JP2004538112A - Tunnel type continuous batch type washing machine - Google Patents

Abstract

An improved tunnel-type washing machine (20) that includes a "ratiometric" water recycling system featuring four water circuits. The water in the circuit includes fresh water (24), recycle water (51), wash water (49) and treated water (50). The tunnel type washing machine (20) includes a soaking zone (13) for soaking laundry in water, a first washing zone (14), a second washing zone (15), a rinsing zone (16), and a finish rinsing / washing operation. It has five steps including a finishing zone (17). The water circuit is designed to minimize fresh water consumption by mixing four appropriate amounts of water. The amount of mixing can be varied based on the type of laundry (eg, linens) present in the tunnel and the dynamic quality of each type of water.
[Selection diagram] Fig. 1

Description

【０００６】
【表２】

【０００７】
トンネル形洗濯機は、一般的には、業務用に用いられる非常に大型の機械である。使用者として、例えばホテルや病院が挙げられる。
トンネル形洗濯機は、年ベースで大量の水を消費する。また、加熱のために相当量のエネルギーを要する。年ベースでは、設備に必要な水とエネルギーのコストは、数十万ドルにもなる。
【発明の開示】
【０００８】
＜発明の要旨＞
本発明は、エネルギーと水を節約できる改良されたトンネル形洗濯機を提供する。本発明のシステムは、清水(fresh water)の循環路(loop)の他に、３種類の水の循環路を具える点に特徴を有する。追加の循環路の水には、再利用水、すすぎ洗い水(rinse water)、及び処理水(treated water)を挙げることができる。
【０００９】
本発明の改良トンネル形洗濯機の望ましい実施例では、洗濯物を水に浸すゾーン(wet out zone)、第１洗浄ゾーン、第２洗浄ゾーン、すすぎ洗いゾーン(main rinse zone)、仕上げすすぎ洗い／仕上げゾーン(fine rinse／finishing zone)の５段階のゾーンを有している。
【００１０】
本発明の水循環路は、４つの循環路から供給される４種類の水を適量混合することにより、清水の消費量を最少にすることができる。混合率は、トンネル内での様々な段階でのリネンの種類や、各循環路における夫々の水の動的品質に応じて、適宜選定される。
この様に本発明は、改良されたレシオメトリックな流れ機構及びトンネル形洗濯機システムを提供する。
【００１１】
洗浄ゾーンで用いられる水は、インラインで処理され、装置の第１及び第２洗浄ゾーンの中を再循環する。第２洗浄ゾーンの流れの主要部分は、再循環する。追加するのは、濾過部材で除去された分を補う補給水のみである。
水処理では、有機物質を分解するための酸化剤と、浮遊物を取り除くための遠心分離機を使用する。
【００１２】
この水を直接再利用することにより、水は、設定された温度に維持されるため、必要な加熱エネルギーは著しく減少する。これまで、この水は、下水管又は中央水処理システムへ送られていたため、エネルギーの損失を招き、設備システムに加算されるコストが大きかった。
これまで、中央水処理システムで処理された水を使用する試みもなされているが、温度と化学剤の不適合性のために成功していない。
【００１３】
第２洗浄ゾーンでは、再循環液が従来の流量(flow rate)の最大３００％で流れるため、従来の装置よりも希釈率は大きい。
流量を多くする目的は、希釈量を増やすことによって、洗浄効果を向上させることであり、次の表３に示す通りである。
【００１４】
【表３】

【００１５】
洗浄水ゾーンの水質を測定するために、センサー(例えば濁度センサー)を用いることが望ましい。設定値に達すると、清水を増加させて、溶解固形物の濃度を希釈する。この水は次に、その水質改善のために処理される。オゾンを、単独で又は他の酸化剤と共に、ポンプによって運ばれた処理水の流れの中に直接投入して、有機化合物を分解する。酸化剤に代えて二酸化塩素を使用したり、紫外線処理を行なうことができる。これらは、オゾンの代わりとして、又はオゾンに追加して使用することができる。必要に応じて、処理水をさらに清浄化するために、インラインフィルターを用いて、この処理水の流れを濾過することもできる。遠心分離機又は適当なフィルターを用いて、浮遊固形分を取り除くことができる。浮遊固形分は、約５０〜５００ｐｐｍまで減少させることが好ましく、１００ｐｐｍまで減少させることがより好ましい。
【００１６】
最後のモジュール(module)又は区画室(cell)は、すすぎ洗いとして使用した水を、仕上げすすぎ洗いのオーバーフロー水として使用できるような構造に作られている。この水は、タンクに回収され、洗濯物を水に浸すゾーン(入口)ゾーンのフラッシング水の一部として再利用される。
【００１７】
次に、本発明装置の運転について説明する。スタートアップして装置を安定化させた後、清水を、すすぎ洗いゾーンの最後の区画室又はモジュールに導入する。水は、すすぎ洗いゾーンの中の第１モジュールへ流れる。水は、タンクに回収される。すすぎ洗いゾーンでの流量は、洗濯される洗濯物の種類に基づいて選択される。流量は、異なるバッチの洗濯物の汚れ具合によって変更することができる。例えば、汚れの少ない洗濯物の後に汚れのひどい洗濯物がくると、すすぎ洗いゾーンの水を増量して、洗剤を増やし、アルカリ濃度を高くする。さらに、タンク内の溶解固形物の濃度を測定する。その濃度が、選択された設定値より高い場合、清水の流量を増やす。水質を監視するのに、コンピュータを、センサと共に使用することができる。複数の調節弁をコンピュータ制御することにより、様々な区画室で、又は複数の区画室を含む段階で装置に加えられる水の水質レベルを自動的に維持することができる。
【００１８】
第１洗浄ゾーンで再利用されるすすぎ洗い水の割合は、第２洗浄ゾーン及び最終すすぎ洗いゾーンへ送られる水の流れと比べて、最も多い。第１洗浄ゾーンは、所望により、清水と混合するように設定することもできる。
【００１９】
第２洗浄ゾーンでは、主として、自ら処理した水を再利用して、約２０％の洗浄水と１０％の清水が混合される。これらの数値は、一般的には、洗浄水約０％〜約６５％、清水約０％〜約６５％の範囲でプログラミング可能である。
【００２０】
この様に本発明は、改良されたトンネル形連続バッチ式洗濯機を提供するもので、該洗濯機は、対向する両端部の一方に入口、他方に出口を具え、洗濯物の水収容部を有する細長い外ハウジングを含んでいる。
【００２１】
