CN204097756U - Washing machine defoaming structure and washing machine - Google Patents
Washing machine defoaming structure and washing machine Download PDFInfo
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- CN204097756U CN204097756U CN201420468746.0U CN201420468746U CN204097756U CN 204097756 U CN204097756 U CN 204097756U CN 201420468746 U CN201420468746 U CN 201420468746U CN 204097756 U CN204097756 U CN 204097756U
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Abstract
The utility model discloses a kind of washing machine defoaming structure, belong to living electric apparatus, to solve in prior art foam in steel ladle and too much affect de-water problem, solve the technical scheme mainly water inlet pipe of this problem, water inlet pipe and water part, the water inlet end of water inlet pipe is connected with water inlet component, water side is fixed on fixed frame, water part is fixed on fixed frame and some is positioned at the below of water inlet pipe water side, water part arranges around dehydration barrel and correspondence is positioned at above annular gap, on water part, annularly circumferentially there is multiple apopore in gap.In addition, the utility model additionally provides the washing machine with above-mentioned washing machine defoaming structure.The utility model is mainly used in the foam eliminated before laundry machine dehydration in steel ladle.
Description
Technical field
The utility model relates to living electric apparatus, particularly a kind of washing machine defoaming structure, and adopts the washing machine of this washing machine defoaming structure.
Background technology
Existing rotary drum washing machine, after washing process terminates, can there is a large amount of foam in gap in dehydration barrel and between dehydration barrel and steel ladle, being used for the conventional means of froth breaking has and carrys out froth breaking by fan froth breaking or by water inlet, but can not play good defoaming effect.Such as carry out froth breaking with fan, the foam of the larger position of wind-force can only be eliminated; Carry out froth breaking with water, also can only eliminate the foam of water inlet place.Adopt conventional means all the foam in the gap within the scope of whole dehydration barrel and between dehydration barrel and steel ladle effectively cannot to be eliminated, dehydrating speed is caused to be difficult to arrive this de-state, cause power consumption excessive, simultaneously, also have a large amount of foam after dehydration terminates cannot discharge, be still attached on clothes.
Utility model content
The object that the utility model will reach just is to provide a kind of washing machine defoaming structure, effectively eliminates the foam in steel ladle fast.
In order to achieve the above object, the utility model adopts following technical scheme: washing machine defoaming structure, in washing machine, there is control system, water inlet component, dehydration barrel and steel ladle, water inlet component comprises the water inlet pipe of intaking within the scope of dehydration barrel, steel ladle top is provided with fixed frame, between outside dehydration barrel and inside steel ladle, there is annular gap, described washing machine defoaming structure comprises water inlet pipe, water inlet pipe and water part, the water inlet end of water inlet pipe is connected with water inlet component, the water side of water inlet pipe is fixed on fixed frame, water part is fixed on fixed frame and some is positioned at the below of water inlet pipe water side, water part arranges around dehydration barrel and correspondence is positioned at above annular gap, on water part, annularly circumferentially there is multiple apopore in gap.
As preferred scheme, described water part is annular trough body, part annular trough body is positioned at below water inlet pipe water side is water inlet near-end, on annular trough body away from the part of water inlet pipe water side for water inlet far-end, described apopore is distributed in same plane, annular trough body level is installed, the plane relative level face tilt of apopore distribution, and be positioned at into water near-end apopore higher than water inlet far-end apopore, apopore is arranged on the sidewall of annular trough body, and the bottom surface of water inlet far-end is also provided with apopore.
Preferred scheme further, the angle of the plane relative level face tilt of described apopore distribution is 3 ° ~ 8 °.
As preferred scheme, described water part is annular trough body, part annular trough body is positioned at below water inlet pipe water side is water inlet near-end, on annular trough body away from the part of water inlet pipe water side for water inlet far-end, annular trough body is downward-sloping relative to fixed frame to water inlet far-end from water inlet near-end, apopore is arranged on the sidewall of annular trough body, and the bottom surface of water inlet far-end is also provided with apopore.
Preferred scheme further, the angle that the relative fixed frame of described annular trough body tilts is 3 ° ~ 8 °.
Preferred scheme further, inner ring sidewall and the outer ring sidewall of described annular trough body are equipped with apopore.
Preferred scheme further, apopore close is between two the distribution of 3 ° ~ 6 °, interval in annular trough body circumference.
As preferred scheme, the water inlet end of described water inlet pipe is connected with water inlet pipe.
