CN205781065U - A kind of softener valve with regenerative agent feedway and water treatment facilities thereof - Google Patents

Abstract

The utility model discloses a kind of softener valve with regenerative agent feedway and water treatment facilities thereof, be provided with including valve body and dissolve bag inlet opening and regenerative agent access aperture and directly with valve body or separate the inner chamber dissolving bag of connection and communicate accordingly；Wherein, dissolve bag inlet opening to connect with end face first water hole of interior valve block；Regenerative agent access aperture connects with water distributing pore under valve body.In work, under the pressure dissolving bag inlet opening continuum micromeehanics promotes, the regenerative agent grain dissolution that dissolving bag inner chamber is equipped with is diluted to liquid, and in regenerative agent access aperture entrance tank body, filtrate is carried out displacement regeneration continuously, hence it is evident that improve the stability that filtrate is carried out displacement regeneration and the quality to water treating softener.By dissolving bag is connected as a single entity with valve body, eliminate and prior art is connected with on valve body jet nozzle and water intaking valve, and be provided with the deficiency of brine tank in the outer split of valve body, it is achieved that compact equipment, volume is little, significantly reduces production cost and uses non-maintaining.

Description

A kind of softener valve with regenerative agent feedway and water treatment facilities thereof

Technical field

This utility model relates to water processing establishment；It is specifically related to a kind of softener valve with regenerative agent feedway and water treatment facilities thereof.

Background technology

The water treating softener valve of prior art, its structure is typically to install jet nozzle in valve body, is connected with water-supply-pipe in the valve body branch flow channel be positioned at jet nozzle, and the brine tank that the water intaking valve connected by this water-supply-pipe split outer with valve body is provided with communicates.As Chinese utility model patent (patent No.: 200420062895.3 ) description 5 Page disclosure: " when salt regeneration inhaled by needs; part current can flow to water treatment tank through branch flow channel; the current of this process need to be through jet nozzle jet; produces negative pressure; saline sucks branch flow channel by water intaking valve through brine inlet from brine tank; flow in water treatment tank ... at the water level decreasing of brine tank to setting, water intaking valve can be closed ".To realize the filtrate in water treatment tank body carries out displacement regeneration.Shortcomings: one is to be changed by extraneous intake pressure size, produce injection suction by described jet nozzle also to change greatly from the uninterrupted of brine tank sucking-off saline, directly reduce the stability that filtrate in water treatment tank body is carried out displacement regeneration and the quality to water treating softener.Two is for meeting the job demand that water processes, guarantee that the salt being placed in described brine tank dissolves fully by water dilution, it is bigger that the volume of described brine tank does, and on described valve body, it is connected with jet nozzle and the water intaking valve connected by water-supply-pipe, make water treating softener valve and device structure thereof complicated, bulky, hence it is evident that to add production cost.Three is in use, and described jet nozzle and water intaking valve easily block affects work, needs people to safeguard.

Utility model content

The deficiency existed for above-mentioned prior art, the purpose of this utility model is to provide a kind of softener valve with regenerative agent feedway and water treatment facilities thereof, it is intended to improves the quality of water treating softener, and realizes compact equipment, volume is little, reduces the non-maintaining of production cost and use.

For achieving the above object, the technical solution of the utility model is realized in, this softener valve with regenerative agent feedway, the involutory inside and outside valve block being connected with in bottom surface including valve body core cavity, and by control the end face water hole of the external valve plate that bar connects relatively in the end face water hole of valve block indexable connect, also include that the runner correspondence that the end face water hole of interior valve block is each provided with in valve body communicates with valve body water hole；It is to be provided with dissolving bag inlet opening and regenerative agent access aperture on valve body, and described dissolving bag inlet opening and regenerative agent access aperture directly with valve body or separate the inner chamber dissolving bag of connection and communicate respectively；Wherein, dissolve bag inlet opening to be connected with end face first water hole of interior valve block by water inlet flow channel in valve body；Regenerative agent access aperture enters runner by regenerative agent in valve body and connects with water distributing pore under valve body；When carrying out station for the moment, end face the first water hole indexing connection of the relatively interior valve block in end face the 3rd water hole of described external valve plate；End face the five, the 6th water hole indexing connection of the relatively interior valve block in end face the 4th water hole of external valve plate, and connect with water distributing pore, limber hole on valve body by valve body, each runner is corresponding；When carrying out station two, end face the 5th water hole indexing connection of the relatively interior valve block in end face the 3rd water hole of described external valve plate；End face the second, the 7th water hole indexing connection of the relatively interior valve block in end face the 4th water hole of external valve plate, and connect with water distributing pore, apopore under valve body by valve body, each runner is corresponding；When carrying out station three, end face the 5th water hole indexing connection of the relatively interior valve block in end face the 3rd water hole of described external valve plate；End face the second, the 6th water hole indexing connection of the relatively interior valve block in end face the 4th water hole of external valve plate, and connect with water distributing pore, limber hole under valve body by valve body, each runner is corresponding；When carrying out station four, end face the second water hole indexing connection of the relatively interior valve block in end face the 3rd water hole of described external valve plate；End face the five, the 6th water hole indexing connection of the relatively interior valve block in end face the 4th water hole of external valve plate, and connect with water distributing pore, limber hole on valve body by valve body, each runner is corresponding.

