CN108626440A - Filter and control mechanism - Google Patents

Abstract

The present invention relates to a kind of filter and control mechanisms, including：Lid, control assembly.When above-mentioned filter and control mechanism are not necessarily to water source purifying, water source enters the cavity inside mounting blocks by the first water inlet duct.Then rotation control assembly is until one end of control assembly is located between the first water inlet duct and second water inlet duct.At this time, the runner, the first water inlet duct are discharged duct three with described first and are interconnected, the first water inlet duct and second water inlet duct are mutually isolated by the control assembly, and the first water outlet duct and second water outlet duct are mutually isolated by the control assembly.So that water source can enter from the first water inlet duct, flowed out from the first water outlet duct.Therefore, above-mentioned filter and control mechanism avoid the dismounting on feed pipe, more convenient to use.

Description

Filter and control mechanism

Technical field

The present invention relates to the technical fields of water source purifying, more particularly to a kind of filter and control mechanism.

Background technology

It is increasingly serious with pollution of waterhead, water source filter is often added on water supply pipe.So that supplying water Water source in pipe can carry out purification filtering by water source filter, improve the quality at water source.But this water source filter adds After being located on feed pipe, when without to water source purifying, water source can not be directed across water source filter and be flowed out from feed pipe.Cause This, can only remove water source filter from feed pipe.Use so as to cause water source filter is inconvenient.

Invention content

Based on this, it is necessary to provide a kind of filter and control mechanism so that filter it is more convenient to use.

Its technical solution is as follows：

A kind of control mechanism, including：Lid, the lid are equipped with mounting blocks, cavity are offered on the mounting blocks, and The first water inlet duct, the first water outlet duct, the second water inlet duct and the second apopore are offered along the sidewall spacers of the cavity Road；Control assembly, the control assembly is rotationally installed in the cavity inside, and offers and be used in the control assembly Convey the runner at water source；It intakes between duct and second water inlet duct when one end of the control assembly is located at described first When, the other end of the control assembly is located at described first and is discharged between duct and second water outlet duct, described first into Water hole road is connected by the runner with first water outlet duct；The first water inlet duct and second water inlet duct Mutually isolated by the control assembly, the first water outlet duct passes through the control assembly phase with second water outlet duct Mutually isolation.

It is described when one end of the control assembly, which is located at described first, to intake between duct and first water outlet duct The other end of control assembly be located at it is described second intake duct and it is described second water outlet duct between, it is described first water inlet duct with Second water inlet duct is connected, and the first water outlet duct is connected by the runner with second water outlet duct.

The control assembly includes valve rod and sealing ring, and the seal ring set is located on the valve rod, and the valve rod stretches into The cavity simultaneously contradicts cooperation with the side wall of the cavity, and the valve rod includes the first throughput, the second throughput and blocking part, The wherein side of the blocking part is connected with first throughput, the other side of the blocking part and the second throughput phase Even.

First flow is offered in first throughput, second flow channel is offered in second throughput, when described When one end of blocking part is located between the first water inlet duct and second water inlet duct, the other end position of the blocking part Between the first water outlet duct and second water outlet duct, and the first flow, the first water inlet duct go out with first Water hole road is interconnected, and the second flow channel, the second water inlet duct and the second water outlet duct are interconnected；When the blocking part One end is located at described first when intaking between duct and first water outlet duct, and the other end of the blocking part is located at described the Between two water inlet ducts and second water outlet duct, the first flow, the first water inlet duct and the second water inlet duct are mutual Connection, the second flow channel, the first water outlet duct and the second water outlet duct are interconnected.

The control assembly further includes handle, and the handle is set on the valve rod, and on the side wall of the handle also It is provided with limit protrusion, the both ends of the limit protrusion, which are used to contradict with the lid, to be coordinated.

Control mechanism further includes the first valve body and the second valve body, and first valve body is connected with second valve body, described First valve body is installed on the lid, and the first opening and the second opening, first opening are offered on first valve body It is connected with the end in first water inlet duct, the end that second opening is discharged duct with described first is connected, and described the For two valve bodies for being connected with feed pipe, second valve body is equipped with recess portion and stripper loop, and offering first on the recess portion leads Discharge orifice and the second deflector hole, the end of first deflector hole and first opening in communication, the end of second deflector hole with Second opening in communication, the stripper loop are set on the recess portion, and first deflector hole is located at the stripper loop Inside, second deflector hole is located at the outside of the stripper loop.

