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JP5555616B2 - Washing machine - Google Patents

Washing machine Download PDF

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Publication number
JP5555616B2
JP5555616B2 JP2010284030A JP2010284030A JP5555616B2 JP 5555616 B2 JP5555616 B2 JP 5555616B2 JP 2010284030 A JP2010284030 A JP 2010284030A JP 2010284030 A JP2010284030 A JP 2010284030A JP 5555616 B2 JP5555616 B2 JP 5555616B2
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washing
detergent
washing tub
water
laundry
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JP2012130479A (en
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俊一 石川
好美 岡本
博 小河原
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Hitachi Appliances Inc
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Hitachi Appliances Inc
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Description

本発明は、洗濯時に清水を供給するときに溶解した洗剤液を洗濯槽内の洗濯物に散布する洗剤投入装置を備えた洗濯機に関する。   The present invention relates to a washing machine provided with a detergent charging device for spraying a detergent solution dissolved when supplying fresh water during washing on laundry in a washing tub.

この洗剤投入装置を備える洗濯機は、例えば、特開2006−255300号公報(特許文献1)に記載されている。   A washing machine provided with this detergent charging device is described in, for example, Japanese Patent Application Laid-Open No. 2006-255300 (Patent Document 1).

特許文献1に示す洗濯機はトップカバーに洗剤投入装置を備えている。洗剤投入装置は出し入れ自在の投入ケースを有し、この投入ケースに入れられた粉末洗剤は洗濯時に供給される清水で溶解されて洗濯槽内の洗濯物に散布される。   The washing machine shown in Patent Document 1 includes a detergent charging device on the top cover. The detergent charging device has a charging / discharging case, and the powder detergent put in the charging case is dissolved in fresh water supplied at the time of washing and sprayed on the laundry in the washing tub.

特開2006−255300号公報JP 2006-255300 A

上記特許文献1に示す洗濯機では、洗濯時に供給される清水で溶解した洗剤液を乾いた洗濯物に散布する。清水で溶解した高濃度の洗剤液が部分的に散布されると、洗濯物に洗剤に含まれる蛍光剤や漂白剤により部分的に脱色されたりする不具合がある。   In the washing machine shown in Patent Document 1, a detergent solution dissolved in fresh water supplied at the time of washing is sprayed on dry laundry. When a high-concentration detergent solution dissolved in fresh water is partially sprayed, there is a problem that the laundry is partially decolored by a fluorescent agent or a bleaching agent contained in the detergent.

本発明は、上記の課題に鑑み、高濃度の洗剤液の散布が偏りなく洗濯物に均一で広範囲に散布できる洗剤投入装置を備えた洗濯機を提供することを目的とする。   An object of this invention is to provide the washing machine provided with the detergent injection | throwing-in apparatus which can spread | disperse a high concentration detergent liquid uniformly and widely over a laundry in view of said subject.

本発明は、洗濯物を収納して洗う洗濯槽と、前記洗濯槽を回転駆動する電動機と、洗濯時に清水を給水して溶解した洗剤液を前記洗濯槽の上側から注いで洗濯槽内の洗濯物に散布する洗剤投入装置を備える。そして、前記洗剤投入装置は前記洗濯槽の上側に位置し、かつ前記洗濯槽の内側に向けられた洗剤液の注口を有し、前記注口は横方向に延在する隙間状の注口と前記隙間状の注口の両端位置に奥行き方向に設けられた切欠き溝による注口とを備えて構成されることを特徴とする。 The present invention relates to a washing tub for storing and washing laundry, an electric motor for rotationally driving the washing tub, and a washing liquid in the washing tub by pouring from the upper side of the washing tub a detergent solution that is supplied with fresh water during washing. and a detergent dosing device for spraying the objects. Then, the detergent input device is located on the upper side of the washing tub and having a spout of detergent liquid directed to the inside of the washing tub, the spout is shaped gap extending transversely Note It is configured to include a spout to both end positions of the mouth and the gap-shaped Note port by notched groove provided in the depth direction, characterized in Rukoto.

また、本発明は、洗濯物を収納して洗う洗濯槽と、前記洗濯槽を回転駆動する電動機と、清水で溶解した洗剤液を前記洗濯槽の上側から注いで洗濯槽内の洗濯物に散布する洗剤投入装置を備え、前記洗剤投入装置には、ケース収納枠部と、前記ケース収納枠部に出し入れ自在に収まる注水ケースと、前記洗濯槽の上側で洗濯槽の内側に向けて前記ケース収納枠部に設けられた注水ケースが出し入れされる出入口、前記洗濯槽の上側に位置し、かつ前記洗濯槽の内側に向けられた洗剤の注口ととを有する洗濯機にあって、前記注口は、前記出入口の口縁下部に出入口の間口方向に延在する隙間状の注口と、前記隙間状の注口の両端位置に奥行き方向に設けられた切欠き溝による注口とを備えて構成されることを特徴とする。 The present invention also provides a washing tub for storing and washing laundry, an electric motor for rotationally driving the washing tub, and a detergent solution dissolved in fresh water poured from above the washing tub and sprayed on the laundry in the washing tub. The detergent charging device includes a case storage frame portion, a water injection case that fits in and out of the case storage frame portion, and the case storage toward the inside of the laundry tub above the laundry tub. doorway is water injection case provided in the frame portion is out, located on the upper side of the washing tub, and be in a washing machine having a spout and capital detergent directed to the inside of the washing tub, said spout Is provided with a gap-like spout extending in the mouth direction of the entrance / exit at the lower edge of the entrance / exit, and a spout by notch grooves provided in the depth direction at both end positions of the gap-like spout. It is characterized by being configured .

さらに、本発明は、洗濯物を収納して洗う洗濯槽と、前記洗濯槽を回転駆動する電動機と、清水で溶解した洗剤液を前記洗濯槽の上側から注いで洗濯槽内の洗濯物に散布する洗剤投入装置を備え、前記洗剤投入装置には、ケース収納枠部と、前記ケース収納枠部に出し入れ自在に収まる注水ケースと、前記洗濯槽の上側で洗濯槽の内側に向けて前記ケース収納枠部に設けられた注水ケースが出し入れされる出入口と、前記洗濯槽の上側に位置し、かつ前記洗濯槽の内側に向けられた洗剤の注口とを有する洗濯機にあって、前記出入口は、口縁下部が間口方向の幅に亘って前方に突き出す庇状の注水案内部を有し、前記注口は、前記庇状の注水案内部の上面と注水ケースの下部との間で前記出入口の間口方向に延在する隙間状の注口と、前記隙間状の注口の両端位置に奥行き方向に設けられた切欠き溝による注口とを備えて構成されることを特徴とする。 Further, the present invention provides a washing tub for storing and washing laundry, an electric motor for rotationally driving the washing tub, and a detergent solution dissolved in fresh water is poured from above the washing tub and sprayed on the laundry in the washing tub. The detergent charging device includes a case storage frame portion, a water injection case that fits in and out of the case storage frame portion, and the case storage toward the inside of the laundry tub above the laundry tub. A washing machine having an inlet / outlet through which a water injection case provided in a frame portion is taken in and out , and a detergent inlet located on the upper side of the washing tub and directed toward the inside of the washing tub, The lower portion of the mouth edge has a bowl-shaped water injection guide portion protruding forward across the width in the frontage direction, and the inlet port is provided between the upper surface of the bowl-shaped water injection guide portion and the lower portion of the water injection case. a gap-shaped spout extending in the frontage direction, the gap Characterized in that configured with the both end positions shaped for NOTE port and spout according cutout groove provided in the depth direction.

