JP2008178374A - Birdhouse for preventing bird influenza - Google Patents

Birdhouse for preventing bird influenza Download PDF

Info

Publication number
JP2008178374A
JP2008178374A JP2007041423A JP2007041423A JP2008178374A JP 2008178374 A JP2008178374 A JP 2008178374A JP 2007041423 A JP2007041423 A JP 2007041423A JP 2007041423 A JP2007041423 A JP 2007041423A JP 2008178374 A JP2008178374 A JP 2008178374A
Authority
JP
Japan
Prior art keywords
air
duct
aviary
birds
chamber
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP2007041423A
Other languages
Japanese (ja)
Inventor
Izumi Otani
泉 大谷
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to JP2007041423A priority Critical patent/JP2008178374A/en
Publication of JP2008178374A publication Critical patent/JP2008178374A/en
Pending legal-status Critical Current

Links

Images

Landscapes

  • Housing For Livestock And Birds (AREA)

Abstract

<P>PROBLEM TO BE SOLVED: To provide an economical air-cleaning device aiming at the prevention of air infection of bird influenza, and also preventing the disease in a small number of birds from infecting a large number of birds by dividing a chamber and eliminating the communication of the air in chambers with each other. <P>SOLUTION: The air taken in from a sucking port 1 fitted with a filter 4 is passed through a long duct 6, sterilized by ultraviolet light during that time and put into each of birdhouses 13 divided as small. The air of each of the birdhouses 13 is collected at a segregation chamber 14 through another duct 8, sterilized and then discharged from an exhausting port 12 facing downward. The segregation chamber 14 is used also as a sterilizing chamber of feeds, humans, birds, eggs, feces, etc., in their entering or exiting so as not to bring the bacteria in. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

本発明は、鳥インフルエンザを予防するための空気調整システムを持つ鳥小屋に関する。  The present invention relates to a aviary having an air conditioning system for preventing avian influenza.

従来、鳥インフルエンザの対策としては、感染後の焼却処分や隔離、消毒が行われている。
また、人間や餌、塵埃、糞、等によって直接空気を通さないで伝染する経路の遮断は、既知の技術であり熱や消毒液による予防は本発明の分野ではない。
室内の空気に対策を施し、病気を予防することを目的とした考案としては、フィルタとマイクロ波によって空気を洗浄する装置、が下記にある。
特許願2005−161407
Conventionally, as countermeasures against avian influenza, incineration, isolation, and disinfection after infection have been performed.
In addition, blocking of a path that is transmitted by humans, food, dust, feces, etc. without passing air directly is a known technique, and prevention by heat or disinfectant is not in the field of the present invention.
Devices designed to prevent indoor illness by taking measures against indoor air include a filter and a device that cleans the air with a microwave.
Patent application 2005-161407

本発明の課題は、鳥小屋に入る空気を消毒し、消毒していない空気を鳥小屋に入れないようにし、人の出入りや餌や糞の処理、鳥や卵の出し入れによって、各種の菌を鳥小屋に入れないようにして病気を予防するものである。
上記課題を経済的に解決するために、殺菌用の紫外線ランプを効率良く使用し空気の流通を効率良く行い、空気の逆流やドアの開閉による外気の直接進入を防ぐ鳥小屋を提供することが課題である。
The object of the present invention is to disinfect the air entering the aviary and prevent the non-disinfected air from entering the aviary, and to handle various bacteria by entering and exiting people, processing food and feces, and taking in and out birds and eggs. It is intended to prevent disease by preventing it from entering the aviary.
In order to solve the above-mentioned problems economically, it is possible to provide a aviary that efficiently uses an ultraviolet lamp for sterilization, efficiently distributes air, and prevents direct entry of outside air due to backflow of air or opening and closing of a door. It is a problem.

本発明では上記の課題を解決するために、塵埃の少ない上空の空気を取り入れ、フィルタ付のファンで長いダクトに空気を送る。
周囲を鏡で覆った長いダクトの中心に殺菌用の紫外線ランプを取り付け、殺菌した空気を鳥小屋に送る。
鳥小屋の中を小さく仕切り(小さく仕切られたそれぞれの鳥小屋を一括して本文では各鳥小屋と記す)鳥小屋の一部の病気が空気を通して拡散しないようにし、各鳥小屋毎に人間や物の出入りのための戸を設ける。
空気の排出口には下向きのダクトを設け、排出口から風によって空気が鳥小屋に逆流しないようにする。
In the present invention, in order to solve the above-described problems, air in the sky with less dust is taken in and air is sent to a long duct with a fan with a filter.
A UV lamp for sterilization is attached to the center of a long duct covered with a mirror, and sterilized air is sent to the aviary.
The aviary is divided into small parts (each aviary divided into small parts is collectively referred to as the aviary in the text) to prevent some of the disease in the aviation from spreading through the air. Provide doors for objects to enter and exit.
A downward duct should be provided at the air outlet to prevent air from flowing back to the aviary from the outlet.

