CN206142881U - Collection moulding piece and water softener that water softener used - Google Patents

Abstract

The utility model discloses a collection moulding piece and water softener that water softener used, include: first shell and second shell, the size of first shell is variable, first shell with the second shell can be dismantled ground and connect, first shell its with one side that the second shell is connected is provided with at least one first interconnecting part, the second shell its with one side that first shell is connected is provided with at least one second interconnecting part, works as first shell with when the second shell is connected, first interconnecting part with second interconnecting part intercommunication. The commonality in the integrated water route among this application embodiment is higher, can be applicable to the resin jar of various volumes.

Description

The integration module and water softening device of water softening device

Technical field

This utility model relate to water softening device field, more particularly to a kind of integration module of water softening device.

Background technology

Water softening device is softened can hardness of water, so as to produce the water for meeting preset requirement.Fig. 9 shows existing skill A kind of water softening device commonly used in art.In the prior art, water softening device includes control unit 83, resin container 82, salt box, Venturi etc.. Due to the part in water softening device, interface, runner it is more, thus how by the structure design of water softening device to be more preferably rationally existing skill The technical problem for solving is had always a demand in art.

Utility model content

At least one in order to overcome the drawbacks described above of prior art, technical problem to be solved in the utility model is There is provided the integrating water route and water softening device of a kind of water softening device, it has preferably structure.

The utility model discloses a kind of integration module of water softening device, including：First shell and second shell, the first shell Variable dimension, the first shell and the second shell removedly connect, and the first shell is connected at it with the second shell Side be provided with least one first interconnecting parts, the second shell is provided with least in its side being connected with the first shell One the second interconnecting part, when the first shell and the second shell connect, first interconnecting part and second interconnecting part Connection.

The invention also discloses a kind of water softening device, including the integration module of water softening device described above.

Integration module and water softening device in the application embodiment has advantages below：

1st, the versatility of the integration module in the application embodiment is higher, goes for the resin container of various volumes；

2nd, the small volume of the integration module in the application embodiment, the noise for operationally sending is less；

3rd, the integration module integrated level in the application embodiment is high, and parts are few.

Description of the drawings

Accompanying drawing described here is only used for task of explanation, and is not intended to by any way limit disclosed in this utility model Scope.In addition, shape and proportional sizes of each part in figure etc. are only schematic, it is used to help to reason of the present utility model Solution, is not the shape and proportional sizes for specifically limiting each part of this utility model.Those skilled in the art is new in this practicality Under the teaching of type, various possible shapes and proportional sizes can be as the case may be selected to implement this utility model.

Fig. 1 shows the structural representation of the water softening device in this utility model embodiment.

Fig. 2 is the close-up schematic view of Fig. 1.

Fig. 3 shows the longitdinal cross-section diagram of integrating water route in this utility model.

Fig. 4 shows another longitdinal cross-section diagram of integrating water route in this utility model.

Fig. 5 shows the view in transverse section of integrating water route in this utility model.

Fig. 6 shows another view in transverse section of integrating water route in this utility model.

Fig. 7 A show the hydrographic chart under the softening pattern of this utility model water softening device.

Fig. 7 B show the hydrographic chart under the Water supplement pattern of this utility model water softening device.

Fig. 7 C show the hydrographic chart under the backwash mode of this utility model water softening device.

Fig. 7 D show the hydrographic chart under the brine wash pattern of this utility model water softening device.

Fig. 7 E show the hydrographic chart under the positive mold cleaning formula of this utility model water softening device.

Fig. 7 F show total hydrographic chart of this utility model water softening device.

Fig. 8 shows the structural representation of the second shell of this utility model integrating water route.

Fig. 9 shows the structural representation of water softening device in prior art.

The reference of the figures above is：1st, housing；11st, intake tunnel；12nd, exhalant canal；13rd, first chamber；14th, Two chambers；15th, annular protrusion；16th, first shell；161st, first passage；162nd, second channel；17th, second shell；171st, threeway Road；172nd, fourth lane；173rd, the first opened portion；174th, the second opened portion；175th, the 3rd opened portion；176th, the 4th opened portion； 21st, water inlet controlling organization；210th, the first water inlet cavity；211st, the second water inlet cavity；22nd, outlet water control mechanism；220th, first goes out Water chamber；221st, the second water outlet cavity；23rd, first discharge mechanism is rinsed；231st, first water chamber is flushed out；232nd, second rinse Water outlet cavity；24th, second discharge mechanism is rinsed；241st, the 3rd water chamber is flushed out；242nd, the 4th water chamber is flushed out；25th, cut Change valve；30th, drain outlet；31st, first flow；32nd, second flow channel；33rd, the first blowdown runner；34th, the second blowdown runner；35、 First flushing flow passage；36th, the second flushing flow passage；A, first interface；B, second interface；C, the 3rd interface；D, the 4th interface；41、 First check valve；42nd, the second check valve；51st, the first side；52nd, the second side；53rd, first end；54th, the second end；61st, the first opening； 62nd, the second opening；63rd, the 3rd opening；64th, the 4th opening；71st, Venturi tube；72nd, control device；73rd, bypass mechanism；81st, salt Case；82nd, resin container；83rd, control unit.

