JP5915913B2 - Washing machine and washing method - Google Patents

Washing machine and washing method Download PDF

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JP5915913B2
JP5915913B2 JP2014526359A JP2014526359A JP5915913B2 JP 5915913 B2 JP5915913 B2 JP 5915913B2 JP 2014526359 A JP2014526359 A JP 2014526359A JP 2014526359 A JP2014526359 A JP 2014526359A JP 5915913 B2 JP5915913 B2 JP 5915913B2
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washing
medium layer
wall
water
garment
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JP2014526931A (en
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何政保
労春峰
許升
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海爾集団公司
海爾集団技術研発中心
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    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F37/00Details specific to washing machines covered by groups D06F21/00 - D06F25/00
    • D06F37/02Rotary receptacles, e.g. drums
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F35/00Washing machines, apparatus, or methods not otherwise provided for
    • D06F35/005Methods for washing, rinsing or spin-drying
    • D06F35/006Methods for washing, rinsing or spin-drying for washing or rinsing only
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F37/00Details specific to washing machines covered by groups D06F21/00 - D06F25/00
    • D06F37/02Rotary receptacles, e.g. drums
    • D06F37/04Rotary receptacles, e.g. drums adapted for rotation or oscillation about a horizontal or inclined axis
    • D06F37/06Ribs, lifters, or rubbing means forming part of the receptacle
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F37/00Details specific to washing machines covered by groups D06F21/00 - D06F25/00
    • D06F37/02Rotary receptacles, e.g. drums
    • D06F37/12Rotary receptacles, e.g. drums adapted for rotation or oscillation about a vertical axis
    • D06F37/14Ribs or rubbing means forming part of the receptacle
    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06FLAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
    • D06F37/00Details specific to washing machines covered by groups D06F21/00 - D06F25/00
    • D06F37/26Casings; Tubs

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Detail Structures Of Washing Machines And Dryers (AREA)
  • Accessory Of Washing/Drying Machine, Commercial Washing/Drying Machine, Other Washing/Drying Machine (AREA)

Description

本発明は洗濯機に関し、特に重合体吸着材料を使って洗濯に参与する洗濯機および洗濯方法に関するものであるが、洗濯機の技術分野に属す。   The present invention relates to a washing machine, and more particularly to a washing machine and a washing method that participate in washing using a polymer adsorbing material, and belongs to the technical field of washing machines.

伝統的な洗濯機の洗濯方法は水を洗濯媒質にして、洗濯機内に水と洗剤を入れて洗濯する。洗濯後に脱水機能を利用して洗濯機内の汚水を排出して、それから再びきれいな水を入れて、洗濯やすすぎの過程を引き続き行って、洗濯が終わった後に更に水を排出するのである。このような方法ではただ水を排出して、更にきれいな洗濯水を入れるので、水の消耗量がとても大きい。同時、洗濯液に環境に有害な化学物質を比較的多く含んで、その上毎回の洗濯過程に時間がかかり、電気消費量が比較的多い。   In a conventional washing machine, water is used as a washing medium, and water and detergent are put into the washing machine for washing. After washing, the sewage in the washing machine is discharged using the dehydration function, and then clean water is added again, and the process of washing and rinsing is continued, and further water is discharged after the washing is completed. In such a method, the amount of water consumption is very large because water is drained and clean laundry water is added. At the same time, the laundry liquid contains a relatively large amount of chemical substances that are harmful to the environment. In addition, each washing process takes time and the amount of electricity consumed is relatively large.

上記の伝統的な洗濯方法の不足を解決するために、当面の技術では、一部の洗濯機は有機溶剤を媒質にして洗濯するが、ドライクリーニング機などのようである。有機溶剤は洗濯機の中でリサイクルして、一回の洗濯過程が完成した後に、あかを含む有機溶剤を容器に収集して、濾過蒸留の方法で有機溶剤を処理して、それから再び洗濯槽に送り込んで、洗濯を引き続き行う。有機溶剤はそれ自身に劇毒があって、その上蒸留方法による媒質の回収は安全係数が比較的低いので、家庭での使用に適していない。   In order to solve the above-mentioned shortage of traditional washing methods, in the present technology, some washing machines are washed using an organic solvent as a medium, but they are like dry cleaning machines. The organic solvent is recycled in the washing machine, and after one washing process is completed, the organic solvent containing red wine is collected in a container, the organic solvent is treated by filtration distillation, and then again in the washing tub And continue washing. Organic solvents are themselves toxic and, furthermore, the recovery of media by distillation methods has a relatively low safety factor, making them unsuitable for home use.

現在の技術では空気による洗濯方法があるが、例えばCOによる洗濯である。このような洗濯方法の場合、媒質の気態と液態での変化を実現することを必要として、液態で洗濯して、気態で回収する。このような方法は構造の密閉性に対する要求が比較的高く、同時に、気体に対する液化がとても高い圧力を必要とし、高圧装置を据え付けることを必要とするので、安全係数が比較的低く、しかも技術が複雑である。 In the current technology, there is a washing method using air, for example, washing using CO 2 . In the case of such a washing method, it is necessary to realize a change in the air state and liquid state of the medium, and washing is performed in the liquid state and recovered in the air state. Such a method has a relatively high requirement for the sealing of the structure, and at the same time, the liquefaction to the gas requires a very high pressure and requires the installation of a high pressure device, so that the safety factor is relatively low and the technology is It is complicated.

上記の何種類の洗濯方法の欠点に対して、また特殊に製作した固体粒子を洗濯媒質とする洗濯方法が出て、固体粒子と衣服の間の摩擦を通して、衣服のあかを吸着・吸収して、それによって洗濯機能を実現する。当該洗濯方法は80%以上に節水することができ、また、当該固体粒子の洗濯媒質は回収して二次利用することができ、使用寿命が長く、交換を必要とせず、安全で環境にやさしい。当該洗濯方法を採用する洗濯機は、普通に洗濯機に粒子貯蔵空間を設けて、そして外槽に投入孔とフィード孔を設けて、洗濯前に、粒子を投入孔から外槽に投入して、洗濯の終了後に、粒子を完全に粒子貯蔵空間に回収するのである。この洗濯方法は、一定の不足がある。粒子は衣服と摩擦して洗う時に、衣服に一定の程度の磨損をもたらすが、また、洗濯前に内槽に洗濯用粒子を投入して、洗濯後に、まだ粒子を回収しなければならない。粒子に対して脱水を行う場合、再度に粒子の投入と回収をする必要があるので、洗濯過程が比較的複雑で、洗濯機の内部構造をそれに応じて比較的大きく改善しなければならなくて、更に大幅に材料と製造コストを増えなければならない。   In response to the disadvantages of the above-mentioned various washing methods, a washing method using specially produced solid particles as a washing medium comes out, and the garment of the clothes is absorbed and absorbed through friction between the solid particles and the clothes. , Thereby realizing the washing function. The washing method can save water to 80% or more, and the washing medium of the solid particles can be recovered and reused, has a long service life, does not require replacement, and is safe and environmentally friendly. . A washing machine that employs the washing method usually has a particle storage space in the washing machine, and an introduction hole and a feed hole in the outer tub. Before washing, particles are introduced into the outer tub from the introduction hole. After the washing, the particles are completely collected in the particle storage space. This washing method has a certain shortage. Particles cause a certain amount of wear on the garment when washed by rubbing against the garment, but the particles must still be collected after washing by putting the laundering particles into the inner tub before washing. When dehydrating the particles, it is necessary to recharge and collect the particles again, so the washing process is relatively complicated and the internal structure of the washing machine has to be improved relatively accordingly. In addition, the material and manufacturing costs must be increased significantly.