台風等の強風によって排出口から空気が入りやすくなった時は、排出口にフィルタを設けたり、フアンの出力を増したりする。
小さく仕切られた各鳥小屋の中に同じだけの空気が送り込まれるように、空気口の大きさや空気の抵抗を調整し、場合によっては空気の流通を検出して監視する。
人や物の出入りによって、直接外部の空気が入らないように出入り口を2重にした隔離室をもうけ充分殺菌した空気を各鳥小屋の中に入れる。
When air easily enters from the outlet due to strong winds such as typhoons, a filter is provided at the outlet or the fan output is increased.
The size of the air opening and the resistance of the air are adjusted so that the same amount of air is sent into each small aviary, and in some cases, air circulation is detected and monitored.
In order to prevent outside air from entering directly by people and things, a separate room with double entrances and entrances and a sufficiently sterilized air are put into each aviary.

本発明によれば、鳥小屋の空気を常に殺菌状態に保つ効果がある。
また、一部の鳥が感染しても空気を通して鳥小屋全体に広がることを防ぐ効果がある。
空気がダクトの中を一方向に進むようにしたため、殺菌した空気と殺菌しない空気が混合せず、すべての空気が同じ量の紫外線を受け、さらに殺菌効果を高めるために鏡が全面に設置されているので紫外線の効率が良く、少ない電力消費で完全な殺菌効果がある。
According to the present invention, there is an effect of constantly keeping the air in the aviary in a sterilized state.
In addition, even if some birds are infected, it has the effect of preventing the whole aviary from spreading through the air.
Because the air travels in one direction through the duct, sterilized air and non-sterilized air do not mix, all air receives the same amount of ultraviolet light, and a mirror is installed on the entire surface to further enhance the sterilizing effect Therefore, the efficiency of ultraviolet rays is good, and there is a complete sterilization effect with low power consumption.

排出口と鳥小屋の間に隔離室を設け、強風によって排気口から外部の空気が鳥小屋に逆流しない効果がある。
隔離室は人や物の出入りにあたって前の戸から入り、戸を閉めてから殺菌し後の戸から鳥小屋に入るようにすることにより、外気を直接鳥小屋の中に入れない効果がある。
An isolation room is provided between the discharge port and the aviary, and there is an effect that the strong air prevents the outside air from flowing backward from the exhaust port to the aviary.
The isolation room has an effect of preventing outside air from entering the aviary directly by entering the aviary from the front door when entering and leaving people and things, sterilizing after closing the door and entering the aviary from the rear door.

以下本発明の実施例を図1に基づいて説明する。
下向きに取り付けられた吸気口1、を持つ吸気管3から吸い込まれた空気はフィルタ4、を通してフアン5でダクト6に送り込まれる。
ダクト6の中には鏡が全体にあり、紫外線ランプ9の光を反射して、効率よく殺菌ができる。
殺菌された空気はダクト7を通って排気口10から各鳥小屋13に送り込まれる。
小さく仕切られた各鳥小屋の下にはダクト8があり、ダクト8に開けられた吸気口2から各鳥小屋13の空気を隔離室14へ送り込む。
An embodiment of the present invention will be described below with reference to FIG.
Air sucked from an intake pipe 3 having an intake port 1 attached downward is sent to a duct 6 through a filter 4 and a fan 5.
There is a mirror in the duct 6 as a whole, and the light from the ultraviolet lamp 9 is reflected, so that sterilization can be performed efficiently.
The sterilized air passes through the duct 7 and is sent from the exhaust port 10 to each aviary 13.
There is a duct 8 under each aviary divided into small sections, and the air of each aviary 13 is sent into the isolation chamber 14 from the air inlet 2 opened in the duct 8.

隔離室14は消毒を完全に行う設備を持つ前後のドアに仕切られた部屋であり、ここに送られた空気は排気口11から排出される。
排気管15には下向きの排気口12があり、台風等の強風時に外気が排気口から各小鳥屋13に逆流しないよう、また雨、ごみ、等が入らないように下向きに取り付けられる.
The isolation chamber 14 is a room partitioned by front and rear doors having facilities for complete disinfection, and the air sent here is discharged from the exhaust port 11.
The exhaust pipe 15 has a downward exhaust port 12 and is attached downward so that outside air does not flow back to each birdhouse 13 from the exhaust port during strong winds such as a typhoon, and rain, dirt, etc. do not enter.

このように外気に含まれる細菌は各鳥小屋13に入らないようになっているので、あとは餌や人間が直接小屋に細菌を持ち込まないように注意すれば鳥小屋全体の衛生管理は充分であり、万一病気になっても鳥小屋全体に広がることはない。
さらに、隔離室13を常に消毒しておけば、鳥小屋の病気が外部に拡散することは少ない。
In this way, the bacteria contained in the outside air are prevented from entering each aviary 13, and if the care is taken so that food and humans do not bring bacteria directly into the shed, the hygiene management of the whole aviary is sufficient. Yes, even if you get sick, it will not spread throughout the aviary.
Further, if the isolation chamber 13 is always sterilized, the aviary disease is unlikely to spread outside.

