JP2004000334A - Medical apparatus, and method for controlling the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a control method for a small medical apparatus for identifying medical units without soil effect or deterioration with time. <P>SOLUTION: In a medical apparatus body device including functions for driving and controlling a plurality of medical units, a plurality of endoscopes conducts medical treatments to patients, a magnetic body 16 generates identification magnetism for identifying the respective endoscopes, a magnetic force detector 22 detects the identification magnetism from the magnetic body, and the endoscopes are identified with the identification magnetism detected by the magnetic force detector 22. The body device performs driving and controlling in response to the identified endoscope. <P>COPYRIGHT: (C)2004,JPO

Description

以上説明したように、電子内視鏡５２のプラグユニット２のプラグ外装４に磁性体１６又は非磁性体２５を組み合わせて設けることで、電子内視鏡の種類や方式等による識別磁界情報を設定する。一方、プラグユニット２が挿着されると共に、電子内視鏡５２を駆動制御すると共に、撮像生成された映像信号を処理するビデオプロセッサ装置５５に設けられたレセプタクルユニット３に前記プラグユニット２の磁性体１６と非磁性体２５の組み合わせ識別情報を読み取り、その識別情報の基で、電子内視鏡５２を最適駆動制御すると共に、撮像された映像信号を最適信号処理することが可能となる。
【００６４】
この結果、単一のビデオプロセッサ装置５５に対して、複数種類の電子内視鏡５２のうち接続された電子内視鏡５２の種類を識別判定し、識別判定された電子内視鏡に適合した駆動制御が可能となった。
【００６５】
また、プラグユニット２の内部は、水密が保たれた構成となり、洗浄消毒時の洗浄消毒液などの侵入が防げ、かつ、電子内視鏡の種類や方式の識別情報は、磁性体を用いたことで経時変化による識別情報の劣化を低減でき、仮に、プラグユニット２の表面が汚損していたとしても磁束が汚損物質を透過するために、確実に識別情報の検出が可能となる。
【００６６】
更に、識別情報の判別手段として可動部を持たないため、プラグユニット２の外表面をシームレスに構成することが可能であり、衝撃に対する高い強度を有し、破壊故障の少ないプラグユニット２を形成することが可能である。
【００６７】
なお、上記説明では、プラグユニット２のプラグ外装４の外表面の凹部２４に識別用の磁性体１６又は非磁性体２５の表面が露出するように挿着嵌合したが、プラグ外装４の絶縁部材中にそれぞれの磁性体間で磁性干渉のない範囲内で埋設しても良く、これにより、識別情報を有する磁性体又は非磁性体の経時変化や洗浄消毒による汚損なども解消できる。
【００６８】
次に、本発明の医療装置である電子内視鏡５２のライトガイドコネクタ２７について、図５乃至図６を用いて説明する。図５は本発明の一実施形態である医療機器に用いるライトガイドコネクタの展開斜視図、図６は本発明の一実施形態である医療機器に用いるライトガイドコネクタの結合状態を説明する説明図である。
【００６９】
ライトガイドコネクタ２７は、ライトガイドプラグ２８とライトガイドレセプタクル２９とからなっている。ライトガイドプラグ２８は、前記ユニバーサルケーブル５３のライトガイドケーブル３０の端部に、略円筒状のライトガイドプラグ外装４’が挿着される。このライトガイドプラグ外装４’の中心部分の外周には、略円盤状の突堤部４’ａが形成されており、この突堤部４’ａの図中左側の前記ライトガイドケーブル３０の挿着側には、把持部４’ｃが形成され、前記突堤部４’ａの図中右側には、挿着部４’ｂが形成されている。この挿着部４’ｂの端面からは、ライトガイドロッド３１が延在されている。
【００７０】
つまり、前記ライトガイドプラグ外装４’は、把持部４’ｃ、突堤部４’ａ、挿着部４’ｂ、及びライトガイドロッド３１の軸方向に前記ライトガイドケーブル３０の挿入路が設けられている。ただし、ライトガイドロッド３０の先端部は、図示していないが照明光入射窓が形成されている。
【００７１】
このライトガイドプラグ外装４’の把持部４’ｃの端部から挿入された前記ライトガイドケーブル３０の先端は、前記ライトガイドロッド３１の照明光入射窓に当接させ、かつ、ライトガイドケーブル３０はライトガイドプラグ外装４’で固定保持されるようになっている。
【００７２】
また、このプラグ外装４’の挿着部４’ｂの外周面には、等間隔で複数の凹部２４’が設けられ、この凹部２４’に磁性体１６’又は非磁性体２５’が挿着固定されるようになっている。
【００７３】
一方、ライトガイドレセプタクル２９は、ハウジング１０’の中心軸方向に前記ライトガイドプラグ外装４’の挿着部４’ｂとライトガイドロッド３１が挿着される挿着孔１１’と挿入孔１４’が設けられている。すなわち、前記ライトガイド外装４’の挿着部４’ｂが挿着される挿着孔１１’と、その挿着孔１１’の中心部に前記ライトガイドプラグ外装４’のライトガイドロッド３１が挿入される挿入孔１４’が設けられ、前記ライトガイドプラグ外装４’がライトガイドレセプタクル２９のハウジング１０’に挿着されると、突堤部４’ａとハウジング１０’とが当接されて位置規制されるようになっている。
【００７４】
このハウジング１０’の背面側には、略ドーナツ形状の電気基板２１’がネジ２６で装着されている。この電気基板２１’には、前記ライトガイドプラグ外装４’の挿着部４’ｂに設けられた複数の凹部２４’と対向する位置にホール素子等の複数の磁力検出器２２’が配置されており、この複数の磁力検出器２２’は、それぞれ信号線２３’を介して、照明装置５４に内蔵されている光源用ランプの点灯制御回路に接続されている。
【００７５】
つまり、前記ライトガイドプラグ外装４’の挿着部４’ｂの外周面に設けた複数の凹部２４’に磁性体１６’と非磁性体２５’の組み合わせ配置により、ライトガイドケーブルに入射させる照明光の光量を示す識別情報を設定し、この識別情報により光源ランプの選択設定、又は選択されたランプの点灯制御を行うようにしたものである。
【００７６】
なお、前記ライトガイドプラグ２８とライトガイドレセプタクル２９との接合挿着後において、ライトガイドの光軸方向に対して相対的に回動自在であるが、図６に示すように、電気基板２１’の磁力検出器２２’の間に磁性体１６’が位置した場合、例えば、１つの磁性体１６’ａの磁力を２つの磁力検出器２２’ａ，２２’ｃにより検知可能となるようにライトガイドプラグ外装４’と電気基板２１’の径寸法、及びライトガイド外装４’の磁性体１６’と電気基板２１’の磁力検出器２２’の配置位置を配慮する。つまり、磁性体１６’の磁極と非磁性体２５の周方向の配列が同一とならないような配置を選択することで、ライトガイドプラグ２８とライトガイドレセプタクル２９の結合が周方向に移動しても識別情報の検出が可能となる。
【００７７】
すなわち、前記ライトガイドプラグ外装４’の挿着部４’ｂに３つの凹部２４’を設け、この凹部２４’に磁性体１６’と非磁性体２５’を挿着嵌合させて、表２に示す識別情報の組み合わせが可能となる。
【００７８】
【表２】

これにより、特にライトガイドプラグ２８は、水密的に形成でき、電子内視鏡と共に洗浄消毒が容易となり、識別情報を磁力で示すために、経時劣化が少ない医療装置の提供が可能となり、かつ、識別情報の基で光源装置から最適照明光量を提供することが可能となる。
【００７９】
次に、本発明の他の実施形態である医療機器について、図７と図８を用いて説明する。
【００８０】
この他の実施形態は、光学式内視鏡の接眼部にカメラヘッド３３を取付て内視鏡観察部位を撮像する方式において、光学式内視鏡の種類及び方式を識別し、カメラヘッド３３の撮像動作や撮像映像信号の処理を光学式内視鏡に適合するように制御する方法に関する。
【００８１】
図７は本発明の他の実施形態の内視鏡の接眼部とカメラヘッドの結合状態を示す断面図、図８は本発明の他の実施形態の内視鏡の接眼部を示す外観斜視図である。
【００８２】
内視鏡の接眼部３２には、カメラヘッド３３が着脱自在に装着されるようになっている。カメラヘッド３３は、接眼部マウント３４、カメラヘッド本体３５、及びカメラケーブル３６とで構成されている。
【００８３】
絶縁部材で形成された中空形状のカメラ本体３５の内部には、金属部材で形成された機密ケーシング３７が配置され、この機密ケーシング３７は、内部が中空な円筒状で前面側のカバーガラス３８と、背面側のハーメチックコネクタ３９とによって内部は機密封止されている。
【００８４】
前記機密ケーシング３７の内部には、前記カバーガラス３８側から順に磁力検出器２２と、結像光学系４０と、及び固体撮像素子４１が配置されている。前記磁力検出器２２は、前記カバーガラス３８の外周部分に配置されている。前記カバーガラス３８から入射された光は、結像光学系４０を介して、固体撮像素子４１に結像されるようになっている。
【００８５】
前記磁力検出器２２は信号線２３により、前記固体撮像素子４１は信号線１９により、それぞれがハーメチックコネクタ３９に接続されている。また、ハーメチックコネクタ３９には、前記カメラケーブル３６の信号線４２が接続されている。つまり、前記磁力検出器２２と固体撮像素子４１は、ハーメチックコネクタ３９を介して、カメラケーブル３６に接続され、このカメラケーブル３６は、ビデオプロセッサ装置５５に接続されている。
