CN205347805U - Washing machine's detergent cartridge assembly and washing machine - Google Patents

Abstract

The utility model discloses a washing machine's detergent cartridge assembly and washing machine. Detergent cartridge assembly includes: outer box, interior box, first water route, second water route and third water route. The rivers in first water route flow along the internal perisporium in detergent chamber, have the circulation mouth of a river on the interior box, and detergent chamber and second water route are through circulation mouth of a river intercommunication. Branch in second water route and gush import intercommunication with, another branch and the third water route intercommunication in second water route, the third water route is connected between water inlet and delivery port. According to the utility model discloses a washing machine's detergent cartridge assembly, set up on box and the outer box including through the first water route that can follow detergent intracavity perisporium and flow, the second water route that can form the circulation flow and with the third water route of branch's intercommunication in second water route, can erode the detergent of placing at the detergent intracavity, make the detergent fully dissolve, the foaming volume of increase detergent improves the washing ( -)off properties that abstergent efficiency and washing machine were participated in to the detergent.

Description

The box component for washing agent of washing machine and washing machine

Technical field

This utility model relates to household electrical appliance technical field, particularly to the box component for washing agent of a kind of washing machine and the washing machine with it.

Background technology

Raising along with people's living standard, the use of washing machine is more and more universal, but, on market, existing washing machine mostly is directly puts in detergent box by detergent when using detergent, and therefore detergent, the solute effect of detergent and foaming capacity are most important to the clean ratio of complete machine.In correlation technique, first detergent is thrown in detergent box, then intake, thus can detergent be poured in washing tube, the shortcoming that this kind of mode has following two aspects: first, detergent dissolution is poor, undissolved detergent enters between inner/outer tube, have neither part nor lot in washing, thus reducing the washability of medicated clothing and the utilization rate of detergent to a certain extent, simultaneously, undissolved detergent residual particles easily remains in the winding position of medicated clothing, the health of user is impacted, and the detergent of this part residual, it is likely in rinse cycle and just can dissolve, wash effect is deteriorated；Second, undissolved detergent is finally discharged, and environmental pollution is serious.

Utility model content

This utility model is intended at least solve one of technical problem of existence in prior art.For this, the utility model proposes the box component for washing agent of a kind of washing machine, described box component for washing agent has the advantage that detergent can be made fully to dissolve.

This utility model also proposes a kind of washing machine, and described washing machine has box component for washing agent as above.

An aspect according to this utility model embodiment provides the box component for washing agent of a kind of washing machine, including: outer box, described outer box has water inlet and outlet；Inner box, there is in described inner box detergent chamber, there is bottom described detergent chamber its gush import through, there is in described inner box the first water route that entrance is connected with described water inlet, the current that described first water route is flowed out flow along the internal perisporium in described detergent chamber, and the sidewall of described inner box has the circulation mouth of a river；The second water route and the 3rd water route is limited respectively between described outer box and described inner box；Wherein the entrance in the second water route connects with described water inlet, and the described circulation mouth of a river is positioned at the downstream of the entrance in described second water route so that described detergent chamber is connected by the described circulation mouth of a river with described second water route；One branch in described second water route and described gush inlet communication are to enter described detergent intracavity by water from the bottom of described inner box, and another branch in described second water route connects with described 3rd water route；3rd water route is connected between described water inlet and described outlet.

The box component for washing agent of the washing machine according to this utility model embodiment, by arrange on inner box with outer box can along detergent intracavity perisporium flowing the first water route, the second water route circulated and the 3rd water route connected with the branch in the second water route can be formed, the detergent being placed on detergent intracavity can be washed away, detergent is made fully to dissolve, increase the foam number of detergent, improve detergent and participate in the efficiency of washing and the washing (-)off properties of washing machine.

According to an embodiment of the present utility model, described detergent intracavity is provided with water fender, and described water fender and described detergent cavity wall limit described first water route.

Alternatively, on the direction of the current flowing in the first water route, the width in described first water route is gradually reduced.

Alternatively, described water fender is formed as arc-shaped watertight shutter.

According to an embodiment of the present utility model, described outer box includes inlet channel, described inlet channel connects with described water inlet and includes three groups of outlets, exports and connect with the entrance in described first water route, the entrance in described second water route and the entrance in the 3rd water route respectively described in three groups.

Further, the described exit connected with described first water route has nozzle, and described nozzle stretches to described detergent intracavity.

According to an embodiment of the present utility model, there is in described inner box the intake chamber spaced apart with described detergent chamber, the part in described second water route is configured to by described intake chamber, described intake chamber is connected with described detergent chamber by the described circulation mouth of a river, described intake chamber respectively with described outlet and described gush inlet communication.

Further, having the overflow groove spaced apart with described detergent chamber in described inner box, the part in described 3rd water route is configured to by described overflow groove, and described overflow groove is connected with described detergent chamber by spilling water import, and described overflow groove connects with described outlet.

In an embodiment of the present utility model, the position at the described circulation mouth of a river is higher than the position of described spilling water import.

According to an embodiment of the present utility model, the contour line of the cross section in described detergent chamber includes the segmental arc that opens wide and for closing the straightway of described segmental arc, and the current that described first water route is flowed out flow to described straightway along described segmental arc.

According to an embodiment of the present utility model, described overflow groove and described intake chamber are located at the position near described straightway.

Alternatively, described gush import is spaced apart multiple.

Alternatively, described gush import is located at the middle part in described detergent chamber.

According to an embodiment of the present utility model, on the direction towards described gush import, the diapire inner surface in described detergent chamber tilts gradually downward.

According to an embodiment of the present utility model, described outer box includes cap assembly, and described cap assembly is located at the top of described inner box, and described cap assembly is provided with the detergent dispensing port through with described detergent chamber, and described water inlet is located on described cap assembly.

According to embodiments more of the present utility model, described outer box also includes impacting interval, the diapire outer surface in described impact interval and described detergent chamber limits impact water channel, the part in described second water route is configured to by described impact water channel, one end of described impact water channel connects with the described circulation mouth of a river, and the other end connects with described gush import and described outlet respectively.