本発明の主な目的は上記の問題と不足を解決するもので、洗濯粒子の投入と回収を行う必要がなくて、洗濯プロセスを簡略化にして、そして洗濯効果を満たす洗濯機を提供する。   The main object of the present invention is to solve the above-mentioned problems and deficiencies, and to provide a washing machine that does not require the introduction and collection of washing particles, simplifies the washing process, and satisfies the washing effect.

本発明の別の主な目的は、洗濯プロセスを簡略化にして、そして洗濯効果を満たすことができる洗濯方法を提供する。   Another main object of the present invention is to provide a washing method that can simplify the washing process and satisfy the washing effect.

上記の目的を実現するために、本発明の技術方案は、
少なくとも一つの洗濯や水を入れる洗濯槽を含んで、少なくとも一つの洗濯槽に洗濯媒質層を設けている洗濯機である。
In order to achieve the above object, the technical solution of the present invention is:
The washing machine includes a washing tub into which at least one washing or water is placed, and a washing medium layer is provided in at least one washing tub.

更に、上記の媒質層が上記の洗濯槽の壁の内表面及び/又は外表面に塗布されたり据え付けられたりしている。   Furthermore, the medium layer is applied or installed on the inner surface and / or the outer surface of the wall of the washing tub.

更に、上記の媒質層につるつるしている表面を持って、あるいは上記の媒質層の表面に若干の連続的や不連続的な突起を持って、あるいは上記の媒質層が表面多孔性構造である。   Furthermore, the surface of the medium layer is smooth, or the surface of the medium layer has some continuous or discontinuous protrusions, or the medium layer has a surface porous structure. .

更に、上記の媒質層が上記の洗濯槽の壁の内表面及び/又は外表面に固定されてその中間に重合体固体粒子を収納する二重層である。   Furthermore, the medium layer is a double layer which is fixed to the inner surface and / or the outer surface of the wall of the washing tub and accommodates the polymer solid particles in the middle.

更に、上記の二重層に洗濯水だけを通す通孔を開けている。   Furthermore, a through-hole for allowing only washing water to pass through the double layer is formed.

更に、上記の通孔の直径が0.5−1.5mmである。   Furthermore, the diameter of said through-hole is 0.5-1.5 mm.

更に、上記の粒子が表面多孔性構造である。   Further, the above particles have a surface porous structure.

更に、上記の二重層につるつるしている表面を持って、あるいは上記の二重層の表面に若干の連続的や不連続的な突起を持って、あるいは上記の二重層が表面多孔性構造である。   Furthermore, the surface of the bilayer is smooth, or the surface of the bilayer has some continuous or discontinuous protrusions, or the bilayer has a surface porous structure. .

更に、上記の二重層の中間空間が完全に貫通している。   Furthermore, the intermediate space of the double layer penetrates completely.

更に、上記の二重層が多数の互いに仕切っている室で、上記の固体粒子が上記の各室に収納されている。   Further, the solid particles are accommodated in the chambers in which the double layer is partitioned into a plurality of chambers.

更に、上記の多数の室が連続した波紋形を呈して上記の洗濯槽の壁に固定されている。   Further, the plurality of chambers have a continuous ripple shape and are fixed to the wall of the washing tub.

更に、上記の多数の室が互いに上記の洗濯槽の壁に不連続的に分散して配置されている。   Further, the plurality of chambers are arranged discontinuously distributed on the wall of the washing tub.

更に、上記の媒質層が上記の洗濯槽のリフト部に塗布されたり、据え付けられたり、設置されたりしている。   Further, the medium layer is applied, installed, or installed on the lift portion of the washing tub.

更に、上記の洗濯媒質層が重合体吸着層である。   Further, the washing medium layer is a polymer adsorption layer.

更に、上記の重合体が親水性、親油性の成分を持って、上記の重合体が表面活性剤の成分を持っている。   Further, the polymer has hydrophilic and lipophilic components, and the polymer has a surfactant component.

更に、上記の媒質層、上記の粒子と上記の二重層の壁表面の孔がお互いに分かれている構造であり、上記の孔の直径が0.01−0.1mmである。   Furthermore, the hole of the wall surface of said medium layer, said particle | grain, and said double layer is mutually separated, The diameter of said hole is 0.01-0.1 mm.

洗濯槽に洗濯媒質層を設けて、洗濯中に、上記の洗濯媒質層を利用して衣服及び/又は水の中の汚れを処理して、衣服の洗濯を完成する洗濯方法。   A washing method in which a washing medium layer is provided in a washing tub, and during washing, dirt in clothes and / or water is treated using the washing medium layer to complete washing of clothes.

更に、洗濯待ちの衣服の洗濯前に、上記の洗濯槽に洗濯水を注ぎ込む過程を含んで、上記の洗濯水が上記の洗濯待ちの衣類を浸す。   Furthermore, before washing the clothes waiting for washing, the washing water soaks the clothes waiting for washing, including a process of pouring washing water into the washing tub.

更に、洗濯水を注ぎ込んで衣服を浸す時に、上記の洗濯待ちの衣類を静かに置いて一定時間浸す。   Further, when the washing water is poured and the clothes are immersed, the clothes waiting for washing are placed gently and immersed for a certain period of time.

更に、上記の衣服を洗濯した後に、媒質層及び/又は衣服の脱水過程を含む。及び/又は上記の洗濯槽に熱風を送って、上記の衣服及び/又は媒質層を乾燥する過程を含む。   Further, after washing the garment, a dehydration process of the medium layer and / or the garment is included. And / or sending hot air to the washing tub to dry the clothes and / or medium layer.

更に、上記の洗濯媒質層が重合体吸着層で、重合体吸着層が衣服及び/又は洗濯水の汚れを吸着する。   Further, the washing medium layer is a polymer adsorbing layer, and the polymer adsorbing layer adsorbs dirt on clothes and / or washing water.

上記の内容をまとめると、本発明に述べられた洗濯機および洗濯方法は、構造が簡単で、洗濯槽に設置された洗濯媒質層で衣服と洗濯水の汚れを処分して、洗濯の目的を達成して、粒子の投入、回収と自己清潔のステップと装置が不要であり、洗濯プロセスを簡略化にしただけではなく、普通の洗濯機と同じく、またこのような洗濯機の材料コストと製造コストを大幅に下げることができる。また、洗濯時に、衣服の磨損程度が大幅に下がる。   In summary, the washing machine and the washing method described in the present invention are simple in structure, and the laundry and washing water are disposed of in the washing medium layer installed in the washing tub so that the purpose of washing is achieved. Achieved, no particle input, recovery and self-cleaning steps and equipment are required, not only simplifying the washing process, but also as with ordinary washing machines, and the material cost and manufacturing of such washing machines Cost can be greatly reduced. In addition, the degree of wear on the clothes is greatly reduced during washing.