【００８６】
前記カバーガラス３８の外周側から前記カメラ本体３５と一体的に接眼マウント３４が延在形成されている。
【００８７】
この接眼部マウント３４は、略円環状のマウントリング４４が形成されており、このマウントリング４４の内部には、所定間隔で弾性体４６で付勢されたロックピン４５が内周側に突出されている。つまり、ロックピン４５が常時マウントリング４４の内周側から外部に突出するように弾性部材４６で付勢されている。
【００８８】
この接眼部マウント３４のマウントリング４４の内周部には、内視鏡の接眼部３２を前記弾性体４６で付勢されているロックピン４５を押し上げて挿着し、前記弾性体４６で付勢されたロックピン４５で保持固定されるようになっている。
【００８９】
また、前記内視鏡の接眼部３２の接眼レンズの外周側には、図８に示すように、凹部２４が設けられ、この凹部２４には、識別用磁力を発生させる磁性体１６が挿着固定されるようになっている。なお、図８は、１つの凹部２４のみ示しているが、接眼レンズ外周に等間隔で複数の凹部２４を設け、その複数の凹部に複数の磁性体１６と非磁性体が挿着出来るようにしても良い。
【００９０】
この内視鏡の接眼部３２にカメラヘッド３３の接眼部マウント３４が挿着固定されると、前記接眼部３２に設けられた磁性体１６の磁力を前記カメラヘッド３３のカメラヘッド本体３５に設けられた磁力検出器２２で検出し、その検出した磁力情報の基で、前記固体撮像素子４１の駆動を制御したり、固体撮像素子で撮像した映像信号の所定信号処理制御を行う。
【００９１】
このように光学式内視鏡の接眼部３２にカメラヘッド３３を取り付けて、内視鏡の接眼部に表示される観察部位像を固体撮像素子４１に結像させ、映像信号化することが可能となり、光学内視鏡のイメージガイドの相違や、電子的あるいは光学的デフォーカス（モアレ防止）の相違などを前記接眼部３２に設けられた磁性体１６又は非磁性体２５からの磁力情報によりカメラヘッド３３を駆動制御し、かつ、カメラヘッド３３で撮像した映像信号を最適信号処理して、モニタ装置５６に最適画像の表示を行うことが出来る。
【００９２】
これにより、内視鏡の接眼部３２にカメラヘッド３３を接続した際に、内視鏡の種類や方式が確実に識別でき、その内視鏡に最適なカメラヘッド３３の駆動が可能となる。
【００９３】
また、カメラヘッド３３は、内視鏡の接眼部３２に取付自在としたために、特に高圧蒸気滅菌処理やその他の滅菌洗浄処理を行う必要もなくなる。なお、内視鏡は接眼部３２を含めて滅菌洗浄処理する際に、識別情報は、磁性体１６又は非磁性体２５で現すために洗浄や経年変化による劣化が生じにくくなる。
【００９４】
なお、前記内視鏡の接眼部３２の形状は、ＤＩＮ等の規格で決められているが、この規格を遵守したうえで、前記識別用の磁性体１６を設けことは可能である。
【００９５】
この他の実施形態の応用例として、接眼部３２に磁石を配置し、接眼部マウント３４を磁性体である金属部材で形成して、接眼部３２と接眼部マウント３４とが磁力結合できるようにした場合、接眼部３２に接眼部マウント３４との磁力結合用の磁石と併設して識別用の磁性体１６も配置させる。前記接眼部３２の磁石で磁力結合された時、接眼部マウント３４の磁力検出器２２で識別磁性体１６の極性を検出することで、内視鏡の識別が可能となる。
【００９６】
また、接眼部マウント３４の磁力検出器２２で何ら磁力検出が出来ない場合には、前記接眼部３２が装着されていないと判断でき、ビデオプロセッサ装置は、固体撮像素子の駆動や光源装置の駆動を停止させることも可能となる。
【００９７】
更に、磁力検出器２２には、ホール素子以外に磁力の引力、反発力を利用してオン／オフを行うことが可能な機械的なスイッチを用いても良い。
【００９８】
また、磁力検出器２２の代わりとして、識別磁界発生手段から発生された磁界を識別可能な範囲で離れた位置に磁界を受信可能なアンテナを設け、操作者が医療処置手段を選択していることを示すオン／オフ可能な第２の識別磁界発生手段を医療処置手段に設けることで、医療処置手段と医療機器制御手段が接続プラグ手段により接続されていない離れた状態でも医療処置手段の種別を判別可能となる。
【００９９】
［付記］
以上詳述した本発明の実施形態によれば、以下のごとき構成を得ることができる。
【０１００】
（付記１）
被検体に医療行為を行うための複数種類の医療処置手段と、
前記複数種類の医療処置手段それぞれに設けられ、医療処置手段の種別を示す識別磁界を発生する識別磁界発生手段と、
前記識別磁界発生手段から発生した識別磁界を検出する識別磁界検出手段と、
前記識別磁界検出手段で検出した識別磁界を基に、前記医療処置手段の種別を識別判定すると共に、その識別判定結果に基づいて、前記医療処置手段を駆動制御する医療機器制御手段と、
を具備したことを特徴とする医療装置。
【０１０１】
（付記２）
前記識別磁界発生手段は、前記医療処置手段を前記医療機器制御手段に接続する接続プラグ手段に設けられたことを特徴とする付記１に記載の医療装置。
【０１０２】
（付記３）
前記識別磁界検出手段は、前記医療処置手段の接続プラグ手段が接続される前記医療機器制御手段に設けられると共に、前記接続プラグ手段に設けられた識別磁界発生手段の近傍に設けられたことを特徴とする付記２に記載の医療装置。
【０１０３】
（付記４）
被検体に医療行為を行うための複数種類の医療処置手段と、前記複数種類の医療処置手段それぞれに設けられ、医療処置手段の種別を示す識別磁界を発生する識別磁界発生手段と、前記識別磁界発生手段から発生した識別磁界を検出する識別磁界検出手段と、前記識別磁界検出手段で検出した識別磁界を基に、前記医療処置手段の種別を識別判定すると共に、その識別判定結果に基づいて、前記医療処置手段を駆動制御する医療機器制御手段とを有する医療装置であって、
選択された医療処置手段の種別を示す識別磁界を検出する識別磁界検出工程と、
前記識別磁界検出工程で検出した識別磁界に基づいて、選択された医療処置手段の種別を判別する判別工程と、
前記判別工程で判別された医療処置手段の種別に基づいて、選択した医療処置手段を駆動制御する制御工程と、
を具備したことを特徴する医療装置の制御方法。
【０１０４】
（付記５）
被検体に医療行為を行うための第１の医療機器と、
前記第１の医療機器と異なる第２の医療機器と、
前記第１の医療機器に設けられた第１の磁界発生手段と、
前記第２の医療機器に設けられ、前記第１の磁界発生手段が発生する磁界と異なる磁界を発生する第２の磁界発生手段と、
術者により選択された前記第１の医療機器、または、前記第２の医療機器に対応する前記第１の磁界発生手段、または、第２の磁界発生手段が発生する磁界を検出する磁界検出手段と、
前記磁界検出手段で検出された磁界に基づいて選択された医療機器を判別する判別手段と、
前記判別手段で判別された医療機器情報に基づいて選択された前記医療機器に関わる所定機能を制御する制御信号を発生する制御手段と、
を具備することを特徴とした医療装置。
【０１０５】
（付記６）
前記第１の医療機器の前記第１の磁界発生手段、または、前記第２の医療機器の前記第２の磁界発生手段は、前記判別手段と制御手段を有する医療機器本体に接続する接続手段を介して接続されることを特徴とした付記５に記載の医療装置。
【０１０６】
（付記７）
前記接続手段は、前記第１の医療機器、もしくは、前記第２の医療機器を接続した際に、接続された医療機器に設けられた磁界発生手段の近傍に前記磁界検出手段が配置されていることを特徴とする付記６に記載の医療装置。
【０１０７】
（付記８）
被検体に医療行為を行うための第１の医療機器と、前記第１の医療機器と異なる第２の医療機器と、前記第１の医療機器に設けられた第１の磁場形成手段と、前記第２の医療機器に設けられ、前記第１の磁場形成手段が発生する磁場と異なる磁場を発生する第２の磁場形成手段と、術者が前記第１の医療機器もしくは第２の医療機器を選択することに伴い前記第１の磁場形成手段又は第２の磁場形成手段により形成された磁場を検出する検出手段とを有する医療装置の制御方法であって、
選択された医療機器からの磁場を検出する検出工程と、
前記検出工程において検出された磁場に基づいて選択された医療機器に判別する判別工程と、
前記判別工程において得られた医療機器情報に基づいて選択された医療機器に関わる所定機能を制御する制御を行う制御工程と、
を具備したことを特徴とする医療装置の制御方法。
【０１０８】
（付記９）
第１の医療用機器と、第２の医療用機器とを接続する接続部において、
前記第１の医療用機器は、構成または用途のいずれかが異なる複数種が用意されており、前記第１の医療用機器に設けられた第１の接続部と、前記第２の医療用機器に設けられた第２の接続部とを着脱自在に接続可能な接続手段と、
前記第１の接続部には、前記第１の医療用機器の種別を磁力によって出力する磁性材料から構成された識別信号出力手段と、
前記第２の接続部には、前記識別信号出力手段から出力された磁力を検知する検知手段と、
を具備したことを特徴とする医療装置。
【０１０９】
（付記１０）
前記第２の接続部に設けられた前記磁力検知手段からの出力内容に基づいて、前記第２の接続部に接続された第１の医療用機器の種別を検出する検出手段と、前記検出手段の検出結果に応じて、前記第２の医療用機器の動作を変更する動作変更手段とを前記第２の接続部乃至前記第２の医療用機器のいずれかに具備したことを特徴とする付記９に記載の医療装置。
【０１１０】
（付記１１）
前記第２の接続部に設けられた前記検知手段は、前記第１の接続部に設けられた識別信号出力手段より出力する磁束の有無ないし極性を検知することを特徴とする付記１０に記載の医療装置。
【０１１１】
（付記１２）
前記第１の医療用機器は、被写体を撮像し撮像信号を出力する電子内視鏡本体あるいは内視鏡用撮像装置で、前記第２の医療用機器は、該撮像信号に信号処理を施し映像信号を出力する撮像信号処理装置であり、前記動作変更手段は、前記撮像信号処理装置の信号処理を変更させることを特徴とする付記９に記載の医療装置。
【０１１２】
（付記１３）
前記第１の医療用機器は、被写体を撮像し撮像信号を出力する電子内視鏡本体あるいは内視鏡用撮像装置で、前記第２の医療用機器は、該電子内視鏡本体あるいは内視鏡用撮像装置に撮像素子駆動信号を出力する撮像制御装置で、前記動作変更手段は、前記撮像制御装置の出力駆動信号を変更させることを特徴とする付記９に記載の医療装置。