Further, in described impact water channel in water (flow) direction, the height of described impact water channel is gradually reduced.

According to an embodiment of the present utility model, described outer box also includes current and flows out interval, described current flow out interval and limit current outflow water channel with described impact interval, the part in described 3rd water route is flowed out water channel by described current and is configured to, described current flow out one end of water channel and connect with described water inlet, and the other end connects with described outlet.

Alternatively, described impact interval is provided with the intercommunicating pore that multiple and described current outflow water channel connects.

Further, described current outflow interval is provided with a plurality of spaced apart arc rib.

According to an embodiment of the present utility model, described arc rib protrudes towards the direction that current flow.

According to an embodiment of the present utility model, described impact water channel and/or described current flow out the inwall of water channel and are provided with and a plurality of wash away bar.

According to an embodiment of the present utility model, described in wash away bar and be located at described impact water channel and/or described current flow out the upstream of water channel.

According to an embodiment of the present utility model, described in wash away bar and be located at described impact interval and/or described current and flow out on interval.

According to an embodiment of the present utility model, box component for washing agent also includes colorful lamp assembly, and described colorful lamp assembly is connected on described inner box and/or described outer box.

A kind of washing machine is another aspect provides, including the box component for washing agent of washing machine as above according to this utility model embodiment.

Washing machine according to this utility model embodiment, by arranging box component for washing agent as above, the first water route along the flowing of detergent intracavity perisporium can be set on inner box with outer box, form the second water route circulated and the 3rd water route connected with the branch in the second water route, thus the detergent being placed on detergent intracavity can be washed away, detergent is made fully to dissolve, thus increasing the foam number of detergent, improve detergent and participating in the efficiency of washing and the washing (-)off properties of washing machine.

Additional aspect of the present utility model and advantage will part provide in the following description, and part will become apparent from the description below, or is recognized by practice of the present utility model.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present utility model and advantage are from conjunction with will be apparent from easy to understand the accompanying drawings below description to embodiment, wherein:

Fig. 1 is the cross-sectional schematic of the box component for washing agent of the washing machine according to this utility model embodiment；

Fig. 2 is the cross-sectional schematic of the box component for washing agent of the washing machine according to this utility model embodiment；

Fig. 3 is the perspective view of the upper cover of the box component for washing agent of the washing machine according to this utility model embodiment；

Fig. 4 is the front view of the lower cover of the box component for washing agent of the washing machine according to this utility model embodiment；

Fig. 5 is the cross-sectional schematic in Fig. 4 along A-A direction；

Fig. 6 is the perspective view of the lower cover of the box component for washing agent of the washing machine according to this utility model embodiment；

Fig. 7 is the front view of the inner box of the box component for washing agent of the washing machine according to this utility model embodiment；

Fig. 8 is the cross-sectional schematic in Fig. 7 along B-B direction；

Fig. 9 is the upward view of the inner box of the box component for washing agent of the washing machine according to this utility model embodiment；

Figure 10 is the perspective view impacting interval of the box component for washing agent of the washing machine according to this utility model embodiment；

Figure 11 is the front view impacting interval of the box component for washing agent of the washing machine according to this utility model embodiment；

Figure 12 is the cross-sectional schematic in Figure 11 along C-C direction；

Figure 13 is the perspective view of the current outflow interval of the box component for washing agent of the washing machine according to this utility model embodiment；

Figure 14 is the front view of the current outflow interval of the box component for washing agent of the washing machine according to this utility model embodiment；

Figure 15 is the cross-sectional schematic in Figure 14 along D-D direction；

Figure 16 is the partial structurtes schematic diagram of the washing machine according to this utility model embodiment；

Figure 17 is the cross-sectional schematic in Figure 16 along E-E direction.

Accompanying drawing labelling:

Box component for washing agent 100,

Outer box 110, water inlet 111, outlet 112,

Cap assembly 113, installation portion 1131, upper cover 1132, lower cover 1133, annular anti-splash muscle 1134,

Inner box 120, detergent chamber 121, detergent dispensing port 125, diapire 1214, diapire inner surface 1215, diapire outer surface 1216,

The contour line 1211 of the cross section in detergent chamber, segmental arc 1212, straightway 1213,

Intake chamber 123, circulates the mouth of a river 1231,

Overflow groove 124, spilling water import 1241,

Gush import 122,

Water fender 130,

Inlet channel 140, exports 141, the first outlet 141a, the second outlet 141b, the 3rd outlet 141c,

Impact interval 150, impact water channel 151, intercommunicating pore 152, wash away bar 153,

Current flow out interval 160, and current flow out water channel 161, arc rib 162, and the engaging of colorful lamp buckles 163,

First water route 170, nozzle 172, the outlet 173 in the first water route,

Second water route 180, the entrance 181 in the second water route,

3rd water route 190,

Washing machine 200,

Casing 210, cylinder assembly 220.

Detailed description of the invention

Being described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has the element of same or like function from start to finish.The embodiment described below with reference to accompanying drawing is illustrative of, and is only used for explaining this utility model, and it is not intended that to restriction of the present utility model.

In description of the present utility model, it will be appreciated that, term " " center ", " length ", " width ", " thickness ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end ", " interior ", " outward ", " axially ", " radially ", orientation or the position relationship of the instruction such as " circumference " are based on orientation shown in the drawings or position relationship, it is for only for ease of description this utility model and simplifies description, rather than the device of instruction or hint indication or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.Additionally, term " first ", " second " are only for descriptive purposes, and it is not intended that indicate or imply relative importance or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or implicitly include one or more these features.In description of the present utility model, except as otherwise noted, " multiple " are meant that two or more.

In description of the present utility model, it is necessary to explanation, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, for instance, it is possible to it is fixing connection, it is also possible to be removably connect, or connect integratedly；Can be mechanically connected, it is also possible to be electrical connection；Can be joined directly together, it is also possible to be indirectly connected to by intermediary, it is possible to be the connection of two element internals.For the ordinary skill in the art, it is possible to concrete condition understands above-mentioned term concrete meaning in this utility model.