Preferably, being directly connected with dissolving bag in the upper end of described valve body, described bag inlet opening of dissolving is positioned at the bottom dissolving bag inner chamber；Described regenerative agent access aperture is near the top dissolving bag inner chamber.

Preferably, being provided with in the separation of described valve body side and dissolve bag, described dissolving bag inlet opening and regenerative agent access aperture communicate with the dissolving water inlet end of bag inner chamber, regenerative agent upstream end by pipeline connection is corresponding respectively.

Using the water treatment facilities of above-mentioned a kind of softener valve with regenerative agent feedway, it is to be equipped with regenerative agent at the described inner chamber dissolving bag；The upper and lower water-locator that upper and lower for valve body water distributing pore correspondence is connected with is placed in tank inner chamber；It is equipped with filtrate at described tank inner chamber.

Preferably, described filtrate is the one of which of positive resin, negative resin and activated carbon.

Preferably, described regenerative agent is the one of which of granule of Sal, sodium hydroxide and disinfectant.

A kind of softener valve with regenerative agent feedway of this utility model and water treatment facilities thereof are by taking said structure, in work, under the pressure dissolving bag inlet opening continuum micromeehanics promotes, the regenerative agent grain dissolution that dissolving bag inner chamber is equipped with is diluted to liquid, enter in runner enters water treatment tank body from regenerative agent access aperture regenerative agent in valve body continuously and carry out replacing regeneration to filtrate, hence it is evident that improve the stability that filtrate is carried out displacement regeneration and the quality to water treating softener.By dissolving bag is connected as a single entity with valve body, eliminate and prior art is connected with on valve body jet nozzle and water intaking valve, and be provided with the deficiency of brine tank in the outer split of valve body, it is achieved that compact equipment, volume is little, significantly reduces production cost and uses non-maintaining.

Accompanying drawing explanation

Figure 1 For a kind of embodiment of this utility model with the softener valve view of regenerative agent feedway.

Figure 2 For this utility model figure 1 In A — A To sectional view.

Figure 3 For this utility model figure 2 In B — B Sectional view to valve body inner flow passage.

Figure 4 For this utility model figure 2 In C — C To dissolving bag inlet opening 11 Sectional view.

Figure 5 For this utility model figure 2 In D — D To regenerative agent access aperture 5 Sectional view.

Figure 6 For this utility model figure 2 The inside and outside valve block of middle removal 6 、 7 With the right view controlling bar.

Figure 7 For this utility model figure 6 Valve block in middle installation 6 View.

Figure 8 For this utility model figure 7 Valve block in 6 View.

Figure 9 For this utility model figure 2 The middle external valve plate removing control bar 7 The right side regard schematic diagram.

Figure 10 For this utility model figure 9 Middle external valve plate 7 's E — E To revolved sectional view.

Figure 11 For this utility model figure 10 Middle external valve plate 7 's F — F To sectional view.

Figure 12 For this utility model water treatment facilities in the attachment structure cross-sectional schematic of station one.

Figure 13 For this utility model figure 12 In G — G Inwardly, external valve plate water hole connection cross-sectional schematic.

Figure 14 For this utility model figure 12 Another location cross-sectional schematic.

Figure 15 For this utility model water treatment facilities in the attachment structure cross-sectional schematic of station two.

Figure 16 For this utility model figure 15 In H — H Inwardly, external valve plate water hole connection cross-sectional schematic.

Figure 17 For this utility model water treatment facilities in the attachment structure cross-sectional schematic of station three.

