JP2942387B2 - Endoscope fluid path connection device - Google Patents
Endoscope fluid path connection deviceInfo
- Publication number
- JP2942387B2 JP2942387B2 JP3187111A JP18711191A JP2942387B2 JP 2942387 B2 JP2942387 B2 JP 2942387B2 JP 3187111 A JP3187111 A JP 3187111A JP 18711191 A JP18711191 A JP 18711191A JP 2942387 B2 JP2942387 B2 JP 2942387B2
- Authority
- JP
- Japan
- Prior art keywords
- liquid
- endoscope
- path
- suction
- water
- 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.)
- Expired - Fee Related
Links
Landscapes
- Endoscopes (AREA)
- Instruments For Viewing The Inside Of Hollow Bodies (AREA)
Description
【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION
【0001】[0001]
【産業上の利用分野】この発明は、送気路、送液路及び
吸引路を内視鏡の送気管、送液管及び吸引管に接続する
ための内視鏡の流体通路接続装置に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an endoscope fluid path connecting device for connecting an air supply path, a liquid supply path and a suction path to an air supply pipe, a liquid supply pipe and a suction pipe of an endoscope.
【0002】[0002]
【従来の技術】内視鏡の送液管に水等を送り込むには、
一般に、水等を収容した送液タンクに送液路と送気路と
を接続して、送気路から送液タンクに与えられる空気圧
によって送液タンクの内圧を高め、それによって送液タ
ンク内部の液体を送液路に送り出すようにしている。2. Description of the Related Art To feed water or the like into a liquid feed pipe of an endoscope,
In general, a liquid supply path and an air supply path are connected to a liquid supply tank containing water or the like, and the internal pressure of the liquid supply tank is increased by air pressure supplied from the air supply path to the liquid supply tank, thereby increasing the internal pressure of the liquid supply tank. Is sent out to the liquid supply path.
【0003】しかし、そのような装置では、送気路及び
送液路を内視鏡の送気管及び送液管に接続している流体
用コネクタを抜く際に、送液タンク内に圧力が加わって
いるので、内部の液体が送液路の出口から噴き出してし
まう現象が発生する。[0003] However, in such a device, when the fluid connector connecting the air supply path and the liquid supply path to the air supply pipe and the liquid supply pipe of the endoscope is disconnected, pressure is applied to the liquid supply tank. Therefore, a phenomenon occurs in which the internal liquid is ejected from the outlet of the liquid feeding path.
【0004】そこで従来の内視鏡の流体通路接続装置に
おいては、流体用コネクタを抜いたときに送液路を閉塞
する開閉弁機構を設けて、送液路からの液体の噴出を防
止していた(実開昭62−59001号公報)。Therefore, in a conventional fluid path connecting device for an endoscope, an opening / closing valve mechanism for closing a liquid supply path when a fluid connector is disconnected is provided to prevent ejection of liquid from the liquid supply path. (Japanese Unexamined Utility Model Publication No. 62-59001).
【0005】[0005]
【発明が解決しようとする課題】しかし、送液路を閉塞
してしまうような開閉弁機構を設けると、構造が複雑に
なると同時に、使用後に送液路内に残った液体を抜くこ
とができなくなってしまうので、衛生上の問題が発生す
る欠点がある。However, if an on-off valve mechanism that closes the liquid feed passage is provided, the structure becomes complicated and the liquid remaining in the liquid feed passage after use can be drained. There is a drawback that hygiene problems occur because they disappear.
【0006】そこで本発明は、送液路を閉塞することな
く、流体用コネクタを抜く際に液体が噴出しない衛生的
な内視鏡の流体通路接続装置を提供することを目的とす
る。SUMMARY OF THE INVENTION It is an object of the present invention to provide a sanitary endoscope fluid path connecting device in which a liquid is not ejected when a fluid connector is pulled out without closing a liquid feeding path.