図1は本発明の実施例のある構造の説明図である。FIG. 1 is an explanatory view of a structure according to an embodiment of the present invention. 図2は本発明の内槽の構造の説明図である。FIG. 2 is an explanatory diagram of the structure of the inner tank of the present invention. 図3は本発明の実施例三の構造の説明図である。FIG. 3 is an explanatory diagram of the structure of the third embodiment of the present invention. 図4は本発明の実施例四の構造の説明図である。FIG. 4 is an explanatory view of the structure of the fourth embodiment of the present invention. 図5は本発明の実施例五の構造の説明図である。FIG. 5 is an explanatory diagram of the structure of the fifth embodiment of the present invention. 図6は本発明の実施例六の構造の説明図である。FIG. 6 is an explanatory diagram of the structure of the sixth embodiment of the present invention.

図1〜図6のように、外槽1、内槽2、媒質層3、第一開孔4、衣服5、突起6、リフト部7、粒子8、二重層壁9、室10、仕切板11。   1-6, outer tank 1, inner tank 2, medium layer 3, first aperture 4, clothes 5, projection 6, lift part 7, particles 8, double layer wall 9, chamber 10, partition plate 11.

次に添付図面と具体的な実施例を結び付けて本発明を詳しく説明する。   Next, the present invention will be described in detail with reference to the accompanying drawings and specific examples.

図1と図2のように、現在常用のインペラ洗濯機でもドラム式洗濯機でも、外槽1と内槽2を設けたケース(未図示)を含んで、本発明に述べられた洗濯槽は洗濯用の内槽2に用いられることができるが、水を入れる外槽1にも用いることができる洗濯機。そのうち、外槽1が密封式構造で、回転せずに固定されたもので、内槽2が外槽1の内側に設けられて、内槽2の壁に若干の洗濯水を通すことに供える第一開孔4を開けて、第一開孔4の形が円形、長方形、多角形などで、内槽2が駆動装置に回転可能に駆動されている。外槽1の上部に取水口(未図示)を設けて、洗濯とすすぎ過程の取水に用いられて、外槽1の下部に排水口(未図示)を設けて、脱水後の排水に用いられる。洗濯時に、衣服5を内槽2に入れる。   As shown in FIG. 1 and FIG. 2, the presently used impeller washing machine and drum washing machine include a case (not shown) provided with an outer tub 1 and an inner tub 2, and the washing tub described in the present invention is A washing machine that can be used for the inner tub 2 for washing, but can also be used for the outer tub 1 for containing water. Among them, the outer tub 1 has a sealed structure and is fixed without rotating, and the inner tub 2 is provided inside the outer tub 1 so that some washing water can be passed through the wall of the inner tub 2. The first opening 4 is opened, and the shape of the first opening 4 is circular, rectangular, polygonal or the like, and the inner tub 2 is rotatably driven by a driving device. A water intake (not shown) is provided in the upper part of the outer tub 1 and used for taking water in washing and rinsing processes, and a water outlet (not shown) is provided in the lower part of the outer tub 1 and used for drainage after dehydration. . The clothes 5 are put into the inner tub 2 at the time of washing.

内槽2の壁に一層の洗濯媒質層3を設けて、洗濯媒質が陶磁器、重合体材料などを採用することができるが、本実施例には重合体を洗濯媒質にすることが好ましい。重合体はPP、PE、PS、PVC、またはEVAなどで、あるいは上記の多種類の材料の混合物を選ぶことができる。材料に親水性や親油性の成分を含んで、また表面活性剤の成分があって、あかに対してより強い吸着能力を有している。重合体媒質層3は内槽2の壁の内側に設けられることができて、槽壁の外側にも設けられることができるが、また槽壁の内側と外側とも媒質槽を設けることができて、媒質層3の吸着面積を増えて、媒質層3の吸着能力を高めるようにする。また、媒質層3の吸着面積を増えて、媒質層3の吸着能力を高めるために、内壁2に媒質層3を設けるだけではなく、外層1の壁にも同様に媒質層3を設けることができる。コスト、製造プロセスと機械全部の重量などの多方面から総合的に考慮すると、内槽2の壁の内側だけに一層の媒質層3を設けることが好ましい。媒質層3をその他の位置に設けると、次の通り同じな構造を採用することができる。   One layer of the washing medium layer 3 is provided on the wall of the inner tub 2 and the washing medium may be ceramic or polymer material. In this embodiment, it is preferable to use the polymer as the washing medium. The polymer may be PP, PE, PS, PVC, EVA or the like, or a mixture of the above-mentioned many types of materials. The material contains a hydrophilic or lipophilic component, and also has a surfactant component, which has a stronger adsorption ability to the red. The polymer medium layer 3 can be provided inside the wall of the inner tank 2 and can also be provided outside the tank wall, but the medium tank can be provided both inside and outside the tank wall. The adsorption area of the medium layer 3 is increased to increase the adsorption capacity of the medium layer 3. Further, in order to increase the adsorption area of the medium layer 3 and increase the adsorption capability of the medium layer 3, not only the medium layer 3 is provided on the inner wall 2 but also the medium layer 3 is similarly provided on the wall of the outer layer 1. it can. Considering comprehensively from various aspects such as cost, manufacturing process and weight of the entire machine, it is preferable to provide a single medium layer 3 only on the inside of the wall of the inner tank 2. When the medium layer 3 is provided at other positions, the same structure can be adopted as follows.

実施例一:
本実施例では、媒質層3は塗布技術で内槽2の壁の内側に塗布することができるが、媒質層3がねじなどの締付部品で内槽2の壁に固定されることができる。内槽2と同じで、媒質層3に若干の洗濯水を通すことに供える通孔(未図示)を開けて、通孔の形も図2に示された内槽2の第一開孔4と同じて、円形、長方形、多角形などでもよい。通孔は洗濯時に槽内に取水して、脱水の時に、槽内の洗濯水を外槽1に出して、更に外槽1の下の排水口から排出する。媒質層3が外槽1の壁に設けられた場合、媒質層3に通水の通孔を設けないのである。
Example 1:
In this embodiment, the medium layer 3 can be applied to the inside of the wall of the inner tub 2 by a coating technique, but the medium layer 3 can be fixed to the wall of the inner tub 2 with a fastening component such as a screw. . Similar to the inner tub 2, a through hole (not shown) for allowing some washing water to pass through the medium layer 3 is opened, and the shape of the through hole is also the first opening 4 of the inner tub 2 shown in FIG. As with, it may be circular, rectangular, polygonal, etc. The through-hole takes water into the tank at the time of washing, and at the time of dehydration, the washing water in the tank is discharged to the outer tank 1 and further discharged from the drain outlet below the outer tank 1. When the medium layer 3 is provided on the wall of the outer tub 1, the water passage hole is not provided in the medium layer 3.