Figure 18 For this utility model figure 17 In I — I Inwardly, external valve plate water hole connection cross-sectional schematic.

Figure 19 For this utility model water treatment facilities in the attachment structure cross-sectional schematic of station four.

Figure 20 For this utility model figure 19 In J — J Inwardly, external valve plate water hole connection cross-sectional schematic.

Figure 21 For this utility model another kind embodiment with the softener valve view of regenerative agent feedway.

Figure 22 For this utility model figure 21 In K-K To cross-sectional schematic.

Figure 23 For this utility model figure 22 In L — L To cross-sectional schematic.

Figure 24 For this utility model figure 22 The inside and outside valve block of middle removal 6 、 7 With the right view controlling bar.

Figure 25 For this utility model figure 24 Valve block in middle installation 6 View.

Figure 26 For this utility model water treatment facilities in the cross-sectional schematic of station one.

Figure 27 For this utility model figure 26 In M — M Inwardly, external valve plate water hole connection cross-sectional schematic.

Figure 28 For this utility model figure 26 Another location cross-sectional schematic.

Detailed description of the invention

Below in conjunction with the accompanying drawings, principle of the present utility model and feature are described in detail.Should illustrate: illustrated embodiment is served only for explaining this utility model, be not intended that the concrete restriction to this utility model scope of patent protection.

Embodiment one, figure 1 Figure 20 Shown in.This softener valve with regenerative agent feedway, including the involutory inside and outside valve block being connected with in bottom surface of valve body core cavity 6 、 7 , and by controlling the external valve plate that bar connects 7 End face water hole relatively in valve block 6 End face water hole connect indexablely, also include that the runner correspondence that the end face water hole of interior valve block is each provided with in valve body communicates with valve body water hole.It is to be provided with dissolving bag inlet opening on valve body 11 With regenerative agent access aperture 5 , described dissolving wraps inlet opening 11 With regenerative agent access aperture 5 The dissolving bag being directly connected with valve body upper end respectively 1 Inner chamber communicate.Usual described dissolving wraps inlet opening 11 It is positioned at dissolving bag 1 Bottom (the figure of inner chamber 4 Shown in)；Described regenerative agent access aperture 5 By erectting connecting tube near dissolving bag 1 Top (the figure of inner chamber 2 Shown in).Wherein, bag inlet opening is dissolved 11 By water inlet flow channel in valve body 10-1 End face the first water hole with interior valve block 10 Connection (figure 3 Figure 8 Shown in)；Regenerative agent access aperture 5 enters runner and water distributing pore 9 under valve body by regenerative agent in valve body -1 Connection (figure 5 Shown in).Bag is dissolved described 1 Inner chamber upper end be connected with put regenerative agent sealing lid (figure 2 Shown in).

In work, when carrying out station (figure for the moment 12 Figure 14 Shown in), described external valve plate 7 End face the 3rd water hole 15 Interior valve block 6 End face the first water hole 10 Indexing connection (figure 13 Shown in)；End face the 4th water hole of external valve plate 16 End face the five, the 6th water hole of interior valve block 8 、 3 Indexing connection, and by respective runner correspondence in valve body and water distributing pore, limber hole on valve body 8-1 、 3-1 Connection.(the figure when carrying out station two 15 , figure 16 Shown in), described external valve plate 7 End face the 3rd water hole 15 Interior valve block 6 End face the 5th water hole 8 Indexing connection；End face the 4th water hole of external valve plate 16 End face the second, the 7th water hole of interior valve block 9 、 4 Indexing connection, and by respective runner correspondence in valve body and water distributing pore, apopore under valve body 9-1 、 4-1 Connection (figure 15 , figure 1 Shown in).(the figure when carrying out station three 17 , figure 18 Shown in), described external valve plate 7 End face the 3rd water hole 15 End face the 5th water hole of interior valve block 8 Indexing connection；End face the 4th water hole of external valve plate 16 End face the second, the 6th water hole of interior valve block 9 、 3 Indexing connection, and by respective runner correspondence in valve body and water distributing pore, limber hole under valve body 9-1 、 3-1 Connection.(the figure when carrying out station four 19 , figure 20 Shown in), described external valve plate 7 End face the 3rd water hole 15 Interior valve block 6 End face the second water hole 9 Indexing connection；End face the 4th water hole of external valve plate 16 End face the five, the 6th water hole of interior valve block 8 、 3 Indexing connection, and by respective runner correspondence in valve body and water distributing pore, limber hole on valve body 8-1 、 3-1 Connection.