The box component for washing agent 100 of the washing machine 200 according to this utility model embodiment is described below with reference to Fig. 1-Figure 17.

As shown in Fig. 1-Figure 17, the box component for washing agent 100 according to the washing machine 200 of this utility model embodiment, including outer box 110 and inner box 120.

Specifically, outer box 110 has water inlet 111 and outlet 112, water inlet 111 can connect to supply water in box component for washing agent 100 with extraneous water source (such as tap water), and outlet 112 can connect to be passed in the cylinder assembly 220 of washing machine 200 water being dissolved with detergent with the cylinder assembly 220 of washing machine 200.

As shown in Fig. 1-Fig. 2 and Fig. 7-Fig. 8, having detergent chamber 121 in inner box 120, the bottom in detergent chamber 121 has its gush import 122 through, for instance as it is shown in fig. 7, gush import 122 is located on the diapire 1214 in detergent chamber 121 and through diapire 1214.Having the first water route 170 that entrance is connected with water inlet 111 in inner box 120, the current that the first water route 170 is flowed out flow along the internal perisporium in detergent chamber 121, and the sidewall of inner box 120 has the circulation mouth of a river 1231.It should be noted that, rotary waterway can be formed in detergent chamber 121 when flowing from the water of the outflow in the first water route 170 along the internal perisporium in detergent chamber 121, the detergent being placed in detergent chamber 121 is had the effect that rotation is washed away by rotary waterway, such that it is able to accelerate the dissolution velocity of detergent, detergent can also be made to produce foam finer and smoother, abundant simultaneously.As shown in Figure 2 and Figure 7, the current that the first water route 170 is flowed out can the direction flowing shown in arrow a11 in Fig. 2 and Fig. 7.

As shown in Figure 2, the second water route 180 and the 3rd water route 190 is limited respectively between outer box 110 and inner box 120, wherein the entrance 181 in the second water route connects with water inlet 111, and the circulation mouth of a river 1231 is positioned at the downstream of the entrance 181 in the second water route so that detergent chamber 121 connects by circulating the mouth of a river 1231 with the second water route 180.It should be noted that " downstream " here is the concept relative with " upstream ", referring to the upper and lower relation on current flow direction, namely current flow to downstream from upstream.One branch in the second water route 180 connects with gush import 122 to enter in detergent chamber 121 water from the bottom of inner box 120, and another branch in the second water route 180 connects with the 3rd water route 190, and the 3rd water route 190 is connected between water inlet 111 and outlet 112.

As shown in Figure 2, water in water inlet 111 can enter in the second water route 180 along the direction shown in arrow b11 in Fig. 2, water in detergent chamber 121 can enter in the second water route 180 (in Fig. 2 shown in arrow b14) by the circulation mouth of a river 1231 simultaneously, part water in second water route 180 can pass through gush import 122 and return in detergent chamber 121 (in Fig. 2 shown in arrow b12), such that it is able to form circulation waterway between inner box 120 and outer box 110, detergent along with in circulation waterway water can circulate between inner box 120 and outer box 110, thus detergent can be sufficiently solubilized in circulation waterway, and then the efficiency of detergent participation washing and the washing (-)off properties of washing machine 200 can be improved.

Additionally, when current enter in detergent chamber 121 from gush import 122, current can flow in detergent chamber 121 from the bottom up in detergent chamber 121, thus current can present the state gushed of turning in detergent chamber 121, and then can improve the dissolved efficiency of detergent.

It should be noted that the current flowed out in the first water route 180 can form rotary waterway in detergent chamber 121, enter into the current in detergent chamber 121 from gush import 122 and can be formed in detergent chamber 121 in the current turning over the state of gushing.In detergent chamber 121, by making rotary water current and being that the current turning over the state of gushing are combined, it is possible to make detergent fully dissolve, such that it is able to improve detergent to participate in the efficiency of washing and the washing (-)off properties of washing machine 200.

3rd water route 190 connects water inlet 111 and outlet 112, current in another branch in the second water route 180 can be flowed in the 3rd water route 190 (in Fig. 2 shown in arrow b13) simultaneously, the water that another branch road from the second water route 180 is flowed in the 3rd water route 190 can be gone out to outlet 112 thus being flowed into the current in the 3rd water route 190 from water inlet 111, and then the water being fully dissolved with detergent can be drained in washing machine 200 from outlet 112.Such as, as shown in Figure 2, the water in the 3rd water route 190 flows along the direction shown in arrow c11, converge from the water in another branch of the second water route 180 outflow along the water in the direction shown in arrow b13 Yu the 3rd water route 190 simultaneously, and jointly flow to outlet 112 along the direction shown in arrow c12, discharge from outlet 112.

It is described in detail according to current flow regime in the box component for washing agent 100 of the washing machine 200 of this utility model embodiment referring to Fig. 2 and Fig. 7.

As in figure 2 it is shown, three water routes can be included in box component for washing agent 100, i.e. the 170, second water route, the first water route 180 and the 3rd water route 190.The entrance in the first water route, the entrance 181 in the second water route and the entrance in the 3rd water route all connect with water inlet 111.Wherein, the second water route 180 can include Liang Ge branch, and the water in one of them branch can pass through gush import 122 and enter in detergent chamber 121, and the water in detergent chamber 121 can pass through to circulate the mouth of a river 1231 and again return in the second water route 180；Water in another branch can converge with the water in the 3rd water route 190, and under the percussion in the 3rd water route 190, the water in this branch can flow out from outlet 112.

As shown in Figure 7, first water route 170 can be located in detergent chamber 121, the water flowed out in the first water route 170 can flow (as 2 and Fig. 7 shown in arrow a11) along the internal perisporium in detergent chamber 121, namely the water flowed out from the first water route 170 can form rotary water current in detergent chamber 121, so that the detergent being placed in detergent chamber 121 is washed away, make detergent fully dissolve, increase the foam number of detergent.

