CN209315790U - Shunt valve component and household electrical appliance - Google Patents

Abstract

The utility model discloses a kind of shunt valve component and household electrical appliance, shunt valve component includes shell and shunt valve, a point water cavity is formed in the shell, the shell offers water inlet, water return outlet, first water outlet and the second water outlet, the shunt valve, which is set to, described to be divided in water cavity and water cavity can be divided to be divided into the first point of water cavity and second point of water cavity separated by described, first point of water cavity is connected to the water inlet, the shunt valve can it is described divide in water cavity rotate so that first point of water cavity be connected to the water inlet and first water outlet with so that second point of water cavity is connected to second water outlet and the water return outlet, and separates the water inlet and first water outlet and first point of water cavity is made to be connected to the water inlet and second water outlet.

Description

Shunt valve component and household electrical appliance

Technical field

The utility model relates to field of home appliance technology, in particular to a kind of shunt valve component and household electrical appliance.

Background technique

Normally, dish-washing machine is in order to improve the cleaning effect to tableware, it will usually heating device be arranged, by washing water It is heated, thus while high-temperature wash water washes away the pollutant on tableware, and heat is taken on tableware, to wash the dishes Machine system can obtain higher clean rate and the index of aridity in shorter wash time.But it due to the limitation of system structure, washes Water is washed when passing through heating device, water wing passage flow resistance is larger, can make dish-washing machine spray arm injection pressure decline or The problems such as washing pump wasted work increases.And heating process only accounts for the time of a part within dish-washing machine washing total time.It is by heating System is directly accessed in washing water circulation stream, and within the non-heated period, drag losses caused by the heated device of water flow can be made The case where at the pressure reduction of spray arm water flow jet and washing water flow decline, so as to cause dishwashing detergent effect variation.

Utility model content

The utility model provides a kind of shunt valve component and household electrical appliance.

The shunt valve component of the embodiments of the present invention includes shell and shunt valve, and a point water is formed in the shell Chamber, the shell offer water inlet, water return outlet, the first water outlet and the second water outlet, and the shunt valve is set to described point In water cavity and water cavity can be divided to be divided into the first point of water cavity and second point of water cavity separated by described, first point of water cavity is connected to institute Water inlet is stated, the shunt valve can divide rotation in water cavity so that first point of water cavity is connected to the water inlet and institute described State the first water outlet with so that second point of water cavity is connected to second water outlet and the water return outlet, and make the water inlet and First water outlet separates and first point of water cavity is made to be connected to the water inlet and second water outlet.

In above-mentioned shunt valve component, when shunt valve component is applied to household electrical appliance, heating device can be connected to On the pipeline for connecting the first water outlet and water return outlet, and the gushing arm of household electrical appliance can by the second water outlet of piping connection, In this way when needing to heat water, shunt valve can be rotated so that first point of water cavity connection water inlet and the first water outlet, at this moment pass through The water energy that water inlet enters enough flows out from the first water outlet via first point of water cavity and by heating devices heat, and heating device adds Water energy after heat is enough to flow into second point of water cavity by water return outlet, and can flow to gushing arm by the second water outlet to be sprayed, When not needing to heat water, can be rotated shunt valve so that shunt valve partition water inlet and the first water outlet, at this moment through water inlet into The water energy entered is enough directly to flow to gushing arm from the second water outlet via first point of water cavity to be sprayed, and such water does not have to flow through and add Thermal can reduce the resistance within the non-heated period in flow promoter system, reduce the increase of washing pump wasted work and wash time is longer The problem of, and then promote the system scourability of household electrical appliance.

In some embodiments, the shunt valve has first flap, and the first flap can be in the shunt valve First water outlet is opened or closed when rotation.

In some embodiments, the first flap offers limbers, in shunt valve rotation, described first Baffle can be connected to first water outlet and first point of water cavity by the limbers.

In some embodiments, the shunt valve, which has, separates baffle, and the separation baffle divides water cavity to separate for described For first point of water cavity and second point of water cavity, the separation baffle can divide rotation in water cavity described to be connected to described Water inlet and first water outlet separate the water inlet and first water outlet.

In some embodiments, the separation baffle includes baffle ontology and the two sides for being connected to the baffle ontology Two baffle connection sheets, two baffle connection sheets are sticked the inner wall for dividing water cavity respectively.

In some embodiments, the baffle connection sheet is connect with the inner wall arc for dividing water cavity.

In some embodiments, the shunt valve has second flap, and the second flap can be in the shunt valve Second water outlet is opened or closed when rotation.

In some embodiments, the number of second water outlet is multiple, the number of the second flap be it is multiple, The number of the second flap is identical as the number of second water outlet.

In some embodiments, the number of second water outlet is two, and the number of the second flap is two, Two second water outlet interval settings, two second flap interval settings.

In some embodiments, the shunt valve includes fixed part, and the second flap is removably installed in described Fixed part.

In some embodiments, the shell offers channel, and the channel is connected to second water outlet, and described the Two baffles include bottom plate and from the first auxiliary section that the bottom plate upwardly extends, and the fixed part is formed with and first cooperation The second auxiliary section that portion is cooperatively connected, the second flap can play on or off by the bottom plate when the shunt valve is rotated The entrance in the channel is closed to open or close second water outlet.

In some embodiments, the shunt valve has third baffle, and the third baffle can be in the shunt valve The water return outlet is opened or closed when rotation.

In some embodiments, the shunt valve component includes driving mechanism, divides water described in the driving mechanism connection Valve, the driving mechanism is for driving the shunt valve to rotate.

In some embodiments, the shunt valve component includes sensor, and the driving mechanism includes driving portion and biography Dynamic portion, the driving section connects the driving portion and the shunt valve, the driving section include driving member, and the sensor is used for Detect the position of the driving member.

In some embodiments, the driving portion includes motor, and the shunt valve includes drive rod, the drive rod by It is extended downwardly at the top of the shunt valve, the shunt valve connects the driving member by the drive rod.

In some embodiments, the shell includes lower casing and upper casing, and the lower casing connects the upper casing.

In some embodiments, the lower casing offers the water inlet, the water return outlet and second water outlet, The upper casing offers first water outlet.

The household electrical appliance of the utility model embodiment include cavity, gushing arm, heating device and any of the above-described embodiment The shunt valve component is formed with chamber in the cavity, and the gushing arm is at least partially disposed in the chamber, described Second water outlet connects the gushing arm, and the heating device connects first water outlet and the water return outlet.