Embodiment two, figure 12 Figure 20 Shown in.The water treatment facilities of the employing a kind of softener valve with regenerative agent feedway described in embodiment one, it is to dissolve bag described 1 Inner chamber be equipped with Sal granules regeneration agent；By upper and lower for described valve body water distributing pore 8-1 、 9-1 The upper and lower water-locator that correspondence is connected with 12 、 13 It is placed in tank inner chamber；It is equipped with positive resin filtrate at described tank inner chamber.According to different use requirements, described filtrate can also is that negative resin or activated carbon.Described regenerative agent can also be the granule of sodium hydroxide or disinfectant.

Work original state, is dissolving bag 1 Inner chamber is equipped with the Sal granules regeneration agent of set amount, drives, by rotation control rod, the external valve plate that its end connects 7 Rotate, make the seal face indexing of external valve plate by interior valve block 6 End face the first water hole 10 Close, now dissolve bag 1 Inner chamber do not intake.

When carrying out station (figure for the moment 12 Figure 14 Shown in), rotation control rod drives the external valve plate that its end connects 7 Rotate, make end face the 3rd water hole of described external valve plate 15 Interior valve block 6 End face the first water hole 10 Indexing connection；End face the 4th water hole of external valve plate 16 End face the five, the 6th water hole of interior valve block 8 、 3 Indexing connection, and by respective runner correspondence in valve body and water distributing pore, limber hole on valve body 8-1 、 3-1 Connection.Now from valve inleting water hole 2 (figure 1 Shown in) enter valve body core cavity circumferential annular runner current (figure 12 , figure 14 Shown in the middle direction of arrow), pass through external valve plate 7 End face the 3rd water hole 15 End face first water hole of valve block in entering 10 , water inlet flow channel in its valve body 10-1 , from dissolving bag inlet opening 11 Enter and dissolve bag 1 Inner chamber (figure 3- Figure 5 Shown in), the Sal grain dissolution of this inner chamber is diluted to saline fluid, dissolves bag inlet opening 11 Under the pressure of continuum micromeehanics promotes, continuously by regenerative agent access aperture 5 Water distributing pore under regenerative agent enters runner and valve body in valve body 9-1 , from lower water-dispensing device 13 Positive resin filtrate carries out in entrance tank body displacement regeneration (figure 12 , figure 14 Shown in), the turbidity generated by displacement reaction passes through upper water distributor 12 Water distributing pore on valve body 8-1 With valve body inner flow passage, from end face the 5th water hole of interior valve block 8 Enter end face the 4th water hole of external valve plate 16 Inner chamber turns to and backflows, and by end face the 6th water hole of interior valve block 3 Through valve body inner flow passage from valve body limber hole 3-1 Discharge.(the figure when carrying out station two 15 , figure 16 Shown in), rotation control rod drives the external valve plate that its end connects 7 Rotate, make end face the 3rd water hole of described external valve plate 15 Interior valve block 6 End face the 5th water hole 8 Indexing connection；End face the 4th water hole of external valve plate 16 End face the second, the 7th water hole of interior valve block 9 、 4 Indexing connection, and by respective runner correspondence in valve body and water distributing pore, apopore under valve body 9-1 、 4-1 Connection.Now from valve inleting water hole 2 (figure 1 Shown in) enter valve body core cavity circumferential annular runner current (figure 15 Shown in the middle direction of arrow), by end face the 3rd water hole of external valve plate 15 End face the 5th water hole of valve block in entering 8 , the runner in its valve body is by water distributing pore on valve body 8-1 And upper water distributor 12 In entrance tank body in positive resin filtrate.The purification water carrying out processing by described filtrate is through lower water-dispensing device 13 With water distributing pore under valve body 9-1 And valve body inner flow passage, from end face second water hole of interior valve block 9 Enter end face the 4th water hole of external valve plate 16 Inner chamber turns to and backflows, and by end face the 7th water hole of interior valve block 4 Through valve body inner flow passage from valve body apopore 4-1 Outwards export water supply (figure 16 , figure 1 Shown in).(the figure when carrying out station three 17 , figure 18 Shown in), rotation control rod drives the external valve plate that its end connects 7 Rotate, make end face the 3rd water hole of described external valve plate 15 End face the 5th water hole of interior valve block 8 Indexing connection；End face the 4th water hole of external valve plate 16 End face the second, the 6th water hole of interior valve block 9 、 3 Indexing connection, and by respective runner correspondence in valve body and water distributing pore, limber hole under valve body 9-1 、 3-1 Connection.Now from valve inleting water hole 2 (figure 1 Shown in) enter valve body core cavity circumferential annular runner current (figure 17 Shown in the middle direction of arrow), by end face the 3rd water hole of external valve plate 15 End face the 5th water hole of valve block in entering 8 , through its valve body inner flow passage by water distributing pore on valve body 8-1 And upper water distributor 12 In entrance tank body in positive resin filtrate, the impurity being connected with the absorption of described filtrate carries out just washing of relatively flood flow.By just washing the turbidity of generation from lower water-dispensing device 13 Lower water distributing pore with valve body 9-1 And valve body inner flow passage, through end face second water hole of interior valve block 9 Enter end face the 4th water hole of external valve plate 16 Inner chamber turns to and backflows, and by end face the 6th water hole of interior valve block 3 Through valve body inner flow passage from valve body limber hole 3-1 Discharge.(the figure when carrying out station four 19 , figure 20 Shown in), rotation control rod drives the external valve plate that its end connects 7 Rotate, make end face the 3rd water hole of described external valve plate 15 Interior valve block 6 End face the second water hole 9 Indexing connection；End face the 4th water hole of external valve plate 16 End face the five, the 6th water hole of interior valve block 8 、 3 Indexing connection, and by respective runner correspondence in valve body and water distributing pore, limber hole on valve body 8-1 、 3-1 Connection.Now from valve inleting water hole 2 (figure 1 Shown in) enter valve body core cavity circumferential annular runner current (figure 19 Shown in the middle direction of arrow), by end face the 3rd water hole of external valve plate 15 End face second water hole of valve block in entering 9 , through its valve body inner flow passage by water distributing pore under valve body 9-1 And lower water-dispensing device 13 In entrance tank body in positive resin filtrate, the impurity being connected with the absorption of described filtrate carries out the backwash of relatively flood flow.The turbidity produced by backwash is from upper water distributor 12 With water distributing pore on valve body 8-1 And valve body inner flow passage, through end face the 5th water hole of interior valve block 8 Enter end face the 4th water hole of external valve plate 16 Inner chamber turns to and backflows, and by end face the 6th water hole of interior valve block 3 Through valve body inner flow passage from valve body limber hole 3-1 Discharge.

