CN108118495A - Washing machine - Google Patents

Abstract

A kind of washing machine, has：Detergent box (400) is formed with to store the first receiving room (410) of detergent；Flow path configuration portion forms flow path in the top of detergent box (400).Be formed in flow path configuration portion it is multiple flow down hole, it is the plurality of to flow down hole for specifying direction of the current in flow path to detergent box (400).Detergent box (400) includes partition wall (414), first receiving room (410) is divided into mixing chamber (412) and bubble chamber (413) by the partition wall (414), by making detergent and water mixes to generate the aqueous solution of detergent, which is used to make the aqueous solution blistering flowed into from mixing chamber (412) the mixing chamber (412).Multiple holes that flow down include：First-class lower opening is used to specify current to mixing chamber (412)；Second lower opening is used to specify current to bubble chamber (413).

Description

Washing machine

It is on 2 17th, 2015,201580015994.7 (PCT/JP2015/ of Application No. the applying date that the application, which is, 000709) divisional application of the application of, entitled " washing machine ".

Technical field

The present invention relates to a kind of for washing the washing machine of clothing.

Background technology

Previous washing machine has detergent box and fluid path structure, which has the receipts for storing detergent Receive room, the fluid path structure is for making water run down into detergent box (referring to patent document 1 to 3).Detergent is molten in receiving room Xie Yushui.The result is that：Generate the aqueous solution of detergent.The aqueous solution of detergent is blistered in receiving room (with reference to patent document 4)。

The receiving room of previous detergent box is responsible for the function of the aqueous solution of generation detergent and makes what aqueous solution blistered Function.The generation of aqueous solution and the blistering of aqueous solution are carried out in common receiving room, and accordingly, there exist abundant in aqueous solution Before blistering, the problem of aqueous solution is easily flowed out from detergent box.

Patent document 1：(Japan) special open 2008-99920 publications

Patent document 2：(Japanese) Patent Laid-Publication 2-1091 publications

Patent document 3：(Japan) special open 2000-342894 publications

Patent document 4：(Japan) special open 2008-99919 publications

The content of the invention

It is an object of the invention to provide a kind of detergent that can be supplied for the cleaning of clothing after fully blistering The washing machine of aqueous solution.

The washing machine of the present invention has：Detergent box is formed with to store the first receiving room of detergent；Flow path structure Portion is made, flow path is formed with above detergent box.Multiple hole, the plurality of stream are flowed down in addition, being formed in flow path configuration portion Lower opening is used to the water in flow path being directed towards detergent box.Moreover, detergent box is mixed comprising the first receiving room is divided into Close the partition wall of room and bubble chamber, the mixing chamber by making detergent and water mixes to generate the aqueous solution of detergent, this Bubble chamber is used to make the aqueous solution blistering flowed into from mixing chamber.Moreover, multiple holes that flow down include：First-class lower opening is used for water It is directed to mixing chamber；Second lower opening is used to water being directed to bubble chamber.

The washing machine of the present invention can clean clothing using the aqueous solution of the detergent after abundant blistering.

Description of the drawings

Fig. 1 is the schematic block diagram of the washing machine illustrated.

Fig. 2 is the approximate three-dimensional map of the water supplying unit of washing machine shown in FIG. 1.

Fig. 3 A are the approximate three-dimensional maps of the water feeding tank of water supplying unit shown in Fig. 2.

Fig. 3 B are the summary side elevations of the water feeding tank shown in Fig. 3 A.

Fig. 4 is the approximate three-dimensional map of the water feeding tank shown in Fig. 3 B.

Fig. 5 is the schematic sectional view of the weir wall of water feeding tank shown in Fig. 4.

Fig. 6 is the approximate three-dimensional map of the detergent box of washing machine shown in FIG. 1.

Fig. 7 is the approximate vertical view of the water feeding tank shown in Fig. 5.

Fig. 8 is the outline exploded perspective view of the detergent box shown in Fig. 6.

Fig. 9 A are the schematic sectional views of water feeding tank shown in Fig. 7.

Fig. 9 B are the approximate three-dimensional maps of water feeding tank shown in Fig. 7.

Figure 10 is the approximate three-dimensional map of washing machine shown in FIG. 1.

Figure 11 is the approximate three-dimensional map of washing machine shown in Fig. 10.

Figure 12 is the schematic sectional view of washing machine shown in Fig. 10.

Figure 13 is the approximate three-dimensional map of the cover of the water feeding tank shown in Fig. 3 B.

Figure 14 A are the approximate three-dimensional maps of washing machine shown in FIG. 1.

Figure 14 B are the schematic sectional views of the washing machine shown in Figure 14 A.

Figure 15 A are the schematic sectional views of the detergent box shown in Fig. 6.

Figure 15 B are the schematic sectional views of the detergent box shown in Fig. 6.

Figure 16 A are the approximate vertical views of other detergent boxes with rib tectosome.

Figure 16 B are the approximate vertical views of another other detergent boxes with rib tectosome.

Specific embodiment

With reference to the attached drawing of addition, illustrate the washing machine illustrated below.By the following description, laundry can be clearly understood that Machine.Represent " on ", " under ", the term in direction as "left", "right" just for the sake of making to illustrate clearing.Therefore, these are used Language simultaneously should not be used as limited explanation.Washing machine can not only have the function of washing clothes of cleaning clothing, also with functions/drying. The incidental various functions of work(of doing washing do not generate any restrictions to the principle of aftermentioned embodiment.

(supply water construction)

Fig. 1 is the schematic block diagram of the washing machine 100 illustrated.With reference to Fig. 1, illustrate washing machine 100.

Washing machine 100 has feed water inlet 200, water supplying unit 300, detergent box 400 and sink 500.User's energy It is enough that water is supplied to washing machine 100 from feed water inlet 200.Water is successively by water supplying unit 300 and detergent box 400, and reach Sink 500.Sink 500 performs the cleaning action for being cleaned to clothing.Cleaning action can be by known each Action performed by the sink of kind washing machine.The principle of present embodiment is not limited to be implemented by sink 500 specific Cleaning action.

Detergent box 400 has the first Room 410,420 and the 3rd Room 430 of second Room.User can be in the first Room 410 Middle storage detergent powder.User can store liquid detergent in second Room 420.User can be in the 3rd Room 430 Middle storage softening agent, other post-treatment agent (Japaneses effective to the fiber of clothing：Drug on bodyguard).In addition, the 3rd Room 430 is simultaneously Not necessarily need.The principle of present embodiment is simultaneously not affected by 430 any restrictions of the 3rd Room.In the present embodiment, first is utilized Room 410 illustrates the first receiving room.The second receiving room is illustrated using second Room 420.It is washed using the powdery for being accommodated in the first Room 410 Agent illustrates the first detergent.The second detergent is illustrated using the liquid detergent for being accommodated in second Room 420.