本発明によれば、溶解された高濃度の洗剤液は、横方向に延在する隙間状の注口や、出入口の間口方向に延在する隙間状の注口から扇状に拡げて広範囲にかつ均一散布される。隙間状の注口の両端位置に設けた切欠き溝は、扇状の拡がりをさらに拡大する。これにより、洗濯物に洗剤による化学的な脱色が抑えられる。 According to the present invention, the dissolved high-concentration detergent liquid is widely spread in a fan shape from a gap-shaped spout extending in the lateral direction or a gap-shaped spout extending in the inlet-outlet direction. Evenly sprayed . The notch grooves provided at both end positions of the gap-shaped spout further expand the fan-shaped expansion. Thereby , the chemical decoloration by a detergent is suppressed to the laundry.

本発明の実施例に係るもので、洗濯機の外観斜視図である。1 is an external perspective view of a washing machine according to an embodiment of the present invention. 本発明の実施例に係るもので、注水ケースをケース収納枠部から引き出したところを上側から見た斜視図である。FIG. 5 is a perspective view of a water injection case as viewed from the upper side according to the embodiment of the present invention, with the water injection case pulled out from the case storage frame. 本発明の実施例に係るもので、ケース収納枠部に収まった注水ケースをケース収納枠部の天板がない状態で上側から見た斜視図である。It is a perspective view which concerns on the Example of this invention, and looked at the water-filling case stored in the case storage frame part from the upper side in the state without the top plate of a case storage frame part. 本発明の実施例に係るもので、注水ケースとケース収納枠部を有する洗剤投入装置を断面した縦断面図である。It is a longitudinal cross-sectional view which concerns on the Example of this invention, and cross-sectioned the detergent injection | throwing-in apparatus which has a water injection case and a case storage frame part. 本発明の実施例に係るもので、ケース収納枠部を前側から見た斜視図である。FIG. 4 is a perspective view of the case storage frame portion as viewed from the front side according to the embodiment of the present invention. 本発明の実施例に係るもので、図4のA部を拡大したA部拡大図である。FIG. 5 is an enlarged view of part A, which is an enlarged view of part A of FIG. 4, according to the embodiment of the present invention. 本発明の実施例に係るもので、洗剤投入装置7の注口から洗濯槽61に注いで、洗濯槽内の洗濯物に散布する洗剤や洗濯水の流下する態様を側面から見たところを示す図である。FIG. 6 shows an embodiment of the present invention, in which a detergent or washing water is poured from the spout of the detergent charging device 7 into the washing tub 61 and sprayed on the laundry in the washing tub as viewed from the side. FIG. 本発明の実施例に係るもので、洗剤投入装置7の注口から洗濯槽61に注いで、洗濯槽内の洗濯物に散布する洗剤や洗濯水の流下する態様を真上から見たところを示す図である。According to the embodiment of the present invention, the state in which the detergent or washing water flowing from the spout of the detergent charging device 7 into the washing tub 61 and sprayed on the laundry in the washing tub is viewed from directly above. FIG. 本発明の実施例に係るもので、洗濯機の制御回路を示すブロック図である。It is a block diagram which concerns on the Example of this invention and shows the control circuit of a washing machine. 本発明の実施例に係るもので、洗濯機の運転工程を最初の給水から最終の排水脱水に亘って示す説明図である。FIG. 6 is an explanatory diagram illustrating the operation process of the washing machine from the initial water supply to the final drainage dewatering according to the embodiment of the present invention.

以下、本発明の実施形態に係わる実施例について、図を引用して説明する。   Hereinafter, examples according to embodiments of the present invention will be described with reference to the drawings.

まず、図1に沿って洗濯機の概要を述べる。   First, an outline of the washing machine will be described with reference to FIG.

図1に示す洗濯機は、外枠1に外枠1を下から支持する外枠ベース2、外枠1の上に設けられたトップカバー3、トップカバー3に開閉自在に備わる蓋4を有する。   The washing machine shown in FIG. 1 has an outer frame base 2 that supports the outer frame 1 from below, a top cover 3 provided on the outer frame 1, and a lid 4 that can be opened and closed on the top cover 3. .

洗濯槽(図示せず)は外枠1の内部に備わる。洗濯槽を収納する外槽(図示せず)は外枠1の内部にあって外枠1に吊り下げ支持される。吊り下げ支持する支持機構は、外槽内で高速回転する洗濯槽に起きるアンバランス振動を緩和する防振手段が備わる。   A washing tub (not shown) is provided inside the outer frame 1. An outer tub (not shown) for storing the washing tub is inside the outer frame 1 and is supported by being suspended from the outer frame 1. The support mechanism for supporting the suspension includes a vibration isolating means for mitigating unbalance vibration that occurs in the washing tub that rotates at high speed in the outer tub.

洗濯脱水モータは外槽の外底部に設けられる。脱水時には、洗濯脱水モータはクラッチの制御操作により洗濯槽を高速回転駆動する。   The washing / dehydrating motor is provided on the outer bottom of the outer tub. At the time of dehydration, the laundry dewatering motor drives the laundry tub at high speed by a clutch control operation.

また、洗濯脱水モータは、洗濯時にはクラッチの制御操作により洗濯槽の中央底部に回転自在に備わる攪拌翼を攪拌回転する。脱水運転時には洗濯槽は一方向に回転する。洗濯時には攪拌翼は正逆の攪拌回転が繰り返される。   In addition, the washing and dehydrating motor stirs and rotates a stirring blade provided at the center bottom of the washing tub by a clutch control operation during washing. During the dehydration operation, the washing tub rotates in one direction. During washing, the agitating blade is repeatedly rotated in the forward and reverse directions.

洗濯槽は底部がある筒形状をしている。筒形状の胴体部には多数の脱水穴が設けられており、脱水時に洗濯物にふくまれている水分は遠心力により脱水穴から脱水される。洗濯槽は上部にバランサーが備わる。脱水時に洗濯槽が高速回転する時に発生する振動をバランサーで緩和する。   The washing tub has a cylindrical shape with a bottom. The cylindrical body portion is provided with a number of dewatering holes, and water contained in the laundry during dehydration is dehydrated from the dewatering holes by centrifugal force. The washing tub is equipped with a balancer at the top. The balancer reduces vibrations that occur when the washing tub rotates at high speed during dehydration.