【0007】[0007]
【課題を解決するための手段】上記の目的を達成するた
め、本発明の内視鏡の流体通路接続装置は、液体が収容
された送液タンクに連通する送液路と送気路とを内視鏡
の送液管と送気管とに着脱自在に接続するための流体用
コネクタを設け、上記送液タンクの内圧によって、その
内部の液体を上記送液路から上記流体用コネクタを介し
て上記内視鏡の送液管に供給するようにした内視鏡の流
体通路接続装置において、吸引手段に接続された吸引路
が上記流体用コネクタにおいて上記内視鏡の吸引管に着
脱自在に接続されるようにすると共に、上記流体用コネ
クタの接続を外す際に、上記送液路と上記内視鏡の送液
管との接続状態が外れるより先に、上記送気路と上記吸
引路とを連通させて上記送液タンク内を減圧させる送液
タンク減圧手段を設けたことを特徴とする。In order to achieve the above-mentioned object, a fluid path connecting device for an endoscope according to the present invention comprises a liquid supply passage and an air supply passage communicating with a liquid supply tank containing a liquid. A fluid connector for detachably connecting the endoscope with the liquid supply pipe and the air supply pipe is provided, and the internal pressure of the liquid supply tank causes the liquid inside to flow from the liquid supply path through the fluid connector. In the fluid path connecting device for an endoscope, which is supplied to a liquid supply pipe of the endoscope, a suction path connected to a suction means is detachably connected to the suction pipe of the endoscope at the fluid connector. In addition, when disconnecting the fluid connector, prior to disconnection of the liquid supply path and the liquid supply pipe of the endoscope, the air supply path and the suction path And a liquid sending tank pressure reducing means for reducing the pressure inside the liquid sending tank And wherein the digit.
【0008】[0008]
【実施例】図面を参照して実施例を説明する。An embodiment will be described with reference to the drawings.
【0009】図2において、1は内視鏡、2は光源装
置、3は吸引装置であり、光源装置2内には、内視鏡の
照明用ライトガイドに照明光を供給するための光源ラン
プと、加圧された空気を送水タンク4内に供給するため
の送気ポンプなどが設けられている。In FIG. 2, reference numeral 1 denotes an endoscope, 2 denotes a light source device, and 3 denotes a suction device. Inside the light source device 2, a light source lamp for supplying illumination light to an illumination light guide of the endoscope is provided. And an air supply pump for supplying pressurized air into the water supply tank 4.
【0010】10は、光源装置2のソケット21に着脱
自在に差し込まれるライトガイドコネクタであり、ここ
で光源ランプから供給された照明光が、内視鏡1内部の
ライトガイドファイババンドルを伝わって、挿入部先端
の照明窓11から被写体に向けて照射される。Reference numeral 10 denotes a light guide connector which is removably inserted into the socket 21 of the light source device 2. Illumination light supplied from the light source lamp is transmitted through the light guide fiber bundle inside the endoscope 1. Light is emitted toward the subject from the illumination window 11 at the distal end of the insertion section.
【0011】30は、ねじ31によって光源装置2に着
脱自在に取り付けられた光源側流体用コネクタであり、
送水タンク4に接続された送気送水路33と吸引装置3
に接続された吸引路(吸引チューブ)32とが接続され
ている。Reference numeral 30 denotes a light source side fluid connector which is detachably attached to the light source device 2 by screws 31.
Air supply / water supply channel 33 connected to water supply tank 4 and suction device 3
And a suction path (suction tube) 32 connected to the suction port.
【0012】内視鏡1の挿入部先端に開口する送気出口
12、送水出口13及び吸引口14は、内視鏡1内に挿
通された送気管、送水管及び吸引管に接続されていて、
内視鏡側流体用コネクタ50に連通している。そして、
その途中の内視鏡操作部15に、送気、送水及び吸引の
操作を行うための流体操作装置16が設けられている。
なお、7は観察窓、8は接眼部である。An air supply outlet 12, a water supply outlet 13, and a suction port 14 opened at the distal end of the insertion section of the endoscope 1 are connected to an air supply pipe, a water supply pipe, and a suction pipe inserted into the endoscope 1. ,
It communicates with the endoscope-side fluid connector 50. And
A fluid operation device 16 for performing operations of air supply, water supply, and suction is provided in the endoscope operation unit 15 on the way.
In addition, 7 is an observation window, and 8 is an eyepiece.
【0013】内視鏡側流体用コネクタ50は、ライトガ
イドコネクタ10の近くで分岐した管の先端に取り付け
られており、光源側流体用コネクタ30に着脱自在に接
続することができる。The endoscope-side fluid connector 50 is attached to the distal end of a tube branched near the light guide connector 10 and can be detachably connected to the light source-side fluid connector 30.
