JPH08154193A - Air-cooled housing for camera head - Google Patents
Air-cooled housing for camera headInfo
- Publication number
- JPH08154193A JPH08154193A JP6315855A JP31585594A JPH08154193A JP H08154193 A JPH08154193 A JP H08154193A JP 6315855 A JP6315855 A JP 6315855A JP 31585594 A JP31585594 A JP 31585594A JP H08154193 A JPH08154193 A JP H08154193A
- Authority
- JP
- Japan
- Prior art keywords
- air
- camera head
- housing
- cooled housing
- cooled
- 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.)
- Granted
Links
Landscapes
- Cameras Adapted For Combination With Other Photographic Or Optical Apparatuses (AREA)
- Accessories Of Cameras (AREA)
- Closed-Circuit Television Systems (AREA)
Abstract
Description
【0001】この発明は,特殊な条件下に設置される通
常の撮像装置や赤外線撮像装置等のカメラヘッドを内部
に収納してエア冷却するための空冷ハウジングに関する
ものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air-cooled housing for accommodating a camera head such as an ordinary image pickup device or an infrared ray image pickup device installed under special conditions for air cooling.
【0002】[0002]
【従来の技術】従来,製鉄工場における高炉の炉頂部の
高温環境下や,ごみ等の焼却場におけるごみ集積場等の
ように粉塵の多い場所に監視用として通常の撮像装置や
赤外線熱画像装置等のカメラヘッドが設置されている。
この場合,特に,高温環境下では,監視用として赤外線
カメラが用いられるが,このカメラヘッドは冷却する必
要がある。その冷却する一手法として,空冷ハウジング
内にカメラヘッドを収納するとともに,内部にエアを供
給してエア冷却するものがある。2. Description of the Related Art Conventionally, an ordinary imaging device or an infrared thermal imaging device is used for monitoring in a high temperature environment at the top of a blast furnace in a steelmaking plant or in a dusty place such as a garbage collection site in an incinerator of garbage. Etc. camera heads are installed.
In this case, especially in a high temperature environment, an infrared camera is used for monitoring, but this camera head needs to be cooled. As one of the cooling methods, there is a method in which the camera head is housed in an air-cooled housing and air is supplied to the inside for air cooling.
【0003】これは,図3に示すように,内部にカメラ
ヘッド1が収納される空冷ハウジング2の前面には,フ
ァン3を介して内部のエアを排気するためのエア排気口
4が開設され,さらにカメラヘッド1の視野拡大レンズ
部分5が,前面から突出している。カメラヘッド1の視
野拡大レンズ部分5のレンズ面5aは,赤外線透過率の
優れたシリコンやサファイヤ等で覆われている。As shown in FIG. 3, an air exhaust port 4 for exhausting internal air through a fan 3 is provided on the front surface of an air-cooled housing 2 in which a camera head 1 is housed. The field-enlarging lens portion 5 of the camera head 1 further projects from the front surface. The lens surface 5a of the field-of-view magnifying lens portion 5 of the camera head 1 is covered with silicon or sapphire having a high infrared transmittance.
【0004】さらに,空冷ハウジング2内に収納されて
いるカメラヘッド1をエア冷却するためのエアを供給す
るために,空冷ハウジング2の背面には,エア供給口6
が開設されている。Further, in order to supply air for cooling the camera head 1 housed in the air-cooled housing 2, an air supply port 6 is provided on the rear surface of the air-cooled housing 2.
Has been established.
【0005】このように構成されているので,エア供給
口6から供給されたエアは,空冷ハウジング2内に収納
されているカメラヘッド1を空冷した後,エア排気口4
からファン3を介して外部に排気されている。そして,
対象物から放射される赤外線は,レンズ面5aを覆うシ
リコンやサファイヤ等の赤外線透過部材を透過してカメ
ラヘッド1に入射している。With this structure, the air supplied from the air supply port 6 cools the camera head 1 housed in the air-cooled housing 2 and then the air exhaust port 4
Is exhausted to the outside through the fan 3. And
The infrared rays emitted from the object pass through the infrared ray transmitting member such as silicon or sapphire that covers the lens surface 5a and enter the camera head 1.