図9に沿って洗濯機が自動運転する制御回路に基づいて説明する。   A description will be given based on a control circuit automatically operated by the washing machine along FIG.

制御回路は、図1に示すトップカバー3の前側に設けたコントロールパネル5の内部に設けたコントロール基板(図示せず)に備わる。   The control circuit is provided on a control board (not shown) provided inside the control panel 5 provided on the front side of the top cover 3 shown in FIG.

制御回路は、マイコンで作られた制御ユニット部101、入力回路部102、出力駆動回路部103を有する。制御ユニット部101は、CPU(中央制御部)105、タイマー106、メモリー107、出力ポート108、入力ポート109を有する。CPU105は演算部105a、制御部105bを有する。メモリー107はRAM107aとROM107bを有する。   The control circuit includes a control unit unit 101 made of a microcomputer, an input circuit unit 102, and an output drive circuit unit 103. The control unit unit 101 includes a CPU (central control unit) 105, a timer 106, a memory 107, an output port 108, and an input port 109. The CPU 105 includes a calculation unit 105a and a control unit 105b. The memory 107 includes a RAM 107a and a ROM 107b.

入力回路部102には、電源スイッチ121、水位センサー122、ICホール素子123、蓋開閉センサー124、全自動選択キー125、マニアル設定キー126、布量センサー127が接続される各種のスイッチやセンサーの情報信号は入力回路部102、入力ポート108を通じてCPU(中央制御部)105に情報伝達が行われる。   The input circuit unit 102 is connected to a power switch 121, a water level sensor 122, an IC hall element 123, a lid opening / closing sensor 124, a fully automatic selection key 125, a manual setting key 126, and a cloth amount sensor 127. Information signals are transmitted to the CPU (central control unit) 105 through the input circuit unit 102 and the input port 108.

出力駆動回路部103には、洗濯脱水モータであるDCブラシレスモータ131、給水電磁弁132、排水電磁弁133、蓋ロックソレノイド134、終了ブザー135が接続される。   A DC brushless motor 131 that is a washing / dehydrating motor, a water supply electromagnetic valve 132, a drainage electromagnetic valve 133, a lid lock solenoid 134, and an end buzzer 135 are connected to the output drive circuit unit 103.

これらのDCブラシレスモータ131、排水電磁弁135を含む各種電気機器などは制御ユニット部101(制御手段)の制御のもとで、出力駆動回路部103を通じて供給される電力で作動する。   Various electric devices including the DC brushless motor 131 and the drain electromagnetic valve 135 are operated by electric power supplied through the output drive circuit unit 103 under the control of the control unit 101 (control means).

給水電磁弁132は、開閉により、水道水からの清水供給の制御をする。水道水からの清水は、洗剤投入装置7を通じて洗濯槽に洗濯水やすすぎ水として注水される。洗濯時には、洗剤投入装置7に使用量の洗剤を投入してあり、水道水からの清水により洗剤が溶解されて洗濯槽内の洗濯物に散布される。また、すすぎ時には柔軟仕上げ剤が洗剤投入装置7の柔軟仕上げ剤投入部を経由して洗濯槽内に供給されてすすぎ水として使用される。排水電磁弁133は、CPU(中央制御部)105の制御により開閉され、洗濯時に使用された洗濯水やすすぎ時に使用されたすすぎ水を機外へ排水する。   The water supply electromagnetic valve 132 controls the supply of fresh water from tap water by opening and closing. Fresh water from tap water is poured into the washing tub as washing water or rinsing water through the detergent charging device 7. At the time of washing, a used amount of detergent is put into the detergent feeding device 7, and the detergent is dissolved by fresh water from tap water and sprayed on the laundry in the washing tub. Further, at the time of rinsing, the soft finish is supplied into the washing tub via the soft finish input part of the detergent charging device 7 and used as rinse water. The drain electromagnetic valve 133 is opened and closed under the control of the CPU (central control unit) 105, and drains the rinse water used during washing and the rinse water used during rinsing out of the machine.

図2〜図8に沿って洗剤投入装置7、及びその関連に関して説明する。   The detergent charging device 7 and its relation will be described with reference to FIGS.

洗剤投入装置7は水道水を洗濯水やすすぎ水として洗濯槽61に注水するもので、図1に示す洗濯出し入れ口50に設けられる。洗剤投入装置7はケース収納枠部31と注水ケース32を有する。注水ケース32はケース収納枠部31に出し入れ自在に収まる。   The detergent charging device 7 is for pouring tap water into the washing tub 61 as washing water or rinsing water, and is provided at the laundry outlet / inlet 50 shown in FIG. The detergent charging device 7 includes a case storage frame portion 31 and a water injection case 32. The water injection case 32 fits in and out of the case storage frame 31.

図4に示すように、洗剤投入装置7は上流側に給水部33を有する。給水部33はケース収納枠部31を形成する天板34の上側に設けられる。給水部33の囲壁部35は天板34と一体に形成する。給水部33の上板34は囲壁部35と別体に作り、ネジまたは止手段で固定する。上板34を別体にすることで、ケース収納枠部31、給水部33の囲壁部35、トップカバー3を一体に形成するのが容易になる。   As shown in FIG. 4, the detergent charging device 7 has a water supply unit 33 on the upstream side. The water supply part 33 is provided above the top plate 34 forming the case storage frame part 31. The surrounding wall portion 35 of the water supply portion 33 is formed integrally with the top plate 34. The upper plate 34 of the water supply portion 33 is formed separately from the surrounding wall portion 35 and is fixed with screws or locking means. By making the upper plate 34 separate, it is easy to integrally form the case storage frame portion 31, the surrounding wall portion 35 of the water supply portion 33, and the top cover 3.

給水部33は囲壁部35に外側に突出する導水筒37を有する。この導水筒37はパイプ(図示せず)を介して給水電磁弁132(図9に示す)に接続され、水道水を給水部33に導く。給水部33はスポンジ等の整流体38を内部に備える。給水部33に流入した水道水は整流体38で給水時の水圧による勢いが緩和され、天板34に設けられた複数の給水穴45から偏りなく注水ケース32に流れ込む。   The water supply unit 33 has a water guide tube 37 protruding outward from the surrounding wall unit 35. This water guide tube 37 is connected to a water supply electromagnetic valve 132 (shown in FIG. 9) via a pipe (not shown), and guides tap water to the water supply unit 33. The water supply unit 33 includes a rectifier 38 such as a sponge inside. The tap water that has flowed into the water supply section 33 is relaxed by the rectifier 38 due to the water pressure at the time of water supply, and flows into the water injection case 32 from the plurality of water supply holes 45 provided in the top plate 34 without deviation.

