JP2014083071A - Electrode connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electrode connector capable of preventing itself from leaving an external electrode portion by its own weight.SOLUTION: By pushing an operation unit 7 formed at one of arms 4 and 5 owned by an electrode connector 1, clamping portions 4a and 5a are opened against a suction direction energized by magnets 6a and 6b so that connector side electrode members 8a and 8b mounted on the opened clamping portions 4a and 5a are brought into abutment against and clamped by electrode members 15a and 15b arranged at a liquid detection sheet 11. When the electrode connector 1 is connected with the electrode members 15a and 15b, the electrode connector 1 is fixed at a tube 33, with which an indwelling needle 31 is connected, by a grip portion 2 belonging to the electrode connector 1.

Description

  The present invention relates to an electrode connector connected to an external electrode.

  Conventionally, during the treatment of dialysis, blood transfusion, infusion, etc., in order to detect leakage of blood or drug solution due to removal of the indwelling needle punctured into the patient's arm, etc., liquid detection is performed at the place where the indwelling needle is punctured (puncture part) There is known an apparatus / method for attaching a sensor to detect leakage of blood / medical solution or abnormal installation of a liquid detection sensor (for example, Patent Document 1). Such a liquid detection sensor is directly attached to the puncture unit, and is connected to a measurement device by connecting an electrode connector to an electrode provided in the liquid detection sensor.

  As the electrode connector, for example, a clip 8 described in Patent Document 2 can be used. The clip 8 sandwiches the sheet-like conductive terminal 11 (electrode provided in the liquid detection sensor) between the conductive portion 4 and the sandwiching portion 5 by the urging force of the spring material 7, thereby The clip 8 is connected.

Japanese Utility Model Publication No. 5-79468 Japanese Utility Model Publication No. 6-74103

  However, in the configuration of the clip 8, the clip 8 (electrode connector) may be detached from the sheet-like conductive terminal 11 (electrode provided in the liquid detection sensor) due to the weight of the clip 8 (electrode connector) or the operation of the patient. There is.

  Therefore, the present invention has been made in view of the above problems, and an object thereof is to provide an electrode connector capable of preventing the electrode connector from being detached from an external electrode portion due to its own weight or the like. To do.

  The electrode connector according to the present invention includes a gripping part, a pair of arms that can be opened and closed via a fulcrum, a clamping part that is formed on one end side of the arm and that can be clamped, and that biases the clamping part in a closing direction. A biasing portion, an operation portion that is formed on the other end side of the arm and operates to allow the clamping portion to be expanded, and a connector-side electrode portion that is provided on the clamping portion and is in contact with an external electrode portion It has.

  According to the above configuration, when the user operates the operation unit formed on the pair of arms, the clamping unit is opened against the direction in which the biasing unit biases, and the connector side provided in the opened clamping unit The electrode connector can be easily connected to the external electrode by holding the electrode part in contact with the external electrode part. Under the present circumstances, the said electrode connector can be fixed to a target object with the holding part with which an electrode connector is provided. Thereby, it can prevent that an electrode connector detaches | leaves from an external electrode part by the dead weight etc. of an electrode connector.

  Moreover, the electrode connector of this invention WHEREIN: The said holding part may have the cross-sectional view ring shape which a part isolate | separated.

  According to the above configuration, since the gripping part has a ring shape with a partially separated cross section, the electrode connector can be fixed to the object by fitting the ring-shaped part into the object. Can do.

  Moreover, the electrode connector of this invention WHEREIN: The said holding part may be comprised from the elastic member which elastically deforms.

  According to the above configuration, the gripping part can be easily attached to the object by applying the part of the gripping part separated to the object and elastically deforming the gripping part.

  Moreover, the electrode connector of this invention WHEREIN: The said holding part may be detachably attached with respect to a needle stick part.

  According to the said structure, an electrode connector can be fixed to a needle stick part by attaching a holding part to a needle stick part.

  Further, in the electrode connector of the present invention, the operation portion is a line connecting the clamping portion of the one arm and the fulcrum so that the one arm rotates with respect to the other arm via the fulcrum. May have a shape having a predetermined height.

  According to the above configuration, even when the other arm of the electrode connector is placed along the patient's arm, the external electrode unit can be clamped by pushing the operation unit having a predetermined height. In addition, even after the electrode connector is fixed to the object, it is possible to release the holding of the external electrode unit by pushing the operation unit having a predetermined height.

  Moreover, the electrode connector of this invention WHEREIN: The electrode part in the said exterior may be provided in the sheet-like liquid detection sheet affixed on the said needlestick part.

  According to the above configuration, the electrode connector can be electrically connected to the liquid detection sheet by holding the connector-side electrode portion provided in the holding portion in contact with the electrode portion included in the liquid detection sheet. it can. Moreover, an electrode connector can be fixed to a needle stick part by attaching a holding part to a needle stick part. As a result, when the needle puncture part is withdrawn, the electrode connector is also detached from the liquid detection sheet, so that the needle removal can be detected by electrical measurement on the liquid detection sheet.

  Further, in the electrode connector of the present invention, the liquid detection sheet includes an insulating sheet that is connected between a plurality of electrode portions included in the liquid detection sheet and that exhibits conductivity due to the intervention of the liquid, and the resistance The member has a resistance value larger than a resistance value when the insulating sheet exhibits conductivity, and the connection of the connector side electrode part to the electrode part included in the liquid detection sheet is released. You may have a resistance value smaller than the resistance value between electrode parts.