In above-mentioned household electrical appliance, when shunt valve component is applied to household electrical appliance, heating device can be connected to connection On the pipeline of first water outlet and water return outlet, and the gushing arm of household electrical appliance can be by the second water outlet of piping connection, in this way When needing to heat water, shunt valve can be rotated so that first point of water cavity is connected to water inlet and the first water outlet, at this moment through intaking The water energy that mouth enters enough flows out from the first water outlet via first point of water cavity and by heating devices heat, and after heating devices heat Water energy it is enough second point of water cavity is flowed by water return outlet, and gushing arm can be flowed to be sprayed by the second water outlet, be not required to When heating to water, shunt valve can be rotated so that shunt valve partition water inlet and the first water outlet, at this moment enter through water inlet Water energy is enough directly to flow to gushing arm from the second water outlet via first point of water cavity to be sprayed, and such water does not have to flow through heating dress It sets, the resistance within the non-heated period in flow promoter system can be reduced, reduction washing pump wasted work, which increases, and wash time is longer asks Topic, and then promote the system scourability of household electrical appliance.

The additional aspect and advantage of the utility model will be set forth in part in the description, partially will be from following description In become obvious, or recognized by the practice of the utility model.

Detailed description of the invention

In description of the above-mentioned and/or additional aspect and advantage of the utility model from combination following accompanying drawings to embodiment It will be apparent and be readily appreciated that, in which:

Fig. 1 is the structural schematic diagram of the household electrical appliance of the embodiments of the present invention；

Fig. 2 is the schematic illustration of the shunt valve component under first mode of the embodiments of the present invention；

Fig. 3 is the schematic illustration of the shunt valve component under second mode of the embodiments of the present invention；

Fig. 4 is the schematic illustration of the shunt valve component under the third mode of the embodiments of the present invention；

Fig. 5 is the schematic illustration of the shunt valve component under fourth mode of the embodiments of the present invention；

Fig. 6 is the schematic illustration of the shunt valve component under the 5th mode of the embodiments of the present invention；

Fig. 7 is the schematic illustration of the shunt valve component under the 6th mode of the embodiments of the present invention；

Fig. 8 is the stereoscopic schematic diagram of the shunt valve component of the embodiments of the present invention；

Fig. 9 is the decomposition diagram of the shunt valve component of the embodiments of the present invention；

Figure 10 is the diagrammatic cross-section of the shunt valve component under first mode of the embodiments of the present invention；

Figure 11 is another section signal of the shunt valve component under first mode of the embodiments of the present invention Figure；

Figure 12 is the diagrammatic cross-section of the shunt valve component under second mode of the embodiments of the present invention；

Figure 13 is another section signal of the shunt valve component under second mode of the embodiments of the present invention Figure；

Figure 14 is the diagrammatic cross-section of the shunt valve component under the third mode of the embodiments of the present invention；

Figure 15 is another section signal of the shunt valve component under the third mode of the embodiments of the present invention Figure；

Figure 16 is the diagrammatic cross-section of the shunt valve component under fourth mode of the embodiments of the present invention；

Figure 17 is another section signal of the shunt valve component under fourth mode of the embodiments of the present invention Figure；

Figure 18 is the diagrammatic cross-section of the shunt valve component under the 5th mode of the embodiments of the present invention；

Figure 19 is another section signal of the shunt valve component under the 5th mode of the embodiments of the present invention Figure；

Figure 20 is the stereoscopic schematic diagram of the shell of the shunt valve component of the embodiments of the present invention；

Figure 21 is the stereoscopic schematic diagram of the shunt valve of the shunt valve component of the embodiments of the present invention；

Figure 22 is the part isometric schematic diagram of the shunt valve of the shunt valve component of the embodiments of the present invention.

Main element symbol description:

Household electrical appliance 100；

Shunt valve component 10, shell 11, divide water cavity 111,1110, first points of inner wall, 1111, second points of water cavity water cavity 1112, Water inlet 112, water return outlet 113, the first water outlet 114, the second water outlet 115, shunt valve 12, first flap 121, limbers 1211, separate baffle 122, baffle ontology 1221, baffle connection sheet 1222, second flap 123, bottom plate 1231, the first auxiliary section 1232, sealing surface 1233, fixed part 124, the second auxiliary section 1241, drive rod 125, third baffle 126, channel 13, entrance 131, driving mechanism 14, driving portion 141, motor 142, driving section 15, driving member 151, sensor 16, lower casing 17, water inlet pipe 171, return pipe 172, the first outlet pipe 173, the second outlet pipe 174, upper casing 18, fixed cover board 19, cavity 20, washing outlet 201, chamber 21, gushing arm 30, the first gushing arm 31, the second gushing arm 32, third gushing arm 33, heating device 40, compressor 41, condenser 42, throttling set 43, evaporator 44, catch basin 50, washing pump 60.

Specific embodiment

The embodiments of the present invention is described below in detail, the example of the embodiment is shown in the accompanying drawings, wherein Same or similar label indicates same or similar element or element with the same or similar functions from beginning to end.Lead to below It crosses the embodiment being described with reference to the drawings to be exemplary, is only used for explaining the utility model, and should not be understood as practical to this Novel limitation.

In the description of the present invention, it should be understood that term " center ", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", The orientation or positional relationship of the instructions such as " clockwise ", " counterclockwise " be based on the orientation or positional relationship shown in the drawings, be only for Convenient for description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have specifically Orientation is constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.In addition, term " first ", " second " is used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance or implicitly indicates indicated technology The quantity of feature.Define " first " as a result, the feature of " second " can explicitly or implicitly include it is one or more The feature.The meaning of " plurality " is two or more in the description of the present invention, unless otherwise clearly specific It limits.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection.It can be mechanical connection, be also possible to be electrically connected.Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements or the interaction relationship of two elements.For those of ordinary skill in the art and Speech, can understand the concrete meaning of above-mentioned term in the present invention as the case may be.

Incorporated by reference to Fig. 1 and Fig. 8 and 9, it is practical new that the shunt valve component 10 of the utility model embodiment can be applied to this In the household electrical appliance 100 of type embodiment.In one example, household electrical appliance 100 can for dish-washing machine or other need using The household cleaning equipment of liquid (such as water).

Household electrical appliance 100 include shunt valve component 10, cavity 20, gushing arm 30 and heating device 40.Wherein, shape in cavity 20 At there is chamber 21.Gushing arm 30 is at least partially disposed in chamber 21.Gushing arm 30 offers multiple spray apertures (not shown go out).It washes Washing liquid can spray via multiple spray apertures to chamber 21, to clean the article (such as tableware) being located in chamber 21.In Fig. 1 Shown in example, gushing arm 30 includes spaced first gushing arm 31, the second gushing arm 32 and third gushing arm 33.First gushing arm 31, the second gushing arm 32 and third gushing arm 33 can be followed successively by gushing arm, middle gushing arm and lower spraying arm.First gushing arm 31, the second gushing arm 32 It may be respectively used in the article that cleaning is located at different location in chamber 21 with third gushing arm 33.Heating device 40 be used for washing water into Row heating, the washing water after heating can be sprayed via the spray apertures of gushing arm 30.