Water supplying unit 300 includes feed water valve 310 and flow path configuration portion 320.The path that feed water valve 310 is used to make water is in direction It is switched between second path SP of the first Room 410 and the 3rd Room 430 of first path FP and direction of second Room 420.In addition, Second path SP not necessarily needs.The principle of present embodiment is simultaneously not affected by the second path SP any restrictions.

Flow path configuration portion 320 limits to supply water to the first Room 410 and second Room 420 based on detergent box 400 Flow path.When feed water valve 310 opens first path FP, water is supplied via flow path configuration portion 320 to the first Room 410 and second Room 420 It gives.The result is that：The liquid detergent in detergent powder and second Room 420 in first Room 410 is mixed with water.Powder Shape detergent and liquid detergent supply together with water to sink 500.Sink 500 can be washed in detergent powder and liquid It washs and clothing is stirred in the aqueous solution of agent, clothing is cleaned.

When feed water valve 310 opens the second path SP, water is supplied to the 3rd Room 430.Post-treatment agent in 3rd Room 430 with Water mixes.Post-treatment agent supplies together with water to sink 500.Sink 500 can be in the aqueous solution of post-treatment agent to clothing Object is washed, and assigns the desirable characteristic of clothing (for example, flexibility).

Fig. 2 is the approximate three-dimensional map of water supplying unit 300.Referring to Figures 1 and 2, water supplying unit 300 is illustrated.

Water supplying unit 300 has：With reference to the feed water valve 310 illustrated by Fig. 1；Water feeding tank 330 and cover 340.With reference to Fig. 1 Illustrated detergent box 400 is accommodated in water feeding tank 330.User can pull out detergent box 400 from water feeding tank 330 Come.Flow path configuration portion 320 with reference to illustrated by Fig. 1 is formed as one with water feeding tank 330.The flow arrangement in flow path configuration portion 320 In the lower section of cover 340.

Fig. 3 A are the approximate three-dimensional maps of water feeding tank 330.Fig. 3 B are the summary side elevations of water feeding tank 330.With reference to Fig. 1, Fig. 3 A And Fig. 3 B, illustrate water feeding tank 330.

Water feeding tank 330, which includes, keeps case 350 and flow path case 360.Detergent box 400 with reference to illustrated by Fig. 1 is accommodated in guarantor It holds in case 350.Flow path configuration portion 320 with reference to illustrated by Fig. 1 forms flow path in flow path case 360.

Water feeding tank 330, which includes, is kept case 350 and the shared wall 331 common to flow path case 360.Shared wall 331 for pair Flowing water is supported in flow path in flow path case 360.In the present embodiment, abutment wall is illustrated using shared wall 331.

Flow path case 360 includes the first water guide tube 361, the second water guide tube 362 and peripheral wall portion 363.First water guide tube 361 can To be located at the upstream end with reference to the first path FP illustrated by Fig. 1.Second water guide tube 362 can be located at reference to illustrated by Fig. 1 The upstream end of second path SP.Feed water valve 310 with reference to illustrated by Fig. 1 is installed on the first water guide tube 361 and the second water guide tube 362.Feed water valve 310 closes the second water guide tube 362 during the first water guide tube 361 is opened.Feed water valve 310 is by second During water guide tube 362 is opened, the first water guide tube 361 is closed.

Cover 340 is opposite with shared wall 331.Peripheral wall portion 363 is stood up between cover 340 and shared wall 331, is limited Go out to be formed the region of the rectangular shape of flow path.Peripheral wall portion 363 includes right wall 364, and the first water guide tube 361 and second is led Water drum 362 is protruded from right wall 364.Flow path configuration portion 320 with reference to illustrated by Fig. 1 includes shared wall 331, cover 340, flow path case 360th, the first water guide tube 361 and the second water guide tube 362.

Fig. 4 is the approximate three-dimensional map of water feeding tank 330.With reference to Fig. 1, Fig. 3 B and Fig. 4, water feeding tank 330 is further illustrated.This Outside, detergent box 400 and cover 340 are eliminated from water feeding tank 330 shown in Fig. 4.

Case 350 is kept to include the storage wall 351 for the substantially U-shaped being formed as one with shared wall 331.Storage wall 351 with The shared synergistic effect of wall 331 limits to store the storage space 352 of detergent box 400.In the present embodiment, receipts are utilized Wall 351 of receiving illustrates maintaining part.

Storage wall 351 includes lower wall 353, left wall 354 and right wall 355.Lower wall 353 expands in the lower section of detergent box 400 It opens.Lower wall 353 is used to accept from the first Room 410,420 and the 3rd Room 430 of second Room in the lower section of detergent box 400 and leak out Water.The setting of left wall 354 is arranged between the left border of lower wall 353 and the left border of shared wall 331.The setting of right wall 355 is arranged on down Between the right border of the right border of wall 353 and shared wall 331.

Storage wall 351 includes left holding shoulder 356 and right holding shoulder 357.Left holding shoulder 356 is along by left wall 354 and lower wall 353 formed corners and formed.Right holding shoulder 357 is formed along the corner formed by right wall 355 and lower wall 353.Left holding Shoulder 356 and the right direction of insertion extension for keeping shoulder 357 along detergent box 400.Detergent box 400 is by left holding 356 He of shoulder Right holding shoulder 357 is held in storage space 352.

Storage wall 351 includes the leading edge 358 of substantially U-shaped.Leading edge 358 limits insertion with shared wall 331 synergistic effect Mouth 391.Detergent box 400 is inserted into from insert port 391 in storage space 352.

Storage wall 351 includes the rear wall 359 with 358 opposite side of leading edge.Rear wall 359 is used to close storage space 352.

As shown in fig. 3b, share wall 331 flatly to configure between storage wall 351 and flow path case 360, the opposing party Face, lower wall 353 tilt downwards from rear wall 359 towards leading edge 358.Therefore, designer can not excessively increase water feeding tank 330 Height dimension, assign near rear wall 359 right wall 364 of flow path case 360 larger height dimension.Right wall 364 is from rear wall 359 Forward edge 358 narrows.Therefore, cover 340 substantially horizontally configures.