媒質層3は全体の内槽2の壁に塗布したり据え付けたりすることができて、また内槽2の一部の壁に塗布したり据え付けたりすることができる。前者の構造では吸着効果が更によいが、内槽2の回転の平衡に有利である。媒質層3が洗濯中に、絶えず洗濯水との接触によって、最大限度で洗濯水の衣服5からの汚れを吸着して、洗濯中に、洗濯水が一定の清潔度を維持して、また衣服5が洗濯時にも絶えず媒質層3と直接に接触して、媒質層3が直接に衣服5の汚れを吸着するので、少量の水で十分で、節水の目的を達成することができる。   The medium layer 3 can be applied or installed on the wall of the entire inner tank 2, and can be applied or installed on a part of the wall of the inner tank 2. The former structure has a better adsorption effect, but is advantageous for balancing the rotation of the inner tank 2. During washing, the medium layer 3 constantly adsorbs dirt from the washing water garment 5 to the maximum extent by contact with the washing water, so that the washing water maintains a certain level of cleanliness during washing, and the garment 5 is always in direct contact with the medium layer 3 even during washing, and the medium layer 3 directly adsorbs dirt on the clothes 5, so that a small amount of water is sufficient and the purpose of saving water can be achieved.

媒質層3の構造はつるつるしている表面を呈することができる。媒質層3と洗濯水の接触面積を増えて、汚れの吸着能力を強めるために、図1のように、媒質層3の表面に若干の突起6を持って、若干の突起6同士が連続的に配置されることができるが、不連続的に分散に配置されることができる。   The structure of the medium layer 3 can exhibit a smooth surface. In order to increase the contact area of the medium layer 3 and the washing water and enhance the ability to adsorb dirt, the surface of the medium layer 3 has some protrusions 6 as shown in FIG. Can be arranged in a discontinuous manner.

媒質層3と洗濯水の接触面積を増えるために、媒質層3は更に重合体の表面多孔性構造を採用することができて、表面の若干の孔同士がつながらなくて互いに分けて、孔内の水を排出して、媒質層3の再生能力を高めるのに便宜を図る。孔の直径が0.01−0.1mmの間にあることが好ましい。   In order to increase the contact area of the medium layer 3 and the washing water, the medium layer 3 can further adopt a surface porous structure of the polymer, so that some pores on the surface are not connected and separated from each other. It is convenient to discharge the water and increase the regeneration capability of the medium layer 3. The hole diameter is preferably between 0.01-0.1 mm.

ドラム式洗濯機では、内槽2に少なくとも一つの内へ突出するリフト部7を設けて、洗濯中に、衣服5がリフト部7の作用で、内槽2の中で絶えずリフトして、それから更に落として、洗濯効果を達成したまで繰り返す。リフト部7の数量が1−3を選ぶことができるが、そのうちに3つのリフト部7を選択して、内槽2の周りに沿って均一的に分布することが好ましい。媒質層3はリフト部7の配置にずらすことができるが、全体の内槽2の内壁で多く敷くことができる。リフト部7が媒質層3に固定されている。   In the drum-type washing machine, the inner tub 2 is provided with at least one lift portion 7 protruding inward, and during washing, the clothes 5 are constantly lifted in the inner tub 2 by the action of the lift portion 7, and then Further drop and repeat until washing effect is achieved. Although the number of lift parts 7 can be selected as 1-3, it is preferable to select three lift parts 7 among them and distribute them uniformly around the inner tub 2. Although the medium layer 3 can be shifted to the arrangement of the lift portion 7, a large amount can be laid on the inner wall of the entire inner tank 2. The lift part 7 is fixed to the medium layer 3.

次に図1を結び付けて上記の洗濯機を利用する洗濯方法を詳しく説明する。   Next, a washing method using the above washing machine will be described in detail with reference to FIG.

ドラム式洗濯機を例にすると、当該洗濯方法は次の通りのステップを含んでいる。   Taking a drum-type washing machine as an example, the washing method includes the following steps.

ステップ一:普通のドラム式洗濯機と同じように、洗濯待ちの衣類5を洗濯機の内槽2に入れて、同時に外槽1の上方の取水口を開けて、外槽1に水を注いで、洗濯水と洗剤の混合後に外槽2に入って、水が内槽2の第一開孔4および媒質層3の通孔を通した後に、洗濯待ちの衣類5と十分に混合する。この過程はただ適量の水と洗剤を入れて、水が衣服5を浸すことを保証するだけで十分である。   Step 1: Like a normal drum-type washing machine, put the clothes 5 waiting for washing into the inner tub 2 of the washing machine, and simultaneously open the water intake above the outer tub 1 and pour water into the outer tub 1. Then, after mixing the washing water and the detergent, it enters the outer tub 2, and after the water passes through the first opening 4 of the inner tub 2 and the through-hole of the medium layer 3, it is sufficiently mixed with the clothes 5 waiting for washing. It is sufficient for this process to simply add the appropriate amount of water and detergent to ensure that the water soaks the garment 5.

洗濯水を注ぎ込んで洗濯待ちの衣類を浸す時に、洗濯待ちの衣類5を静かに置いて、一定の時間に浸して、水と衣服5を十分に浸潤して、更に洗濯効果を高める。   When the washing water is poured and the clothes waiting for washing are soaked, the clothes 5 waiting for washing are gently placed and soaked for a certain period of time so that the water and clothes 5 are sufficiently infiltrated to further enhance the washing effect.

ステップ二:内槽2の回転を駆動して、媒質層3もそれに伴って回転して、衣服5がリフト部7の動かしで槽内でリフトしたり落としたりして、繰り返して、洗濯中に、洗濯水が衣服5の汚れを洗い流して、汚れが洗濯水とともに絶えず媒質層3を洗い流して、媒質層3が洗濯水と絶えない接触する過程で、洗濯水の中の汚れを吸着して、その上衣服5が洗濯時にも絶えず媒質層3と直接に接触して、媒質層3が直接に衣服5の汚れを吸着して、それによって衣服5を洗濯して汚れを落とす目的を達成する。   Step 2: The rotation of the inner tub 2 is driven, the medium layer 3 is also rotated along with it, and the clothes 5 are lifted and dropped in the tub by the movement of the lift portion 7, and repeatedly during washing In the process in which the washing water washes away the dirt of the clothes 5, the dirt washes away the medium layer 3 continuously with the washing water, and the medium layer 3 was in constant contact with the washing water, the dirt in the washing water was adsorbed, Moreover, the garment 5 is always in direct contact with the medium layer 3 during washing, and the medium layer 3 directly adsorbs dirt on the garment 5, thereby achieving the purpose of washing the garment 5 and removing the dirt.