Specific embodiment

With reference to the description of accompanying drawing and this utility model specific embodiment, can clearly understand of the present utility model Details.But, specific embodiment of the present utility model described here is not only used for explaining the purpose of this utility model, and not Can be understood as by any way being to restriction of the present utility model.Under teaching of the present utility model, technical staff is contemplated that Based on arbitrarily possible deformation of the present utility model, these are regarded as belonging to scope of the present utility model.

It should be noted that when element is referred to as " being arranged at " another element, it can directly on another element Or can also there is element placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or may be simultaneously present centering elements.Term as used herein " vertical ", " level ", " left side ", For illustrative purposes only, it is unique embodiment to be not offered as " right side " and similar statement.

Unless otherwise defined, all of technology used herein and scientific terminology and the technical field for belonging to the application The implication that technical staff is generally understood that is identical.Herein the term used in the description of the present application is intended merely to description tool The purpose of the embodiment of body, it is not intended that in restriction the application.Term as used herein "and/or" includes one or more The arbitrary and all of combination of related Listed Items.

Shown in seeing figures.1.and.2, the embodiment of the present application discloses a kind of water softening device, including integrating water route, be connected to it is integrated Resin container 82, salt box 81 on water route.

With reference to shown in Fig. 1, the embodiment of the present application discloses a kind of integrating water route of water softening device.Specifically, integrating water route Housing 1 can have length direction, width and short transverse, wherein the width side of the length direction of housing 1 and paper To parallel, the short transverse of housing 1 is parallel with the length direction of paper, and the width of housing 1 is perpendicular to paper.

With reference to shown in Fig. 3 and Fig. 4, in the present embodiment, intake tunnel 11 is could be formed with housing 1 and water outlet is logical Road 12.Intake tunnel 11 and exhalant canal 12 can be isolated and be set up in parallel by the dividing plate being disposed there between respectively.Water inlet is logical Road 11 and exhalant canal 12 can be from the lower surface of housing 1 along housing 1 short transverse extend.Intake tunnel 11 can be used for The entrance connection of resin container 82.Exhalant canal 12 can be used for the outlet with resin container 82.

With reference to shown in Fig. 3 and Fig. 5, in the housing 1 first chamber 13 is could be formed with.The first chamber 13 can be with position In the top of intake tunnel 11, and intersect with intake tunnel 11.In the present embodiment, the projection of the cross section of first chamber 13 Overlap at least in part with the projection of the cross section of intake tunnel 11.Preferably, the sectional area of the cross section of first chamber 13 is big In the sectional area of the cross section of intake tunnel 11.It is highly preferred that the projection of the cross section of intake tunnel 11 is located at or most of position In the projection of the cross section of first chamber 13.

With reference to shown in Fig. 4 and Fig. 5, second chamber 14 is could be formed with the housing 1.The second chamber 14 is located at The top of exhalant canal 12, and intersect with exhalant canal 12.In the present embodiment, the sectional area of the cross section of second chamber 14 More than the sectional area of the cross section of exhalant canal 12.Preferably, the sectional area of the cross section of second chamber 14 is more than exhalant canal The sectional area of 12 cross section.It is highly preferred that the projection of the cross section of exhalant canal 12 is located at or is predominantly located in second chamber In the projection of 14 cross section.

Certain, first chamber 13 and second chamber 14 by dividing plate isolation and can be set up in parallel, further to carry The integrated level in highly integrated water route.

In the present embodiment, integrating water route passes through first chamber 13 and second chamber 14 respectively by intake tunnel 11 and water outlet Passage 12 is extended, and while ensureing that intake tunnel 11 and exhalant canal 12 are connected respectively with each respective modules, is carried The high integrated level of the integrating water route.

With reference to shown in Fig. 2, can be provided with into water controlling organization 21 on the housing 1.Water inlet controlling organization 21 can be with First chamber 13 is connected.Specifically, intake controlling organization 21 entrance can connect with first flow 31, with water source or other Water supplying unit is connected.The outlet of water inlet controlling organization 21 is connected with first chamber 13, such that it is able to enter not softened water In first chamber 13.First flow 31 can be formed on the housing 1.First flow 31 can be along the length direction of housing 1 Extend.First flow 31 can be connected by water inlet controlling organization 21 with first chamber 13.

With reference to shown in Fig. 2, outlet water control mechanism 22 can be provided with the housing 1.Outlet water control mechanism 22 can be with Second chamber 14 is connected.Specifically, the entrance of outlet water control mechanism 22 is connected with second chamber 14, such that it is able to make through softening Water enter second chamber 14 in.The outlet of outlet water control mechanism 22 can be connected with second flow channel 32.Second flow channel 32 can be with It is formed on the housing 1.Second flow channel 32 can extend along the length direction of housing 1.Preferably, second flow channel 32 can be with First flow 31 is parallel.

With reference to shown in Fig. 6, the first flushing discharge mechanism 23 can be provided with the housing 1.First flushes out water dispenser Structure 23 can be connected with first chamber 13.Specifically, the entrance of the first flushing discharge mechanism 23 is connected with first chamber 13.First punching The outlet for washing discharge mechanism 23 is connected with the first blowdown runner 33, make through flushing process after water from first chamber 13 from first row Dirty runner 33 is discharged.