First water guide tube 361 and the second water guide tube 362 compared to leading edge 358 closer to rear wall 359, and from flow path case 360 Right wall 364 protrude outward.Near rear wall 359, right wall 364 has larger area, thus designer can be to the The internal diameter size of one water guide tube 361 and the second water guide tube 362 assigns larger numerical value.Therefore, it is possible to make 361 He of the first water guide tube Second water guide tube 362 has relatively low flow resistance.

As shown in Figure 4, flow path case 360 includes the first next door 371, the second next door 372 and the 3rd next door 373.The It erects and sets from shared wall 331 in the region surrounded by peripheral wall portion 363 in one next door 371.Second next door 372 is in the first next door Between 371 and the right wall 364 of peripheral wall portion 363, erect and set from shared wall 331.3rd next door 373 is on the second next door 372 and the right side Between wall 364, erect and set from shared wall 331.

Surround first flow path 381 of the space in the second next door 372 as the water flowing for being provided from the inflow of the first water guide tube 361 It uses.By the space that the 3rd next door 373 and right wall 364 surround as being provided from the second of the water flowing that the second water guide tube 362 flows into Flow path 382 uses.First flow path 381 is corresponding with the first path FP with reference to illustrated by Fig. 1.Second flow path 382 and reference The second path SP illustrated by Fig. 1 is corresponding.Designer can also be so that the shape of first flow path 381 and second flow path 382 be fitted The mode for closing the shape of detergent box 400 determines the shape of first flow path 381 and second flow path 382.The principle of present embodiment It is not limited to the specific shape of first flow path 381 and second flow path 382.

In first flow path 381, it is formed on shared wall 331 and flows down hole 383,384.Hole 384 is flowed down to be formed in and flow The different position of lower opening 383.It is flowed into from the water that the first water guide tube 361 flows into via hole 383 is flowed down with reference to the illustrated by Fig. 1 One Room 410.It is flowed into from the water that the first water guide tube 361 flows into via hole 384 is flowed down with reference to the second Room 420 illustrated by Fig. 1.That is, Hole 383,384 is flowed down for limiting water between storage wall 351 and flow path case 360 under the first Room 410 and the stream of second Room 420 Flow down path.

Peripheral wall portion 363, the first next door 371, the second next door 372 and the upper limb in the 3rd next door 373 can also be welded in The lower surface of cover 340.It, can be by using ultrasonic technology by peripheral wall if water feeding tank 330 and cover 340 are resin systems Portion 363, the first next door 371, the upper limb in the second next door 372 and the 3rd next door 373 are easily welded in cover 340.In addition, this The principle of embodiment is not limited to peripheral wall portion 363, the first next door 371, the second next door 372, the 3rd next door 373 and cover Specific connecting structure between 340.

User can supply water from the first water guide tube 361, and first flow path 381 is filled up using water.If by the 3rd next door 373 water-tightly link together with cover 340, then the water in first flow path 381 may not flow into second flow path 382, but via Hole 383,384 is flowed down to supply to the first Room 410 and second Room 420.

User can supply water from the second water guide tube 362, and second flow path 382 is filled up using water.If by the 3rd next door 373 water-tightly link together with cover 340, then the water in second flow path 382 may not flow into first flow path 381, but to Three Room 430 supply.Therefore, using the switching action of feed water valve 310, the flow path of water can be properly selected.

Flow path case 360 includes generally c-shaped weir wall 374.The both ends of weir wall 374 are connected with the second next door 372.Flow down hole 384 are surrounded by the second next door 372 and weir wall 374.It is different from the first next door 371, the second next door 372 and the 3rd next door 373, weir Originate from cover 340 on wall 374 and be separated with interval.Therefore, if filling up first flow path 381 with water, water can be via weir wall 374 Gap between cover 340 is flowed into second Room 420 from hole 384 is flowed down.In the present embodiment, the first next door is utilized 371st, the second next door 372, the 3rd next door 373 and weir wall 374 illustrate wall portion.It is enclosed using the second next door 372 and the illustration of weir wall 374 Wall portion.

Fig. 5 is the schematic sectional view of weir wall 374.Reference Fig. 4 and Fig. 5 illustrates the function of weir wall 374.

When water stops from the inflow of the first water guide tube 361, since water gravity flow lower opening 383,384 flows down, first flow path 381 Interior water level slowly declines.When the water level in first flow path 381 is less than the height of weir wall 374, by 374 and second next door of weir wall Liquid layer in 372 spaces surrounded is separated from the liquid layer for surrounding weir wall 374.Therefore, enclosed by 374 and second next door 372 of weir wall Into space in water prior to be present in other regions water disappear.Afterwards, air can via flow down hole 384 flow into it is first-class In road 381.The result is that：Accelerated via the water vent for flowing down hole 383.

Fig. 6 is the approximate three-dimensional map of detergent box 400.With reference to Fig. 4 and Fig. 6, illustrate detergent box 400.

Detergent box 400 has knob portion 440, the first dividing wall 411, the second dividing wall 421 and the 3rd dividing wall 431.First dividing wall 411, the second dividing wall 421 and the 3rd dividing wall 431 are connected with knob portion 440.User can It holds knob portion 440 and pulls out detergent box 400 from storage space 352.First dividing wall 411 marks off what is be open upward First Room 410.Second dividing wall 421 marks off the second Room 420 being open upward.3rd dividing wall 431 marks off upward 3rd Room 430 of opening.User can pull out detergent box 400 from storage space 352, be divided to by the first dividing wall 411 The the first Room 410 supply detergent powder gone out.User can pull out detergent box 400 from storage space 352, to by second stroke The second Room 420 that bulkhead 421 marks off supplies liquid detergent.User can pull out detergent box from storage space 352 400, supply post-treatment agent to the 3rd Room 430 marked off by the 3rd dividing wall 431.In the present embodiment, first stroke is utilized At least one of 411 and second dividing wall 421 of bulkhead illustrates dividing wall.

Detergent box 400 includes the midfeather 414 that the first Room 410 is separated into mixing chamber 412 and bubble chamber 413.Mixing Room 412 is formed between knob portion 440 and bubble chamber 413.User can supply detergent powder to mixing chamber 412.Mixing Room 412 is mainly used for that detergent powder is made to mix with water.Bubble chamber 413 is mainly used for making the aqueous solution of detergent to rise Bubble.In the present embodiment, partition wall is illustrated using midfeather 414.

Fig. 7 is the approximate vertical view of water feeding tank 330.With reference to Fig. 6 and Fig. 7, illustrate from flow path case 360 to detergent box 400 The technology of water supply.