ハウジングの少なくとも一部は、複数の側壁によって、複数の区画室に分割される。ハウジングには複数のドラムが、望ましくは区画室毎に１つのドラムが収容される。各ドラムは、水収容部のフレーム内に回転可能に支持され、洗濯物をドラムに入れるための入口と、洗濯物をドラムから排出するための出口を有している。
【００２２】
清水用ヘッダーは、ハウジングの水収容部に水を供給するために配備される。
すすぎ洗い用流れラインは、ハウジングの水収容部から再利用のために排出された水が流れる。
処理水用流れラインは、ハウジングの水収容部から再利用のために排出された水が流れる。
水処理は、ハウジングの水収容部から排出された水から固形廃棄物を取り除くために配備される。この処理水は、処理水用流れラインに送られる。
【００２３】
処理水の流れラインを流れる水は、第２洗浄ゾーンに供給される。すすぎ洗いゾーンの中を流れる水は、第１洗浄ゾーン及び／又は第２洗浄ゾーンに送られ、選択的に、仕上げすすぎ洗い及び仕上げゾーンに送られる。再利用水用流れラインを流れる水は、洗濯物を水に浸す入口ゾーンで使用される。清水用ヘッダーは、洗濯物を水に浸す入口ゾーン、第１洗浄ゾーン、第２洗浄ゾーン、すすぎ洗いゾーン、並びに、仕上げすすぎ洗い及び仕上げゾーンへ水を選択的に供給することができる。
【００２４】
＜発明の詳細な説明＞
図１において、本発明のトンネル形バッチ式洗濯機の全体を符号(20)で示している。トンネル形バッチ式洗濯機(20)は、入口端部(18)(例えばホッパー)と出口端部(19)を有している。ハウジング(20A)には、複数の区画室(1)〜(12)が設けられている。区画室の数はさらに多くてもよい。区画室の数は、最大３２個が望ましいが、これに限定されるものではない。区画室(1)〜(12)は、ハウジング(20A)の側部隔壁によって区画形成される。ハウジング(20A)は、水収容部を具えている。区画室(1)〜(12)のうち１又は２以上の区画室は、回転可能なドラムを具えることができる。各ドラムのシュートにより、当該ドラムから次のドラムへ洗濯物が移送される。この様に各ドラムは、入口と出口を有しており、洗濯物は各ドラムに入り、出て行くことができる。
【００２５】
表１に挙げたペレリン・ミルナアー特許のうち１又は２以上の特許は、トンネル形バッチ式洗濯機の一般的概念を開示しており、ハウジングと、水収容部と、複数の区画室と、区画室内に収容されたドラムと、各ドラムに連繋され、洗濯すべき衣類その他の物品を当該ドラムから次のドラムへ移送させるシュートとを含んでいる。表１及び表２に掲げた特許の各々は、引用をもって本願への記載加入とする。
【００２６】
ハウジング(20A)には、洗濯物を水に浸す工程、第１洗浄工程、第２洗浄工程、すすぎ洗い工程、仕上げすすぎ洗い／仕上げ工程という５つの工程を行なうゾーンがある。洗濯物を水に浸すゾーン(13)が、入口(18)に隣接して設けられる。このゾーン(13)には、ホッパー又はシュートが配備され、これらを通じて、衣類、リネン類、布類又はその他の洗濯物がハウジング(20A)へ投入される。この様に、番号(1)の区画室は、洗濯物を水に浸す入口ゾーン(13)を構成する。番号(2)(3)(4)(5)の区画室は、第１洗浄ゾーン(14)を構成する。番号(6)(7)(8)(9)の区画室は、第２洗浄ゾーン(15)を構成する。番号(10)(11)の区画室は、すすぎ洗いゾーン(16)を構成する。番号(12)の区画室は、仕上げすすぎ洗い及び仕上げゾーン(17)を構成する。
【００２７】
洗濯作業において、洗浄物は、矢印(21)の方向へ移動し、入口(18)からハウジング(20A)に入り、出口(19)からハウジング(20A)を出る。一般的に、ハウジング(20A)内での水の流れは、矢印(21)と反対の方向である。出口(19)から出た洗濯物は、絞り機(press)に送られる。なお、絞り機については、当該分野で公知であるため、ここでの説明は省略する。絞り機で絞り出された水は、タンク(22)の中に収容される。洗濯物は、矢印(23)に示されるように、ハウジング(20A)から絞り機へ移送され、絞り機にてリネン類又はその他の洗濯物から絞り取られた水は、戻しタンク(22)に集められる。
【００２８】
本発明の装置(20)は、異なる４つのヘッダー又は流れラインを具えている。これらは、清水用ヘッダー(24)、洗浄水の流れライン(49)、処理水の流れライン(50)及び再利用水の流れライン(51)を含んでいる。
【００２９】
様々なヘッダーと流れライン(24)(49)(50)(51)により、水は、ハウジング(20A)の異なるゾーンに供給される。例えば、流れライン(50)の中を流れる処理水は、第２洗浄ゾーン(15)で再利用される。流れライン(49)の中を流れるすすぎ水は、所望により、第１洗浄ゾーン(14)、第２洗浄ゾーン(15)、すすぎ洗いゾーン(16)、仕上げすすぎ洗い及び仕上げゾーン(17)で適宜使用される。流れライン(51)の中を流れる再利用水は、絞り機の絞り水回収タンク(22)、すすぎ洗いゾーン(16)、仕上げすすぎ洗い及び仕上げゾーン(17)から集められた水である。この再利用水は、流れライン(51)を通って、洗濯物を水に浸す入口ゾーン(13)へ送られる。清水は、所望により、清水用ヘッダー(24)により、洗濯物を水に浸すゾーン(13)へ供給され、第１洗浄ゾーン(14)、第２洗浄ゾーン(15)、すすぎ洗いゾーン(16)、仕上げすすぎ洗い及び仕上げゾーン(17)に送られる。
【００３０】
様々なヘッダー又は流れライン(24)(49)(50)(51)から、選択された工程に加えられる水の割合を制御するために、複数の調節弁(25)〜(34)が配備される。例えば、洗濯物を水に浸す段階(13)では、再利用水と清水が、夫々のヘッダー(51)(24)より供給される。調節弁(25)は、ライン(51)内の再利用水の流れを制御する。弁(26)は、洗濯物を水に浸すゾーン(13)に加えられるライン(24)内の清水を制御する。調節弁(27)は、ヘッダー(24)内の清水の流れを制御する。調節弁(28)は、ライン(24)(49)を介して第１洗浄ゾーン(14)に加えられる流れライン(49)内のすすぎ水を制御する。調節弁(29)(30)(31)は、第２洗浄ゾーン(15)に加えられる水の流れを制御する。弁(29)は、ヘッダー(24)から第２洗浄ゾーン(15)に加えられる清水の流れを制御する。弁(30)は、流れライン(49)から第２洗浄ゾーンに加えられるすすぎ水の流れを制御し、弁(30)は、流れライン(50)から第２洗浄ゾーンに加えられる処理水の流れを制御する。弁(25)〜(34)と、ライン(24)(49)(50)(51)の中の流れを駆動するポンプを制御するために、コンピュータを用いることができる。調節弁(25)〜(34)は、市販されているものを用いることができる。
【００３１】
ヘッダー(24)から送られる清水は、調節弁(32)で制御され、すすぎ洗いゾーン(16)に供給される。ヘッダー(24)からの清水はまた、弁(33)で制御され、仕上げすすぎ洗い及び仕上げゾーン(17)に供給される。また、仕上げすすぎ洗い及び仕上げゾーン(17)には、弁(34)に制御されて、流れライン(49)のすすぎ水が供給される。
【００３２】
また、タンク(35)が配備されており、すすぎ洗いゾーン(16)と、仕上げすすぎ洗い及び仕上げゾーン(17)を通り、ハウジング(20A)をから出た水は、タンク(35)に収容される。タンク(35)は、サブタンク(36)(37)を有している。第２洗浄ゾーンから、第２洗浄ゾーンの流れライン(53)を通る流れを収容するために、タンク(38)が配備される。流れライン(54)は、すすぎ洗いゾーン(16)からタンク(35)へ水を送るために配備される。流れライン(55)は、仕上げすすぎ洗い及び仕上げゾーン(17)からタンク(25)へ水を送るために配備される。流れライン(53)は、第２洗浄ゾーン(15)の下流に、２つの弁(46)(47)を具える分岐部を有する。これらの弁(46)(47)は、タンク(38)へ送られる水の流れ、例えば下水管へ排出される水の流れを制御する。タンク(38)は、流れライン(60)に連通しており、水は流れラインの中を通り、弁(48)を経てポンプ(42)へ供給される。ライン(60)を通る水は、洗浄に用いられ、再利用される水である。この処理工程には、遠心分離と清浄化(43)、オゾン注入(44)、炭素濾過、紫外線処理、及び／又は逆浸透濾過を含むことができる。流れライン(61)は、分離器(43)で分離された廃棄固形物が適当な廃棄場へ送られることを示している。