Shunt valve component 10 includes shell 11 and shunt valve 12.Point water cavity 111 is formed in shell 11.Shell 11 opens up There are water inlet 112, water return outlet 113, the first water outlet 114 and the second water outlet 115.Wherein, the first water outlet 114 can pass through The exterior line of shell 11 is connected to water return outlet 113.Shunt valve 12 is set in point water cavity 111 and water cavity 111 can will be divided to divide The first point of water cavity 1111 and second point of water cavity 1112 separated.First point of water cavity 1111 is connected to water inlet 112.Shunt valve 12 can It rotates dividing in water cavity 111 so that first point of water cavity 1111 is connected to water inlet 112 and the first water outlet 114 and makes second point of water Chamber 1112 is connected to the second water outlet 115 and water return outlet 113, and water inlet 112 and the first water outlet 114 is made to separate and make first point Water cavity 1111 is connected to water inlet 112 and the second water outlet 115.

It should be noted that shunt valve 12 divide in water cavity 111 rotate when, shunt valve component 10 can be realized following First state and the second state.First state and the second state are asynchronous state.Specifically, turning in shunt valve 12 makes When first point of water cavity 1111 is connected to water inlet 112 and the first water outlet 114, second point of water cavity 1112 can be connected to the second water outlet 115 and water return outlet 113, that is, realize the first state of shunt valve component 10, the water energy at this moment through water inlet 112 is enough via first point Water cavity 1111 is flowed out from the first water outlet 114, and the water energy flowed out by the first water outlet 114 is enough flows into the via water return outlet 113 Two points of water cavities 1112, and flowed out via second point of water cavity 1112 from the second water outlet 115.It needs to use in household electrical appliance 100 and add Thermal 40 heat when, shunt valve component 10 can be made be in above-mentioned first state, at this moment it is believed that household electrical appliance 100 be in add Heat pattern.When shunt valve 12, which turns to, separates water inlet 112 and the first water outlet 114, first point of water cavity 1111 be connected into The mouth of a river 112 and the second water outlet 115 realize that the second state of shunt valve component 10, the water energy at this moment through water inlet 112 enough pass through It is flowed directly out by first point of water cavity 1111 from the second water outlet 115.It does not need to heat using heating device 40 in household electrical appliance 100 When, shunt valve component 10 can be made to be in the second above-mentioned state, at this moment it is believed that household electrical appliance 100 are in non-heated mode.

In the present embodiment, household electrical appliance 100 further include catch basin 50 and washing pump 60.It sprays on washing articles Cleaning solution, which can be concentrated, to be collected in the catch basin 50 of 21 bottom of chamber.The bottom of catch basin 50 is provided with washing outlet 201. Cleaning solution is flowed out from washing outlet 201.The import of washing pump 60 201 is connected with washing outlet, the outlet of washing pump 60 with into The mouth of a river 112 is connected to, and provides power from by circulation of the washing pump 60 to cleaning solution.Heating device 40 is gone out by piping connection first The mouth of a river 114 and water return outlet 113.

In this way, gushing arm 30 can be gone out by piping connection second when shunt valve component 10 is applied to household electrical appliance 100 The mouth of a river 115, in this way when needing to heat water, can be rotated shunt valve 12 so that first point of water cavity 1111 be connected to water inlet 112 and First water outlet 114, the water energy at this moment entered through water inlet 112 is enough to flow via first point of water cavity 1111 from the first water outlet 114 It heats out and by heating device 40, and the water energy after heating device 40 heats enough flows into second point of water cavity 1112 by water return outlet 113, And gushing arm 30 can be flowed to by the second water outlet 115 to be sprayed, when not needing to heat water, it can be rotated shunt valve 12 So that shunt valve 12 separates water inlet 112 and the first water outlet 114, the water energy at this moment entered through water inlet 112 is enough via first Water cavity 1111 is divided directly to flow to gushing arm 30 from the second water outlet 115 to be sprayed, such water does not have to flow through heating device 40, The resistance within the non-heated period in flow promoter system can be reduced, reduction 60 wasted work of washing pump, which increases, and wash time is longer asks Topic, and then promote the system scourability of household electrical appliance 100.

It will be appreciated, of course, that the exterior line of the first water outlet 114 of connection and water return outlet 113 can also be arranged other and set Standby (such as multiple heating devices), this can be configured as the case may be.In the example depicted in figure 1, heating device 40 is adopted With heat pump system comprising compressor 41, condenser 42, throttling set 43 and evaporator 44, it is further, compressor 41, cold Condenser 42, throttling set 43, evaporator 44 are in turn connected into a closed circulatory system by pipeline, and refrigerant is followed in closed It is circulated in loop system.

It is appreciated that shunt valve 12 may also turn off back when shunt valve 12 separates water inlet 112 and the first water outlet 114 The mouth of a river 113 is so that the second water outlet 115 separates with water return outlet 113.

It should be noted that shunt valve 12 divide in water cavity 111 rotate when, first point of water cavity 1111 and second point of water cavity Space corresponding to 1112 is variation.Wherein, the pressure that the liquid of first point of water cavity 1111 is entered by water inlet 112 is big In the pressure for the liquid for entering second point of water cavity 1112 by water return outlet 113 (due to the droop loss of liquid flowing).Therefore, first Water cavity 1111 is divided to can be considered high pressure chest, and second point of water cavity 1112 can be considered low pressure chamber.

Incorporated by reference to Fig. 2 and Fig. 7, in some embodiments, shunt valve 12 has first flap 121.121 energy of first flap It is enough to open or close the first water outlet 114 when shunt valve 12 rotates.For example, in the example shown in Fig. 2, first flap 121 It rotates and is staggered with the first water outlet 114 to be connected to water inlet 112 and the first water outlet 114 with shunt valve 12.For another example, in Fig. 7 Shown in example, first flap 121 closes the first water outlet 114, to prevent liquid from entering heating dress by the first water outlet 114 Set 40.It is appreciated that the shape of first flap 121 can be configured as the case may be, such as can be in rounded shape or oval Shape etc..