【0014】図3は、送気、送水及び吸引のための各流
路を示している。送水タンク4の上部には、光源装置2
内の送気ポンプ22から供給を受ける加圧空気の入口4
aが形成され、頭部に接続された送気送水路33は、外
側の送気チューブ33aと内側の送水チューブ33bの
2重構造になっていて、送水チューブ33bの下端部は
送水タンク4の底部近くまで達して、送水タンク4内の
水中に位置している。FIG. 3 shows each flow path for air supply, water supply, and suction. The light source device 2 is provided above the water supply tank 4.
Inlet 4 for pressurized air supplied from air supply pump 22 inside
a is formed, the air supply / water supply channel 33 connected to the head has a double structure of an outer air supply tube 33a and an inner water supply tube 33b, and the lower end of the water supply tube 33b is It reaches near the bottom and is located in the water in the water tank 4.
【0015】したがって、送水タンク4内は送気ポンプ
22によって加圧され、その圧力によって送水タンク4
内の水が送水チューブ33b内を通って先側へ押し出さ
れる。Therefore, the inside of the water supply tank 4 is pressurized by the air supply pump 22, and the pressure of the water supply tank 4
The water inside is pushed out to the front side through the inside of the water supply tube 33b.
【0016】図3に示される他の部分は図2において説
明したものを略示したものであり、内視鏡1側に設けら
れた送気管17、送水管18及び吸引管19などが各々
図示されている。The other parts shown in FIG. 3 schematically show those described with reference to FIG. 2, and include an air supply pipe 17, a water supply pipe 18, a suction pipe 19, and the like provided on the endoscope 1 side. Have been.
【0017】図4は、流体用コネクタ30,50の構造
を示している。内視鏡側流体用コネクタ50は、弾力性
のある軟質のプラスチックによって形成されていて、中
央部分の通水孔52を挟んで、その両側に通気孔53と
吸引連通孔54とが各々貫通して穿設され、それらに、
送水管18、送気管17及び吸引管19が接続されてい
る。56は指あて用ストッパである。FIG. 4 shows the structure of the fluid connectors 30, 50. The endoscope-side fluid connector 50 is formed of a resilient and soft plastic, and a ventilation hole 53 and a suction communication hole 54 penetrate on both sides of the water passage hole 52 at the center. Drilled in them,
The water supply pipe 18, the air supply pipe 17, and the suction pipe 19 are connected. Reference numeral 56 denotes a finger stopper.
【0018】光源側流体用コネクタ30には、内視鏡側
流体用コネクタ50の通水孔52、通気孔53及び吸引
連通孔54に位置を合わせて、給水孔36、給気孔37
及び吸引孔38が穿設されており、それらに、送水チュ
ーブ33b、送気チューブ33a及び吸引チューブ32
が接続されている。In the light source side fluid connector 30, the water supply hole 36, the air supply hole 37 and the water supply hole 52, the ventilation hole 53 and the suction communication hole 54 of the endoscope side fluid connector 50 are aligned.
And a suction hole 38, and a water supply tube 33b, an air supply tube 33a, and a suction tube 32 are provided therein.
Is connected.
【0019】ただし、給水孔36、給気孔37及び吸引
孔38の各端部は光源側流体用コネクタ30を囲んで形
成された筒状縁部39より奥にひっこんで形成されてい
る。However, the respective ends of the water supply hole 36, the air supply hole 37, and the suction hole 38 are formed so as to be recessed from a cylindrical edge 39 formed around the light source side fluid connector 30.
【0020】このような構成により、図4に示されるよ
うに、光源側流体用コネクタ30に内視鏡側流体用コネ
クタ50を差し込むことによって、空気と水と吸引のた
めの3つの管路が各々接続され、流体操作装置16を操
作することによって、内視鏡挿入部先端の送気出口1
2、送水出口13及び吸引口14から、任意に送気、送
水及び吸引を行うことができる。このとき、送水タンク
4内の水は送水タンク4の内圧によって送水チューブ3
3bから内視鏡1側の送水管18へと送り出される。With this configuration, as shown in FIG. 4, by inserting the endoscope-side fluid connector 50 into the light source-side fluid connector 30, three lines for air, water, and suction are formed. By operating the fluid operation device 16 connected to each end, the air supply outlet 1 at the distal end of the endoscope insertion portion is operated.
2. Air supply, water supply and suction can be arbitrarily performed from the water supply outlet 13 and the suction port 14. At this time, the water in the water supply tank 4 is supplied by the water supply tube 3 by the internal pressure of the water supply tank 4.