は本発明の実施例を示す、殺菌装置を取り付けた鳥小屋の断面図である。1 is a cross-sectional view of a aviary fitted with a sterilizer, showing an embodiment of the present invention.

符号の説明Explanation of symbols

1、2 吸気口
4 フィルタ
5 ファン
6,7,8 ダクト
9 紫外線ランプ
10、11,12 排気口
14 各小屋
15 隔離室
1, 2 Intake port 4 Filter 5 Fan 6, 7, 8 Duct 9 Ultraviolet lamp 10, 11, 12 Exhaust port 14 Each hut 15 Isolation room

Claims (2)

下向きの吸気口を持つ吸気管に塵埃を除くフィルタを取り付け、吸気管の出口をフアンと紫外線ランプを取り付けたダクト6に接続し、ダクト6の出口をダクト7に接続し、ダクト7は各鳥小屋にそれぞれ排気口を有すること。
ダクト8は各鳥小屋にそれぞれ吸気口があり、ダクト8の出口は隔離室に接続していること。
隔離室は消毒の設備があり、前後にドアがあり、下向きの排気口をもつ排気管があることを特徴とした鳥インフルエンザを予防する鳥小屋。
A filter that removes dust is attached to an intake pipe having a downward intake, and the outlet of the intake pipe is connected to a duct 6 to which a fan and an ultraviolet lamp are attached, and the outlet of the duct 6 is connected to a duct 7. Each shed has a vent.
The duct 8 has an air inlet in each aviary, and the outlet of the duct 8 is connected to an isolation room.
The aviary is a aviary to prevent avian flu, characterized by sterilization facilities, doors on the front and back, and an exhaust pipe with a downward exhaust port.
ダクトに多数の紫外線ランプを取り付けた装置においてダクトの内部の全面を鏡で覆った消毒用ダクト。  A disinfection duct in which a large number of ultraviolet lamps are attached to the duct and the entire interior of the duct is covered with a mirror.
JP2007041423A 2007-01-23 2007-01-23 Birdhouse for preventing bird influenza Pending JP2008178374A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2007041423A JP2008178374A (en) 2007-01-23 2007-01-23 Birdhouse for preventing bird influenza

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2007041423A JP2008178374A (en) 2007-01-23 2007-01-23 Birdhouse for preventing bird influenza

Publications (1)

Publication Number Publication Date
JP2008178374A true JP2008178374A (en) 2008-08-07

Family

ID=39722773

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2007041423A Pending JP2008178374A (en) 2007-01-23 2007-01-23 Birdhouse for preventing bird influenza

Country Status (1)

Country Link
JP (1) JP2008178374A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104206284A (en) * 2014-08-05 2014-12-17 刘忠臣 Ventilation system of pigsty and pigsty using ventilation system
KR102104557B1 (en) * 2019-11-28 2020-05-29 김태수 AI virus sterilization system installed on the farm

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104206284A (en) * 2014-08-05 2014-12-17 刘忠臣 Ventilation system of pigsty and pigsty using ventilation system
KR102104557B1 (en) * 2019-11-28 2020-05-29 김태수 AI virus sterilization system installed on the farm

Similar Documents

Publication Publication Date Title
US20050163648A1 (en) Method and apparatus for sterilizing air in large volumes by radiation of ultraviolet rays
JP5246472B2 (en) Sanitization cleaning system
KR102171915B1 (en) Ultraviolet Air Purifier
HUT74543A (en) Cleaning arrangement including filters and ultraviolet radiation
KR102188123B1 (en) System for enter disinfection
RU2610923C1 (en) Air conditioning system of railroad cars (versions)
KR101860078B1 (en) Disinfection apparatus for bacteria of infectious diseases in building facilities
JP2012239469A (en) Collapsible shed for preventing animal bacterial disease
RU2519668C1 (en) Disinfection method of plenum ventilation and air conditioning systems, and ventilation system for method&#39;s implementation
JP2008178374A (en) Birdhouse for preventing bird influenza
KR101960953B1 (en) Poultry domestication system
JP2008061632A (en) Closed-type clean poultry house
KR100635515B1 (en) Air cleaning system in elevator using blower
KR102323229B1 (en) The automatic air conditioning system based on virus detection
KR20220090000A (en) Indoor air sterilization system using UV LED module and ceiling fan
RU159961U1 (en) AIR CONDITIONING DEVICE FOR RAILWAY CAR
RU131619U1 (en) VENTILATION SYSTEM FOR DISINFECTION OF SUPPLY VENTILATION AND AIR CONDITIONING
CN112640793A (en) Ventilation and purification system of pig house
RU171582U1 (en) VENTILATED AIR RECirculator
CN111637555A (en) Central air-conditioning disinfection device based on pulse light source
CN110894991A (en) Air conditioner indoor unit and air conditioner
RU203683U1 (en) Elevator cabin disinfection device
ES2851450T3 (en) Toilet room for a rail vehicle
CN110657545A (en) Ultraviolet LED-based sterilization fresh air system and application
RU161228U1 (en) AIR CONDITIONING DEVICE FOR RAILWAY CAR