JP3799532B2 - Safety management equipment in the contaminated treatment area of medical facilities - Google Patents

Description

【０００５】
このような問題点を解決する有効な感染性排水の滅菌処理方法として、感染性排水を満たした滅菌槽の外周に設置されたジャケット内に蒸気を送入し、蒸気の熱を槽壁を通して感染性排水に作用させ、感染性排水に対流を生じさせて均一に加熱滅菌する方法とその装置が提案されている（特許文献１参照）。
【０００６】
【特許文献１】
特願２００１−２４７３５０号
【０００７】
特許文献１によれば、感染性排水の対流によって排水を均一に加熱滅菌でき、間接加熱のため、滅菌処理の作業終了後の各部メンテナンスを容易に行うことができる。このような加熱滅菌装置が正常に稼動しているかぎり、感染性排水の滅菌処理には格別問題は生じないにしても、加熱滅菌装置の故障時、あるいは感染性排水の原水槽や加熱滅菌装置を洗浄あるいはオーバーホールするようなときには、加熱滅菌装置内が直接外気に晒されて滅菌槽内や配管類に付着している病原性微生物が外気に放散され、放散された病原性微生物によって一般エリアが汚染される危険がある。
【０００８】
また、作業員の安全が確保されなければならない。このような問題は、病原性微生物による環境汚染の問題ではなくダイオキシンのような有害物の処理装置の設置エリアについても同じことが云える。
【０００９】
さらに、第一、第二類対応医療機関が「感染症の予防および感染症の患者に対する医療に関する法律」の施行に対応するには、前述のような技術的な課題の解決が迫られるほか、医療機関には感染性排水の処理エリアを確保することが求められる。地方都市や郊外の医療機関では土地の確保は比較的容易な場合が多いが、大都市には高層ビル内で運営される医療機関も多く、感染性排水の処理エリアを確保するのは必ずしも容易ではない。
【００１０】
本発明の目的は、加熱滅菌装置などの汚染物処理装置が設置された汚染物処理エリア内での作業の安全を期し、また、汚染物処理エリア内の病原性微生物あるいは有害物から一般エリアを防護する汚染物処理エリアにおける安全管理設備を提供することにある。
【００１１】
【課題を解決するための手段】
上記目的を達成するため、本発明による汚染物処理エリアにおける安全管理設備においては、処理室と、準備室とを有する汚染物処理エリアにおける安全管理設備であって、
汚染物の処理エリアは、医療施設から発生する感染性排水の処理エリアであり、
汚染物の処理エリアに建てられた処理室内には、医療施設の病床、手術室などから排出される感染性排水を貯留する原水槽を含む汚染物の処理設備が据え付けられているものであり、
処理室は、汚染物処理が設置された汚染物処理エリアを一般エリアから隔離する区画であり、室内には排気ファンが接続され、
排気ファンは、室内の空気を排気管内に吸引して一般エリアに排気するとともに処理室内を負圧に保持するものであり、その排気管に、排気を浄化するフィルターを有し、
準備室は、処理室内で作業する作業者、作業服、作業用具などを洗浄する部屋であり、処理室に通じ、排気ファンの吸引力が作用して内部は負圧に保持されるものである。
【００１２】
また、準備室は、更衣室とシャワー室であり、
更衣室は、作業員が一般エリアで着用する衣服と汚染物処理エリアで着用する防護服との着替室であり、
シャワー室は、処理室内での作業を終えた作業員の防護服や作業器具類を空気、水又は薬剤にて洗浄する室であり、
更衣室とシャワー室とは、作業員が処理室の負圧になれるための段階的減圧室をかねているものである。
【００１３】
また、処置室とシャワー室間およびシャワー室と更衣室間および更衣室と一般エリア間は、小窓で連通し、小窓には処理室内の負圧に吸引されて小窓を開放する方向に傾くバランシングダンパーが設けられているものである。
【００１４】
また、汚染物の処理エリアは、医療施設の建物の免震階の空間に設定されているものである。
【００１５】
【発明の実施の形態】
以下本発明による汚染物処理エリアにおける安全管理設備を医療施設から発生する感染性排水の処理設備に適用した例を図によって説明する。図１において、本発明による安全管理設備を装備した医療施設（病院）の感染性排水を含む汚染物の処理設備である。
【００１６】
本発明は、処理室１と、準備室２とを有する汚染物処理エリアＤＡにおける安全管理設備である。処理室１は、汚染物処理装置が設置された汚染物処理エリアＤＡを一般エリアＯＡから隔離する区画である。室内には、汚染物処理装置として例えば、間接加熱方式の滅菌槽を有する感染性排水の滅菌処理装置４が据え付けられ、床Ｆには感染性排水の原水槽５が設置されている。