The water inlet controlling organization 21, described first are rinsed in discharge mechanism 23, the outlet water control mechanism 22 at least Can be arranged with a monomer.That is, described water inlet controlling organization 21, described first rinse discharge mechanism 23, the water outlet control machine One or more in structure 22 are separately provided compared to other mechanisms.

For example, referring to shown in Fig. 2, the water inlet controlling organization 21, described first rinse discharge mechanism 23, it is described go out water control Mechanism processed 22 can be arranged with all monomers.Specifically, it is described water inlet controlling organization 21, it is described first rinse discharge mechanism 23, The outlet water control mechanism 22 can be the control valve with opening and closing function.Preferably, the water inlet controlling organization 21 and described Outlet water control mechanism 22 can be impulse electromagnetic valve.The first flushing discharge mechanism 23 can be normally closed solenoid valve.

Again for example, the water inlet controlling organization 21 and the outlet water control mechanism 22 can be made up of multidigit multiple-way valve.Example Such as, the water inlet controlling organization 21 and the outlet water control mechanism 22 can be made up of two-position four-way valve.That is, in a station When, the water inlet controlling organization 21 and the outlet water control mechanism 22 are in opening, in another station, the water inlet Controlling organization 21 and the outlet water control mechanism 22 are closed.It is described first flushing discharge mechanism 23 can be compared to The impulse electromagnetic valve that multidigit multiple-way valve monomer is arranged.

In the prior art, the break-make in water route is typically controlled by pile-up valve.Due to pile-up valve need Motor drive its Motion, thus the volume of pile-up valve is larger, the sound sent in motion is larger.And in the application embodiment, it is described enter At least can be set with a monomer in water management mechanism 21, the first flushing discharge mechanism 23, the outlet water control mechanism 22 Put, the water inlet controlling organization 21, described first rinse discharge mechanism 23, the outlet water control mechanism 22 and do not need motor to drive It is dynamic, the motor-driven pile-up valve of needs is thus instead of, therefore, in the application embodiment, the small volume of integrating water route, The noise sent during work is less.

Shown in reference picture 7A to Fig. 7 D, water softening device can have softening pattern, Water supplement pattern, backwash mode, brine wash pattern Deng.Under softening pattern, water inlet controlling organization 21, outlet water control mechanism 22 may be at opening.First flushes out water dispenser Structure 23 may be at closed mode.Under Water supplement pattern, water inlet controlling organization 21, outlet water control mechanism 22 may be at opening shape State.First flushing discharge mechanism 23 may be at closed mode.Under backwash mode, water inlet controlling organization 21, water outlet control machine Structure 22 may be at closed mode.First flushing discharge mechanism 23 may be at opening.Under brine wash pattern, enter water management Mechanism 21, outlet water control mechanism 22 may be at closed mode.First flushing discharge mechanism 23 may be at opening.

With reference to shown in Fig. 2, Fig. 6 and Fig. 7 E, in order that water softening device has positive mold cleaning formula, can arrange on the housing 1 There is the second flushing discharge mechanism 24.Second rinses discharge mechanism 24 can be with second chamber 14.Specifically, second discharge mechanism is rinsed 24 outlet is connected with the second blowdown runner 34, make through flushing process after water from second chamber 14 from the row of the second blowdown runner 34 Go out.Under positive mold cleaning formula, outlet water control mechanism 22 and first rinses discharge mechanism 23 and is closed.It is described enter water management Mechanism 21, described second rinse discharge mechanism 24 and are in opening.Under other patterns, described second rinses discharge mechanism 24 It is in closed mode.

It is described water inlet controlling organization 21, it is described first rinse discharge mechanism 23, the outlet water control mechanism 22, described second That what is rinsed in discharge mechanism 24 at least can be arranged with a monomer.That is, described water inlet controlling organization 21, described first rinse water outlet Mechanism 23, the outlet water control mechanism 22, the described second one or more rinsed in discharge mechanism 24 are compared to other mechanisms It is separately provided.

For example, referring to shown in Fig. 2, the water inlet controlling organization 21, described first rinse discharge mechanism 23, it is described go out water control Mechanism processed 22 can be arranged with all monomers.Specifically, it is described water inlet controlling organization 21, it is described first rinse discharge mechanism 23, The outlet water control mechanism 22 can be the control valve with opening and closing function.Preferably, the water inlet controlling organization 21 and described Outlet water control mechanism 22 can be impulse electromagnetic valve.Described first rinses discharge mechanism 23 and described second rinses discharge mechanism 24 It can be normally closed solenoid valve.

Again for example, the water inlet controlling organization 21 and the outlet water control mechanism 22 can be made up of multidigit multiple-way valve.Example Such as, the water inlet controlling organization 21 and the outlet water control mechanism 22 can be made up of three-position four-way valve.In a station, institute State into water controlling organization 21 and the outlet water control mechanism 22 and be in opening.In another station, it is described enter water management Mechanism 21 and the outlet water control mechanism 22 are closed.In another station, the water inlet controlling organization 21 is in Opening, the outlet water control mechanism 22 is closed.Described first rinses discharge mechanism 23 and described second rinses Discharge mechanism 24 can be the impulse electromagnetic valve arranged compared to multidigit multiple-way valve monomer.