A kind of filter, including the control mechanism, body and filtration members, it is internal that the filtration members are set in the set Portion, and the body is connected with the control mechanism with filtration members.

Multiple filter hole are offered in the filtration members, the port of the filtration members is connected with second water outlet duct Logical, second water inlet duct is connected with the body, and second water inlet duct is located at the filtration members and the set Between body.

Filter further includes exhaust part, and the exhaust part is installed on the lid, and one end of the exhaust part is stretched into The body, the exhaust part are used to control the hydraulic pressure inside the body.

Filter further includes separator, and waste water mouth is further opened on the body, and the separator stretches into the waste water mouth It is connected with the body.

When above-mentioned filter and control mechanism are not necessarily to water source purifying, water source enters by the first water inlet duct in mounting blocks The cavity in portion.Then rotation control assembly is until one end of control assembly is located at the first water inlet duct and intakes with described second Between duct.At this point, the runner, first water inlet duct with it is described first be discharged duct three be interconnected, described first into Water hole road and second water inlet duct are mutually isolated by the control assembly, and first water outlet duct goes out with described second Water hole road is mutually isolated by the control assembly.So that water source can enter from the first water inlet duct, from the first water outlet It flows out in duct.Therefore, above-mentioned filter and control mechanism avoid the dismounting on feed pipe, more convenient to use.

Description of the drawings

Fig. 1 is the structural schematic diagram of the control mechanism described in an embodiment；

Fig. 2 is the partial enlarged view of part A shown in Fig. 1；

Fig. 3 is the partial enlarged view of part B shown in Fig. 1；

Fig. 4 is the structural schematic diagram of the control mechanism described in another embodiment；

Fig. 5 is the structural schematic diagram of the filter and control mechanism described in another embodiment.

Reference sign：

10, lid, 100, mounting blocks, 110, cavity, the 111, first water inlet duct, the 112, first water outlet duct, 113, the Two water inlet ducts, the 114, second water outlet duct, 120, exhaust part, 200, control assembly, 210, runner, 211, first flow, 212, second flow channel, 220, valve rod, the 221, first throughput, the 222, second throughput, 223, blocking part, 230, sealing ring, 240, handle, 241, limit protrusion, the 300, first valve body, the 301, first opening, the 302, second opening, the 400, second valve body, 410, the first deflector hole, the 420, second deflector hole, 430, recess portion, 431, water entering section, 432, outlet part, 440, stripper loop, 500, Body, 510, separator, 600, filtration members, 610, filter hole.

Specific implementation mode

To make the objectives, technical solutions, and advantages of the present invention more comprehensible, below in conjunction with attached drawing and specific embodiment party Formula, the present invention is further described in detail.It should be understood that the specific embodiments described herein are only solving The present invention is released, protection scope of the present invention is not limited.

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

Unless otherwise defined, all of technologies and scientific terms used here by the article and belong to the technical field of the present invention The normally understood meaning of technical staff is identical.Used term is intended merely to description tool in the description of the invention herein The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term " and or " used herein includes one or more Any and all combinations of relevant Listed Items.

Heretofore described " first ", " second " do not represent specific quantity and sequence, are only used for the differentiation of title.

As shown in Figures 1 to 4, in one embodiment, a kind of control mechanism, including：Lid 10 and control assembly 200. The lid 10 is equipped with mounting blocks 100, offers cavity 110 on the mounting blocks 100, and along the side wall of the cavity 110 It is spaced apart and is discharged duct 114 equipped with the first water inlet duct 111, first water outlet duct 112, second water inlet duct 113 and second.Institute Control assembly 200 is stated rotationally to be installed in inside the cavity 110.And it is offered in the control assembly 200 for conveying The runner 210 at water source；When one end of the control assembly 200 is located at the first water inlet duct 111 and second inlet opening When between road 113, the other end of the control assembly 200 is located at described first and is discharged duct 112 and second water outlet duct Between 114, the first water inlet duct 111 is connected by the runner 210 with first water outlet duct 112.Described One water inlet duct 111 and second water inlet duct 113 are mutually isolated by the control assembly 200, first apopore Road 112 and second water outlet duct 114 are mutually isolated by the control assembly 200.When water source is directly over control assembly When 200 runner 210 flows out, the control assembly 200 is along the axial direction setting perpendicular to the cavity 110.Specifically, described The wherein one end in one water inlet duct 111 is connected with the cavity 110, and the other end in first water inlet duct 111 is opened in The end of the lid 10.The wherein one end in first water outlet duct 112 is connected with the cavity 110, and described first goes out The other end in water hole road 112 is opened in the end of the lid 10.The wherein one end in second water inlet duct 113 and the sky Chamber 110 is connected, and the other end in second water inlet duct 113 is opened in the bottom of the lid 10 and is used for and filter Body 500 is connected.The wherein one end in second water outlet duct 114 is connected with the cavity 110, second apopore The other end in road 114 is opened in the bottom of the lid 10 and is used for and is connected inside the filtration members 600 of filter.Specifically Ground is also equipped with conflict plate in the control assembly 200.I.e. after control assembly 200 is installed in 110 inside of cavity, institute The bottom for stating conflict plate and the cavity 110 mutually contradicts, and increases the contact area of control assembly 200 and 110 bottom of cavity. So that rotation of the control assembly 200 inside cavity 110 is gentler, meanwhile, control assembly 200 is bearing water source impact When, larger frictional force can be provided by component 200 in order to control by contradicting plate, to improve control assembly 200 in control mechanism Stability.

