JP5636896B2 - dishwasher - Google Patents
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- JP5636896B2 JP5636896B2 JP2010255106A JP2010255106A JP5636896B2 JP 5636896 B2 JP5636896 B2 JP 5636896B2 JP 2010255106 A JP2010255106 A JP 2010255106A JP 2010255106 A JP2010255106 A JP 2010255106A JP 5636896 B2 JP5636896 B2 JP 5636896B2
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B40/00—Technologies aiming at improving the efficiency of home appliances, e.g. induction cooking or efficient technologies for refrigerators, freezers or dish washers
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Description
本発明は、洗浄水を用いて食器等を洗浄する食器洗い機に関するものである。 The present invention relates to a dishwasher for washing dishes using washing water.
従来、洗浄槽が摺動する引出し式の食器洗い機101において、取り付け高さの異なる複数の洗浄ノズルを備えたものは、図26のように水平に摺動する第1の洗浄槽102と、第1の洗浄槽102上方に設けられるとともに本体に固定される第2の洗浄槽103とから構成される。複数のノズルのうち、最も下方に設けられる下側ノズル104は第1の洗浄槽102内に、他のノズル(上側ノズル105)は第2の洗浄槽103内に設けられる。洗浄水は、洗浄ポンプ106から内部導水路107と背部導水路108を経て上側ノズル105に供給される。内部導水路107と背部導水路108とは、第2の洗浄槽103背面において接続され、背部導水路108は第1の洗浄槽102背面に設けられている。第1の洗浄槽102と第2の洗浄槽103の間には、水受板110が設けられ、扉体109とともに第1の洗浄槽102を引き出した時には、第2の洗浄槽103内の水滴は水受板110で受けることで、水滴が第1の洗浄槽102外の本体下部に落ちない構成になっている(例えば、特許文献1参照)。 Conventionally, in the drawer-type dishwasher 101 in which the washing tank slides, the one having a plurality of washing nozzles with different mounting heights includes a first washing tank 102 that slides horizontally as shown in FIG. The second cleaning tank 103 is provided above one cleaning tank 102 and is fixed to the main body. Among the plurality of nozzles, the lower nozzle 104 provided at the lowermost position is provided in the first cleaning tank 102, and the other nozzles (upper nozzle 105) are provided in the second cleaning tank 103. The cleaning water is supplied from the cleaning pump 106 to the upper nozzle 105 through the internal water conduit 107 and the back water conduit 108. The internal water conduit 107 and the back water conduit 108 are connected on the back surface of the second cleaning tank 103, and the back water conduit 108 is provided on the back surface of the first cleaning tank 102. A water receiving plate 110 is provided between the first cleaning tank 102 and the second cleaning tank 103, and when the first cleaning tank 102 is pulled out together with the door body 109, water droplets in the second cleaning tank 103 are removed. Is received by the water receiving plate 110 so that water droplets do not fall to the lower part of the main body outside the first cleaning tank 102 (see, for example, Patent Document 1).
この構成では、扉体109を摺動させた際に第1の洗浄槽102も連動して摺動するため、少ない動作で被洗浄物の取り出しを行えるため使い勝手が良い。また、取り付け高さの異なる複数のノズルが設けられているため、被洗浄物(食器)に対して高い洗浄性能を有する。 In this configuration, when the door body 109 is slid, the first cleaning tank 102 is also slid in association with each other. Moreover, since the some nozzle from which attachment height differs is provided, it has a high washing | cleaning performance with respect to a to-be-washed | cleaned object (tableware).
しかしながら、このような従来の食器洗い機は、第2の洗浄槽103に設けられた被洗浄物の洗浄時には、上側ノズル105から噴射された洗浄水は、被洗浄物を洗浄した後、水受板110上を通過し、第1の洗浄槽102に排水されるのみで、洗浄槽を通過する循環洗浄水を有効に活用できていなかった。また、各洗浄槽に設置されている被洗浄物をセットするかごには、それぞれ専用の洗浄用ノズルがついており、洗浄に必要な洗浄水が多くなり、節水性に課題があった。また、洗浄ポンプ106によって循環される洗浄水の循環経路が長くなり、循環水量が多く必要となるという課題もあった。 However, in such a conventional dishwasher, when the object to be cleaned provided in the second cleaning tank 103 is cleaned, the cleaning water sprayed from the upper nozzle 105 cleans the object to be cleaned and then receives the water receiving plate. 110, and only drained to the first cleaning tank 102, the circulating cleaning water passing through the cleaning tank could not be used effectively. In addition, the baskets for setting the objects to be cleaned installed in the respective cleaning tanks have their own cleaning nozzles, so that the amount of cleaning water necessary for cleaning increases and there is a problem in water saving. In addition, there is a problem that a circulation path of the cleaning water circulated by the cleaning pump 106 becomes long and a large amount of circulating water is required.
本発明は、前記従来の課題を解決するもので、水受板110上(受板)を通過し、第1の洗浄槽102(下タンク)に排水される循環洗浄水を有効に活用することで節水性に優れ、かつ省エネ、使い勝手の良さも向上し、さらに循環経路を流れる無駄な水量を省け、節水効果が得られる食器洗い機を提供することを目的とする。 The present invention solves the above-described conventional problems, and effectively utilizes the circulating cleaning water that passes over the water receiving plate 110 (receiving plate) and is drained into the first cleaning tank 102 (lower tank). The purpose of the present invention is to provide a dishwasher that is excellent in water-saving, energy-saving and easy-to-use, saves the amount of wasted water flowing through the circulation path, and provides a water-saving effect.
本発明は上記目的を達成するために、被洗浄物を収容する洗浄槽と、略水平方向に移動自在で前記洗浄槽を開閉する扉部と、前記洗浄槽を上タンクと下タンクに分割する受板と、前記上タンク内の上かごに設けた被洗浄物を洗浄する上洗浄ノズルと、前記下タンク内の下かごに設けた被洗浄物を洗浄する下洗浄ノズルと、前記上洗浄ノズルと下洗浄ノズル
に洗浄水を供給する洗浄ポンプと、前記受板と扉部の間に設けられ前記上タンクと下タンクとを連通させる上下流路と、前記上下流路の略下方に位置する前記下タンクに排水口を備えたことで、上タンクからの循環洗浄水は、最短距離で、下タンクの排水口に供給される。
さらに、前記受板は、前記下タンク側の一部に凸状のガイド部を設け、前記ガイド部が前記上下流路の略下方に位置する前記排水口方向に前下がりに傾斜する構成にしたことで、下タンク側の洗浄において、下洗浄ノズルから噴射され、受板の下面にまで達した洗浄水は、下タンクに落下するが、一部は受板の下タンク側に残留し、また、一部は下タンク側の一部に凸状に設けられたガイド部に沿って流れ、排水口の略上方に位置する上下流路に合流する。したがって、下タンク側の洗浄時にも、受板の下タンク側に設けられたガイド部により、受板まで達した下洗浄ノズルの洗浄水も効率よく排水口に回収することで、洗浄運転中の排水口部の水位が高くなり、洗浄ポンプに対するエアがみ余裕度が増し、水位が高くなった分の使用水量を減らすことが可能となり、節水効果を得る。
In order to achieve the above object, the present invention divides the cleaning tank into an upper tank and a lower tank, a cleaning tank that accommodates an object to be cleaned, a door that is movable in a substantially horizontal direction and opens and closes the cleaning tank, and the cleaning tank. A receiving plate, an upper cleaning nozzle for cleaning an object to be cleaned provided in an upper basket in the upper tank, a lower cleaning nozzle for cleaning an object to be cleaned provided in a lower basket in the lower tank, and the upper cleaning nozzle And a cleaning pump that supplies cleaning water to the lower cleaning nozzle, an upper and lower flow path that is provided between the receiving plate and the door and communicates with the upper tank and the lower tank, and is positioned substantially below the upper and lower flow path. Since the lower tank is provided with the drain port, the circulating cleaning water from the upper tank is supplied to the drain port of the lower tank at the shortest distance.
Further, the receiving plate is provided with a convex guide part in a part on the lower tank side, and the guide part is configured to incline forward and downward in the direction of the drain outlet located substantially below the upper and lower flow paths. Therefore, in the cleaning of the lower tank side, the cleaning water sprayed from the lower cleaning nozzle and reaching the lower surface of the receiving plate falls to the lower tank, but some remains on the lower tank side of the receiving plate, and , A part flows along a guide part provided in a convex shape on a part on the lower tank side, and joins an upper and lower flow path located substantially above the drainage port. Therefore, even during cleaning on the lower tank side, the guide part provided on the lower tank side of the receiving plate efficiently collects the cleaning water from the lower cleaning nozzle that has reached the receiving plate to the drain, so that The water level at the drainage port becomes higher, the air stagnation margin for the cleaning pump increases, the amount of water used can be reduced as the water level increases, and a water saving effect is obtained.
本発明の食器洗い機は、受板と扉の間の上下流路の略下方に位置する下タンクに排水口を設けることで、上かごに設けられた被洗浄物を洗浄する際、上タンク内に噴射された洗浄水は、上下流路を通過して排水口に最短距離で流送され、洗浄ポンプに回収されるので、循環経路を流れる無駄な水量を省け、節水効果を得る。 The dishwasher according to the present invention provides a drain port in a lower tank located substantially below an upper and lower flow path between a receiving plate and a door, so that when washing an object to be cleaned provided in an upper basket, Since the wash water sprayed on the water passes through the upper and lower flow paths, is sent to the drain outlet at the shortest distance and is collected by the wash pump, the useless amount of water flowing through the circulation path is saved, and a water saving effect is obtained.
第1の発明は、被洗浄物を収容する洗浄槽と、略水平方向に移動自在で前記洗浄槽を開閉する扉部と、前記洗浄槽を上タンクと下タンクに分割する受板と、前記上タンク内の上かごに設けた被洗浄物を洗浄する上洗浄ノズルと、前記下タンク内の下かごに設けた被洗浄物を洗浄する下洗浄ノズルと、前記上洗浄ノズルと下洗浄ノズルに洗浄水を供給する洗浄ポンプと、前記受板と扉部の間に設けられ前記上タンクと下タンクとを連通させる上下流路と、前記上下流路の略下方に位置する前記下タンクに排水口を備えたことで、上かごに設けられた被洗浄物を洗浄する際、上タンク内に噴射された洗浄水は、上下流路を通過して排水口に最短距離で流送され、洗浄ポンプに回収されるので、循環経路を流れる無駄な水量を省け、節水効果を得る。
さらに、前記受板は、前記下タンク側の一部に凸状のガイド部を設け、前記ガイド部が前記上下流路の略下方に位置する前記排水口方向に前下がりに傾斜する構成にしたことで、下タンク側の洗浄において、下洗浄ノズルから噴射され、受板の下面にまで達した洗浄水は、下タンクに落下するが、一部は受板の下タンク側に残留し、また、一部は下タンク側の一部に凸状に設けられたガイド部に沿って流れ、排水口の略上方に位置する上下流路に合流する。したがって、下タンク側の洗浄時にも、受板の下タンク側に設けられたガイド部により、受板まで達した下洗浄ノズルの洗浄水も効率よく排水口に回収することで、洗浄運転中の排水口部の水位が高くなり、洗浄ポンプに対するエアがみ余裕度が増し、水位が高くなった分の使用水量を減らすことが可能となり、節水効果を得る。
The first invention includes a cleaning tank that accommodates an object to be cleaned, a door that is movable in a substantially horizontal direction to open and close the cleaning tank, a receiving plate that divides the cleaning tank into an upper tank and a lower tank, An upper cleaning nozzle for cleaning an object to be cleaned provided in an upper basket in the upper tank, a lower cleaning nozzle for cleaning an object to be cleaned provided in a lower basket in the lower tank, and the upper cleaning nozzle and the lower cleaning nozzle A cleaning pump that supplies cleaning water, a vertical channel that is provided between the receiving plate and the door and communicates with the upper tank and the lower tank, and drains into the lower tank that is positioned substantially below the vertical channel. By providing the mouth, when washing the object to be washed provided in the upper basket, the washing water sprayed into the upper tank passes through the upper and lower channels and is sent to the drain outlet at the shortest distance for washing. Since it is collected by the pump, it saves the amount of wasted water that flows through the circulation path and achieves water saving
Further, the receiving plate is provided with a convex guide part in a part on the lower tank side, and the guide part is configured to incline forward and downward in the direction of the drain outlet located substantially below the upper and lower flow paths. Therefore, in the cleaning of the lower tank side, the cleaning water sprayed from the lower cleaning nozzle and reaching the lower surface of the receiving plate falls to the lower tank, but some remains on the lower tank side of the receiving plate, and , A part flows along a guide part provided in a convex shape on a part on the lower tank side, and joins an upper and lower flow path located substantially above the drainage port. Therefore, even during cleaning on the lower tank side, the guide part provided on the lower tank side of the receiving plate efficiently collects the cleaning water from the lower cleaning nozzle that has reached the receiving plate to the drain, so that The water level at the drainage port becomes higher, the air stagnation margin for the cleaning pump increases, the amount of water used can be reduced as the water level increases, and a water saving effect is obtained.