Again for example, the first flushing discharge mechanism 23 and the second flushing discharge mechanism 24 can be by multidigit multiple-way valves Constitute.For example, the first flushing discharge mechanism 23 and the second flushing discharge mechanism 24 can be made up of three-position four-way valve. In a station, the first flushing discharge mechanism 23 and the second flushing discharge mechanism 24 are closed.Another During one station, described first rinses discharge mechanism 23 is in opening, and described second rinses discharge mechanism 24 in closing State.In another station, the first flushing discharge mechanism 23 is closed, and described second rinses discharge mechanism 24 In opening.The water inlet controlling organization 21 and the monomer of the outlet water control mechanism 22 are arranged.Preferably, it is described enter water control Mechanism processed 21 and the outlet water control mechanism 22 can be impulse electromagnetic valve.

Again for example, the second flushing discharge mechanism 24 and the outlet water control mechanism 22 are made up of multidigit multiple-way valve.Example Such as, the second flushing discharge mechanism 24 and the outlet water control mechanism 22 can be made up of three-position four-way valve.In a station Under, the second flushing discharge mechanism 24 is closed, and the outlet water control mechanism 22 is in opening.At another Under station, the outlet water control mechanism 22 and the second flushing discharge mechanism 24 are closed.Under another station, The outlet water control mechanism 22 is closed, and described second rinses discharge mechanism 24 is in opening.It is described enter water control The setting of the monomer of discharge mechanism 23 is rinsed by mechanism processed 21 and described first.Preferably, the water inlet controlling organization 21 can be pulse Electromagnetic valve.The first flushing discharge mechanism 23 can be normally closed solenoid valve.

It is described water inlet controlling organization 21, it is described first rinse discharge mechanism 23, the outlet water control mechanism 22, described second Rinse discharge mechanism 24 and do not need Motor drive, thus instead of the motor-driven pile-up valve of needs, therefore, the application is implemented In mode, the small volume of integrating water route, the noise for operationally sending is less.

With reference to shown in Fig. 6, in order to further reduce the volume of integrating water route, the first flow 31 and the second flow channel 32 along the housing 1 length direction extend.The intake tunnel 11 and the exhalant canal 12 are along the height side of the housing 1 To extension, the first blowdown runner 33, the second blowdown runner 34 extend along the width of the housing 1.

It is highly preferred that the first blowdown runner 33 can connect the width to be formed along the housing 1 with the second blowdown runner 34 The drain outlet 30 that direction extends.

With reference to shown in Fig. 2, in order that the integration degree of integrating water route is higher, the first chamber 13, second chamber Room 14, the water inlet controlling organization 21, the outlet water control mechanism 22, described first rinse discharge mechanism 23 and second punching Washing discharge mechanism 24 can be respectively positioned on the second side 52 (left side in Fig. 4) along its length of the housing 1.The first flow 31 The opening for being away from the first chamber 13 may be located at the first side 51 along its length of the housing 1.The second flow channel 32 openings for being away from the second chamber 14 may be located at the first side 51 (right side in Fig. 4) along its length of the housing 1.

With reference to shown in Fig. 2, in order that the integration degree of integrating water route is higher, the intake tunnel 11 and the water outlet are logical Road 12 is located at the first end 53 (lower end in Fig. 2) of the housing 1.The water inlet controlling organization 21, described first rinse water outlet Mechanism 23, described second rinse the (figure of the second end 54 of discharge mechanism 24 and the outlet water control mechanism 22 positioned at the housing 1 Upper end in 2).

In order to further reduce the volume of integrating water route, integrating water route includes at least two mutually isolated water routes, arbitrary Individual water route is with two openings；At least one controlling organization, the controlling organization is corresponding with any one water route, the control machine Structure includes being integrated in the first cavity and the second cavity on the integrating water route, one of them opening and first cavity Connection, second cavity and another described open communication, the controlling organization includes valve element, and the valve element sets in which can move Put on the integrating water route, to control the break-make between first cavity and second cavity.The control unit bag Valve element is included, the valve element is arranged on the integrating water route in which can move, to control first cavity and second cavity Between break-make.Preferably, in order to improve integrated level, the first cavity and the second cavity can be set up in parallel.

In the present embodiment, due to the water route of control unit is integrated on integrating water route, thus the integrating water route Volume can be less.

Shown in reference picture 7F, in the application embodiment, the integrating water route can include the first water route and the second water route. Wherein, the first water route can include first flow 31, first chamber 13 and intake tunnel.First opening 61 in first water route Connect with the first flow 31.Second opening 62 in first water route is connected with the intake tunnel.On the first water route Water inlet controlling organization 21 and first can be set and rinse discharge mechanism 23.Second water route can include second flow channel 32, the second chamber Room 14 and exhalant canal.3rd opening 63 in the second water route is connected with the second flow channel 32.The 4th of second water route opens Mouth 64 is connected with the exhalant canal.Outlet water control mechanism 22 and second can be set on the second water route and rinse discharge mechanism 24。

For example, referring to the first water inlet that controlling organization 21 of shown in Fig. 2 and 6, intaking can include being integrated on the housing 1 The water inlet cavity 211 of cavity 210 and second.First opening 61 in the first water route is connected with the first water inlet cavity 210.First water route Second opening 62 is connected with the second water inlet cavity 211.Water inlet controlling organization 21 also includes water inlet valve element, and the water inlet valve element can be transported It is arranged on dynamicly on the housing 1, to control the break-make of the first water inlet cavity 210 and the second water inlet cavity 211.

