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JPH0433860Y2 - - Google Patents

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Publication number
JPH0433860Y2
JPH0433860Y2 JP8978886U JP8978886U JPH0433860Y2 JP H0433860 Y2 JPH0433860 Y2 JP H0433860Y2 JP 8978886 U JP8978886 U JP 8978886U JP 8978886 U JP8978886 U JP 8978886U JP H0433860 Y2 JPH0433860 Y2 JP H0433860Y2
Authority
JP
Japan
Prior art keywords
blood
blood leakage
water
sheet
leakage detection
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
Application number
JP8978886U
Other languages
Japanese (ja)
Other versions
JPS62200338U (en
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed filed Critical
Priority to JP8978886U priority Critical patent/JPH0433860Y2/ja
Publication of JPS62200338U publication Critical patent/JPS62200338U/ja
Application granted granted Critical
Publication of JPH0433860Y2 publication Critical patent/JPH0433860Y2/ja
Expired legal-status Critical Current

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  • Investigating Or Analysing Biological Materials (AREA)
  • Examining Or Testing Airtightness (AREA)
  • Measurement Of The Respiration, Hearing Ability, Form, And Blood Characteristics Of Living Organisms (AREA)
  • External Artificial Organs (AREA)

Description

【考案の詳細な説明】 (産業上の利用分野) 本考案は血液体外循環処理におけるシヤントや
採血針と血液回路の結合部、採血針の穿刺部など
からの血液の漏れを自動的に検出する装置に関す
るものである。
[Detailed description of the invention] (Field of industrial application) This invention automatically detects blood leakage from shunts in extracorporeal blood circulation processing, the connection between the blood collection needle and the blood circuit, the puncture part of the blood collection needle, etc. It is related to the device.

(従来の技術と問題点) 血液体外循環処理中の多量の血液漏れは生命に
危険を及ぼす恐れがあるため、血液漏れを早期に
発見することが極めて重要である。
(Prior Art and Problems) Since a large amount of blood leakage during extracorporeal blood circulation treatment may pose a danger to life, it is extremely important to detect blood leakage at an early stage.

比較的短時間の血液体外循環処理、例えば血液
透析、血漿分離などでは、患者本人あるいは医師
らが血液漏れを常時監視しているため血液漏れは
早期に発見できるが、最近開発されつつある装着
型人工腎臓装置や体外循環肺補助装置などの長期
間血液を体外循環処理する装置では従来の人によ
る血液漏れの監視は不可能である。そのため上記
装置を実用化する際には血液や輸液の漏れを自動
的に検出することが是非とも必要であるが、未だ
かかる自動漏血検出装置は提案されていない。
In relatively short-time extracorporeal blood circulation processes, such as hemodialysis and plasma separation, blood leakage can be detected early because the patient or doctor constantly monitors for blood leakage. Conventional human monitoring of blood leakage is impossible in devices that perform extracorporeal circulation of blood for long periods of time, such as artificial kidney devices and extracorporeal circulation lung assist devices. Therefore, when putting the above-mentioned device into practical use, it is absolutely necessary to automatically detect leakage of blood or transfusion fluid, but such an automatic blood leakage detection device has not yet been proposed.

(問題点を解決するための手段) したがつて本考案の目的は血液の漏れを自動的
に検出する装置を提供することである。本考案の
漏血の検出装置は吸水性を有する可撓性の基材の
両面に、それぞれ端部に金属製コネクタを取着し
た可撓性で、かつ通水性または吸水性を有するシ
ート状の導電体を配置して、全体を可撓性で、か
つ吸水性を有する保護シートで被覆した漏血検出
体と、漏血による該2枚のシート状導電体間の電
気抵抗の低下によつて警報を発する漏血検出回路
と該漏血検出回路に接続され、かつ端部に該コネ
クタと結合されるコネクタを取着したリード線か
らなり、人体の穿刺部に被覆した漏血検出体と漏
血検出回路に接続されたリード線とをコネクタで
着脱自在に結合したことを特徴とする漏血の検出
装置である。
(Means for solving the problem) It is therefore an object of the present invention to provide a device for automatically detecting blood leakage. The blood leakage detection device of the present invention consists of a flexible sheet-like material that is water-permeable or water-absorbent, with metal connectors attached to each end on both sides of a flexible base material that has water-absorbing properties. By arranging a conductor and covering the entire body with a flexible and water-absorbing protective sheet, and by reducing the electrical resistance between the two sheet-like conductors due to blood leakage. It consists of a blood leakage detection circuit that issues an alarm and a lead wire that is connected to the blood leakage detection circuit and has a connector attached to the end. This blood leak detection device is characterized in that a lead wire connected to a blood detection circuit is detachably connected to the blood detection circuit using a connector.