インペラ洗濯機の場合、インペラの回転を駆動して、インペラが洗濯時間に時計の回り方向と時計の逆回り方向に沿って交替で回転して、槽内で回転する水の流れを形成して、洗濯水が衣服5の汚れを洗い落とし、汚れが洗濯水とともに絶えず媒質層3を洗い流して、媒質層3が洗濯水と絶えず接触する過程で、洗濯水の中の汚れを吸着して、また衣服5が洗濯時にも絶えず媒質層3と直接に接触して、媒質層3が直接に衣服5の汚れを吸着して、それによって衣服5を洗濯して汚れを落とす目的を達成する。   In the case of an impeller washing machine, the rotation of the impeller is driven so that the impeller rotates alternately along the clockwise direction and the counterclockwise direction during the washing time to form a flow of water that rotates in the tub. The washing water washes off the dirt on the clothes 5, and the dirt constantly rinses the medium layer 3 together with the washing water. In the process in which the medium layer 3 is constantly in contact with the washing water, the dirt in the washing water is adsorbed. 5 is always in direct contact with the medium layer 3 during washing, and the medium layer 3 directly adsorbs dirt on the garment 5, thereby achieving the purpose of washing the garment 5 and removing the dirt.

ステップ三:内槽2を高速に回転するように駆動して、この時に媒質層3がそれに伴って高速に回転して、衣服5と媒質層3に同時に脱水を行って、水が外槽1の底部の排水孔から排出される。媒質層3の脱水過程も媒質層3の自己清潔の過程で、一定の程度で媒質層の再生能力を高めて、媒質層3の使用寿命を延長した。   Step 3: The inner tub 2 is driven to rotate at a high speed. At this time, the medium layer 3 rotates at a high speed accordingly, and the clothes 5 and the medium layer 3 are dehydrated at the same time. It is discharged from the drain hole at the bottom. The dehydration process of the medium layer 3 is also a self-cleaning process of the medium layer 3, and the medium layer 3 is improved in a certain level to extend the service life of the medium layer 3.

ステップ四:すすぎステップで、再び槽内に適量のきれいな水を入れて、上記の過程に従って衣服5をすすいで、すすいだ後に再度に脱水を行って、最後に衣服5の全ての洗濯過程を完成する。   Step 4: In the rinsing step, add an appropriate amount of clean water to the tank again, rinse the garment 5 according to the above process, dehydrate again after rinsing, and finally complete all the washing process of the garment 5 To do.

衣服5と媒質層3の脱水後に、熱ポンプ装置や加熱管などの装置で、更に内槽2に熱風を出して、衣服5と媒質層3の乾燥に用いて、このように更に媒質層3の使用寿命も延長することができて、同時に槽内の乾燥を維持して、槽内に湿気によるかびなどの繁殖を減らすことに有利である。   After dehydrating the garment 5 and the medium layer 3, hot air is further emitted to the inner tub 2 by a device such as a heat pump device or a heating tube, and used to dry the garment 5 and the medium layer 3. The service life of the tank can be extended, and at the same time, it is advantageous to maintain dryness in the tank and reduce the growth of mold and the like due to moisture in the tank.

実施例二:
旧式の二槽式洗濯機では、洗濯部の洗濯槽が単一の槽の構造で、インペラが洗濯時間内に時計の回り方向と時計の逆回り方向に沿って交替で回転して、槽内で回転する水の流れを形成して、洗濯水が衣服5の汚れを洗い落とす。このような洗濯機では、洗濯槽の壁の内側や外側で、内外の両側に一層の重合体洗濯媒質層3を塗布することができて、媒質層3に通水に用いられる通孔を設けなくて、媒質層3の構造形式が完全に実施例一と同じなので、ここで別途に詳しい説明をしない。
Example 2:
In the old two-tank washing machine, the washing tub of the washing section has a single tub structure, and the impeller rotates alternately along the clockwise direction and the counterclockwise direction during the washing time. A flow of rotating water is formed, and the washing water removes dirt on the clothes 5. In such a washing machine, one layer of the polymer washing medium layer 3 can be applied to both the inside and outside of the wall of the washing tub, and the medium layer 3 is provided with through holes used for water passage. In addition, since the structure type of the medium layer 3 is completely the same as that of the first embodiment, a detailed description will not be given separately here.

このような洗濯機では、衣服5の脱水が別の脱水槽で完成するので、媒質層3は脱水の過程をせずに、槽内に熱風による乾燥方式を採用することができる。   In such a washing machine, since the dehydration of the clothes 5 is completed in another dehydration tank, the medium layer 3 can adopt a drying method using hot air in the tank without performing the dehydration process.

実施例三:
図3のように、実施例一との違いとして、内槽2の壁の内側に設けられた媒質層3は、内槽2の壁に固定されて中間に重合体固体粒子8を収納している重合体二重層構造で、二重層の壁9に洗濯水を通すことに供える通孔(未図示)を開けて、媒質層3がねじなどの締付部品で内槽2の壁に固定されて、媒質層3と内槽2が一緒に回転することを保証する。
Example 3:
As shown in FIG. 3, as a difference from the first embodiment, the medium layer 3 provided inside the wall of the inner tank 2 is fixed to the wall of the inner tank 2 and contains the polymer solid particles 8 in the middle. In the polymer double layer structure, a through hole (not shown) for allowing washing water to pass through the double layer wall 9 is opened, and the medium layer 3 is fixed to the wall of the inner tub 2 with a fastening part such as a screw. Thus, it is ensured that the medium layer 3 and the inner tank 2 rotate together.

粒子8が内槽2と媒質層3から漏れることを避けるために、内槽2にある第一開孔4と媒質層3の通孔の直径が粒子8の最小直径より小さい。粒子8の直径が普通に2−4mmの間にあるので、第一開孔4と通孔の直径は2mmより小さくて、第一開孔4と通孔の直径が1−1.5mmの間にあることが好ましい。このようにすると、洗濯水が順調に流れ込んだり流れ出したりすることができるとともに、また粒子8が漏れることを避けることができる。   In order to prevent the particles 8 from leaking from the inner tank 2 and the medium layer 3, the diameters of the first opening 4 and the medium layer 3 in the inner tank 2 are smaller than the minimum diameter of the particles 8. Since the diameter of the particle 8 is normally between 2-4 mm, the diameter of the first opening 4 and the through hole is smaller than 2 mm, and the diameter of the first opening 4 and the through hole is between 1-1.5 mm. It is preferable that it exists in. If it does in this way, while washing water can flow in and out smoothly, it can avoid that particle 8 leaks.

媒質層3の吸着能力を増えるために、吸着能力を有する重合体固体粒子8を採用する以外、二重層の壁9にも重合体材料を採用して、実施例一と同じで、二重層の壁9も吸着能力も持っている。二重層9の構造はつるつるしている表面を呈することができる。二重層9と洗濯水の接触面積を増えて、汚れの吸着能力を強めるために、実施例一と同じで、二重層壁9の表面に若干の突起6を持って、若干の突起6同士が連続的に配置されることができるが、不連続的に分散に配置されることができる。二重層壁9と洗濯水の接触面積を増えるために、二重層壁9は更に重合体の表面多孔性構造を採用することができて、表面の若干の孔同士がつながらなくて互いに分けて、孔内の水を排出して、二重層壁9の再生能力を高めるのに便宜を図る。孔の直径が0.01−0.1mmの間にあることが好ましい。   In order to increase the adsorption capacity of the medium layer 3, a polymer material is also used for the wall 9 of the double layer, except that the polymer solid particles 8 having the adsorption capacity are used. The wall 9 also has an adsorption capacity. The structure of the bilayer 9 can exhibit a smooth surface. In order to increase the contact area of the double layer 9 and the washing water and enhance the dirt adsorption capacity, the same as in the first embodiment, the surface of the double layer wall 9 has some protrusions 6, and some protrusions 6 are It can be arranged continuously, but can be arranged discontinuously. In order to increase the contact area between the double layer wall 9 and the washing water, the double layer wall 9 can further adopt a surface porous structure of the polymer, so that some pores on the surface are not connected to each other, Conveniently, the water in the hole is drained to enhance the regeneration capability of the double layer wall 9. The hole diameter is preferably between 0.01-0.1 mm.