For example, referring to shown in Fig. 2 and 3, the first flushing discharge mechanism 23 can include first be integrated on the housing 1 Flush out water chamber 231 and second and flush out water chamber 232.First opening 61 and first in the first water route flushes out water chamber 231 connections.Second opening 62 in the first water route flushes out water chamber 232 and connects with second.First flushing discharge mechanism 23 is also wrapped The first flushing valve element is included, the first flushing valve element is arranged on the housing 1 in which can move, to control the first flushing water chamber Body 231 and the second break-make for flushing out water chamber 232.

For example, referring to shown in Fig. 2 and 6, outlet water control mechanism 22 can include the first water outlet being integrated on the housing 1 The water outlet cavity 221 of cavity 220 and second.3rd opening 63 in the second water route is connected with the first water outlet cavity 220.Second water route 4th opening 64 is connected with the second water outlet cavity 221.Outlet water control mechanism 22 also includes water outlet valve element, and the water outlet valve element can be transported It is arranged on dynamicly on the housing 1, to control the break-make of the first water outlet cavity 220 and the second water outlet cavity 221.

For example, referring to shown in Fig. 2 and Fig. 4, the second flushing discharge mechanism 24 can include being integrated in the on the housing 1 Three flush out water chamber 241 and the 4th flushes out water chamber 242.3rd opening 63 and the 3rd in the second water route flushes out water chamber 241 connections.4th opening 64 in the second water route flushes out water chamber 242 and connects with the 4th.Second flushing discharge mechanism 24 is also wrapped The second flushing valve element is included, the second flushing valve element is arranged on the housing 1 in which can move, to control the 3rd flushing water chamber Body 241 and the 4th flushes out the break-make of water chamber 242.

With reference to shown in Fig. 2, it is preferable that water inlet valve element, water outlet valve element, the first flushing valve element and second rinse valve element can be simultaneously Row arrange, and can relatively described housing 1 slide, further to improve the integrated level of the integrating water route.

With reference to shown in Fig. 2 and Fig. 7 F, integrating water route can include the flushing water intake mechanism being arranged on the housing 1.Punching The outlet for washing water intake mechanism is connected with second chamber 14, and the solution such that it is able to make preset requirement passes through second chamber 14 with to tree Fat tank 82 is rinsed.Rinsing water intake mechanism includes the first flushing flow passage 35 that connects with second chamber 14 of switching valve 25 and the Two flushing flow passages 36.Wherein, the valve of the switching valve 25 has the first interface A connected with the first flushing flow passage 35 and is located at out Second interface B and the intake tunnel positioned at water inlet controlling organization 21 upstream of the exhalant canal connection in the downstream of water management mechanism 22 3rd interface C of connection, the 4th interface D that can be connected with the second flushing flow passage 36, the switching valve 25 has at least three works Make position, when the switching valve 25 is in first position, the first interface A is communicated with second interface B；When the switching valve 25 in the second position when, the first interface A is communicated with the 3rd interface C；When the switching valve 25 is in the 3rd position When, the 3rd interface C is communicated with the 4th interface D.It is provided with and salt box between second flushing flow passage 36 and the 4th interface D The literary mound standpipe 71 of 81 connections.Control device 72 is also provided between the interface D of literary mound standpipe 71 and the 4th.In order to prevent Countercurrently, check valve can also be set on the first flushing flow passage 35 and/or the second flushing flow passage 36.

Shown in reference picture 7A, when water softening device is in softening pattern, water inlet controlling organization 21, outlet water control mechanism 22 are in Opening, the first interface A of switching valve 25 is connected with the 3rd interface C.Control device 72, described first rinse discharge mechanism 23 It is closed with the described second flushing discharge mechanism 24.Water enters first flow 31 from first opening 61 in the first water route, After first chamber 13, the entrance of resin container 82 is entered from the second of the first water route the opening 62 from intake tunnel, in resin container In 82 after sofening treatment, exhalant canal is entered from second opening 62 in the second water route from the outlet of resin container 82, then passed through Flow out from first opening 61 in the second water route after second chamber 14 and second flow channel 32.

Shown in reference picture 7B, when water softening device is in Water supplement pattern, water inlet controlling organization 21, outlet water control mechanism 22 are in Opening.Control device 72, described first rinse discharge mechanism 23 and described second and rinse discharge mechanism 24 in closing shape State.3rd interface C of switching valve 25 is connected with the 4th interface D.Water enters first flow 31 from first opening 61 in the first water route, After first chamber 13, the entrance of resin container 82 is entered from the second of the first water route the opening 62 from intake tunnel, in resin container After 82 are processed, flow out into exhalant canal from second opening 62 in the second water route from the outlet of resin container 82.Another road water passes through 3rd interface C of switching valve 25 enters the 4th interface D, then enters salt box 81 by control device 72 and Venturi tube 71, right Salt box 81 carries out moisturizing, is dissolved the water in salt box 81.