【００１７】
この滅菌処理装置４は、図２に示すように槽本体６と、槽本体６の外周にまかれたジャケットを７とからなる滅菌槽８とを有するものである。原水槽５内には、病棟の各病床、手術室などに発生し，配水管３を通じて送り込まれた感染性排水が貯められ、原水槽５内の感染性排水は、真空ポンプ９に吸引されて槽本体６内に送り込まれ、槽本体６内に送り込まれた感染性排水は、ジャケット７内に送入された蒸気の熱によって加熱、滅菌される、滅菌後、市水にて冷却されて下水として放流される。
【００１８】
図２に示す滅菌処理装置は、あくまで１例であって、本発明の設備に用いる滅菌処理装置は、この例に限られるものではない。図１において、処理室１内に開口した排気管１０には排気ファン１１が接続されている。排気ファン１１は、室内の空気を排気管１０内に吸引して一般エリアＯＡに排気するとともに処理室１内を負圧に保持するものであり、排気管１０には病原性微生物を補足して排気を浄化するフィルター１２を有している。
【００１９】
原水槽５は、マンホール１３でふさがれて処理室１からは隔離されているが、未処理の感染性排水が貯められる原水槽５には、排気管１０とは別に原水槽５から外気に通ずる配管１４が差し込まれ、その配管１４の管路の途中に除菌用のフィルター１５を介装するとともに、前記排気管１０と連通させ、排気ファン１１の負圧を管路内に作用させて原水槽５内の空気を吸引し、原水槽５内から吸引された空気を除菌をして大気中に放散させている。
【００２０】
準備室２は、処理室１内で作業する作業者、防護服、作業用具などを洗浄する部屋であり、排気ファン１１の吸引力が作用して内部は負圧に保持される。この実施形態において、準備室２は、更衣室１６とシャワー室１７とに区画している。更衣室１６は、作業員が一般エリアで着用する衣服と汚染物処理エリアで着用する防護服との着替室であり、シャワー室１７は、処理室１での作業を終えた作業員の防護服や作業器具類を空気、水、薬剤にて洗浄する室である。
【００２１】
処理室１とシャワー室１７間およびシャワー室１７と更衣室１６間および更衣室１６と一般エリアＯＡ間は、互いに小窓１８で連通し、小窓１８には処理室１内の負圧に吸引されて小窓１８を開放する方向に傾くバランシングダンパー１９が設けられており、準備室２を更衣室１６と、シャワー室１７とに区画しているのは、作業員が処理室１の負圧に慣れるための段階的減圧室をかねているものである。
【００２２】
すなわち、一般エリアＯＡから作業員が汚染物処理エリアＤＡ内に立ち入るに当たっては、更衣室１６と、シャワー室１７との２室を経ることによって、負圧に保たれている処理室１に入室するまでに体を負圧に慣らすのである。シャワー室１７内には、防護服や処理室内で使用した器具類を薬品や水で洗浄するシャワー２０と乾燥空気を送風するドライヤー２１が設置されている。
【００２３】
また、更衣室１６には、ロッカー２２のほか、作業員の身体浄化用のシャワー２３などを設置している。さらに、シャワーの使用によりシャワー室１７、更衣室１６に発生した排水は、ポンプ２４に吸引され、ドレイン管２５を通して原水槽５内に排水される。
【００２４】
本発明において、医療施設の病床、手術室などから排出される感染性排水は、排水管３を通して汚染物処理エリアＤＡ内の原水槽５に貯められ、原水槽５内の排水は、図２に示す真空ポンプ９で滅菌処理装置４の槽本体６内にくみ上げられ、滅菌処理装置４内で加熱滅菌処理されたあと、下水に放流される。なお、図１中、２６は、一般エリアから処理室１内を観察する覗き窓である。
【００２５】
汚染物処理エリアＤＡ内の滅菌処理装置４、原水槽５の清掃、オーバーホールを含めた保守点検作業を行うに際しては、作業に先立って排気ファン１１を起動する。排気ファン１１の起動によって、処理室１内は負圧となり、小窓１８を通してシャワー室１７内の空気が処理室１内に吸引される。同様にシャワー室１７内が負圧になって、更衣室１６内の空気がシャワー室１７に吸引され、更衣室１６には外気が吸引される。
【００２６】
更衣室１６、シャワー室１７、処理室１の順に外気が導入され、各室は負圧に維持される。作業員は、まず更衣室１６に入室して防護服をまとい、シャワー室１７を経て段階的に負圧に慣れた後、処理室１内に入室する。各室間の移動に際しては、それぞれの室のドアを開いて室内に入り、入室後、ドアを閉じるのは云うまでもない。処理室１に入室後、呼吸用空気供給装置（図示略）に防護服の吸入マスク（図示略）を接続し、呼吸用空気供給装置から供給される空気で呼吸しながら滅菌処理装置４、原水槽５の清掃、オーバーホールなどの作業を行う。