  According to the above configuration, the liquid detection sheet includes a liquid leakage state in which the insulating sheet exhibits conductivity by measuring the resistance value between the electrode parts included in the liquid detection sheet or the resistance value between the connector-side electrode parts. Three states can be detected: a disconnected state in which the connection of the connector-side electrode unit to the electrode unit is released, and a normal state other than these states (a state in which the insulating sheet does not exhibit conductivity). Thus, not only the liquid leakage state is detected by the liquid detection sheet, but also when the electrode connector is detached from the liquid detection sheet and the connection of the connector side electrode portion to the electrode portion provided in the liquid detection sheet is released. Based on the resistance value, it can be detected as a detached state. Furthermore, in the electrode connector, since the electrode connector can be integrally fixed to the needle puncture portion by attaching the grip portion to the needle puncture portion, the electrode connector is detached from the liquid detection sheet, and the liquid detection sheet When the connection of the connector side electrode part to the electrode part included in is released, it can be detected as a state in which the needle stick part is withdrawn based on the resistance value. For this reason, it is possible to notify the outside that normal detection has become impossible, and as a result, it is possible to quickly restore the normal state.

  It is possible to provide an electrode connector that can prevent the electrode connector from being detached from the external electrode portion due to its own weight or the like.

It is a perspective view of an electrode connector. It is explanatory drawing which shows the usage example of an electrode connector. (A) It is a top view of an electrode connector. (B) It is a front view of an electrode connector. (C) It is a bottom view of an electrode connector. (A) It is a right view of an electrode connector. (B) It is a left view of an electrode connector. (C) It is a rear view of an electrode connector. It is a 1st exploded view of an electrode connector. It is a 2nd exploded view of an electrode connector. It is explanatory drawing explaining the fitting method of the electrode connector to the tube. (A) It is a perspective view of the surface of a liquid detection sheet. (B) It is a perspective view of the back surface of a liquid detection sheet. It is explanatory drawing which shows the cross-section of a liquid detection sheet. It is a block diagram which shows the electric constitution of a measuring device. It is a figure which shows the flowchart of the leak detection program which a measuring apparatus performs.

  Embodiments of the present invention will be described below with reference to the drawings.

(Configuration of electrode connector)
As shown in FIGS. 1, 3, and 4, the electrode connector 1 according to this embodiment includes a ring-shaped gripping portion 2 that is partially separated, and a pair of arms 4 that can be opened and closed via a fulcrum 3. 5, magnets 6a and 6b, which are formed on one end side of arms 4 and 5 and can bias the liquid detection sheet 11, and magnets 6a and 6b as biasing sections that bias the clamping sections 4a and 5a in the closing direction. And formed on the other end side of the arms 4 and 5, and provided in the operation part 7 for operating the holding parts 4 a and 5 a to be able to expand and the holding parts 4 a and 5 a, and disposed on the liquid detection sheet 11 described later. Connector-side electrode members 8a and 8b that are in contact with the electrode members 15a and 15b are provided. As shown in FIG. 2, the connector-side electrode members 8a and 8b of the electrode connector 1 are used by being electrically connected to the measuring device 37 via a cord 37a.

  As shown in FIG. 2, the electrode connector 1 includes electrode members 15 a and 15 b included in the liquid detection sheet 11 attached to a puncture portion 32 punctured with an indwelling needle 31 (needle puncture portion) on a patient's arm 30. It is connected by pinching. By this connection, the liquid detection sheet 11 and the measuring device 37 are electrically connected. It should be noted that an LED is attached to the arm 4 or 5 of the electrode connector 1 so that it can be confirmed whether the connection between the electrode members 15a and 15b of the liquid detection sheet 11 and the electrode members 8a and 8b of the electrode connector 1 is normal or disconnected. A display unit such as may be provided. Furthermore, the electrode connector 1 is fixed to the indwelling needle 31 by fitting the gripping part 2 into the tube 33 (needle stab part) connected to the indwelling needle 31.

  Here, the needle puncture portion is not only a needle-like one that is directly pierced into the patient's arm, such as an indwelling needle or an injection needle, but a tube or syringe connected to a needle such as an indwelling needle or an injection needle. Such devices are also included.

  The arms 4 and 5 are disposed at opposing positions, and the arm 4 is connected to the arm 5 so as to be rotatable about the fulcrum 3 as a rotation center. Specifically, as shown in FIG. 5, the protrusions 3 a and 3 b provided at both ends in the short direction of the arm 4 are fitted into the recesses 3 c and 3 d provided at both ends in the short direction of the arm 5. The arm 4 is connected to the arm 5 with the fulcrum 3 as the rotation center (see FIG. 6). The material of the arms 4 and 5 is exemplified by a polymer whose main material is resin or vulcanized rubber that does not conduct electricity and has elasticity. Furthermore, examples of the resin include polyurethane resins, epoxy resins, polypropylene resins, phenol resins, and silicon resins.

  Further, sandwiching portions 4 a and 5 a for sandwiching the liquid detection sheet 11 are provided on one end side of the arms 4 and 5. In addition, you may provide an uneven | corrugated tooth | gear part in the opposing position in the clamping parts 4a and 5a. In this case, when the liquid detection sheet 11 is sandwiched by the sandwiching portions 4a and 5a, the tooth portion bites into the liquid detection sheet 11, so that the liquid detection sheet 11 can be more firmly fixed.