【0006】[0006]
【発明が解決しようとする問題点】上記従来のカメラヘ
ッド1は,このような構造であるから,コ−クス,石灰
石などの原料投入による粉塵が多い高炉の炉頂部や,ご
み焼却場等の粉塵の多い場所では,レンズ面5aに粉塵
が付着して赤外線の透過率が悪くなり,測定誤差の原因
となっていた。Since the above-mentioned conventional camera head 1 has such a structure, it is used in a furnace top of a blast furnace and a refuse incinerator where a large amount of dust is caused by the introduction of raw materials such as coke and limestone. In a dusty place, dust adheres to the lens surface 5a to deteriorate the infrared transmittance, which causes a measurement error.
【0007】さらに,レンズ面5aは,赤外線を透過す
る関係上,熱の伝導率が良い。そのため,レンズ面5a
自体が周囲温度により加熱されて高温になる。そのた
め,内部に収納されているカメラヘッド1には,高炉,
ごみ焼却場などの対象物からの赤外線の他に,レンズ面
5a自身からの赤外線も入射することになり,その分測
定誤差が生じるという問題があった。Further, the lens surface 5a has good heat conductivity because it transmits infrared rays. Therefore, the lens surface 5a
The substance itself is heated by the ambient temperature and becomes high temperature. Therefore, the camera head 1 housed inside has a blast furnace,
In addition to infrared rays from an object such as a refuse incinerator, infrared rays from the lens surface 5a itself are incident, which causes a problem that a measurement error occurs.
【0008】[0008]
【問題点を解決するための手段】第1の発明は,外壁を
断熱構造に形成するとともに,前面にカメラヘッドの視
野拡大レンズ部分を外部に突出させてカメラヘッドを内
部に収納する空間を形成した空冷ハウジングと,この空
冷ハウジング内へエアを供給するエア供給源と,空冷ハ
ウジングの背面に設けた第1のエア供給口と,空冷ハウ
ジングの前面に設けたエア排気口と,空冷ハウジングの
前面に,空間に連通して延設され,カメラヘッドのレン
ズ面へ対向して開口する吹き付け口を有する吹き付けダ
クトとによりカメラヘッドの空冷ハウジングを構成する
ようにして,レンズ面に付着する粉塵を除去するととも
に,レンズ面をも冷却するようにしたものである。According to a first aspect of the present invention, an outer wall is formed in a heat insulating structure and a space for accommodating a camera head is formed on the front surface by projecting a field expansion lens portion of the camera head to the outside. Air cooling housing, an air supply source for supplying air into the air cooling housing, a first air supply port provided on the back surface of the air cooling housing, an air exhaust port provided on the front surface of the air cooling housing, and a front surface of the air cooling housing. In addition, the air-cooled housing of the camera head is configured by a blowing duct that extends in communication with the space and has a blowing port that opens facing the lens surface of the camera head to remove dust adhering to the lens surface. In addition, the lens surface is also cooled.
【0009】第2の発明は,空冷ハウジングの少なくと
も一面の内側面から離間させてカメラヘッド収納部分を
隔離する仕切壁を設けて空冷ハウジングの内側面と仕切
壁とで包囲されるエアの風路を形成し,この風路を包囲
する内側面と仕切壁とを吹き付けダクトに連接し,空冷
ハウジングの背面に,風路と連通する第2のエア供給口
を設けて,レンズ面の粉塵を除去するようにしたもので
ある。According to a second aspect of the present invention, a partition wall is provided which is separated from at least one inner surface of the air-cooling housing to isolate the camera head housing portion, and an air flow path surrounded by the inner surface of the air-cooling housing and the partition wall. The inner side surface surrounding the air passage and the partition wall are connected to the blowing duct, and the second air supply port communicating with the air passage is provided on the rear surface of the air-cooled housing to remove dust on the lens surface. It is something that is done.