本考案装置では2枚の可撓性のシート状導電体
の間で吸水性を有する可撓性の基材を狭持した漏
血検出体と漏血検出回路とをリード線を介して一
体化することにより例え漏血検出体を包帯、毛布
等で被つても、リード線により漏血検出回路を患
者から離している限り、音や光で確実に看護婦に
知らせることができしかも故障がなく、直接人体
に触れるような部分であつても安全に使用できる
コンパクトな漏血の検出装置を提供できたのであ
る。
In the device of this invention, a blood leakage detection body, which has a water-absorbing flexible base material sandwiched between two flexible sheet-like conductors, and a blood leakage detection circuit are integrated via lead wires. As a result, even if the blood leak detection object is covered with a bandage, blanket, etc., as long as the blood leak detection circuit is separated from the patient by the lead wire, the nurse can be reliably notified by sound or light, and there will be no malfunction. We were able to provide a compact blood leakage detection device that can be safely used even in areas that come into direct contact with the human body.

(実施例) 次に本考案の漏血の検出装置の一実施例を図面
にて説明する。第1図は血液体外循環処理におけ
る血液漏れを検出する装置を腕に取り付けた状態
を示す斜視図であり、漏血検出体1を腕の動・静
脈シヤント2,2′部の上部を覆うように腕帯状
に巻回し、漏血検出体1の基材の両面に配置され
たシート状導電帯の端部に取着されたコネクタ3
と漏血検出回路4に接続されたリード線5がコネ
クタ3,3′で着脱自在に結合されている。
(Embodiment) Next, an embodiment of the blood leakage detection device of the present invention will be described with reference to the drawings. FIG. 1 is a perspective view showing a state in which a device for detecting blood leakage during extracorporeal blood circulation treatment is attached to an arm. A connector 3 is attached to the end of a sheet-like conductive band that is wound around the body in the shape of an arm band and placed on both sides of the base material of the blood leakage detector 1.
and a lead wire 5 connected to the blood leakage detection circuit 4 are detachably connected to each other by connectors 3, 3'.

第2図は漏血検出体1の平面図であり、長方形
状の基材の両面に網目状に織られた導電体10が
配置されている。この導電体の端部にリード線5
に接続されたコネクタ3′と着脱自在に結合する
コネクタ3が接続されている。コネクタ3,3′
は導電体10へ漏血検出回路を電気的、機械的に
結合するものであり、金属製の公知の脱着機構を
採用することができる。第2図では不織布への取
り付けが容易で安価な市販のホツクを用いてい
る。
FIG. 2 is a plan view of the blood leak detector 1, in which conductors 10 woven in a mesh pattern are arranged on both sides of a rectangular base material. Lead wire 5 is attached to the end of this conductor.
A connector 3 is connected to the connector 3', which is connected to the connector 3'. Connector 3, 3'
The blood leak detection circuit is electrically and mechanically coupled to the conductor 10, and a known metal attachment/detachment mechanism can be employed. In FIG. 2, a commercially available hook is used, which is easy to attach to the nonwoven fabric and is inexpensive.

漏血検出体1を構成する2枚のシート状導電体
10に狭持される吸水性の基材11は天然繊維、
合成繊維で編成あるいは織成された布状体または
不織布、紙、フイルムなどで形成され、吸水して
水の連続相を形成するもので、しかも可撓性を有
するものである。通常不織布やガーゼが好ましく
用いられる。またその形状は取付場所によつて任
意の形状のものが使用できる。腕に巻回する場合
には長方形状が好ましい。
The water-absorbing base material 11 sandwiched between the two sheet-like conductors 10 constituting the blood leakage detector 1 is made of natural fibers,
It is made of a cloth-like body knitted or woven with synthetic fibers, non-woven fabric, paper, film, etc., absorbs water to form a continuous phase of water, and is flexible. Normally, nonwoven fabric or gauze is preferably used. Further, any shape can be used depending on the mounting location. When wrapping around the arm, a rectangular shape is preferable.