  As shown in FIG. 5, guide grooves 8c and 8d for mounting the connector-side electrode members 8a and 8b at predetermined positions are provided inside the holding portion 4a, that is, at a position facing the holding portion 5a. The connector side electrode members 8a and 8b are attached along the guide grooves 8c and 8d. Accordingly, the connector side electrode members 8a and 8b are arranged with a predetermined interval so that the longitudinal directions thereof are parallel to each other and are electrically separated from each other. , 8b and the electrode members 15a and 15b can be reliably and easily connected. The connector-side electrode members 8a and 8b are formed with contact points 8e and 8f protruding in a triangular shape so as to facilitate contact with the electrode members 15a and 15b disposed on the liquid detection sheet 11.

  The connector side electrode members 8a and 8b may be made of any material as long as they have conductivity, but are preferably metals such as aluminum and copper. In addition, as a metal material forming the connector side electrode members 8a and 8b, any one of nickel, copper, silver, tin, gold, palladium, aluminum, chromium, titanium, and zinc, or two or more of these may be used. It may be an alloy or the like.

  Further, as shown in FIG. 5, cylindrical holes 6c and 6d are formed in the central portions of the arms 4 and 5, respectively, and the magnets 6a and 6b having a cylindrical shape are formed in the holes 6c and 6d. Each is stored. The holes 6c and 6d are designed to be slightly larger than the magnets 6a and 6b, and the magnets 6a and 6b are fixed to the holes 6c and 6d with an adhesive. Thereby, the clamping part 4a and the clamping part 5a can be urged | biased by the attraction force by the magnetic force of the magnets 6a and 6b in the closing direction. The holes 6c and 6d may be designed to be slightly smaller than the magnets 6a and 6b. In this case, by fitting the magnets 6a and 6b into the holes 6c and 6d, the magnets 6a and 6b can be fixed to the holes 6c and 6d to the extent that they are not removed by the attractive force of the magnets 6a and 6b.

  In this embodiment, the magnets 6a and 6b are accommodated in both the hole 6c and the hole 6d. However, the magnet is accommodated only in one hole, and the metal piece is accommodated in the other hole. Also good. In this embodiment, the magnets 6a and 6b are used as urging portions for urging the clamping portions 4a and 5a in the closing direction. However, the present invention is not limited to this, and the plate spring, coil spring, rectangular wire spring, resin elasticity Materials, etc. may be used.

  Further, on the other end side of the arm 4, there is provided an operation portion 7 for operating the holding portions 4a and 5a so that the fulcrum 3 is the center of rotation and the lever portions 4a and 5a can be expanded by the lever principle. And as shown in FIG. 3, the convex part 7a used as a slip stopper when a user attaches a finger | toe is provided in the outer side of the operation part 7 so that it may become parallel to a transversal direction. Further, as shown in FIG. 3 (B), the operation unit 7 provided on the arm 4 is configured so that the arm 4 rotates with respect to the arm 5 via the fulcrum 3 as shown in FIG. 3 is formed in a stepped shape 7 b having a height with respect to a line (surface) connecting 3. As a result, even when the arm 5 of the electrode connector 1 is placed along the patient's arm 30, the electrode members 15a and 15b of the liquid detection sheet 11 can be held by pressing the operation portion 7 having the stepped shape 7b. Further, even after the electrode connector 1 is fixed to the tube 33, the clamping of the liquid detection sheet 11 with respect to the electrode members 15 a and 15 b can be released by pushing the operation portion 7 having the step shape 7 b. The step shape 7b of the operation unit 7 may be a streamline shape. In other words, the operation portion 7 may have a shape having a height with respect to a line (surface) connecting the sandwiching portion 4 a of the arm 4 and the fulcrum 3. Further, since the indwelling needle is fixed to the arm 30, the electrode connector 1 in which the tube 33 connected to the indwelling needle 31 is fixed by the grip portion 2 is also along the arm 30, so that the electrode member of the liquid detection sheet 11 The connection state with 15a and 15b is also stabilized.

  Further, the grip portion 2 is provided on the other end side of the arm 5. As shown in FIGS. 4A and 4B, the grip portion 2 has a Ω shape in cross section. As the material of the grip portion 2, an elastic member that is elastically deformed so as to be easily fitted into the tube 33 is used. As this elastic member, a polymer whose main material is resin or vulcanized rubber is exemplified. Furthermore, examples of the resin include polyurethane resins, epoxy resins, polypropylene resins, phenol resins, and silicon resins. In the present embodiment, the grip portion 2 has a Ω shape in sectional view. However, the present invention is not limited to this, and any ring shape in which a part of the ring is separated in the sectional view may be used. And Ω-shaped ones.

  Moreover, as shown to FIG. 4 (A) and (B), the wing | blade part 2a is provided in the part from which the part of the ring of the holding part 2 isolate | separated. For example, the wing portion 2 a can be attached in a state where the posture of the electrode connector 1 with respect to the arm 30 is stable (ie, not shifted from side to side) by contacting the arm 30. The width (size) of the wing portion 2a may be appropriately determined depending on the place where it is attached. Further, when the grip portion 2 is removed from the tube 33, the grip portion 2 can be easily detached from the tube 33 by grasping the wing portion 2a and expanding the wing portion 2a.