【００２７】
処理室１内の空気は、フィルター１２を通して除菌され、排気管１０を通して大気中に放散されるため、滅菌処理装置４、原水槽５の清掃、オーバーホールによって、もし、感染性排水に含まれる病原性微生物が装置内や原水槽５内から処理室１内の空気中に拡散することがあったとしても、これらの病原性微生物が大気中に放散されることがなく、また、処理室１はシャワー室１７に対して負圧に保たれるため、処理室１内の空気はシャワー室１７、更衣室１６、さらにはこれらの準備室２を通して一般エリアＯＡに漏れ出す恐れはない。
【００２８】
作業終了後、呼吸用空気供給装置から防護服の吸入マスクを外し、ドアを開いて、処理室１からシャワー室１７に入室し、薬品、あるいは水にて、シャワー２０にて作業器具類及び防護服に付着している病原性微生物、汚染物質を洗浄除去し、ドライヤー２１にて乾燥後、ドアを開いてシャワー室１７から更衣室１６に入室し、防護服を脱いで、これをロッカー２２に仕舞い、作業員は、シャワー２３を使用して汗を流し、着替え後、更衣室１６から一般エリアＯＡに戻り、一定時間後排気ファン１１の電源を切って作業を完了する。
【００２９】
以上実施形態においては、処理室１内で作業員が作業をする間だけ排気ファン１１を運転して処理室１内を含めて汚染物処理エリアＤＡを負圧にする例を説明したが、排気ファン１１を連続運転して処理室内１を常時負圧に保持してもよいのは勿論である。各室内が負圧であるかどうかは、各室間を仕切る仕切り壁の小窓に取り付けられたバランシングダンパー１９の動き、特に傾きの方向によって容易に判定できる。処理室１と準備室２であるシャワー室１７内、更衣室１６内が負圧に保持されている限り、処理室１内の病原性微生物、汚染物質が一般エリアＯＡに漏れ出すことはない。
【００３０】
本発明における汚染物処理エリアの設定場所は限定されるものではないが、高層ビル内で運営される医療機関では、図３に示すように医療施設の建物Ｂの免震階Ｆ０の空間に設定して汚染物の処理装置を据え付けるのが有利である。今まで建物Ｂの免震階Ｆ０は、建物には必要な空間でありながら、使えない空間であると考えられてきたが、免震階Ｆ０は、建物Ｂの最下層であり、外気に開放されているため、各階Ｆ１，Ｆ２、・・・の内、例えばＦ３の病床、手術室の排水設備Ｍに発生した排水を集めやすく、また、排気を大気中に放出するにも特別の工事を要しない。以上実施形態においては、医療施設の病床、手術室などから排出される感染性排水を貯留する原水槽を含む汚染物の処理設備に適用した例を説明したが、本発明は医療施設から発生する感染性排水の処理設備に限らず、ダイオキシンなどの有害物質による汚染物の処理施設にも同様に適用することが出来る。
【００３１】
【発明の効果】
本発明は以上のように加熱滅菌装置などの汚染物の処理装置が設置された汚染物処理エリア内での作業の安全を期し、また、汚染物処理エリア内の病原性微生物あるいは有害物から一般エリアを有効に、安全に防護して環境の汚染を防止し、特に、「感染症の予防および感染症の患者に対する医療に関する法律」の規定をクリアして感染性指定医療機関には義務づけられた安全な感染性処理設備を提供できる効果を有する。
【図面の簡単な説明】
【図１】本発明の１実施形態を示す図である。
【図２】汚染物処理装置の１例を示す図である。
【図３】本発明装置の設置例を示す図である。
【符号の説明】
１ 処理室
２ 準備室
３ 配水管
４ 滅菌処理装置
５ 原水槽
６ 槽本体
７ ジャケット
８ 滅菌槽
９ 真空ポンプ
１０ 排気管
１１ 排気ファン
１２ フィルター
１３ マンホール
１４ 配管
１５ フィルター
１６ 更衣室
１７ シャワー室
１８ 小窓
１９ バランシングダンパー
２０ シャワー
２１ ドライヤー
２２ ロッカー
２３ シャワー
２４ ポンプ
２５ ドレン管
２６ 覗き窓
２７ 医療機関の建物
２８ 免震階
ＯＡ 一般エリア
ＤＡ 汚染物処理エリア[0001]
The present invention relates to a safety management facility in a contaminant treatment area that prevents leakage of infectious microorganisms from a contaminant treatment area of a medical facility , such as an infectious wastewater treatment area, and further ensures the safety of work in the area. .