In another embodiment, when water source needs to be filtered by control mechanism importing filter, when the control When one end of component 200 processed is located between the first water inlet duct 111 and first water outlet duct 112, the control group The other end of part 200 is located at described second and intakes between duct 113 and second water outlet duct 114.First inlet opening Road 111 is connected with second water inlet duct 113, and the first water outlet duct 112 is by the runner 210 and described second Water outlet duct 114 is connected.Specifically, when one end of the control assembly 200 be located at it is described first intake duct 111 with it is described Between first water outlet duct 112, and the other end of the control assembly 200 is located at described second and intakes duct 113 and described the Between two water outlet ducts 114.It can realize that water source imports filter by control mechanism and is filtered.More specifically, according to First water inlet duct 111, first is discharged the interval distance that the water inlet duct 113 and second of duct 112, second is discharged between duct 114 From.The port outer rim of the cavity 110 is provided with scale value corresponding with the spacing distance, user can be according to scale value Prompt control assembly 200 is rotated into corresponding angle, to realize control assembly 200 for 110 inside water source of cavity Accuracy controlling.

As depicted in figs. 1 and 2, in one embodiment, the control assembly 200 includes valve rod 220 and sealing ring 230. The sealing ring 230 is set on the valve rod 220, the valve rod 220 stretch into the cavity 110 and with the cavity 110 Side wall contradicts cooperation.The valve rod 220 includes the first throughput 221, the second throughput 222 and blocking part 223.The blocking part 223 wherein side is connected with first throughput 221, the other side of the blocking part 223 and second throughput 222 It is connected.First throughput 221, the second throughput 222 and blocking part 223 are integrally formed.Specifically, the control group After part 200 is installed in 110 inside of the cavity, the side wall of the side wall of first throughput 221 and second throughput 222 It is inconsistent with the side wall of the cavity 111.So that water source is merely able to after entering cavity 110 under the water conservancy diversion of runner 210 It circulates.It avoids water source and generates turbulent flow inside cavity 110, improve the speed that water source flows through control mechanism.Valve rod 220 One end stretch into the cavity 110, be located at valve rod 220 on blocking part 223 can with the side wall of cavity 110 contradict coordinate.And The blocking part 223 can will be separated into independent first cavity and the second cavity inside cavity 110, water source flows into cavity 110 After can effectively be obstructed current limliting by blocking part 223.Specifically, the sealing ring 230 is set in the valve rod 220 On, the sealing ring 230 is elastic ring or rubber ring.So that the control assembly 200 is in 110 inner rotation of cavity, The valve rod 220 can fully be contradicted with the side wall of the cavity 110, so as to avoid omission of the water source inside cavity 110.