【００３３】
絞り機で絞り出された水はタンク(22)に戻されるが、タンク(22)の水は、流れライン(56)を通じて、タンク(35)に送られる。流れライン(56)には、ポンプ(39)とポンプ吸引ライン(57)通って水が流れる。タンク(35)に入れられた水は、濁度センサー(45)の如きセンサーを用いて水質検査が行われる。水質については、全浮遊固形分(total suspended solids)に関して検査することができ、これら全浮遊固形分は、１００ｐｐｍより少ないことが望ましい。吸引ライン(58)は、ポンプ(40)に連通しており、タンク(35)からの水は、ライン(58)を通って、流れライン(49)の中に水が送給される。タンク(35)内の水の一部は、ポンプ(41)によって吸引され、吸引ライン(59)からライン(51)の中を通り、再利用水として、洗濯物を水に浸すゾーン(13)へ送り込まれる。
【００３４】
濁度センサー(45)により、タンク(35)(38)内の水質を測定することができる。水質検査では、全浮遊固形分が、１００ｐｐｍよりも少ないかどうか検査される。水質の検査結果により、その水を、すすぎ水用流れライン(49)へ送るべきか、再利用水用流れライン(51)へ送るべきかが決定される。濁度センサー(45)によるタンク(34)検査の結果、タンク(35)内の水が汚れすぎてすすぎ水として使用できない場合、ポンプ(41)が作動、ポンプ(40)が停止して、タンク(35)の水は、再利用流れライン(51)にのみ送られる。濁度センサー(45)がタンク(35)内の水質は十分良好であることを示した場合、ポンプ(41)が停止、ポンプ(40)が作動して、タンク(35)内にある水は、すすぎ水に供するため、流れライン(49)の中に送られる。
【００３５】
ヘッダー又は流れラインから流れる水の割合を、調節弁で制御した後、流体を様々なゾーン(13)〜(17)へ供給するために、流れラインが配備される。例えば、第１洗浄ゾーンの流れライン(52)は、弁(27)(28)を通って、清水用ヘッダー(24)又はすすぎ洗い水用流れライン(49)のどちらか一方の水が流れる。第２洗浄ゾーンの流れライン(53)は、弁(29)(30)(31)を通過した水が流れる。弁(29)は、清水の流れを制御し、弁(30)は、すすぎ洗い水の流れを制御し、弁(31)は、処理水の流れを制御する。すすぎ洗い用流れライン(54)は、弁(32)によって制御されたヘッダー(24)からの水が直接流れる。仕上げすすぎ洗い水用流れライン(55)は、弁(33)(34)を通る水が流れる。この水には、ヘッダー(34)からの清水と流れライン(49)からのすすぎ洗い水が所定量含まれている。
【００３６】
コンピュータ制御をプログラミングすることにより、各々の水循環路から５つの各ゾーンへ送給される水の割合を設定することができる。これらの設定は、洗濯物の種類に応じて行われる。種類の異なる洗濯物が隣接モジュールに存在する場合、コンピュータ制御により、水の流れと割合を、清水を多く使用するプログラムに設定することができる。さらにまた、コンピュータ制御により、化学剤と水循環路の適合性を考慮して、化学剤の安全性が最も高くなるように清水を使用するプログラムに設定することもできる。
【００３７】
洗濯物を水に浸すゾーン(13)から流れライン(62)を通って出た水は、一般的には、適当な廃棄場に送られる廃水である。第１洗浄ゾーン(52)から出た水については、適当な廃棄場に廃棄してもいいし、流れライン(63)を通って再利用水用流れライン(51)に送り、再利用水として使用することもできる。
【００３８】
図２は、様々なゾーンで水を再利用するための水の望ましい範囲を示している。この範囲は、ほぼ０から図面に記載された量である。
【図面の簡単な説明】
【００３９】
【図１】図１は、本発明の装置の望ましい実施例のフローチャート図である。
【図２】図２は、望ましい範囲の水量を示す図である。
【符号の説明】
【００４０】
(1) 区画室
(2) 区画室
(3) 区画室
(4) 区画室
(5) 区画室
(6) 区画室
(7) 区画室
(8) 区画室
(9) 区画室
(10) 区画室
(11) 区画室
(12) 区画室
(13) 洗濯物を水に浸すゾーン
(14) 第１洗浄ゾーン
(15) 第２洗浄ゾーン
(16) すすぎ洗いゾーン
(17) 仕上げすすぎ洗い及び仕上げゾーン
(18) 入口
(19) 出口
(20) トンネル形バッチ式洗濯機
(20A) ハウジング
(21) 矢印
(22) 絞り機で絞り出された水の戻りタンク
(23) 矢印
(24) 清水用ヘッダー
(25) 調節弁
(26) 調節弁
(27) 調節弁
(28) 調節弁
(29) 調節弁
(30) 調節弁
(31) 調節弁
(32) 調節弁
(33) 調節弁
(34) 調節弁
(35) タンク
(36) サブタンク
(37) サブタンク
(38) タンク
(39) ポンプ
(40) ポンプ
(41) ポンプ
(42) ポンプ
(43) 遠心分離機
(44) オゾン注入器
(45) 濁度センサー
(46) 弁
(47) 弁
(48) 弁
(49) すすぎ水用流れライン
(50) 処理水用流れライン
(51) すすぎ水用流れライン
(52) 第１洗浄ゾーンへの流れライン
(53) 第２洗浄ゾーンへの流れライン
(54) すすぎ水用流れライン
(55) 仕上げすすぎ水用流れライン
(56) 絞り機から絞り出された水の流れライン
(57) ポンプ吸引ライン
(58) ポンプ吸引ライン
(59) ポンプ吸引ライン
(60) ポンプ吸引ライン
(61) 廃棄固形物用流れライン
(62) 廃水用流れライン
(63) 再利用水用流れライン【Technical field】
[0001]
The present invention relates to a continuous batch type washing machine. Specifically, the present invention relates to a continuous batch type washing machine characterized by an improved plurality of water circulation recycling mechanisms. More specifically, the present invention relates to an improved continuous batch washing machine having three additional water circuits in addition to the fresh water circuit. Additional water circuits include recycle water, rinse water and treated water water circuits. The system of the present invention can significantly improve energy and water storage and reduce running costs.