基材11の両面に取着されるシート状導電体1
0は可撓性を有し、しかも導電性を有するもので
あればどのようなものを使用しても構わない。例
えばタングステン、ステンレス、ニツケル、銅な
どの直径約0.05〜2mmの電線、あるいはアクリ
ル、ビニロンなどの繊維に銀、銅、ニツケルなど
をメツキしたメツキ繊維やアルミニウム、ニツケ
ル、銅などの細長いフイルムを開孔の平均径ない
し網目間隔が0.5μ〜5mm、好ましくは0.5μ〜3mm
となるように織つたり、貼り付けたシート状物が
用いられる。
Sheet-like conductor 1 attached to both sides of base material 11
0 may be any material as long as it is flexible and conductive. For example, tungsten, stainless steel, nickel, copper, etc. electric wires with a diameter of about 0.05 to 2 mm, or acrylic, vinylon, etc. fibers plated with silver, copper, nickel, etc., or aluminum, nickel, copper, etc. long thin films are punched. The average diameter or mesh spacing is 0.5μ to 5mm, preferably 0.5μ to 3mm.
A sheet-like material is used that is woven or pasted in such a way.

特にメツキ繊維は容易に織成または編成するこ
とができ、しかも適度の可撓性を有しているため
人体へ取り付けた際にも違和感がなく好適に使用
できる。
In particular, matte fibers can be easily woven or knitted and have appropriate flexibility, so they can be used suitably without causing discomfort when attached to the human body.

液漏れの検出感度は上記2枚のシート状導電体
の間に狭持される基材11の厚さで調整できる。
基材の厚さが薄いと感度が高く、厚いと低くな
る。第2図のようなメツキ繊維を2mmの間隔で織
成したシート状導電体の間に厚さ0.5mmの不織布
を取り付けた場合には通常1c.c.の液漏れを約1.5
秒以内で検出することができる。
The detection sensitivity of liquid leakage can be adjusted by adjusting the thickness of the base material 11 held between the two sheet-like conductors.
The thinner the base material, the higher the sensitivity, and the thicker the base material, the lower the sensitivity. When a nonwoven fabric with a thickness of 0.5 mm is attached between a sheet-like conductor made of plating fibers woven at intervals of 2 mm as shown in Figure 2, the leakage of 1 c.c. is usually approximately 1.5 mm.
Can be detected within seconds.

上記漏血検出体を外力による損傷から保護する
ため第3図に断面図で示すように漏血検出体1を
吸水性の保護シート12で被覆することが好まし
い。かかる吸水性シートは基材と同様に吸水性を
有し、しかも可撓性であることが重要である。通
常不織布や紙状体が用いられる。該シートは2枚
のシートでシート状導電体を取着した基材を狭持
してその周縁端を縫い込むことにより導電体と基
材および保護シートを一体化することができる。
In order to protect the blood leak detector 1 from damage caused by external forces, it is preferable to cover the blood leak detector 1 with a water-absorbing protective sheet 12, as shown in a cross-sectional view in FIG. It is important that such a water-absorbing sheet has water-absorbing properties like the base material and is also flexible. Usually non-woven fabric or paper-like material is used. The conductor, the base material, and the protective sheet can be integrated by sandwiching the base material to which the sheet-like conductor is attached between two sheets and sewing the peripheral edges of the base material.

人体へ漏血検出体1を取り付ける際に漏血検出
体が人体に充分密着しないと誤動作や検出の遅れ
が生じることがある。この検出のトラブルを避け
るため、および人体への取り付けを容易にするた
め保護シートの裏面(人体との接触面)の少くと
も両端部に両面接着テープ13を貼合しておくこ
とが好ましい。該接着テープを長方形状の保護シ
ートの長手方向に沿つて、その両端に貼合すると
腕などへの取り付けが容易で、しかも漏血検出体
の両端が完全に人体に接着シールされているため
確実に血液漏れを検出することができる。
When attaching the blood leakage detector 1 to the human body, if the blood leakage detector 1 does not come into close contact with the human body, malfunctions or detection delays may occur. In order to avoid this detection trouble and to facilitate attachment to the human body, it is preferable to attach double-sided adhesive tape 13 to at least both ends of the back surface (the surface in contact with the human body) of the protective sheet. By attaching the adhesive tape to both ends of the rectangular protective sheet in the longitudinal direction, it is easy to attach it to the arm, etc., and it is reliable because both ends of the blood leakage detector are completely adhesive-sealed to the human body. Blood leakage can be detected.