【0010】第3の発明は,エア供給源と第1および第
2エア供給口との間にそれぞれ第1および第2の調節弁
を設けて,吹き付け口の排気風と冷却用のエアの圧力と
を独立に調整するようにしたものである。According to a third aspect of the present invention, the first and second control valves are provided between the air supply source and the first and second air supply ports, respectively, and the pressure of the exhaust air at the blowing port and the pressure of the cooling air are set. And are adjusted independently.
【0011】[0011]
【作用】第1の発明は,空冷ハウジング2内に供給され
たエアは,矢印Aで示すように,カメラヘッド1を冷却
した後,ヱア排気口4から空冷ハウジング2の外部に排
気されるとともに,矢印Bで示すように,吹き付けダク
ト12を通り,吹き付け口11からレンズ面5aへむけ
て吹き出す2つの風路を形成する。従って,カメラヘッ
ド1は,矢印Aで示す風路を通るエアにより空冷される
とともに,矢印Bで示す風路を通る吹き付け口11から
の排気風により,レンズ面5aに付着している粉塵が吹
き飛ばされる。According to the first aspect of the invention, the air supplied into the air-cooled housing 2 is exhausted from the air exhaust port 4 to the outside of the air-cooled housing 2 after cooling the camera head 1 as shown by an arrow A. As shown by the arrow B, two air passages are formed which pass through the blowing duct 12 and blow out from the blowing port 11 toward the lens surface 5a. Therefore, the camera head 1 is air-cooled by the air passing through the air passage indicated by the arrow A, and the dust attached to the lens surface 5a is blown off by the exhaust air from the blowing port 11 passing through the air passage indicated by the arrow B. Be done.
【0012】第2,第3の発明は,空冷ハウジング2の
本体7部分の空間10および風路21には,エア供給源
14からエアがそれぞれ供給される。この際,それぞれ
調節弁19,23は適当な供給圧力となるようにそれぞ
れ調整される。In the second and third aspects of the invention, air is supplied from the air supply source 14 to the space 10 and the air passage 21 in the main body 7 of the air-cooled housing 2. At this time, the control valves 19 and 23 are adjusted so as to have appropriate supply pressures.
【0013】空冷ハウジング2内に供給されたエアは,
カメラヘッド1を冷却した後,ヱア排気口4から空冷ハ
ウジング1の外部に排気される。一方,風路21を通る
エアは,吹き付けダクト12から吹き付け口11を介し
てレンズ面5aへむけて吹き出され,レンズ面5aに付
着している粉塵が吹き飛ばされる。The air supplied into the air-cooled housing 2 is
After the camera head 1 is cooled, the air is exhausted from the air exhaust port 4 to the outside of the air-cooled housing 1. On the other hand, the air passing through the air passage 21 is blown from the blowing duct 12 toward the lens surface 5a through the blowing port 11, and the dust adhering to the lens surface 5a is blown off.
【0014】[0014]
【発明の実施例1】この発明の第1の実施例を,図1に
基づいて詳細に説明する。図1は空冷ハウジング2の一
部断面図を含む模式図を示すものである。なお,従来例
と同じものは,同一符号を使用し,その説明を省略す
る。図1において,空冷ハウジング2は,カメラヘッド
1が収納されている矩形状の本体7と,この本体7の背
面開口部を着脱自在に開閉する蓋体8と吹き付けダクト
12とにより構成されている。Embodiment 1 of the present invention will be described in detail with reference to FIG. FIG. 1 is a schematic view including a partial cross-sectional view of the air-cooled housing 2. The same parts as those in the conventional example are designated by the same reference numerals, and the description thereof will be omitted. In FIG. 1, the air-cooled housing 2 is composed of a rectangular main body 7 in which the camera head 1 is housed, a lid 8 for detachably opening and closing a rear opening of the main body 7, and a blowing duct 12. .