(Configuration of liquid detection sheet)
Next, the liquid detection sheet 11 to which the electrode connector 1 is connected will be described. As shown in FIGS. 8 and 9, the liquid detection sheet 11 of the present embodiment is electrically conductive by the intervention of the resistance member 18 and the liquid connected between the two electrode members 15 a and 15 b that are electrically separated from each other. Insulating sheet 14 which exhibits the property is provided. The resistance member 18 has a resistance value larger than the resistance value when the insulating sheet 14 exhibits conductivity, and the connection of the connector side electrode members 8a and 8b to the electrode members 15a and 15b is released. It has a resistance value smaller than the resistance value between the electrode portions.

  Here, the “liquid” is a liquid detection object by the liquid detection sheet 11 and is not limited to the material and physical properties as long as it is liquid. Liquid means that it has fluidity enough to impregnate the insulating sheet 14. The “liquid” may be a body fluid, a chemical solution, pure water or water containing impurities, or an organic substance such as an acid, an alkali, an oil, or an organic solvent. In addition, the physical property of “liquid” may be any material that is liquefied at the ambient temperature in which the liquid detection sheet 11 is used.

  More specifically, as shown in the sectional view of FIG. 9, the liquid detection sheet 11 includes an insulating sheet 14, an adhesive layer 19, a resistance member 18, two electrode members 15 a and 15 b, an adhesive The member 16 is laminated.

  The insulating sheet 14 has an outer shape that is similar to the outer shape of the liquid detection sheet 11 and has a rectangular shape in plan view smaller than that of the liquid detection sheet 11, and is disposed at the center of the liquid detection sheet 11. This insulating sheet 14 has a structure that absorbs and retains liquid while exhibiting electrical conductivity due to the presence of liquid. That is, the insulating sheet 14 is configured to change from insulating to conductive as a whole by the penetration of the liquid. Further, the material of the insulating sheet 14 is not particularly limited as long as it is a material having a large electric resistance when not in contact with the liquid. For example, examples of the material of the insulating sheet 14 include cellulose such as cloth and paper, ceramic, and engineering plastic.

  The adhesive layer 19 is made of an adhesive material, and examples thereof include acrylic resins, silicon resins, thermoplastic elastomer resins, rubber resins, and polyester resins.

  As shown in FIGS. 8 and 9, the electrode members 15a and 15b are arranged so that their longitudinal directions are parallel to each other. The electrode members 15a and 15b are arranged with a predetermined interval so as to be electrically separated from each other. The predetermined interval means an interval that does not malfunction due to the humidity of the atmosphere in which the liquid detection sheet 11 is installed.

  The electrode members 15a and 15b have a configuration in which a metal layer 52 and a conductive adhesive layer 51 are laminated. Note that the conductive adhesive layer 51 is not laminated on the tip portions of the electrode members 15a and 15b.

  The metal layer 52 includes an adhesive portion 52a and a lead portion 52b. The bonding portion 52 a is a portion where the conductive adhesive layer 51 of the metal layer 52 is laminated, and is bonded to the pressure-sensitive adhesive 61 of the pressure-sensitive adhesive member 16. The lead portions 52b of the electrode members 15a and 15b extend from the respective adhesive portions 52a, and are inserted into the two through holes 63 and 63 formed in the adhesive member 16 from the connection portions with the adhesive portions 52a, respectively. It is supposed to be located on the surface. Each adhesion part 52a of electrode member 15a * 15b is hold | maintained with the viscosity of the adhesion member 16, and the whole surface is covered with the insulating sheet 14. FIG. In other words, the adhesive member 16 is formed in a sheet shape having the through-hole 63, and the electrode members 15 a and 15 b have the adhesive portions 52 a held on one side of the adhesive member 16, and each drawer The portion 52b is configured to be located on the other surface side through the through-holes 63 and 63.

  The metal layer 52 may be made of any material as long as it has conductivity, but is preferably a metal such as aluminum or copper. The metal material for forming the metal layer 52 may be nickel, copper, silver, tin, gold, palladium, aluminum, chromium, titanium, zinc, or an alloy containing two or more thereof. Good.

  The resistance member 18 is placed in contact with the two electrode members 15a and 15b, and is bonded to the insulating sheet 14 by the adhesiveness of the adhesive layer 19. That is, the resistance member 18 is bonded to the insulating sheet 14 by the adhesive layer 19 so as to be sandwiched between the insulating sheet 14 and the electrode members 15a and 15b.

  Further, the resistance member 18 may be any material as long as it has conductivity and can be set to a value larger than the resistance value when the insulating sheet 14 exhibits conductivity. Is preferably carbon. In particular, it is preferably formed by printing a carbon ink using carbon black such as ketjen black (trademark) on the insulating sheet 14 or the substrate. Examples of the base material include cellulose such as cloth and paper, ceramics, and engineering plastics. Engineering plastics include polypropylene, crosslinked polyethylene, polyester, polybenzimidazole, aramid, polyimide, polyimideamide, polyetherimide, polyphenylene sulfide (PPS), polyethylene naphthalate (PEN), polyethylene terephthalate (PET), and the like.