3b is sent out to the water pipe 18 on the endoscope 1 side.
【0021】そして、内視鏡側流体用コネクタ50を光
源側流体用コネクタ30から抜けば、送気と送水と吸引
の3つの管路の接続が各々外れる。When the endoscope-side fluid connector 50 is disconnected from the light source-side fluid connector 30, the three conduits of air supply, water supply, and suction are disconnected.
【0022】しかし、図4に示されるように、給水孔3
6の口元部には、力の弱い圧縮コイルバネ41によって
内方に付勢された補助筒42が装着されており、この補
助筒42は、通水孔52を少し押し拡げるようにして通
水孔52に嵌入されている。However, as shown in FIG.
An auxiliary cylinder 42, which is urged inward by a weak compression coil spring 41, is attached to the mouth of the cylinder 6, and the auxiliary cylinder 42 pushes the water hole 52 slightly so as to expand. 52.
【0023】したがって、流体用コネクタ30,50の
接続を外すときには、図1に示されるように、補助筒4
2が、圧縮コイルバネ41を圧縮して通水孔52側に
(図1で右方に)残される状態となり、給気孔37と内
視鏡側の通気孔53、及び吸引孔38と内視鏡側の吸引
連通孔54との接続が各々外れた後まで、給水孔36と
内視鏡側の通水孔52とが接続された状態になってい
る。Therefore, when disconnecting the fluid connectors 30, 50, as shown in FIG.
2, the compression coil spring 41 is compressed and left in the water hole 52 side (to the right in FIG. 1), and the air supply hole 37 and the vent hole 53 on the endoscope side, and the suction hole 38 and the endoscope The water supply hole 36 and the water passage hole 52 on the endoscope side are in a connected state until the connection with the suction communication hole 54 on the side is disconnected.
【0024】すると、その状態では、光源側流体用コネ
クタ30の筒状縁部39内の空間(送液タンク減圧路)
43を介して、給気孔37と吸引孔38とが連通して、
給気孔37内が吸引され、その結果、送水タンク4内の
圧力が瞬時に減圧される。Then, in that state, the space (the liquid supply tank pressure reducing passage) in the cylindrical edge portion 39 of the light source side fluid connector 30 is formed.
43, the air supply hole 37 and the suction hole 38 communicate with each other,
The inside of the air supply hole 37 is sucked, and as a result, the pressure in the water supply tank 4 is instantaneously reduced.
【0025】この時から後は、送水タンク4内の水は加
圧されず、給水孔36から水が押し出されない状態にな
る。なお、この状態のときに吸引装置3に負荷がかかり
すぎないように、筒状縁部39に穿設された外気との連
通孔40が開いて、外気も同時に吸引されるようになっ
ている。After this time, the water in the water supply tank 4 is not pressurized, and the water is not pushed out from the water supply hole 36. In this state, a communication hole 40 with the outside air formed in the cylindrical edge portion 39 is opened so that the suction device 3 is not overloaded, so that the outside air is sucked at the same time. .
【0026】そして、その後で、補助筒42が通水孔5
2の口元から外れて、給水孔36と内視鏡側の通水孔5
2との接続状態が外れるが、そのときには送水タンク4
内は減圧済みなので、給水孔36からの水の噴出はな
い。Then, after that, the auxiliary cylinder 42 is
2 and the water supply hole 36 and the water passage hole 5 on the endoscope side.
Connection with the water tank 4
Since the inside has been depressurized, there is no ejection of water from the water supply hole 36.
【0027】図5及び図6は本発明の第2の実施例を示
しており、光源側流体用コネクタ30の外周部に形成し
た斜め溝45内に、内視鏡側流体用コネクタ50に立設
したピン59が係合するようにしたものである。FIGS. 5 and 6 show a second embodiment of the present invention. In the oblique groove 45 formed in the outer periphery of the light source side fluid connector 30, an endoscope side fluid connector 50 is set up. The pin 59 provided is engaged.