The utility model additionally provides washing machine, there is control system, water inlet component, dehydration barrel and steel ladle, water inlet component comprises the water inlet pipe of intaking within the scope of dehydration barrel, steel ladle top is provided with fixed frame, have annular gap between outside dehydration barrel and inside steel ladle, described washing machine also comprises the washing machine defoaming structure in above-mentioned arbitrary technical scheme.
After adopting technique scheme, the utility model tool has the following advantages: first the water inlet of water inlet component can by the removal of foam within the scope of dehydration barrel, and water part around dehydration barrel arrange and correspondence is positioned at above annular gap, the foam in the annular gap between dehydration barrel and steel ladle can be eliminated, thus by the removal of foam in steel ladle, make dehydration procedure unaffected, and can not adherent bubbles on clothing, can not remain washing agent, clean result is good.
Accompanying drawing explanation
Below in conjunction with accompanying drawing, the utility model is described in further detail:
Fig. 1 is the structural representation of the utility model washing machine;
Fig. 2 is the schematic diagram of the utility model washing machine defoaming structure;
Fig. 3 is the enlarged drawing at A place in Fig. 2;
Fig. 4 is the structural representation of fixed frame;
Fig. 5 is B place enlarged drawing in Fig. 4;
Fig. 6 is the structural representation of water part.
Detailed description of the invention
All there is in general washing machine control system, water inlet component, dehydration barrel 2 and steel ladle 1, see Fig. 1, water inlet component comprises the water inlet pipe 3 of intaking in dehydration barrel 2 scope, and steel ladle 1 top is provided with fixed frame 5, has annular gap S between outside dehydration barrel 2 and inside steel ladle 1.In order to the foam eliminating in dehydration barrel 2 scope and in the S of annular gap simultaneously, adopt the following examples.
Embodiment one:
The present embodiment provides washing machine defoaming structure, as shown in Figures 2 and 3, comprise water inlet pipe 3, water inlet pipe 31 and water part 4, the water inlet end of water inlet pipe 31 is connected with water inlet pipe 3, water side is fixed on fixed frame 5, the modes such as water part 4 is connected by screw are fixed on fixed frame 5 and some is positioned at the below of water inlet pipe 31 water side, water part 4 arranges around dehydration barrel 2 and correspondence is positioned at above the S of annular gap, and on water part 4, annularly gap S circumferentially has multiple apopore 41.Water inlet pipe 31 also can directly be intake separately, but the extra pipeline increased is longer, and in the present embodiment, water inlet pipe 31 is connected with water inlet pipe 3, and pipeline is shorter, compares saving cost.On fixed frame 5, correspondence arranges an inlet opening be connected with water inlet pipe 3 51 and a froth breaking hole 52 be connected with water inlet pipe 31, sees Fig. 4 and Fig. 5.
In the present embodiment, in order to realize to whole annular gap S water inlet froth breaking, water part 4 is annular trough body, and annular trough body is corresponding with annular gap S-phase, is just in time positioned at the top of annular gap S.Part annular trough body is positioned at below water inlet pipe 31 water side is water inlet near-end 401, on annular trough body away from the part of water inlet pipe 31 water side for water inlet far-end 402, as shown in Figure 6, apopore 41 is arranged on the sidewall of annular trough body, the bottom surface of water inlet far-end 402 is also provided with apopore 41, apopore 41 is distributed in same plane, annular trough body level is installed, the plane relative level face tilt that apopore 41 distributes, and be positioned at into water near-end apopore higher than water inlet far-end apopore 41, the angle of the plane relative level face tilt of apopore distribution is 3 ° ~ 8 °, such as 3 °, 4 °, 5 °, 6 °, 7 ° or 8 ° etc., the angle of apopore tilt distribution is excessive, water inlet can be allowed to flow directly to into water far-end 402 along annular trough body, water inlet may be flowed out from the apopore 41 near water inlet near-end 401, cause the below of froth breaking limit near the water inlet far-end 402 of annular trough body, defoaming effect is bad, the angle too small of apopore tilt distribution, water inlet can be allowed cannot to flow rapidly to into water far-end 402 along annular trough body, and on the way just flowed out from the apopore 41 near water inlet near-end 401, cause the below of froth breaking limit near the water inlet near-end 401 of annular trough body, effective froth breaking cannot be realized equally.
In addition, annular trough body also can tilt to install, specifically from water inlet near-end 401 to water inlet far-end 402, fixed frame 5 is downward-sloping relatively, the angle that the relative fixed frame 5 of annular trough body tilts is 3 ° ~ 8 °, such as 3 °, 4 °, 5 °, 6 °, 7 ° or 8 ° etc., same, the angle that annular trough body tilts to install is excessive, water inlet can be allowed to flow directly to into water far-end 402 along annular trough body, water inlet may be flowed out from the apopore 41 near water inlet near-end 401, cause the below of froth breaking limit near the water inlet far-end 402 of annular trough body, defoaming effect is bad, the angle too small that annular trough body tilts to install, water inlet can be allowed cannot to flow rapidly to into water far-end 402 along annular trough body, and on the way just flowed out from the apopore 41 near water inlet near-end 401, cause the below of froth breaking limit near the water inlet near-end 401 of annular trough body, effective froth breaking cannot be realized equally.