注水ケース32は、図3、図4に示すように、注水ケース32を出し入れ方向から見て左右隣り合わせの洗剤投入室40と仕上剤投入室41を有する。洗剤投入室40と仕上剤投入室41は注水ケース32内を前後方向に延在する仕切部42で分けられる。   As shown in FIGS. 3 and 4, the water injection case 32 includes a detergent charging chamber 40 and a finishing agent charging chamber 41 that are adjacent to each other when viewed from the direction of loading / unloading. The detergent charging chamber 40 and the finishing agent charging chamber 41 are divided by a partition 42 extending in the front-rear direction in the water injection case 32.

洗剤投入室40の底部は左右の両端側を高く、中央を低くして洗剤44が底部の中央に集るようにしている。洗剤投入室40は奥側に洗剤流出口48を有する。洗剤投入室40の底部は前側から奥側の洗剤流出口48に向かって下る傾きになっているので、溶けた洗剤は洗剤投入室40内に淀むことなく洗剤流出口48から流れ出る。また、洗剤投入室40内には、複数の給水穴45によって行き渡った給水が行われ、この給水で洗剤投入室40に入っている洗剤は全体に亘って溶かされる。溶けた洗剤は給水された洗濯水と一緒に洗剤流出口48から流れ出る。   The bottom of the detergent charging chamber 40 is high at both the left and right ends, and the center is lowered so that the detergent 44 is gathered at the center of the bottom. The detergent charging chamber 40 has a detergent outlet 48 on the back side. Since the bottom of the detergent charging chamber 40 is inclined downward from the front side toward the detergent outlet 48 on the back side, the melted detergent flows out from the detergent outlet 48 without stagnation into the detergent charging chamber 40. In addition, the detergent supply chamber 40 is supplied with water through a plurality of water supply holes 45, and the detergent contained in the detergent supply chamber 40 is melted throughout the water supply. The melted detergent flows out from the detergent outlet 48 together with the supplied washing water.

洗剤投入室40には、洗剤流出口48側に寄りに、底部から立つ複数の流止ピン43を有する。流止ピン43の数は洗剤流出口48から注水ケースの前側に行くに従い中央から両端側に向かって徐々に少なくなる。洗剤投入室40には、洗剤44が図4に示すように置かれる。洗剤44は流止ピン43と注水ケースの前側との間に置かれる。   The detergent charging chamber 40 has a plurality of stop pins 43 standing from the bottom near the detergent outlet 48 side. The number of the stop pins 43 gradually decreases from the center toward both ends as it goes from the detergent outlet 48 to the front side of the water injection case. A detergent 44 is placed in the detergent charging chamber 40 as shown in FIG. The detergent 44 is placed between the stop pin 43 and the front side of the water injection case.

洗剤44は給水穴45から注がれる水で溶けて洗剤流出口48から流れ出る。溶けずに洗剤流出口48に向かう洗剤は流止ピン43で受け止められるので、未溶解洗剤の流出は阻止される。また、流止ピン43の数は中央が少なく、両端側が多い分布になっているので、溶けながら流れる洗剤流は水量の多い中央に集まり、洗剤は良く溶ける。   The detergent 44 melts with water poured from the water supply hole 45 and flows out from the detergent outlet 48. Since the detergent which is not melted and goes to the detergent outlet 48 is received by the stop pin 43, the undissolved detergent is prevented from flowing out. Further, since the number of the stop pins 43 is small at the center and is distributed at both ends, the detergent flow that flows while melting gathers in the center with a large amount of water, and the detergent dissolves well.

仕上剤投入室41はサイホン機構46を有する。仕上剤投入室41の水位が所定水位値を超えるとサイホンの原理により、サイホン機構46から水に溶けた仕上剤がサイホン機構46を通じて仕上剤投入室41から排出される。   The finishing agent charging chamber 41 has a siphon mechanism 46. When the water level in the finish agent input chamber 41 exceeds a predetermined water level value, the finish agent dissolved in water from the siphon mechanism 46 is discharged from the finish agent input chamber 41 through the siphon mechanism 46 according to the principle of the siphon.

注水ケース32は前側に前面パネル49を有する。前面パネル49は表面が平坦である。取っ手47は前面パネル49の表面中央に設ける。取っ手47を掴んで注水ケース32の出し入れをするので、前面パネル49の表面が平坦でも注水ケース32の出し入れは容易である。   The water injection case 32 has a front panel 49 on the front side. The front panel 49 has a flat surface. The handle 47 is provided at the center of the surface of the front panel 49. Since the water injection case 32 is taken in and out by grasping the handle 47, the water injection case 32 can be easily taken in and out even when the surface of the front panel 49 is flat.

洗剤投入装置7のケース収納枠部31は、図2〜図5に示すように、トップカバー3に設けられる。トップカバー3は中央が大きく開口した洗濯物出入口50を有する。縦置きの洗濯槽61は洗濯物出入口50の下方に位置する。   The case storage frame 31 of the detergent charging device 7 is provided on the top cover 3 as shown in FIGS. The top cover 3 has a laundry doorway 50 with a large opening at the center. The vertically placed washing tub 61 is located below the laundry entrance 50.

トップカバー3に設けられてケース収納枠部31は注水ケース32を出し入れする出入口51を有する。出入口51は洗濯物出入口50の後部側に位置するように設けられており、洗濯物出入口50を洗濯機の前方から覗くと矩形に縁取られた出入口51が良く見え、注水ケース32の出し入れ操作が容易である。   The case storage frame 31 provided on the top cover 3 has an inlet / outlet 51 through which the water injection case 32 is taken in and out. The entrance / exit 51 is provided so as to be located on the rear side of the laundry entrance / exit 50. When the laundry entrance / exit 50 is viewed from the front of the washing machine, the entrance / exit 51 that is edged in a rectangle can be seen clearly, and the operation of taking in and out the water injection case 32 is performed. Easy.

注水ケース32がケース収納枠部31に収まると、前面パネル49は、図3、図4、図5、図6に示すように、トップカバー3の出入口51の内側に嵌る。   When the water injection case 32 is accommodated in the case storage frame 31, the front panel 49 is fitted inside the entrance / exit 51 of the top cover 3 as shown in FIGS. 3, 4, 5, and 6.

図4に示すように、ケース収納枠部31は奥側からトップカバー3の出入口51に亘って延在する底部53を有する。底部53は出入口51に向かって下る傾斜になっており、出入口51に近い途中で落ち込む段部54を有する。そして、底部53は段部54の下端から出入口51に向かって延びている庇状の注水案内部55を有する。この庇状の注水案内部55も出入口51に向かって下る傾斜になっている。傾斜の角度は5°程度である。底部53は全体に亘り出入口51側に下る傾斜になっているので、洗剤流出口48、サイホン機構46から流れ出る洗剤、仕上げ剤、洗濯水、すすぎ水は出入口51に向かって良く流れる。   As shown in FIG. 4, the case storage frame 31 has a bottom 53 that extends from the back side to the entrance / exit 51 of the top cover 3. The bottom portion 53 is inclined downward toward the entrance / exit 51 and has a stepped portion 54 that falls in the middle of the entrance / exit 51. And the bottom part 53 has the bowl-shaped water injection guide part 55 extended toward the entrance / exit 51 from the lower end of the step part 54. FIG. The bowl-shaped water injection guide portion 55 is also inclined downward toward the entrance / exit 51. The angle of inclination is about 5 °. Since the bottom portion 53 is inclined downward toward the entrance / exit 51, the detergent, finishing agent, washing water and rinse water flowing out from the detergent outlet 48 and the siphon mechanism 46 flow well toward the entrance / exit 51.