[0002]
[Prior art]
Infectious bed drainage and anatomical room drainage discharged from medical facilities are called infectious wastewater. Infectious wastewater contains blood and body fluids that may contain pathogenic microorganisms. Sufficient sterilization is necessary. Infectious wastewater discharged from medical facilities is sterilized by adding chlorine to infectious wastewater (chlorine sterilization method), or sterilized by directly blowing steam into infectious wastewater (steam direct heat sterilization method) However, none of the methods were discharged into the sewers without being treated sufficiently.
[0003]
In order to deal with this situation, infectious designated medical institutions are obligated to install infectious treatment facilities "Act on Prevention of Infectious Diseases and Medical Care for Patients with Infectious Diseases" (enforced April 1, 1998) As a result, the designation of medical institutions that support the first and second categories is required to install infectious wastewater treatment facilities. The new law classifies infectious wastewater as shown in Table 1.
[0004]
[Table 1]

[0005]
As an effective method for sterilizing infectious wastewater to solve such problems, steam is sent into a jacket installed around the sterilization tank filled with infectious wastewater, and the heat of steam is transmitted through the tank wall. There has been proposed a method and an apparatus for causing convection in infectious waste water and causing convection in infectious waste water to uniformly sterilize by heating (see Patent Document 1).
[0006]
[Patent Document 1]
Japanese Patent Application No. 2001-247350 [0007]
According to Patent Document 1, waste water can be uniformly heat sterilized by convection of infectious waste water, and maintenance of each part after completion of sterilization work can be easily performed due to indirect heating. As long as such a heat sterilizer is operating normally, there is no particular problem with the sterilization treatment of infectious wastewater. When cleaning or overhauling, the inside of the heat sterilizer is directly exposed to the outside air, and the pathogenic microorganisms adhering to the sterilization tank or piping are released to the outside air. Risk of contamination.
[0008]
Worker safety must also be ensured. Such a problem is not the problem of environmental pollution by pathogenic microorganisms, but the same can be said for the installation area of the processing equipment for harmful substances such as dioxin.
[0009]
In addition, in order for the medical institutions corresponding to the first and second types to respond to the enforcement of the “Act on the Prevention of Infectious Diseases and Medical Care for Patients with Infectious Diseases”, it is necessary to solve the above technical issues, Medical institutions are required to secure a treatment area for infectious wastewater. In local cities and suburbs, it is often relatively easy to secure land, but in large cities there are many medical institutions operating in high-rise buildings, so it is not always easy to secure an infectious wastewater treatment area. is not.
[0010]
The object of the present invention is to ensure the safety of work in a contaminant treatment area where a contaminant treatment device such as a heat sterilizer is installed, and to remove a general area from pathogenic microorganisms or harmful substances in the contaminant treatment area. It is to provide safety management equipment in the contaminated contaminant treatment area.
[0011]
[Means for Solving the Problems]
To achieve the above object, the safety management facility in the contaminant processing area according to the present invention is a safety management facility in the contaminant processing area having a processing chamber and a preparation chamber,
Contaminant treatment area is a treatment area for infectious wastewater generated from medical facilities,
In the treatment room built in the treatment area of the contaminants, there are installed treatment facilities for contaminants including raw water tanks that store infectious wastewater discharged from hospital beds and operating rooms in medical facilities.