【０１１３】
（付記１４）
前記第１の医療用機器は、内視鏡本体あるいは電子内視鏡本体で、前記第２の医療用機器は、前記内視鏡本体あるいは電子内視鏡本体の照明光を供給する光源装置で、前記動作変更手段は、前記光源装置の出射光量あるいは出射光波長を変更することを特徴とする付記９に記載の医療装置。
【０１１４】
（付記１５）
前記第１の医療用機器は、内視鏡本体で、前記第２の医療用機器は、前記内視鏡より出力される被写体光学像を撮像する内視鏡用映像装置で、前記動作変更手段は、前記内視鏡用撮像装置の映像信号処理手段を変更することを特徴とする付記９に記載の医療装置。
【０１１５】
（付記１６）
前記第１の医療用機器は、高周波処置用電極で、前記第２の医療用機器は、高周波焼灼用電源装置で、前記動作変更手段は、高周波焼灼電源装置の出力電力あるいは出力波形を変更することを特徴とする付記９の記載の医療装置。
【０１１６】
磁力検出器２２には、ホール素子以外に磁力の引力、反発力を利用してオン／オフを行うことが可能な機械的なスイッチを用いても良い。
【０１１７】
また、磁力検出器２２の代わりとして、識別磁界発生手段から発生された磁界を識別可能な範囲で離れた位置に磁界を受信可能なアンテナを設け、操作者が医療処置手段を選択していることを示すオン／オフ可能な第２の識別磁界発生手段を医療処置手段に設けることで、医療処置手段と医療機器制御手段が接続プラグ手段により接続されていない離れた状態でも医療処置手段の種別を判別可能となる。
【０１１８】
【発明の効果】
本発明の医療装置は、複数の医療機器の識別が可能となり、その識別の結果を基に医療機器の最適駆動制御が可能となると共に、医療機器の識別情報は、汚損や経時変化による判別検出の低下が生じることなく、かつ、識別情報の発生と検出機能の小型化が出来る効果を有している。
【図面の簡単な説明】
【図１】本発明の医療装置の一実施形態である電気コネクタを示す外観展開傾斜図。
【図２】本発明の医療装置の一実施形態である電気コネクタの縦断面を示す断面図。
【図３】本発明の医療装置の一実施形態である電気コネクタのプラグユニットの外観構成を示す斜視図。
【図４】本発明の医療装置の一実施形態である電気コネクタのレセプタクルユニットの外観構成を示す斜視図。
【図５】本発明の一実施形態である医療機器に用いるライトガイドコネクタの展開斜視図。
【図６】本発明の一実施形態である医療機器に用いるライトガイドコネクタの結合状態を説明する説明図。
【図７】本発明の他の実施形態の内視鏡の接眼部とカメラヘッドの結合状態を示す断面図。
【図８】本発明の他の実施形態の内視鏡の接眼部を示す外観斜視図。
【図９】本発明に係る医療装置の全体構成を示すブロック図。
【符号の説明】
１…電気コネクタ
２…プラグユニット
３…レセプタクルユニット
４…プラグ外装
５…接点ユニット
１０…ハウジング
１１…挿着孔
１４…接点挿入孔
１５…接片端子
１６…磁性体
１７…接点端子
２１…電気基板
２２…磁力検出器
２５…非磁性体
５１…医療装置
５２…内視鏡装置
５３…ユニバーサルケーブル
５４…光源装置
５５…ビデオプロセッサ装置
５６…ディスプレー装置[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a medical device comprising a medical device or a main unit of a medical device for detachably connecting medical devices or units constituting the medical device, identifying and determining the connected medical device or unit, and performing optimal drive control. It is.
[0002]
[Prior art]
In recent years, various medical devices for diagnostic treatment have been developed and put into practical use in the medical field. In particular, various types of endoscope devices that are inserted into a body cavity and directly diagnose and treat internal organs of the body cavity have been developed and put into practical use.
[0003]
The endoscope apparatus includes an optical endoscope apparatus in which an operator directly observes an optical image of an observation region from an eyepiece, and an electronic solid-state imaging device (hereinafter, referred to as a solid-state imaging device). 2. Description of the Related Art There is an electronic endoscope apparatus in which an image of an observation region is displayed on a monitor screen based on the captured image signal and an operator observes the image.
[0004]
Further, the electronic endoscope device is configured such that a camera head having the solid-state imaging device is inserted into an eyepiece portion of the optical endoscope device, and an observation site image formed on the solid-state imaging device from the eyepiece portion. And a method of obtaining a video signal by obtaining a video signal by providing a solid-state image sensor at the distal end of the insertion section of the endoscope, and capturing an image of an observation site with the solid-state image sensor at the distal end of the insertion section. There is.
[0005]
Further, the solid-state imaging device includes a charge-coupled device (hereinafter, referred to as a CCD) and a MOS-type imaging device, and the CCD has a plurality of types such as a frame transfer system and an interline transfer system. These plural types of solid-state imaging devices are selectively used depending on a part to be observed by an endoscope, that is, an outer diameter of an insertion part according to the observation part, a method of processing a video signal of a captured observation part, and the like.
[0006]
On the other hand, a light guide that guides illumination light from the light source device is provided up to the distal end of the insertion section in order to project illumination light onto the observation site. The illumination light guided by the light guide is used from a high light amount to a low light amount depending on the type of the solid-state imaging device.
[0007]
In such an electronic endoscope, the solid-state imaging device is driven and controlled, and various kinds of predetermined image signal processing such as separation of a luminance signal and a color signal, color correction, contour correction, and the like are performed on the image signal of the observed region. In addition, a video processor device for generating a display signal for displaying a captured image on a monitor is provided.