  The pressure-sensitive adhesive member 16 has a structure in which a pressure-sensitive adhesive 61 and a pressure-sensitive adhesive film 62 are laminated, and through-holes 63 and 63 penetrating the pressure-sensitive adhesive 61 and the pressure-sensitive adhesive film 62 are formed. The adhesive member 16 is formed so as to hold the insulating sheet 14 and the electrode members 15a and 15b and to cover the insulating sheet 14, the electrode members 15a and 15b, and the resistance member 18. The adhesive member 16 has adhesiveness at the exposed portion. Therefore, the insulating sheet 14, the electrode members 15 a and 15 b, and the resistance member 18 of the liquid detection sheet 11 can be easily attached to a desired location by the adhesive member 16. The adhesive film 62 is a base film for the adhesive 61 and is disposed on the surface of the liquid detection sheet 11 opposite to the insulating sheet 14. The adhesive film 62 is formed in a size larger than the insulating sheet 14 and the electrode members 15a and 15b. Thereby, the adhesive film 62 impacts the insulating sheet 14 and the electrode members 15a and 15b by holding the adhesive 61 and covering the insulating sheet 14 and the electrode members 15a and 15b in the installed liquid detection sheet 11. It is designed to protect against external forces caused by rubbing and rubbing. Note that the adhesive 61 is not laminated on the adhesive film 62 at the tip of the adhesive member 16.

  The liquid detection sheet 11 is preferably sterilized for medical use. In particular, the liquid detection sheet 11 is preferably sterilized with ethylene oxide gas (EOG).

  The liquid detection sheet 11 may be provided with a release sheet 13 having the same shape as the outer shape of the adhesive member 16. The release sheet 13 makes it possible to maintain the adhesiveness of the adhesive 61 over a long period of time and to exhibit the adhesiveness to the installation target of the liquid detection sheet 11 only when necessary. Accordingly, the release sheet 13 can protect the insulating sheet 14 and the electrode members 15a and 15b with the adhesive member 16 in a state before the liquid detection sheet 11 is installed.

According to the liquid detection sheet 11, by measuring the resistance value between the electrode members 15a and 15b electrode portions of the liquid detection sheet 11 or the resistance value between the connector side electrode members 8a and 8b, the insulating sheet is made conductive. Liquid leakage state to be exhibited, detached state in which the connector side electrode part is disconnected from the electrode part included in the liquid detection sheet, and normal states other than these states (state in which the insulating sheet does not exhibit conductivity) Can be detected.
The liquid detection sheet 11 is an example, and the material, structure, and the like may be changed as appropriate as long as the configuration includes the insulating sheet 14, the resistance member 18, and the electrode members 15a and 15b.

(Application example of electrode connector)
Next, a usage example of the electrode connector 1 will be described.
As shown in FIG. 2, in order to detect leakage of blood or a chemical solution or abnormality of the indwelling needle 31 due to the indwelling needle 31 punctured in the patient's arm 30 being removed or detached during treatment such as blood transfusion or infusion. The case where the liquid detection sheet 11 is affixed to the puncture part 32 punctured with the indwelling needle 31 will be described.

  First, the indwelling needle 31 is punctured at an appropriate location on the patient's arm 30. Next, if it is the liquid detection sheet 11 provided with the peeling sheet 13, the peeling sheet 13 is peeled off and the liquid detection sheet 11 is affixed so that the insulating sheet 14 may contact the puncture part 32 which punctured the indwelling needle 31. FIG.

  Next, as shown in FIG. 2 and FIG. 7, the user fits the grip portion 2 into a tube 33 that feeds blood or chemical liquid in the infusion tube 38 from the infusion tube 38 to the indwelling needle 31. At this time, since the grip portion 2 is formed of an elastic member, the grip portion 2 can be easily fitted into the tube 33 when the grip portion 2 is elastically deformed.

  Next, the user opens the holding portions 4a and 5a by pushing the operation portion 7 of the electrode connector 1 downward. Then, the electrode-side connector 1 is moved to a position where the connector-side electrode members 8a and 8b disposed in the opened sandwiching portions 4a and 5a contact the electrode members 15a and 15b disposed in the liquid detection sheet 11, respectively. Close 4a and 5a. Thereby, the electrode connector 1 and the liquid detection sheet 11 are electrically connected. That is, the electrode members 15a and 15b of the liquid detection sheet 11 are connected via the electrode connector 1 so that the measuring device 37 can detect the resistance value.

  In the above description, the case where the electrode connector 1 and the liquid detection sheet 11 are connected after the grip portion 2 of the electrode connector 1 is fitted into the tube 33 has been described. However, this order may be reversed. 1 and the liquid detection sheet 11 may be connected, and then the grip portion 2 of the electrode connector 1 may be fitted into the tube 33.

  Thereby, when a liquid leak occurs in the puncture part 32, the insulating sheet 14 exhibits conductivity when the liquid penetrates. As a result, the electrode members 15 a and 15 b that are conducted only by the resistance member 18 are also electrically connected through the insulating sheet 14. Since the insulating sheet 14 exhibiting conductivity has a lower resistance value than the resistance member 18 (resistance value in a normal state), the electric resistance indicated by the measuring device 37 also changes to a lower resistance value. As a result, leakage is detected.