Incorporated by reference to Figure 10 to Figure 21, in some embodiments, first flap 121 offers limbers 1211, in Fen Shui When valve 12 rotates, first flap 121 can be connected to the first water outlet 114 and first point of water cavity 1111 by limbers 1211.This For sample when limbers 1211 is not connected to the first water outlet 114, first flap 121 separates the first water outlet 114 and first point of water cavity 1111.It is appreciated that limbers 1211 opens up mode and can be configured as the case may be.The number of limbers 1211 can be It is multiple.For example, the limbers 1211 of first flap 121 is not connected to the first water outlet 114 to close in the example shown in Figure 18 First water outlet 114.

In some embodiments, shunt valve 12, which has, separates baffle 122.Separating baffle 122 will divide water cavity 111 to separate For first point of water cavity 1111 and second point of water cavity 1112.Separating baffle 122 can rotate dividing in water cavity 111 to be connected to water inlet 112 and first water outlet 114 or partition water inlet 112 and the first water outlet 114.

Specifically, separate baffle 122 when dividing in water cavity 111 rotation connection water inlet 112 and the first water outlet 114, point Water valve component 10 is in above-mentioned first state.Separate baffle 122 and divides rotation partition water inlet 112 and first in water cavity 111 When water outlet 114, shunt valve component 10 is in the second above-mentioned state.

It is appreciated that separating the shape of baffle 122 can be configured as the case may be.

In some embodiments, separate baffle 122 to include baffle ontology 1221 and be connected to the two of baffle ontology 1221 Two baffle connection sheets 1222 of side (see Figure 14 and Figure 15).Two baffle connection sheets 1222 are sticked the interior of point water cavity 111 respectively Wall 1110.The be sticked inner wall 1110 of point water cavity 111 of baffle connection sheet 1222 baffle connection sheet 1222 and divides water cavity 111 to seal Water effect is divided with guarantee shunt valve component 10 in gap between inner wall 1110.

It is appreciated that integral structure can be used in baffle ontology 1221 and two baffle connection sheets 1222, fission can also be used Structure.

In some embodiments, baffle connection sheet 1222 is connect with 1110 arc of inner wall of water cavity 111 is divided.It seals in this way Effect is preferable.Specifically, the first arcwall face that baffle connection sheet 1222 is formed be sticked point water cavity 111 inner wall 1110 formed the Two arcwall faces.

In some embodiments, shunt valve 12 has second flap 123.Second flap 123 can be 12 turns in shunt valve The second water outlet 115 is opened or closed when dynamic.Change in location realization rotate in this way by second flap 123 with shunt valve 12 the Two water outlets 115 open or close.

Specifically, second flap 123 divides the liquid in water cavity 111 in 12 the second water outlet 115 of rotating opening of shunt valve It can be flowed out by the second water outlet 115.Second flap 123 divides water cavity when shunt valve 12 rotates and closes the second water outlet 115 Liquid in 111 will not be flowed out by the second water outlet 115.

In some embodiments, the number of the second water outlet 115 is multiple, the number of second flap 123 be it is multiple, the The number of two baffles 123 is identical as the number of the second water outlet 115.In this way, the position of the multiple second flaps 123 of rotation can be passed through To realize opening or closing for the second different water outlets 115.

(incorporated by reference to Fig. 2, Fig. 4 to Fig. 7 and Fig. 9 to Figure 18), the number of the second water outlet 115 is two in some instances It is a.The number of second flap 123 is two.Two the second water outlet 115 interval settings.Two interval of second flap 123 settings.

In some instances, the number of the second water outlet is three.The number of second flap is three.Three second water outlets Mouth is spaced apart.Three second flaps are spaced apart.At this point, the quantity and household electrical appliance of the second water outlet of shunt valve component 10 100 gushing arm 30 is consistent.Three the second water outlets can be corresponding with the first gushing arm 31, the second gushing arm 32 and third gushing arm 33 respectively Connection, to realize different application models.

It will be appreciated, of course, that the number of the second water outlet can also be 4 or 5 etc., the number of second flap can also be 4 A or 5 etc., this is not restricted.

Incorporated by reference to Fig. 2 to Fig. 7, in some embodiments, shunt valve 12 has third baffle 126.126 energy of third baffle It is enough to open or close water return outlet 113 when shunt valve 12 rotates.

For example, in the example shown in Fig. 2, third baffle 126 opens water return outlet 113 to be connected to water return outlet 113 and two Second water outlet 115.For another example, third baffle 126 closes water return outlet 113 to play to water return outlet in the example shown in FIG. 5, 113 better sealing effects.

Incorporated by reference to Fig. 2 to Fig. 7, shunt valve 12 has 121, two second flaps 123 of a first flap and a third Baffle 126.One first flap, 121, two second flaps 123 and a third baffle 126 are along dividing the circumferentially-spaced of water cavity 111 Distribution.Separating baffle 122 will divide water cavity 111 to be divided into first point of water cavity 1111 and second point of water cavity 1112.

Incorporated by reference to Fig. 8 to Figure 22, shunt valve 12 has a first flap 121 and two second flaps 123.Shunt valve 12 Top formed first flap 121.First flap 121 has limbers 1211.Two second flaps 123 are removably installed In the bottom (i.e. fixed part 124) of shunt valve 12.Two interval of second flap 123 settings.Separate baffle 122 and connects first flap 121 and fixed part 124.Separating baffle 122 will divide water cavity 111 to be divided into first point of water cavity 1111 and second point of water cavity 1112.

In the example shown in Fig. 2, when shunt valve 12 turns to position as shown in Figure 2, shunt valve component 10 is in First mode.First flap 121 rotates with shunt valve 12 and opens the first water outlet 114.Spaced two second flaps 123 rotate with shunt valve 12 and are staggered with two the second water outlets (i.e. the second water outlet 115a and the second water outlet 115b), this Sample the second water outlet 115a and the second water outlet 115b are in an open state.Water inlet 112 and the first water outlet 114 are located at first point Side where water cavity 1111, and water return outlet 113 and two the second water outlets are located at the side where second point of water cavity 1112.The Three baffles 126 are rotated with shunt valve 12 and are staggered with water return outlet 113 to open water return outlet 113.

First point of water cavity 1111 is connected to water inlet 112 and the first water outlet 114, the first water outlet 114 and heating device 40 Connection, and second point of water cavity 1112 is connected to two the second water outlets and water return outlet 113 simultaneously.At this moment liquid is by water inlet 112 It after, can be flowed out by the first water outlet 114 via after first point of water cavity 1111, after being heated via heating device 40, then Water return outlet 113 flows back into second point of water cavity 1112 again, and can be flowed out by two the second water outlets, and the flow direction of liquid is as schemed Shown in 2 arrow.Shunt valve component 10 can be supplied water simultaneously by two the second water outlets in this way.For example, by shunt valve group When part 10 is applied to household electrical appliance 100, a second water outlet 115a in two the second water outlets can be connected to third gushing arm 33, And another second water outlet 115b can be connected to the first gushing arm 31 and the second gushing arm 32.In this way two the second water outlets simultaneously , it can be achieved that water while three gushing arms of household electrical appliance 100 after sprinkling heating when opening.