[0008]
This video processor device has a drive control function according to the type of a solid-state imaging device used in an electronic endoscope and an imaging video signal processing function, and a light source device also supports a solid-state imaging device. It emits an illumination light of an appropriate amount.
[0009]
However, providing a video processor device and a light source device individually corresponding to the solid-state imaging device used in the endoscope complicates the preparation of medical equipment at the time of endoscopic diagnosis and treatment, and makes the endoscope difficult. Installing a plurality of electronic endoscope devices in the diagnostic room will reduce the diagnostic space.
[0010]
For this purpose, it is possible to connect a plurality of types of electronic endoscopes using different solid-state imaging devices, such as an imaging method, a driving method, and signal processing, to a single video processor device and a light source device. There have been proposed a plurality of electronic endoscope apparatuses that can determine the type of mirror.
[0011]
For example, JP-A-6-285017, JP-A-7-39514 and JP-B-4-79248 disclose an electronic endoscope having identification information indicating the type of solid-state imaging device, and a plurality of solid-state imaging devices. A video processor device having an imaging and driving method suitable for the system, reading identification information of the electronic endoscope, and selectively driving a drive control method of the electronic endoscope in the video processor device suitable for the identification information. A method is disclosed, and Japanese Patent No. 2503005 is provided with a compatible connection unit that determines whether the electronic endoscope and the video processor device are compatible, and issues a warning when the compatible connection unit determines that the connection is incompatible. A method is disclosed. Japanese Patent Publication No. 7-85130 discloses an electronic endoscope provided with correction information output means for indicating parameter information of a solid-state imaging device. How to correction processing a video signal generated with the driving of the image pickup device is disclosed.
[0012]
That is, the video processor device is provided with a function of identifying the electronic endoscope by an electrical discrimination method and performing drive control according to the identification.
[0013]
An optical device to which an electronic endoscope identification code is attached to the outer periphery of a light guide connector of an electronic endoscope according to Japanese Patent Application Laid-Open No. 9-131309 instead of this electrical discriminating means. Discloses an optical discrimination method that optically reads an identification code of the electronic endoscope and selectively uses an image pickup and a driving method of the electronic endoscope of a video processor device adapted to the read identification code.
[0014]
In addition, an endoscope that discriminates each individual endoscope based on a difference in a light guide built in each electronic endoscope connected to the light source device and supplies an appropriate amount of illumination light is provided. It is disclosed in JP-A-3-228729.
[0015]
Furthermore, the electronic endoscope and the light guide cable are configured separately, and a type signal generator is provided for each. The compatibility between the electronic endoscope and the light guide cable is determined by a type signal from the type signal generator. Japanese Patent Application Laid-Open No. 2001-12502 discloses a method in which the determination is performed by the light source device, and when there is a mismatch, the emission light from the light source device is stopped and controlled.
[0016]
Furthermore, JP-A-59-69720, JP-A-59-49075, JP-A-57-168633, and JP-A-10-290780 disclose a television camera head in an eyepiece of an endoscope. Connected and discriminate each individual endoscope according to the difference in the endoscope image guide (rod lens or fiber bundle) and the difference in the size of the endoscope image (mask size), and monitor according to the discrimination A method is disclosed for optimizing the display size. An example in which a silver halide camera is connected to the eyepiece of the endoscope instead of the electronic imaging camera is described in US Pat. No. 4,682,586.
[0017]
Alternatively, an electronic endoscope having a solid-state imaging device at the insertion tip and a video processor device for a camera head attached and connected to the eyepiece of the endoscope are shared, and the video processor device is used as an electronic endoscope. A method for identifying and determining the camera head is disclosed in Japanese Patent Application Laid-Open No. 62-6593.
[0018]
Alternatively, an example in which the operating characteristics of electrodes are determined at a connection between a high-frequency ablation power supply device, which is a medical device other than an endoscope device or an electronic endoscope device, and a treatment electrode probe (catheter) is disclosed in US Pat. No. 5,383,874.
[0019]
That is, a medical treatment tool having different specifications and performance, and according to the specifications and performance, and a video processor device and a light source device having a plurality of drive control functions corresponding to the medical treatment device, The drive control of a plurality of medical treatment tools can be performed according to the identification information of the medical treatment tools connected to the processor device and the light source device.
[0020]
[Problems to be solved by the invention]
In a conventional medical device, identification information of a medical treatment tool connected to a video processor device having a plurality of functions for driving and controlling a plurality of medical treatment tools having different specifications and performances and a light source device through a connection portion As the discrimination method, an electric discrimination method, an optical discrimination method, and a mechanical discrimination method are used.
[0021]
However, in the electrical discrimination method, it is necessary to provide at least one or more electrode contacts for realizing electrically conductive contact at a connection portion for connecting a video processor device or an optical device to a medical treatment tool. . Such electrode contacts, particularly in medical equipment, are caused by the occurrence of contamination, poor contact continuity, short-circuiting, corrosion, etc. by disinfecting sterilizing liquid, patient body fluid and tissue, rinsing liquid, physiological saline, various markers such as markers, etc. It is feared that the function of the contact is impaired.
[0022]
Therefore, the surgeon must be careful that the liquid or the like does not adhere to the electrode contacts, and if it does, it is necessary to quickly remove the liquid and the like. There were problems such as getting lost.
[0023]
Furthermore, medical equipment is sterilized by a sterilization method called high-pressure steam sterilization (autoclave). In this sterilization, an electric circuit and an optical system inside the medical treatment tool are protected from high-pressure steam. Since the necessity of providing electrode contacts on the outer surface of the hermetic casing also arises, an expensive configuration such as a hermetic structure is required, which causes an increase in price.
[0024]
In addition, in the optical discrimination method, if the discrimination portion is stained due to the above-described cause, there is a concern that the discrimination may not be performed, which may cause an unnecessary discrimination work for the surgeon, which may require a long term. It is also conceivable that the index or marking for optical discrimination disappears or is shaved off by use, making discrimination impossible.
[0025]
Further, in the mechanical discrimination method, the shape indicating the identification information must be changed for each discrimination content, and parts cannot be shared in this part, which causes a rise in price. Furthermore, in order to detect the discrimination content, it is necessary to provide some movable part on the outer surface, which not only leads to an increase in the size of the device itself, but also to weakness against contamination and weakness against destructive force such as impact. There is a problem that it is high.
[0026]
SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and is directed to a medical device having a plurality of specification performances, such as a processor device or a light source device capable of performing drive control suitable for the medical device. It is an object of the present invention to provide a medical device that is resistant to contamination, resistant to miniaturization and impact, and that does not deteriorate in discrimination performance due to aging or the like.
[0027]
[Means for Solving the Problems]
The medical device of the present invention includes a plurality of types of medical treatment means for performing a medical procedure on a subject, and an identification magnetic field provided in each of the plurality of types of medical treatment means and generating an identification magnetic field indicating the type of the medical treatment means. Generating means, an identifying magnetic field detecting means for detecting an identifying magnetic field generated from the identifying magnetic field generating means, and identifying and determining the type of the medical treatment means based on the identifying magnetic field detected by the identifying magnetic field detecting means; Medical device control means for driving and controlling the medical treatment means based on the identification determination result.
[0028]
The identification magnetic field generating means of the medical device of the present invention is provided on a connection plug means for connecting the medical treatment means to the medical device control means.
[0029]
The identification magnetic field detection means of the medical device of the present invention is provided in the medical device control means to which the connection plug means of the medical treatment means is connected, and is provided near the identification magnetic field generation means provided in the connection plug means. It is characterized by being provided.
[0030]
The method for controlling a medical device according to the present invention includes a plurality of types of medical treatment means for performing a medical action on a subject, and an identification magnetic field which is provided in each of the plurality of types of medical treatment means and indicates a type of the medical treatment means. Identification magnetic field generation means, identification magnetic field detection means for detecting an identification magnetic field generated by the identification magnetic field generation means, and identification and determination of the type of the medical treatment means based on the identification magnetic field detected by the identification magnetic field detection means. A medical device having medical device control means for driving and controlling the medical treatment means based on the identification determination result,
An identification magnetic field detection step of detecting an identification magnetic field indicating a type of the selected medical treatment means, and a determination step of determining the type of the selected medical treatment means based on the identification magnetic field detected in the identification magnetic field detection step, A control step of driving and controlling the selected medical treatment means based on the type of the medical treatment means determined in the determination step.
[0031]
The medical device of the present invention is provided with identification information generating means on the plug side of the connection part of the medical device, and detects and determines the identification information from the identification information generation means on the plug side on the receptacle side of this connection part. With a medical device having a medical device drive control unit according to identification information, a plurality of medical devices can be drive-controlled by a single medical device control device.