【0028】この場合には、流体用コネクタ30,50
どうしを軸回りに回転させることによって、それらが軸
方向に進退して、各管路の接続と分離が行われる。そし
て、図6に示されるように、給水孔36と通水孔52と
の接続長さを他より少し長くしておくことによって、上
述の第1の実施例の場合と同様に、流体用コネクタ3
0,50の接続を外す際、給水孔36と通水孔52とが
接続されている間に給気孔37と吸引孔38とが空間
(送液タンク減圧路)43を介して連通し、水の噴出が
発生しない。In this case, the fluid connectors 30, 50
By rotating them about an axis, they move back and forth in the axial direction, and connection and disconnection of each conduit are performed. Then, as shown in FIG. 6, the connection length between the water supply hole 36 and the water passage hole 52 is made slightly longer than the other, so that the fluid connector is provided in the same manner as in the first embodiment. 3
When the connection between 0 and 50 is disconnected, the water supply hole 37 and the suction hole 38 communicate with each other via the space (liquid supply tank pressure reducing passage) 43 while the water supply hole 36 and the water passage hole 52 are connected. No eruption occurs.
【0029】図7及び図8は、上述の斜め溝45に代え
てクランク状溝46を形成したものである。この場合に
は、クランク状溝46の途中の段部46aにピン59が
位置するときに、図8に示されるように、給水孔36と
通水孔52とは接続されていて、且つ給気孔37と吸引
孔38とが連通する状態になる。したがって、流体用コ
ネクタ30,50を抜く際には、一定時間以上確実にこ
の状態になり、給水孔36からの水の噴出を完全に防止
することができる。また構造上、送液タンク減圧路43
を環状に形成する必要がない。FIGS. 7 and 8 show a crank-shaped groove 46 instead of the above-described oblique groove 45. FIG. In this case, when the pin 59 is located at the step 46a in the middle of the crank-shaped groove 46, the water supply hole 36 and the water supply hole 52 are connected as shown in FIG. 37 and the suction hole 38 communicate with each other. Therefore, when the fluid connectors 30 and 50 are disconnected, this state is ensured for a certain period of time or more, and the ejection of water from the water supply hole 36 can be completely prevented. In addition, due to the structure, the liquid supply tank pressure reducing path 43
Need not be formed in an annular shape.
【0030】なお、本発明は上記実施例に限定されるも
のではなく、上述の他に種々の実施態様をとることがで
きるものであり、例えば、図9に示されるように、内視
鏡側流体用コネクタ50をライトガイドコネクタ10に
取り付けて、ライトガイドコネクタ10と光源装置2の
ソケット21との着脱がされると同時に、送気、送水及
び吸引管路の着脱が一体的に行われるようにしてもよ
い。It should be noted that the present invention is not limited to the above-described embodiment, but can take various embodiments other than those described above. For example, as shown in FIG. The fluid connector 50 is attached to the light guide connector 10 so that the light guide connector 10 and the socket 21 of the light source device 2 are attached and detached, and at the same time, the air supply, the water supply, and the attachment / detachment of the suction conduit are integrally performed. You may.
【0031】[0031]
【発明の効果】本発明の内視鏡の流体通路接続装置によ
れば、流体用コネクタの接続を外す際に、送液タンクに
連通する送液路と内視鏡の送液管との接続状態が外れる
より先に、送液タンクに連通する送気路と吸引路とが連
通して、送液タンク内が減圧されてしまうので、その後
で送液路の接続が外れたときには送液路からは水が噴出
しない。According to the fluid path connecting device for an endoscope of the present invention, when the fluid connector is disconnected, the connection between the liquid supply path communicating with the liquid supply tank and the liquid supply pipe of the endoscope is made. Before the state is released, the air supply path communicating with the liquid supply tank and the suction path communicate with each other, and the inside of the liquid supply tank is depressurized. Does not spout water.
【0032】したがって、送液路を閉塞するための開閉
弁機構などを設ける必要がないので、使用後に送液路内
の水切り等を容易に行うことができて衛生的であり、ま
た構造的に簡単なので故障の可能性も小さく、製造コス
トも低い等の優れた効果を有する。Therefore, there is no need to provide an opening / closing valve mechanism for closing the liquid feed passage, so that drainage in the liquid feed passage can be easily performed after use, which is hygienic and structurally. Since it is simple, the possibility of failure is small, and there are excellent effects such as low manufacturing cost.
【図1】第1の実施例の部分側面断面図である。FIG. 1 is a partial side sectional view of a first embodiment.
【図2】第1の実施例のシステム全体図である。FIG. 2 is an overall system diagram of a first embodiment.