(incorporated by reference to Figure 21 and Figure 22) in the example shown in Figure 10 and Figure 11, shunt valve component 10 is in above-mentioned first Mode.First point of water cavity 1111 is connected to water inlet 112 and the first water outlet by the limbers 1211 in first flap 121 114, the first water outlet 114 can be connected to heating device 40.Spaced two second flaps 123 are rotated with shunt valve 12 And spaced two the second water outlets 115 are opened respectively.Second point of water cavity 1112 is connected to two the second water outlets simultaneously 115 and water return outlet 113.Liquid is flowed as shown in the dotted arrow of Figure 10 and Figure 11 shunt valve component 10.

Incorporated by reference to Fig. 3, in the example shown in Fig. 3, when shunt valve 12 turns to position as shown in Figure 3, shunt valve Component 10 is in second mode.First flap 121 rotates with shunt valve 12 and opens the first water outlet 114.First point of water cavity 1111 connection water inlets 112 and the first water outlet 114, the first water outlet 114 are connected to heating device 40.Third baffle 126 with Shunt valve 12 is rotated and is staggered with water return outlet 113, and stops the second water outlet 115b in two the second water outlets.Two Two baffles 123 are staggered with the second water outlet 115a in two the second water outlets.Second water outlet 115a and water return outlet 113 Connection, the second water outlet 115b and water return outlet 113 separate.Second point of water cavity 1112 is connected to the second water outlet 115a and water return outlet 113.Water inlet 112 and the first water outlet 114 are located at the side where first point of water cavity 1111, and water return outlet 113 and two the Two water outlets are located at the side where second point of water cavity 1112.

At this moment it after liquid is entered by water inlet 112, can be flowed by the first water outlet 114 via after first point of water cavity 1111 Out, after heating via heating device 40, then water return outlet 113 flows back into second point of water cavity 1112 again, and can be by the second water outlet Mouth 115a outflow, the flow direction of liquid are as shown by arrows in Figure 3.Shunt valve component 10 is to be discharged by one second in this way The mode that mouth 115a is individually supplied water.When shunt valve component 10 is applied to household electrical appliance 100, the second water outlet 115a can It is connected to third gushing arm 33, and the second water outlet 115b can be connected to the first gushing arm 31 and the second gushing arm 32.Switch two second in this way Water outlet opens or closes state, it can be achieved that the first gushing arm 31 of household electrical appliance 100 and the second gushing arm 32 and third gushing arm 33 Alternating sprinkling.

(incorporated by reference to Figure 21 and Figure 22) in the example shown in Figure 12 to Figure 13, shunt valve component 10 is in above-mentioned second Mode.First point of water cavity 1111 is connected to water inlet 112 and the first water outlet by the limbers 1211 in first flap 121 114, the first water outlet 114 can be connected to heating device 40.Second flap 123a in spaced two second flaps Rotated with shunt valve 12 and open the second water outlet 115a, the second flap 123b in spaced two second flaps with point Water valve 12 rotates and closes the second water outlet 115b.Second water outlet 115b and water return outlet 113 separate.Second point of water cavity 1112 It is connected to the second water outlet 115a and water return outlet 113.Dotted arrow of the liquid in flowing such as Figure 12 to Figure 13 of shunt valve component 10 It is shown.

In the example shown in Figure 4, when shunt valve 12 turns to position as shown in Figure 4, shunt valve component 10 is in The third mode.First flap 121 rotates with shunt valve 12 and opens the first water outlet 114.First point of connection water inlet of water cavity 1111 Mouth 112 and the first water outlet 114, the first water outlet 114 are connected to heating device 40.Third baffle 126 rotation and and water return outlet 113 are staggered, to open water return outlet 113.Second flap 123b in two second flaps is rotated with shunt valve 12 and is stopped two The second water outlet 115a in second water outlet.Second water outlet 115a and water return outlet 113 separate.Second flap 123a and second Baffle 123b is staggered with the second water outlet 115b, to open the second water outlet 115b.Second water outlet 115b and water return outlet 113 connections.Second point of water cavity 1112 is connected to the second water outlet 115b and water return outlet 113.Water inlet 112 and the first water outlet 114 Side where first point of water cavity 1111, and water return outlet 113 and two the second water outlets are located at second point of 1112 institute of water cavity Side.

At this moment it after liquid is entered by water inlet 112, can be flowed by the first water outlet 114 via after first point of water cavity 1111 Out, after heating via heating device 40, then water return outlet 113 flows back into second point of water cavity 1112 again, and can be by the second water outlet Mouth 115b outflow, the flow direction of liquid is as shown in the arrow of Fig. 4.Shunt valve component 10 is to be discharged by one second in this way The mode that mouth 115b is individually supplied water.

In Figure 14 into example shown in figure 15 (incorporated by reference to Figure 21 and Figure 22), shunt valve component 10 is in above-mentioned third Mode, first point of water cavity 1111 are connected to water inlet 112 and the first water outlet by the limbers 1211 in first flap 121 114, the first water outlet 114 can be connected to heating device 40.Second flap 123a in spaced two second flaps Rotated with shunt valve 12 and close the second water outlet 115a, the second flap 123b in spaced two second flaps with point Water valve 12 rotates and opens the second water outlet 115b.Second water outlet 115a and water return outlet 113 separate, the second water outlet 115b It is connected to water return outlet 113.Second point of water cavity 1112 is connected to the second water outlet 115b and water return outlet 113.Liquid is in shunt valve component Shown in 10 dotted arrow flowed such as Figure 14 to Figure 15.

In the example shown in FIG. 5, when shunt valve 12 turns to position as shown in Figure 5, shunt valve component 10 is in Fourth mode.Shunt valve component 10, which turns to, to be made, and third baffle 126 separates water return outlet 113, is separated baffle 122 and is separated water inlet 112 and first water outlet 114, the first water outlet 114 and water return outlet 113 separated by separation baffle 122 and water inlet 112, from And realize the blocking of flow path between water inlet 112 and the first water outlet 114, heating device 40, also, two second flaps 123 It is staggered with two the second water outlets 115, so that first point of water cavity 1111 is connected to water inlet 112 and two the second water outlets 115. Water inlet 112 and two the second water outlets 115 are located at the side where first point of water cavity 1111, and water return outlet 113 and first goes out The mouth of a river 114 is located at the side where second point of water cavity 1112.