洗剤投入室40の底部の外底面やケース収納枠部31の底部53で出来る隙間56は、図4に示すように、出入口51に向かって広がる形状になる。ケース収納枠部31の前側には、段部54、庇状の注水案内部55、前面パネル49で囲われる注水堰57が形成される。この注水堰57に洗剤を含んだ洗濯水や、仕上げ剤を含んだすすぎ水は、一次的に貯まり、間隙58から流出して洗濯槽61に注がれる。   As shown in FIG. 4, the gap 56 formed at the outer bottom surface of the bottom of the detergent charging chamber 40 and the bottom 53 of the case storage frame 31 has a shape that widens toward the entrance / exit 51. On the front side of the case storage frame portion 31, a water injection weir 57 surrounded by a step portion 54, a bowl-shaped water injection guide portion 55, and a front panel 49 is formed. The washing water containing the detergent and the rinsing water containing the finishing agent are temporarily stored in the water injection weir 57 and flow out of the gap 58 and poured into the washing tub 61.

注水堰57の大きさは、次のとおりである。   The size of the water injection weir 57 is as follows.

注水堰57は、出入口51の間口幅Wが130mm、段部54の丈H3(間口幅Wの中間で丈が最小のところ)が10〜20mm、段部54から前面パネル49までの奥行き長さL1が15mm程度の容積になる大きさである。   The water injection weir 57 has an opening width W of 130 mm, a height H3 of the step portion 54 (where the height is the smallest in the middle of the opening width W) of 10 to 20 mm, and a depth length from the step portion 54 to the front panel 49. L1 has such a size that the volume is about 15 mm.

また、間隙58は、前面パネル49の下端と庇状の注水案内部55との間にできる隙間で間隔T1は1〜5mm程度である。この隙間を形成する庇状の注水案内部55は、前面パネル49の表面より洗濯槽61の内側に向かって突き出るように延びている。突き出し長さL2は1〜3mmである。   The gap 58 is a gap formed between the lower end of the front panel 49 and the bowl-shaped water injection guide portion 55, and the interval T1 is about 1 to 5 mm. The bowl-shaped water injection guide portion 55 that forms this gap extends from the surface of the front panel 49 so as to protrude toward the inside of the washing tub 61. The protruding length L2 is 1 to 3 mm.

この間隙58とは逆に、前面パネル49の下端を除く前面パネル49の上端、および両側端には、図2に示す口縁枠52との間にほとんど間隙がなく、注水ケース32の出し入れが損なわれない程度の小さいギャップになっている。   Contrary to the gap 58, there is almost no gap between the upper end of the front panel 49 except for the lower end of the front panel 49, and both side ends with the rim frame 52 shown in FIG. The gap is small enough not to be damaged.

さらに間隙58は、図2、図3、図5に示すように、円弧形状をしている。間隙58が円弧形状になるのは、注水案内部55と前面パネル49の形状に依存する。庇状の注水案内部55は半径が100〜150mmの円弧形状で、中央が高位置に、両端が低位置になる構成になっている。前面パネル49の下端は、同じように、円弧形状で、中央が高位置に、両端が低位置になる構成になっている。   Further, the gap 58 has an arc shape as shown in FIGS. The gap 58 has an arc shape depending on the shapes of the water injection guide 55 and the front panel 49. The bowl-shaped water injection guide portion 55 has an arc shape with a radius of 100 to 150 mm, and has a configuration in which the center is at a high position and both ends are at low positions. Similarly, the lower end of the front panel 49 has a circular arc shape, with the center at a high position and both ends at a low position.

注水案内部55と前面パネル49で形成される間隙58は、図5に示す出入口51の間口幅Wに亘って同じ寸法間隔(1〜5mm)に保たれている。切欠き溝59は隙間56の両端位置に設けられる。出入口51の口縁枠52を切り欠いて形成した切欠き溝59は、口縁枠52の両側下部コーナで注水案内部55の上面側に位置する。   The gap 58 formed by the water injection guide 55 and the front panel 49 is maintained at the same dimensional interval (1 to 5 mm) over the opening width W of the entrance / exit 51 shown in FIG. The notch groove 59 is provided at both end positions of the gap 56. A notch groove 59 formed by cutting out the rim frame 52 of the entrance / exit 51 is located on the upper surface side of the water injection guide portion 55 at the lower corners on both sides of the rim frame 52.

この切欠き溝59により、洗濯槽61内への注水は幅を広げた注水になる。間隙58を除く前面パネル49の回りに存在する小さなギャップからの漏水は少なく、洗濯槽61に注がれる大部分の注水は間隙58から行われる。   Due to the notch groove 59, water is poured into the washing tub 61 with a wider width. Leakage from a small gap existing around the front panel 49 excluding the gap 58 is small, and most of the water poured into the washing tub 61 is from the gap 58.

間隙58からの注水は、図8に示すように、上から見えると扇状に拡がって洗濯槽61内の洗濯物に散布される。間隙58の両端には切欠き溝59があるので、注水は扇状の拡がりが更に拡大して洗濯槽61内の広範囲に散布される。
この洗濯物への散布について、図1、図7、図8、図9に沿い、更に詳しく説明する。
As shown in FIG. 8, the water injection from the gap 58 spreads in a fan shape and is sprayed on the laundry in the washing tub 61 when viewed from above. Since there are notched grooves 59 at both ends of the gap 58, the water injection is further spread in a fan-like spread and is spread over a wide area in the washing tub 61.
The spreading on the laundry will be described in more detail with reference to FIGS. 1, 7, 8, and 9. FIG.

注水が行われる間隙58を備える洗剤投入装置7は、洗濯槽61の上側に位置する。洗濯槽61は貯水槽となる外槽62の内側に回転自在に内置され、遠心脱水に際しては高速で回転する。流体バランサー63が洗濯槽61の上側周囲に設けられ、遠心脱水の高速回転で発生するアンバランス振動は、流体バランサー63で緩和される。   The detergent charging device 7 having the gap 58 where water is poured is located above the washing tub 61. The washing tub 61 is rotatably placed inside an outer tub 62 serving as a water storage tub, and rotates at high speed during centrifugal dehydration. A fluid balancer 63 is provided around the upper side of the washing tub 61, and unbalanced vibration generated by high-speed rotation of centrifugal dehydration is mitigated by the fluid balancer 63.