第2の発明は、第1の発明において、特に、前記排水口には、被洗浄物から洗浄された残さいを回収する排水フィルタを設け、前記排水フィルタは、前記上下流路の略下方部に位置する前記排水フィルタの一部を閉口する構成としたことで、上タンクの循環洗浄水は、上下流路から直接排水口に回収されると、排水口に滞留している洗浄水や、洗浄槽壁面と衝突し、気泡が発生し、その気泡が排水口から吸い込まれて、大量に洗浄ポンプに供給されると、洗浄ポンプ内でエアがみが起こり、所定の洗浄圧を噴射することができないが、上下流路から直接水流が衝突する近傍位置の排水フィルタの一部を閉口した構成にすることで、水流の衝突による衝撃を減らすことができる。したがって、エアがみが起こる水位を低くすることができるので、使用水量を少なくしても、洗浄水の洗浄圧を確保できるので、節水効果を得る。 According to a second aspect of the present invention, in the first aspect of the invention, in particular, the drain outlet is provided with a drain filter that collects the residue washed from the object to be cleaned, and the drain filter is substantially below the upper and lower flow paths. Since the part of the drainage filter located at the closed position is closed, the circulating cleaning water in the upper tank is recovered directly from the upper and lower flow paths to the drainage outlet, When it collides with the wall surface of the washing tank, bubbles are generated, sucked from the drain, and supplied to the washing pump in large quantities, air is generated in the washing pump and a predetermined washing pressure is injected. However, it is possible to reduce the impact caused by the collision of the water flow by closing a part of the drainage filter in the vicinity where the water flow directly collides from the upper and lower flow paths. Therefore, since the water level at which air leakage occurs can be lowered, the washing pressure of washing water can be ensured even if the amount of water used is reduced, so that a water saving effect is obtained.
第3の発明は、第1又は第2のいずれか一つの発明において、特に、前記受板は、前記下タンク側に傾斜部を設け、前記傾斜部は、前記上下流路の略下方に位置する前記排水口方向に前下がりに傾斜する構成にしたことで、下タンク側の洗浄において、下洗浄ノズルから噴射され、受板の下面にまで達した洗浄水は、下タンクに落下するが、一部は受板の下タンク側に残留し、また、一部は受板の傾斜部に沿って流れ、排水口の略上方に位置する上下流路に合流する。したがって、下タンク側の洗浄時にも、受板の傾斜部により、受板まで達した下洗浄ノズルの洗浄水も効率よく排水口に回収することで、洗浄運転中の排水口部の水位が高くなり、洗浄ポンプに対するエアがみ余裕度が増し、水位が高くなった分の使用水量を減らすことが可能となり、節水効果を得る。 According to a third invention, in any one of the first and second inventions, in particular, the receiving plate is provided with an inclined portion on the lower tank side, and the inclined portion is positioned substantially below the upper and lower flow paths. Since it is configured to incline forward downward in the direction of the drain port, the cleaning water sprayed from the lower cleaning nozzle and reaching the lower surface of the receiving plate in the cleaning on the lower tank side falls to the lower tank, A part remains on the lower tank side of the receiving plate, and a part flows along the inclined portion of the receiving plate and joins the upper and lower flow paths positioned substantially above the drainage port. Therefore, even when cleaning the lower tank side, the wash water of the lower cleaning nozzle that has reached the receiving plate is efficiently collected at the drain port by the inclined portion of the receiving plate, so that the water level of the drain port portion during the cleaning operation is high. As a result, the margin of air leakage to the cleaning pump is increased, and the amount of water used can be reduced as the water level becomes higher, thereby obtaining a water-saving effect.
第4の発明は、第1〜第3のいずれか1つの発明において、特に、前記受板は、前記扉部近傍の端部付近に略上方へ凸状のリブ部を設け、前記リブ部の上流側に開口部を有するもので、上タンクの循環洗浄水は、受板上を流れて、上下流路の入口に達する際、慣性力
により洗浄水は扉部側に向かって、偏って流れる。この流れにより、排水口には、不均一に洗浄水が供給される。したがって、洗浄水の慣性力をリブ部で一旦弱め、流れの上流側に設けた開口部から、上下流路に洗浄水が流送されることで、上下流路の略下方に設けられた排水口には万遍なく均一に洗浄水を供給することができる。また、循環洗浄水は、排水口に最短距離で流送されるので、経路を流れる無駄な水量を省け、節水効果を得る。
According to a fourth invention, in any one of the first to third inventions, in particular, the receiving plate is provided with a rib portion that protrudes substantially upward near an end portion in the vicinity of the door portion. It has an opening on the upstream side, and the circulating cleaning water in the upper tank flows on the receiving plate and reaches the inlet of the upper and lower flow paths, so that the cleaning water flows biased toward the door side due to inertial force. . This flow causes the cleaning water to be supplied unevenly to the drain ports. Accordingly, the inertial force of the cleaning water is once weakened at the rib portion, and the cleaning water is sent to the upper and lower channels from the opening provided on the upstream side of the flow, so that the drainage provided substantially below the upper and lower channels. Washing water can be supplied uniformly to the mouth. In addition, since the circulating cleaning water is sent to the drain outlet at the shortest distance, the useless amount of water flowing through the path is saved, and a water saving effect is obtained.
以下、本発明の実施の形態について、図面を参照しながら説明する。なお、本実施の形態によって本発明が限定されるものではない。 Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the present embodiment.
(実施の形態1)
図1は本発明の実施の形態1の食器洗い機の断面概略図、図2は同食器洗い機の下かごにセットした被洗浄物の他の配置を示した断面概略図、図3は同食器洗い機の扉部を引き出した状態および中段かごの配置を示した断面概略図である。図1〜図3において、キッチン等のキャビネット1に設置された食器洗い機の本体2の内部には、扉部5を前後に引
き出し・押し込むことで開閉可能な開口部を有する洗浄槽3が設けられている。洗浄槽3の内部は、受板9により、上下に上タンク6と下タンク7に分かれており、食器等の被洗浄物4は、上タンク6内の上かご10及び下タンク7内に設けられた下かご11にセットされ、洗浄槽3内に収容する。
(Embodiment 1)
1 is a schematic cross-sectional view of the dishwasher according to Embodiment 1 of the present invention, FIG. 2 is a schematic cross-sectional view showing another arrangement of an object to be cleaned set in the lower basket of the dishwasher, and FIG. 3 is the same dishwasher. It is the cross-sectional schematic which showed the state which pulled out the door part of this, and arrangement | positioning of a middle stage cage | basket. In FIG. 1 to FIG. 3, a washing tub 3 having an opening that can be opened and closed by pulling and pushing the door 5 back and forth is provided in the body 2 of the dishwasher installed in a cabinet 1 such as a kitchen. ing. The inside of the cleaning tank 3 is divided into an upper tank 6 and a lower tank 7 by a receiving plate 9, and an object to be cleaned 4 such as tableware is provided in an upper basket 10 and a lower tank 7 in the upper tank 6. It is set in the lower car 11 and accommodated in the cleaning tank 3.
下タンク7は、扉部5と一体となって構成されており、扉部5を前後に動作すると本体2の側面に設けられた下タンク支持レール8に支持され、扉部5と一体となって前後に移動する。したがって、下かご11は、扉部5の開動作と同時に引き出されることになる。一方、上タンク6は、扉部5の動作とは連動せず、本体2内に留まる。上かご10は、上かご専用レール(図示せず)に支持され、上かご10のみを前後に動作させることができる。これは、図に示したように、下かご11の容量が多く、高さ方向もスペースを取っているため、最初に、下かご11から被洗浄物4をセットできるように配慮しているものである。上かご10が下かご11と連動せず、自在に前後に動作させることができるので、上かご10は、下かご11と略同面積のかごにすることが可能になる。 The lower tank 7 is configured integrally with the door portion 5. When the door portion 5 is moved back and forth, the lower tank 7 is supported by the lower tank support rail 8 provided on the side surface of the main body 2 and is integrated with the door portion 5. To move back and forth. Accordingly, the lower car 11 is pulled out simultaneously with the opening operation of the door portion 5. On the other hand, the upper tank 6 remains in the main body 2 without being interlocked with the operation of the door portion 5. The upper car 10 is supported by an upper car rail (not shown), and only the upper car 10 can be moved back and forth. As shown in the figure, since the capacity of the lower car 11 is large and space is taken in the height direction, consideration is first given so that the article 4 to be cleaned can be set from the lower car 11. It is. Since the upper car 10 is not interlocked with the lower car 11 and can be freely moved back and forth, the upper car 10 can be a car having substantially the same area as the lower car 11.
また、セットする被洗浄物4の数が少なかったり、小さいものであれば、上かご10にセットした方が姿勢を楽にセットできるため、扉部5と上かご10に嵌め合い部を設けて、扉部5の動作と連動させて、上かご10を動作させてもよい。この嵌め合い部は、使用者の使用する形態に合わせて、扉部5の外側から上かご10を連動させるかを選択できるようにしてもよい。 Also, if the number of objects to be cleaned 4 is small or small, it is easier to set the posture in the upper car 10, so a fitting part is provided on the door 5 and the upper car 10, The upper car 10 may be operated in conjunction with the operation of the door 5. The fitting portion may be configured to select whether the upper car 10 is interlocked from the outside of the door portion 5 in accordance with the form used by the user.
上タンク6と下タンク7の左右の側面は、それぞれ側板上14と側板下15で形成され、下タンク7が引き出せるように前後方向に傾斜した構成になっている。また、それぞれ背面は、背板上17と背板下18で構成され、扉部5を動作させて、下タンク7を洗浄槽3内に収納した時に、上タンク6と下タンク7の左右の側面および背面は勘合部16で勘合する。勘合部16は、ゴムやエラストマー等弾性体のパッキンや、断面をラビリンス構造にして、外部に洗浄水が漏れないようにしている。 The left and right side surfaces of the upper tank 6 and the lower tank 7 are formed by an upper side plate 14 and a lower side plate 15, respectively, and are inclined in the front-rear direction so that the lower tank 7 can be pulled out. Each of the rear surfaces is composed of an upper back plate 17 and a lower back plate 18. When the door 5 is operated and the lower tank 7 is stored in the cleaning tank 3, the left and right sides of the upper tank 6 and the lower tank 7 are left and right. The side surface and the back surface are fitted by the fitting unit 16. The fitting part 16 has a labyrinth structure with an elastic packing such as rubber and elastomer, and prevents the washing water from leaking outside.
下タンク7の側面下15は、洗浄槽3の高さと比べて、略半分以下の高さで形成しているので、使用者は、側面からも下かご11に被洗浄物4をセットでき使い勝手がよい。給水弁(図示せず)は、制御部により開閉され、洗浄槽3に洗浄水として水道水を供給する。 Since the lower side 15 of the side surface of the lower tank 7 is formed with a height substantially less than half the height of the cleaning tank 3, the user can set the object to be cleaned 4 on the lower basket 11 from the side and is easy to use. Is good. A water supply valve (not shown) is opened and closed by the control unit, and supplies tap water as cleaning water to the cleaning tank 3.