As shown in Figure 2, the water entering into the second water route 180 from water inlet 111 can flow along the direction shown in arrow b11, the water in a branch in second water route 180 can pass through gush import 122 and enter in detergent chamber 121, water in detergent chamber 121 can pass through to circulate the mouth of a river 1231 and return in the second water route 180, thus the part water in the second water route 180 can form circulation waterway, detergent along with in circulation waterway water can circulate between inner box 120 and outer box 110, thus detergent fully can dissolve in the water circulated, and then the efficiency of detergent participation washing and the washing (-)off properties of washing machine 200 can be effectively improved.

In the second water route 180, when current enter in detergent chamber 121 from gush import 122, current can flow in detergent chamber 121 from the bottom up in detergent chamber 121, thus current can present the state gushed of turning in detergent chamber 121, and then can improve the dissolved efficiency of detergent.

As shown in Figure 2, the water entering into the 3rd water route 190 from water inlet 111 can flow along the direction shown in arrow c11, another branch in second water route 180 connects with the 3rd water route 190, namely the water in a branch in the second water route 180 can converge with the water in the 3rd water route 190, and jointly flows out from outlet 112.It is flowed into the water in the 3rd water route 190 from water inlet 111 can be gone out by the water that another branch road from the second water route 180 is flowed in the 3rd water route 190, and then the water being fully dissolved with detergent can be drained in washing machine 200 from outlet 112.

It should be noted that the current flowed out in the first water route 170 can form rotary waterway in detergent chamber 121, enter into the current in detergent chamber 121 from gush import 122 and can be formed in detergent chamber 121 in the current turning over the state of gushing.In detergent chamber 121, by making rotary water current and being that the current turning over the state of gushing are combined, it is possible to make detergent fully dissolve, such that it is able to improve detergent to participate in the efficiency of washing and the washing (-)off properties of washing machine 200.Meanwhile, the circulation waterway that the second water route 180 is configured to is utilized with detergent chamber 121, it is possible to make detergent fully dissolve further, such that it is able to improve detergent to participate in the efficiency of washing.

Additionally, the current being dissolved with detergent can be converged with the 3rd water route 190 by another branch in the second water route 180, thus the water being dissolved with detergent can be gone out discharge outlet 112 as rinsing water route by the 3rd water route 190, such that it is able to enter in the cylinder assembly 220 of washing machine 200 to participate in washing.

The box component for washing agent 100 of the washing machine 200 according to this utility model embodiment, by arrange on inner box 120 with outer box 110 can along detergent chamber 121 internal perisporium flowing the first water route 170, the second water route 180 circulated and the 3rd water route 190 connected with the branch in the second water route 180 can be formed, the detergent being placed in detergent chamber 121 can be washed away, detergent is made fully to dissolve, increase the foam number of detergent, improve detergent and participate in the efficiency of washing and the washing (-)off properties of washing machine 200.

According to an embodiment of the present utility model, as shown in Fig. 1, Fig. 3-Fig. 6, outer box 110 can include cap assembly 113, and cap assembly 113 is located at the top of inner box 120, and water inlet 111 can be located on cap assembly 113.Cap assembly 113 is provided with the detergent dispensing port 125 through with detergent chamber 121, thus can from detergent dispensing port 125 to putting detergent in detergent chamber 121.As Figure 4-Figure 6, cap assembly 113 can being provided with installation portion 1131, installation portion 1131 is removably connected with inner box 120.Such as, cap assembly 113 can make installation portion 1131 be connected with inner box 120 by threaded fastener；For another example, the installation portion 1131 of cap assembly 113 can be connected with inner box 120 by the mode of clamping.

Further, as shown in Figure 2 and Figure 4, outer box 110 can also include inlet channel 140, and one end of inlet channel 140 connects with water inlet 111, and the other end connects with the entrance in the first water route, the entrance 181 in the second water route and the entrance in the 3rd water route respectively.Specifically, as Figure 4-Figure 6, there are three groups of outlets 141, for instance be the first outlet 141a, the second outlet 141b and the 3rd outlet 141c in inlet channel 140.Wherein, the entrance connection in the first outlet 141a and the first water route, the entrance 181 in the second outlet 141b and the second water route connects, the entrance connection in the 3rd outlet 141c and the three water route.

In example as shown in Figure 5 and Figure 6, outlet 141 place connected with the first water route 170 has nozzle 172, for instance, the first outlet 141a place is provided with nozzle 172, and nozzle 172 can stretch in detergent chamber 121.Form rotary water current thus, it is possible to be easy in detergent chamber 121, make the water flowed out in the first water route 170 flow along detergent chamber 121 internal perisporium, such that it is able to accelerate the dissolution velocity of detergent.Alternatively, nozzle 172 water ejected towards the internal perisporium in detergent chamber 121, can be thus easy to the first water route 170 and form rotary water current in detergent chamber 121.

Further, as shown in Fig. 1, Fig. 3-Fig. 6, cap assembly 113 can include upper cover 1132 and lower cover 1133, upper cover 1132 and lower cover 1133 and jointly limit inlet channel 140.Thus, it is possible to make the structure of box component for washing agent 100 compacter, reasonable.Alternatively, nozzle 172 can extend from lower cover 1133.Outside in order to prevent the rotary water current that the first water route 170 is formed to be splashed to detergent chamber 121, annular anti-splash muscle 1134 can be set in the side towards detergent chamber 121 of cap assembly 113, annular anti-splash muscle 1134 can be located at the position near detergent dispensing port 125, and circumferentially extending along detergent dispensing port 125 of annular anti-splash muscle 1134.Alternatively, annular anti-splash muscle 1134 is located at the side towards detergent chamber 121 of lower cover 1133.

It addition, box component for washing agent 100 can also include colorful lamp assembly (not shown go out), colorful lamp assembly is connected on inner box 120 and/or outer box 110.It is understood that inner box 120 can be connected with colorful lamp assembly, outer box 110 can also be connected with on colorful lamp assembly inner box 120 and outer box 110 and can be connected with colorful lamp assembly simultaneously.Such as, as shown in Figure 13-Figure 14, the colorful lamp engaging that current outflow interval 160 is provided with for engaging colorful lamp assembly buckles 163.