Hole 383,384 is flowed down as described above, being formed on shared wall 331.It is also formed with flowing down hole on shared wall 331 385.It flows down hole 383,384,385 and is respectively used to specify the current for being supplied to first flow path 381 to the direction of detergent box 400. The water that first flow path 381 is supplied to via the first water guide tube 361 is designated to flow to mixing chamber 412 by hole 383 is flowed down.More For body, the water of first flow path 381 is supplied to via the first water guide tube 361, mixing chamber 412 is run down into via hole 383 is flowed down.Its As a result, the detergent powder in mixing chamber 412 can be mixed efficiently with water.It is supplied via the first water guide tube 361 The water for being given to first flow path 381 is designated to flow to second Room 420 by hole 384 is flowed down.More specifically, via the first water guide Cylinder 361 is supplied to the water of first flow path 381, and second Room 420 is run down into via hole 384 is flowed down.As a result, second Room 420 Interior liquid detergent can be mixed efficiently with water.In the present embodiment, using flow down hole 383 illustrate first Flow down hole.Hole is flowed down using the illustration of hole 384 the 3rd is flowed down.

Notch 415 is formed on midfeather 414.The aqueous solution of detergent in mixing chamber 412 can be via notch Portion 415 flows into bubble chamber 413.The water of first flow path 381 is supplied to via the first water guide tube 361, is referred to by hole 385 is flowed down Constant current is to bubble chamber 413.More specifically, the water of first flow path 381 is supplied to via the first water guide tube 361, via flowing down hole 385 run down into bubble chamber 413.The result is that：The aqueous solution of the detergent in bubble chamber 413 is made efficiently to blister.In this reality It applies in mode, second lower opening is illustrated using hole 385 is flowed down.The first notch is illustrated using notch 415.

First dividing wall 411 includes upstream wall 418 and downstream wall 419.Upstream wall 418 is drawn with the synergistic effect of midfeather 414 Separate mixing chamber 412.Downstream wall 419 marks off bubble chamber 413 with the synergistic effect of midfeather 414.In the present embodiment, utilize Downstream wall 419 illustrates the first wall portion.In the present embodiment, the second wall portion is illustrated using upstream wall 418.

Upstream wall 418 includes the upper limb 451 opposite with shared wall 331.The lower surface of the close shared wall 331 of upper limb 451.It is mixed The water closed in room 412 is blocked by upstream wall 418 and shared wall 331, and therefore, the water in mixing chamber 412 can collect from notch 415 Bubble chamber 413 is flowed into middlely.

Downstream wall 419 includes the upper limb 452 opposite with shared wall 331.It is different from the upper limb 451 of upstream wall 418, downstream wall Most of interval that more than 5mm is separated with from shared wall 331 of 419 upper limb 452.Therefore, what is formed in bubble chamber 413 is water-soluble The liquid level of liquid is also separated with interval from shared wall 331.That is, air layer is formed in shared wall 331 and the water formed in bubble chamber 413 Between the liquid level of solution.The water that gravity flow lower opening 385 sprays is involved in the air in air layer, and flows into water-soluble in bubble chamber 413 Liquid.Therefore, the aqueous solution in bubble chamber 413 is made efficiently to blister.In the present embodiment, the upper limb of downstream wall 419 is utilized 452 illustrate the first upper limb.The second upper limb is illustrated using the upper limb 451 of upstream wall 418.

Downstream wall 419 can also be referred to as detergent box rear wall 416, which is formed in front and back Upwards with 440 opposite side of knob portion.Notch 417 is formed on detergent box rear wall 416.Washing in bubble chamber 413 The aqueous solution of agent is flowed out via notch 417 from detergent box 400.

Fig. 8 is the outline exploded perspective view of detergent box 400.With reference to Fig. 7 and Fig. 8, illustrate detergent box 400.

Detergent box 400 includes the first siphon lid 422 and the second siphon lid 432.First siphon lid 422 comes from for discharging The water of second Room 420.Second siphon lid 432 is for water of the discharge from the 3rd Room 430.

First siphon lid 422 includes cover board 423 and outer barrel 424.Opening portion 425 is formed on cover board 423.Gravity flow lower opening 384 water flowed down flow into second Room 420 via opening portion 425.Outer barrel 424 protrudes downwards from cover board 423.

The second dividing wall 421 for marking off the second Room 420 with mixing chamber 412 and the adjoining of bubble chamber 413 includes bottom Wall 426 and inner cylinder 427.The cover board 423 of 426 and first siphon lid 422 of bottom wall is opposite.Inner cylinder 427 is dashed forward upward from bottom wall 426 Go out.When 422 partial closure's second Room 420 of the first siphon lid, inner cylinder 427 is inserted into outer barrel 424 and forms siphon construction.Second Liquid in room 420 flows into the gap between inner cylinder 427 and outer barrel 424 according to siphon principle.Afterwards, liquid is in inner cylinder 427 It inside flows down, and is discharged from detergent box 400.

Second siphon lid 432 includes cover board 433 and outer barrel (not shown).Opening portion 434 is formed on cover board 433.From Second water guide tube 362 is supplied to the water of second flow path 382, and the 3rd Room 430 is flowed into via opening portion 434.3rd dividing wall 431 is wrapped Containing bottom wall 435 and inner cylinder 436.When 432 three Room 430 of partial closure of the second siphon lid, inner cylinder 436 is inserted into the second siphon lid 432 outer barrel and formed siphon construction.Liquid in 3rd Room 430 is flowed into according to siphon principle between inner cylinder 436 and outer barrel Gap.Afterwards, liquid flows down in inner cylinder 436, and is discharged from detergent box 400.

Detergent box 400 includes interface wall 401, which forms the first Room 410 (mixing chamber 412 and bubble chamber And the boundary of second Room 420 413).Notch 402 is formed in interface wall 401.Liquid in second Room 420 can be via Notch 402 is flowed out from second Room 420 to mixing chamber 412.In the present embodiment, the second notch is illustrated using notch 402 Portion.

Detergent box 400 is included in rib tectosome 460 prominent in mixing chamber 412.Rib tectosome 460 is along crossing from shape Prolong into the direction of glide path of the water that flows to the notch 415 for being formed at midfeather 414 of notch 402 in interface wall 401 Stretch setting.Before detergent powder of the rib tectosome 460 in mixing chamber 412 fully dissolves, detergent powder is hindered to blistering It flows out room 413.

Rib tectosome 460 includes left rib 461 and right rib 462.Right rib 462 is configured in a manner of being separated with left rib 461.It is tied Fruit：The flow pattern of complicated water can be formed in mixing chamber 412.Therefore, the detergent powder in mixing chamber 412 is effectively Dissolving.In the present embodiment, first rib is illustrated using one of left rib 461 and right rib 462.Utilize left rib 461 and right rib The other of 462 illustrate the second rib.