[0032]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. First, the overall configuration of the medical device according to the present invention will be described with reference to FIG. The medical device 51 includes an electronic endoscope device 52 as a medical treatment tool, a light source device 54 as a medical main device, a video processor device 55, and a monitor device 56.
[0033]
In the electronic endoscope device 52, a solid-state imaging device is provided at a distal end portion 52b of an insertion portion 52a formed of a flexible member, and illumination light from the light source device 54 is emitted. An operation portion 52c is provided at a base end of the insertion portion 52a. The operation section 52c has a bending operation knob for bending a bending section (not shown) provided at the distal end section 52b of the insertion section 52a, and an instruction input for instructing drive control of the light source device 54 and the video processor device 55. Switches and the like are provided.
[0034]
A signal cable for transmitting a drive control signal for driving and controlling the solid-state image sensor, an image signal generated by the solid-state image sensor, and a signal from the light source device 54 are provided from the distal end portion 52b of the insertion portion 52a to the operation portion 52c. A light guide cable for guiding illumination light is provided, and the signal cable and the light guide cable are connected to a universal cable 53 extending from the operation unit 52c.
[0035]
The end of the universal cable 53 has an electric connector 1 and a light guide connector 27 connected to the video processor device 55 and the light source device 54.
[0036]
The video processor device 55 has a function of generating and outputting a drive control signal of the solid-state imaging device, and a process of separating a luminance signal and a color signal of a video signal imaged and generated by the solid-state imaging device, a color correction process, a contour correction process, and the like. It has a function of performing predetermined various video signal processing and generating a display signal for displaying a captured video on the monitor device 56.
[0037]
The light source device 54 has a lamp as a light source and a lighting control function of controlling lighting of the lamp. Illumination light emitted from the lamp is projected on a light guide cable via the light guide connector 27. It has become.
[0038]
The monitor device 56 displays an image captured by the solid-state imaging device based on a display signal generated by the video processor device 55.
[0039]
In such a medical device 51, as described above, a plurality of types of electronic endoscope devices 52 using solid-state imaging devices of different types depending on a target region of endoscopic observation and a treatment method are generated.
[0040]
On the other hand, the video processor device 55 has a plurality of drive control functions for driving and controlling different types of solid-state imaging devices of the plurality of types of electronic endoscope devices 52, and a video signal imaged and generated by the different types of solid-state imaging devices. And a plurality of signal processing functions for performing corresponding signal processing.
[0041]
In addition, the light source device 54 has a light amount control function for generating and supplying illumination light of a light amount corresponding to the solid-state imaging device and the endoscopic observation diagnosis site of the different types, a light source lamp switching function, and the like. .
[0042]
In such a medical device 51, the medical device of the present invention has, for example, a function of identifying and determining the electronic endoscope device 52 connected to the video processor device 55 and the light source device.
[0043]
Next, an electric connector having a function of determining a medical treatment tool, which is an embodiment of the medical device of the present invention, will be described with reference to FIGS. FIG. 1 is an exploded perspective view showing an electrical connector as an embodiment of the medical device of the present invention, FIG. 2 is a cross-sectional view showing a longitudinal section of an electrical connector as an embodiment of the medical device of the present invention, and FIG. FIG. 4 is a perspective view showing an external configuration of a plug unit of an electrical connector which is an embodiment of the medical device of the present invention. FIG. 4 is a perspective view showing an external configuration of a receptacle unit of the electrical connector which is an embodiment of the medical device of the present invention. It is.
[0044]
As shown in FIGS. 1 and 2, the electric connector 1 for connecting the base end of the universal cable 53 of the electronic endoscope device 52 and the video processor device 55 is connected to the electric connector of the universal cable 53 of the electronic endoscope 52. It comprises a plug unit 2 to which the cable 7 is connected, and a receptacle unit 3 provided in the video processor device 55 and into which the plug unit 2 is inserted.
[0045]
The plug unit 2 includes a plug sheath 4 and a contact unit 5. The plug sheath 4 has an opening on one end surface where the contact unit 5 is mounted, and an insertion opening for inserting the electric cable 7 on the other end surface. And it is formed of an insulating member in a substantially rectangular cylindrical shape.
[0046]
The contact unit 5 is formed in a rectangular shape by an insulating member, and includes a ridge 5a at a central portion, a contact 5b at one end, and a connecting portion 5c at the other end. The height and width of the ridge 5a are , Are formed in a shape and dimension larger than the height and width of the contact portion 5b and the connection portion 5c. The jetty portion 5a is formed to have a shape and size to be inserted into an insertion hole 11 of the receptacle unit 3 described later, and the contact portion 5b is inserted into a contact insertion hole 14 of the receptacle unit 3 described later. The connection portion 5c is formed in a shape and dimension, and the connection portion 5c is formed in a shape and size to be attached to the opening of the plug sheath 4.
[0047]
The end surface of the ridge 5a on the side of the contact portion 5b forms a contact surface 12 for regulating the position when the contact portion 5b is inserted into a contact insertion port 14 of the receptacle unit 3 described later.
[0048]
A plurality of contact terminals 17 are provided at equal intervals on the upper and lower surfaces of the contact portion 5b. The contact terminals 17 are connected to a plurality of connection contacts 9 provided on an end face of the connection portion 5c. That is, the terminal side of the contact terminal 17 is buried in the jetty portion 5a and the connection portion 5c and protrudes from the end face of the connection portion 5c at equal intervals to form the connection contact 9.
[0049]
A groove (not shown) is provided on the outer peripheral surface of the connection portion 5c, and an O-ring 6 is inserted into the groove, and a plurality of connection contacts projecting from an end surface of the connection portion 5c are formed. A plurality of signal lines 8 of the electric cable 7 are respectively connected to 9.
[0050]
The connection portion 5c of the contact unit 5 in which the signal line 8 of the electric cable 7 is connected to the connection contact 9 is attached to the opening of the plug sheath 4. The inner surface of the opening of the plug sheath 4 is water-tightly held by an O-ring 6 provided on the outer periphery of the connection portion 5c of the contact unit 5 and an O-ring 6 'provided inside the insertion opening of the electric cable of the plug sheath 4. The connection portion between the signal line 8 and the connection contact 9 mounted inside the plug exterior 4 can be made watertight.
[0051]
On one surface of the plug exterior 4, a plurality of magnetic bodies 16 provided at equal intervals are embedded.
[0052]
The receptacle unit 3 includes a housing 10 and a wiring board 20. The housing 10 is formed of an insulating member, and is formed in a substantially rectangular cylindrical shape having an insertion hole 11 into which the ridge 5a of the contact unit 5 is inserted. A contact insertion hole 14 into which the contact portion 5b of the contact unit 5 is inserted is provided on the bottom surface of the insertion hole 11, and a plurality of contact units 5 of the contact unit 5 are provided on upper and lower inner surfaces of the contact insertion hole 14. A plurality of contact piece terminals 15 facing the contact terminal 17 are provided. That is, the contact piece terminal 15 provided in the contact insertion hole 14 is formed so as to elastically contact the contact terminal 17. The other end of the contact terminal 15 protrudes from the rear of the housing 10 to the outside, and is connected to a wiring board 20 described later via a signal line 19.
[0053]
A contact surface 13 with which the contact surface 12 of the contact unit 5 contacts when the contact portion 5b of the contact unit 5 is inserted is formed on the bottom surface of the insertion hole 11 of the housing 10. The contact positions of the contact unit 5 and the housing 10 are regulated by the contact surfaces 12 and 13.
[0054]
When the plug unit 2 is inserted into the insertion hole 11 of the housing 10, the electric board 21 is attached to the outer surface of the housing 10 facing the magnetic body 16 provided on the plug outer case 4 with screws 26. Fixed. A magnetic force detector 22 such as a Hall element is provided on the electric board 21 at a position facing the magnetic body 16 provided on the plug exterior 4 of the plug unit 2. The magnetic force detector 22 is connected to the wiring board 20 by a signal line 23 via a conductive wiring provided on the electric board 21. The magnetic force detector 22 detects the magnetic force of the magnetic body 16 provided on the plug exterior 4 of the plug unit 2.
[0055]
The signal lines 19 and 23 are formed of a flexible printed board or the like. In addition, the wiring board 20 includes a signal generation function for driving and controlling the solid-state imaging device of the electronic endoscope described above, various signal processing functions for performing predetermined signal processing on video signals imaged and generated by the solid-state imaging device, A determination function and the like for determining the type and method of the electronic endoscope 52 based on the magnetic force detected by the magnetic force detector 22 are provided.
[0056]
Next, details of the magnetic body 16 provided on the plug sheath 4 of the plug unit 2 and the magnetic force detector 22 provided on the electric board 21 of the receptacle unit 3 will be described with reference to FIGS.