【図3】第1の実施例の流体管路図である。FIG. 3 is a fluid pipeline diagram of the first embodiment.
【図4】第1の実施例の側面断面図である。FIG. 4 is a side sectional view of the first embodiment.
【図5】第2の実施例の部分平面略示図である。FIG. 5 is a schematic partial plan view of the second embodiment.
【図6】第2の実施例の部分側面断面図である。FIG. 6 is a partial side sectional view of the second embodiment.
【図7】第3の実施例の部分平面略示図である。FIG. 7 is a schematic partial plan view of a third embodiment.
【図8】第3の実施例の部分側面断面図である。FIG. 8 is a partial side sectional view of a third embodiment.
【図9】第4の実施例の部分斜視図である。FIG. 9 is a partial perspective view of the fourth embodiment.
4 送水タンク(送液タンク) 17 送気管 18 送水管(送液管) 19 吸引管 30 光源側流体用コネクタ 33a 送気チューブ(送気路) 33b 送水チューブ(送液路) 43 空間(送液タンク減圧手段) 50 内視鏡側流体用コネクタ 4 Water supply tank (liquid supply tank) 17 Air supply pipe 18 Water supply pipe (liquid supply pipe) 19 Suction pipe 30 Light source side fluid connector 33a Air supply tube (air supply path) 33b Water supply tube (liquid supply path) 43 Space (liquid supply) Tank pressure reducing means) 50 Endoscope side fluid connector
Claims (1)
液路と送気路とを内視鏡の送液管と送気管とに着脱自在
に接続するための流体用コネクタを設け、上記送液タン
クの内圧によって、その内部の液体を上記送液路から上
記流体用コネクタを介して上記内視鏡の送液管に供給す
るようにした内視鏡の流体通路接続装置において、吸引
手段に接続された吸引路が上記流体用コネクタにおいて
上記内視鏡の吸引管に着脱自在に接続されるようにする
と共に、上記流体用コネクタの接続を外す際に、上記送
液路と上記内視鏡の送液管との接続状態が外れるより先
に、上記送気路と上記吸引路とを連通させて上記送液タ
ンク内を減圧させる送液タンク減圧手段を設けたことを
特徴とする内視鏡の流体通路接続装置。A fluid connector for detachably connecting a liquid supply path and an air supply path communicating with a liquid supply tank containing a liquid to a liquid supply pipe and an air supply pipe of an endoscope; In the fluid path connecting device for an endoscope, the liquid inside the liquid feed tank is supplied from the liquid feed path to the liquid feed pipe of the endoscope via the fluid connector by the internal pressure of the liquid feed tank. The suction passage connected to the means is detachably connected to the suction tube of the endoscope in the fluid connector, and when the fluid connector is disconnected, the liquid supply passage and the internal passage are disconnected. Before the connection state with the liquid feeding pipe of the endoscope is released, a liquid feeding tank depressurizing means for connecting the air feeding path and the suction path to reduce the pressure in the liquid feeding tank is provided. Endoscope fluid path connection device.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP3187111A JP2942387B2 (en) | 1991-04-24 | 1991-04-24 | Endoscope fluid path connection device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP3187111A JP2942387B2 (en) | 1991-04-24 | 1991-04-24 | Endoscope fluid path connection device |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH04325140A JPH04325140A (en) | 1992-11-13 |
| JP2942387B2 true JP2942387B2 (en) | 1999-08-30 |
Family
ID=16200298
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP3187111A Expired - Fee Related JP2942387B2 (en) | 1991-04-24 | 1991-04-24 | Endoscope fluid path connection device |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP2942387B2 (en) |
Families Citing this family (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP4554808B2 (en) * | 2000-12-14 | 2010-09-29 | Hoya株式会社 | Endoscope water supply device |
| JP4700936B2 (en) * | 2004-07-22 | 2011-06-15 | オリンパス株式会社 | Endoscope device |
| JP4528051B2 (en) * | 2004-07-30 | 2010-08-18 | 富士フイルム株式会社 | Endoscope |
| JP2007185387A (en) * | 2006-01-13 | 2007-07-26 | Olympus Medical Systems Corp | Endoscope system |
-
1991
- 1991-04-24 JP JP3187111A patent/JP2942387B2/en not_active Expired - Fee Related
Also Published As
| Publication number | Publication date |
|---|---|
| JPH04325140A (en) | 1992-11-13 |
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