At this moment it after liquid is entered by water inlet 112, can be directly discharged by two second via after first point of water cavity 1111 Mouth 115 flows out, and does not heat via heating device 40, the flow direction of liquid is as indicated by the arrows in fig. 5.At this moment shunt valve component 10 Also it can be supplied water simultaneously by two the second water outlets 115.When shunt valve component 10 is applied to household electrical appliance 100, two Second water outlet 115 in second water outlet 115 can be connected to third gushing arm 33, and another second water outlet 115 can connect Logical first gushing arm 31 and the second gushing arm 32, and heating device 40 is by-pass out, the water energy entered by water inlet 112 it is enough without Water return outlet 113 and be directly discharged by the second water outlet 115.In this way when two the second water outlets 115 open simultaneously, it can be achieved that family The water that sprinkling is not heated via heating device 40 while three gushing arms of electrical appliance 100, it is non-heated can to effectively reduce dish-washing machine The flow resistance of period further decreases dish-washing machine energy consumption.

(incorporated by reference to Figure 21 and Figure 22) in the example shown in Figure 16 to Figure 17, shunt valve component 10 is in the above-mentioned the 4th Mode.Shunt valve 12, which turns to, to be made, and the limbers 1211 in first flap 121 is not connected to water inlet 112 and the first water outlet 114, separate the partition water inlet 112 of baffle 122 and the first water outlet 114, the first water outlet 114 and water return outlet 113 are separated Baffle 122 and water inlet 112 separate.Spaced two second flaps 123 are staggered with two the second water outlets 115, with First point of water cavity 1111 is set to be connected to water inlet 112 and two the second water outlets 115.First point of water cavity 1111 is connected to water inlet 112 And two the second water outlets 115.Liquid shunt valve component 10 flowing as shown in dotted arrow of the Figure 16 to Figure 17.

When shunt valve 12 turns to position as shown in FIG. 6, shunt valve component 10 is in the 5th mode.Shunt valve component 10 turn to and make, and first flap 121 closes the first water outlet 114, separate baffle 122 and separate water inlet 112 and the first water outlet 114, to realize the blocking of flow path between water inlet 112 and the first water outlet 114, heating device 40.Also, two second gear Second flap 123b in piece stops the second water outlet 115b in two the second water outlets, first flap 123a and second flap 123b is staggered with the second water outlet 115a in two the second water outlets, so that first point of water cavity 1111 is connected to water inlet 112 And the second water outlet 115a.Second water outlet 115b is stopped by second flap 123b and is separated with water inlet 112.Due to separating Baffle 122 makes the first water outlet 114 and water return outlet 113 be located at second point of 1112 side of water cavity of low pressure, and makes water inlet 112 It is located at first point of 1111 side of water cavity of high pressure with two the second water outlets, water inlet 112 and first can be separated completely in this way Flow path between water outlet 114, heating device 40.

At this moment after liquid is entered by water inlet 112, via can be directly by the second water outlet after first point of water cavity 1111 115b outflow, is not heated, the flow direction of liquid is as shown by the arrow in fig. 6 via heating device 40.Shunt valve component 10 in this way For the mode individually to be supplied water by a second water outlet 115a.Shunt valve component 10 is being applied to household electrical appliance 100 When, the second water outlet 115a can be connected to third gushing arm 33, and the second water outlet 115b can be connected to the first gushing arm 31 and the second gushing arm 32, and heating device 40 is by-pass out, and the water energy entered by water inlet 112 is enough directly to be gone out by second without water return outlet 113 Mouth of a river 115a discharge.Switch two the second water outlets in this way opens or closes state, it can be achieved that household electrical appliance 100 first spray The water for replacing sprinkling and not heating via heating device 40 of arm 31 and the second gushing arm 32 and third gushing arm 33, can effectively reduce and wash The flow resistance of bowl machine non-heated period, further decreases dish-washing machine energy consumption.In the example shown in Figure 18 to Figure 19 (incorporated by reference to Figure 21 and Figure 22), shunt valve component 10 is in the 5th above-mentioned mode, and shunt valve 12, which turns to, to be made, logical in first flap 121 Water hole 1211 is not connected to water inlet 112 and the first water outlet 114, separates baffle 122 and separates water inlet 112 and the first water outlet 114, the first water outlet 114 and water return outlet 113 are separated by separation baffle 122 and water inlet 112.Spaced two second Second flap 123b in baffle closes the second water outlet 115b in two the second water outlets to separate the second water outlet 115b With first point of water cavity 1111, the second flap 123a in two second flaps opens the second water outlet in two the second water outlets Mouth 115a is to be connected to the second water outlet 115a and first point of water cavity 1111 and water inlet 112.Stream of the liquid in shunt valve component 10 Shown in the dynamic dotted arrow such as Figure 18 to Figure 19.

When shunt valve 12 turns to position as shown in Figure 7, shunt valve component 10 is in the 6th mode, shunt valve component 10 turn to and make, and first flap 121 closes the first water outlet 114, separate baffle 122 and separate water inlet 112 and the first water outlet 114, to realize the blocking of flow path between water inlet 112 and the first water outlet 114, heating device 40.Also, two second gear Second flap 123a in piece stops the second water outlet 115a in two the second water outlets, first flap 123a and second flap 123b is staggered with the second water outlet 115b in two the second water outlets, so that first point of water cavity 1111 is connected to water inlet 112 And the second water outlet 115b.Second water outlet 115a is stopped by second flap 123a and is separated with water inlet 112.Due to first Baffle 121 stops the first water outlet 114, therefore, even if water return outlet 113 is in first point of 111 side of water cavity of high pressure, water inlet The liquid of 112 outflows will not flow through heating device 40.

At this moment after liquid is entered by water inlet 112, via can be directly by the second water outlet after first point of water cavity 1111 115a outflow, is not heated, the flow direction of liquid is as shown in the arrow of Fig. 7 via heating device 40.Shunt valve component 10 in this way For the mode individually to be supplied water by a second water outlet 115a.

It is appreciated that the second water outlet number be three, and the number of second flap be three when.In household electric When device 100 needs to be heated by heating device 40 (i.e. heating mode), three the second water outlet energy of shunt valve component 10 Enough it is that the second water outlet of only one gushing arm corresponding with household electrical appliance 100 realizes connection, also can is therein two second Corresponding with household electrical appliance 100 two gushing arms of water outlet realize connection, also can be three the second water outlets and household electrical appliance 100 corresponding three gushing arms realize connection.That is, in heating mode, shunt valve component 10 can be realized cutting for different mode in 7 It changes.