Fig. 9 A are the schematic sectional views of water feeding tank 330.Fig. 9 B are the approximate three-dimensional maps of water feeding tank 330.With reference to Fig. 9 A and figure 9B illustrates the water discharge technology from 330 draining of water feeding tank.

As shown in Figure 9 A, the lower wall 353 of case 350 is kept to be separated with interval from detergent box 400.Therefore, in lower wall 353 Down space 392 is formed between detergent box 400.The water and detergent discharged from detergent box 400 are flowed in down space 392 It is dynamic.

Fig. 9 B show the imaginary plane limited by the upper surface of left holding shoulder 356 and the upper surface of right holding shoulder 357 PP.It is exactly above-mentioned down space 392 than the spaces of plane PP on the lower.The space more top than plane PP is upper space 393.Detergent Box 400 is accommodated in space 393.Therefore, the leading edge 358 of lower wall 353 is separated with interval from detergent box 400, and is formed with stream Lower mouth 394 (opening portion formed between plane PP and the leading edge 358 of lower wall 353).

As described above, lower wall 353 tilts downwards towards insert port 391.Therefore, it is sent to the water of down space 392 and washes Washing agent can flow down from the mouth 394 that flows down being formed between plane PP and lower wall 353.

Figure 10 is the approximate three-dimensional map of washing machine 100.With reference to Fig. 1 and Figure 10, illustrate washing machine 100.

Washing machine 100 has housing 600 and cover 700.Housing 600 includes lower housing 610 and upper shell 620.In lower casing It is accommodated in body 610 with reference to the sink 500 illustrated by Fig. 1.It is formed with to discharge from sink on lower housing 610 The outlet 611 of 500 water.Cover 700 is installed on upper shell 620.Cover 700 can be on upper shell 620 along the vertical direction It is rotated.It is formed on upper shell 620 with reference to the feed water inlet 200 illustrated by Fig. 1.With reference to the water supplying unit illustrated by Fig. 1 300 and detergent box 400 be assembled in upper shell 620.

Figure 11 is the approximate three-dimensional map of washing machine 100.With reference to Figure 11, washing machine 100 is further illustrated.

As shown in Figure 11, user can rotate cover 700 upward.Input is formed on upper shell 620 Mouth 621.When user rotates cover 700 upward, sink 500 exposes via input port 621.User can incite somebody to action Clothing puts into sink 500 via input port 621.

The knob portion 440 of detergent box 400 is towards input port 621.Therefore, user can turn cover 700 upward It is dynamic, operate the knob portion 440 of the detergent box 400 exposed from housing 600.

Figure 12 is the schematic sectional view of washing machine 100.With reference to Figure 10 to Figure 12, washing machine 100 is further illustrated.

Washing machine 100 also has operation panel 800.Operation panel 800 is configured between feed water inlet 200 and cover 700.Make User can operate operation panel 800, set the various actions of sink 500.

Water feeding tank 330 is configured in upper shell 620 in the lower section of operation panel 800 and feed water inlet 200.Confess the mouth of a river 200 The water that supply comes, which flows downwards, flows into water feeding tank 330.As described above, keeping the lower wall 353 of case 350 and detergent box 400 Between be formed with and flow down mouth 394.The knob portion 440 of detergent box 400 is unclosed to flow down mouth 394, and flows down mouth 394 and washing The upper opening of slot 500, therefore, the aqueous solution of detergent are directly arranged via mouth 394 is flowed down to sink 500 from water feeding tank 330.

(design of cover)

Designer can assign cover various shapes, and can assign the flowing resistance in cover adjustment flow path case The function of power, the function of preventing detergent box from departing from.Illustrate the designing technique of cover below.

Figure 13 is the approximate three-dimensional map of cover 340.Illustrate cover 340 with reference to Fig. 3 B, Fig. 4, Fig. 7 and Figure 13.

Cover 340 includes cover board 341, the ridge 342 of L-shaped, left fastening plate 343 and right fastening plate 344.Cover board 341 For closing first flow path 381 and second flow path 382.The lower surface of cover board 341 can also be welded in week by ultrasonic technology Wall portion 363, the first next door 371, the second next door 372 and the upper limb in the 3rd next door 373.

Ridge 342 protrudes downwards from cover board 341.Ridge 342 enters in first flow path 381.As with reference to illustrated by Fig. 3 A As, shared wall 331 tilts downwards towards rear wall 359, and on the other hand, cover board 341 is generally horizontal.Therefore, first every Wall 371, the second next door 372 and the 3rd next door 373 are gone towards rear wall 359 and are gradually become higher.So, in no ridge In the case of 342, it is meant that the amplitude of fluctuation of the flow resistance of first flow path 381 becomes larger.The principle of present embodiment is：Designer Ridge 342 is arranged at cover 340 so that the sectional area of first flow path 381 can be roughly the same in defined whole region. The shape of ridge 342 can also be properly set according to the flow behavior in flow path case 360.Therefore, present embodiment Principle is not limited to the specific shape of ridge 342.

As shown in Figure 7, left insertion hole 332 and right insertion hole 333 are formed on shared wall 331.Left fastening plate 343 It is inserted into left insertion hole 332.Right fastening plate 344 is inserted into right insertion hole 333.

Figure 14 A are the approximate three-dimensional maps of washing machine 100.Figure 14 B are the schematic sectional views of the washing machine 100 shown in Figure 14 A. Reference Fig. 9 A, Figure 11, Figure 14 A and Figure 14 B illustrate the function of left fastening plate 343 and right fastening plate 344.

As shown in Figure 9 A, when cover 340 is installed on water feeding tank 330, left fastening plate 343 and right fastening plate 344 It is prominent into storage space 352.Detergent box 400 shown in Figure 11 is configured at the first Room 410, second Room 420 and the 3rd Room 430 is accommodated in the reception position in storage space 352.Detergent box 400 shown in Figure 14 A, which is configured at, makes the first Room 410, Two Room 420 and the 3rd Room 430 are from the exposing position that storage space 352 exposes.Storage wall 351 is so that detergent box 400 can be The mode of displacement keeps detergent box 400 between reception position and exposing position.

As shown in Figure 9 A, left fastening plate 343 is prominent into the first Room 410.Right fastening plate 344 is into the 3rd Room 430 It is prominent.When detergent box 400 is configured at exposing position, left fastening plate 343 is abutted with the first dividing wall 411.When will wash When agent box 400 is configured at exposing position, right fastening plate 344 is abutted with the 3rd dividing wall 431.In the present embodiment, a left side is utilized Fastening plate 343 illustrates snap-latch piece.