The treatment room is a section that separates the pollution treatment area where the pollution treatment is installed from the general area, and an exhaust fan is connected to the room.
The exhaust fan sucks indoor air into the exhaust pipe and exhausts it to the general area and keeps the processing chamber at a negative pressure. The exhaust pipe has a filter for purifying the exhaust,
The preparation room is a room for washing workers, work clothes, work tools, etc. working in the processing chamber, and leads to the processing chamber, and the inside is kept at a negative pressure by the suction force of the exhaust fan. .
[0012]
The preparation rooms are changing rooms and shower rooms.
The changing room is a changing room for clothes worn by workers in the general area and protective clothing worn in the contaminated area.
The shower room is a room for washing the protective clothing and work implements of workers who have finished work in the processing room with air, water or chemicals,
The changing room and the shower room serve as a staged decompression room for the operator to be able to get a negative pressure in the processing room.
[0013]
In addition, the treatment room and the shower room, the shower room and the changing room, and the changing room and the general area communicate with each other through small windows, and the small windows are sucked by the negative pressure in the processing room to open the small windows. A tilting balancing damper is provided.
[0014]
In addition, the contaminated treatment area is set in the seismic isolation space of the medical facility building.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an example in which the safety management facility in the contaminant processing area according to the present invention is applied to a treatment facility for infectious wastewater generated from a medical facility will be described with reference to the drawings. In FIG. 1, it is the processing equipment of the contaminant containing the infectious waste water of the medical facility (hospital) equipped with the safety management equipment by this invention.
[0016]
The present invention is a safety management facility in a contaminant processing area DA having a processing chamber 1 and a preparation chamber 2. The processing chamber 1 is a section that isolates the contaminant processing area DA in which the contaminant processing apparatus is installed from the general area OA. In the room, for example, an infectious wastewater sterilization apparatus 4 having an indirect heating type sterilization tank is installed as a contaminant treatment apparatus, and an infectious drainage raw water tank 5 is installed on the floor F.
[0017]
As shown in FIG. 2, the sterilization apparatus 4 includes a tank body 6 and a sterilization tank 8 including a jacket 7 wound around the outer periphery of the tank body 6. In the raw water tank 5, infectious wastewater that is generated in each hospital bed or operating room of the ward and sent through the water pipe 3 is stored, and the infectious wastewater in the raw water tank 5 is sucked into the vacuum pump 9. The infectious wastewater sent into the tank body 6 and heated into the tank body 6 is heated and sterilized by the heat of the steam sent into the jacket 7. After sterilization, the sewage is cooled with city water. Will be released as.
[0018]
The sterilization apparatus shown in FIG. 2 is merely an example, and the sterilization apparatus used for the facility of the present invention is not limited to this example. In FIG. 1, an exhaust fan 11 is connected to an exhaust pipe 10 opened in the processing chamber 1. The exhaust fan 11 sucks indoor air into the exhaust pipe 10 and exhausts it to the general area OA and holds the inside of the processing chamber 1 at a negative pressure. The exhaust pipe 10 is supplemented with pathogenic microorganisms. A filter 12 for purifying exhaust gas is provided.
[0019]
The raw water tank 5 is blocked by the manhole 13 and isolated from the processing chamber 1, but the raw water tank 5 in which untreated infectious wastewater is stored communicates with the outside air from the raw water tank 5 separately from the exhaust pipe 10. A pipe 14 is inserted, a sterilization filter 15 is interposed in the middle of the pipe 14, and communicated with the exhaust pipe 10, and the negative pressure of the exhaust fan 11 is applied to the inside of the pipe. The air in the water tank 5 is sucked, and the air sucked from the raw water tank 5 is sterilized and diffused into the atmosphere.
[0020]
The preparation chamber 2 is a chamber for cleaning workers, protective clothing, work tools and the like working in the processing chamber 1, and the suction force of the exhaust fan 11 acts to keep the inside at a negative pressure. In this embodiment, the preparation room 2 is divided into a changing room 16 and a shower room 17. The changing room 16 is a changing room for clothes worn by workers in the general area and protective clothes worn in the contaminant treatment area, and the shower room 17 protects workers who have finished work in the processing room 1. This is a room for washing clothes and work implements with air, water and chemicals.