Shown in reference picture 7C, when water softening device is in backwash mode, water inlet controlling organization 21, outlet water control mechanism 22, control Device processed 72, second rinses discharge mechanism 24 and is closed.Described first rinses discharge mechanism 23 is in opening.Cut Change first interface A and the 3rd interface C connection of valve 25.Water enters first interface A from first flow 31, and then by the 3rd interface C enters second chamber 14, then is entered in resin container 82 by the outlet of resin container 82 from the first flushing flow passage 35, exhalant canal, right Resin in resin container 82 carries out backwash, makes resin be beneficial to subsequent treatment in more fluffy state, in resin container 82 Water enter intake tunnel from the entrance of resin container 82 after backwash is carried out to resin, then from first chamber 13 by the first punching Wash discharge mechanism 23 to discharge.

Shown in reference picture 7D, when water softening device is in brine wash pattern, water inlet controlling organization 21, outlet water control mechanism 22, the Two flushing discharge mechanisms 24 are closed.Described first rinses discharge mechanism 23 and control device 72 in opening. First interface A and the 4th interface D connection of switching valve 25.Water enters first interface A from first flow 31, and then connects by the 4th Mouth D enters literary mound standpipe 71, and literary mound standpipe 71 salts out the salt in salt box 81, then logical from the second flushing flow passage 36, exhalant canal Cross the outlet of resin container 82 to enter in resin container 82, the resin in resin container 82 is regenerated.Water in resin container 82 is to tree Fat carries out entering intake tunnel from the entrance of resin container 82 after brine wash, then rinses discharge mechanism 23 by first from first chamber 13 Discharge.

Shown in reference picture 7E, when water softening device is in positive mold cleaning formula, outlet water control mechanism 22, control device 72, first are rushed Wash discharge mechanism 23 to be closed.The water inlet controlling organization 21, described second rinse discharge mechanism 24 in unlatching shape State.Water enters first flow 31 from first opening 61 in the first water route, after first chamber 13, from intake tunnel from the first water Second opening 62 on road enters the entrance of resin container 82, after the resin in resin container 82 is through just washing compression, from resin container 82 Outlet enter exhalant canal from the second of the second water route the opening 62, then rinse discharge mechanism through second chamber 14 and second 24 flow out.

Preferably, under backwash mode, the first interface A of switching valve 25, second interface B and the 3rd interface C can be even It is logical, so that user can also get water under backwash mode.

Preferably, under brine wash pattern, the first interface A of switching valve 25, second interface B and the 4th interface D can be even It is logical, so that user can also get water under brine wash pattern.

Shown in reference picture 7F, in order to prevent watery vomiting stream, in second interface B and the water outlet control machine of the switching valve 25 The first check valve 41 can be provided with second flow channel 32 between structure 22, the switching valve 25 second interface B with it is described The second check valve 42 can be provided with second flow channel 32 between the opening of second flow channel 32.

With reference to shown in Fig. 4, Fig. 5 and Fig. 6, there is the annular protrusion 15 for extending down, institute in the second side 52 of the housing 1 Annular protrusion 15 is stated for being fixedly connected with resin container 82, is provided with for separating the intake tunnel in the annular protrusion 15 With the dividing plate of the exhalant canal.When housing 1 is placed in resin container 82 by annular protrusion 15, the second of first water route Opening 62 is connected with the entrance of resin container 82, second opening 62 and the outlet of resin container 82 in second water route.Thus, Integrating water route can be directly positioned on resin container 82, so as to improve the installation difficulty of integrating water route, also further increased The integration degree of water softening device.

With reference to shown in Fig. 4, Fig. 5, Fig. 8, in order to improve the versatility of integrating water route, the housing 1 includes the He of first shell 16 Second shell 17.The variable dimension of the first shell 16, the first shell 16 and the second shell 17 removedly connect, and described One shell 16 is provided with least one first interconnecting parts in its side being connected with the second shell 17, the second shell 17 its with The side of the connection of the first shell 16 is provided with least one second interconnecting parts, when the first shell 16 and the second shell 17 connect When connecing, first interconnecting part is connected with second interconnecting part.

In another optional embodiment, the first shell 16 includes that the Part I and size of size constancy can The Part II of change, the Part I is removedly connected with the Part II, the Part II and the second shell 17 removedly connect, and the Part I is provided with least one first docking in its side being connected with the Part II Portion, the Part II is provided with the second docking section of insertion Part II, when the Part I and the Part II connect When connecing, first docking section connects to form first interconnecting part with second docking section, when the Part II and institute When stating the connection of second shell 17, second docking section connects with second interconnecting part.

Preferably, first interconnecting part extends along the length direction of the first shell 16, the length of the first shell 16 It is variable.Second docking section extends along the length direction of the Part II, and the length of the Part II is variable.Described One shell 16 can be based on the size of resin container 82 and be chosen.