As shown in Figs. 7-8, in order to improve the rotation effect of the rotary water current that the first water route 170 produces, improving the rotary water current scouring effect to the detergent in detergent chamber 121, can be provided with water fender 130 in detergent chamber 121, water fender 130 and detergent chamber 121 inner wall limit go out the first water route 170.Thus water can flow along the first water route 170 that water fender 130 and detergent chamber 121 limit.Alternatively, as it is shown in fig. 7, water fender 130 can be formed as arc-shaped watertight shutter, thus it is conveniently adjusted the direction of the current flowed out from the first water route 170.Further, the jet of nozzle 172 towards the inwall in the detergent chamber 121 relative with baffle plate, thus can be conveniently adjusted the direction of the current flowed out from the first water route 170 further.

For improving the speed of the water flowed out in the first water route 170, as shown in Figs. 7-8, on the direction of the current flowing in the first water route 170, the width in the first water route 170 is gradually reduced.It is to say, in the first water route 170 current flowing direction on, the inwall and the water fender 130 that are positioned at the detergent chamber 121 in the first water route 170 are increasingly towards close to each other.Thus can improve the dissolved efficiency of detergent, the impact velocity of current can be utilized simultaneously to make the water in detergent chamber 121 can pass through to circulate the mouth of a river 1231 and enter in the second water route 180.

Further, as it is shown in fig. 7, the contour line 1211 of the cross section in detergent chamber can include the segmental arc 1212 that opens wide and the straightway 1213 for closed arc section 1212, the current arcuately section 1212 that the first water route 170 is flowed out flows to described straightway 1213.Thus, it is possible to make the current flowed out in the first water route 170 flow along the internal perisporium in detergent chamber 121, such that it is able to accelerate current flowing velocity in detergent chamber 121, detergent is made fully to dissolve.

As shown in Fig. 1-Fig. 2 and Fig. 7-Fig. 8, can having the intake chamber 123 spaced apart with detergent chamber 121 in inner box 120, intake chamber 123 connects with detergent chamber 121 by circulating the mouth of a river 1231, and intake chamber 123 connects with outlet 112 and gush import 122 respectively.As shown in Fig. 1-Fig. 2 and Figure 10-Figure 12, outer box 110 can also include impacting interval 150, the diapire outer surface 1216 impacting interval 150 and detergent chamber 121 limits impact water channel 151, the one end impacting water channel 151 connects with the circulation mouth of a river 1231, and the other end connects with gush import 122 and outlet 112 respectively.

The part way in the second water route 180 can by intake chamber 123 and by current flow out water channel 161 be configured to.That is, second water route 180 can include intake chamber 123 and impact water channel 151, wherein one end of intake chamber 123 connects with water inlet 111 and the circulation mouth of a river 1231, the other end of intake chamber 123 connects with the one end impacting water channel 151, and the other end impacting water channel 151 connects with gush import 122 and outlet 112.Alternatively, intake chamber 123 is located at the position of the sidewall near detergent chamber 121, impacts the position that water channel 151 is located at the close diapire 1214 in detergent chamber 121.

It should be noted that the water yield of the water in detergent chamber 121 can be entered in the second water route 180 by the quantity and distribution adjustment adjusting gush import 122.Alternatively, gush import 122 can be spaced apart multiple.Such as, shown in Fig. 7, Fig. 9, gush import 122 is spaced apart four, and is evenly distributed on the diapire 1214 in detergent chamber 121.When current enter in detergent chamber 121 from gush import 122, current flow upwardly into detergent chamber 121 from impacting water channel 151, such that it is able to present the state gushed of turning in detergent chamber 121, and then can improve the dissolved efficiency of detergent.Further, for making detergent be adequately exposed to current, gush import 122 can be located at the middle part in detergent chamber 121.Further, on the direction towards gush import 122, the diapire inner surface 1215 in detergent chamber 121 (lower section as shown in Figure 8) gradually downward tilts.Thus, it is possible to improve the dissolution velocity of detergent further, make detergent can contact with enough water, such that it is able to improve detergent to participate in the ratio of washing, improve the clean rate of washing machine 200.

As shown in Figure 2, it is flowed into the water in intake chamber 123 from water inlet 111 and the interior water being flowed in intake chamber 123 by circulating the mouth of a river 1231 flows along the direction shown in arrow b11 Fig. 2 from detergent chamber 121, and flow to impact water channel 151, the branch impacting the current in water channel 151 returns in detergent chamber 121 by gush import 122, impacts another branch of water and the 3rd water route 190 in water channel 151 and converges.

Further, for improving current flowing velocity in impact water channel 151, making detergent dissolve further in impact water channel 151, bubble, in impact water channel 151 in water (flow) direction, the height of impact water channel 151 is gradually reduced.Such as, as in figure 2 it is shown, in impact water channel 151, water, along the direction flowing shown in arrow b11 in Fig. 2, impacts the water channel 151 height on above-below direction (above-below direction as shown in Figure 2) and is gradually reduced.

As shown in Figure 10-Figure 12, for increasing the foam number of detergent, improving the fine and smooth degree of bubble, impact the inwall of water channel 151 can be provided with and a plurality of wash away bar 153.The water slug impacted in water channel 151 can form diffuse-reflectance after washing away bar 153, such that it is able to make detergent fully dissolve.Washing away bar 153 to extend along the direction being perpendicular to water flowing, a plurality of bar 153 that washes away is arranged along the direction that water flows.Arrangement mode for washing away bar 153 is not particularly limited, for instance, a plurality of bar 153 that washes away can be spaced apart, it is also possible to is closely adjacent to each other.Further, shown in Figure 12, the free end washing away bar 153 can form curved surface, thus can improve the foam number of detergent.

Further, wash away bar 153 can be arranged on impact interval 150 towards the side impacted in water channel 151.In order to make the water in impact water channel 151 successfully be flowed in the 3rd water route 190, impact and interval 150 can be provided with multiple its intercommunicating pore 152 through.Such as, intercommunicating pore 152 can be located at the position relative with gush import 122.Intercommunicating pore 152 can be arranged on the downstream washing away bar 153, and namely the water impacted in water channel 151 first flows through and washes away bar 153, then flows to intercommunicating pore 152, gush import 122.