And in order to allow water inlet can flow to into water far-end 402 from the water inlet near-end 401 of annular trough body, for good on sidewall apopore 41 being arranged on annular trough body, and water hole 41 can be set out at the inner ring sidewall of annular trough body and outer ring sidewall.Apopore 41 is circumferential on annular trough body, calculate by angle, 3 ° ~ 6 °, interval between apopore 41 close between two, such as 3 °, 4 °, 5 ° or 6 °, interval angles between two apopores 41 is excessive, can cause into water velocity of discharge from apopore 41 slower, flow is also less, affect defoaming effect, interval angles between two apopores 41 is too small, can cause into water annular trough body water inlet near-end 401 just major part flow out from apopore 41, cause the water yield of the water inlet far-end 402 of annular trough body less, froth breaking is uneven, affect defoaming effect.Apopore 41 can be uniformly distributed on annular trough body, also can be close by dredging gradually to water inlet far-end 402 from water inlet near-end 401, namely interval angles is more and more less, can ensure that the flow of all apopores 41 on whole annular trough body is relatively uniform like this, ensure the defoaming effect of whole annular gap S.
Concrete debubbling method, comprise the following steps: after washing machine drainage EP (end of program), control system controls dehydration barrel 2 and slowly runs 10 seconds, control system control when dehydration barrel 2 is rotated water inlet component intake in dehydration barrel 2 scope the foam eliminated in dehydration barrel 2 scope, simultaneously intake to eliminate the foam in the gap between dehydration barrel 2 and steel ladle 1 to the gap between dehydration barrel 2 and steel ladle 1, after 10 second time, control system controls water inlet component and terminates water inlet.Dehydration barrel 2 slowly runs and half-power can be adopted to operate.Dehydration barrel 2 slowly runs and can pull foam, and macrofoam is broken.Water inlet component is intake in dehydration barrel 2 scope, slowly running then by dehydration barrel 2, and all places in dehydration barrel 2 scope are all poured by water inlet, thus makes foam in dehydration barrel 2 scope by concussion fracture of intaking; Meanwhile, water inlet component is intake to the gap between dehydration barrel 2 and steel ladle 1, thus by the removal of foam in the gap between dehydration barrel 2 and steel ladle 1.And in order to the foam in the gap between dehydration barrel 2 and steel ladle 1 is eliminated more effectively, can be intake to the whole annular gap S between dehydration barrel 2 and steel ladle 1 by water inlet component.
Control system controlled time of slowly running of dehydration barrel 2 except 10 seconds, can to control in 5 ~ 30 seconds scope At All Other Times, such as 6 seconds, 12 seconds, 15 seconds, 20 seconds, 24 seconds, 30 seconds etc.Clothes weight is little, and washing agent injected volume is just few, the also corresponding minimizing of the washing water yield, and therefore foam volume can be relatively less, therefore can regulate this time according to the weight of clothing and the washing water yield.
The water part 4 of the present embodiment is except annular trough body, also looping tube can be adopted, looping tube connects a water inlet be connected with water inlet pipe to take over, the tube wall of looping tube sets out water hole 41, because the overflow problem existing for annular trough body can not be there is in looping tube, so the aperture of apopore 41 can arrange a little bit smaller, the current that apopore 41 is sprayed have certain pressure, eliminate foam better.
Embodiment two:
The present embodiment provides a kind of washing machine, as shown in Figure 1, there is control system, water inlet component, dehydration barrel 2 and steel ladle 1, water inlet component comprises the water inlet pipe 3 of intaking in dehydration barrel 2 scope, steel ladle 1 top is provided with fixed frame 5, have annular gap S between outside dehydration barrel 2 and inside steel ladle 1, washing machine also comprises the washing machine defoaming structure in embodiment one, eliminates the foam in the gap in dehydration barrel 2 scope and between dehydration barrel 2 and steel ladle 1 before dehydration procedure starts.
Except above preferred embodiment, the utility model also has other embodiment, those skilled in the art can make various change and distortion according to the utility model, only otherwise depart from spirit of the present utility model, all should belong to the scope defined in the utility model claims.