洗浄ポンプ21は、洗浄槽3の底面外壁に密着して取付けられ、洗浄槽3内の底部に貯留された洗浄水を加圧して、洗浄ポンプ21の吐出口と連通している上洗浄流路29を介して上洗浄ノズル12へ、下洗浄流路30を介して下洗浄ノズル13に供給し、上洗浄ノズル12上の複数の上洗浄ノズル噴射口34と下洗浄ノズル13上の複数の下洗浄ノズル噴射口35から洗浄水を噴射することで被洗浄物4の洗浄を行なう。被洗浄物4に噴射される洗浄水には、被洗浄物を洗浄するための洗浄液と、被洗浄物4をすすぐためのすすぎ水とが含まれる。 The cleaning pump 21 is attached in close contact with the bottom wall of the cleaning tank 3, pressurizes cleaning water stored in the bottom of the cleaning tank 3, and communicates with the discharge port of the cleaning pump 21. 29 to the upper cleaning nozzle 12 via the lower cleaning flow path 30 and to the lower cleaning nozzle 13, and a plurality of upper cleaning nozzle jets 34 on the upper cleaning nozzle 12 and a plurality of lower on the lower cleaning nozzle 13. The cleaning object 4 is cleaned by spraying cleaning water from the cleaning nozzle injection port 35. The cleaning water sprayed onto the object to be cleaned 4 includes a cleaning liquid for cleaning the object to be cleaned and rinse water for rinsing the object to be cleaned 4.
上洗浄ノズル12と下洗浄ノズル13は、それぞれ上洗浄流路29と下洗浄流路30に設けられた軸受勘合部に嵌め込まれ、回転自在に支持されながら、軸受勘合部で洗浄水が水漏れしないように、各洗浄ノズルと軸受勘合部は、平面同士で擦りあいながらシール構成を確保している。 The upper cleaning nozzle 12 and the lower cleaning nozzle 13 are fitted in bearing fitting portions provided in the upper cleaning flow passage 29 and the lower cleaning flow passage 30, respectively, and the washing water leaks at the bearing fitting portion while being rotatably supported. In order to avoid this, each cleaning nozzle and the bearing fitting portion ensure a seal configuration while rubbing between flat surfaces.
上洗浄流路29は、上タンク6に設けられている上洗浄流路A31と、下タンク7に設けられている上洗浄流路B32から構成されている。下タンク7を洗浄槽3内に収納した際、洗浄槽3の背部で上洗浄流路A31と上洗浄流路B32は、下タンク7内の接続部40で接続される。接続部40は、ゴムやエラストマー等弾性体のパッキンや、断面をラビ
リンス構造にして、下タンク7に洗浄水が漏れないようにしている。
The upper cleaning flow path 29 includes an upper cleaning flow path A31 provided in the upper tank 6 and an upper cleaning flow path B32 provided in the lower tank 7. When the lower tank 7 is stored in the cleaning tank 3, the upper cleaning flow path A 31 and the upper cleaning flow path B 32 are connected to each other at the connection portion 40 in the lower tank 7. The connecting portion 40 has a labyrinth structure with an elastic packing such as rubber and elastomer, and the washing water does not leak into the lower tank 7.
上洗浄流路A31には、弁体33が内挿されており、扉部5を開口した際に、流路の接続が外れても、上洗浄ノズル12や上洗浄流路A31の洗浄水が逆流して漏れないようにしている。更に、接続部40近傍には、流路水受部20を設けて、洗浄槽3外部に洗浄水が漏れない構成になっている。流路水受部20で回収した洗浄水は、下タンク7との連通部を通して、下タンク7に戻すようにしてもよい。 The valve body 33 is inserted in the upper cleaning flow path A31, and the cleaning water in the upper cleaning nozzle 12 and the upper cleaning flow path A31 remains even if the flow path is disconnected when the door 5 is opened. It is prevented from leaking backflow. Further, a flow path water receiving portion 20 is provided in the vicinity of the connecting portion 40 so that the cleaning water does not leak outside the cleaning tank 3. The washing water collected by the channel water receiving unit 20 may be returned to the lower tank 7 through a communication part with the lower tank 7.
受板9は、上面が扉部5方向に前下がりに傾斜しており、前端部と扉部5との間に上下流路23を設けて上タンク6と下タンク7とを連通させている。受板9は、下タンク7を引き出した時、上タンク6の被洗浄物4等に残った洗浄水を洗浄槽3外に漏れないように構成されており、上下流路23は、扉部5を最大限引き出しても、下タンク7の背部に設けた本体水受部19より前方に位置する、すなわち本体水受部19とオーバラップするようになっており、上タンク6から滴下する残水は、本体水受部19によって、必ず、下タンク7に回収される。上下流路23には、図示したように、中段かご24を受板9より下部にくるように設けている。 The upper surface of the receiving plate 9 is inclined downward in the direction of the door 5, and the upper tank 6 and the lower tank 7 are communicated by providing an upper and lower flow path 23 between the front end and the door 5. . The receiving plate 9 is configured such that when the lower tank 7 is pulled out, the cleaning water remaining in the article 4 to be cleaned of the upper tank 6 does not leak out of the cleaning tank 3. 5 is pulled out to the maximum, it is located in front of the main body water receiving part 19 provided on the back of the lower tank 7, that is, overlaps with the main body water receiving part 19, and the remaining dripping from the upper tank 6 The water is always collected in the lower tank 7 by the main body water receiver 19. As shown in the figure, the upper and lower flow paths 23 are provided with a middle car 24 positioned below the receiving plate 9.
また、洗浄槽3の底部には、洗浄ポンプ21及び排水ポンプ22の吸い込み側と連通した排水口25を有し、この排水口25には残さいを収集する排水フィルタ26と、排水フィルタ26よりも細かい開孔部を持つ残さいフィルタ27を備えている。残さいフィルタ27は、着脱自在で、取り外して収集した残さいを廃棄することができるようになっている。 Further, the bottom of the cleaning tank 3 has a drain port 25 communicating with the suction side of the cleaning pump 21 and the drain pump 22. The drain port 25 has a drain filter 26 for collecting residue and a drain filter 26. A residual filter 27 having a fine aperture is provided. The residue filter 27 is detachable, and the residue collected after removal can be discarded.
また、洗浄水の加熱用の加熱部28が洗浄槽3の底面上に設けられ、洗浄槽3内の洗浄水の温度を検知する温度センサ(図示せず)が洗浄槽3の底面外壁に設けられている。 A heating unit 28 for heating the cleaning water is provided on the bottom surface of the cleaning tank 3, and a temperature sensor (not shown) for detecting the temperature of the cleaning water in the cleaning tank 3 is provided on the bottom outer wall of the cleaning tank 3. It has been.
乾燥部36は、下タンク7に設けられており、送風部37と乾燥経路38と送風口39からなり、フィルタ(図示せず)を通して、吸い込んだ外気を送風口39から洗浄槽3内に吹き出し、加熱部28を通して温風に変え、上タンク6に設けられた排気口(図示せず)から機外に排気する。 The drying unit 36 is provided in the lower tank 7, and includes a blowing unit 37, a drying path 38, and a blowing port 39. The sucked outside air is blown out from the blowing port 39 into the cleaning tank 3 through a filter (not shown). Then, the air is changed to warm air through the heating unit 28 and exhausted to the outside from an exhaust port (not shown) provided in the upper tank 6.
上記構成において、まず、食器洗い機の基本動作について説明する。食器等の被洗浄物4を上かご10と下かご11と中段かご24にセットして洗浄槽3に収納し、洗剤を投入した後、扉部5を押し込んで扉部5により食器洗い機の本体2の開口部を閉塞し、運転を開始する。被洗浄物4の汚れを落とす洗浄工程、付着した洗剤や残さいを流すすすぎ工程、そして被洗浄物4に付着している水滴を乾燥させる乾燥工程の順に実行する。 In the above configuration, first, the basic operation of the dishwasher will be described. The object to be cleaned 4 such as tableware is set in the upper basket 10, the lower basket 11 and the middle basket 24, stored in the washing tub 3, and after the detergent is poured in, the door 5 is pushed in and the door 5 is used for the main body of the dishwasher The opening of 2 is closed and the operation is started. A cleaning process for removing dirt on the object to be cleaned 4, a rinsing process for pouring the attached detergent and residue, and a drying process for drying water droplets adhering to the object 4 to be cleaned are performed in this order.
まず、給水弁を動作して所定量の水道水を洗浄水として洗浄槽3内に給水し、つづいて洗浄ポンプ21により洗浄水を加圧し、上洗浄ノズル12の上洗浄ノズル噴射口34と下洗浄ノズル13の下洗浄ノズル噴射口35から洗浄水を噴射する。下洗浄ノズル13は、下かご11と中段かご24にセットされた被洗浄物4に向けて、上洗浄ノズル12は、上かご10にセットされた被洗浄物4に向けてそれぞれ洗浄水を噴射する。この際、洗浄槽3内の底面上に設けられたシーズヒータ等の加熱部28は通電されており、洗浄水を加熱しながら洗浄工程は行われる。また、洗浄槽3の底面外壁に設けられたサーミスタ等の温度センサは洗浄槽3の洗浄水の温度を検知しており、所定温度以上になると加熱部28への通電を停止するように制御される。 First, the water supply valve is operated to supply a predetermined amount of tap water as cleaning water into the cleaning tank 3, and then the cleaning water is pressurized by the cleaning pump 21, and the upper cleaning nozzle injection port 34 and the lower cleaning nozzle 12. Cleaning water is sprayed from the lower cleaning nozzle injection port 35 of the cleaning nozzle 13. The lower cleaning nozzle 13 injects cleaning water toward the object to be cleaned 4 set in the lower car 11 and the middle car 24, and the upper cleaning nozzle 12 injects cleaning water toward the object to be cleaned 4 set in the upper car 10, respectively. To do. At this time, the heating unit 28 such as a sheathed heater provided on the bottom surface in the cleaning tank 3 is energized, and the cleaning process is performed while heating the cleaning water. Further, a temperature sensor such as a thermistor provided on the bottom outer wall of the cleaning tank 3 detects the temperature of the cleaning water in the cleaning tank 3, and is controlled to stop energization to the heating unit 28 when the temperature exceeds a predetermined temperature. The
下タンク7側の洗浄水の循環は、下洗浄ノズル13から噴射された後、下かご11と上下流路23に位置する中段かご24に設けられた被洗浄物4を洗浄もしくはすすぎ、排水口25に設置された残さいフィルタ27と排水フィルタ26を通過し、洗浄ポンプ21に
吸いこまれ、洗浄ポンプ21より下洗浄流路30を通過し、下タンク7の内底部に設けられた下洗浄ノズル13へ供給される。この際、被洗浄物4から脱落した残さい等は、洗浄水とともに残さいフィルタ27に流入し、フィルタを通過できない大きさの残さいは残さいフィルタ27に捕集される。下タンク7と上タンク6は受板9で仕切られているので、下洗浄ノズル13から噴射された洗浄水は、ほとんど上タンク6に流れない。
The circulation of the wash water on the lower tank 7 side is performed by washing or rinsing the object 4 to be washed provided in the lower car 11 and the middle car 24 located in the upper and lower flow path 23 after being sprayed from the lower washing nozzle 13. 25 passes through the residual filter 27 and the drainage filter 26 installed in 25, is sucked into the cleaning pump 21, passes through the lower cleaning flow path 30 from the cleaning pump 21, and is provided at the lower bottom of the lower tank 7. 13 is supplied. At this time, the residue or the like dropped off from the article 4 to be cleaned flows into the residue filter 27 together with the cleaning water, and the residue having a size that cannot pass through the filter is collected by the residue filter 27. Since the lower tank 7 and the upper tank 6 are partitioned by the receiving plate 9, the cleaning water sprayed from the lower cleaning nozzle 13 hardly flows into the upper tank 6.