[Background Art]
[0002]
Washing machines, referred to in the industry as "tunnel washing machines", have a series of drums or baskets rotatably mounted within a housing and include a liquor tub for each wash cycle. Each drum is deployed in a single compartment or a series of compartments forming a tunnel. Laundry (such as cloth products) is sequentially transferred from drum to drum. There is an intermediate cleaning step, in which liquid is circulated through the compartments of each drum to replenish the liquid tank and the liquid is maintained at a predetermined volume during each cleaning cycle. Thus, the laundry is sent from the hopper to the leading drum at the front end, through the intermediate drum, and out of the last drum at the rear end of the passage in a continuous batch fashion.
[0003]
Depending on the structure and mechanism of each washing machine, pre-washing is performed by circulating water through one or more drum compartments in front of the washing machine, and in some compartments of the next washing stage, It is also possible to circulate by adding a detergent or a pH adjuster. The laundry can then, if desired, be bleached or conditioned rinsed with water circulating in one or more subsequent drum compartments. Water circulates through the compartments of the final drum. In some cases, the liquid may not pass from one end of the washing machine to the other end. For example, depending on the type of liquid, it may not be mixed.
[0004]
Various patents have been issued for a tunnel-type continuous washing machine, a batch-type washing machine, and methods of using them. Perelin Milnaer Corporation of Kenner, Louisiana, the assignee of the present invention, is the assignee of several "tunnel-type washing machines" listed in Table 1.
[0005]
[Table 1]

[0006]
[Table 2]

[0007]
Tunnel type washing machines are generally very large machines used for business. The user may be, for example, a hotel or a hospital.
Tunnel washing machines consume large amounts of water on an annual basis. Also, a considerable amount of energy is required for heating. On a yearly basis, the cost of water and energy required for the facility can be hundreds of thousands of dollars.
DISCLOSURE OF THE INVENTION
[0008]
<Summary of the Invention>
The present invention provides an improved tunnel type washing machine that saves energy and water. The system of the present invention is characterized in that in addition to a fresh water loop, three types of water circulation paths are provided. Additional circuit water can include recycle water, rinse water, and treated water.
[0009]
In a preferred embodiment of the improved tunnel washing machine of the present invention, the zone for immersing the laundry in a water, a first washing zone, a second washing zone, a main rinse zone, a finish rinse / It has five zones of a finishing zone (fine rinse / finishing zone).
[0010]
The water circulation path of the present invention can minimize consumption of fresh water by appropriately mixing four types of water supplied from the four circulation paths. The mixing ratio is appropriately selected according to the type of linen at various stages in the tunnel and the dynamic quality of each water in each circulation path.
Thus, the present invention provides an improved ratiometric flow mechanism and a tunnel type washing machine system.
[0011]
The water used in the wash zone is treated in-line and recirculated through the first and second wash zones of the device. A major part of the stream in the second wash zone is recirculated. What is added is only make-up water that supplements the amount removed by the filtering member.
Water treatment uses an oxidizing agent to break down organic matter and a centrifuge to remove suspended matter.
[0012]
By directly reusing this water, the required heating energy is significantly reduced since the water is maintained at the set temperature. Heretofore, this water was sent to a sewer or central water treatment system, resulting in a loss of energy and high costs added to the equipment system.
So far, attempts have been made to use water treated in central water treatment systems, but without success due to temperature and chemical incompatibility.
[0013]
In the second wash zone, the recirculation liquid flows at up to 300% of the conventional flow rate, so the dilution rate is higher than in conventional devices.
The purpose of increasing the flow rate is to improve the cleaning effect by increasing the dilution amount, as shown in Table 3 below.
[0014]
[Table 3]

[0015]
It is desirable to use a sensor (eg, a turbidity sensor) to measure the water quality in the wash water zone. When the set point is reached, increase the fresh water to dilute the concentration of dissolved solids. This water is then treated to improve its quality. Ozone, alone or with other oxidants, is injected directly into the stream of treated water pumped to decompose organic compounds. Chlorine dioxide can be used instead of the oxidizing agent, or ultraviolet treatment can be performed. These can be used instead of or in addition to ozone. If necessary, the stream of treated water can be filtered using an in-line filter to further purify the treated water. The suspended solids can be removed using a centrifuge or a suitable filter. Preferably, suspended solids are reduced to about 50-500 ppm, more preferably to 100 ppm.
[0016]
The last module or cell is constructed in such a way that the water used for rinsing can be used as overflow water for the final rinse. This water is collected in a tank and reused as a part of the flushing water in a zone (entrance) zone where the laundry is soaked in water.