Embodiment three, figure 21 Figure 25 Shown in.The present embodiment repeats no more with embodiment one something in common.Difference is, this softener valve with regenerative agent feedway, and it is to separate on described valve body side to be provided with dissolving bag 1 , described dissolving wraps inlet opening 11 With regenerative agent access aperture 5 Connect corresponding by pipeline respectively and dissolve bag 1 The water inlet end of inner chamber, regenerative agent upstream end communicate.Bag is dissolved described 1 On be connected with put regenerative agent sealing lid (figure 21 Shown in).

Embodiment four, figure 26 Figure 28 Shown in.The present embodiment repeats no more with embodiment two something in common.Difference is, the water treatment facilities of this softener valve with regenerative agent feedway, and when carrying out station for the moment, rotation control rod drives the external valve plate that its end connects 7 Rotate, make end face the 3rd water hole of described external valve plate 15 Interior valve block 6 End face the first water hole 10 Indexing connection；End face the 4th water hole of external valve plate 16 End face the five, the 6th water hole of interior valve block 8 、 3 Indexing connection, and by respective runner correspondence in valve body and water distributing pore, limber hole on valve body 8-1 、 3-1 Connection.Now from valve inleting water hole 2 (figure 1 Shown in) enter valve body core cavity circumferential annular runner current (figure 26 , figure 28 Shown in the middle direction of arrow), by end face the 3rd water hole of external valve plate 15 End face first water hole of valve block in entering 10 , water inlet flow channel in valve body 10-1 Bag inlet opening is dissolved from valve body 11 Entered by pipeline and dissolve bag 1 Inner chamber (figure 28 Shown in), the Sal granules regeneration agent dissolved dilution of this inner chamber is become saline fluid, dissolves bag inlet opening 11 Under the pressure of continuum micromeehanics promotes, enter regenerative agent access aperture by Pipeline transport continuously 5 , in valve body, regenerative agent enters runner water distributing pore from valve body 9-1 And lower water-dispensing device 13 Carrying out displacement regeneration in entrance tank body in positive resin filtrate, the turbidity generated by displacement reaction passes through upper water distributor 12 Water distributing pore on valve body 8-1 With valve body inner flow passage, from end face the 5th water hole of interior valve block 8 Enter end face the 4th water hole of external valve plate 16 Inner chamber turns to and backflows, and by end face the 6th water hole of interior valve block 3 Through valve body inner flow passage from valve body limber hole 3-1 Discharge.