また、上タンク6側の洗浄水の循環は、洗浄ポンプ21より加圧された洗浄水が、上洗浄流路29を通過し、上タンク6に設けられた上洗浄ノズル12に供給される。そして、上洗浄ノズル12から噴射された後、上かご10に設けられた被洗浄物4を洗浄もしくはすすぎ、受板9と扉部5の間に設けられた上下流路23を通過して、中段かご24に設けられた被洗浄物4を洗浄もしくはすすぎ、排水口25に設置された残さいフィルタ27と排水フィルタ26を通過し、洗浄ポンプ21に吸いこまれる。上タンク6の洗浄水の循環において、下タンク7に設置されている被洗浄物4には、洗浄水がほとんど当たらない構成になっている。 In the circulation of the cleaning water on the upper tank 6 side, the cleaning water pressurized by the cleaning pump 21 passes through the upper cleaning channel 29 and is supplied to the upper cleaning nozzle 12 provided in the upper tank 6. Then, after being sprayed from the upper cleaning nozzle 12, the object 4 to be cleaned provided on the upper car 10 is cleaned or rinsed, passing through the up-and-down flow path 23 provided between the receiving plate 9 and the door portion 5, The object 4 to be cleaned provided in the middle basket 24 is cleaned or rinsed, passes through the residual filter 27 and the drain filter 26 installed in the drain port 25, and is sucked into the cleaning pump 21. In the circulation of the cleaning water in the upper tank 6, the cleaning object 4 installed in the lower tank 7 is configured so that the cleaning water hardly hits it.
また、上洗浄ノズル12は、図1では、受板9と上かご10の間に設けられているが、上タンク6と上かご10の上方に、上洗浄ノズル噴射口34を略下に向けて設置してもよい。また、上洗浄ノズル12と下洗浄ノズル13は、上洗浄ノズル噴射口34と下洗浄ノズル噴射口35を回転方向とは反対方向に噴射するように設けているが、多数の噴射口を設けて、それぞれのノズルは、回転しないで、洗浄水を噴射するものでもよい。 Further, in FIG. 1, the upper cleaning nozzle 12 is provided between the receiving plate 9 and the upper basket 10, but the upper cleaning nozzle injection port 34 is directed substantially downward above the upper tank 6 and the upper basket 10. May be installed. The upper cleaning nozzle 12 and the lower cleaning nozzle 13 are provided so as to inject the upper cleaning nozzle injection port 34 and the lower cleaning nozzle injection port 35 in the direction opposite to the rotation direction. Each of the nozzles may spray the cleaning water without rotating.
所定時間の洗浄工程を終えると、汚れを含む洗浄水は排水ポンプ22によって機外に排出され、給水弁によって新たに洗浄水が供給される。次いで、洗浄ポンプ21を運転し、上洗浄ノズル12や下洗浄ノズル13から再び洗浄水を噴射して、洗剤や残さい等の付着した被洗浄物4のすすぎを行う。所定時間運転した後、洗浄水を排水ポンプ22により排出し、再び洗浄水を供給するという動作を繰り返し、このすすぎ工程は連続して3回程度行う。最後に、洗浄水を排水ポンプ22により食器洗い機の本体2外に排出して、すすぎ工程は終了する。 When the cleaning process for a predetermined time is completed, the cleaning water containing dirt is discharged out of the machine by the drain pump 22 and the cleaning water is newly supplied by the water supply valve. Next, the cleaning pump 21 is operated, and cleaning water is sprayed again from the upper cleaning nozzle 12 and the lower cleaning nozzle 13 to rinse the object 4 to be cleaned such as detergent and residue. After the operation for a predetermined time, the operation of discharging the washing water by the drain pump 22 and supplying the washing water again is repeated, and this rinsing process is continuously performed about three times. Finally, the washing water is discharged out of the main body 2 of the dishwasher by the drain pump 22, and the rinsing process is completed.
つづいて乾燥工程を行う。乾燥工程は、乾燥部36内に設けられた回転ファン等の送風部37をモータで駆動することで、外気と接するフィルタ(図示せず)から吸い込まれた外気は、乾燥経路38を経て、送風口39より、下タンク7内に送風される。その際、送風された外気は、通電された加熱部28を通過することで、温風となる。温風は下タンク7内を通過した後、上下流路23を通過して、上タンク6内に送風される。この際、中段かご24に集中的に温風が通過するので、中段かご24の乾燥性能も向上する。上下流路23から上タンク6に達した温風は、上かご10に設置された被洗浄物4を乾燥し、上タンク6に設けられた排気口(図示せず)から、食器洗い機の本体2外へ排気される。所定時間運転した後、乾燥工程を終了し、運転を終了する。 Subsequently, a drying process is performed. In the drying process, the air blowing unit 37 such as a rotary fan provided in the drying unit 36 is driven by a motor, so that the outside air sucked from a filter (not shown) in contact with the outside air is blown through the drying path 38. Air is blown into the lower tank 7 through the port 39. At that time, the blown outside air passes through the energized heating unit 28 and becomes warm air. The warm air passes through the lower tank 7 and then passes through the upper and lower flow paths 23 and is blown into the upper tank 6. At this time, since warm air intensively passes through the middle basket 24, the drying performance of the middle basket 24 is also improved. The warm air that has reached the upper tank 6 from the upper and lower flow paths 23 dries the object to be cleaned 4 installed in the upper basket 10, and the main body of the dishwasher from an exhaust port (not shown) provided in the upper tank 6. 2 Exhaust outside. After operating for a predetermined time, the drying process is terminated and the operation is terminated.
従来スプーンやフォークをセットするカトラリーかごを含めて、かごに収納した被洗浄物を洗うのに専用ノズルが必要であったが、受板9と扉部5の間の上下流路23に中段かご24を設けることで、上かご10に設けられた被洗浄物4を洗浄する際、上タンク6の洗浄水は、洗浄ポンプ21に回収されるため、上下流路23を通過する。したがって、中段かご24に設置された被洗浄物4は、回収される洗浄水に常にさらされることで、洗浄性能が向上する。循環洗浄水を洗浄に利用することで、無駄な水量を省け、節水効果を得る。 Conventionally, a special nozzle was required to wash the items to be cleaned, including a cutlery basket with a spoon and fork set, but the upper and lower flow passages 23 between the receiving plate 9 and the door 5 have a middle basket. By providing 24, the cleaning water in the upper tank 6 is collected by the cleaning pump 21 when the object 4 to be cleaned provided in the upper car 10 is cleaned, and therefore passes through the upper and lower flow paths 23. Therefore, the cleaning performance is improved by constantly exposing the article 4 to be cleaned installed in the middle basket 24 to the recovered cleaning water. By using the circulating wash water for washing, the amount of wasted water is saved and the water saving effect is obtained.
また、上タンク6と下タンク7の洗浄循環経路は、それぞれ独立した形態になっているため、上洗浄流路29と下洗浄流路30の流路を切り換える弁体を洗浄ポンプ21の吐出側に設ければ、上タンク6と下タンク7をそれぞれ別々に運転することができ、使用者は
、被洗浄物4の数が少ない場合、どちらかのタンクのみを選択して運転することで、無駄な水量を省け、節水及び省エネ効果を得るとともに、使い勝手も向上するものである。
Further, since the cleaning circulation paths of the upper tank 6 and the lower tank 7 are independent from each other, a valve body for switching the upper cleaning flow path 29 and the lower cleaning flow path 30 is provided on the discharge side of the cleaning pump 21. If the number of objects to be cleaned 4 is small, the user can select and operate only one of the tanks. In addition to saving the amount of wasted water, it can save water and save energy, and improve usability.
また、図2に示したように、下かご11は、上方から見た時の投影面積の一部が上下流路23の下方に位置するように設けてもよい。このように構成することによって、下かご11の一部に設置された被洗浄物4の洗浄にも、上かご10の循環洗浄水を利用できる。 In addition, as shown in FIG. 2, the lower car 11 may be provided so that a part of the projected area when viewed from above is located below the upper and lower flow paths 23. By configuring in this way, the circulating wash water of the upper car 10 can also be used for washing the article 4 to be cleaned installed in a part of the lower car 11.
また、下かご11の洗浄は、回転する下洗浄ノズル13で行っているため、ノズルの軌跡上、下かご11の四隅に設置された被洗浄物4に供給される洗浄水は、下洗浄ノズル13から噴射される噴射角度を略垂直上方向から大きく、水平方向にとる必要があった。しかし、略垂直方向に高い被洗浄物4を洗浄する場合、洗浄水の噴射角度が大きいと、被洗浄物4の上部まで、洗浄水が届きにくいので、下洗浄ノズル13からの洗浄水の噴射流量や噴射圧を大きくするか、下かご11の四隅には、略垂直方向に低い被洗浄物4を設置できる下かご11の配置形状としていため、無駄な水量やエネルギーを使ったり、被洗浄物4のセットも限定されていた。 Further, since the lower basket 11 is cleaned by the rotating lower cleaning nozzle 13, the cleaning water supplied to the article 4 to be cleaned installed at the four corners of the lower basket 11 on the locus of the nozzle is the lower cleaning nozzle. It was necessary to increase the injection angle from 13 from the substantially vertical upward direction to the horizontal direction. However, when cleaning an object 4 to be cleaned that is high in a substantially vertical direction, if the injection angle of the cleaning water is large, it is difficult for the cleaning water to reach the top of the object 4 to be cleaned. Since the flow shape and the injection pressure are increased or the lower car 11 is arranged at the four corners of the lower car 11 so that the object 4 to be cleaned can be placed in a substantially vertical direction, wasteful water and energy are used, The set of 4 was also limited.
したがって、上下流路23の下方に下かご11の投影面積の一部を設ける構成、すなわち上下流路23の直下に下かご11の一部を位置させる構成にすることで、この位置にセットされる被洗浄物4には、上方からも洗浄水が供給されるので、洗浄槽3の前方に略垂直方向に高い被洗浄物4を設置することが可能になり、設置できる被洗浄物4の種類が増え、使い勝手が向上するものである。 Therefore, a configuration in which a part of the projected area of the lower car 11 is provided below the upper and lower flow paths 23, that is, a structure in which a part of the lower car 11 is positioned immediately below the upper and lower flow paths 23 is set at this position. Since the cleaning water is also supplied to the object 4 to be cleaned from above, it is possible to install a high object 4 to be cleaned in a substantially vertical direction in front of the cleaning tank 3. The number of types will increase and usability will improve.
また、下かご11の被洗浄物4の配置を洗浄槽3の後方の隅には、略垂直方向に低い被洗浄物4を設置する下かご11の構成にすることで、従来よりも、下洗浄ノズル13からの洗浄水の噴射流量や噴射圧を小さくでき、節水及び省エネ効果を得ることができるとともに、被洗浄物4の下かご11へのセット位置の制約も無くすることができる。 Further, the arrangement of the object 4 to be cleaned in the lower basket 11 is configured such that the object 4 to be cleaned is installed in the rear corner of the cleaning tank 3 so that the object 4 to be cleaned is arranged in a substantially vertical direction. The injection flow rate and the injection pressure of the cleaning water from the cleaning nozzle 13 can be reduced, water saving and energy saving effects can be obtained, and the restriction of the set position on the lower basket 11 of the object to be cleaned 4 can be eliminated.
中段かご24は、上かご10に設ける構成と扉部5に設ける構成とが可能であり、扉部5を押し込んだ使用状態で上下流路23に位置していれば洗浄性能の点では同等であるが、上かご10に設ける構成と扉部5に設ける構成とで、それぞれ以下のような特有の効果がある。 The middle car 24 can be configured to be provided on the upper car 10 or the door part 5, and is equivalent in terms of cleaning performance as long as it is positioned in the upper and lower flow paths 23 in a state where the door part 5 is pushed in. However, the configuration provided in the upper car 10 and the configuration provided in the door 5 have the following specific effects.