槽上カバー64は洗濯槽61および流体バランサー63を上から覆うように、外槽62の上側内周に設けられ、洗濯物が外槽62と洗濯槽61の隙間に入らないようにしている。攪拌翼65は洗濯槽61の内底中央に回転自在に設けられる。洗濯やすすぎに際しては、電動機の駆動で攪拌翼65は正逆の攪拌回転が繰り返される。遠心脱水の高速回転では、攪拌翼65は洗濯槽61と一緒に回転する。   The tank upper cover 64 is provided on the upper inner periphery of the outer tub 62 so as to cover the washing tub 61 and the fluid balancer 63 from above, so that the laundry does not enter the gap between the outer tub 62 and the washing tub 61. The stirring blade 65 is rotatably provided at the center of the inner bottom of the washing tub 61. When washing is too easy, the stirring blade 65 is repeatedly rotated in the forward and reverse directions by driving the electric motor. In high speed rotation of centrifugal dewatering, the stirring blade 65 rotates together with the washing tub 61.

さて、洗剤投入装置7の間隙58から吐出する注水(イ)は、図1に示すように、拡がった状態で洗濯槽61内の洗濯物に散布される。図7は散布される注水(イ)の流下する態様を側面から見たところを示している。図8は散布される注水(イ)の流下する態様を真上から見たところを示している。   Now, as shown in FIG. 1, the water injection (I) discharged from the gap | interval 58 of the detergent injection | throwing-in apparatus 7 is spread on the laundry in the washing tub 61 in the expanded state. FIG. 7 shows a state where the sprayed water (i) flows down as seen from the side. FIG. 8 shows a state where the sprayed water (i) flows down as viewed from directly above.

このように注水は扇状の拡がりになるので、背景技術で述べた部分的に偏る場合に比べ広範囲な散布になる。これにより、溶解された高濃度洗剤が洗濯物66に広範囲に散布され、部分的に片寄った注水にならない。このため、洗濯物の洗い斑が生じたり、洗剤成分がすすぎきれず洗濯物に残存したり、あるいは洗剤の種類によっては洗剤焼けを起こす不具合が解消される。   Thus, since water injection becomes fan-shaped, it spreads over a wide range compared with the partial bias described in the background art. As a result, the dissolved high-concentration detergent is spread over the laundry 66 over a wide area, and the water is not partially offset. For this reason, the problem that the washing spot of the laundry occurs, the detergent component cannot be rinsed out and remains in the laundry, or the detergent burn depending on the type of the detergent is solved.

また、この扇状の拡がりになる広範囲の散布は扇の中央では洗濯槽61の中央域まで達する遠方への飛散になっている。これに対し、扇の中央から両端に移ると散布は近いところに後退する。これは扇の吐出流(散布)を生成する間隙58が円弧形状で、中央が高位置に、両端が低位置にした構成による。この散布は球面状になるので見た目に良く、広く拡散した洗濯水の散布になるので洗濯物から跳ねる飛散水も少なく抑えられる。   In addition, the wide-spreading that spreads in a fan-like manner is scattered to the far side reaching the central area of the washing tub 61 at the center of the fan. On the other hand, if it moves to the both ends from the center of a fan, dispersion will recede to the near place. This is because the gap 58 for generating the fan discharge flow (spreading) has an arc shape, the center is at the high position, and both ends are at the low position. Since this spraying is spherical, it looks good, and since it is a spray of widely spread washing water, splashing water splashing from the laundry can be reduced.

図9、図10に沿い、洗濯機の洗い工程から最終脱水工程に亘るフローについて説明する。   The flow from the washing process of the washing machine to the final dehydration process will be described with reference to FIGS.

洗濯は、給水工程、洗い工程、すすぎ1工程、すすぎ2工程、最終排水工程と推移して終了する。   Washing is completed after the transition from a water supply process, a washing process, a rinse process, a rinse process, and a final drainage process.

電源スイッチ121を入れ、スタートボタンを押すと、回転する攪拌翼65で洗濯物66の抵抗が検知される。この抵抗は洗濯物66の量に比例し、布量センサー127により洗濯量が算定される。   When the power switch 121 is turned on and the start button is pressed, the resistance of the laundry 66 is detected by the rotating stirring blade 65. This resistance is proportional to the amount of the laundry 66, and the laundry amount is calculated by the cloth amount sensor 127.

また、洗濯量に応じた洗剤量が算定され、図3、図4に示す洗剤投入室40には、算定された量の洗剤44を投入する。また、洗濯量に応じて洗濯水量が算定され、給水電磁弁132が開放作動して水道水が洗濯水として算定量供給される。   Further, the amount of detergent corresponding to the amount of washing is calculated, and the calculated amount of detergent 44 is put into the detergent charging chamber 40 shown in FIGS. Further, the amount of washing water is calculated according to the amount of washing, and the water supply electromagnetic valve 132 is opened to supply the calculated amount of tap water as washing water.

水道水は洗剤投入装置7を経て洗濯槽61に供給される。洗剤投入装置7にある洗剤が溶かれ洗濯槽61に供給される。この給水工程では途中まで洗濯槽61を回しながら給水をする槽回転給水をする。その後、攪拌翼65を回しながら給水する翼回転給水をする。   The tap water is supplied to the washing tub 61 through the detergent charging device 7. The detergent in the detergent charging device 7 is melted and supplied to the washing tub 61. In this water supply step, tank rotation water supply is performed to supply water while rotating the washing tub 61 halfway. Thereafter, blade rotation water supply is performed while the stirring blade 65 is rotated.

先に布量センサー127で検知した洗濯物66の量に応じたい水量の洗濯水が洗濯槽61内に供給される。水位センサー122の検知水量が予め算定した洗濯水量に達すると、給水電磁弁132が閉成作動して給水が完了する。   The amount of washing water corresponding to the amount of the laundry 66 previously detected by the cloth amount sensor 127 is supplied into the washing tub 61. When the amount of water detected by the water level sensor 122 reaches the amount of washing water calculated in advance, the water supply electromagnetic valve 132 is closed and water supply is completed.

洗い工程に移って洗濯物66の洗いが行われる。DCブラシレスモータ131である洗濯脱水モータが正逆転して洗濯が行われる。この洗い工程では洗濯槽61を止めたままで攪拌翼65だけが正逆転し、洗濯物66を攪拌して洗濯が行われる。   It moves to a washing process and washing of the laundry 66 is performed. The washing / dehydrating motor, which is the DC brushless motor 131, rotates in the forward and reverse directions to perform washing. In this washing step, only the stirring blade 65 rotates forward and backward while the washing tub 61 is stopped, and the laundry 66 is stirred and washed.