[0017]
Next, the operation of the device of the present invention will be described. After startup and stabilization of the device, fresh water is introduced into the last compartment or module of the rinsing zone. Water flows to the first module in the rinse zone. Water is collected in a tank. The flow rate in the rinse zone is selected based on the type of laundry being washed. The flow rate can be varied depending on the degree of soiling of different batches of laundry. For example, when a heavily soiled laundry comes after a lightly soiled laundry, the amount of water in the rinsing zone is increased, the detergent is increased, and the alkali concentration is increased. Further, the concentration of the dissolved solid in the tank is measured. If the concentration is higher than the selected set value, increase the flow rate of fresh water. Computers can be used with sensors to monitor water quality. By computer control of the plurality of control valves, the water quality level of the water added to the device at various compartments or at the stage including the plurality of compartments can be automatically maintained.
[0018]
The percentage of rinse water that is recycled in the first wash zone is the highest compared to the water flow sent to the second wash zone and the final rinse zone. The first wash zone can also be set to mix with fresh water, if desired.
[0019]
In the second washing zone, about 20% of washing water and 10% of fresh water are mixed mainly by reusing water that has been treated by itself. These numbers are generally programmable in the range of about 0% to about 65% wash water and about 0% to about 65% clear water.
[0020]
As described above, the present invention provides an improved continuous-tunnel-type batch washing machine. The washing machine has an inlet at one of opposite ends and an outlet at the other, and has a water storage portion for washing. An elongate outer housing.
[0021]
At least a portion of the housing is divided into a plurality of compartments by a plurality of side walls. The housing contains a plurality of drums, preferably one per compartment. Each drum is rotatably supported in the frame of the water storage unit and has an inlet for putting laundry into the drum and an outlet for discharging laundry from the drum.
[0022]
A fresh water header is provided to supply water to the water reservoir of the housing.
The rinsing flow line allows the water drained from the water reservoir of the housing to be reused.
In the treated water flow line, water discharged for reuse from the water storage portion of the housing flows.
Water treatment is provided for removing solid waste from water discharged from the water reservoir of the housing. This treated water is sent to a treated water flow line.
[0023]
Water flowing through the treated water flow line is supplied to the second washing zone. The water flowing in the rinsing zone is sent to a first washing zone and / or a second washing zone, and optionally to a finish rinsing and finishing zone. The water flowing through the recycled water flow line is used in an inlet zone where the laundry is immersed in the water. The fresh water header can selectively supply water to an inlet zone for immersing the laundry in water, a first wash zone, a second wash zone, a rinse zone, and a finish rinse and finish zone.
[0024]
<Detailed Description of the Invention>
In FIG. 1, the whole tunnel type batch type washing machine of the present invention is indicated by reference numeral (20). The tunnel-type batch type washing machine (20) has an inlet end (18) (for example, a hopper) and an outlet end (19). The housing (20A) is provided with a plurality of compartments (1) to (12). The number of compartments may be even greater. The number of compartments is desirably 32 at the maximum, but is not limited to this. The compartments (1) to (12) are defined by side partitions of the housing (20A). The housing (20A) includes a water storage unit. One or more of the compartments (1)-(12) may comprise rotatable drums. The chute of each drum transfers the laundry from the drum to the next drum. Thus, each drum has an inlet and an outlet so that laundry can enter and exit each drum.
[0025]
One or more of the Perelin-Milnaer patents listed in Table 1 disclose the general concept of a tunnel-type batch washing machine, comprising a housing, a water storage, a plurality of compartments, and a compartment. The drum includes a drum housed in the room and a chute connected to each drum for transferring clothes and other articles to be washed from the drum to the next drum. Each of the patents listed in Tables 1 and 2 is incorporated herein by reference.
[0026]
The housing (20A) has a zone for performing five steps: a step of immersing the laundry in water, a first cleaning step, a second cleaning step, a rinsing step, and a final rinsing / finishing step. A zone (13) for soaking laundry in water is provided adjacent to the entrance (18). In this zone (13), a hopper or a chute is provided, through which clothes, linens, cloths or other laundry is put into the housing (20A). Thus, the compartment (1) constitutes the entrance zone (13) for immersing laundry in water. The compartments numbered (2), (3), (4), and (5) constitute a first washing zone (14). The compartments numbered (6), (7), (8) and (9) constitute a second washing zone (15). The compartments numbered (10) and (11) constitute a rinse zone (16). The compartment numbered (12) constitutes a finish rinse and finish zone (17).
[0027]
In the washing operation, the washing moves in the direction of the arrow (21), enters the housing (20A) from the entrance (18), and exits the housing (20A) from the exit (19). Generally, the flow of water in the housing (20A) is in the direction opposite to the arrow (21). The laundry exiting from the exit (19) is sent to a press. In addition, since the iris is known in the art, a description thereof will be omitted. The water squeezed out by the squeezing machine is stored in a tank (22). The laundry is transferred from the housing (20A) to the squeezing machine as indicated by an arrow (23), and the water squeezed from the linens or other laundry by the squeezing machine is returned to the return tank (22). Collected.
[0028]
The apparatus (20) of the present invention comprises four different headers or flow lines. These include a fresh water header (24), a wash water flow line (49), a treated water flow line (50) and a recycle water flow line (51).
[0029]
Water is supplied to different zones of the housing (20A) by various headers and flow lines (24) (49) (50) (51). For example, the treated water flowing in the flow line (50) is reused in the second washing zone (15). The rinsing water flowing in the flow line (49) is optionally provided in the first washing zone (14), the second washing zone (15), the rinsing zone (16), the final rinsing and finishing zone (17). used. The recycle water flowing in the flow line (51) is the water collected from the squeeze water recovery tank (22), the rinse zone (16), the finish rinse and finish zone (17). This recycled water is sent through a flow line (51) to an inlet zone (13) where the laundry is soaked in water. Fresh water is supplied, if desired, by a fresh water header (24) to a zone (13) for immersing the laundry in water, a first washing zone (14), a second washing zone (15), and a rinsing zone (16). Sent to the finishing rinse and finishing zone (17).
[0030]
From various headers or flow lines (24) (49) (50) (51), multiple control valves (25)-(34) are provided to control the proportion of water added to the selected process. You. For example, in the step (13) of immersing laundry in water, reused water and fresh water are supplied from respective headers (51) and (24). The control valve (25) controls the flow of the reuse water in the line (51). The valve (26) controls the fresh water in the line (24) applied to the zone (13) for immersing the laundry in water. The control valve (27) controls the flow of fresh water in the header (24). The control valve (28) controls the rinse water in the flow line (49) which is added to the first washing zone (14) via the lines (24) (49). The control valves (29), (30), (31) control the flow of water added to the second washing zone (15). A valve (29) controls the flow of fresh water from the header (24) to the second washing zone (15). Valve (30) controls the flow of rinse water added from flow line (49) to the second wash zone, and valve (30) controls the flow of treated water added from flow line (50) to the second wash zone. Control. A computer can be used to control the valves (25)-(34) and the pumps that drive the flow in the lines (24) (49) (50) (51). As the control valves (25) to (34), commercially available ones can be used.