[0057]
At least one or more circular concave portions 24 (three concave portions 24a, 24b, 24c in the figure) are provided on the upper surface of the plug exterior 4 of the plug unit 2. A circular magnetic body 16 and a non-magnetic body 25 formed in a shape that can be inserted and fitted into the recess 24 are provided.
[0058]
The magnetic body 16a is inserted and fitted into the concave portion 24 on the surface of the plug outer case 4, for example, the concave portion 24a in the drawing such that the N pole of the magnetic body 16a is on the upper surface in the drawing and the S pole is the lower surface in the drawing. The body 16b is inserted and fitted so that the S pole of the body 16b is the upper surface in the figure and the N pole is the lower surface in the figure, and the nonmagnetic body 25 is fitted and fitted in the recess 24c in the figure. That is, depending on the combination of the direction of the magnetic pole of the magnetic body 16 to be inserted and fitted into each of the recesses 24a, 24b, and 24c and the non-magnetic body 25, the type and system of the electronic endoscope 52 connected to the plug outer casing 4 are determined. An identification magnetic field can be generated.
[0059]
On the other hand, when the electric board 21 provided on the receptacle unit 3 is fixedly mounted on the upper surface of the housing 10 with screws 26, 26, the electric board 21 is provided with a Hall element or the like at a position facing the recesses 24a to 24c of the plug exterior 4. Magnetic force detectors 22a to 22c are arranged. When the electric board 21 is attached and fixed to the housing 10, the magnetic force detectors 22 a to 22 c are provided on the surface of the plug exterior 4 of the plug unit 2 which is inserted into the housing 10. It is installed so as to be on the body 25 side.
[0060]
That is, the magnetic force detectors 22a to 22b detect the presence / absence of the magnetic body 16 and the non-magnetic body 25 inserted and fitted into the concave portions 24a to 24c, and detect the magnetic field according to the direction of the magnetic pole of the magnetic body 16 to detect each magnetic force. The identification magnetic field signals detected by the detectors 22a to 22c are supplied to an identification determination function (not shown) provided on the wiring board 20 via the signal line 23.
[0061]
This identification determination function is provided on the wiring board 20 that determines the type or method of the electronic endoscope 52 from the combination of the magnetic fields detected by the magnetic force detectors 22a to 22c, and is adapted to the determined type or method. The solid-state imaging device drive control function and the captured video signal processing function, that is, the video processor device 55 are driven and controlled.
[0062]
In other words, by combining the magnetic body 16 and the non-magnetic body 25 in the three recesses 24a to 24c and inserting and fitting them, a plurality of types of identification can be performed as shown in Table 1.
[0063]
[Table 1]

As described above, by providing the magnetic body 16 or the non-magnetic body 25 in combination with the plug sheath 4 of the plug unit 2 of the electronic endoscope 52, the identification magnetic field information is set according to the type and system of the electronic endoscope. I do. On the other hand, while the plug unit 2 is inserted, the drive of the electronic endoscope 52 is controlled, and the magnetic properties of the plug unit 2 are connected to the receptacle unit 3 provided in the video processor device 55 for processing the video signal generated and captured. The combination identification information of the body 16 and the non-magnetic body 25 is read, and based on the identification information, the electronic endoscope 52 can be optimally driven and controlled, and the captured video signal can be optimally processed.
[0064]
As a result, for the single video processor device 55, the type of the connected electronic endoscope 52 among the plurality of types of electronic endoscopes 52 is identified and determined, and the electronic endoscope 52 is adapted to the identified and determined electronic endoscope. Drive control is now possible.
[0065]
Further, the inside of the plug unit 2 is configured to be kept watertight, so that intrusion of a cleaning disinfectant or the like at the time of cleaning and disinfection can be prevented, and the identification information of the type and system of the electronic endoscope uses a magnetic material. As a result, the deterioration of the identification information due to aging can be reduced, and even if the surface of the plug unit 2 is soiled, the magnetic flux penetrates the soiled substance, so that the identification information can be reliably detected.
[0066]
Furthermore, since there is no movable part as a means for discriminating identification information, the outer surface of the plug unit 2 can be formed seamlessly, and the plug unit 2 having high strength against impact and having few destructive failures is formed. It is possible.
[0067]
In the above description, the plug unit 4 is inserted and fitted into the recess 24 on the outer surface of the plug housing 4 so that the surface of the magnetic body 16 or the non-magnetic body 25 for identification is exposed. The magnetic member or the non-magnetic member having the identification information may be changed over time or stained due to washing and disinfection.
[0068]
Next, the light guide connector 27 of the electronic endoscope 52, which is a medical device of the present invention, will be described with reference to FIGS. FIG. 5 is an exploded perspective view of a light guide connector used for a medical device according to an embodiment of the present invention, and FIG. 6 is an explanatory diagram illustrating a coupling state of the light guide connector used for the medical device according to an embodiment of the present invention. is there.
[0069]
The light guide connector 27 includes a light guide plug 28 and a light guide receptacle 29. The light guide plug 28 has a substantially cylindrical light guide plug exterior 4 ′ inserted into the end of the light guide cable 30 of the universal cable 53. A substantially disk-shaped jetty portion 4'a is formed on the outer periphery of the central portion of the light guide plug exterior 4 '. Is formed with a holding portion 4'c, and an insertion portion 4'b is formed on the right side of the jetty portion 4'a in the drawing. A light guide rod 31 extends from an end surface of the insertion portion 4'b.
[0070]
That is, the light guide plug exterior 4 ′ is provided with an insertion path for the light guide cable 30 in the axial direction of the grip portion 4 ′ c, the jetty portion 4 ′ a, the insertion portion 4 ′ b, and the light guide rod 31. ing. However, an illumination light entrance window is formed at the end of the light guide rod 30, though not shown.
[0071]
The distal end of the light guide cable 30 inserted from the end of the grip portion 4'c of the light guide plug sheath 4 'is brought into contact with the illumination light entrance window of the light guide rod 31, and the light guide cable 30 Are fixedly held by a light guide plug exterior 4 ′.
[0072]
Also, a plurality of recesses 24 'are provided at equal intervals on the outer peripheral surface of the insertion portion 4'b of the plug exterior 4', and the magnetic material 16 'or the non-magnetic material 25' is inserted into the recess 24 '. It is fixed.
[0073]
On the other hand, the light guide receptacle 29 has an insertion hole 11 'and an insertion hole 14' into which the insertion portion 4'b of the light guide plug exterior 4 'and the light guide rod 31 are inserted in the central axis direction of the housing 10'. Is provided. That is, the insertion hole 11 'into which the insertion portion 4'b of the light guide exterior 4' is inserted, and the light guide rod 31 of the light guide plug exterior 4 'at the center of the insertion hole 11'. An insertion hole 14 'for insertion is provided, and when the light guide plug exterior 4' is inserted into the housing 10 'of the light guide receptacle 29, the jetty portion 4'a and the housing 10' come into contact with each other. It is being regulated.
[0074]
A substantially donut-shaped electric board 21 ′ is mounted on the rear side of the housing 10 ′ with screws 26. On the electric board 21 ', a plurality of magnetic force detectors 22' such as Hall elements are arranged at positions opposed to a plurality of recesses 24 'provided in the insertion portion 4'b of the light guide plug exterior 4'. The plurality of magnetic force detectors 22 ′ are connected via signal lines 23 ′ to a lighting control circuit of a light source lamp built in the lighting device 54.
[0075]
That is, the illumination that is made incident on the light guide cable by the combination arrangement of the magnetic body 16 ′ and the non-magnetic body 25 ′ in the plurality of recesses 24 ′ provided on the outer peripheral surface of the insertion portion 4 ′ b of the light guide plug exterior 4 ′ The identification information indicating the amount of light is set, and the selection of the light source lamp or the lighting control of the selected lamp is performed based on the identification information.
[0076]
After the light guide plug 28 and the light guide receptacle 29 are joined and inserted, the light guide plug 28 is relatively rotatable with respect to the optical axis direction of the light guide, but as shown in FIG. When the magnetic body 16 'is positioned between the magnetic force detectors 22', for example, the light is written so that the magnetic force of one magnetic body 16'a can be detected by the two magnetic force detectors 22'a and 22'c. Consider the diameter of the guide plug sheath 4 'and the electric board 21', and the positions of the magnetic body 16 'of the light guide sheath 4' and the magnetic force detector 22 'of the electric board 21'. In other words, by selecting an arrangement in which the circumferential arrangement of the magnetic poles of the magnetic body 16 ′ and the non-magnetic body 25 is not the same, even if the connection between the light guide plug 28 and the light guide receptacle 29 moves in the circumferential direction. Identification information can be detected.