洗い工程を終えると、すすぎ1工程に移行する。すすぎ1工程では、まず排水脱水をする。排水脱水は排水電磁弁133を開放作動して洗濯槽61の洗濯水を抜いたら洗濯脱水モータの一方向の脱水回転で洗濯槽61を回す。この脱水回転では900〜1300RPM程度の高速で洗濯槽61を回す。洗濯物66に含まれる水分は遠心脱水されて排水脱水が行われる。   When the washing process is completed, the process proceeds to the first rinsing process. In the first rinsing step, drainage dewatering is first performed. In drainage dewatering, when the drainage electromagnetic valve 133 is opened and the washing water in the washing tub 61 is drained, the washing tub 61 is rotated by one-way dewatering rotation of the washing dewatering motor. In this dehydration rotation, the washing tub 61 is rotated at a high speed of about 900 to 1300 RPM. Water contained in the laundry 66 is centrifugally dehydrated and drainage dewatering is performed.

排水脱水を終えると、脱水すすぎ2工程に移行する。すすぎ2工程では、すすぎ1工程と同様な脱水すすぎが行われる。   When drainage dehydration is completed, the process proceeds to two steps of dehydration and rinsing. In the second rinsing step, dehydration rinsing similar to the first rinsing step is performed.

すすぎ2工程での脱水すすぎを終えたら最終脱水工程に移行する。最終脱水工程ではすすぎ1工程と同様な排水脱水をする。最終脱水工程では洗濯物に残った水分を十分に脱水するので、すすぎ1工程の排水脱水よりも時間を長くする。   When the dehydration and rinsing in the two rinsing steps are completed, the process proceeds to the final dehydration step. In the final dewatering step, drainage dewatering is performed in the same manner as in the first rinsing step. Since the water remaining in the laundry is sufficiently dehydrated in the final dehydration step, the time is made longer than the drainage dehydration in the first rinse step.

さて、前述した給水工程について、図7を引用して更に詳しく述べる。   Now, the water supply process described above will be described in more detail with reference to FIG.

槽回転給水では、洗濯槽61を(100〜150)RPMで回しながら給水する。この槽回転給水量は定格給水量の1/4程度である。すなわち、定格給水量の高さH2が400mmのときは、槽回転給水で供給される水の高さH1は100mmである。100mmの高さまで給水される間に洗剤投入室40内の洗剤44は全部が溶け出し、洗濯槽61の洗濯物66は高濃度洗剤に浸る。   In the tank rotation water supply, water is supplied while the washing tank 61 is rotated at (100 to 150) RPM. This tank rotation water supply amount is about 1/4 of the rated water supply amount. That is, when the height H2 of the rated water supply amount is 400 mm, the height H1 of water supplied by the tank rotation water supply is 100 mm. While the water is supplied to a height of 100 mm, the detergent 44 in the detergent charging chamber 40 is completely dissolved, and the laundry 66 in the washing tub 61 is immersed in the high-concentration detergent.

この槽回転給水には、洗濯槽61が脱水回転に比べてゆっくりした回転で回りながら高濃度洗剤が扇状の拡がりによる広範囲の散布のもとで行われる。これにより、洗濯槽61内の洗濯物66には高濃度洗剤が満遍なく振りかけられることになるので、洗濯物の洗い斑、すすぎ斑で洗濯物に残る洗剤成分、あるいは洗剤焼けをなくすることができる。   In this tank rotation water supply, the high concentration detergent is sprayed over a wide range by fan-shaped spreading while the washing tub 61 rotates at a slower speed than the dewatering rotation. As a result, since the laundry 66 in the washing tub 61 is uniformly sprinkled with the high-concentration detergent, it is possible to eliminate detergent components remaining in the laundry due to washing spots, rinse spots, or detergent burns. .

槽回転給水後に続く翼回転給水ではH2の定格給水量まで給水する間に攪拌翼65の正逆転が繰り返される。高濃度洗剤が薄まるさなかに、攪拌翼65で攪拌するので、洗剤が迅速に満偏なく溶け、洗い工程で汚れを斑無く落とす事ができる。また、この定格給水量まで給水する間に行なう攪拌翼65の正逆転は、洗い工程の予備洗いにもなるので洗浄効果が高まる。   In blade rotation water supply following the tank rotation water supply, forward and reverse rotation of the stirring blade 65 is repeated while supplying water up to the rated water supply amount of H2. As the high-concentration detergent is diluted, it is stirred by the stirring blade 65, so that the detergent can be dissolved quickly and completely, and the dirt can be removed without any spots in the washing process. Further, the forward and reverse rotation of the stirring blade 65 performed while supplying water up to the rated water supply amount also serves as preliminary washing in the washing step, so that the washing effect is enhanced.

1…外枠
2…外枠ベース
3…トップカバー
4…蓋4
5…コントロールパネル
101…制御ユニット部
102…入力回路部
103…出力駆動回路部
105…CPU(中央制御部)
106…タイマー
107…メモリー
108…入力ポート
109…出力ポート
105a…演算部
105b…制御部
107…メモリー
121…電源スイッチ
122…水位センサー
123…ICホール素子
124…蓋開閉センサー
125…全自動選択キー
126…マニアル設定キー
127…布量センサー
131…DCブラシレスモータ
132…給水電磁弁
133…排水電磁弁
134…蓋ロックソレノイド
135…終了ブザー
31…ケース収納枠部
32…注水ケース
33…給水部
34…天板
35…囲壁部
37…導水筒
38…整流体
40…洗剤投入室
41…仕上剤投入室
42…仕切部
48…洗剤流出口
45…給水穴
43…流止ピン
44…洗剤
46…サイホン機構
49…前面パネル
47…取っ手
50…洗濯物出入口
51…出入口
52…口縁枠
53…底部
54…段部
55…庇状の注水案内部
56…隙間
57…注水堰
58…間隙
59…切欠き溝
61…洗濯槽61
63…バランスリング
64…槽カバー
65…攪拌翼
66…洗濯物
DESCRIPTION OF SYMBOLS 1 ... Outer frame 2 ... Outer frame base 3 ... Top cover 4 ... Cover 4
DESCRIPTION OF SYMBOLS 5 ... Control panel 101 ... Control unit part 102 ... Input circuit part 103 ... Output drive circuit part 105 ... CPU (central control part)
DESCRIPTION OF SYMBOLS 106 ... Timer 107 ... Memory 108 ... Input port 109 ... Output port 105a ... Calculation part 105b ... Control part 107 ... Memory 121 ... Power switch 122 ... Water level sensor 123 ... IC Hall element 124 ... Lid opening / closing sensor 125 ... Fully automatic selection key 126 ... Manual setting key 127 ... Cloth amount sensor 131 ... DC brushless motor 132 ... Water supply solenoid valve 133 ... Drainage solenoid valve 134 ... Lid lock solenoid 135 ... End buzzer 31 ... Case storage frame part 32 ... Water injection case 33 ... Water supply part 34 ... Top Plate 35 ... Enclosure 37 ... Water guide tube 38 ... Rectifier 40 ... Detergent input chamber 41 ... Finishing agent input chamber 42 ... Partition 48 ... Detergent outlet 45 ... Water supply hole 43 ... Stop pin 44 ... Detergent 46 ... Siphon mechanism 49 ... front panel 47 ... handle 50 ... laundry entrance 51 ... entrance 52 ... Mouth frame 53 ... Bottom part 54 ... Step part 55 ... Cow-shaped water injection guide part 56 ... Gap 57 ... Water injection weir 58 ... Gap 59 ... Notch groove 61 ... Washing basin 61
63 ... balance ring 64 ... tank cover 65 ... stirring blade 66 ... laundry