  In addition, when the connection of the connector-side electrode members 8a and 8b of the electrode connector 1 to the electrode members 15a and 15b included in the liquid detection sheet 11 is released due to some cause such as the operation of the patient, the electrical resistance indicated by the measuring device 37 is The resistance member 18 (resistance value in a normal state) changes to a higher resistance value. Thereby, the electrode connector 1 is detached from the liquid detection sheet 11, and the connection of the connector side electrode members 8a and 8b to the electrode members 15a and 15b included in the liquid detection sheet 11 is released as the detached state of the electrode connector 1. Will be detected. In the electrode connector 1 according to this embodiment, the electrode connector 1 can be integrally fixed to the tube 33 by attaching the grip portion 2 to the tube 33, so that the electrode connector 1 is removed from the liquid detection sheet 11. The disconnected state when the connection is released after the connection is released can be detected as a state where the indwelling needle 31 is removed based on the resistance value. The normal state and the disengaged state may be displayed (lit or extinguished) by LEDs attached to the arm 5 or the arm 4.

(Detection operation by measuring device)
Here, the measuring device 37 and its operation will be described.
The measuring device 37 is connected to the electrode members 15a and 15b of the liquid detection sheet 11 via the electrode members 5a and 5b of the electrode connector 1 as described above, so that the resistance value between the electrode members 15a and 15b and the electrode members It has a function of detecting the resistance value between 5a and 5b. Accordingly, the state of the liquid detection sheet 11 (detection unit 70) (normal state, liquid leakage state, and needle removal state (a detached state in which the electrode connector 1 is detached from the liquid detection sheet 11, etc.))
) Can be detected.

  Specifically, as illustrated in FIG. 10, the measurement device 37 includes a calculation unit 79, a terminal unit 71, an A / D conversion unit 77, an input unit 73, a speaker 74, a display unit 72, a power supply unit 75, a communication interface 76, A ROM 781 and a RAM 782 are included.

  As described above, the terminal unit 71 detects the resistance value of the detection unit 70 and transmits the resistance value to the calculation unit 79 via the A / D conversion unit 77. The calculation unit 79 executes various programs and controls operations of various actuators by supplying power from the power supply unit 75. Specifically, the calculation unit 79 determines a state of the detection unit 70 based on a resistance value from the terminal unit 71 by a leakage detection program described later. Various programs such as a leakage detection program are stored in the storage means of the ROM 781 and the RAM 782. In addition, the calculation unit 79 notifies the display unit 72 such as a speaker 74 or a liquid crystal display device of the state of the detection unit 70 according to the determined state of the detection unit 70. In addition, by using an input unit 73 such as a switch, a keyboard, and a mouse, detection start / end and setting of a threshold value for determining the state of the detection unit 70 can be performed. Such set values are stored in the RAM 782.

  In addition, the calculation unit 79 can output a signal based on the state of the detection unit 70 to the outside via the communication interface 76. For example, when a liquid leak from the puncture unit 32 is detected, it is possible to output a signal to another system. For example, an alarm to a remote location, an automatic response at the time of a liquid leak (for example, an automatic system) Stop) etc. are possible.

  Next, a liquid leakage detection program executed by the calculation unit 79 in the measuring device 37 will be described. In the present embodiment, the resistance value between the electrode members 15a and 15b is referred to as a sensor resistance value.

  As shown in FIG. 11, first, it is determined whether a start operation has been performed (S1). Specifically, it is determined whether a start operation is performed from the outside in the input unit 73 and a signal indicating the operation is transmitted to the calculation unit 79. When the start operation is not performed (S1: NO), the process of S1 is executed again. That is, a standby state for waiting for the start operation is entered.

  On the other hand, when the start operation is performed (S1: YES), the sensor resistance value is acquired (S2). Thereafter, a separation state threshold is determined (S3). Specifically, the separation state threshold value is a threshold value for determining a separation state in which the connection between the electrode connector electrode members 8a and 8b and the electrode members 15a and 15b is released. Note that the threshold value of the disengaged state may be set to a value (resistance value is infinite) at which the electrode connector electrode members 8a and 8b are completely non-conductive. In this embodiment, a value obtained by adding the first predetermined value to the sensor resistance value when the liquid detection sheet 11 is attached to the puncture unit 32 is set as the detached state threshold value. The first predetermined value is appropriately set in advance according to the installation target environment.

  Then, a leak threshold is determined (S4). Specifically, the liquid leakage threshold value is a threshold value for determining a liquid leakage state in which the insulating sheet 14 exhibits conductivity due to liquid leakage and the electrode members 15a and 15b are electrically connected by the insulating sheet 14. In the liquid detection sheet 11, the resistance value of the resistance member 18 is set larger than that of the insulating sheet 14 that exhibits conductivity. Therefore, the liquid leakage threshold is between the insulating sheet 14 that exhibits conductivity and the resistance member 18. The resistance value is set. In the present embodiment, a value obtained by subtracting the second predetermined value from the sensor resistance value when the liquid detection sheet 11 is attached to the puncture unit 32 is set as a liquid leakage threshold value. The second predetermined value is appropriately set in advance according to the physical properties of the insulating sheet 14 and the liquid for detecting leakage.

  As described above, by setting the threshold value for each liquid detection sheet 11, even when the resistance value is different for each liquid detection sheet 11, the variation can be corrected.