In one embodiment, first flow 211, second throughput 222 are offered in first throughput 221 On offer second flow channel 212.When one end of the blocking part 223 be located at it is described first intake duct 111 with described second into When between water hole road 113, the other end of the blocking part 223 is located at described first and is discharged duct 112 and second apopore Between road 114.And the water inlet of first flow 211, first duct 111 and first is discharged duct 112 and is interconnected, described second The water inlet of runner 212, second duct 113 and second is discharged duct 114 and is interconnected.When one end of the blocking part 223 is located at institute When stating between the first water inlet duct 111 and first water outlet duct 112, the other end of the blocking part 223 is located at described the Between two water inlet ducts 113 and second water outlet duct 114.The water inlet of the first flow 211, first duct 111 and second Intaking, duct 113 is interconnected, and the second flow channel 212, first is discharged the water outlet duct 114 of duct 112 and second and is interconnected. First throughput 221 is the first arc panel, offers the first opening 301 on first arc panel, inside cavity 110 Water source can enter first flow 211 by first opening 301.Second throughput 222 is the second arc panel, described The second opening 302 is offered on second arc panel, the water source inside cavity 110 can be open by described second 302 enters the Two runners 212.Further, the runner 210 is recess portion or channel.I.e. described first opening 301 and second opening 302 It is long mouth.So that control assembly 200 is in rotation, the first flow 211 in the first throughput 221 and the second throughput What the second flow channel 212 on 222 can be more prone to is connected with water hole road.Such as：, first flow 211 (or second flow channel 212), the first water inlet duct 111 and second intakes the contraposition of duct 113 and connection, second flow channel 212 (or first flow 211), the Two water outlet ducts 114 align and are connected to the first water outlet duct 112.Further, user is changed by rotating control assembly 200 Become angle of inclination of the first flow 211 in the first throughput 221 relative to 110 side wall of cavity, and changes the second throughput Angle of inclination of the second flow channel 212 relative to 110 side wall of cavity on 222.In the present embodiment, when blocking part 223 and cavity When 110 axial direction is perpendicular, first flow 211 (or second flow channel 212), the first water inlet duct 111 and first are discharged duct 112 Contraposition and connection, second flow channel 212 (or first flow 211), second water inlet duct 113 and second water outlet duct 114 pair Position and connection.When blocking part 223 is parallel with the axial direction of cavity 110, first flow 211 (or second flow channel 212), the first water inlet Water inlet duct 113 contraposition of duct 111 and second and connection, second flow channel 212 (or first flow 211), the second water outlet duct 114 It aligns and is connected to the first water outlet duct 112.This embodiment by first flow 211 and 212 common water conservancy diversion of second flow channel, Rotational angle of the control assembly 200 in regulation and control can be greatly reduced.So that control mechanism is more convenient to use.

Specifically, in one embodiment, the control assembly 200 further includes handle 240.The handle 240 is set in On the valve rod 220, and limit protrusion 241 is additionally provided on the side wall of the handle 240, the both ends of the limit protrusion 241 It is used to contradict with the lid 10 and coordinate.The end of the valve rod 220 is additionally provided with hexagon bolt, is opened on the handle 240 Equipped with the interior hexagonal hole being adapted with the hexagon bolt.Further, the limit protrusion 241 is set in the handle On 240, wherein one end of the limit protrusion 241 is contradicted with lid 10 first.Measure blocking part 223 wherein one end from first into Needed for being turned between the water outlet duct 112 of water hole road 111 and first between the water inlet duct 113 of first water inlet duct 111 and second Angle, then the other end of the limit protrusion 241 is correspondingly arranged according to this angle on the handle 240.It is i.e. described Limit protrusion 241 on handle 240 is since contradicting wherein one end and the lid 10, to the another of the limit protrusion 241 End is contradicted with the lid 10；The angle that handle 240 is rotated disclosure satisfy that one end of blocking part 223 from the first water inlet duct 111 and first water outlet duct 112 between turn to the first water inlet duct 111 and second water inlet duct 113 between.Therefore, user It can accurately change stream of the water source inside cavity 110 only by control 241 both ends of limit protrusion and the conflict of lid 10 Flowing mode.

As shown in figures 1 and 3, in one embodiment, control mechanism further includes the first valve body 300 and the second valve body 400. First valve body 300 is connected with second valve body 400, and first valve body 300 is installed on the lid 10, and described First valve body 300 is connected with the mounting blocks 100.The first opening 301 and second opening is offered on first valve body 300 302.First opening 301 is connected with the end in first water inlet duct 111, second opening 302 and described first The end in water outlet duct 112 is connected, and second valve body 400 with feed pipe for being connected.Second valve body 400 is equipped with recessed Portion 430 and stripper loop 440 offer the first deflector hole 410 and the second deflector hole 420, first water conservancy diversion on the recess portion 430 The end in hole 410 is connected with first opening 301, and the end of second deflector hole 420 is connected with second opening 302 It is logical.The stripper loop 440 is set on the recess portion 430, and first deflector hole 410 is located at the interior of the stripper loop 440 Portion, second deflector hole 420 are located at the outside of the stripper loop 440.The stripper loop 440 is rubber ring or elastic ring.Institute It states and offers protrusion corresponding with the recess portion 430 on the first valve body 300, when first valve body 300 and second valve body After 400 are connected, the end outer rim of first deflector hole 410 can extend into first opening 301 and with first opening 301 Inner edge be connected, meanwhile, the recess portion 430 is separated into water entering section 431 and outlet part 432 by the stripper loop 440.Described first Opening 301 is opened on the water entering section 431, and second opening 302 is opened on the outlet part 432.I.e. when water source needs When filter being wanted to be filtered, raw water flows through the first valve body 300 from the second valve body 400 first and imports cavity 110, has then filtered It is exported followed by the first valve body 300 and the second valve body 400 from cavity 110 at the water purification of generation.Whole process realizes only The separate transport of water and raw water.