【0015】本体7の外壁は,外ケ−ス7aと内ケ−ス
7bとの間に断熱材9が介在させて断熱構造に形成され
ている。空冷ハウジング2の本体7内部には,赤外線熱
画像装置のカメラヘッド1を収納する空間10が形成さ
れているとともに,背面は開口されて本体7と同様に断
熱構造に形成されている蓋体8により開閉される構造と
なっている。The outer wall of the main body 7 is formed into a heat insulating structure by interposing a heat insulating material 9 between the outer case 7a and the inner case 7b. Inside the body 7 of the air-cooled housing 2, there is formed a space 10 for housing the camera head 1 of the infrared thermal imaging device, and a lid 8 having an opening on the back side and having the same heat insulating structure as the body 7. The structure is opened and closed by.
【0016】空冷ハウジング2の本体7の前面からは,
視野拡大レンズ部分5が外部に突出しており,この視野
拡大レンズ部分5の周囲には,この実施例の場合には,
2箇所にエア排気口4が開設されているとともに,この
エア排気口4にはファン3が取り付けられている。From the front surface of the main body 7 of the air-cooled housing 2,
The field of view magnifying lens portion 5 is projected to the outside, and in the case of this embodiment, around the field of view magnifying lens portion 5,
Air exhaust ports 4 are provided at two locations, and fans 3 are attached to the air exhaust ports 4.
【0017】さらに,空冷ハウジング2の本体7の上端
部前面には,空間10と連通しているとともに,視野拡
大レンズ部分5のレンズ面5aへ対向して開口する吹き
付け口11を有する吹き付けダクト12が延設されてい
る。Further, on the front surface of the upper end portion of the main body 7 of the air-cooled housing 2, a blowing duct 12 communicating with the space 10 and having a blowing opening 11 facing the lens surface 5a of the field expanding lens portion 5 is provided. Has been extended.
【0018】なお,吹き付けダクト12は本体7の上端
部前面から気密を保持した状態で延設され,レンズ面5
a方向へと内径が小さくなる形状であればいかなる形状
であってもよく,又,この吹き付けダクト12の吹き付
け口11の形状は,レンズ面5aにエアを充分に吹き付
けることが出来る形状であれば,正方形,矩形あるいは
円形等いかなる形状でもよい。又,吹き付けダクト12
は,空冷ハウジング2の本体7の前面に一体的に形成し
てもよく,あるいは着脱自在となるように形成してもよ
い。The blowing duct 12 is extended from the front surface of the upper end portion of the main body 7 while maintaining airtightness, and
Any shape may be used as long as the inner diameter decreases in the a direction, and the shape of the blowing port 11 of the blowing duct 12 is such that air can be sufficiently blown to the lens surface 5a. , Any shape such as square, rectangle or circle may be used. Also, the blowing duct 12
May be integrally formed on the front surface of the main body 7 of the air-cooled housing 2, or may be detachably formed.
【0019】蓋体8が本体7に対向する内面には,カメ
ラヘッド1を固定するための載置板13が本体7の前方
向に向けて突設されており,略中央部には,外部からエ
アを供給するためのエア供給口6が透設されているとと
もに,このエア供給口6の外面周囲には,エア供給源1
4からエアを導入するためのエアカプラ15が固定され
ている。A mounting plate 13 for fixing the camera head 1 is provided on the inner surface of the lid 8 facing the main body 7 so as to project toward the front of the main body 7. An air supply port 6 for supplying air from the air supply source is provided so as to surround the outer surface of the air supply port 1.
An air coupler 15 for introducing air from 4 is fixed.
【0020】ここで,吹き付け口11からレンズ面5a
に吹き付けられるエアの圧力が強すぎると,レンズ面5
aを覆っているシリコン等が剥離する恐れがある。そし
て,エアの供給圧力は,本体7に開設されているヱア排
気口4と吹き付けダクト12の吹き付け口11との大き
さにも関係するので,このエア供給圧力は,これらの条
件を考慮して決定される。Here, from the spray port 11 to the lens surface 5a
If the pressure of the air blown onto the lens is too high, the lens surface 5
Silicon or the like covering a may be peeled off. Since the air supply pressure is also related to the sizes of the air exhaust port 4 and the blowing port 11 of the blowing duct 12 which are provided in the main body 7, the air feeding pressure takes these conditions into consideration. It is determined.