[0021]
A small window 18 communicates between the processing chamber 1 and the shower chamber 17, between the shower chamber 17 and the changing room 16, and between the changing room 16 and the general area OA. The small window 18 is sucked by the negative pressure in the processing chamber 1. The balancing damper 19 that is inclined in the direction of opening the small window 18 is provided, and the preparation room 2 is divided into a changing room 16 and a shower room 17. It also serves as a staged decompression chamber for getting used to.
[0022]
That is, when a worker enters the contaminant processing area DA from the general area OA, the worker enters the processing chamber 1 maintained at a negative pressure by passing through the changing room 16 and the shower room 17. By acclimating the body to negative pressure. In the shower room 17, a shower 20 that cleans protective clothing and equipment used in the treatment room with chemicals and water and a dryer 21 that blows dry air are installed.
[0023]
The changing room 16 is provided with a locker 22 and a shower 23 for purifying the body of the worker. Further, drainage generated in the shower room 17 and the changing room 16 due to use of the shower is sucked into the pump 24 and drained into the raw water tank 5 through the drain pipe 25.
[0024]
In the present invention, infectious wastewater discharged from hospital beds, operating rooms, etc. of medical facilities is stored in the raw water tank 5 in the contaminant treatment area DA through the drain pipe 3, and the wastewater in the raw water tank 5 is shown in FIG. It is pumped up into the tank body 6 of the sterilization apparatus 4 by the vacuum pump 9 shown, and after being heat sterilized in the sterilization apparatus 4, it is discharged into sewage. In FIG. 1, reference numeral 26 denotes a viewing window for observing the inside of the processing chamber 1 from the general area.
[0025]
When carrying out maintenance and inspection work including cleaning and overhaul of the sterilization apparatus 4 and raw water tank 5 in the contaminant processing area DA, the exhaust fan 11 is activated prior to the work. By the activation of the exhaust fan 11, the inside of the processing chamber 1 becomes negative pressure, and the air in the shower chamber 17 is sucked into the processing chamber 1 through the small window 18. Similarly, the inside of the shower room 17 becomes negative pressure, the air in the changing room 16 is sucked into the shower room 17, and the outside air is sucked into the changing room 16.
[0026]
Outside air is introduced in the order of the changing room 16, the shower room 17, and the processing room 1, and each room is maintained at a negative pressure. The worker first enters the changing room 16 and wears protective clothing. After getting used to the negative pressure step by step through the shower room 17, the worker enters the processing room 1. When moving between the rooms, it goes without saying that the doors of the respective rooms are opened to enter the room, and the doors are closed after entering the room. After entering the processing chamber 1, an inhalation mask (not shown) of protective clothing is connected to a breathing air supply device (not shown), and the sterilization processing device 4 and the original are breathed with air supplied from the breathing air supply device. Work such as cleaning the water tank 5 and overhauling.
[0027]
Since the air in the processing chamber 1 is sterilized through the filter 12 and diffused into the atmosphere through the exhaust pipe 10, cleaning of the sterilization apparatus 4 and the raw water tank 5 and overhaul can cause pathogens contained in infectious wastewater. Even if the pathogenic microorganisms may diffuse from the apparatus or the raw water tank 5 into the air in the processing chamber 1, these pathogenic microorganisms are not released into the atmosphere. Since the negative pressure is maintained with respect to the shower chamber 17, the air in the processing chamber 1 does not leak into the general area OA through the shower chamber 17, the changing chamber 16, and the preparation chamber 2.
[0028]
After completion of the work, remove the inhalation mask of the protective clothing from the breathing air supply device, open the door, enter the shower chamber 17 from the processing chamber 1, and work implements and protection in the shower 20 with chemicals or water. After washing and removing pathogenic microorganisms and contaminants adhering to the clothes, drying with a dryer 21, the door is opened, the shower room 17 enters the changing room 16, the protective clothes are taken off, and this is put into the locker 22. At the end, the worker sweats using the shower 23, changes clothes, returns to the general area OA from the changing room 16, and turns off the exhaust fan 11 after a certain time to complete the work.
[0029]
In the above embodiment, an example has been described in which the exhaust fan 11 is operated only while an operator works in the processing chamber 1 and the contaminant processing area DA including the inside of the processing chamber 1 is negatively pressured. Of course, the fan 11 may be continuously operated to keep the processing chamber 1 at a negative pressure at all times. Whether or not each room has a negative pressure can be easily determined by the movement of the balancing damper 19 attached to the small window of the partition wall that partitions the rooms, particularly the direction of the inclination. As long as the inside of the shower room 17 and the changing room 16 as the processing room 1 and the preparation room 2 are maintained at a negative pressure, pathogenic microorganisms and contaminants in the processing room 1 do not leak into the general area OA.