As shown in figure 4, specifically, when needing to be filtered purification to water source, water source is entered by water entering section 431 first Water source is imported filter by the second water inlet duct 113 and is filtered processing, generated after filtering by control mechanism, control mechanism Water purification exports filter by the second water outlet duct 114 and enters control mechanism.Last control mechanism is by water purification from outlet part 432 Export.It is mutually polluted so as to avoid water entering section 431 and 432 different types of water source of outlet part.As shown in figure 5, more specifically, When without being purified to water source, water source by water entering section 431 enter control mechanism, rotation control assembly 200 by first into Water hole road 111 and second intakes, and duct 113 is mutual to be obstructed, by the second water outlet duct 114 and the first water outlet 112 phase mutual resistance of duct Every.At this point, only having the first water inlet duct 111 to be connected with the first water outlet duct 112 inside the cavity 110 of control mechanism.From And it is no longer pass through filter filtration, purification after making water source enter control mechanism and water source can be exported again.

In one embodiment, a kind of filter, including above-mentioned control mechanism, body 500 and filtration members 600.The mistake Filter part 600 is set in inside the body 500, and the body 500 is connected with the control mechanism with filtration members 600.Institute It is softener resin and soft water salt to state filtration members 600.The body 500 is transparent body 500, specifically, in the present embodiment, institute It states and offers the first internal thread and the second internal thread on lid 10.The body 500 is equipped with corresponding with first internal thread The first external screw thread, offer the second external screw thread corresponding with the second internal thread is told in the filtration members 600.User can be saturating The Expenditure Levels of softener resin or soft water salt that body 500 observes directly in filtration members 600 are crossed, then to softener resin or soft Water salt is replaced in time, ensure that the purification efficiency of filter.

As shown in Figure 4 and Figure 5, in another embodiment, multiple filter hole 610 are offered in the filtration members 600.Institute The port for stating filtration members 600 is connected with second water outlet duct 114, the second water inlet duct 113 and the body 500 It is connected, and second water inlet duct 113 is between the filtration members 600 and the body 500.Filter further includes row Gas part 120.The exhaust part 120 is installed on the lid 10, and the body 500 is stretched into one end of the exhaust part 120, The exhaust part 120 is used to control the hydraulic pressure inside the body 500.Filter further includes separator 510.The body 500 On be further opened with waste water mouth, the separator 510 stretches into the waste water mouth and is connected with the body 500.Water source first passes around Two water inlet ducts 113 enter body 500.Multiple filter hole 610 are offered in the bottom of filtration members 600, water source enters body 500 Enter inside filtration members 600 through filter hole 610 later and is filtered purification.Then the water purification generated is by the second water outlet duct 114 export bodies 500.Specifically, exhaust part 120 is added on the lid of control mechanism 10, the exhaust part 120 is exhaust spiral shell Nail or air bleeding valve.The exhaust part 120 is used to control the hydraulic pressure inside body 500, avoids the hydraulic pressure mistake inside body 500 Height ensure that flow of the water source inside body 500 and filtration members 600 balances.More specifically, in the present embodiment, separator 510 be end cap or piston.It is not necessarily to when user handles the waste water inside body 500 by body 500 from control mechanism Dismounting is taken out, and directly waste water can be discharged from body 500 by the waste water mouth on body 500.

When above-mentioned filter and control mechanism are not necessarily to water source purifying, water source enters installation by the first water inlet duct 111 Cavity 110 inside block 100.Then rotation control assembly 200 is until one end of control assembly 200 is located at first inlet opening Between road 111 and second water inlet duct 113.At this point, the runner 210, first is intake, duct 111 is discharged with described first 112 three of duct is interconnected, and the first water inlet duct 111 passes through the control assembly with second water inlet duct 113 200 is mutually isolated, it is described first water outlet duct 112 with it is described second be discharged duct 114 by the control assembly 200 mutually every From.So that water source can enter from the first water inlet duct 111, flowed out from the first water outlet duct 112.Therefore, above-mentioned filtering Device and control mechanism avoid the dismounting on feed pipe, more convenient to use.