図3に示したように、中段かご24を上かご10の前方部に着脱自在に設けた構成では、中段かご24は、上かご10と連動するため、上かご10と同時に被洗浄物4のセットが可能となる上に、上かご10とともに洗浄槽3内に収納できるため、下かご11に被洗浄物4をセットする際には、セット性が向上し、使い勝手がよくなるものである。 As shown in FIG. 3, in the configuration in which the middle car 24 is detachably provided at the front portion of the upper car 10, the middle car 24 is interlocked with the upper car 10, so In addition to being able to be set, it can be stored in the cleaning tank 3 together with the upper car 10, so that when the article 4 to be cleaned is set in the lower car 11, setability is improved and usability is improved.
また、上かご10と中段かご24とは、着脱自在に勘合されているため、下かご11に設置される被洗浄物4の高さによっては、中段かご24の設置位置を変更でき、設置可能な被洗浄物4のバリエーションが広がり、更に、使い勝手がよくなるものである。 In addition, since the upper car 10 and the middle car 24 are detachably fitted, the installation position of the middle car 24 can be changed depending on the height of the article 4 to be cleaned installed in the lower car 11. As a result, the variation of the object to be cleaned 4 is widened and the usability is improved.
また、中段かご24は、上かご10に設けられているので、使用者は、楽な姿勢で被洗浄物4をセットできることが可能となる。 In addition, since the middle car 24 is provided in the upper car 10, the user can set the article 4 to be cleaned with an easy posture.
また、中段かご24を着脱自在にすることで、中段かご24の清掃等のメンテナンス性も向上し、使い勝手も向上するものである。 Further, by making the middle basket 24 detachable, the maintainability such as cleaning of the middle basket 24 is improved, and the usability is also improved.
図4で示したように、中段かご24を扉部5に設けた構成では、中段かご24は、扉部5による洗浄槽3の開閉動作と常に連動するので、使用者が扉部5を動作して、洗浄槽3を開口すると同時に中段かご24に被洗浄物4をセットすることが可能となる。したがっ
て、洗浄槽3すべてを引き出さなくてもよく、最低限の動作で、中段かご24に被洗浄物4をセットすることができ、使い勝手がよくなるものである。
As shown in FIG. 4, in the configuration in which the middle basket 24 is provided in the door portion 5, the middle basket 24 is always interlocked with the opening / closing operation of the cleaning tank 3 by the door portion 5, so that the user operates the door portion 5. As a result, the object to be cleaned 4 can be set in the middle car 24 at the same time as the cleaning tank 3 is opened. Therefore, it is not necessary to draw out all the cleaning tank 3, and the object 4 to be cleaned can be set in the middle basket 24 with a minimum operation, which improves usability.
また、シーズヒータ等の加熱部28は実効部を直線部28aが長いU字状に形成し、図1では直線部28aが洗浄槽3の水平前後方向になるように配置してあるが、図5に示したように、直線部28aが洗浄槽3の水平左右方向になるように配置して、上下流路23の中段かご24の略直下方、下タンク7部に加熱部28を設けてもよい。このように構成すれば、循環洗浄水は、加熱部28を通過するので、熱交換効率が上がり、昇温時間が早まる。したがって、洗浄水は、洗浄に必要な所定温度に早く到達でき、洗浄性能が向上することで、洗浄時間を短縮することができる。また、上洗浄流路29と下洗浄流路30の流路を切り換える弁体あるいは分水部を設ける構成で、上下タンクを分け洗いする場合に、上タンク6内に洗浄水を供給する洗浄のみでも同様の効果が得られるものである。 In addition, the heating part 28 such as a sheathed heater has an effective part formed in a U shape with a long straight part 28a, and in FIG. 1, the straight part 28a is arranged in the horizontal front-rear direction of the cleaning tank 3. As shown in FIG. 5, the straight portion 28 a is arranged so as to be in the horizontal left and right direction of the cleaning tank 3, and the heating unit 28 is provided in the lower tank 7 portion substantially directly below the middle basket 24 of the upper and lower flow path 23. Also good. If comprised in this way, since circulating washing water passes the heating part 28, heat exchange efficiency will rise and temperature rising time will be shortened. Therefore, the cleaning water can quickly reach the predetermined temperature required for cleaning, and the cleaning performance can be improved, so that the cleaning time can be shortened. Further, when the upper and lower tanks are separately washed with a configuration in which a valve body or a water diversion part for switching the upper washing flow path 29 and the lower washing flow path 30 is provided, only washing for supplying washing water into the upper tank 6 is performed. However, the same effect can be obtained.
また、乾燥工程時には、温風による乾燥効果に加え、輻射熱による乾燥効果も高効率に得られる。使用者が少量の被洗浄物4を速やかに乾燥したい場合には、中段かご24を利用すればよく、使い勝手が向上するものである。 Moreover, in the drying process, in addition to the drying effect by hot air, the drying effect by radiant heat can be obtained with high efficiency. If the user wants to dry a small amount of the object to be cleaned 4 quickly, the middle basket 24 may be used, which improves usability.
また、図6に示したように、受板9側面と洗浄槽3との間に第2の上下流路41を設けてもよい。このように構成すれば、下かご11と第2の上下流路41にまな板等の大きな被洗浄物4をセットすることが可能となり、そうした場合には、循環される洗浄水の一部が通過するので、第2の上下流路41により、洗浄性能の向上に寄与するとともに、循環洗浄水を洗浄に利用することで、無駄な水量を省け、節水効果を得る。 Further, as shown in FIG. 6, a second upper and lower flow path 41 may be provided between the side surface of the receiving plate 9 and the cleaning tank 3. If comprised in this way, it will become possible to set the big to-be-washed objects 4, such as a cutting board, in the lower cage | basket | car 11 and the 2nd up-and-down flow path 41, In such a case, a part of circulating wash water passes. Therefore, the second up-and-down flow path 41 contributes to the improvement of the cleaning performance, and by using the circulating cleaning water for cleaning, a wasteful amount of water is saved and a water saving effect is obtained.
また、受板9は、上面を扉部5方向に前下がりに傾斜させて上タンク6内で噴射された洗浄水を上下流路23に導き、下タンク7内に回収循環させる。一方、下面は、図1に示したように全体を略水平な面で構成してもよいが、図7に示したように、扉部5方向に前下がりに傾斜する受板傾斜部42(傾斜部)を設け、受板傾斜部42は、上下流路23の中段かご24方向に傾斜する構成にしてもよい。このように構成すれば、下タンク7側の洗浄において、下洗浄ノズル13から噴射され、受板9の下面にまで達した洗浄水は、受板9の下タンク7側に一部残留しかつ、受板9の受板傾斜部42に沿って流れ、上下流路23に導かれて合流する。したがって、下タンク7側の洗浄時にも、受板傾斜部42によって中段かご24に洗浄水の一部を導いて供給できるため、洗浄性能の向上に寄与でき、節水を図れる。 Further, the receiving plate 9 causes the upper surface to incline forward downward toward the door portion 5, guides the wash water sprayed in the upper tank 6 to the upper and lower flow paths 23, and collects and circulates it in the lower tank 7. On the other hand, the lower surface may be configured as a substantially horizontal surface as shown in FIG. 1, but as shown in FIG. 7, a receiving plate inclined portion 42 (inclined forwardly toward the door portion 5). An inclined portion) may be provided, and the receiving plate inclined portion 42 may be configured to be inclined in the direction of the middle car 24 of the upper and lower flow path 23. With this configuration, in the cleaning on the lower tank 7 side, the cleaning water sprayed from the lower cleaning nozzle 13 and reaching the lower surface of the receiving plate 9 partially remains on the lower tank 7 side of the receiving plate 9 and Then, it flows along the receiving plate inclined portion 42 of the receiving plate 9 and is guided to the upper and lower flow paths 23 to join. Therefore, even during cleaning on the lower tank 7 side, a part of the cleaning water can be guided and supplied to the middle basket 24 by the receiving plate inclined portion 42, so that it is possible to contribute to improvement of the cleaning performance and save water.
また、図8に示したように、受板9は、下タンク7側の一部に下方に凸状に垂下させたガイド部43を設け、ガイド部43が上下流路23の中段かご24方向に前下がりに傾斜する構成にしてもよい。このように構成すれば、下タンク7側の洗浄において、下洗浄ノズル13から噴射され、受板9の下面にまで達した洗浄水は、受板9の下タンク7側に一部残留しかつ、下タンク7側の一部に凸状に設けられたガイド部43に沿って流れ、上下流路23に導かれて合流する。したがって、下タンク7側の洗浄時にも、ガイド部43によって中段かご24に洗浄水の一部を導いて供給できるため、洗浄性能の向上に寄与でき、節水を図れる。 As shown in FIG. 8, the receiving plate 9 is provided with a guide portion 43 that is protruded downward in a part on the lower tank 7 side, and the guide portion 43 is in the direction of the middle basket 24 in the vertical channel 23. It may be configured to incline forward and downward. With this configuration, in the cleaning on the lower tank 7 side, the cleaning water sprayed from the lower cleaning nozzle 13 and reaching the lower surface of the receiving plate 9 partially remains on the lower tank 7 side of the receiving plate 9 and Then, it flows along a guide portion 43 provided in a convex shape on a part of the lower tank 7 side, and is guided to the upper and lower flow paths 23 to join. Therefore, even during the cleaning of the lower tank 7 side, a part of the cleaning water can be guided and supplied to the middle basket 24 by the guide portion 43, which can contribute to the improvement of the cleaning performance and save water.
また、図9に示したように、受板9は、扉部5近傍の端部付近に略上方へ凸状のリブ部44を設け、リブ部44の上流側(本実施の形態では洗浄槽3の奥側)に上タンク6と下タンク7とを連通させる開口部45を有し、開口部45の略下方に中段かご24を設けてもよい。上タンク6の循環洗浄水は、受板9上を流れて、上下流路23の入口に達する際、慣性力により洗浄水は扉部5側に向かって、偏って流れる。この流れにより、中段かご24に設置された被洗浄物4には、不均一に洗浄水が供給される。したがって、上記の構成により洗浄水の慣性力をリブ部44で一旦弱め、流れの上流側に設けた開口部45から
、上下流路23に洗浄水が流送されることで、開口部45の略下方に設けられた中段かご24には万遍なく均一に洗浄水を供給することができる。循環洗浄水を効率よく利用でき、洗浄性能が向上することで、節水及び時短を図れる。
As shown in FIG. 9, the receiving plate 9 is provided with a rib portion 44 that protrudes substantially upward near the end portion in the vicinity of the door portion 5, and is upstream of the rib portion 44 (in this embodiment, a cleaning tank). 3 may be provided with an opening 45 that allows the upper tank 6 and the lower tank 7 to communicate with each other, and a middle basket 24 may be provided substantially below the opening 45. When the circulating cleaning water in the upper tank 6 flows on the receiving plate 9 and reaches the inlet of the upper and lower flow path 23, the cleaning water flows biased toward the door portion 5 due to inertial force. By this flow, the cleaning water is supplied non-uniformly to the objects to be cleaned 4 installed in the middle basket 24. Therefore, the inertia force of the cleaning water is once weakened by the rib portion 44 by the above-described configuration, and the cleaning water is flowed from the opening 45 provided on the upstream side of the flow to the upper and lower flow paths 23, so that the opening 45 The washing water can be uniformly and uniformly supplied to the middle basket 24 provided substantially below. Circulating water can be used efficiently and cleaning performance can be improved to save water and save time.