同じく、粒子8の吸着能力を増えるために、粒子8は表面の多孔性構造を採用して、表面の若干の孔同士はつながらなくて互いに分けて、孔内の水を排出して、媒質層3の再生能力を高めるのに便宜を図る。孔の直径が0.01−0.1mmの間にあることが好ましい。   Similarly, in order to increase the adsorption capacity of the particles 8, the particles 8 adopt a surface porous structure, do not connect some pores on the surface, separate them from each other, and discharge the water in the pores. Convenient to enhance the playback ability of 3. The hole diameter is preferably between 0.01-0.1 mm.

媒質層3の二重層が全体の内槽2の壁に多く敷いて、二重層の中間空間が完全に貫通して、二重層壁9が第二内槽を形成したのに相当する。洗濯中に、洗濯水が絶えず媒質層3の二重層に出入りして、二重層壁9と接触する同時に、二重層内の粒子8と接触して、二重層壁9と粒子8が共に洗濯水の衣服5からの汚れを吸着して、衣服5が洗濯時に二重層壁9と絶えず直接に接触して、二重層壁9が直接に衣服5の汚れを吸着して、洗濯目的を達成する。   This corresponds to a case where a large number of double layers of the medium layer 3 are laid on the wall of the entire inner tank 2, the intermediate space of the double layer completely penetrates, and the double layer wall 9 forms the second inner tank. During washing, the washing water constantly enters and exits the double layer of the medium layer 3 and comes into contact with the double layer wall 9 and at the same time comes into contact with the particles 8 in the double layer, so that both the double layer wall 9 and the particles 8 are washed water. The garment 5 adsorbs dirt from the garment 5, and the garment 5 is in direct contact with the double-layer wall 9 during washing, and the double-layer wall 9 directly adsorbs the dirt of the garment 5 to achieve the washing purpose.

ドラム式洗濯機の場合、内槽2に設けられた少なくとも一つの内へ突出するリフト部7が二重層壁9に固定されている。   In the case of the drum type washing machine, at least one lift portion 7 provided in the inner tub 2 is fixed to the double layer wall 9.

次に図3を結び付けて上記の洗濯機を利用する洗濯方法を詳しく説明する。   Next, a washing method using the above washing machine will be described in detail with reference to FIG.

ドラム式洗濯機を例にすると、当該洗濯方法は次の通りのステップを含んでいる。   Taking a drum-type washing machine as an example, the washing method includes the following steps.

ステップ一:普通のドラム式洗濯機と同じに、洗濯待ちの衣類5を洗濯機の内槽2に入れて、同時に外槽1の上方の取水口を開けて、外槽1に水を注いで、洗濯水と洗剤の混合後に外槽2に入って、水が内槽2の第一開孔4および媒質層3の二重層壁9の通孔を通した後に、洗濯待ちの衣類5と十分に混合する。この過程はただ適量の水と洗剤を入れて、水が衣服5を浸すことを保証するだけで十分である。   Step 1: As with an ordinary drum-type washing machine, put the clothes 5 waiting for washing into the inner tub 2 of the washing machine, and simultaneously open the water intake above the outer tub 1 and pour water into the outer tub 1. After mixing the washing water and the detergent, it enters the outer tub 2, and the water passes through the first opening 4 of the inner tub 2 and the through-hole of the double layer wall 9 of the medium layer 3. To mix. It is sufficient for this process to simply add the appropriate amount of water and detergent to ensure that the water soaks the garment 5.

洗濯水を注ぎ込んで洗濯待ちの衣類を浸す時に、洗濯待ちの衣類5を静かに置いて、一定の時間に浸して、水と衣服5を十分に浸潤して、更に洗濯効果を高める。   When the washing water is poured and the clothes waiting for washing are soaked, the clothes 5 waiting for washing are gently placed and soaked for a certain period of time so that the water and clothes 5 are sufficiently infiltrated to further enhance the washing effect.

ステップ二:内槽2を駆動して、媒質層3もそれに伴って回転して、衣服5が槽内で上がったり下がったりして、繰り返して、洗濯中に、洗濯水が衣服5の汚れを洗い落として、汚れが洗濯水に伴って絶えず二重層壁9を洗い流して、同時に汚れも洗濯水に伴って二重層の内部に出入りして、二重層内の粒子8と接触して、二重層壁9と粒子8が洗濯水と絶えず接触する過程で、洗濯水の中の汚れを吸着する。衣服5が洗濯時に二重層壁9と絶えず直接に接触して、二重層壁9が直接に衣服5の汚れを吸着して、それによって衣服5を洗濯して汚れを落とす目的を達成する。   Step 2: The inner tub 2 is driven, and the medium layer 3 rotates with it, and the clothes 5 are raised and lowered in the tub, and the washing water repeatedly removes dirt on the clothes 5 during washing. Thus, the dirt constantly flushes the double layer wall 9 with the washing water, and at the same time, the dirt also enters and leaves the inside of the double layer with the washing water, and comes into contact with the particles 8 in the double layer. In the process in which the particles 8 constantly come into contact with the washing water, the dirt in the washing water is adsorbed. The garment 5 is constantly in direct contact with the double layer wall 9 during washing, and the double layer wall 9 directly adsorbs dirt on the garment 5, thereby achieving the purpose of washing the garment 5 and removing the dirt.

インペラ洗濯機の場合、インペラの回転を駆動して、インペラが洗濯時間に時計の回り方向と時計の逆回り方向に沿って交替で回転して、槽内で回転する水の流れを形成して、洗濯水が衣服5の汚れを洗い落とし、汚れが洗濯水とともに絶えず二重層9を洗い流して、汚れが洗濯水に伴って二重層の内部に出入りして、二重層内の粒子8に接触して、二重層9と粒子8が洗濯水と絶えず接触する過程で、洗濯水の中の汚れを吸着して、また衣服5が洗濯時にも絶えず二重層9と直接に接触して、二重層9が直接に衣服5の汚れを吸着して、それによって衣服5を洗濯して汚れを落とす目的を達成する。   In the case of an impeller washing machine, the rotation of the impeller is driven so that the impeller rotates alternately along the clockwise direction and the counterclockwise direction during the washing time to form a flow of water that rotates in the tub. The washing water washes off the dirt on the garment 5, the dirt constantly rinses the double layer 9 together with the washing water, the dirt enters and leaves the double layer with the washing water, and comes into contact with the particles 8 in the double layer. In the process in which the double layer 9 and the particles 8 are constantly in contact with the washing water, dirt in the washing water is adsorbed, and the garment 5 is always in direct contact with the double layer 9 during washing so that the double layer 9 is The purpose of directly adsorbing dirt on the garment 5, thereby washing the garment 5 and removing the dirt is achieved.