Each technical characteristic of embodiment described above can be combined arbitrarily, to keep description succinct, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, it is all considered to be the range of this specification record.

Several embodiments of the invention above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the protection of the present invention Range.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (10)

1. a kind of control mechanism, which is characterized in that including：

Lid, the lid are equipped with mounting blocks, offer cavity on the mounting blocks, and open along the sidewall spacers of the cavity Equipped with the first water inlet duct, the first water outlet duct, the second water inlet duct and the second water outlet duct；

Control assembly, the control assembly are rotationally installed in the cavity inside, and are opened up in the control assembly useful Runner in conveying water source；When one end of the control assembly be located at it is described first intake duct with it is described second intake duct it Between when, the other end of the control assembly is located at described first and is discharged between duct and second water outlet duct, described first Water inlet duct is connected by the runner with first water outlet duct；The first water inlet duct and second inlet opening Road is mutually isolated by the control assembly, and the first water outlet duct is discharged duct with described second and passes through the control assembly It is mutually isolated.

2. control mechanism according to claim 1, which is characterized in that when one end of the control assembly is located at described first When intaking between duct and first water outlet duct, the other end of the control assembly is located at the second water inlet duct and institute Between stating the second water outlet duct, the first water inlet duct is connected with second water inlet duct, first water outlet duct It is connected with second water outlet duct by the runner.

3. control mechanism according to claim 2, which is characterized in that the control assembly includes valve rod and sealing ring, institute It states seal ring set to be located on the valve rod, the valve rod, which stretches into the cavity and contradicts with the side wall of the cavity, to be coordinated, described Valve rod includes the first throughput, the second throughput and blocking part, the wherein side of the blocking part and the first throughput phase Even, the other side of the blocking part is connected with second throughput.

4. control mechanism according to claim 3, which is characterized in that first flow is offered in first throughput, Second flow channel is offered in second throughput, is intake duct and described the when one end of the blocking part is located at described first When between two water inlet ducts, the other end of the blocking part be located at described first be discharged duct with described second be discharged duct it Between, and the first flow, the first water inlet duct are interconnected with the first water outlet duct, the second flow channel, the second inlet opening Road and the second water outlet duct are interconnected；It is discharged with described first when one end of the blocking part is located at the first water inlet duct When between duct, the other end of the blocking part is located at described second and intakes between duct and second water outlet duct, described First flow, the first water inlet duct and the second water inlet duct are interconnected, and the second flow channel, the first water outlet duct go out with second Water hole road is interconnected.

5. control mechanism according to claim 3, which is characterized in that the control assembly further includes handle, the handle It is set on the valve rod, and is additionally provided with limit protrusion on the side wall of the handle, the both ends of the limit protrusion are used to It contradicts and coordinates with the lid.

6. control mechanism according to claim 1, which is characterized in that further include the first valve body and the second valve body, described One valve body is connected with second valve body, and first valve body is installed on the lid, and is offered on first valve body One opening with second opening, it is described first opening with it is described first intake duct end is connected, it is described second be open with it is described The end in the first water outlet duct is connected, second valve body for being connected with feed pipe, second valve body be equipped with recess portion and Stripper loop offers the first deflector hole and the second deflector hole on the recess portion, and the end of first deflector hole is opened with described first Mouth is connected, and the end of second deflector hole and second opening in communication, the stripper loop are set on the recess portion, and First deflector hole is located at the inside of the stripper loop, and second deflector hole is located at the outside of the stripper loop.

7. a kind of filter, including control mechanism, body and filtration members described in claim 1 to 6, which is characterized in that described Filtration members are set in inside the body, and the body is connected with the control mechanism with filtration members.

8. filter according to claim 7, which is characterized in that multiple filter hole are offered in the filtration members, it is described The port of filtration members is connected with second water outlet duct, and second water inlet duct is connected with the body, and described Second water inlet duct is between the filtration members and the body.

9. filter according to claim 7, which is characterized in that further include exhaust part, the exhaust part is installed in described On lid, and the body is stretched into one end of the exhaust part, and the exhaust part is used to control the hydraulic pressure inside the body.

10. filter according to claim 7, which is characterized in that further include separator, be further opened on the body useless The mouth of a river, the separator stretch into the waste water mouth and are connected with the body.