また、図10に示したように、上洗浄ノズル12は、洗浄ポンプ21から加圧され供給された洗浄水を流送するノズル内洗浄流路の上方に設けられ、上かご10に向けて噴射する複数の上洗浄ノズル噴射口34(第1の噴射口)に加えて、ノズル内洗浄流路の下方に設けられ、中段かご24に向けて噴射する少なくとも1つ以上からなる第2の上洗浄ノズル噴射口46(第2の噴射口)を有してもよい。第2の上洗浄ノズル噴射口46は上洗浄ノズル12から高圧小流量で噴射され、一方、上洗浄ノズル噴射口34から噴射され受板9上から上下流路23に流れる循環洗浄水は、低圧大流量になる。このように構成することによって、特性の異なる洗浄水の噴射により、被洗浄物4に付着している汚れが強い場合は、高圧の洗浄水で、また、被洗浄物4に付着している汚れが多い場合は、大流量の洗浄水で洗浄できるので、効率よく短時間で洗浄することができる。 As shown in FIG. 10, the upper cleaning nozzle 12 is provided above the in-nozzle cleaning flow path for feeding the cleaning water pressurized and supplied from the cleaning pump 21, and sprays toward the upper basket 10. In addition to the plurality of upper cleaning nozzle injection ports 34 (first injection ports), the second upper cleaning is provided below the in-nozzle cleaning flow path and includes at least one or more spraying toward the middle basket 24. You may have the nozzle injection port 46 (2nd injection port). The second upper cleaning nozzle injection port 46 is injected from the upper cleaning nozzle 12 at a high pressure and a small flow rate. On the other hand, the circulating cleaning water injected from the upper cleaning nozzle injection port 34 and flowing from the receiving plate 9 to the upper and lower flow paths 23 is low pressure. Large flow rate. With this configuration, when the dirt adhering to the object to be cleaned 4 is strong due to the injection of the cleaning water having different characteristics, the dirt adhering to the object to be cleaned 4 with the high-pressure washing water. When there are many, it can wash | clean with a large flow of washing water, Therefore It can wash | clean efficiently and in a short time.
また、第2の上洗浄ノズル噴射口46が、上洗浄ノズル12の回転推進用の噴射口と同一でもよい。このように構成すれば、すべての噴射口から上かご10にセットされた被洗浄物4に向けて洗浄水を噴射でき、洗浄性能が向上する。したがって、節水及び時短を図れる。 Further, the second upper cleaning nozzle injection port 46 may be the same as the rotation promotion injection port of the upper cleaning nozzle 12. If comprised in this way, wash water can be sprayed toward the to-be-cleaned object 4 set to the upper cage | basket | car 10 from all the injection nozzles, and cleaning performance improves. Therefore, water saving and time saving can be achieved.
また、図11に示したように、上下流路23は、洗剤を投入する洗剤入れ47を有し、洗剤入れ47は、中段かご24の略上方に位置した構成にしてもよい。このように構成することによって、中段かご24に強固な汚れが付着している被洗浄物4をセットしても、上下流路23に設けた洗剤入れ47を通過して、洗浄水が中段かご24に供給されるので、高濃度の洗剤水に被洗浄物4を晒すことができ、洗浄性能が向上するものである。使用者は、中段かご24に強固な汚れの被洗浄物4をセットすることが可能となり、下洗いの機会を少なくでき、使い勝手がよくなる。 Further, as shown in FIG. 11, the upper and lower flow paths 23 may have a detergent container 47 into which detergent is introduced, and the detergent container 47 may be configured to be positioned substantially above the middle basket 24. By configuring in this way, even if an object to be cleaned 4 having strong dirt adhered to the middle basket 24 is set, the washing water passes through the detergent container 47 provided in the upper and lower flow paths 23 and the washing water is fed to the middle basket. Therefore, the cleaning object 4 can be exposed to high-concentration detergent water, and the cleaning performance is improved. The user can set the object 4 to be cleaned, which is strongly soiled, in the middle basket 24, and can reduce the chances of under-washing, improving usability.
図12に示したように、洗浄槽3に設けられた乾燥部36は、下タンク7の略前方部に設けられ、下タンク7の前面下部に設けた送風口39から下タンク7内の略後方に向けて送風する送風部37を有する構成としている。下タンク7から上タンク6への流路は、上下流路23のみしかないため、下タンク7の上方から見た時の投影断面積に比べて著しく小さい上下流路23では、乾燥風の流速が急速に早くなる。また、下タンク7に送風した乾燥風の全風量は、すべて、上下流路23を通過するため、中段かご24にセットした被洗浄物4は、集中的に、しかも流速の早い乾燥風に晒される。したがって、乾燥性能が向上し、乾燥時の省エネ、時短を図れる。使用者が少量の被洗浄物を速やかに乾燥したい場合には、中段かご24を利用すればよく、使い勝手が向上するものである。 As shown in FIG. 12, the drying unit 36 provided in the cleaning tank 3 is provided substantially in the front part of the lower tank 7, and is substantially in the lower tank 7 from the air blowing port 39 provided in the lower front portion of the lower tank 7. It is set as the structure which has the ventilation part 37 which ventilates toward back. Since the flow path from the lower tank 7 to the upper tank 6 is only the vertical flow path 23, the flow velocity of the drying air in the vertical flow path 23 that is remarkably smaller than the projected cross-sectional area when viewed from above the lower tank 7. Becomes faster and faster. Further, since all the amount of the dry air blown to the lower tank 7 passes through the upper and lower flow passages 23, the cleaning object 4 set in the middle basket 24 is intensively exposed to the dry air having a high flow rate. It is. Therefore, drying performance is improved, and energy saving and time saving during drying can be achieved. When the user wants to quickly dry a small amount of the object to be cleaned, the middle basket 24 may be used, which improves usability.
また、このように構成して、上下流路23に乾燥部36からの温風が直接送風されないように、上タンク6への流路がない受板9の略後方に送風することで、下タンク7内でも温風が拡散され、乾燥性能は向上する。 Further, by configuring in this way and blowing the air substantially behind the receiving plate 9 having no flow path to the upper tank 6 so that the warm air from the drying unit 36 is not directly blown to the upper and lower flow paths 23, Warm air is also diffused in the tank 7 and the drying performance is improved.
また、図13に示したように、受板9の前端部と扉部5の近傍に中段残さいフィルタ48を設けてもよい。上かご10にセットされた被洗浄物4を洗浄する際、上タンク6の洗浄水は、洗浄ポンプ21に回収されるため、上下流路23を通過する。中段残さいフィルタ48には、循環する洗浄水が常に通過することになり、残さいを効率よく捕集することができる。したがって、上かご10にセットされた被洗浄物4の残さいが再び下かご11にセットされた被洗浄物4に再付着することがなく、洗浄性能、特にすすぎ性能が向上する。すすぎ性能が向上することで、無駄な水量を省け、節水効果を得る。また、上タンク6の上かご10にセットされた被洗浄物4の汚れを素早く捕集できるので、時短効果も併
せ持つ。また、中段残さいフィルタ48は、洗浄槽3の高い位置に設けられているので、使い勝手がよくなる。また、中段残さいフィルタ48を上かご10に設けてもよい。
Further, as shown in FIG. 13, a middle-stage residual filter 48 may be provided in the vicinity of the front end portion of the receiving plate 9 and the door portion 5. When cleaning the article 4 to be cleaned set in the upper car 10, the cleaning water in the upper tank 6 is collected by the cleaning pump 21 and passes through the upper and lower flow paths 23. Circulating wash water always passes through the middle stage residue filter 48, and the residue can be collected efficiently. Therefore, the residue of the article 4 to be cleaned set on the upper car 10 does not adhere again to the object 4 to be cleaned set on the lower car 11, and the cleaning performance, particularly the rinsing performance is improved. By improving the rinsing performance, the amount of wasted water can be saved and a water saving effect can be obtained. Moreover, since the dirt of the cleaning object 4 set in the upper basket 10 of the upper tank 6 can be quickly collected, it also has a time-saving effect. Further, since the middle stage residual filter 48 is provided at a high position in the cleaning tank 3, the usability is improved. Further, the upper-stage residual filter 48 may be provided in the upper car 10.
また、中段残さいフィルタ48は、受板9の前端部もしくは上かご10に設ける構成と扉部5に設ける構成とが可能であるが、図14に示したように、扉部5に設けた場合は、中段残さいフィルタ48は、扉部5による洗浄槽3の開閉動作と常に連動するので、使用者が扉部5を動作して、洗浄槽3を開口すると同時に中段残さいフィルタ48を取り外しすることが可能となる。したがって、洗浄槽3すべてを引き出さなくてもよく、最低限の動作で、中段残さいフィルタ48の取り外しをすることができ、使い勝手がよくなるものである。また、洗浄槽3の開閉動作を行っても、残さい及び中段残さいフィルタ48の水滴が下かご11にセットされた被洗浄物4に滴下しないので、衛生的にも優れた効果を得る。 Moreover, although the structure provided in the front end part or upper cage | basket | car 10 of the receiving plate 9 and the structure provided in the door part 5 is possible for the middle stage residual filter 48, as shown in FIG. In this case, since the middle stage residual filter 48 is always interlocked with the opening / closing operation of the cleaning tank 3 by the door part 5, the user operates the door part 5 to open the cleaning tank 3, and at the same time, the middle stage residual filter 48 is removed. It can be removed. Therefore, it is not necessary to pull out all of the cleaning tank 3, and the filter 48 can be removed from the middle stage with a minimum operation, which improves usability. Moreover, even if the opening / closing operation of the cleaning tank 3 is performed, water drops of the residue and middle residue filter 48 are not dripped onto the article 4 to be cleaned set in the lower basket 11, so that an excellent hygienic effect is obtained.
また、図15に示したように、中段残さいフィルタ48は、上下流路23の略下方に位置する下タンク7に設けてもよい。このように構成すれば、上下タンクの残さいフィルタが兼用できる。上かご10にセットされた被洗浄物4を洗浄する際、上タンク6の洗浄水は、洗浄ポンプ21に回収されるため、上下流路23を通過する。中段残さいフィルタ48には、循環する洗浄水が常に通過することになり、残さいを効率よく捕集することができる。 Further, as shown in FIG. 15, the middle stage residual filter 48 may be provided in the lower tank 7 positioned substantially below the upper and lower flow paths 23. If comprised in this way, the residual filter of an upper and lower tank can be combined. When cleaning the article 4 to be cleaned set in the upper car 10, the cleaning water in the upper tank 6 is collected by the cleaning pump 21 and passes through the upper and lower flow paths 23. Circulating wash water always passes through the middle stage residue filter 48, and the residue can be collected efficiently.
また、一方で下かご11にセットされた被洗浄物4を洗浄する際、下タンク7の洗浄水は、洗浄ポンプ21に回収されるため、上タンク6とは無関係に中段残さいフィルタ48を通過する。したがって、一つの残さいフィルタで、一方のタンクの残さいが他方のタンクに送られることなく、洗浄性能、特にすすぎ性能を向上させることができる。すすぎ性能が向上することで、無駄な水量を省け、節水効果を得る。 On the other hand, when the object 4 to be cleaned set in the lower car 11 is cleaned, the cleaning water in the lower tank 7 is collected by the cleaning pump 21, so that the middle-stage residual filter 48 is provided regardless of the upper tank 6. pass. Therefore, the cleaning performance, in particular, the rinsing performance can be improved with one residue filter without the residue of one tank being sent to the other tank. By improving the rinsing performance, the amount of wasted water can be saved and a water saving effect can be obtained.