As it is shown in fig. 7, have the overflow groove 124 spaced apart with detergent chamber 121 in inner box 120, overflow groove 124 is connected with detergent chamber 121 by spilling water import 1241, and one end of overflow groove 124 can connect with water inlet 111, and the other end connects with outlet 112.When water excess in detergent chamber 121, too much water can flow out from overflow groove 124.As shown in Fig. 1-Fig. 2 and Figure 13-Figure 15, outer box 110 can also include current and flow out interval 160, current flow out interval 160 and limit current outflow water channel 161 with impact interval 150, and current flow out one end of water channel 161 and connect with water inlet 111, and the other end connects with outlet 112.

The part way in the 3rd water route 190 it is configured to it is understood that can be flowed out water channel 161 by overflow groove 124 and current.That is, 3rd water route 190 can include overflow groove 124 and current flow out water channel 161, wherein one end of overflow groove 124 connects with water inlet 111, one end that the other end of overflow groove 124 flows out water channel 161 with current connects, and current flow out the other end of water channel 161 and connect with outlet 112 and the second water route 180.As in figure 2 it is shown, the other end that current flow out water channel 161 connects with intercommunicating pore 152, impacting the part current in water channel 151 can be entered in current outflow water channel 161 by the intercommunicating pore 152 on impact interval 150.

As shown in Figure 2, enter into the water in overflow groove 124 from water inlet 111 and enter into the water in overflow groove 124 by spilling water import 1241 in detergent chamber 121 and all can pass through overflow groove 124 and be flowed into current and flow out in water channel 161 (as Fig. 2 shown in arrow c11), being flowed into current from overflow groove 124 and flow out the water in water channel 161 and all can flow out (as Fig. 2 shown in arrow c12) from outlet 112 from being flowed into the water that current flow out in water channel 161 in the second water route 180.

For improving the dissolved efficiency of detergent, after making the water from the outflow in detergent chamber 121 first pass through the second water route 180 circulation, entering back into the 3rd water route 190 to discharge, the position at the circulation mouth of a river 1231 can be higher than the position of spilling water import 1241, and detergent thus can be made fully to dissolve.Alternatively, overflow groove 124 and intake chamber 123 are located at the position near straightway 1213.Thus, it is possible to extend the water sport track flowed out in the first water route 170, it is possible to the fully water in agitator treating agent chamber 121 and detergent, have and utilize the abundant dissolving promoting detergent.

As shown in Figure 13-Figure 15, current flow out interval 160 and are provided with a plurality of spaced apart arc rib 162.When having the water slug of detergent to arc rib 162, arc rib 162 can promote that detergent dissolves rapidly, can increase foam number simultaneously, improve the fine and smooth degree of bubble.Preferably, arc rib 162 can protrude towards the direction of current flowing.

As shown in Figure 13-Figure 15, for increasing the foam number of detergent, current flow out can also be provided with on the inwall of water channel 161 and a plurality of wash away bar 153.The water slug that current flow out in water channel 161 can form diffuse-reflectance after washing away bar 153, such that it is able to make detergent fully dissolve.Washing away bar 153 to extend along the direction being perpendicular to water flowing, a plurality of bar 153 that washes away is arranged along the direction that water flows.Arrangement mode for washing away bar 153 is not particularly limited, for instance, a plurality of bar 153 that washes away can be spaced apart, it is also possible to is closely adjacent to each other.Further, shown in Figure 12, the free end washing away bar 153 can form curved surface, thus can improve the foam number of detergent.

Further, wash away bar 153 to be arranged on current and flow out the side flowing out in water channel 161 towards current of interval 160.Wash away bar 153 and can be arranged on the upstream of current outflow water channel 161, thus can promote that detergent dissolves rapidly and produces the foaming of more exquisiteness.Such as, as in figure 2 it is shown, wash away bar 153 to be located at the upstream of arc rib 162, namely current first pass through and wash away bar 153, then then through arc rib 162.

In addition, it is necessary to illustrate, impact water channel 151 and current flow out all can arrange in water channel 161 and wash away bar 153.Flow out the inwall of water channel 161 can be provided with a plurality of wash away bar 153 it is understood that impact water channel 151 and/or current.Further, wash away bar 153 to be located on impact interval 150 and/or current outflow interval 160.Thus it is easy to improve the compact conformation degree of box component for washing agent 100.Preferably, wash away bar 153 and be located at the upstream impacting water channel 151 and/or current outflow water channel 161.

The box component for washing agent 100 of washing machine 200 according to this utility model embodiment is described in detail with specific embodiment referring to Fig. 1-Figure 15.It is worth being understood by, described below is merely illustrative, rather than to concrete restriction of the present utility model.

As Figure 1-Figure 2, box component for washing agent 100 includes: inner box 120, outer box 110, cap assembly 113, impact interval 150 and current flow out interval 160.The 170, second water route, the first water route 180 and the 3rd water route 190 is limited in box component for washing agent 100.

Specifically, outer box 110 has water inlet 111 and outlet 112, and the entrance in the first water route, the entrance 181 in the second water route and the entrance in the 3rd water route all connect with water inlet 111.There is in inner box 120 detergent chamber 121, there is bottom detergent chamber 121 its gush import 122 through, the sidewall of inner box 120 has the circulation mouth of a river 1231.

As shown in Figure 7, water fender 130 is located in detergent chamber 121 and limits the first water route 170 with the part internal perisporium with detergent chamber 121, can form rotary waterway when flowing from the water of the outflow in the first water route 170 along the internal perisporium in detergent chamber 121 in detergent chamber 121.The detergent being placed in detergent chamber 121 is had the effect that rotation is washed away by rotary waterway, such that it is able to accelerate the dissolution velocity of detergent, detergent can also be made to produce foam finer and smoother, abundant simultaneously.As shown in Figure 2 and Figure 7, the current that the first water route 170 is flowed out can the direction flowing shown in arrow a11 in Fig. 2 and Fig. 7.