ステップ三:内槽2を高速に回転するように駆動して、この時に媒質層3がそれに伴って高速に回転して、衣服5と二重層9及び粒子8に同時に脱水を行って、水が外槽1の底部の排水孔から排出される。媒質層3の脱水過程も媒質層3の自己清潔の過程で、一定の程度で媒質層3の再生能力を高めて、媒質層3の使用寿命を延長した。   Step 3: The inner tub 2 is driven to rotate at a high speed. At this time, the medium layer 3 rotates at a high speed, and the clothes 5, the double layer 9 and the particles 8 are dehydrated at the same time. It is discharged from the drain hole at the bottom of the outer tub 1. The dehydration process of the medium layer 3 is also a self-cleaning process of the medium layer 3, and the regeneration capability of the medium layer 3 is increased to a certain extent, and the service life of the medium layer 3 is extended.

ステップ四:すすぎステップで、再び槽内に適量のきれいな水を入れて、上記の過程に従って衣服5をすすいで、すすいだ後に再度に脱水を行って、最後に衣服5の全ての洗濯過程を完成する。   Step 4: In the rinsing step, add an appropriate amount of clean water to the tank again, rinse the garment 5 according to the above process, dehydrate again after rinsing, and finally complete all the washing process of the garment 5 To do.

衣服5と媒質層3の脱水後に、熱ポンプ装置や加熱管などの装置で、内槽2に熱風を出して、衣服5と媒質層3の乾燥に用いて、このように更に媒質層3の使用寿命も延長することができて、同時に槽内の乾燥を維持して、槽内に湿気によるかびなどの繁殖を減らすことに有利である。   After dehydrating the garment 5 and the medium layer 3, hot air is emitted to the inner tub 2 by a device such as a heat pump device or a heating tube and used for drying the garment 5 and the medium layer 3. The service life can also be extended, and at the same time, it is advantageous to maintain dryness in the tank and reduce the growth of mold and the like due to moisture in the tank.

本実施例に述べられた媒質層3の構造は同じく単一槽の洗濯機に適用する。   The structure of the medium layer 3 described in the present embodiment is also applied to a single tub washing machine.

実施例四:
図4のように、実施例三との違いとして、二重層内の粒子8の二重層での分布が不均一で、吸着効果に影響を与えることを避けるために、媒質層3の二重層内に多数の互いに仕切った室10を設けて、各室10の間に仕切板11で仕切って、粒子8を吸着して各室10に収納するのである。
Example 4:
As shown in FIG. 4, in order to avoid uneven distribution of the particles 8 in the double layer in the double layer and to affect the adsorption effect, the difference in Example 3 is that in the double layer of the medium layer 3. A plurality of chambers 10 that are partitioned from each other are provided, and the partitions 10 are partitioned between the chambers 10 to adsorb the particles 8 and store them in the chambers 10.

本実施例に述べられた媒質層3の構造は同じく単一槽の洗濯機に適用する。   The structure of the medium layer 3 described in the present embodiment is also applied to a single tub washing machine.

実施例五:
図5のように、実施例3と違いとして、媒質層3の二重層が多数の互いに仕切った室10で、粒子8が各室10に収納されているのである。多数の室10同士が互いに仕切られて、多数の室10は不連続的に内槽2の壁に分散に配置しているので、室10はリフト部7の設置を避けて、リフト部7が直接に内槽2の壁に固定されることができる。
Example 5:
As shown in FIG. 5, unlike Example 3, the double layer of the medium layer 3 is a large number of chambers 10 separated from each other, and the particles 8 are accommodated in the respective chambers 10. Since the multiple chambers 10 are partitioned from each other, and the multiple chambers 10 are discontinuously arranged on the wall of the inner tank 2, the chamber 10 avoids the installation of the lift unit 7, and the lift unit 7 It can be directly fixed to the wall of the inner tank 2.

ドラム式洗濯機でもインペラ洗濯機でも、多数の室10は内槽2の軸方向に沿って全体の長さで設置されることができるが、内槽2の径方向に沿って環状で設置されることができる。   In both the drum-type washing machine and the impeller washing machine, the multiple chambers 10 can be installed in the entire length along the axial direction of the inner tub 2, but are installed in an annular shape along the radial direction of the inner tub 2. Can.

ドラム式洗濯機の場合、室10が内槽2の軸方向に沿って全体の長さで不連続に設置された場合、リフト部7を設けず、内槽2の内側に突出した媒質層3をリフト部として、洗濯時に衣服8をリフトする作用を果たすことができる。   In the case of a drum-type washing machine, when the chamber 10 is discontinuously installed in the entire length along the axial direction of the inner tub 2, the medium layer 3 protruding inside the inner tub 2 without providing the lift portion 7. The lift part can be used to lift the clothes 8 during washing.

本実施例に述べられた媒質層3の構造は同じく単一槽の洗濯機に適用する。   The structure of the medium layer 3 described in the present embodiment is also applied to a single tub washing machine.

実施例六:
図6のように、実施例五と違いとして、多数の室10は連続的な波紋形を呈して内槽2の壁に固定されているが、このように更に媒質層3と水の接触面積を増えて、更に媒質層3の吸着能力を高めることができるのである。
Example 6:
As shown in FIG. 6, unlike the fifth embodiment, a large number of chambers 10 have a continuous ripple shape and are fixed to the wall of the inner tank 2. In this way, the contact area of the medium layer 3 and water is further increased. Thus, the adsorption capability of the medium layer 3 can be further increased.

ドラム式洗濯機の場合、室10が内槽2の軸方向に沿って全体の長さで不連続に設置された場合、リフト部7を設けせず、内槽2の内側に突出した吸着層3をリフト部として、洗濯時に衣服8をリフトする作用を果たすことができる。   In the case of a drum-type washing machine, when the chamber 10 is discontinuously installed with the entire length along the axial direction of the inner tub 2, the adsorbing layer protruding inside the inner tub 2 without providing the lift portion 7. 3 can be used as a lift part to lift the garment 8 during washing.

本実施例に述べられた媒質層3の構造は同じく単一槽の洗濯機に適用する。   The structure of the medium layer 3 described in the present embodiment is also applied to a single tub washing machine.

実施例七:
実施例一との違いとして、ドラム式洗濯機では、媒質層3は塗布技術で内槽2のリフト部7だけに塗布することができるが、媒質層3はねじなどの締付部品で内槽2のリフト部7に固定して据え付けることができるのである。この構造では、媒質層3に水を通す通孔を開ける必要がない。
Example 7:
As a difference from the first embodiment, in the drum-type washing machine, the medium layer 3 can be applied only to the lift part 7 of the inner tub 2 by a coating technique, but the medium layer 3 is a tightening part such as a screw. It can be fixed to the lift part 7 of 2 and installed. In this structure, it is not necessary to open a through hole for passing water through the medium layer 3.