【0021】16はカメラヘッド1の信号ケ−ブル17
が貫通するケ−ブル引き出し孔で,信号ケ−ブル17
は,パッキング18を介して外部に引き出されており,
空冷ハウジング2内の空間10からのエアのもれを防止
している。19はエアの供給圧力を調整するための第1
の調節弁である。Reference numeral 16 denotes a signal cable 17 of the camera head 1.
The signal cable 17 has a cable drawing hole through which
Is pulled out through the packing 18,
Leakage of air from the space 10 in the air-cooled housing 2 is prevented. 19 is the first for adjusting the air supply pressure
It is a control valve.
【0022】次に,作用動作について説明する。カメラ
ヘッド1は蓋体8に取り付けられている載置台13に固
定された後,空冷ハウジング2の背面開口部から本体7
内部に挿入されると,空冷ハウジング2の背面開口部
は,蓋体8により閉鎖される。Next, the operation will be described. After the camera head 1 is fixed to the mounting table 13 attached to the lid body 8, the camera head 1 is inserted into the main body 7 through the rear opening of the air-cooled housing 2.
When inserted inside, the rear opening of the air-cooled housing 2 is closed by the lid 8.
【0023】次いで,エア供給口6の外部に固定されて
いるエアカプラ15にエア供給源14に接続されている
エアホ−ス(図示せず)が接続されると,空冷ハウジン
グ2の本体7の内部には,エア供給源14からエアが供
給される。この際,調節弁19により適当な供給圧力に
調節される。Then, when the air hose (not shown) connected to the air supply source 14 is connected to the air coupler 15 fixed to the outside of the air supply port 6, the inside of the main body 7 of the air-cooled housing 2 is connected. Air is supplied from the air supply source 14. At this time, the control valve 19 adjusts the supply pressure appropriately.
【0024】空冷ハウジング2内に供給されたエアは,
矢印Aで示すように,カメラヘッド1を冷却しつつヱア
排気口4からファン3を介して空冷ハウジング2の外部
に排気されるとともに,矢印Bで示すように,吹き付け
ダクト12を通り,吹き付け口11からレンズ面5aへ
むけて吹き出す2つの風路を形成する。The air supplied into the air-cooled housing 2 is
As shown by arrow A, while cooling the camera head 1, the air is exhausted from the air exhaust port 4 to the outside of the air-cooled housing 2 through the fan 3, and as shown by arrow B, passes through the spray duct 12 and the spray port. Two air passages that blow out from 11 toward the lens surface 5a are formed.
【0025】従って,カメラヘッド1は,矢印Aで示す
風路を通るエアにより空冷される。一方,矢印Bで示す
風路を通り,吹き付けダクト12から吹き付け口11へ
と通る排気風により,レンズ面5aに付着している粉塵
が吹き飛ばされる。Therefore, the camera head 1 is air-cooled by the air passing through the air passage indicated by the arrow A. On the other hand, the dust adhering to the lens surface 5a is blown off by the exhaust air passing through the air passage indicated by the arrow B and passing from the blowing duct 12 to the blowing port 11.
【0026】[0026]
【発明の実施例2】この発明の第2の実施例を,図2に
基づいて詳細に説明する。図2は空冷ハウジング2の一
部断面図を含む模式図を示すものである。なお,従来例
および第1の実施例と同一のものは,同一符号を使用
し,その説明を省略する。Second Embodiment of the Invention A second embodiment of the present invention will be described in detail with reference to FIG. FIG. 2 is a schematic view including a partial cross-sectional view of the air-cooled housing 2. The same parts as those of the conventional example and the first embodiment are designated by the same reference numerals, and the description thereof will be omitted.
【0027】図2において,20は仕切壁で,カメラヘ
ッド1が収納されている空冷ハウジング2の少なくとも
一面の内側面から離間させてカメラヘッド1の収納部分
を隔離するように形成されている。従って,空冷ハウジ
ング2の内側面と仕切壁20とで包囲されるエアの風路
21が形成される。In FIG. 2, a partition wall 20 is formed so as to separate the housing portion of the camera head 1 from the inner surface of at least one surface of the air-cooled housing 2 in which the camera head 1 is housed. Therefore, an air passage 21 is formed which is surrounded by the inner surface of the air-cooled housing 2 and the partition wall 20.