The above is only preferred implementation of the present utility model.It is noted that, for those of ordinary skill in the art, with essentially identical means, it is achieved essentially identical function, reach essentially identical effect, need not move through other technical characteristic that creative work is the most obviously associated, it is also possible to replace make several essentially identical mode modification and / Or improve, these changes should be considered as equivalent feature, within belonging to the protection domain of this utility model patent.

Claims (6)

1. the softener valve with regenerative agent feedway, the involutory inside and outside valve block being connected with in bottom surface including valve body core cavity, and by control the end face water hole of the external valve plate that bar connects relatively in the end face water hole of valve block indexable connect, also include that the runner correspondence that the end face water hole of interior valve block is each provided with in valve body communicates with valve body water hole；It is characterized in that: be provided with dissolving bag inlet opening and regenerative agent access aperture on valve body, described dissolving bag inlet opening and regenerative agent access aperture directly with valve body or separate the inner chamber dissolving bag of connection and communicate respectively；Wherein, dissolve bag inlet opening to be connected with end face first water hole of interior valve block by water inlet flow channel in valve body；Regenerative agent access aperture enters runner by regenerative agent in valve body and connects with water distributing pore under valve body；When carrying out station for the moment, end face the first water hole indexing connection of the relatively interior valve block in end face the 3rd water hole of described external valve plate；End face the five, the 6th water hole indexing connection of the relatively interior valve block in end face the 4th water hole of external valve plate, and connect with water distributing pore, limber hole on valve body by valve body, each runner is corresponding；When carrying out station two, end face the 5th water hole indexing connection of the relatively interior valve block in end face the 3rd water hole of described external valve plate；End face the second, the 7th water hole indexing connection of the relatively interior valve block in end face the 4th water hole of external valve plate, and connect with water distributing pore, apopore under valve body by valve body, each runner is corresponding；When carrying out station three, end face the 5th water hole indexing connection of the relatively interior valve block in end face the 3rd water hole of described external valve plate；End face the second, the 6th water hole indexing connection of the relatively interior valve block in end face the 4th water hole of external valve plate, and connect with water distributing pore, limber hole under valve body by valve body, each runner is corresponding；When carrying out station four, end face the second water hole indexing connection of the relatively interior valve block in end face the 3rd water hole of described external valve plate；End face the five, the 6th water hole indexing connection of the relatively interior valve block in end face the 4th water hole of external valve plate, and connect with water distributing pore, limber hole on valve body by valve body, each runner is corresponding.

A kind of softener valve with regenerative agent feedway, it is characterised in that: be directly connected with dissolving bag in the upper end of described valve body, described bag inlet opening of dissolving is positioned at the bottom dissolving bag inner chamber；Described regenerative agent access aperture is near the top dissolving bag inner chamber.

A kind of softener valve with regenerative agent feedway, it is characterized in that: separate on described valve body side to be provided with to dissolve and wrap, described dissolving bag inlet opening, regenerative agent access aperture connect correspondence by pipeline respectively and the dissolving water inlet end of bag inner chamber, regenerative agent upstream end communicate.

4. the water treatment facilities of the employing a kind of softener valve with regenerative agent feedway according to any one of claims 1 to 3, it is characterised in that: it is equipped with regenerative agent at the described inner chamber dissolving bag；The upper and lower water-locator that upper and lower for valve body water distributing pore correspondence is connected with is placed in tank inner chamber；It is equipped with filtrate at described tank inner chamber.

5. a kind of water treatment facilities as claimed in claim 4, it is characterised in that: described filtrate is the one of which of positive resin, negative resin and activated carbon.

6. a kind of water treatment facilities as claimed in claim 4, it is characterised in that: described regenerative agent is the one of which of the granule of Sal, sodium hydroxide and disinfectant.