また、受板9の前端部と扉部5の近傍に中段残さいフィルタ48を設けた構成において、図16に示したように、受板9は下タンク7側の下面に扉部5方向に前下がりに傾斜する受板傾斜部42を設け、受板傾斜部42が上下流路23の中段残さいフィルタ48方向に前下がりに傾斜する構成にしてもよい。このように構成すれば、下タンク7側の洗浄において、下洗浄ノズル13から噴射され、受板9の下面にまで達した洗浄水は、受板9の下タンク7側に一部残留しかつ、受板9の受板傾斜部42に沿って流れ、上下流路23に導かれて合流する。したがって、下タンク7側の洗浄時にも、中段残さいフィルタ48に洗浄水の一部を導いて供給できるため、洗浄性能の向上に寄与でき、節水を図れる。また、中段残さいフィルタ48は、下タンク7用の残さいフィルタ27と、開口部の大きさや形状を変えることで、捕集性能が向上し、すすぎ時の性能が向上するので、節水を図れる。 Further, in the configuration in which the middle stage residual filter 48 is provided in the vicinity of the front end portion of the backing plate 9 and the door portion 5, as shown in FIG. 16, the backing plate 9 is placed on the lower surface on the lower tank 7 side in the direction of the door portion 5. A receiving plate inclined portion 42 inclined forward and downward may be provided, and the receiving plate inclined portion 42 may be inclined forward and downward in the direction of the filter 48 in the middle of the upper and lower flow paths 23. With this configuration, in the cleaning on the lower tank 7 side, the cleaning water sprayed from the lower cleaning nozzle 13 and reaching the lower surface of the receiving plate 9 partially remains on the lower tank 7 side of the receiving plate 9 and Then, it flows along the receiving plate inclined portion 42 of the receiving plate 9 and is guided to the upper and lower flow paths 23 to join. Therefore, even when the lower tank 7 is cleaned, a part of the cleaning water can be guided and supplied to the middle residue filter 48, so that it is possible to contribute to improvement of the cleaning performance and save water. Further, the middle-stage residue filter 48 is changed from the residue filter 27 for the lower tank 7 and the size and shape of the opening to improve the collection performance and the performance at the time of rinsing, thereby saving water. .
また、受板9の前端部と扉部5の近傍に中段残さいフィルタ48を設けた構成において、図17に示したように、受板9は、下タンク7側の一部に下方に凸状に垂下させたガイド部43を設け、ガイド部43が上下流路23の中段残さいフィルタ48方向に前下がりに傾斜する構成にしてもよい。このように構成すれば、下タンク7側の洗浄において、下洗浄ノズル13から噴射され、受板9の下面にまで達した洗浄水は、受板9の下タンク7側に一部残留しかつ、下タンク7側の一部に凸状に設けられたガイド部43に沿って流れ、上下流路23に導かれて合流する。したがって、下タンク7側の洗浄時にも、中段残さいフィルタ48に洗浄水の一部が導かれて供給されるため、洗浄性能の向上に寄与でき、節水を図れる。 Further, in the configuration in which the middle stage residual filter 48 is provided in the vicinity of the front end portion of the backing plate 9 and the door portion 5, as shown in FIG. 17, the backing plate 9 protrudes downward in a part on the lower tank 7 side. A guide portion 43 that is suspended in a shape may be provided, and the guide portion 43 may be inclined forward and downward in the direction of the filter 48 in the middle of the upper and lower flow paths 23. With this configuration, in the cleaning on the lower tank 7 side, the cleaning water sprayed from the lower cleaning nozzle 13 and reaching the lower surface of the receiving plate 9 partially remains on the lower tank 7 side of the receiving plate 9 and Then, it flows along a guide portion 43 provided in a convex shape on a part of the lower tank 7 side, and is guided to the upper and lower flow paths 23 to join. Accordingly, part of the cleaning water is guided and supplied to the middle stage residual filter 48 even during the cleaning of the lower tank 7 side, which can contribute to the improvement of the cleaning performance and can save water.
また、受板9の前端部と扉部5の近傍に中段残さいフィルタ48を設けた構成において、図18に示したように、受板9は、扉部5近傍の端部付近に略上方へ凸状のリブ部44
を設け、リブ部44の上流側(本実施の形態では洗浄槽3の奥側)に上タンク6と下タンク7とを連通させる開口部45を設けてもよい。上タンク6の循環洗浄水は、受板9上を流れて、上下流路23の入口に達する際、慣性力により洗浄水は扉部5側に向かって、偏って流れる。この流れにより、中段残さいフィルタ48には、不均一に洗浄水が供給される。したがって、上記の構成により洗浄水の慣性力をリブ部44で一旦弱め、流れの上流側に設けた開口部45から、上下流路23に洗浄水が流送されることで、開口部45の略下方に設けられた中段残さいフィルタ48に万遍なく均一に洗浄水を供給することができる。中段残さいフィルタ48の一部の開口部に残さいが集中して、つまることがないので、残さいの捕集性に優れ、循環洗浄水を効率よく利用でき、すすぎ性能が向上することで、節水及び時短を図れる。
Further, in the configuration in which the middle stage residual filter 48 is provided in the vicinity of the front end portion of the receiving plate 9 and the door portion 5, the receiving plate 9 is substantially upward near the end portion in the vicinity of the door portion 5 as shown in FIG. 18. Convex rib part 44
And an opening 45 that allows the upper tank 6 and the lower tank 7 to communicate with each other may be provided on the upstream side of the rib portion 44 (the back side of the cleaning tank 3 in the present embodiment). When the circulating cleaning water in the upper tank 6 flows on the receiving plate 9 and reaches the inlet of the upper and lower flow path 23, the cleaning water flows biased toward the door portion 5 due to inertial force. By this flow, the cleaning water is supplied non-uniformly to the middle stage residual filter 48. Therefore, the inertia force of the cleaning water is once weakened by the rib portion 44 by the above-described configuration, and the cleaning water is flowed from the opening 45 provided on the upstream side of the flow to the upper and lower flow paths 23, so that the opening 45 Washing water can be uniformly and uniformly supplied to the middle stage residual filter 48 provided substantially below. Since the residue concentrates on a part of the openings of the middle-stage residue filter 48 and does not become clogged, it is excellent in collecting the residue, the circulating wash water can be used efficiently, and the rinsing performance is improved. , Save water and save time.
また、図19に示したように、上下洗浄ノズル12、13と洗浄ポンプ21との間に分水部49を設けてもよい。分水部49により、上洗浄流路29と下洗浄流路30を切り換えて、選択的に、上洗浄ノズル12と下洗浄ノズル13からの噴射を切り換える。図20は、分水部49の断面図である。分水部49は、洗浄ポンプ21の吐出側と連通するポンプ吐出側流路50と、上洗浄流路29と下洗浄流路30の流路入口を切り換える開口部と閉口部を備えた弁体51と、弁体51を支持する回転軸52と、回転軸52を駆動するモータ53から構成されている。洗浄水は、分水部49にポンプ吐出側流路50から流入し、弁体51の開口部と一致した位置にある流路入口から上洗浄流路29と下洗浄流路30の一方または双方に切り換えて送水される。なお、ここでは、分水部49は、モータ53による駆動で切り換える構成にしているが、洗浄ポンプ21の駆動、停止による水圧の変化で切り換える構成にしてもよい。 Further, as shown in FIG. 19, a water diversion part 49 may be provided between the upper and lower cleaning nozzles 12 and 13 and the cleaning pump 21. By the water diversion part 49, the upper washing flow path 29 and the lower washing flow path 30 are switched, and the injection from the upper washing nozzle 12 and the lower washing nozzle 13 is selectively switched. FIG. 20 is a cross-sectional view of the water divider 49. The water diversion unit 49 includes a pump discharge-side flow channel 50 that communicates with the discharge side of the cleaning pump 21, and a valve body that includes an opening portion and a closing portion that switch the flow passage inlets of the upper cleaning flow passage 29 and the lower cleaning flow passage 30. 51, a rotating shaft 52 that supports the valve body 51, and a motor 53 that drives the rotating shaft 52. Wash water flows from the pump discharge side flow path 50 into the water diversion section 49, and one or both of the upper wash flow path 29 and the lower wash flow path 30 from the flow path inlet located at a position coincident with the opening of the valve body 51. The water is switched to. Here, the water diversion unit 49 is configured to be switched by driving by the motor 53, but may be configured to be switched by changing the water pressure by driving and stopping the cleaning pump 21.
以上のように、上タンク6の上かご10にセットされた被洗浄物4から除去された汚れ(残さい)を、中段残さいフィルタ48で、下タンク7に流れないようにすることができるため、上タンク6のみの運転が可能で、上下分け洗いが可能になる。使用者は少量の被洗浄物4を洗浄する場合には、どちらか一方のタンクを使用すればよく、少量の洗浄水で洗浄することが可能となり、節水で省エネ、時短の効果を得る。 As described above, the dirt (residue) removed from the article 4 to be cleaned set in the upper car 10 of the upper tank 6 can be prevented from flowing into the lower tank 7 by the middle residue filter 48. Therefore, only the upper tank 6 can be operated, and the upper and lower parts can be washed separately. When the user cleans a small amount of the object 4 to be cleaned, either one of the tanks may be used, and the tank can be cleaned with a small amount of cleaning water, and energy saving and time saving effects can be obtained by saving water.
また、上タンク6の被洗浄物4のみを洗浄する場合は、中段残さいフィルタ48のみをメンテすればよく、洗浄槽3の高い位置に設けられているので、使い勝手がよくなる。 Further, when only the article 4 to be cleaned in the upper tank 6 is cleaned, it is only necessary to maintain the middle-stage residual filter 48, and since it is provided at a high position in the cleaning tank 3, it is easy to use.
また、上タンク6と下タンク7のどちらにも被洗浄物4がセットされていても、交互に上下を切り換えて運転することで、集中的に洗浄することが可能になり、洗浄圧を下げずに少量の洗浄水で洗浄することが可能となり、節水で省エネ、時短の効果を得る。 In addition, even if the object to be cleaned 4 is set in either the upper tank 6 or the lower tank 7, it is possible to perform intensive cleaning by switching the top and bottom alternately, and the cleaning pressure is lowered. It is possible to wash with a small amount of washing water, saving water and saving energy and saving time.
また、図1に示した構成では、排水口25を上下流路23の略直下より後方に配置してあるが、図21に示したように、受板9と扉部5の間、または扉部5近傍に設けられた上タンク6の洗浄水を下タンク7に流す上下流路23の略下方に位置する下タンク7に排水口25を設けてもよい。受板9と扉部5の間の上下流路23の略下方に位置する下タンク7に排水口25を設けることで、上かご10に設けられた被洗浄物4を洗浄する際、上タンク6の洗浄水は、洗浄ポンプ21に回収されるため、上下流路23を通過する。したがって、循環洗浄水は、排水口25に最短距離で流送されるので、経路を流れる無駄な水量を省け、節水効果を得る。 In the configuration shown in FIG. 1, the drainage port 25 is arranged behind the upper and lower flow paths 23, but as shown in FIG. 21, between the receiving plate 9 and the door portion 5 or the door. The drain port 25 may be provided in the lower tank 7 located substantially below the up-and-down flow path 23 for flowing the washing water of the upper tank 6 provided in the vicinity of the section 5 to the lower tank 7. When the object to be cleaned 4 provided in the upper basket 10 is cleaned by providing the drain port 25 in the lower tank 7 positioned substantially below the upper and lower flow path 23 between the receiving plate 9 and the door portion 5, the upper tank Since the cleaning water 6 is collected by the cleaning pump 21, it passes through the upper and lower flow paths 23. Therefore, since the circulating cleaning water is sent to the drain port 25 at the shortest distance, the useless amount of water flowing through the path is saved and a water saving effect is obtained.
また、排水口25の上部には、被洗浄物4から洗浄された残さいを回収する排水フィルタ26を設け、排水フィルタ26は、図22に示したように、上下流路23の略下方部に位置する排水フィルタ26の一部を閉口した構成にしてもよい。上タンク6の循環洗浄水は、上下流路23から直接排水口25に回収されると、排水口25に滞留している洗浄水や、洗浄槽3壁面と衝突し、気泡が発生する。その気泡が排水口25から吸い込まれて、
大量に洗浄ポンプ21に供給されると、洗浄ポンプ21内でエアがみが起こり、所定の洗浄圧を噴射することができない。
Further, a drainage filter 26 for collecting the residue washed from the object to be cleaned 4 is provided at the upper part of the drainage port 25, and the drainage filter 26 is substantially below the upper and lower flow paths 23 as shown in FIG. A part of the drainage filter 26 located in the position may be closed. When the circulating cleaning water in the upper tank 6 is directly recovered from the upper and lower flow paths 23 to the drain port 25, it collides with the cleaning water staying in the drain port 25 and the wall surface of the cleaning tank 3, and bubbles are generated. The bubbles are sucked from the drain 25,
When a large amount is supplied to the cleaning pump 21, air stagnates in the cleaning pump 21, and a predetermined cleaning pressure cannot be injected.