As it is shown in fig. 7, the contour line 1211 of the cross section in detergent chamber can include the segmental arc 1212 that opens wide and the straightway 1213 for closed arc section 1212, the current arcuately section 1212 that the first water route 170 is flowed out flows to described straightway 1213.Thus, it is possible to make the current flowed out in the first water route 170 flow along the internal perisporium in detergent chamber 121, such that it is able to accelerate current flowing velocity in detergent chamber 121, detergent is made fully to dissolve.

There is in inner box 120 intake chamber 123 spaced apart with detergent chamber 121 respectively and overflow groove 124, intake chamber 123 and overflow groove 124 and be located at the position near straightway 1213.Wherein, intake chamber 123 is one, and overflow groove 124 is two and is symmetrically distributed in the both sides of intake chamber 123, and an intake chamber 123 and two overflow grooves 124 connect with water inlet respectively.

Cap assembly 113 limits inlet channel 140, and three groups of outlets 141 of inlet channel 140 respectively the first outlet 141a, the second outlet 141b and the 3rd export 141c.First outlet 141a place is provided with nozzle 172, and nozzle 172 stretches to interior and towards the detergent chamber 121 being positioned at the first water route 170 the internal perisporium in the first water route 170 and sprays water.Second outlet 141b is one and connection corresponding to intake chamber 123, to supply feedwater in intake chamber 123.3rd outlet 141c is two and connects with two overflow groove 124 one_to_one corresponding, to supply water in overflow groove 124.

The circulation mouth of a river 1231 is located on intake chamber 123, and spilling water import 1241 is located on overflow groove 124, and the position at the circulation mouth of a river 1231 is lower than spilling water import 1241, and the water major part in detergent chamber 121 can be passed through to circulate the mouth of a river 1231 and enter in intake chamber 123.When the water in detergent chamber 121 is abundant and will occur to overflow, water can pass through the circulation mouth of a river 1231 simultaneously and enter into intake chamber 123, enters into overflow groove 124 by spilling water import 1241.

The diapire outer surface 1216 impacting interval 150 and detergent chamber 121 limits impact water channel 151, and intake chamber 123 limits the second water route 180 jointly with impacting water channel 151, and namely intake chamber 123 connects with impacting water channel 151.One end of intake chamber 123 connects with water inlet 111 and the circulation mouth of a river 1231, and the other end of intake chamber 123 connects with the one end impacting water channel 151, and the other end impacting water channel 151 connects with gush import 122 and the 3rd water route 190.Alternatively, impacting interval 150 and be provided with multiple spaced apart intercommunicating pore 152, water channel 151 and the 3rd water route 190 are impacted in intercommunicating pore 152 connection.

As shown in Figure 2, the water being flowed in intake chamber 123 from water inlet 111 flows along the direction shown in arrow b11 Fig. 2, water in detergent chamber 121 can enter in the second water route 180 (in Fig. 2 shown in arrow b14) by the circulation mouth of a river 1231 simultaneously, water in intake chamber 123 can flow to along the direction shown in arrow b11 and impact water channel 151, the branch impacting the current in water channel 151 can return in detergent chamber 121 (in Fig. 2 shown in arrow b12) by gush import 122, such that it is able to form circulation waterway between inner box 120 and outer box 110, detergent along with in circulation waterway water can circulate between inner box 120 and outer box 110, thus detergent fully can dissolve in water, and then the efficiency of detergent participation washing and the washing (-)off properties of washing machine 200 can be improved.Another branch impacting the water in water channel 151 converges (in Fig. 2 shown in arrow b13) with the 3rd water route 190.

3rd water route 190 is connected between water inlet 111 and outlet 112, and another branch in the second water route 180 connects with the 3rd water route 190.Current flow out interval 160 and limit current outflow water channel 161 with impact interval 150, and current flow out one end of water channel 161 and connect with overflow groove 124, and the other end connects with outlet 112 and intercommunicating pore 152.It is to say, overflow groove 124 and current flow out water channel 161 jointly limits the 3rd water route 190.

As shown in Figure 2, enter into the water in overflow groove 124 from water inlet 111 and enter into the water in overflow groove 124 by spilling water import 1241 in detergent chamber 121 and all can pass through overflow groove 124 and be flowed into current and flow out in water channel 161 (as Fig. 2 shown in arrow c11), from overflow groove 124 be flowed into water that current flow out in water channel 161 with in the second water route 180, be flowed into current flow out the water in water channel 161 and converge after, flow out (as Fig. 2 shown in arrow c12) from outlet 112.Thus, the foam etc. being dissolved with the water of detergent, detergent produces can be gone out to the cylinder assembly of washing machine 200 by the 3rd water route 190.

As shown in Fig. 1-Figure 17, another aspect provides a kind of washing machine 200 according to of the present utility model, including the box component for washing agent 100 of washing machine 200 as above.As shown in Figure 16-Figure 17, washing machine 200 can include casing 210, water inlet component (not shown go out) and cylinder assembly 220, and cylinder assembly 220 can be located in casing 210.Box component for washing agent 100 and water inlet component all can be located in casing 210, and water inlet component connects with the water inlet 111 of outer box 110, and the outlet 112 of outer box 110 assembly connects with cylinder assembly.

Washing machine 200 according to this utility model embodiment, by arrange on inner box 120 with outer box 110 can along detergent chamber 121 internal perisporium flowing the first water route 170, the second water route 180 circulated and the 3rd water route 190 connected with the branch in the second water route 180 can be formed, the detergent being placed in detergent chamber 121 can be washed away, detergent is made fully to dissolve, increase the foam number of detergent, improve detergent and participate in the efficiency of washing and the washing (-)off properties of washing machine 200.

In the description of this specification, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " illustrative examples ", " example ", " concrete example " or " some examples " etc. means in conjunction with this embodiment or example describe are contained at least one embodiment of the present utility model or example.In this manual, the schematic representation of above-mentioned term is not necessarily referring to identical embodiment or example.And, the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiments or example.

