nose circle face that same radius cooperatively interacts; Be provided with the B valve pocket around central distribution in the B valve pocket (30) and handle water out hole (31), the outer hole (32) of B valve pocket center tube, B valve pocket wastewater outlet hole (33), B valve pocket center tube endoporus (34); Wherein B valve pocket processing water out hole (31) is connected with processing water out (11); B valve pocket wastewater outlet hole (33) is connected with wastewater outlet (12); Also be provided with B fixed valve plate (50), B moving valve plate (70) in the B valve pocket (30), B fixed valve plate (50) end face has four B fixed valve plate through holes (51,52 around central distribution; 53; 54), the wherein interior corresponding cooperation of processing water out (31) of B fixed valve plate first through hole (51) and B valve pocket (30), the corresponding cooperation in hole (32) outside B fixed valve plate second through hole (52) and the B valve pocket center tube; B fixed valve plate third through-hole (53) and the corresponding cooperation in B valve pocket wastewater outlet hole (33); B fixed valve plate fourth hole (54) is provided with B moving valve plate first sector (71) and B moving valve plate second sector (72) with the corresponding cooperation of B valve pocket center tube endoporus (34), B moving valve plate (70), and each pore size distribution of B moving valve plate (70) and B fixed valve plate (50) is on the nose circle face that same radius cooperatively interacts; Be respectively equipped with coupling (80) on the other end of A moving valve plate (60) and B moving valve plate (70); Coupling (80) is provided with and coupling and the gland (90) that is connected with B valve pocket (30) inner wall sealing of A valve pocket (10) respectively, passes gland and valve body top cover on the coupling (80) and is connected with the rotational power parts.

2. according to the described water treatment multifunctional control valve of claim 1, it is characterized in that: in described four A fixed valve plate through holes and two the A fixed valve plate sectors, A fixed valve plate first through hole (41 wherein; 41A) with A fixed valve plate third through-hole (44; Position, hole size 44A) is the twice of other two A fixed valve plate through holes and two A fixed valve plate sector sizes.

3. according to the described water treatment multifunctional control valve of claim 1, it is characterized in that: the lower end surface edge of described coupling (80) is provided with the edge dog (82) that is connected with A moving valve plate (60) or B moving valve plate (70).

4. according to claim 1 or 3 described water treatment multifunctional control valves, it is characterized in that: the lower end surface center position of described coupling (80) is provided with center dog (81).

5. according to claim 1 or 3 described water treatment multifunctional control valves, it is characterized in that: the upper-end surface center position of described coupling (80) is provided with threaded connection hole (83).

6. according to the described water treatment multifunctional control valve of claim 1, it is characterized in that: described valve body (10) is on the outward edge of A valve pocket (20) and be located at a pair of A valve body convex parts (25) that is connected with A fixed valve plate (20) of centerline.

7. according to claim 1 or 2 or 3 or 6 described water treatment multifunctional control valves; It is characterized in that: described A fixed valve plate (20) be provided with two pairs with A valve body convex parts (25) opposite position and the card body (47) that is located by connecting, have between every pair of card body (47) with A valve body convex parts (25) corresponding matching apart from gap (471).

8. according to the described water treatment multifunctional control valve of claim 1, it is characterized in that: described valve body (10) is on the outward edge of B valve pocket (30) and be located at a pair of B valve body convex parts (35) that is connected with B fixed valve plate (30) of centerline; Said B fixed valve plate (30) be provided with two pairs with B valve body convex parts (35) opposite position and the card body (55) that is located by connecting, have between every pair of card body (55) with B valve body convex parts (35) corresponding matching apart from gap (551).

9. according to the described water treatment multifunctional control valve of claim 1; It is characterized in that: B moving valve plate first sector (71) of described B moving valve plate (70) is adjacent with B moving valve plate second sector (72) position, and B moving valve plate first sector (71) and B moving valve plate second sector (72) constitute semicircle shape.

10. according to the described water treatment multifunctional control valve of claim 1; It is characterized in that: be provided with seal ring between described gland (90) and the coupling (80); Gland (90) is connected with the A valve pocket (20) or B valve pocket (30) inner thread of valve body, is provided with seal ring between gland (90) and A valve pocket (20) or B valve pocket (30) inwall.