  Thereafter, it is determined whether or not the liquid detection sheet 11 is normal. Specifically, it is determined whether or not the determined separation state threshold is equal to or greater than the measurement range upper limit value of the measurement device 37 (S5). Note that this process may not be performed when infinity is permitted as the separation state threshold. When the determined separation state threshold value is not equal to or greater than the measurement range upper limit value of the measurement device 37 (S5: NO), it is determined whether or not the determined leakage threshold value is equal to or less than the measurement range lower limit value of the measurement device 37 ( S6). If the determined leak threshold is not less than or equal to the measurement range lower limit of the measuring device 37 (S6: NO), the detection operation is started.

  When the detection operation is started, a sensor resistance value is acquired (S7). Then, it is determined whether or not the acquired sensor resistance value is greater than or equal to the separation state threshold value (S8). When the sensor resistance value is not abnormal in the separation state threshold (S8: NO), it is determined whether or not the acquired sensor resistance value is equal to or greater than the separation state threshold (S9). If the sensor resistance value is not equal to or greater than the separation state threshold value (S9: NO), the process returns to S7 and the detection operation is continued.

On the other hand, in each abnormality determination process of S5, S6, S8, and S9, when it is determined that there is an abnormality (when the separation state threshold is greater than or equal to the measurement range upper limit value of the measurement device 37 (S5: YES), When the liquid threshold is less than or equal to the measurement range lower limit of the measuring device 37 (S6: YES), when the sensor resistance value is greater than or equal to the separation state threshold (S8: YES), when the sensor resistance value is greater than or equal to the separation state threshold ( S9: YES)), the following processing is executed.
That is, in each abnormality determination process of S5, S6, S8, and S9, when it is abnormal, an alarm process is executed (S10). Specifically, the speaker 74 is controlled to output an alarm sound, and an indication that there is an abnormality is displayed on the display unit 72. Thereafter, alarm release processing is performed (S11). The alarm release process is a process in which the alarm process is stopped when an administrator of the liquid detection sheet 11 performs an alarm release operation on the input unit 73. Then, it is determined whether or not to continue the detection operation (S12). That is, it is determined whether an operation on the input unit 73 by the administrator or the like of the liquid detection sheet 11 indicates whether to continue the current detection operation. In addition, what is shown on the display part 72 so that either of the said operation may be performed.

  If the input operation is to continue the current detection operation (S12: YES), the process returns to S7 and the detection operation is continued. When the input operation does not continue the current detection operation (S12: NO), this program is terminated.

  In the alarm process of S10, it is preferable that the state is informed in an identifiable manner. That is, when it is determined that there is an abnormality in each abnormality determination process of S5, S6, S8, and S9, identification information that can identify what kind of abnormality is stored in the storage means, In the processing, the sound output mode of the speaker 74 and the display mode of the display unit 72 may be varied according to the identification information. Further, the identification information may be output to the outside via the communication interface 76.

  According to the electrode connector 1, when the user pushes the operating portion 7 formed on the arm 4, the holding portions 4 a, 5 a are opened against the attracting direction in which the magnets 6 a, 6 b are urged, and the opened holding portion The electrode-side connector 1 is attached to the electrode members 15a and 15b by holding the connector-side electrode members 8a and 8b provided on 4a and 5a in contact with the electrode members 15a and 15b arranged on the liquid detection sheet 11. Can be connected easily. At this time, the electrode connector 1 can be fixed to the tube 33 to which the indwelling needle 31 is connected by the grip portion 2 included in the electrode connector 1. Thereby, it is possible to prevent the electrode connector 1 from being detached from the liquid detection sheet 11 due to its own weight or the like.

  In addition, since the grip portion 2 of the electrode connector 1 has a Ω shape in a partially separated sectional view, the electrode connector 1 is fixed to the tube 33 by fitting the partially separated portion into an object. be able to.

  In addition, since the grip portion 2 of the electrode connector 1 is made of an elastic member that is elastically deformed, the portion where the Ω-shaped grip portion 2 is separated is applied to the tube 33 to elastically deform the grip portion 2. By doing so, the grip portion 2 can be easily attached to the tube 33.

  Moreover, the holding part 2 of the electrode connector 1 can be detachably attached to the indwelling needle 31 and the tube 33 (needle stab part), thereby fixing the electrode connector 1 to the indwelling needle 31 and the tube 33. Can do.

  Further, according to the electrode connector 1, the electrode members 15 a and 15 b of the liquid detection sheet 11 are pushed by pushing the operation portion 7 having the stepped shape 7 b even when the arm 5 of the electrode connector 1 is along the patient's arm 30. Can be pinched. Further, even after the electrode connector 1 is fixed to the tube 33, the clamping of the liquid detection sheet 11 with respect to the electrode members 15 a and 15 b can be released by pushing the operation portion 7 having the step shape 7 b.

  Moreover, according to the electrode connector 1, the connector side electrode members 8a and 8b provided in the holding portions 4a and 5a are held in contact with and held by the electrode members 15a and 15b included in the liquid detection sheet 11, thereby detecting the liquid. The electrode connector 1 can be electrically connected to the sheet 11. Further, the electrode connector 1 can be fixed to the indwelling needle 31 and the tube 33 by attaching the grip portion 2 to the indwelling needle 31 and the tube 33. Thereby, when the indwelling needle 31 is withdrawn, the electrode connector 1 is also detached from the liquid detection sheet 11, so that the withdrawal can be detected by electrical measurement on the liquid detection sheet 11.