Claims (9)
1. washing machine defoaming structure, in washing machine, there is control system, water inlet component, dehydration barrel and steel ladle, water inlet component comprises the water inlet pipe of intaking within the scope of dehydration barrel, steel ladle top is provided with fixed frame, between outside dehydration barrel and inside steel ladle, there is annular gap, it is characterized in that: described washing machine defoaming structure comprises water inlet pipe, water inlet pipe and water part, the water inlet end of water inlet pipe is connected with water inlet component, the water side of water inlet pipe is fixed on fixed frame, water part is fixed on fixed frame and some is positioned at the below of water inlet pipe water side, water part arranges around dehydration barrel and correspondence is positioned at above annular gap, on water part, annularly circumferentially there is multiple apopore in gap.
2. washing machine defoaming structure according to claim 1, it is characterized in that: described water part is annular trough body, part annular trough body is positioned at below water inlet pipe water side is water inlet near-end, on annular trough body away from the part of water inlet pipe water side for water inlet far-end, described apopore is distributed in same plane, annular trough body level is installed, the plane relative level face tilt of apopore distribution, and be positioned at into water near-end apopore higher than water inlet far-end apopore, apopore is arranged on the sidewall of annular trough body, the bottom surface of water inlet far-end is also provided with apopore.
3. washing machine defoaming structure according to claim 2, is characterized in that: the angle of the plane relative level face tilt of described apopore distribution is 3 ° ~ 8 °.
4. washing machine defoaming structure according to claim 1, it is characterized in that: described water part is annular trough body, part annular trough body is positioned at below water inlet pipe water side is water inlet near-end, on annular trough body away from the part of water inlet pipe water side for water inlet far-end, annular trough body is downward-sloping relative to fixed frame to water inlet far-end from water inlet near-end, apopore is arranged on the sidewall of annular trough body, and the bottom surface of water inlet far-end is also provided with apopore.
5. washing machine defoaming structure according to claim 4, is characterized in that: the angle that the relative fixed frame of described annular trough body tilts is 3 ° ~ 8 °.
6., according to the arbitrary described washing machine defoaming structure of claim 2 to 5, it is characterized in that: inner ring sidewall and the outer ring sidewall of described annular trough body are equipped with apopore.
7., according to the arbitrary described washing machine defoaming structure of claim 2 to 5, it is characterized in that: apopore close is between two the distribution of 3 ° ~ 6 °, interval in annular trough body circumference.
8., according to the arbitrary described washing machine defoaming structure of claim 1 to 5, it is characterized in that: the water inlet end of described water inlet pipe is connected with water inlet pipe.
9. washing machine, there is control system, water inlet component, dehydration barrel and steel ladle, water inlet component comprises the water inlet pipe of intaking within the scope of dehydration barrel, steel ladle top is provided with fixed frame, between outside dehydration barrel and inside steel ladle, there is annular gap, it is characterized in that: described washing machine also comprises the arbitrary described washing machine defoaming structure of claim 1 to 8.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420468746.0U CN204097756U (en) | 2014-08-19 | 2014-08-19 | Washing machine defoaming structure and washing machine |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420468746.0U CN204097756U (en) | 2014-08-19 | 2014-08-19 | Washing machine defoaming structure and washing machine |
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| CN204097756U true CN204097756U (en) | 2015-01-14 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN201420468746.0U Active CN204097756U (en) | 2014-08-19 | 2014-08-19 | Washing machine defoaming structure and washing machine |
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| CN (1) | CN204097756U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110578236A (en) * | 2018-06-11 | 2019-12-17 | 惠而浦(中国)股份有限公司 | Dewatering control method for pulsator washing machine |
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2014
- 2014-08-19 CN CN201420468746.0U patent/CN204097756U/en active Active
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110578236A (en) * | 2018-06-11 | 2019-12-17 | 惠而浦(中国)股份有限公司 | Dewatering control method for pulsator washing machine |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| TR01 | Transfer of patent right |
Effective date of registration: 20210209 Address after: 310018 No.2, Songqiao street, Hangzhou Economic and Technological Development Zone, Hangzhou City, Zhejiang Province Patentee after: PANASONIC HOME APPLIANCES (CHINA) Co.,Ltd. Patentee after: Hangzhou Matsushita Household Appliances Co.,Ltd. Address before: 310018 3-A, No. 6 Songqiao Street, Hangzhou Economic and Technological Development Zone, Zhejiang Province Patentee before: PANASONIC HOME APPLIANCES R&D CENTER (HANGZHOU) Co.,Ltd. Patentee before: Hangzhou Matsushita Household Appliances Co.,Ltd. |
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| TR01 | Transfer of patent right |