While there has been shown and described that embodiment of the present utility model, it will be understood by those skilled in the art that: these embodiments can being carried out multiple change, amendment, replacement and modification when without departing from principle of the present utility model and objective, scope of the present utility model is limited by claim and equivalent thereof.

Claims (26)

1. the box component for washing agent of a washing machine, it is characterised in that including:

Outer box, described outer box has water inlet and outlet；

Inner box, there is in described inner box detergent chamber, there is bottom described detergent chamber its gush import through, there is in described inner box the first water route that entrance is connected with described water inlet, wherein, the current flowed out by described first water route flow along the internal perisporium in described detergent chamber, and the sidewall of described inner box has the circulation mouth of a river；

The second water route and the 3rd water route is limited respectively between described outer box and described inner box；

Wherein the entrance in the second water route connects with described water inlet, and the described circulation mouth of a river is positioned at the downstream of the entrance in described second water route so that described detergent chamber is connected by the described circulation mouth of a river with described second water route；One branch in described second water route and described gush inlet communication are to enter described detergent intracavity by water from the bottom of described inner box, and another branch in described second water route connects with described 3rd water route；

3rd water route is connected between described water inlet and described outlet.

2. the box component for washing agent of washing machine according to claim 1, it is characterised in that described detergent intracavity is provided with water fender, and described water fender and described detergent cavity wall limit described first water route.

3. the box component for washing agent of washing machine according to claim 2, it is characterised in that on the direction of the current flowing in the first water route, the width in described first water route is gradually reduced.

4. the box component for washing agent of washing machine according to claim 2, it is characterised in that described water fender is formed as arc-shaped watertight shutter.

5. the box component for washing agent of washing machine according to claim 1, it is characterized in that, described outer box includes inlet channel, described inlet channel connects with described water inlet and includes three groups of outlets, exports and connect with the entrance in described first water route, the entrance in described second water route and the entrance in the 3rd water route respectively described in three groups.

6. the box component for washing agent of washing machine according to claim 5, it is characterised in that the described exit connected with described first water route has nozzle, and described nozzle stretches to described detergent intracavity.

7. the box component for washing agent of washing machine according to claim 1, it is characterized in that, there is in described inner box the intake chamber spaced apart with described detergent chamber, the part in described second water route is configured to by described intake chamber, described intake chamber is connected with described detergent chamber by the described circulation mouth of a river, described intake chamber respectively with described outlet and described gush inlet communication.

8. the box component for washing agent of washing machine according to claim 7, it is characterized in that, there is in described inner box the overflow groove spaced apart with described detergent chamber, the part in described 3rd water route is configured to by described overflow groove, described overflow groove is connected with described detergent chamber by spilling water import, and described overflow groove connects with described outlet.

9. the box component for washing agent of washing machine according to claim 8, it is characterised in that the position at the described circulation mouth of a river is higher than the position of described spilling water import.

10. the box component for washing agent of washing machine according to claim 8, it is characterized in that, the contour line of the cross section in described detergent chamber includes the segmental arc that opens wide and for closing the straightway of described segmental arc, and the current that described first water route is flowed out flow to described straightway along described segmental arc.

11. the box component for washing agent of washing machine according to claim 10, it is characterised in that described overflow groove and described intake chamber are located at the position near described straightway.

12. the box component for washing agent of washing machine according to claim 1, it is characterised in that described gush import is spaced apart multiple.

13. the box component for washing agent of washing machine according to claim 12, it is characterised in that described gush import is located at the middle part in described detergent chamber.

14. the box component for washing agent of washing machine according to claim 1, it is characterised in that on the direction towards described gush import, the diapire inner surface in described detergent chamber tilts gradually downward.

15. the box component for washing agent of washing machine according to claim 1, it is characterized in that, described outer box includes cap assembly, described cap assembly is located at the top of described inner box, described cap assembly is provided with the detergent dispensing port through with described detergent chamber, and described water inlet is located on described cap assembly.

16. the box component for washing agent of the washing machine according to any one of claim 1-15, it is characterized in that, described outer box also includes impacting interval, the diapire outer surface in described impact interval and described detergent chamber limits impact water channel, the part in described second water route is configured to by described impact water channel, one end of described impact water channel connects with the described circulation mouth of a river, and the other end connects with described gush import and described outlet respectively.

17. the box component for washing agent of washing machine according to claim 16, it is characterised in that in described impact water channel in water (flow) direction, the height of described impact water channel is gradually reduced.

18. the box component for washing agent of washing machine according to claim 16, it is characterized in that, described outer box also includes current and flows out interval, described current flow out interval and limit current outflow water channel with described impact interval, the part in described 3rd water route is flowed out water channel by described current and is configured to, described current flow out one end of water channel and connect with described water inlet, and the other end connects with described outlet.

19. the box component for washing agent of washing machine according to claim 18, it is characterised in that described impact interval is provided with multiple and described current and flows out the intercommunicating pore that water channel connects.

20. the box component for washing agent of washing machine according to claim 18, it is characterised in that described current flow out interval and are provided with a plurality of spaced apart arc rib.

21. the box component for washing agent of washing machine according to claim 20, it is characterised in that described arc rib protrudes towards the direction that current flow.

22. the box component for washing agent of washing machine according to claim 18, it is characterised in that described impact water channel and/or described current flow out the inwall of water channel and are provided with and a plurality of wash away bar.

23. the box component for washing agent of washing machine according to claim 22, it is characterised in that described in wash away bar and be located at described impact water channel and/or described current and flow out the upstream of water channel.

24. the box component for washing agent of washing machine according to claim 22, it is characterised in that described in wash away bar and be located at described impact interval and/or described current and flow out on interval.

25. the box component for washing agent of washing machine according to claim 1, it is characterised in that also including colorful lamp assembly, described colorful lamp assembly is connected on described inner box and/or described outer box.

26. a washing machine, it is characterised in that include the box component for washing agent of washing machine according to any one of claim 1-25.