(reduction of internal pressure)

Previous fluid path structure (with reference to above patent document 1~3) has the plate structure for the top for being configured at detergent box Part.Aperture is formed on board member.Water is flowed down via aperture to detergent box.If the internal pressure of fluid path structure compared with Height, then water spray downwards fiercely.At this point, if user accidentally pulls out detergent box, water is with forming washing machine The surface of component collide and splash.Hereinafter, illustrated for the washing machine with following construction, using the construction, Even if when user accidentally pulls out detergent box, it can also inhibit the splashing of water.

The internal pressure of the flow path formed by the flow path configuration portion of present embodiment is higher, and therefore, water can be from flowing down Hole sprays fiercely.As a result, detergent is efficiently mixed with water.However, if user is accidentally by detergent Box pulls out, then the ejection of the water for lower opening of flowing automatically will cause the splashing of water.Illustrate to be subtracted according to the position of detergent box below The technology of the internal pressure of small flow path.

Figure 15 A are arranged in the schematic sectional view of the detergent box 400 of reception position.Figure 15 B are from reception position direction Expose the schematic sectional view for the detergent box 400 that position pulls out.With reference to Fig. 6, Fig. 7, Figure 15 A and Figure 15 B, illustrate to reduce The technology of the internal pressure of flow path.

As shown in fig. 15b, share wall 331 and include the highlighted wall 334 prominent into storage space 352.Highlighted wall 334 Recess portion 335 is formed in first flow path 381.Highlighted wall 334 limits the escape aperture 336 being open in the horizontal direction.

As described above, shared wall 331 tilts downwards towards rear wall 359.Highlighted wall 334 is configured at compared to leading edge 358 Closer to the position of rear wall 359.Therefore, the water in first flow path 381 can efficiently flow into recess portion 335.

Detergent box 400 is prominent to rear wall 359 with the boundary between the first dividing wall 411 and the second dividing wall 421 Projecting plate 403.When detergent box 400 is configured at reception position, projecting plate 403 closes escape aperture 336.During this period, water It is sprayed from hole 383,384,385 is flowed down to detergent box 400.The result is that：Detergent in detergent box 400 can be efficient Ground is dissolved in water.Afterwards, water is overflowed from detergent box 400, and is caught by lower wall 353.The water overflowed from detergent box 400 Pressure is high unlike the hydraulic pressure flowed down at hole 383,384,385, and therefore, the water overflowed from detergent box 400 will not be with excessive power It is collided with lower wall 353.Therefore, configured in detergent box 400 during reception position, water hardly splashes.In present embodiment In, illustrate receiving plate using lower wall 353.

When detergent box 400 is from reception position to when exposing position movement, projecting plate 403 opens escape aperture 336.It is tied Fruit is：Water in first flow path 381 can be leaked out from escape aperture 336.Escape aperture 336 is formed must be than flowing down hole 383,384,385 Greatly.Therefore, the hydraulic pressure at escape aperture 336 will not become excessively high.Furthermore it is possible to substantial amounts of water is leaked out from escape aperture 336, therefore, The internal pressure of first flow path 381 can decline rapidly.

In addition, the principle of the mode of reduction on above-mentioned internal pressure is not limited to have the first receiving room 410 It is divided into the washing machine of the detergent box of mixing chamber 412 and bubble chamber 413.That is, can also apply to have the water of detergent The washing machine for the detergent box that the generation and blistering of solution are realized in common receiving room.

(various rib tectosomes)

The rib tectosome that the designer of design detergent box can also assign preventing detergent powder from flowing out too early is each The shape of kind various kinds.Illustrate various rib tectosomes below.

Figure 16 A are the approximate vertical views of detergent box 400A.Figure 16 B are the approximate vertical views of detergent box 400B.Washing Agent box 400A, 400B can be used as the detergent box 400 with reference to illustrated by Fig. 1.

There is detergent box 400A single rib 463 to be used as rib tectosome.Rib 463 is prominent in mixing chamber 412.Rib 463 along crossing from being formed at interface wall 401 notch 402 flow to be formed at midfeather 414 notch 415 water stream The crosscutting direction of dynamic route is extended.

Detergent box 400B is used as rib tectosome comprising left rib 461A and right rib 462A.For from being formed at interface wall 401 flow direction of notch 402 is formed at for the current of notch 415 of midfeather 414, and right rib 462A configurations are than left rib 461A positions by the upstream.On the flow direction of water that notch 415 is flowed to from notch 402, left rib 461A partly with Right rib 462A is opposite.In the present embodiment, first rib is illustrated using right rib 462A.The second rib is illustrated using left rib 461A.

The washing machine 100 of the technical solution of the present invention has：Detergent box 400 is formed with to store detergent The first receiving room 410；Flow path configuration portion 320 forms flow path in the top of detergent box 400.In addition, in flow path configuration portion Be formed on 320 it is multiple flow down hole, it is the plurality of to flow down hole for specifying the current in flow path to the direction of detergent box 400.And And detergent box 400 includes partition wall 414, which is divided into mixing chamber 412 and bubble chamber by the first receiving room 410 413, by making detergent and water mixes to generate the aqueous solution of detergent, which is used for the mixing chamber 412 Make the aqueous solution blistering flowed into from mixing chamber 412.Moreover, multiple holes that flow down include：First-class lower opening 383, is used to specify water Flow to mixing chamber 412；Second lower opening 385 is used to specify current to bubble chamber.

Using the above structure, detergent is efficiently dissolved in the water that mixing chamber is supplied to from first-class lower opening.Its result It is：Generation makes the fully lysed aqueous solution of detergent.Aqueous solution has by the water that bubble chamber is supplied to from second lower opening Efficient blister.Therefore, it is possible to which sufficiently frothed aqueous solution to be used for the cleaning of clothing.

In said structure, the first notch 415 can also be formed on partition wall 414.It is supplied to the water of mixing chamber 412 Bubble chamber 413 can also be flowed to via the first notch 415.

Using the above structure, the water for being supplied to mixing chamber flows to bubble chamber via the first notch, therefore, is given birth in mixing chamber Into the aqueous solution of detergent efficiently blister by the water that bubble chamber is supplied to from second lower opening.Therefore, it is possible to incite somebody to action Sufficiently frothed aqueous solution is used for the cleaning of clothing.