Claims (5)

洗濯物を収納して洗う洗濯槽と、前記洗濯槽を回転駆動する電動機と、洗濯水で溶いた洗剤を前記洗濯槽の上側から注いで洗濯槽内の洗濯物に散布する洗剤投入装置を備え、
前記洗剤投入装置は前記洗濯槽の上側に位置し、かつ前記洗濯槽の内側に向けられた洗剤の注口を有し、
前記注口は横方向に延在する隙間状の注口と、前記隙間状の注口の両端位置に奥行き方向に設けられた切欠き溝による注口とを備えて構成されることを特徴とする洗濯機。
A washing tub for storing and washing laundry, an electric motor for rotationally driving the washing tub, and a detergent charging device for pouring a detergent dissolved in washing water from the upper side of the washing tub and spraying it on the laundry in the washing tub Prepared,
The detergent input device is located on the upper side of the washing tub and having a spout of detergent directed inside the washing tub,
The spout includes features and gap-shaped spout extending laterally, the Rukoto is configured to include a spout according cutout groove provided in the depth direction in both end positions of the gap-shaped Note port And a washing machine.
洗濯物を収納して洗う洗濯槽と、前記洗濯槽を回転駆動する電動機と、洗濯水で溶いた洗剤を前記洗濯槽の上側から注いで洗濯槽内の洗濯物に散布する洗剤投入装置を備え、前記洗剤投入装置は、ケース収納枠部と、前記ケース収納枠部に出し入れ自在に収まる注水ケースと、前記洗濯槽の上側で洗濯槽の内側に向けて前記ケース収納枠部に設けられた注水ケースが出し入れされる出入口と、前記洗濯槽の上側に位置し、かつ前記洗濯槽の内側に向けられた洗剤の注口とを有する洗濯機にあって、
前記注口は、前記出入口の口縁下部に出入口の間口方向に延在する隙間状の注口と、前記隙間状の注口の両端位置に奥行き方向に設けられた切欠き溝による注口とを備えて構成されることを特徴とする洗濯機。
A washing tub for storing and washing laundry, an electric motor for rotationally driving the washing tub, and a detergent charging device for pouring a detergent dissolved in the washing water from above the washing tub and spraying it on the laundry in the washing tub The detergent charging device includes a case storage frame, a water injection case that can be freely inserted into and removed from the case storage frame, and a water injection provided in the case storage frame above the laundry tub and toward the inside of the laundry tub. In a washing machine having an entrance through which a case is put in and out , and a detergent spout located above the washing tub and directed to the inside of the washing tub ,
The spout is a gap-shaped spout extending in the mouth direction of the entrance / exit at the lower edge of the entrance / exit, and a spout by a notch groove provided in the depth direction at both ends of the gap-shaped spout. washing machine, characterized in that configured with a.
洗濯物を収納して洗う洗濯槽と、前記洗濯槽を回転駆動する電動機と、洗濯水で溶いた洗剤を前記洗濯槽の上側から注いで洗濯槽内の洗濯物に散布する洗剤投入装置を備え、前記洗剤投入装置は、ケース収納枠部と、前記ケース収納枠部に出し入れ自在に収まる注水ケースと、前記洗濯槽の上側で洗濯槽の内側に向けて前記ケース収納枠部に設けられた注水ケースが出し入れされる出入口と、前記洗濯槽の上側に位置し、かつ前記洗濯槽の内側に向けられた洗剤の注口とを有する洗濯機にあって、
前記出入口は、口縁下部が間口方向の幅に亘って前方に突き出す庇状の注水案内部を有し、
前記注口は、前記庇状の注水案内部の上面と前記注水ケースの下部との間で前記出入口の間口方向に延在する隙間状の注口と、前記隙間状の注口の両端位置に奥行き方向に設けられた切欠き溝による注口とを備えて構成されることを特徴とする洗濯機。
A washing tub for storing and washing laundry, an electric motor for rotationally driving the washing tub, and a detergent charging device for pouring a detergent dissolved in the washing water from above the washing tub and spraying it on the laundry in the washing tub The detergent charging device includes a case storage frame, a water injection case that can be freely inserted into and removed from the case storage frame, and a water injection provided in the case storage frame above the laundry tub and toward the inside of the laundry tub. In a washing machine having an entrance through which a case is put in and out , and a detergent spout located above the washing tub and directed to the inside of the washing tub ,
The entrance / exit has a bowl-shaped water injection guide portion in which the lower edge of the mouth protrudes forward across the width in the frontage direction,
The spout has a gap-shaped spout extending in frontage direction of the entrance opening between the lower portion of the upper surface and the water injection case of the eaves-like water injection guide portion, the both end positions of the gap-shaped Note port A washing machine comprising: a spout formed by a notch groove provided in a depth direction .
請求項1から3の何れかに記載された洗濯機にあって、
前記隙間状の注口は、中央が高位置に、両端が低位置になる円弧形状であることを特徴とする洗濯機。
In the washing machine according to any one of claims 1 to 3,
The washing machine according to claim 1, wherein the gap-shaped spout has an arc shape with a center at a high position and both ends at a low position.
請求項1から4の何れかに記載された洗濯機にあって、
前記洗濯槽の内底に備えた攪拌翼を攪拌回転させて洗濯物を洗う洗い工程の前に洗濯槽に洗濯水を満たす洗い工程では、前段で前記洗濯槽を遠心脱水回転より低速で回しながら前記隙間状の注口から給水をする槽回転給水と、後段で前記攪拌翼を洗い工程の攪拌回転よりも低速で動かしながら前記隙間状の注口から給水をする翼回転給水をすることを特徴とする洗濯機。
In the washing machine according to any one of claims 1 to 4,
In the washing step of filling the washing tub with washing water before the washing step of washing the laundry by stirring and rotating the stirring blade provided in the inner bottom of the washing tub, while rotating the washing tub at a lower speed than the centrifugal dehydration rotation in the previous stage Tank rotation water supply that supplies water from the gap-shaped spout, and blade rotation water supply that supplies water from the gap-shaped spout while moving the stirring blade at a lower speed than the stirring rotation in the washing step in the subsequent stage. And a washing machine.
JP2010284030A 2010-12-21 2010-12-21 Washing machine Expired - Fee Related JP5555616B2 (en)

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