[0031]
Fresh water sent from the header (24) is controlled by the control valve (32) and supplied to the rinsing zone (16). Fresh water from the header (24) is also controlled by the valve (33) and supplied to the finish rinse and finish zone (17). The finish rinse and finish zone (17) is supplied with rinse water in the flow line (49) under the control of the valve (34).
[0032]
In addition, a tank (35) is provided.Water passing from the housing (20A) through the rinse zone (16) and the finish rinse and finish zone (17) is stored in the tank (35). You. The tank (35) has sub-tanks (36) (37). From the second wash zone, a tank (38) is provided to accommodate the flow through the flow line (53) of the second wash zone. A flow line (54) is provided for sending water from the rinsing zone (16) to the tank (35). A flow line (55) is provided for sending water from the finish rinse and finishing zone (17) to the tank (25). The flow line (53) has a branch downstream of the second washing zone (15) with two valves (46) (47). These valves (46), (47) control the flow of water sent to the tank (38), for example, the flow of water discharged to the sewer. The tank (38) communicates with the flow line (60), and water passes through the flow line and is supplied to the pump (42) via the valve (48). The water passing through the line (60) is the water used for cleaning and reused. This processing step can include centrifugation and cleaning (43), ozone injection (44), carbon filtration, UV treatment, and / or reverse osmosis filtration. The flow line (61) indicates that the waste solids separated in the separator (43) are sent to a suitable dump.
[0033]
The water squeezed out by the squeezing machine is returned to the tank (22), and the water in the tank (22) is sent to the tank (35) through the flow line (56). Water flows through the flow line (56) through the pump (39) and the pump suction line (57). The water put in the tank (35) is subjected to a water quality test using a sensor such as a turbidity sensor (45). The quality of the water can be checked for total suspended solids, which are preferably less than 100 ppm. The suction line (58) is in communication with the pump (40), and water from the tank (35) is fed through the line (58) into the flow line (49). Part of the water in the tank (35) is sucked by the pump (41), passes through the line (51) from the suction line (59), and immerses the laundry in water as reuse water (13). Sent to
[0034]
The water quality in the tanks (35) and (38) can be measured by the turbidity sensor (45). In the water quality test, it is checked whether the total suspended solid content is less than 100 ppm. The result of the water quality test determines whether the water should be sent to the rinse water flow line (49) or to the recycled water flow line (51). As a result of the inspection of the tank (34) by the turbidity sensor (45), if the water in the tank (35) is too dirty and cannot be used as rinsing water, the pump (41) operates, the pump (40) stops, and the tank (40) stops. The water of (35) is sent only to the recycle flow line (51). If the turbidity sensor (45) indicates that the quality of the water in the tank (35) is good enough, the pump (41) stops, the pump (40) operates and the water in the tank (35) is , And into a flow line (49) for rinsing water.
[0035]
After the rate of water flowing from the header or flow line is controlled by a regulating valve, a flow line is provided to supply fluid to the various zones (13)-(17). For example, the flow line (52) of the first wash zone flows through the valves (27) and (28) with water from either the fresh water header (24) or the rinse water flow line (49). The water passing through the valves (29), (30), (31) flows through the flow line (53) of the second washing zone. The valve (29) controls the flow of fresh water, the valve (30) controls the flow of rinse water, and the valve (31) controls the flow of treated water. Rinse flow line (54) allows water to flow directly from header (24) controlled by valve (32). The finish rinse water flow line (55) allows water to flow through valves (33) and (34). This water contains a predetermined amount of fresh water from the header (34) and rinse water from the flow line (49).
[0036]
By programming the computer controls, the percentage of water delivered from each water circuit to each of the five zones can be set. These settings are made according to the type of laundry. If different types of laundry are present in adjacent modules, the flow and percentage of water can be set in a program that uses fresh water heavily by computer control. Still further, by computer control, a program using fresh water can be set so that the safety of the chemical agent is maximized in consideration of the compatibility between the chemical agent and the water circulation path.
[0037]
The water exiting the laundry soaking zone (13) through the flow line (62) is typically wastewater sent to a suitable dump. The water discharged from the first washing zone (52) may be discarded at an appropriate disposal site, or sent to the recycle water flow line (51) through the flow line (63) to be used as recycle water. Can also be used.
[0038]
FIG. 2 shows a desired range of water for reusing water in various zones. This range is approximately 0 to the amount described in the figures.
[Brief description of the drawings]
[0039]
FIG. 1 is a flow chart of a preferred embodiment of the apparatus of the present invention.
FIG. 2 is a diagram showing a water amount in a desirable range.