In said structure, detergent box 400 can also include to mark off the first dividing wall of the first receiving room 410 411.First dividing wall 411 can also include the first wall portion 419, which marks off with the synergistic effect of partition wall 414 Bubble chamber 413.First wall portion 419 can also be included from flow path formations every spaced first upper limb 452.

Using the above structure, the first wall portion is included from flow path formations every spaced first upper limb, therefore, in bubble chamber Air layer is formed between the liquid level of interior aqueous solution and flow path configuration portion.Therefore, the water sprayed from second lower opening is involved in air Layer in air and flow into bubble chamber.The result is that：The aqueous solution of detergent can efficiently blister.Therefore, it is possible to fill The aqueous solution of blistering is divided to be used for the cleaning of clothing.

In said structure, the first upper limb 452 can also be separated with the interval of more than 5mm from flow path formations 320.

Using the above structure, the first upper limb is separated with the interval of more than 5mm from flow path formations, therefore, the liquid level of aqueous solution Air layer between flow path configuration portion becomes sufficiently thick for the efficient blistering of aqueous solution.

In said structure, the first dividing wall 411 can also include the second wall portion 418, second wall portion 418 and partition wall 414 synergistic effects mark off mixing chamber 412.Second wall portion 418 can also be included than the first upper limb 452 close to flow path configuration portion Second upper limb 451.

Using the above structure, the second wall portion is included than the first upper limb close to second upper limb in flow path configuration portion, therefore, mixed Bubble chamber can efficiently be flowed into via the first notch by closing the aqueous solution of the detergent of indoor generation.

In said structure, detergent box 400 can also include：Second dividing wall 421, is used to mark off and mixing chamber Second receiving room 420 of 412 adjoinings；Interface wall 401 is configured at the boundary of 412 and second receiving room 420 of mixing chamber.It is multiple Hole 384 can also be flowed down comprising specified current to the 3rd of the second receiving room 420 by flowing down hole.Can also in interface wall 401 shape Into the second notch 402.Mixing chamber 412 can also be flowed to via the second notch 402 by being supplied to the water of the second receiving room 420.

Using the above structure, multiple holes that flow down include threeth stream of the specified current to the second receiving room abutted with mixing chamber Lower opening, thus, it is also possible to generate the aqueous solution of detergent in the second receiving room.The aqueous solution of detergent has a common boundary through being formed from Second notch of wall and flow to mixing chamber, therefore, as the aqueous solution of the detergent generated in the first receiving room, rise It efficiently blisters in bubble chamber.

In said structure, detergent box 400 can also be included in rib tectosome 460 prominent in mixing chamber 412.Rib structure Making body 460 can also extend along the direction for the glide path for crossing the water that the first notch 415 is flowed to from the second notch 402 It sets.

Using the above structure, rib tectosome is along the glide path for crossing the water that the first notch is flowed to from the second notch Direction be extended, therefore, mix indoor detergent and be not easy to flow out to bubble chamber before dissolving.

In said structure, rib tectosome 460 can also include first rib 461 and from 461 separate configuration of first rib the Two ribs 462.

Using the above structure, rib tectosome include first rib and the second rib from first rib separate configuration, therefore, it is possible to The flow pattern of complicated water is formed in mixing chamber.Therefore, mixing indoor detergent can efficiently dissolve.

In said structure, for the current for flowing to the first notch 415 from the second notch 402, first rib 462A can also be configured in position more by the upstream than the second rib 461A.

Using the above structure, for the current for flowing to the first notch from the second notch, first rib configuration than Therefore second rib position by the upstream, mixes indoor detergent and is not easy to flow out to bubble chamber before dissolving.

In said structure, on the flow direction of water that the first notch 415 is flowed to from the second notch 402, first Rib 462A can also be partly opposite with the second rib 461A.

Using the above structure, on the flow direction of water that the first notch is flowed to from the second notch, first rib is local Ground is opposite with the second rib, therefore, mixes indoor detergent and is not easy to flow out to bubble chamber before dissolving.

In said structure, detergent can also include the first detergent of powdery and the second detergent of liquid.First Detergent can also be supplied to mixing chamber 412.Second detergent can also be supplied to the second receiving room 420.

Using the above structure, user can use powdery the first detergent and liquid the second detergent to clothing into Row cleaning.

In said structure, washing machine can also also have housing 600.Detergent box 400 can also be included from housing 600 The knob portion 440 of exposing.First dividing wall 411 can also be connected with knob portion 440.Mixing chamber 412, which can also configure, to be risen Between bubble chamber 413 and knob portion 440.

Using the above structure, mixing chamber configuration is between bubble chamber and knob portion, and therefore, user will can easily wash It washs agent and is supplied to mixing chamber.

The washing machine 100 of another technical solution of the present invention has：Detergent box 400 has to store detergent Receiving room；Water feeding tank 330, with maintaining part 351 and flow path configuration portion 320, which forms to store washing The storage space of agent box 400, the flow path configuration portion 320 limit to supply the flow path of water to detergent box 400.In addition, it keeps Portion 351 is accommodated in the exposing position and receiving room that detergent box 400 can expose in receiving room self-sustaining portion 351 in storage space Reception position between the mode of displacement keep detergent box 400.Moreover, water feeding tank 330 includes abutment wall 331, the abutment wall 331 configurations are used to be supported on flowing water in flow path between maintaining part 351 and flow path configuration portion 320.Moreover, it is propping up It holds to be formed on wall 331 and flows down hole 383,384,385 and escape aperture 336, this flows down hole 383,384,385 and is being protected for limiting water It holds and flows down path to what the detergent box 400 for being configured at reception position flowed down between portion 351 and flow path configuration portion 320, this is leaked out Hole 336 makes the water in flow path between maintaining part 351 and flow path configuration portion 320 when detergent box 400 is configured at and exposes position It leaks out.Moreover, when detergent box 400 is configured at reception position, detergent box 400 closes escape aperture 336.

Using the above structure, escape aperture is formed in abutment wall, therefore, exposes position detergent box is configured at When, the water in flow path can be leaked out from escape aperture.Water is made, which to be leaked out from escape aperture, can reduce the internal pressure of flow path, therefore, The pressure from the water for flowing down hole ejection can be reduced.Therefore, even if detergent box is pulled out to exposure position, water by user accidentally It is not easy to generate splashing.When configuring detergent box in reception position, detergent box closing escape aperture, therefore, in detergent During box is configured at reception position, the internal pressure of flow path is maintained at higher level.During this period, from the water for flowing down hole ejection The detergent being configured in the detergent box of reception position can be stirred fiercely.

In said structure, escape aperture 336 can also be bigger than flowing down hole 383,384,385.