  Further, according to the electrode connector 1, the insulation sheet 14 is made conductive by measuring the resistance value between the electrode members 15a and 15b provided in the liquid detection sheet 11 or the resistance value between the connector side electrode members 8a and 8b. Liquid leakage state to be exhibited, separation state in which the connector side electrode members 8a and 8b are disconnected from the electrode members 15a and 15b included in the liquid detection sheet 11, and normal states other than these states (the insulating sheet 14 is conductive) The three states can be detected. Thereby, not only the liquid leakage state is detected by the liquid detection sheet 11, but also the electrode connector 1 is detached from the liquid detection sheet 11, and the connector side electrode member 8a with respect to the electrode members 15a and 15b included in the liquid detection sheet 11 is used. , 8b can also be detected as a disconnected state based on the resistance value. Furthermore, in the electrode connector 1, the electrode connector 1 can be fixed integrally to the indwelling needle 31 by fitting the grip portion 2 into the tube 33 to which the indwelling needle 31 is connected. When the connection of the connector side electrode members 8a and 8b to the electrode members 15a and 15b included in the liquid detection sheet 11 is released from the sheet 11, the indwelling needle 31 is removed based on the resistance value. Can be detected. For this reason, it is possible to notify the outside that normal detection has become impossible, and as a result, it is possible to quickly restore the normal state.

(Other embodiments)
As mentioned above, although the electrode connector 1 of this embodiment was demonstrated, it is not limited to this.

  For example, although the electrode connector 1 of this embodiment was used with respect to the liquid detection sheet | seat 11, it is not restricted to this, It can be used in order to connect the instrument and measuring device which were equipped with the electrode outside. For example, the present invention can be utilized for an apparatus for measuring an electrocardiogram, an apparatus for measuring an electroencephalogram, and an apparatus for measuring a pulse.

Moreover, in this embodiment, as shown in FIG.2 and FIG.7, what is comprised by the indwelling needle 31, the tube 33, and the connection part 31a which connects the indwelling needle 31 to the tube 33 is used. Since the connection portion 31a has a cross-sectional area larger than the cross-sectional area of the tube 33, when the grip portion 2 of the electrode connector 1 is fitted into the tube 33, the connection portion 31a is formed between the tube 33 and the connection portion 31a. It plays the role of a stopper due to the level difference. Thereby, it is possible to prevent the grip portion 2 from sliding and moving toward the indwelling needle 31.
Further, the electrode connector 1 and the grip portion 2 may be integrally molded, or both may be coupled like a ball joint so that the grip portion 2 can move freely.

  In the above detailed description, the present invention has been described mainly with respect to characteristic parts so that the present invention can be more easily understood. However, the present invention is not limited to the embodiments described in the above detailed description, and other implementations are possible. It can also be applied to forms and its scope should be interpreted as widely as possible.

  The terms and terminology used in the present specification are used to accurately describe the present invention, and are not used to limit the interpretation of the present invention. Moreover, it would be easy for those skilled in the art to infer other configurations, systems, methods, and the like included in the concept of the present invention from the concept of the invention described in this specification. Accordingly, the description of the claims should be regarded as including an equivalent configuration without departing from the technical idea of the present invention. In addition, in order to fully understand the object of the present invention and the effects of the present invention, it is desirable to fully consider the literatures already disclosed.

DESCRIPTION OF SYMBOLS 1 Electrode connector 2 Gripping part 3 Support point 4, 5 Arm 4a, 5a Clamping part 6a, 6b Magnet 7 Operation part 8a, 8b Connector side electrode member 11 Liquid detection sheet 15a, 15b Electrode member

Claims (7)

A gripping part;
A pair of arms that can be opened and closed via a fulcrum;
A clamping part formed on one end side of the arm and capable of clamping;
An urging portion for urging the clamping portion in a closing direction;
An operation portion that is formed on the other end side of the arm and operates to allow the clamping portion to be expanded; and
A connector-side electrode portion provided in the sandwiching portion and in contact with an external electrode portion;
An electrode connector comprising:   The electrode connector according to claim 1, wherein the gripping part has a ring shape in a sectional view in which a part is separated.   The electrode connector according to claim 1, wherein the grip portion is made of an elastic member that is elastically deformed.   The electrode connector according to claim 1, wherein the grip portion is detachably attachable to the needle stick portion.   The operation portion has a predetermined height with respect to a line connecting the sandwiching portion of the one arm and the fulcrum so that one arm rotates with respect to the other arm via the fulcrum. The electrode connector according to claim 1, wherein the electrode connector has a shape.   6. The electrode connector according to claim 1, wherein the external electrode portion is provided on a sheet-like liquid detection sheet attached to the needle stick portion. The liquid detection sheet is provided with an insulating sheet that exhibits electrical conductivity due to the intervention of a resistance member and a liquid, which is connected between a plurality of electrode portions included in the liquid detection sheet,
The resistance member has a resistance value larger than a resistance value when the insulating sheet exhibits conductivity, and the connection of the connector-side electrode unit to the electrode unit included in the liquid detection sheet is released The electrode connector according to claim 6, wherein the electrode connector has a resistance value smaller than a resistance value between the electrode portions.

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