上記の各実施例に述べられた媒質層3の構造は、同じく多数槽の洗濯機にも適用するが、その中のひとつの槽に媒質層3を設けて、二本の槽に設置することができて、また全ての洗濯槽に媒質槽3を設けることができる。   The structure of the medium layer 3 described in each of the above embodiments is also applicable to a washing machine having a large number of tubs. However, the medium layer 3 is provided in one tub and installed in two tubs. In addition, the medium tub 3 can be provided in all the washing tubs.

上記の通りに、添付図に提供された方案の内容を結び付けて、類似の技術方案を出すことができる。本発明の技術方案に逸脱しない内容であれば、本発明の技術本質によって上記の実施例に対して行ったいかなる簡単な変更、変化と修飾が本発明の技術方案の範囲に属すものだとみなされる。   As described above, it is possible to combine the contents of the schemes provided in the attached drawings to produce a similar technical scheme. Any simple changes, changes and modifications made to the above-described embodiments according to the technical essence of the present invention shall be deemed to belong to the scope of the technical scheme of the present invention as long as the content does not depart from the technical scheme of the present invention. It is.

Claims (14)

少なくとも一つの洗濯する衣服洗濯水を入れる洗濯槽を含み、前記洗濯槽に洗濯媒質層を設けた洗濯機であって、
前記洗濯媒質層は、洗濯中に、前記衣服及び/又は前記洗濯水の中の汚れを吸着するために用いられ、
前記洗濯媒質層は、表面が壁で囲まれ内部に重合体固体粒子を収納する二重層であって、前記洗濯槽の壁の内表面及び/又は外表面に固定され、
前記二重層は多数の互いに仕切られた室で構成され、前記重合体固体粒子が前記室のそれぞれに収納され、
前記室が連続的な波紋形を呈して前記洗濯槽の壁に固定されている、又は前記室がお互いに不連続的に前記洗濯槽の壁に分散して配置されている、ことを特徴とする洗濯機。
A washing machine including a washing tub for storing at least one clothes to be washed and washing water , wherein a washing medium layer is provided in the washing tub ,
The washing medium layer is used to adsorb dirt in the clothes and / or the washing water during washing,
The washing medium layer is a double layer that is surrounded by a wall and contains polymer solid particles inside, and is fixed to the inner surface and / or outer surface of the wall of the washing tub,
The double layer is composed of a number of chambers separated from each other, and the polymer solid particles are stored in each of the chambers,
The chamber has a continuous ripple shape and is fixed to the wall of the washing tub, or the chambers are discontinuously distributed on the wall of the washing tub. Washing machine.
前記二重層の壁に前記洗濯水だけを通すことに供える貫通孔を開けていることを特徴とする請求項に記載された洗濯機。 Washing machine according to claim 1, characterized in that the housing is open through hole ready for passing only the washing water to the bilayer wall. 前記貫通孔の直径が0.5−1.5mmであることを特徴とする請求項に記載された洗濯機。 The washing machine according to claim 2 , wherein a diameter of the through hole is 0.5 to 1.5 mm. 前記重合体固体粒子が表面多孔性構造であることを特徴とする請求項に記載された洗濯機。 The washing machine according to claim 1 , wherein the polymer solid particles have a surface porous structure. 前記二重層の壁の表面がつるつるしているか、複数の連続的又は不連続的な突起を持っているか、又は多孔性構造であることを特徴とする請求項に記載された洗濯機。 The washing machine according to claim 1 , wherein the surface of the double layer wall is smooth, has a plurality of continuous or discontinuous protrusions, or has a porous structure. 前記洗濯媒質層が重合体で形成されていることを特徴とする請求項1〜のいずれか一項に記載された洗濯機。 The washing machine according to any one of claims 1 to 5 , wherein the washing medium layer is formed of a polymer. 前記重合体が親水性成分、親油性成分、および表面活性剤の成分を持っていることを特徴とする請求項に記載された洗濯機。 The washing machine according to claim 6 , wherein the polymer has a hydrophilic component , a lipophilic component, and a surfactant component. 前記重合体固体粒子の表面の孔は互いに独立しており、前記重合体固体粒子の表面の孔の直径が0.01−0.1mmであることを特徴とする請求項に記載された洗濯機。 5. The laundry according to claim 4 , wherein the pores on the surface of the polymer solid particles are independent from each other, and the diameter of the pores on the surface of the polymer solid particles is 0.01-0.1 mm. Machine. 前記二重層の壁の表面が多孔性構造であって、前記二重層の壁の表面の孔は互いに独立しており、前記二重層の壁の表面の孔の直径が0.01−0.1mmであることを特徴とする請求項5に記載された洗濯機。The surface of the double layer wall has a porous structure, the holes on the surface of the double layer wall are independent from each other, and the diameter of the hole on the surface of the double layer wall is 0.01-0.1 mm. The washing machine according to claim 5, wherein: 請求項1に記載された洗濯機を用い、洗濯中に、洗濯媒質層を利用して洗濯する衣服及び/又は洗濯水の中の汚れを吸着して、前記衣服の洗濯を完成することを特徴とする洗濯方法。 Wherein using the washing machine according to claim 1, in laundry, adsorbs dirt inside clothing and / or washing water to the laundry by using a washing medium layer, to complete the washing of the garment And washing method. 前記衣服の洗濯前に、洗濯槽に前記洗濯水を注ぎ込む過程を含んで、前記洗濯水で前記衣服を浸すことを特徴とする請求項10に記載された洗濯方法。 Before washing the garment, comprises the step of pouring the washing water in the washing tub, has been Laundry according to claim 10, characterized in that immersing the garment in the washing water. 前記洗濯水を注ぎ込んで前記衣服を浸す時に、前記衣服を静かに置いて一定の時間浸すことを特徴とする請求項11に記載された洗濯方法。 Been Laundry according to claim 11, wherein when immersing the garment by pouring the washing water, characterized in that the soaking certain time gently placing the garment. 前記衣服の洗濯後に、前記洗濯媒質層及び/又は前記衣服を脱水する過程、及び/又は、前記洗濯槽に熱風を提供して、前記衣服及び/又は前記洗濯媒質層を乾燥する過程を含むことを特徴とする請求項10に記載された洗濯方法。 After washing of the garment, the washing medium layer and / or processes for dewatering the garment, and / or, provides hot air to the washing tub, to include the garment and / or the process of drying the laundry medium layer The washing method according to claim 10 . 前記洗濯媒質層が、前記衣服及び/又は前記洗濯水の中の汚れを吸着する重合体で形成されていることを特徴とする請求項10〜13のいずれか一項に記載された洗濯方法。 The washing method according to any one of claims 10 to 13 , wherein the washing medium layer is formed of a polymer that adsorbs dirt in the clothes and / or the washing water .
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EP2749684A1 (en) 2014-07-02
JP2014526931A (en) 2014-10-09
EP2749684A4 (en) 2015-01-07
CN102953262A (en) 2013-03-06
US20140201929A1 (en) 2014-07-24

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