Using the above structure, when receiving room, which is configured at, exposes position, the internal pressure of flow path is greatly reduced.Therefore, i.e., User is made to pull out detergent box accidentally, receiving room configuration is made to expose position, is not easy to occur the splashing of water.

In said structure, abutment wall 331 can also include the highlighted wall 334 prominent to storage space.In addition, highlighted wall 33 can also form recess portion 335 in flow path configuration portion.Moreover, escape aperture 336 can also be formed at highlighted wall 334.

Using the above structure, highlighted wall forms recess portion in flow path configuration portion, and therefore, the water in flow path configuration portion flows into prominent Go out wall.Escape aperture is formed at highlighted wall, and therefore, water is efficiently discharged from escape aperture.

In said structure, maintaining part 351 can also include：Leading edge 358 is used to limit and is inserted into for detergent box 400 Insert port；Rear wall 359 is located at and 358 opposite side of leading edge.In addition, highlighted wall 334 can also be formed in compared to leading edge 358 closer to the position of rear wall 359.

In said structure, highlighted wall is formed in the position closer to rear wall compared to leading edge, and therefore, water is away from insertion It is discharged from escape aperture the position of mouth.Therefore, even if user pulls out detergent box accidentally, it is configured at receiving room and exposes position, It is not easy to generate the splashing of water.

In said structure, maintaining part 351 can also include receiving plate 353, and the receiving plate 353 is in detergent box 400 It accepts autogamy and is placed in the water that the detergent box 400 of reception position overflows in lower section.In addition, escape aperture 336 can also be in the horizontal direction Upper opening.

Using the above structure, escape aperture is open in the horizontal direction, therefore, acts on the pressure of the water overflowed from escape aperture Be directed toward from by the different direction in the direction residing for plate.Therefore, the water leaked out from escape aperture is not easy to splash.

In said structure, detergent box 400 can also include for divide receiving room dividing wall 411,421 and from draw The projecting plate 403 that bulkhead 411,421 protrudes.In addition it is also possible to be, when detergent box 400 is configured at reception position, projecting plate 403 closing escape aperture 336.

Using the above structure, when detergent box is configured at reception position, therefore projecting plate closing escape aperture, is being washed During agent box is configured at reception position, the internal pressure of flow path is maintained at higher level.During this period, from flow down hole ejection Water can stir the indoor detergent of storage for the detergent box for being configured at reception position fiercely.

In said structure, flow path configuration portion 320 can also include the cover 340 opposite with abutment wall 331.In addition, lid Body 340 can also include the snap-latch piece 343 prominent into storage space.Moreover, it can be, detergent box is being configured at dew During out position, snap-latch piece 343 is abutted with dividing wall 411,421.

Using the above structure, when detergent box is configured at exposing position, snap-latch piece is abutted with dividing wall, therefore, no It is also easy to produce the unexpected disengaging in detergent box self-sustaining portion.

Industrial availability

The principle of present embodiment is suitably applied the various devices with function of washing clothes.

Reference sign

100 washing machines

320 flow path configuration portions

330 water feeding tanks

331 shared walls

334 highlighted walls

335 recess portions

336 escape aperture

340 covers

343 left fastening plates

351 storage wall

352 storage spaces

353 lower walls

358 leading edges

359 rear walls

381 first flow path

383rd, 384,385 hole is flowed down

391 insert ports

400th, 400A, 400B detergent box

401 interface walls

402 notch

403 projecting plates

Room 410 first

411 first dividing walls

412 mixing chambers

413 bubble chambers

414 midfeathers

415 notch

417 notch

418 upstream walls

419 downstream walls

420 second Rooms

421 second dividing walls

440 knob portions

451st, 452 upper limb

460 rib tectosomes

461st, the left ribs of 461A

462nd, the right ribs of 462A

600 housings

Claims (7)

1. a kind of washing machine, which is characterized in that have：

Detergent box is formed with to store the first receiving room of detergent；

Flow path configuration portion forms flow path in the top of the detergent box,

Be formed in the flow path configuration portion it is multiple flow down hole, it is the plurality of to flow down hole for the current in the flow path to be orientated Towards the detergent box,

The detergent box includes the partition wall that first receiving room is divided into mixing chamber and bubble chamber, which passes through The detergent and the water is made to mix to generate the aqueous solution of the detergent, which is used to make from the mixing chamber stream The aqueous solution blistering entered,

The multiple hole that flows down includes：First-class lower opening is used to the water being directed to the mixing chamber；Second lower opening, It is used to the water being directed to the bubble chamber,

The first notch is formed in the partition wall,

The water for being supplied to the mixing chamber flows to the bubble chamber via first notch,

The detergent box includes to mark off the first dividing wall of first receiving room,

First dividing wall includes the first wall portion, which marks off the blistering with partition wall synergistic effect Room,

First wall portion is included from the flow path configuration portion every spaced first upper limb,

The detergent box includes：Second dividing wall is used to mark off the second receiving room with mixing chamber adjoining；Have a common boundary Wall is configured at the boundary of the mixing chamber and second receiving room,

The multiple hole that flows down is comprising specifying the current to flow down hole to the 3rd of second receiving room, in the interface wall shape Into there is the second notch,

The water supplied to second receiving room flows to the mixing chamber via second notch,

The detergent box is included in rib tectosome prominent in the mixing chamber,

The rib tectosome is along the glide path for crossing the water that first notch is flowed to from second notch Direction be extended,

The rib tectosome includes first rib and the second rib from the first rib separate configuration.

2. washing machine according to claim 1, which is characterized in that

Originate from the interval that the flow path configuration portion is separated with more than 5mm on described first.

3. washing machine according to claim 1, which is characterized in that

First dividing wall includes the second wall portion, which marks off described mix with partition wall synergistic effect Room,

Second wall portion is included than first upper limb close to second upper limb in the flow path configuration portion.

4. washing machine according to claim 1, which is characterized in that

For the current of the water of first notch are flowed to from second notch, the first rib configuration exists Position more by the upstream than second rib.

5. washing machine according to claim 4, which is characterized in that

On the flow direction of the water that first notch is flowed to from second notch, the first rib is partly It is opposite with second rib.

6. washing machine according to claim 1, which is characterized in that

The detergent includes the first detergent of powdery and the second detergent of liquid,

First detergent is supplied to the mixing chamber,

Second detergent is supplied to second receiving room.

7. washing machine according to claim 1, which is characterized in that

The washing machine also has housing,

The detergent box is included from the knob portion that the housing is exposed,

First dividing wall is connected with the knob portion,

The mixing chamber configuration is between the bubble chamber and the knob portion.