In one embodiment, with reference to shown in Fig. 5, could be formed with the first shell 16 and the first chamber 13 The first passage 161 of connection and the second channel 162 connected with the second chamber 14.First passage 161 and second channel 162 Can be with mutually isolated.First passage 161 and second channel 162 can be with substantial parallel.The first passage 161 and described second The opening direction of passage 162 can be with identical.With reference to shown in Fig. 8, third channel 171 and four-way are formed with the second shell 17 Road 172.Third channel 171 and fourth lane 172 are mutually isolated.Third channel 171 and fourth lane 172 can generally put down OK.When the first shell 16 and the second shell 17 connect, the first passage 161 connects shape with the third channel 171 Into first flow 31, the second channel 162 connects to form second flow channel 32 with fourth lane 172.Third channel 171 has phase To the first opened portion 173 and the second opened portion 174.The fourth lane 172 has the 3rd relative opened portion 175 and the 4th Opened portion 176.3rd opened portion 175 and first opened portion 173 are located on the wall of the same side of the second shell 17. Second opened portion 174 and the 4th opened portion 176 are located on the wall of the same side of the second shell 17.For example, it is described 3rd opened portion 175 and first opened portion 173 may be located on the left side wall of second shell 17.Second opened portion 174 It is located on the upper side wall of second shell 17 with the 4th opened portion 176.

The first shell 16 and the second shell 17 can removedly be connected by other modes such as bolt, grafting, clampings Connect.Wherein, at least one of the first shell 16 and the second shell 17 variable dimension.In order to adapt to various sizes of tree The size of fat tank 82, first shell 16 and/or second shell 17 can be based on the requirement of resin container 82 and be changed, to avoid in assembling During produce interference.

For example, first passage 161, second channel 162 can extend along the length direction of first shell 16.When resin container 82 When becoming large-sized, longer first shell 16 can be adopted.

In order to further improve integrated, the first chamber 13, the second chamber 14, the water inlet controlling organization 21st, the first flushing discharge mechanism 23, second rinses discharge mechanism 24, outlet water control mechanism 22 can be arranged on the first shell 16 On.

The flushing water intake mechanism can include switching valve 25, and the switching valve 25 is arranged in the second shell 17.

In order to further improve the integrated level of integrating water route, literary mound standpipe can be removedly provided with second shell 17 71.When the use time of literary mound standpipe 71 reaches service life, then literary mound standpipe 71 can be removed from pedestal, so as to right Literary mound standpipe 71 is changed.

In order to further improve the integrated level of integrating water route, bypass mechanism 73, bypass mechanism 73 are provided with second shell 17 The first flow 31 can be connected with second flow channel 32, so as to go wrong or failure in integrating water route or resin container 82 etc. When, directly first flow 31 is directly connected with second flow channel 32, thus, user can be got without resin container 82 The water for processing.

In another embodiment, a kind of integrating water route of water softening device, including：Housing 1；Intake tunnel 11, forms On the housing 1, and for connecting with the entrance of resin container 82；Exhalant canal 12, is formed on the housing 1, and is used for With the outlet of resin container 82, the exhalant canal 12 is isolated with the intake tunnel 11；First chamber 13, is formed in institute State on housing 1, and intersect with the intake tunnel 11；Second chamber 14, is formed on the housing 1, and logical with the water outlet Intersect in road 12；Water inlet controlling organization 21, is arranged on the housing 1, and can connect with the first chamber 13；First flushes out Water dispenser structure 23, is arranged on the housing 1, and can connect with the first chamber 13；Second rinses discharge mechanism 24, is arranged on On the housing 1, and can connect with the second chamber 14；Outlet water control mechanism 22, is arranged on the housing 1, and can be with The second chamber 14 is connected；The water inlet controlling organization 21 and the outlet water control mechanism 22 are by the first multidigit multiple-way valve structure Into, it is described first flushing discharge mechanism 23 and it is described second flushing discharge mechanism 24 be made up of the second multidigit multiple-way valve.

For example, the first multidigit multiple-way valve can be three-position four-way valve.In a station, the He of water inlet controlling organization 21 The outlet water control mechanism 22 is in opening.In another station, the water inlet controlling organization 21 and it is described go out water control Mechanism processed 22 is closed.In another station, the water inlet controlling organization 21 be in opening, it is described go out water control Mechanism processed 22 is closed.

Second multidigit multiple-way valve can be three-position four-way valve.In a station, described first rinses the He of discharge mechanism 23 The second flushing discharge mechanism 24 is closed.In another station, the first flushing discharge mechanism 23 is in Opening, the second flushing discharge mechanism 24 is closed.In another station, described first flushes out water dispenser Structure 23 is closed, and described second rinses discharge mechanism 24 is in opening.It should be noted that retouching in the application In stating, term " first ", " second " etc. are only used for describing the purpose object similar with difference, do not exist between the two successively suitable Sequence, can not be interpreted as indicating or implying relative importance.Additionally, in the description of the present application, unless otherwise stated, " multiple " It is meant that two or more.

Each embodiment in this specification is described by the way of progressive, what each embodiment was stressed be with The difference of other embodiment, between each embodiment identical similar part mutually referring to.

Above-described embodiment only to illustrate technology design of the present utility model and feature, its object is to allow and be familiar with technique Personage will appreciate that content of the present utility model and implement according to this, protection domain of the present utility model can not be limited with this. All equivalence changes made according to this utility model spirit or modification, all should cover protection domain of the present utility model it It is interior.