[0030]
Although the setting place of the contaminant treatment area in the present invention is not limited, in a medical institution operated in a high-rise building, it is set in the space of the seismic isolation floor F0 of the building B of the medical facility as shown in FIG. Thus, it is advantageous to install a contaminant treatment device. Up to now, the seismic isolation floor F0 of building B has been considered a space that is necessary for the building but cannot be used, but the seismic isolation floor F0 is the lowest layer of building B and is open to the open air. Therefore, it is easy to collect the wastewater generated in the drainage equipment M in the hospital bed of F3, operating room, etc. of each floor F1, F2,. I don't need it. In the above embodiment, an example in which the present invention is applied to a contaminant treatment facility including a raw water tank that stores infectious wastewater discharged from a hospital bed, an operating room, or the like in a medical facility has been described. The present invention can be applied not only to infectious wastewater treatment facilities but also to treatment facilities for pollutants caused by harmful substances such as dioxins.
[0031]
【The invention's effect】
As described above, the present invention ensures the safety of the work in the contaminant treatment area where the contaminant treatment apparatus such as the heat sterilization apparatus is installed, and is generally used from pathogenic microorganisms or harmful substances in the contaminant treatment area. Effectively and safely protecting the area to prevent pollution of the environment, and in particular, the “Infectious Disease Prevention and Medical Care Act for Patients with Infectious Diseases” was cleared and designated as an infectious designated medical institution It has the effect of providing a safe infectious treatment facility.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating an embodiment of the present invention.
FIG. 2 is a diagram showing an example of a contaminant processing apparatus.
FIG. 3 is a diagram showing an installation example of the apparatus of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Treatment room 2 Preparation room 3 Water distribution pipe 4 Sterilization apparatus 5 Raw water tank 6 Tank main body 7 Jacket 8 Sterilization tank 9 Vacuum pump 10 Exhaust pipe 11 Exhaust fan 12 Filter 13 Manhole 14 Piping 15 Filter 16 Changing room 17 Shower room 18 Small window 19 Balancing damper 20 Shower 21 Dryer 22 Locker 23 Shower 24 Pump 25 Drain pipe 26 Viewing window 27 Medical institution building 28 Seismic isolation floor OA General area DA Contaminant treatment area

Claims (4)

A safety management facility in a contaminant processing area in a medical facility having a processing room and a preparation room,
Contaminant treatment area is a treatment area for infectious wastewater generated from medical facilities
In the treatment room built in the treatment area of the contaminants, there are installed treatment facilities for contaminants including raw water tanks that store infectious wastewater discharged from hospital beds and operating rooms in medical facilities.
The treatment room is a section that separates the pollution treatment area where the pollution treatment is installed from the general area, and an exhaust fan is connected to the room.
The exhaust fan sucks indoor air into the exhaust pipe and exhausts it to the general area and keeps the processing chamber at a negative pressure. The exhaust pipe has a filter for purifying the exhaust,
The preparation room is a room for washing workers, work clothes, work tools, etc. working in the processing chamber, and leads to the processing chamber, and the inside is kept at a negative pressure by the suction force of the exhaust fan. Safety management equipment in the contaminated treatment area of medical facilities . The preparation rooms are changing rooms and shower rooms,
The changing room is a changing room for clothes worn by workers in the general area and protective clothing worn in the contaminated area.
The shower room is a room for washing the protective clothing and work implements of workers who have finished work in the processing room with air, water or chemicals,
2. The safety in the contaminated treatment area of the medical facility according to claim 1, wherein the changing room and the shower room also serve as a step-wise decompression chamber for allowing a worker to become a negative pressure in the processing room. Management equipment. The treatment room and the shower room, the shower room and the changing room, and the changing room and the general area are connected by a small window, and the small window is attracted by the negative pressure in the processing room and is inclined to open the small window. The safety management facility in the contaminant processing area of the medical facility according to claim 2, wherein a damper is provided. The safety management facility in the contaminant treatment area of the medical facility according to claim 1, wherein the contaminant treatment area is set in a space on a seismic isolation floor of the building of the medical facility .

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