(i.e. non-heated mode), shunt valve component when household electrical appliance 100 do not need to be heated by heating device 40 10 three the second water outlets also can be that the second water outlet of only one gushing arm corresponding with household electrical appliance 100 realizes company It is logical, it also can be that two second water outlet therein, two gushing arms corresponding with household electrical appliance 100 realize connection, also can be three Second water outlet, three gushing arms corresponding with household electrical appliance 100 realize connection.That is, in non-heated mode, shunt valve component 10 also can be realized the switching of different mode in 7.In some embodiments, shunt valve 12 includes fixed part 124.Second flap 123 are removably installed in fixed part 124.It is convenient for the installation and disassembly of second flap 123 in this way.In the present embodiment, divide Barrier piece 122 is fixedly connected with fixed part 124.Preferably, separation baffle 122 and fixed part 124 are structure as a whole.Separate baffle 122 and second flap 123 be located at the two sides of fixed part 124.When shunt valve 12 rotates, separate baffle 122 and fixed part 124 edges divide circumferentially rotating for water cavity 111, first point of water cavity 1111 and second point of water cavity 1112 with the rotation for separating baffle 122 And change.Second flap 123 is rotated with fixed part 124, opens or closes the second water outlet 115 to realize.Shown in Figure 12 Example in, in the presence of hydraulic pressure, second flap 123 can be pressurized and realize the sealing to the second water outlet 115.Certainly, It is appreciated that in other examples, second flap can seal the second water outlet under the effect of gravity, and can be pressurized and reality Now open the second water outlet.

In some embodiments, shell 11 offers channel 13 (see Figure 11).Channel 13 is connected to the second water outlet 115. Second flap 123 includes bottom plate 1231 and from the first auxiliary section 1232 that bottom plate 1231 upwardly extends (see Figure 21).Fixed part 124 It is formed with the second auxiliary section 1241 with the cooperation of the first auxiliary section 1232.Second flap 123 can be logical when shunt valve 12 rotates It crosses bottom plate 1231 and opens or closes the entrance 131 in channel 13 to open or close the second water outlet 115.

In the example shown in Figure 20, the first auxiliary section 1232 is the lug upwardly extended from bottom plate 1231.Second cooperation Portion 1241 is the through slot for being formed in the side of fixed part 124.Lug can wear through slot so that the first auxiliary section 1232 is detachable Ground is installed on the second auxiliary section 1241.Also, lug can be up and down in through slot.

In the example shown in Figure 20 and Figure 21, whole shunt valve 12 is in cylindrical shape substantially.Fixed part 124 is annular in shape. The number of second flap 123 is two.Two intervals of second flap 123 are installed on fixed part 124 and can be with fixed parts 124 Along the circumferential movement for dividing water cavity 111.Also, the substantially fan-shaped shape of bottom plate 1231.The bottom plate opposite with the first auxiliary section 1232 1231 side is formed with sealing surface 1233.In the presence of hydraulic pressure, bottom plate 1231 is pressurized and can to pass through sealing surface 1233 real Now to the sealing of the entrance 131 in channel 13 to seal the second water outlet 115.

In some embodiments, shunt valve component 10 includes driving mechanism 14.Driving mechanism 14 connects shunt valve 12. Driving mechanism is for driving shunt valve 12 to rotate.

Specifically, driving mechanism 14 includes driving portion 141 and driving section 15.Driving section 15 connects driving portion 141 and Fen Shui Valve 12.Driving portion 141 is for driving the rotation of driving section 15 to drive shunt valve 12 to rotate.Wherein, driving section 15 can be according to specific Situation is configured, such as the transmission side of the kind of drive of gear engagement or the kind of drive of belt or shaft coupling can be used Formula.

In some embodiments, shunt valve component 10 includes sensor 16.Driving section 15 includes driving member 151, sensing Device 16 is used to detect the position of driving member 151.It can be determined in this way according to the position for the driving member 151 that sensor 16 detects The rotary state of shunt valve 12 can realize that the rotation to shunt valve 12 controls, by driving member 151 then to pass through control point The rotation of water valve 12 accurately realizes the switching of the different connected states of shunt valve component 10.Wherein, driving member 151 may be, for example, Transmission gear.

In some embodiments, driving portion 141 includes motor 142.Shunt valve 12 includes drive rod 125.Drive rod 125 It is extended downwardly by the top of shunt valve 12.Shunt valve 12 connects driving member 151 by drive rod 125.

In the present embodiment.Drive rod 125 is extended downwardly by separation baffle 122.Fixed part 124 surrounds drive rod 125. Shunt valve 12 connects driving member 151 by drive rod 125.Wherein drive rod 125 can connect driving member by way of clamping 151.Motor 142 is for driving the rotation of driving member 151 to drive drive rod 125 to rotate.

In the present embodiment, first flap 121, drive rod 125, separation baffle 122 and fixed part 124 are integrated knot Structure, it is easy to process in this way, and the stability of 12 entirety of shunt valve is more preferably.

It is appreciated that for the stability that driving portion 141 and driving section 15 are run, settable fixed cover board 19, and make electricity Machine 142 and driving member 151 are respectively arranged at the opposite two sides of fixed cover board 19, the shaft of motor 142 wear fixed cover board 19 and It is connect with driving member 151.

In some embodiments, shell 11 includes lower casing 17 and upper casing 18.Lower casing 17 connects upper casing 18.Wherein, lower casing 17 can be configured as the case may be with the connection type of upper casing 18.

In some embodiments, lower casing 17 offers water inlet 112, water return outlet 113 and the second water outlet 115.Upper casing 18 offer the first water outlet 114.

In the present embodiment, point water cavity 111 is limited in lower casing 17.Divide the open upper end of water cavity 111.On lower casing 17 Water inlet 112, water return outlet 113 and the second water outlet 115 are offered respectively.Upper casing 18 is set to the upper end of lower casing 17 and closing Divide water cavity 111.Upper casing 18 offers the first water outlet 114.Wherein, upper casing 18 can be installed on lower casing 17 by dismountable mode Upper end, and water inlet 112, water return outlet 113 and the second water outlet 115 can be provided with lower casing 11 side wall or bottom wall or On roof, this can be configured as the case may be.