【0028】風路21を包囲する空例ハウジング2の内
側面と仕切壁20とは,吹き付けダクト12に接続され
ており,空冷ハウジング2の背面,即ち,蓋体8には,
風路21と連通する第2のエア供給口22が設けられて
いる。従って,風路21は,吹き付けダクト12内を通
り,吹き付け口11へと連通している。The inner surface of the empty housing 2 surrounding the air passage 21 and the partition wall 20 are connected to the blowing duct 12, and the rear surface of the air-cooled housing 2, that is, the lid body 8,
A second air supply port 22 that communicates with the air passage 21 is provided. Therefore, the air passage 21 passes through the blowing duct 12 and communicates with the blowing port 11.
【0029】23は風路21を通るエアの圧力を調整す
る第2の調節弁で,風路21を通るエアが吹き付け口1
1から排気される時,レンズ面5aに貼着されているシ
リコン等を剥離しない程度の適度な圧力となるように調
整するためのものである。24は第2のエア供給口22
に取り付けるエアカプラである。Reference numeral 23 is a second control valve for adjusting the pressure of the air passing through the air passage 21.
It is for adjusting so that when the gas is exhausted from No. 1, the pressure applied to the lens surface 5a is such that the silicon or the like stuck to the lens surface 5a is not peeled off. 24 is the second air supply port 22
It is an air coupler to be attached to.
【0030】次に,作用動作について説明する。カメラ
ヘッド1が空冷ハウジング2内に収納され固定された
後,第1のエア供給口6および第2のエア供給口22の
外部に固定されている第1のエアカプラ15および第2
のエアカプラ24にエアホ−ス(図示せず)がそれぞれ
接続されると,空冷ハウジング2の本体7の空間10お
よび風路21には,エア供給源14からエアがそれぞれ
供給される。この際,それぞれ調節弁19,23はエア
が適当な供給圧力となるようにそれぞれ独立に調整され
る。Next, the operation will be described. After the camera head 1 is housed and fixed in the air-cooled housing 2, the first air coupler 15 and the second air coupler 15 fixed to the outside of the first air supply port 6 and the second air supply port 22 are fixed.
When an air hose (not shown) is connected to each air coupler 24, air is supplied from the air supply source 14 to the space 10 and the air passage 21 of the main body 7 of the air-cooled housing 2. At this time, the control valves 19 and 23 are independently adjusted so that the air has an appropriate supply pressure.
【0031】空冷ハウジング2内に供給されたエアは,
矢印Cで示すように,カメラヘッド1を冷却した後,ヱ
ア排気口4から空冷ハウジング2の外部に排気される。
一方矢印Dで示すように,風路21を通るエアは,吹き
付けダクト12から吹き付け口11を介してレンズ面5
aへむけて吹き出される。The air supplied into the air-cooled housing 2 is
After the camera head 1 is cooled, as shown by an arrow C, the air is exhausted from the air exhaust port 4 to the outside of the air-cooled housing 2.
On the other hand, as indicated by the arrow D, the air passing through the air passage 21 is blown from the blowing duct 12 through the blowing port 11 to the lens surface 5
It is blown toward a.
【0032】従って,カメラヘッド1は,矢印Cで示す
エアにより空冷される。一方,レンズ面5aに付着して
いる粉塵は,矢印Dで示す風路21を通り,吹き付け口
11からの排気風により吹き飛ばされる。Therefore, the camera head 1 is air-cooled by the air shown by the arrow C. On the other hand, the dust adhering to the lens surface 5a passes through the air passage 21 shown by the arrow D and is blown off by the exhaust air from the blowing port 11.