漏血検出回路4は公知の警報回路で構成するこ
とができる。例えば第4図に示すように感度設定
回路21と比較回路22および警報ブザー23で
構成され、電源電圧に基準抵抗と導電体を直列に
接続して、この基準抵抗の両端電圧の変化を比較
回路で予め設定された感度電圧と比較して、設定
電圧以下になるとブザーを動作させるようにして
いる。上記ブザーは漏血検出回路に接続したリー
ド線5を漏血検出体1から取り外すと停止する。
The blood leakage detection circuit 4 can be constructed from a known alarm circuit. For example, as shown in FIG. 4, the comparison circuit is composed of a sensitivity setting circuit 21, a comparison circuit 22, and an alarm buzzer 23. A reference resistor and a conductor are connected in series to the power supply voltage, and the comparison circuit detects changes in the voltage across the reference resistor. The sensor is compared with a preset sensitivity voltage, and the buzzer is activated when the voltage falls below the set voltage. The buzzer stops when the lead wire 5 connected to the blood leak detection circuit is removed from the blood leak detector 1.

第4図のように定電圧で動作させるかわりに定
電流で動作させてもよい。また基準抵抗を可変と
して比較回路の設定信号を固定してもよい。また
上記回路は第5図のように市販のメロデイIC2
4と圧電ブザー25および電池26で構成するこ
ともできる。この場合メロデイICをワンシヨツ
ト型で動作させると血液漏れを検出すると一定の
時間所定のメロデイを演奏させることができる。
Instead of operating at constant voltage as shown in FIG. 4, it may be operated at constant current. Alternatively, the reference resistor may be made variable and the setting signal of the comparison circuit may be fixed. Also, the above circuit is a commercially available Melody IC2 as shown in Figure 5.
4, a piezoelectric buzzer 25, and a battery 26. In this case, if the melody IC is operated in one-shot mode, a predetermined melody can be played for a certain period of time when blood leakage is detected.

上記警報ブザーを発信器として無線で遠隔監視
することもできる。この場合には複数の漏血検出
装置がそれぞれ異なる波長の信号を発するように
して、各発信器に対応する受信器を取り付けたラ
ンプを監視室に取り付けると血液漏れを集中監視
することができる。
It is also possible to perform remote wireless monitoring using the alarm buzzer as a transmitter. In this case, blood leakage can be centrally monitored by having a plurality of blood leakage detection devices each emit signals of different wavelengths, and by installing a lamp with a receiver corresponding to each transmitter in the monitoring room.

上記漏血検出回路4にはリード線5が接続され
ており、このリード線の先端には上述の導電体1
0に接続したコネクタ3と結合するコネクタ3′
が接続されている。コネクタとして第2図のよう
なホツクを用いる場合にはリード線の先端にも該
ホツクに対応するホツクが取り付けられる。かか
るリード線で回路と漏血検出体が結合一体化され
ているため装置の取り扱いが便利で、しかも包
帯、毛布等で漏血検出体が覆われた場合でも動作
が確実で音量不足等のトラブルる防止できる。
A lead wire 5 is connected to the blood leak detection circuit 4, and the above-mentioned conductor 1 is connected to the tip of this lead wire.
Connector 3' that connects with connector 3 connected to 0
is connected. When a hook as shown in FIG. 2 is used as a connector, a corresponding hook is also attached to the tip of the lead wire. Since the circuit and the blood leakage detector are connected and integrated using such a lead wire, handling of the device is convenient, and even if the blood leakage detector is covered with a bandage, blanket, etc., operation is reliable and problems such as insufficient volume are avoided. This can be prevented.

本考案装置を使用するには、第1図のように漏
血検出体1を必要部位に当てがい、導電体に接続
されたコネクタに漏血検出回路4に接続されたリ
ード線を結合する。そして血液の漏れがあると漏
血検出体に浸透する水分によつて2枚のシート状
導電体間の電気抵抗が低下して通電が行われて電
気回路の作用によつて警報が発せられる。なおこ
の通電の有無を検出するための電圧は3V以下の
低電圧で充分であるから導電体が直接人体に接触
しても全く危険はない。
To use the device of the present invention, as shown in FIG. 1, the blood leak detector 1 is applied to the required area, and the lead wire connected to the blood leak detector circuit 4 is connected to the connector connected to the conductor. When blood leaks, moisture permeating the blood leak detection body lowers the electrical resistance between the two sheet-like conductors, energizing the body and causing an alarm to be issued by the action of the electric circuit. Note that a low voltage of 3V or less is sufficient for detecting the presence or absence of current, so there is no danger at all even if the conductor comes into direct contact with the human body.

(効果) 以上のように本考案の漏血の検出装置は可撓性
の基材の両面にシート状の導電体を取着している
ため漏血検出体の屈曲、折り曲げが自由で人体へ
最適な装着ができ、しかも漏血検出回路と漏血検
出体がリード線で一体化されているため故障のな
いコンパクトな装置である。
(Effects) As described above, the blood leakage detection device of the present invention has sheet-like conductors attached to both sides of the flexible base material, so the blood leakage detection device can be bent and folded freely, allowing it to be easily applied to the human body. It is a compact device that can be installed optimally and is trouble-free because the blood leak detection circuit and blood leak detection body are integrated with a lead wire.