In the example shown in Fig. 8 and Figure 19, lower casing 17 is in the form of a column substantially.The side wall of lower casing 17 is respectively formed with water inlet pipe 171 and return pipe 172.The roof of lower casing 17 is formed with the first outlet pipe 173.The bottom wall of lower casing 17 is formed with the second outlet pipe 174.Water inlet pipe 171 and return pipe 172 are extended outwardly by the side wall of lower casing 17 respectively.First outlet pipe 173 by lower casing 17 top Wall extends outwardly.Second outlet pipe 174 is extended outwardly by the bottom wall of lower casing 17.Water inlet pipe 171 offers water inlet 112.Return water Pipe 172 offers water return outlet 113.First outlet pipe 173 offers the first water outlet 114.Second outlet pipe 174 offers Two water outlets 115.

In the present invention unless specifically defined or limited otherwise, fisrt feature the "upper" of second feature or it "lower" may include that the first and second features directly contact, and also may include that the first and second features are not direct contacts but lead to Cross the other characterisation contact between them.Moreover, fisrt feature includes above the second feature " above ", " above " and " above " One feature is right above second feature and oblique upper, or is merely representative of first feature horizontal height higher than second feature.First is special Sign is directly below and diagonally below the second feature including fisrt feature under the second feature " below ", " below " and " below ", or only Indicate that first feature horizontal height is less than second feature.

Disclosure herein provides many different embodiments or example is used to realize the different structure of the utility model. In order to simplify the disclosure of the utility model, the component of specific examples and setting are described herein.Certainly, they are only Example, and purpose does not lie in limitation the utility model.In addition, the utility model can in different examples repeat reference numerals And/or reference letter, this repetition are for purposes of simplicity and clarity, itself not indicate discussed various embodiments And/or the relationship between setting.In addition, the example of various specific techniques and material that the utility model provides, but this Field those of ordinary skill can be appreciated that the application of other techniques and/or the use of other materials.

In the description of this specification, reference term " embodiment ", " some embodiments ", " schematically implementation The description of mode ", " example ", " specific example " or " some examples " etc. means embodiment or example is combined to describe specific Feature, structure, material or feature are contained at least one embodiment or example of the utility model.In this specification In, schematic expression of the above terms are not necessarily referring to identical embodiment or example.Moreover, the specific spy of description Sign, structure, material or feature can be combined in any suitable manner in any one or more embodiments or example.

While there has been shown and described that the embodiments of the present invention, those skilled in the art can manage Solution: a variety of to the progress of these embodiments can change in the case where not departing from the principles of the present invention and objective, modify, Replacement and variant, the scope of the utility model are defined by the claims and their equivalents.

Claims (18)

1. a kind of shunt valve component characterized by comprising

Shell is formed with a point water cavity in the shell, and the shell offers water inlet, water return outlet, the first water outlet and second Water outlet；

Shunt valve, the shunt valve, which is set to, described to be divided in water cavity and water cavity can be divided to be divided into the first point of water cavity separated by described With second point of water cavity, first point of water cavity is connected to the water inlet, the shunt valve can it is described divide in water cavity rotate with Make first point of water cavity be connected to the water inlet and first water outlet with so that second point of water cavity is connected to described second Water outlet and the water return outlet, and separate the water inlet and first water outlet and first point of water cavity is made to be connected to institute State water inlet and second water outlet.

2. shunt valve component as described in claim 1, which is characterized in that the shunt valve have first flap, described first Baffle can open or close first water outlet when the shunt valve rotates.

3. shunt valve component as claimed in claim 2, which is characterized in that the first flap offers limbers, described When shunt valve rotates, the first flap can be connected to first water outlet and first point of water by the limbers Chamber.

4. shunt valve component as described in claim 1, which is characterized in that the shunt valve, which has, separates baffle, the separation Baffle divides water cavity to be divided into first point of water cavity and second point of water cavity for described, and the separation baffle can be at described point Rotation is in water cavity to be connected to the water inlet and first water outlet or separate the water inlet and first water outlet.

5. shunt valve component as claimed in claim 4, which is characterized in that the separation baffle includes baffle ontology and is connected to Two baffle connection sheets of the two sides of the baffle ontology, two baffle connection sheets are sticked respectively described divides the interior of water cavity Wall.

6. shunt valve component as claimed in claim 5, which is characterized in that the baffle connection sheet and the inner wall for dividing water cavity Arc connection.

7. shunt valve component as described in claim 1, which is characterized in that the shunt valve have second flap, described second Baffle can open or close second water outlet when the shunt valve rotates.

8. shunt valve component as claimed in claim 7, which is characterized in that the number of second water outlet be it is multiple, it is described The number of second flap be it is multiple, the number of the second flap is identical as the number of second water outlet.

9. shunt valve component as claimed in claim 8, which is characterized in that the number of second water outlet is two, described The number of second flap is two, two second water outlet interval settings, two second flap interval settings.

10. shunt valve component as claimed in claim 7, which is characterized in that the shunt valve includes fixed part, the second gear Piece is removably installed in the fixed part.

11. shunt valve component as claimed in claim 10, which is characterized in that the shell offers channel, and the channel connects Lead to second water outlet, the second flap includes bottom plate and from the first auxiliary section that the bottom plate upwardly extends, described solid Determine portion and be formed with the second auxiliary section being cooperatively connected with first auxiliary section, the second flap can turn in the shunt valve The entrance in the channel is opened or closed to open or close second water outlet by the bottom plate when dynamic.

12. shunt valve component as described in claim 1, which is characterized in that the shunt valve has third baffle, the third Baffle can open or close the water return outlet when the shunt valve rotates.

13. shunt valve component as described in claim 1, which is characterized in that the shunt valve component includes driving mechanism, described Driving mechanism connects the shunt valve, and the driving mechanism is for driving the shunt valve to rotate.

14. shunt valve component as claimed in claim 13, which is characterized in that the shunt valve component includes sensor, described Driving mechanism includes driving portion and driving section, and the driving section connects the driving portion and the shunt valve, the driving section packet Driving member is included, the sensor is used to detect the position of the driving member.

15. shunt valve component as claimed in claim 14, which is characterized in that the driving portion includes motor, the shunt valve Including drive rod, by extending downwardly at the top of the shunt valve, the shunt valve is connected the drive rod by the drive rod The driving member.

16. shunt valve component as described in claim 1, which is characterized in that the shell includes lower casing and upper casing, the lower casing Connect the upper casing.

17. shunt valve component as claimed in claim 16, which is characterized in that the lower casing offers the water inlet, described Water return outlet and second water outlet, the upper casing offer first water outlet.

18. a kind of household electrical appliance characterized by comprising

The described in any item shunt valve components of claim 1-17；

Cavity is formed with chamber in the cavity；

Gushing arm, the gushing arm are at least partially disposed in the chamber, and second water outlet connects the gushing arm；

Heating device, the heating device connect first water outlet and the water return outlet.