[0077]
That is, three recesses 24 'are provided in the insertion portion 4'b of the light guide plug exterior 4', and the magnetic material 16 'and the non-magnetic material 25' are inserted and fitted into the recesses 24 '. Can be combined with each other.
[0078]
[Table 2]

Thereby, in particular, the light guide plug 28 can be formed in a watertight manner, and can be easily cleaned and disinfected together with the electronic endoscope. Since the identification information is indicated by magnetic force, it is possible to provide a medical device with little deterioration over time, and Based on the identification information, the light source device can provide the optimum illumination light amount.
[0079]
Next, a medical device according to another embodiment of the present invention will be described with reference to FIGS.
[0080]
This other embodiment is a method of attaching the camera head 33 to the eyepiece of the optical endoscope and imaging the endoscope observation site, and identifies the type and method of the optical endoscope, and The present invention relates to a method for controlling the imaging operation and processing of an imaged video signal so as to be compatible with an optical endoscope.
[0081]
FIG. 7 is a cross-sectional view showing a combined state of an eyepiece and a camera head of an endoscope according to another embodiment of the present invention, and FIG. 8 is an external view showing an eyepiece of an endoscope according to another embodiment of the present invention. It is a perspective view.
[0082]
A camera head 33 is detachably attached to the eyepiece 32 of the endoscope. The camera head 33 includes an eyepiece mount 34, a camera head body 35, and a camera cable 36.
[0083]
Inside a camera body 35 having a hollow shape formed of an insulating member, a security casing 37 formed of a metal member is disposed. The security casing 37 has a hollow cylindrical inside and a cover glass 38 on the front side. The inside is hermetically sealed by the hermetic connector 39 on the rear side.
[0084]
Inside the confidential casing 37, a magnetic force detector 22, an imaging optical system 40, and a solid-state imaging device 41 are arranged in this order from the cover glass 38 side. The magnetic force detector 22 is arranged on an outer peripheral portion of the cover glass 38. The light incident from the cover glass 38 is imaged on a solid-state imaging device 41 via an imaging optical system 40.
[0085]
The magnetic force detector 22 is connected to a hermetic connector 39 by a signal line 23, and the solid-state imaging device 41 is connected to a hermetic connector 39 by a signal line 19. The signal line 42 of the camera cable 36 is connected to the hermetic connector 39. That is, the magnetic force detector 22 and the solid-state imaging device 41 are connected to the camera cable 36 via the hermetic connector 39, and the camera cable 36 is connected to the video processor device 55.
[0086]
An eyepiece mount 34 is formed integrally with the camera body 35 from the outer peripheral side of the cover glass 38.
[0087]
The eyepiece mount 34 has a substantially annular mount ring 44 formed therein, and a lock pin 45 urged by an elastic body 46 at a predetermined interval projects inside the mount ring 44 toward the inner peripheral side. Have been. That is, the lock pin 45 is always urged by the elastic member 46 so as to protrude from the inner peripheral side of the mount ring 44 to the outside.
[0088]
The eyepiece 32 of the endoscope is inserted into the inner periphery of the mount ring 44 of the eyepiece mount 34 by pushing up the lock pin 45 urged by the elastic body 46. And is fixedly held by a lock pin 45 urged by.
[0089]
As shown in FIG. 8, a concave portion 24 is provided on the outer peripheral side of the eyepiece of the eyepiece 32 of the endoscope, and the magnetic body 16 for generating a magnetic force for identification is inserted into the concave portion 24. It is designed to be fixed. Although FIG. 8 shows only one recess 24, a plurality of recesses 24 are provided at equal intervals around the eyepiece lens so that a plurality of magnetic bodies 16 and a non-magnetic body can be inserted into the plurality of recesses. May be.
[0090]
When the eyepiece mount 34 of the camera head 33 is inserted and fixed to the eyepiece 32 of the endoscope, the magnetic force of the magnetic body 16 provided on the eyepiece 32 is applied to the camera head body of the camera head 33. The drive of the solid-state imaging device 41 is controlled based on the magnetic-force information detected by the magnetic-force detector 22 provided in 35, and the predetermined signal processing control of the video signal imaged by the solid-state imaging device is performed.
[0091]
In this manner, the camera head 33 is attached to the eyepiece 32 of the optical endoscope, and the observation site image displayed on the eyepiece of the endoscope is formed on the solid-state imaging device 41 to form a video signal. The difference between the image guide of the optical endoscope and the difference in electronic or optical defocus (prevention of moire) can be determined by the magnetic force from the magnetic body 16 or the non-magnetic body 25 provided in the eyepiece 32. The drive of the camera head 33 is controlled based on the information, and the video signal captured by the camera head 33 is subjected to the optimum signal processing, so that the monitor device 56 can display the optimum image.
[0092]
Thereby, when the camera head 33 is connected to the eyepiece section 32 of the endoscope, the type and system of the endoscope can be reliably identified, and the optimal driving of the camera head 33 for the endoscope becomes possible. .
[0093]
Further, since the camera head 33 can be freely attached to the eyepiece 32 of the endoscope, it is not necessary to perform a high-pressure steam sterilization process or another sterilization cleaning process. When the endoscope is sterilized and cleaned, including the eyepiece 32, the identification information is represented by the magnetic material 16 or the non-magnetic material 25, so that the identification information is less likely to deteriorate due to cleaning or aging.
[0094]
The shape of the eyepiece 32 of the endoscope is determined by a standard such as DIN. However, it is possible to provide the magnetic body 16 for identification while observing this standard.
[0095]
As an application example of this other embodiment, a magnet is arranged in the eyepiece 32, and the eyepiece mount 34 is formed of a metal member that is a magnetic material, and the eyepiece 32 and the eyepiece mount 34 are magnetically driven. In the case where the coupling can be performed, a magnetic body 16 for identification is also arranged in the eyepiece 32 together with a magnet for magnetic coupling with the eyepiece mount 34. When magnetically coupled by the magnet of the eyepiece 32, the endoscope can be identified by detecting the polarity of the identification magnetic body 16 with the magnetic force detector 22 of the eyepiece mount 34.
[0096]
If no magnetic force can be detected by the magnetic force detector 22 of the eyepiece mount 34, it can be determined that the eyepiece 32 is not mounted, and the video processor device can be used to drive the solid-state imaging device or to operate the light source device. Can also be stopped.
[0097]
Further, as the magnetic force detector 22, a mechanical switch that can be turned on / off by utilizing the attraction and repulsion of a magnetic force may be used in addition to the Hall element.
[0098]
Further, as an alternative to the magnetic force detector 22, an antenna capable of receiving a magnetic field is provided at a position distant from the magnetic field generated by the identification magnetic field generation means within a identifiable range, and the operator has selected the medical treatment means. Is provided in the medical treatment means so that the type of the medical treatment means can be changed even when the medical treatment means and the medical device control means are not connected by the connection plug means. It can be determined.
[0099]
[Appendix]
According to the embodiment of the present invention described in detail above, the following configuration can be obtained.
[0100]
(Appendix 1)
A plurality of medical treatment means for performing medical treatment on the subject;
An identification magnetic field generation unit that is provided in each of the plurality of types of medical treatment units and generates an identification magnetic field indicating the type of the medical treatment unit;
Identification magnetic field detection means for detecting an identification magnetic field generated from the identification magnetic field generation means,
Based on the identification magnetic field detected by the identification magnetic field detection unit, the type of the medical treatment unit is identified and determined, and based on the identification determination result, a medical device control unit that drives and controls the medical treatment unit,
A medical device comprising:
[0101]
(Appendix 2)
2. The medical apparatus according to claim 1, wherein the identification magnetic field generating unit is provided in a connection plug unit that connects the medical treatment unit to the medical device control unit.