Claims (17)

1. a kind of integration module of water softening device, it is characterised in that include：First shell and second shell, the size of the first shell Variable, the first shell and the second shell removedly connect, the side that the first shell is connected at it with the second shell At least one first interconnecting parts are provided with, the second shell is provided with least one in its side being connected with the first shell Two interconnecting parts, when the first shell and the second shell connect, first interconnecting part is connected with second interconnecting part.

2. the integration module of water softening device according to claim 1, it is characterised in that first interconnecting part is along described The length direction of one shell extends, and the length of the first shell is variable.

3. the integration module of water softening device according to claim 1, it is characterised in that the first shell includes size constancy Part I and variable dimension Part II, the Part I is removedly connected with the Part II, described Part II is removedly connected with the second shell.

4. the integration module of water softening device according to claim 3, it is characterised in that the Part I its with it is described The side of Part II connection is provided with least one first docking sections, and the Part II is provided with the of insertion Part II Two docking sections, when the Part I and the Part II connect, first docking section and second docking section connect It is logical to form first interconnecting part, when the Part II and the second shell connect, second docking section and described the Two interconnecting parts are connected.

5. the integration module of water softening device according to claim 4, it is characterised in that second docking section is along described The length direction of two parts extends, and the length of the Part II is variable.

6. the integration module of water softening device according to claim 1, it is characterised in that the first shell or the second shell With the connecting portion for fixing with resin container.

7. the integration module of water softening device according to claim 1, it is characterised in that the size of the first shell is based on tree The change in size of fat tank.

8. the integration module of water softening device according to claim 7, it is characterised in that the first shell can be based on the tree Fat tank becomes large-sized or elongated or diminish or shorten.

9. the integration module of water softening device according to claim 1, it is characterised in that include

Intake tunnel, is formed in the first shell, and connects for the entrance with resin container；

Exhalant canal, is formed in the first shell, and for the outlet with resin container, the exhalant canal with it is described enter Aquaporin is isolated；

First chamber, is formed in the first shell, and intersects with the intake tunnel；

Second chamber, is formed in the first shell, and intersects with the exhalant canal；

Water inlet controlling organization, is arranged in the first shell, and can connect with the first chamber；

First rinses discharge mechanism, is arranged in the first shell, and can connect with the first chamber；

Outlet water control mechanism, is arranged in the first shell, and can connect with the second chamber；

It is described enter water management, described first rinse discharge mechanism, at least one of outlet water control mechanism monomer and arrange.

10. the integration module of water softening device according to claim 9, it is characterised in that include：Second flushes out water dispenser Structure, is arranged in the first shell, and can connect with the second chamber.

The integration module of 11. water softening devices according to claim 9, it is characterised in that be formed with phase in the first shell First passage, second channel and the first blowdown runner mutually isolated；

The entrance of the water inlet controlling organization is connected with the first passage, the outlet and described first of the water inlet controlling organization Chamber；

The entrance of the outlet water control mechanism is connected with the second chamber, the outlet of the outlet water control mechanism and described second Channel connection；

It is described first flushing discharge mechanism entrance connect with the first chamber, it is described first rinse discharge mechanism outlet and The first blowdown flow passage.

The integration module of 12. water softening devices according to claim 11, it is characterised in that the second shell includes

Third channel, is formed in the second shell, and the third channel has relative the first opened portion and the second opened portion；

Fourth lane, is formed in the second shell, and the fourth lane and the third channel are mutually isolated, the four-way Road has relative the 3rd opened portion and the 4th opened portion, and the 3rd opened portion and first opened portion are located at described second On the wall of the same side of shell, second opened portion and the 4th opened portion are located on the wall of the same side of the second shell；

When the second shell is connected with the first shell, the first passage connects to form first-class with the third channel Road, the second channel connects to form second flow channel with the fourth lane.

The integration module of 13. water softening devices according to claim 12, it is characterised in that include：Rinse water intake mechanism, institute Stating flushing water intake mechanism includes switching valve, and the switching valve is arranged in the second shell.

The integration module of 14. water softening devices according to claim 13, it is characterised in that the flushing water intake mechanism includes The first flushing flow passage, the second flushing flow passage being formed in the first shell, first flushing flow passage and described second is rinsed Runner is connected with the second chamber, and the switching valve has the first interface connected with the first flushing flow passage and positioned at water outlet The second interface of the exhalant canal connection in controlling organization downstream connect with the intake tunnel positioned at water inlet controlling organization upstream the Three interfaces, the 4th interface that can be connected with the second flushing flow passage, the switching valve has at least three operating positions, cuts when described Change valve in first position when, the first interface is communicated with second interface；It is described when the switching valve is in the second position First interface is communicated with the 3rd interface；When the switching valve is in three positions, the 3rd interface and the described 4th Interface is communicated.

The integration module of 15. water softening devices according to claim 1 or 12, it is characterised in that can tear open in the second shell It is provided with Venturi tube with unloading.

The integration module of 16. water softening devices according to claim 12, it is characterised in that be provided with energy in the second shell The bypass mechanism that the first flow and second flow channel are directly connected.

17. a kind of water softening devices, it is characterised in that include the integrated of water softening device as described in any one of claim 1 to 16 Module.