【図面の簡単な説明】[Brief explanation of the drawing]

第1図は本装置の使用状態を示す斜視図であ
り、第2図は漏血検出体の平面図であり、第3図
は保護シートを被覆した漏血検出体の断面図であ
り、第4図および第5図は漏血検出回路の構成図
である。 1……漏血検出体、3,3′……コネクタ、4
……漏血検出回路、5……リード線。
FIG. 1 is a perspective view showing how the device is used, FIG. 2 is a plan view of the blood leak detector, FIG. 3 is a sectional view of the blood leak detector covered with a protective sheet, and FIG. 4 and 5 are configuration diagrams of the blood leak detection circuit. 1... Blood leakage detector, 3, 3'... Connector, 4
...Blood leakage detection circuit, 5...Lead wire.

Claims (1)

【実用新案登録請求の範囲】[Scope of utility model registration request] 吸水性を有する可撓性の基材の両面に、それぞ
れ端部に金属製コネクタを取着した可撓性で、か
つ通水性または吸水性を有するシート状の導電体
を配置して、全体を可撓性で、かつ吸水性を有す
る保護シートで被覆した漏血検出体と、漏血によ
る該2枚のシート状導電体間の電気抵抗の低下に
よつて警報を発する漏血検出回路と、該漏血検出
回路に接続され、かつ端部に該コネクタと結合さ
れるコネクタを取着したリード線からなり、人体
の穿刺部に被覆した漏血検出体と漏血検出回路に
接続されたリード線とをコネクタで着脱自在に結
合したことを特徴とする漏血の検出装置。
A flexible, water-permeable or water-absorbing sheet-like conductor with a metal connector attached to each end is placed on both sides of a flexible, water-absorbing base material. a blood leakage detection body covered with a flexible and water-absorbing protective sheet; a blood leakage detection circuit that issues an alarm when the electrical resistance between the two sheet-like conductors decreases due to blood leakage; A lead wire connected to the blood leakage detection circuit and having a connector attached to the end to be coupled to the connector, a blood leakage detection body covered with a punctured part of the human body, and a lead connected to the blood leakage detection circuit. A blood leak detection device characterized in that a wire is detachably connected to a wire using a connector.
JP8978886U 1986-06-11 1986-06-11 Expired JPH0433860Y2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP8978886U JPH0433860Y2 (en) 1986-06-11 1986-06-11

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP8978886U JPH0433860Y2 (en) 1986-06-11 1986-06-11

Publications (2)

Publication Number Publication Date
JPS62200338U JPS62200338U (en) 1987-12-21
JPH0433860Y2 true JPH0433860Y2 (en) 1992-08-13

Family

ID=30949084

Family Applications (1)

Application Number Title Priority Date Filing Date
JP8978886U Expired JPH0433860Y2 (en) 1986-06-11 1986-06-11

Country Status (1)

Country Link
JP (1) JPH0433860Y2 (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2010517685A (en) * 2007-02-09 2010-05-27 バクスター・インターナショナル・インコーポレイテッド Optical access disconnection system
JP2010517686A (en) * 2007-02-09 2010-05-27 バクスター・インターナショナル・インコーポレイテッド Acoustic access disconnection system and method
JP2010518907A (en) * 2007-02-16 2010-06-03 バクスター・インターナショナル・インコーポレイテッド Improved signal detection for access disconnection systems
JP2011092514A (en) * 2009-10-30 2011-05-12 Awajitec:Kk Connector for moisture sensor
US9138536B2 (en) 2008-04-01 2015-09-22 Gambro Lundia Ab Apparatus and a method for monitoring a vascular access

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JP2010517686A (en) * 2007-02-09 2010-05-27 バクスター・インターナショナル・インコーポレイテッド Acoustic access disconnection system and method
JP2013081804A (en) * 2007-02-09 2013-05-09 Baxter Internatl Inc Optical access disconnection system
JP2010518907A (en) * 2007-02-16 2010-06-03 バクスター・インターナショナル・インコーポレイテッド Improved signal detection for access disconnection systems
US9138536B2 (en) 2008-04-01 2015-09-22 Gambro Lundia Ab Apparatus and a method for monitoring a vascular access
JP2011092514A (en) * 2009-10-30 2011-05-12 Awajitec:Kk Connector for moisture sensor

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