[Explanation of symbols]
[0040]
(1) Compartment room
(2) Compartment room
(3) Compartment room
(4) Compartment room
(5) Compartment room
(6) Compartment room
(7) Compartment room
(8) Compartment room
(9) Compartment room
(10) Compartment room
(11) Compartment room
(12) Compartment room
(13) Zone to soak laundry in water
(14) First washing zone
(15) Second washing zone
(16) Rinse zone
(17) Finish rinse and finish zone
(18) Entrance
(19) Exit
(20) Tunnel type batch type washing machine
(20A) Housing
(21) Arrow
(22) Return tank of water squeezed out by squeezing machine
(23) Arrow
(24) Shimizu header
(25) Control valve
(26) Control valve
(27) Control valve
(28) Control valve
(29) Control valve
(30) Control valve
(31) Control valve
(32) Control valve
(33) Control valve
(34) Control valve
(35) Tank
(36) Sub tank
(37) Sub tank
(38) Tank
(39) Pump
(40) Pump
(41) Pump
(42) Pump
(43) Centrifuge
(44) Ozone injector
(45) Turbidity sensor
(46) Valve
(47) Valve
(48) Valve
(49) Rinse water flow line
(50) Flow line for treated water
(51) Rinse water flow line
(52) Flow line to first washing zone
(53) Flow line to the second washing zone
(54) Rinse water flow line
(55) Finish rinse water flow line
(56) Flow line of water squeezed from the squeezing machine
(57) Pump suction line
(58) Pump suction line
(59) Pump suction line
(60) Pump suction line
(61) Waste solids flow line
(62) Wastewater flow line
(63) Reuse water flow line

Claims (44)

a) an elongate outer housing having a water reservoir with an inlet at one of the opposing ends and an outlet at the other;
b) a plurality of side walls dividing at least a portion of the housing into a plurality of compartments;
c) A plurality of drums are housed in the housing, each drum being rotatably supported in a frame of the water storage section, a drum inlet for putting laundry into the drum, and a drum inlet for discharging laundry from the drum. A drum outlet, at least some of the compartments having a drum therein;
d) a header for fresh water for supplying fresh water to the water storage portion of the housing;
e) a rinse water flow line through which water discharged from the water reservoir of the housing passes;
f) a treated water flow line through which water discharged from the water storage portion of the housing passes;
g) means for removing solid waste from water flowing through at least one of the flow lines through which the water discharged from the water reservoir of the housing passes to feed the treated water to the treated water flow line; With
h) Tunnel type continuous batch type washing machine in which water flowing through a treated water flow line is supplied to a washing zone. The continuous washing machine according to claim 1, wherein the water flowing through the rinsing water flow zone is supplied to the washing zone. The continuous batch type washing machine according to claim 1, wherein the amount of water flowing through the treated water flow line is larger than the amount of water flowing through the fresh water header. 2. The continuous batch type washing machine according to claim 1, wherein the amount of water flowing through the flow line for treated water is larger than the amount of water flowing through the flow line for rinsing. 2. The continuous batch type washing machine according to claim 1, further comprising a turbidity meter for monitoring turbidity of water discharged from a water storage portion of the housing. 2. The continuous batch washing machine of claim 1 further comprising a plurality of valves for automatically metering the flow of water from the treated and rinse water to the compartment. The tunnel type continuous batch type washing machine according to claim 1, further comprising a plurality of valves for automatically measuring the flow of water from the treated water and fresh water to the compartment. 2. The continuous batch washing machine of claim 1 further comprising a plurality of valves for automatically metering the flow of water from the rinse and fresh water to the compartment. The continuous batch washing machine of claim 1 wherein the means for removing solid waste comprises a centrifuge. 3. The continuous batch washing machine of claim 1 further comprising means for injecting ozone into the treated water flow line. a) an elongate outer housing having a hopper inlet at one of the opposite ends and an outlet at the other, and having a water reservoir;
b) a plurality of side walls dividing at least a portion of the housing into a plurality of compartments;
c) A plurality of drums are housed in the housing, each drum being rotatably supported in a frame of the water storage section, a drum inlet for putting laundry into the drum, and a drum inlet for discharging laundry from the drum. A drum outlet, at least some of the compartments having a drum therein;
d) at least the plurality of drums have inclined chutes for transferring laundry from one compartment to another adjacent compartment when the drum rotates a predetermined angle;
e) a header for fresh water for supplying fresh water to the water storage portion of the housing;
f) a rinse water flow line through which water discharged from the water reservoir of the housing passes;
g) a treated water flow line through which water discharged from the water storage portion of the housing passes;
h) means for removing solid waste from water flowing through at least one of the flow lines through which the water discharged from the water reservoir of the housing passes to feed the treated water to the treated water flow line; With
i) Tunnel type continuous batch type washing machine in which water flowing through a treated water flow line is supplied to a washing zone. a) an elongate outer housing having a water reservoir with an inlet at one of the opposing ends and an outlet at the other;
b) a plurality of side walls dividing at least a portion of the housing into a plurality of compartments;
c) A plurality of drums are housed in the housing, each drum being rotatably supported in a frame of the water storage section, a drum inlet for putting laundry into the drum, and a drum inlet for discharging laundry from the drum. A drum outlet, at least some of the compartments having a drum therein;
d) a header for fresh water for supplying fresh water to the water storage portion of the housing;
e) a rinse water flow line through which water discharged from the water reservoir of the housing passes;
f) a treated water flow line which is discharged from the water storage section of the housing and through which a greater flow of water flows than the fresh water header or rinse water flow line;
g) A separator for removing solid waste from water flowing through at least one of the flow lines through which water discharged from the water storage portion of the housing passes to feed the treated water to the treated water flow line. ,
h) A tunnel-type continuous batch washing machine in which at least a portion of the water flowing through the treated water flow line is supplied to the washing zone. 13. The continuous batch type washing machine according to claim 12, wherein water flowing through the flow zone for rinsing water is supplied to the washing zone. 13. The continuous batch type washing machine according to claim 12, wherein the amount of water flowing through the treated water flow line is larger than the amount of water flowing through the fresh water header. 13. The continuous batch type washing machine according to claim 12, wherein the amount of water flowing through the flow line for treated water is larger than the amount of water flowing through the flow line for rinsing. The continuous batch type washing machine according to claim 12, further comprising a turbidity meter for monitoring turbidity of water discharged from a water storage portion of the housing. 13. The continuous batch washing machine of claim 12, further comprising a plurality of valves for automatically metering water flow from the treated and rinse water to the compartment. 13. The continuous washing machine according to claim 12, further comprising a plurality of valves for automatically measuring the flow of water from the treated water and fresh water to the compartment. 13. The continuous batch washing machine of claim 12, further comprising a plurality of valves for automatically metering water flow from the rinse water and fresh water to the compartment. 13. The continuous batch washing machine of claim 12, wherein the means for separating solids comprises a centrifuge. 13. The continuous batch washing machine of claim 12, further comprising means for injecting ozone into the treated water flow line. a) an elongate outer housing having a hopper inlet at one of the opposite ends and an outlet at the other, and having a water reservoir;
b) a plurality of side walls dividing at least a portion of the housing into a plurality of compartments;
c) A plurality of drums are housed in the housing, each drum being rotatably supported in a frame of the water storage section, a drum inlet for putting laundry into the drum, and a drum inlet for discharging laundry from the drum. A drum outlet, at least some of the compartments having a drum therein;
d) at least the plurality of drums have inclined chutes for transferring laundry from one compartment to another adjacent compartment when the drum rotates a predetermined angle;
e) a header for fresh water for supplying fresh water to the water storage portion of the housing;
f) a rinse water flow line through which water discharged from the water reservoir of the housing passes;
g) a treated water flow line through which water discharged from the water storage portion of the housing passes;
h) means for removing solid waste from water flowing through at least one of the flow lines through which the water discharged from the water reservoir of the housing passes to feed the treated water to the treated water flow line; With