[0102]
(Appendix 3)
The identification magnetic field detection unit is provided in the medical device control unit to which the connection plug unit of the medical treatment unit is connected, and is provided near the identification magnetic field generation unit provided in the connection plug unit. 3. The medical device according to claim 2, wherein
[0103]
(Appendix 4)
A plurality of types of medical treatment means for performing medical treatment on a subject; an identification magnetic field generation means provided in each of the plurality of types of medical treatment means to generate an identification magnetic field indicating a type of the medical treatment means; Identification magnetic field detection means for detecting an identification magnetic field generated from the generation means, and based on the identification magnetic field detected by the identification magnetic field detection means, based on the identification determination of the type of the medical treatment means, based on the identification determination result, A medical device control means for driving and controlling the medical treatment means,
An identification magnetic field detection step of detecting an identification magnetic field indicating the type of the selected medical treatment means,
Based on the identification magnetic field detected in the identification magnetic field detection step, a determination step of determining the type of the selected medical treatment means,
A control step of driving and controlling the selected medical treatment means based on the type of the medical treatment means determined in the determination step;
A method for controlling a medical device, comprising:
[0104]
(Appendix 5)
A first medical device for performing medical treatment on the subject;
A second medical device different from the first medical device;
First magnetic field generating means provided in the first medical device;
A second magnetic field generator provided in the second medical device and generating a magnetic field different from the magnetic field generated by the first magnetic field generator;
Magnetic field detecting means for detecting a magnetic field generated by the first magnetic field generating means or the second magnetic field generating means corresponding to the first medical device selected by an operator or the second medical device When,
Determining means for determining the medical device selected based on the magnetic field detected by the magnetic field detecting means,
A control unit that generates a control signal that controls a predetermined function related to the medical device selected based on the medical device information determined by the determination unit,
A medical device comprising:
[0105]
(Appendix 6)
The first magnetic field generation means of the first medical device, or the second magnetic field generation means of the second medical device, a connection means for connecting to a medical device body having the determination means and the control means 6. The medical device according to supplementary note 5, wherein the medical device is connected via a medical device.
[0106]
(Appendix 7)
When the first medical device or the second medical device is connected, the connection unit includes the magnetic field detection unit disposed near a magnetic field generation unit provided in the connected medical device. 7. The medical device according to supplementary note 6, wherein:
[0107]
(Appendix 8)
A first medical device for performing a medical procedure on a subject, a second medical device different from the first medical device, a first magnetic field forming unit provided in the first medical device, A second magnetic field forming unit that is provided in the second medical device and generates a magnetic field different from the magnetic field generated by the first magnetic field forming unit; and an operator sets the first medical device or the second medical device. A medical device control method comprising: detecting means for detecting a magnetic field formed by the first magnetic field forming means or the second magnetic field forming means with the selection.
A detection step of detecting a magnetic field from the selected medical device,
A determining step of determining the medical device selected based on the magnetic field detected in the detecting step,
A control step of performing control to control a predetermined function related to the medical device selected based on the medical device information obtained in the determination step,
A method for controlling a medical device, comprising:
[0108]
(Appendix 9)
In a connection unit that connects the first medical device and the second medical device,
A plurality of types of the first medical device having different configurations or applications are prepared, and a first connection unit provided in the first medical device and the second medical device are provided. Connecting means for detachably connecting the second connecting portion provided on the
An identification signal output unit configured of a magnetic material that outputs a type of the first medical device by a magnetic force;
Detecting means for detecting the magnetic force output from the identification signal output means,
A medical device comprising:
[0109]
(Appendix 10)
Detecting means for detecting the type of the first medical device connected to the second connecting part based on the output from the magnetic force detecting means provided on the second connecting part; And an operation changing means for changing an operation of the second medical device in accordance with the detection result of the second medical device. 10. The medical device according to 9.
[0110]
(Appendix 11)
The detecting means provided at the second connecting part detects presence or absence or polarity of a magnetic flux output from an identification signal outputting means provided at the first connecting part. Medical device.
[0111]
(Appendix 12)
The first medical device is an electronic endoscope main body or an endoscope imaging device that images a subject and outputs an image signal, and the second medical device performs signal processing on the image signal and performs image processing. The medical device according to claim 9, wherein the medical device is an imaging signal processing device that outputs a signal, and the operation changing unit changes signal processing of the imaging signal processing device.
[0112]
(Appendix 13)
The first medical device is an electronic endoscope main body or an endoscope imaging device that images a subject and outputs an imaging signal, and the second medical device is the electronic endoscope main body or the endoscope. The medical device according to claim 9, wherein the operation changing unit changes an output driving signal of the imaging control device, wherein the operation changing unit changes an output driving signal of the imaging control device.
[0113]
(Appendix 14)
The first medical device is an endoscope main body or an electronic endoscope main body, and the second medical device is a light source device that supplies illumination light of the endoscope main body or the electronic endoscope main body. 10. The medical apparatus according to claim 9, wherein the operation changing unit changes an output light amount or an output light wavelength of the light source device.
[0114]
(Appendix 15)
The first medical device is an endoscope main body, and the second medical device is an endoscope video device for capturing an optical image of a subject output from the endoscope, wherein the operation changing means is The medical device according to claim 9, wherein a video signal processing unit of the imaging device for an endoscope is changed.
[0115]
(Appendix 16)
The first medical device is a high-frequency treatment electrode, the second medical device is a high-frequency ablation power supply, and the operation changing unit changes the output power or output waveform of the high-frequency ablation power supply. The medical device according to attachment 9, wherein:
[0116]
As the magnetic force detector 22, a mechanical switch that can be turned on / off by utilizing the attraction and repulsion of a magnetic force may be used in addition to the Hall element.
[0117]
Further, as an alternative to the magnetic force detector 22, an antenna capable of receiving a magnetic field is provided at a position distant from the magnetic field generated by the identification magnetic field generation means within a identifiable range, and the operator has selected the medical treatment means. Is provided in the medical treatment means so that the type of the medical treatment means can be changed even when the medical treatment means and the medical device control means are not connected by the connection plug means. It can be determined.
[0118]
【The invention's effect】
The medical device of the present invention enables identification of a plurality of medical devices, enables optimal drive control of the medical devices based on the results of the identification, and enables the identification information of the medical devices to be determined by detection based on contamination or aging. This has the effect that the generation of the identification information and the miniaturization of the detection function can be performed without causing a decrease in the information.
[Brief description of the drawings]
FIG. 1 is an externally developed perspective view showing an electrical connector which is an embodiment of a medical device of the present invention.
FIG. 2 is a cross-sectional view showing a vertical cross section of an electrical connector which is an embodiment of the medical device of the present invention.
FIG. 3 is a perspective view showing an external configuration of a plug unit of the electrical connector which is one embodiment of the medical device of the present invention.
FIG. 4 is a perspective view showing an external configuration of a receptacle unit of the electrical connector which is one embodiment of the medical device of the present invention.
FIG. 5 is an exploded perspective view of a light guide connector used for a medical device according to an embodiment of the present invention.
FIG. 6 is an explanatory diagram illustrating a connection state of a light guide connector used for a medical device according to an embodiment of the present invention.
FIG. 7 is a cross-sectional view illustrating a combined state of an eyepiece and a camera head of an endoscope according to another embodiment of the present invention.
FIG. 8 is an external perspective view showing an eyepiece of an endoscope according to another embodiment of the present invention.
FIG. 9 is a block diagram showing the overall configuration of a medical device according to the present invention.
[Explanation of symbols]
1. Electric connector
2 ... Plug unit
3. Receptacle unit
4: Plug exterior
5. Contact unit
10. Housing
11 ... insertion hole
14 ... Contact insertion hole
15 ... Contact terminal
16 ... magnetic material
17 ... Contact terminal
21 ... Electric board
22 ... magnetic force detector
25: Non-magnetic material
51… Medical device
52 ... Endoscope device
53… Universal cable
54 ... Light source device
55 ... Video processor device
56 ... Display device

Claims (4)

A plurality of medical treatment means for performing medical treatment on the subject;
An identification magnetic field generation unit that is provided in each of the plurality of types of medical treatment units and generates an identification magnetic field indicating the type of the medical treatment unit;
Identification magnetic field detection means for detecting an identification magnetic field generated from the identification magnetic field generation means,
Based on the identification magnetic field detected by the identification magnetic field detection unit, the type of the medical treatment unit is identified and determined, and based on the identification determination result, a medical device control unit that drives and controls the medical treatment unit,
A medical device comprising: 2. The medical apparatus according to claim 1, wherein the identification magnetic field generation unit is provided in a connection plug unit that connects the medical treatment unit to the medical device control unit. The identification magnetic field detection means is provided in the medical device control means to which the connection plug means of the medical treatment means is connected, and is provided near the identification magnetic field generation means provided in the connection plug means. The medical device according to claim 2, wherein A plurality of types of medical treatment means for performing medical treatment on a subject; an identification magnetic field generation means provided in each of the plurality of types of medical treatment means to generate an identification magnetic field indicating a type of the medical treatment means; Identification magnetic field detection means for detecting an identification magnetic field generated from the generation means, and based on the identification magnetic field detected by the identification magnetic field detection means, based on the identification determination of the type of the medical treatment means, based on the identification determination result, A medical device control means for driving and controlling the medical treatment means,
An identification magnetic field detection step of detecting an identification magnetic field indicating the type of the selected medical treatment means,
Based on the identification magnetic field detected in the identification magnetic field detection step, a determination step of determining the type of the selected medical treatment means,
A control step of driving and controlling the selected medical treatment means based on the type of the medical treatment means determined in the determination step;
A method for controlling a medical device, comprising:

Images