【0033】[0033]
【発明の効果】第1の発明は,外壁を断熱構造に形成す
るとともに,前面にカメラヘッドの視野拡大レンズ部分
を外部に突出させてカメラヘッドを内部に収納する空間
を形成した空冷ハウジングと,この空冷ハウジング内へ
エアを供給するエア供給源と,空冷ハウジングの背面に
設けた第1のエア供給口と,空冷ハウジングの前面に設
けたエア排気口と,空冷ハウジングの前面に,空間に連
通して延設され,カメラヘッドのレンズ面へ対向して開
口する吹き付け口を有する吹き付けダクトとによりカメ
ラヘッドの空冷ハウジングを構成したので,レンズ面に
付着する粉塵を吹き出し口からの排気風により吹き飛ば
すことが出来る。従って,従来のように,レンズ面への
粉塵付着による赤外線の透過率の変動がなく,測定誤差
が発生することはない。その上,単に空冷ハウジングの
前面に吹き付けダクトを取り付けているだけであるか
ら,保守点検の必要もなく,特別おおがかりな設備も必
要とせず,余分な電力を消費することもなく,コストも
非常に安価である。According to the first aspect of the present invention, an air-cooled housing having an outer wall formed into a heat insulating structure and having a space for accommodating the camera head therein by projecting a field-enlarging lens portion of the camera head to the outside, An air supply source for supplying air into the air-cooled housing, a first air supply port provided on the rear surface of the air-cooled housing, an air exhaust port provided on the front surface of the air-cooled housing, and a space communicated with the front surface of the air-cooled housing. The air-cooled housing of the camera head is composed of a blow duct that has a blow port that opens in opposition to the lens surface of the camera head. You can Therefore, unlike the conventional case, there is no fluctuation in the infrared transmittance due to the adhesion of dust to the lens surface, and no measurement error occurs. Moreover, since the blowing duct is simply attached to the front of the air-cooled housing, there is no need for maintenance and inspection, no special equipment is required, no extra power is consumed, and the cost is very high. It is cheap.
【0034】第2の発明は,空冷ハウジングの少なくと
も一面の内側面から離間させてカメラヘッド収納部分を
隔離する仕切壁を設けて空冷ハウジングの内側面と仕切
壁とで包囲されるエアの風路を形成し,この風路を包囲
する内側面と仕切壁とを吹き付けダクトに連接し,空冷
ハウジングの背面に,風路と連通する第2のエア供給口
を設けたので,上記第1の発明と同様に,レンズ面に付
着する粉塵を吹き出し口からの排気風により吹き飛ばす
ことが出来る。その上,第1の発明のものに,さらに単
に仕切壁を設けただけであるから,上記と同様に,保守
点検の必要もなく,余分な電力を消費することもなく,
コストも非常に安価である。According to a second aspect of the present invention, a partition wall is provided which is separated from the inner surface of at least one surface of the air-cooled housing to isolate the camera head housing portion, and an air passage surrounded by the inner surface of the air-cooled housing and the partition wall. Since the inner side surface surrounding the air passage and the partition wall are connected to the blowing duct, and the second air supply port communicating with the air passage is provided on the rear surface of the air-cooled housing, Similarly to the above, dust adhering to the lens surface can be blown off by the exhaust air from the outlet. In addition, since the partition wall is simply provided in the first invention, there is no need for maintenance and inspection, and no extra power is consumed, as in the above.
The cost is also very low.
【0035】第3の発明は,エア供給源と第1および第
2エア供給口との間にそれぞれ第1および第2の調節弁
を設けて,吹き付け口の排気風と冷却用のエアの圧力と
を独立に調整するようにしたので,吹き出し口からの排
気風の圧力と,空冷ハウジング内の冷却用のエアの供給
圧力とをそれぞれ独立して調整することができるから,
エアの供給圧力の調整操作が容易である。In a third aspect of the invention, the first and second control valves are provided between the air supply source and the first and second air supply ports, respectively, and the pressure of the exhaust air at the blowing port and the pressure of the cooling air are set. Since and are independently adjusted, the pressure of the exhaust air from the outlet and the supply pressure of the cooling air in the air-cooled housing can be independently adjusted.
Easy adjustment of air supply pressure.