i) A tunnel-type continuous batch type washing machine, wherein a flow rate of water flowing through a treated water flow line is at least twice as high as a flow rate of one of the other flow lines. a) an elongate outer housing having a water reservoir with an inlet at one of the opposing ends and an outlet at the other;
b) comprising a plurality of side walls dividing at least a part of the housing into a plurality of compartments, wherein the plurality of compartments comprises a first cleaning zone comprising one or more compartments, one or more compartments; Divided into a second washing zone, a rinsing zone comprising one or more compartments, and a finish rinsing zone comprising one or more compartments;
c) A plurality of drums are housed in the housing, each drum being rotatably supported in a frame of the water storage section, a drum inlet for putting laundry into the drum, and a drum inlet for discharging laundry from the drum. A drum outlet, at least some of the compartments having a drum therein;
d) a header for fresh water for supplying fresh water to the water storage portion of the housing;
e) a rinsing water flow line through which water discharged from the water reservoir of the housing flows and at least a portion of the water is returned to the housing;
f) a treated water flow line through which water discharged from the water storage portion of the housing flows;
g) A separator for removing solid waste from water flowing through at least one of the flow lines through which water discharged from the water storage portion of the housing passes to feed the treated water to the treated water flow line. ,
h) water flowing through the treated water flow line is supplied to the washing zone;
i) A continuous batch washing machine with a tunnel, equipped with a sensor to determine whether all or part of the rinsing water is to be discarded or sent to a recycled water flow line. 24. The continuous batch washing machine of claim 23, wherein water flowing through the rinse water flow zone is supplied to one of the wash zones. 24. The tunnel type continuous batch washing machine according to claim 23, wherein the amount of water flowing through the treated water flow line is larger than the amount of water flowing through the fresh water header. 24. The continuous batch type washing machine according to claim 23, wherein the amount of water flowing through the flow line for treated water is larger than the amount of water flowing through the flow line for rinsing. 24. The tunnel-type continuous batch type washing machine according to claim 23, wherein the sensor is a turbidity meter for monitoring turbidity of water discharged from a water storage portion of the housing. 24. The continuous batch washing machine of claim 23, further comprising a plurality of valves for automatically metering water flow from the treated and rinse water to the compartment. 24. The continuous batch washing machine of claim 23, further comprising a plurality of valves for automatically metering the flow of water from the treated and fresh water to the compartment. 24. The continuous batch washing machine of claim 23, further comprising a plurality of valves for automatically metering the flow of water from the rinse and fresh water to the compartment. The tunnel type continuous batch type washing machine according to claim 23, wherein the separator is a centrifugal separator. 24. The continuous batch washing machine of claim 23, further comprising means for injecting ozone into the treated water flow line. a) an elongate outer housing having a hopper inlet at one of the opposite ends and an outlet at the other, and having a water reservoir;
b) a plurality of side walls dividing at least a portion of the housing into a plurality of compartments;
c) A plurality of drums are housed in the housing, each drum being rotatably supported in a frame of the water storage section, a drum inlet for putting laundry into the drum, and a drum inlet for discharging laundry from the drum. A drum outlet, at least some of the compartments having a drum therein;
d) at least the plurality of drums have inclined chutes for transferring laundry from one compartment to another adjacent compartment when the drum rotates a predetermined angle;
e) a header for fresh water for supplying fresh water to the water storage portion of the housing;
f) a rinse water flow line through which water discharged from the water reservoir of the housing passes;
g) a treated water flow line through which water discharged from the water storage portion of the housing passes;
h) A separator for removing solid waste from water flowing through at least one of the flow lines through which water discharged from the water storage portion of the housing passes to feed the treated water to the treated water flow line. ,
i) water flowing through the treated water flow line is supplied to the washing zone;
j) A continuous batch type washing machine with a sensor which determines whether all or part of the rinse water is to be discarded or sent to a recycled water flow line. a) an elongate outer housing having a water reservoir with an inlet at one of the opposing ends and an outlet at the other;
b) a plurality of side walls dividing at least a portion of the housing into a plurality of compartments;
c) A plurality of drums are housed in the housing, each drum being rotatably supported in a frame of the water storage section, a drum inlet for putting laundry into the drum, and a drum inlet for discharging laundry from the drum. At least some of the compartments have a drum therein, and the housing has one or more discharge outlets for draining water from the housing;
d) a header for fresh water for supplying fresh water to the water storage portion of the housing;
e) a tank containing water discharged through the outlet;
f) a rinse water flow line through which water discharged from the tank passes;
g) a treated water flow line through which water discharged from the tank passes;
h) a separator capable of removing solid waste from the water flowing through the treated water flow line;
i) at least a portion of the water flowing through the treated water flow line is supplied to the washing zone;
j) A continuous batch type washing machine with a sensor which determines whether all or part of the rinse water is to be discarded or sent to a recycled water flow line. 35. The continuous batch washing machine of claim 34, wherein water flowing through the rinse water flow zone is supplied to the wash zone. The tunnel type continuous batch washing machine according to claim 35, wherein the amount of water flowing through the treated water flow line is larger than the amount of water flowing through the fresh water header. 36. The continuous batch type washing machine according to claim 35, wherein the amount of water flowing through the treated water flow line is larger than the amount of water flowing through the rinse flow line. 36. The continuous batch washing machine according to claim 35, wherein the sensor includes a turbidity meter for monitoring turbidity of water discharged from the water storage portion of the housing. 36. The continuous batch washing machine of claim 35, further comprising a plurality of valves for metering water flow from the treated and rinse water to the compartment. 36. The continuous continuous batch washing machine of claim 35, further comprising a plurality of valves for automatically metering the flow of water from the treated and fresh water to the compartment. 36. The continuous batch washing machine of claim 35 further comprising a plurality of valves for metering the flow of water from the rinse and fresh water to the compartment. 35. The continuous batch washing machine of claim 34, wherein the means for removing solid waste comprises a centrifuge. 36. The continuous batch washing machine of claim 35, further comprising means for injecting ozone into the treated water flow line. a) an elongate outer housing having a water reservoir with an inlet at one of the opposing ends and an outlet at the other;
b) comprising a plurality of side walls dividing at least a part of the housing into a plurality of compartments, wherein the plurality of compartments comprises a first cleaning zone comprising one or more compartments, one or more compartments; A second wash zone, a rinse zone comprising one or more compartments, a final rinse zone comprising one or more compartments,
c) A plurality of drums are housed in the housing, each drum being rotatably supported in a frame of the water storage section, a drum inlet for putting laundry into the drum, and a drum inlet for discharging laundry from the drum. A drum outlet, at least some of the compartments having a drum therein;
d) at least the plurality of drums have inclined chutes for transferring laundry from one compartment to another adjacent compartment when the drum rotates a predetermined angle;
e) a header for fresh water for supplying fresh water to the water storage portion of the housing;
f) a rinse water flow line through which the water discharged from the water reservoir of the housing flows;
g) a treated water flow line through which water discharged from the water storage section of the housing flows;
h) means for removing solid waste from water flowing through at least one of the flow lines through which the water discharged from the water reservoir of the housing flows, for feeding the treated water to the treated water flow line; With
i) A tunnel-type continuous batch type washing machine, wherein a flow rate of water flowing through a treated water flow line is at least twice as high as a flow rate of one of the other flow lines.

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