上下流路23から直接水流が衝突する近傍位置の排水フィルタ26の排水フィルタ格子54の一部に格子閉口部55を設けることで、水流の衝突による衝撃を減らすことができるとともに、排水フィルタ26の格子閉口部55を、排水口25に設けられ洗浄ポンプ21と連通する吸込口25a上に設けることで、気泡を直接吸込みにくくすることができる。したがって、エアがみが起こる水位を低くすることができるので、使用水量を少なくしても、洗浄水の洗浄圧を確保できるので、節水効果を得る。 By providing the lattice closing portion 55 in a part of the drainage filter lattice 54 of the drainage filter 26 in the vicinity where the water flow directly collides from the upper and lower flow paths 23, it is possible to reduce the impact caused by the collision of the water flow and By providing the lattice closing portion 55 on the suction port 25a that is provided in the drainage port 25 and communicates with the cleaning pump 21, it is possible to make it difficult for air bubbles to be directly sucked. Therefore, since the water level at which air leakage occurs can be lowered, the washing pressure of washing water can be ensured even if the amount of water used is reduced, so that a water saving effect is obtained.
また、上下流路23の略下方に位置する下タンク7に排水口25を設けた構成において、図23に示したように、受板9は、下タンク7側の下面に扉部5方向に前下がりに傾斜する受板傾斜部42を設け、受板傾斜部42は、上下流路23の略下方に位置する排水口25方向に前下がりに傾斜する構成にしてもよい。このように構成すれば、下タンク7側の洗浄において、下洗浄ノズル13から噴射され、受板9の下面にまで達した洗浄水は、下タンク7に落下するが、一部は受板9の下タンク7側に残留し、また、一部は受板9の受板傾斜部42に沿って流れ、上下流路23に導かれて合流する。したがって、下タンク7側の洗浄時にも、受板9の受板傾斜部42により、受板9まで達した下洗浄ノズル13の洗浄水も効率よく排水口25に回収することで、洗浄運転中の排水口25の水位が高くなる。したがって、洗浄ポンプ21に対するエアがみ余裕度が増し、水位が高くなった分の使用水量を減らすことが可能となり、節水効果を得る。 Further, in the configuration in which the drain port 25 is provided in the lower tank 7 positioned substantially below the upper and lower flow path 23, as shown in FIG. 23, the receiving plate 9 is arranged on the lower surface on the lower tank 7 side in the direction of the door portion 5. A receiving plate inclined portion 42 inclined forward and downward may be provided, and the receiving plate inclined portion 42 may be inclined forward and downward in the direction of the drain port 25 located substantially below the upper and lower flow paths 23. According to this configuration, the cleaning water sprayed from the lower cleaning nozzle 13 and reaching the lower surface of the receiving plate 9 falls to the lower tank 7 in the cleaning on the lower tank 7 side, but a part of the receiving plate 9 And partly flows along the receiving plate inclined portion 42 of the receiving plate 9 and is guided to the upper and lower flow paths 23 to join. Therefore, even during the cleaning of the lower tank 7 side, the cleaning water of the lower cleaning nozzle 13 reaching the receiving plate 9 is also efficiently collected in the drain port 25 by the receiving plate inclined portion 42 of the receiving plate 9, so that the cleaning operation is being performed. The water level of the drain outlet 25 becomes higher. Therefore, the margin of air leakage to the cleaning pump 21 is increased, and the amount of water used corresponding to the increased water level can be reduced, thereby obtaining a water saving effect.
また、上下流路23の略下方に位置する下タンク7に排水口25を設けた構成において、図24に示したように、受板9は、下タンク7側の一部に下方に凸状に垂下させたガイド部43を設け、ガイド部43が上下流路23の略下方に位置する排水口25方向に前下がりに傾斜する構成にしてもよい。このように構成すれば、下タンク7側の洗浄において、下洗浄ノズル13から噴射され、受板9の下面にまで達した洗浄水は、下タンク7に落下するが、一部は受板9の下タンク7側に残留し、また、一部は下タンク7側の一部に凸状に設けられたガイド部43に沿って流れ、上下流路23に導かれて合流する。そして、下タンク7側の洗浄時にも、受板9の下タンク7側に設けられたガイド部43により、受板9まで達した下洗浄ノズル13の洗浄水も効率よく排水口25に回収することで、洗浄運転中の排水口25の水位が高くなる。したがって、洗浄ポンプ21に対するエアがみ余裕度が増し、水位が高くなった分の使用水量を減らすことが可能となり、節水効果を得る。 Further, in the configuration in which the drain port 25 is provided in the lower tank 7 positioned substantially below the upper and lower flow path 23, as shown in FIG. 24, the receiving plate 9 is convex downward in a part on the lower tank 7 side. The guide part 43 may be provided so that the guide part 43 is inclined forward and downward in the direction of the drain port 25 located substantially below the upper and lower flow paths 23. According to this configuration, the cleaning water sprayed from the lower cleaning nozzle 13 and reaching the lower surface of the receiving plate 9 falls to the lower tank 7 in the cleaning on the lower tank 7 side, but a part of the receiving plate 9 It remains on the lower tank 7 side, and a part flows along the guide part 43 provided in a convex shape on a part on the lower tank 7 side, and is guided to the upper and lower flow paths 23 to join. And also at the time of the washing | cleaning of the lower tank 7 side, the wash water of the lower washing nozzle 13 which reached to the receiving plate 9 is efficiently collect | recovered to the drain 25 by the guide part 43 provided in the lower tank 7 side of the receiving plate 9. As a result, the water level of the drain port 25 during the cleaning operation becomes high. Therefore, the margin of air leakage to the cleaning pump 21 is increased, and the amount of water used corresponding to the increased water level can be reduced, thereby obtaining a water saving effect.
また、上下流路23の略下方に位置する下タンク7に排水口25を設けた構成において、図25に示したように、受板9は、扉部5近傍の端部付近に略上方へ凸状のリブ部44を設け、リブ部44の上流側(本実施の形態では洗浄槽3の奥側)に上タンク6と下タンク7とを連通させる開口部45を設けてもよい。この場合、開口部45は排水口25の略上方に位置させるのが好適である。上タンク6の循環洗浄水は、受板9上を流れて、上下流路23の入口に達する際、慣性力により洗浄水は扉部5側に向かって、偏って流れる。この流れにより、排水口25には、不均一に洗浄水が供給される。したがって、上記の構成により洗浄水の慣性力をリブ部44で一旦弱め、流れの上流側に設けた開口部45から、上下流路23に洗浄水が流送されることで、開口部45の略下方に設けられた排水口25には万遍なく均一に洗浄水を供給することができる。したがって、循環洗浄水は、排水口25に最短距離で流送されるので、経路を流れる無駄な水量を省け、節水効果を得る。また、開口部45のほぼ真下に洗浄水が流れるので、排水フィルタ26の格子閉口部55の位置も最小面積で構成することが可能となり、排水フィルタ26による圧力損失を最小限にすることができる。 Further, in the configuration in which the drain port 25 is provided in the lower tank 7 positioned substantially below the up-and-down flow path 23, as shown in FIG. A convex rib portion 44 may be provided, and an opening 45 may be provided on the upstream side of the rib portion 44 (in the back of the cleaning tank 3 in the present embodiment) to allow the upper tank 6 and the lower tank 7 to communicate with each other. In this case, it is preferable that the opening 45 is positioned substantially above the drain port 25. When the circulating cleaning water in the upper tank 6 flows on the receiving plate 9 and reaches the inlet of the upper and lower flow path 23, the cleaning water flows biased toward the door portion 5 due to inertial force. By this flow, the cleaning water is supplied to the drain ports 25 non-uniformly. Therefore, the inertia force of the cleaning water is once weakened by the rib portion 44 by the above-described configuration, and the cleaning water is flowed from the opening 45 provided on the upstream side of the flow to the upper and lower flow paths 23, so that the opening 45 Washing water can be uniformly and uniformly supplied to the drain port 25 provided substantially below. Therefore, since the circulating cleaning water is sent to the drain port 25 at the shortest distance, the useless amount of water flowing through the path is saved and a water saving effect is obtained. Further, since the washing water flows almost directly below the opening 45, the position of the lattice closing portion 55 of the drainage filter 26 can be configured with a minimum area, and the pressure loss due to the drainage filter 26 can be minimized. .
本発明は、食器洗い機の洗浄、すすぎ及び乾燥方式に関するものであり、食器洗い機の本体の形状や大きさ、食器等被洗浄物の配置、個々の部品の配置等を限定するものではない。 The present invention relates to a washing, rinsing and drying method of a dishwasher, and does not limit the shape and size of the main body of the dishwasher, the arrangement of objects to be cleaned such as dishes, the arrangement of individual parts, and the like.
以上のように、本発明にかかる食器洗い機は、上下タンクの間に設けた受板と扉部の間に上下流路を設け、上下流路の略下方に位置する下タンクに排水口を設けることで、上タンク内に噴射された洗浄水は、上下流路を通過して排水口に最短距離で流送され、洗浄ポンプに回収され、洗浄及び乾燥性能を高めることができるとともに、節水、省エネ、時短が実現できるので、食器洗い機等として有用である。 As described above, in the dishwasher according to the present invention, the upper and lower flow paths are provided between the receiving plate provided between the upper and lower tanks and the door portion, and the drain port is provided in the lower tank positioned substantially below the upper and lower flow paths. Thus, the cleaning water sprayed into the upper tank passes through the upper and lower flow paths and is sent to the drain outlet at the shortest distance, and is collected by the cleaning pump to improve the cleaning and drying performance. Since energy saving and time saving can be realized, it is useful as a dishwasher.
2 本体
3 洗浄槽
5 扉部
6 上タンク
7 下タンク
9 受板
10 上かご
11 下かご
12 上洗浄ノズル
13 下洗浄ノズル
21 洗浄ポンプ
23 上下流路
24 中段かご
25 排水口
26 排水フィルタ
27 残さいフィルタ
28 加熱部
29 上洗浄流路
30 下洗浄流路
34 上洗浄ノズル噴射口(第1の噴射口)
35 下洗浄ノズル噴射口
36 乾燥部
41 第2の上下流路
42 受板傾斜部(傾斜部)
43 ガイド部
44 リブ部
45 開口部
46 第2の上洗浄ノズル噴射口(第2の噴射口)
47 洗剤入れ
48 中段残さいフィルタ
49 分水部
55 格子閉口部
2 Main body 3 Washing tank 5 Door 6 Upper tank 7 Lower tank 9 Receiving plate 10 Upper basket 11 Lower basket 12 Upper washing nozzle 13 Lower washing nozzle 21 Washing pump 23 Vertical flow path 24 Middle basket 25 Drain outlet 26 Drain filter 27 Residue Filter 28 Heating unit 29 Upper cleaning flow path 30 Lower cleaning flow path 34 Upper cleaning nozzle injection port (first injection port)
35 Lower cleaning nozzle injection port 36 Drying part 41 Second upper and lower flow path 42 Receptacle inclined part (inclined part)
43 Guide portion 44 Rib portion 45 Opening portion 46 Second upper cleaning nozzle injection port (second injection port)
47 Detergent container 48 Middle stage residue filter 49 Water diversion part 55 Lattice closing part
Claims (4)
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JP2010255106A JP5636896B2 (en) | 2010-11-15 | 2010-11-15 | dishwasher |
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JP2010255106A JP5636896B2 (en) | 2010-11-15 | 2010-11-15 | dishwasher |
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JP2012105723A JP2012105723A (en) | 2012-06-07 |
JP5636896B2 true JP5636896B2 (en) | 2014-12-10 |
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JP2000051135A (en) * | 1998-08-06 | 2000-02-22 | Toto Ltd | Filter of dishwasher and dishwasher |
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