【図1】この発明の第1の実施例を示す一部断面図を含
む模式図である。FIG. 1 is a schematic diagram including a partial cross-sectional view showing a first embodiment of the present invention.
【図2】この発明の第2の実施例を示す一部断面図を含
む模式図である。FIG. 2 is a schematic diagram including a partial sectional view showing a second embodiment of the present invention.
【図3】従来例を示す要部断面図である。FIG. 3 is a cross-sectional view of a main part showing a conventional example.
1 カメラヘッド 2 空冷ハウジング 4 エア排気口 5 視野拡大レンズ部分 5a レンズ面 6 第1のヱア供給口 10 空間 11 吹き付け口 12 吹き付けダクト 14 エア供給源 19 第1の調節弁 20 仕切壁 21 風路 22 第2のエア供給口 23 第2の調節弁 1 Camera Head 2 Air-cooled Housing 4 Air Exhaust Port 5 Field-Enlarging Lens Part 5a Lens Surface 6 First Air Supply Port 10 Space 11 Spray Port 12 Spray Duct 14 Air Supply Source 19 First Control Valve 20 Partition Wall 21 Air Channel 22 Second air supply port 23 Second control valve
Claims (3)
面にカメラヘッドの視野拡大レンズ部分を外部に突出さ
せて前記カメラヘッドを内部に収納する空間を形成した
空冷ハウジングと,前記空冷ハウジング内へエアを供給
するエア供給源と,前記空冷ハウジングの背面に設けた
第1のエア供給口と,前記空冷ハウジングの前面に設け
たエア排気口と,前記空冷ハウジングの前面に,前記空
間に連通して延設され,前記カメラヘッドのレンズ面へ
対向して開口する吹き付け口を有する吹き付けダクトと
を備えたことを特徴とするカメラヘッドの空冷ハウジン
グ。1. An air-cooled housing having an outer wall formed in a heat insulating structure and having a space for accommodating the camera head therein by projecting a field-enlarging lens portion of the camera head to the outside, and an inside of the air-cooled housing. An air supply source for supplying air, a first air supply port provided on the back surface of the air-cooling housing, an air exhaust port provided on the front surface of the air-cooling housing, a front surface of the air-cooling housing, and the space communicating with the space. An air-cooling housing for a camera head, the air-cooling housing being provided with a blowing duct having a blowing opening that is opened to face the lens surface of the camera head.
内側面から離間させてカメラヘッド収納部分を隔離する
仕切壁を設けて前記空冷ハウジングの前記内側面と前記
仕切壁とで包囲されるエアの風路を形成し,この風路を
包囲する前記内側面と前記仕切壁とを前記吹き付けダク
トに連接し,前記空冷ハウジングの背面に,前記風路と
連通する第2のエア供給口を設けたことを特徴とする請
求項1に記載のカメラヘッドの空冷ハウジング。2. An air flow path surrounded by the inner wall of the air-cooling housing and the partition wall by providing a partition wall that separates from at least one inner surface of the air-cooling housing to isolate a camera head housing portion. A second air supply port that communicates with the air passage is provided on the back surface of the air-cooled housing by connecting the inner side surface surrounding the air passage and the partition wall to the blowing duct. An air-cooled housing for a camera head according to claim 1, characterized in that
給口との間にそれぞれ第1および第2の調節弁を設けた
ことを特徴とする請求項2に記載のカメラヘッドの空冷
ハウジング。3. An air-cooled housing for a camera head according to claim 2, wherein first and second control valves are provided between the air supply source and the first and second air supply ports, respectively. .
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP31585594A JP3386607B2 (en) | 1994-11-25 | 1994-11-25 | Air-cooled housing for camera head |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP31585594A JP3386607B2 (en) | 1994-11-25 | 1994-11-25 | Air-cooled housing for camera head |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH08154193A true JPH08154193A (en) | 1996-06-11 |
JP3386607B2 JP3386607B2 (en) | 2003-03-17 |
Family
ID=18070400
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP31585594A Expired - Fee Related JP3386607B2 (en) | 1994-11-25 | 1994-11-25 | Air-cooled housing for camera head |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3386607B2 (en) |
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