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WO2012060400A1 - Body fluid component measurement device - Google Patents

Body fluid component measurement device Download PDF

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Publication number
WO2012060400A1
WO2012060400A1 PCT/JP2011/075266 JP2011075266W WO2012060400A1 WO 2012060400 A1 WO2012060400 A1 WO 2012060400A1 JP 2011075266 W JP2011075266 W JP 2011075266W WO 2012060400 A1 WO2012060400 A1 WO 2012060400A1
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WO
WIPO (PCT)
Prior art keywords
test tool
test
fluid component
housing
body fluid
Prior art date
Application number
PCT/JP2011/075266
Other languages
French (fr)
Japanese (ja)
Inventor
隆行 杉山
Original Assignee
テルモ株式会社
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 by テルモ株式会社 filed Critical テルモ株式会社
Publication of WO2012060400A1 publication Critical patent/WO2012060400A1/en

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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N27/00Investigating or analysing materials by the use of electric, electrochemical, or magnetic means
    • G01N27/26Investigating or analysing materials by the use of electric, electrochemical, or magnetic means by investigating electrochemical variables; by using electrolysis or electrophoresis
    • G01N27/28Electrolytic cell components
    • G01N27/30Electrodes, e.g. test electrodes; Half-cells
    • G01N27/327Biochemical electrodes, e.g. electrical or mechanical details for in vitro measurements
    • G01N27/3271Amperometric enzyme electrodes for analytes in body fluids, e.g. glucose in blood
    • G01N27/3273Devices therefor, e.g. test element readers, circuitry
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N21/00Investigating or analysing materials by the use of optical means, i.e. using sub-millimetre waves, infrared, visible or ultraviolet light
    • G01N21/75Systems in which material is subjected to a chemical reaction, the progress or the result of the reaction being investigated
    • G01N21/77Systems in which material is subjected to a chemical reaction, the progress or the result of the reaction being investigated by observing the effect on a chemical indicator
    • G01N21/78Systems in which material is subjected to a chemical reaction, the progress or the result of the reaction being investigated by observing the effect on a chemical indicator producing a change of colour
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N21/00Investigating or analysing materials by the use of optical means, i.e. using sub-millimetre waves, infrared, visible or ultraviolet light
    • G01N21/84Systems specially adapted for particular applications
    • G01N21/8483Investigating reagent band

Definitions

  • the present invention relates to a bodily fluid component measuring device that measures the amount and property of a predetermined component in a body fluid such as blood sugar level in blood, and in particular, a part of a housing is made flexible so that the flexibility It is related with the humor component measuring apparatus comprised so that it could discharge
  • the tester himself / herself directly grips the used test piece (test device) by hand, and the test piece is pulled out from the test piece mounting portion where the test piece is mounted and discarded. Therefore, the hand touches the blood adhering to the used test piece, which is not preferable from the viewpoint of hygiene.
  • a measuring device having a discharging mechanism that discharges a test piece without touching it is also provided.
  • the discharging mechanism used in this measuring device uses components such as a spring, a pushing member, and a knob. For this reason, there are problems such as an increase in the number of parts, which is uneconomical.
  • a measuring device for measuring a sample such as a body fluid as described in Patent Document 1, for example.
  • This measuring apparatus is a measuring apparatus that is equipped with a sensor on which a sample is spotted and measures the sample, and is characterized by including a discharge mechanism that discharges the sensor from the measuring apparatus.
  • the purpose of the present invention is to reduce the number of parts such as eject levers and coil springs constituting the mechanism for discharging the test device in the conventional body fluid component measuring apparatus as described above, thereby reducing the manufacturing cost.
  • the purpose is to reduce this.
  • the present invention relates to a body fluid component measuring apparatus including a test device mounting portion on which a test device for measuring a body fluid component is mounted.
  • a test device mounting portion on which a test device for measuring a body fluid component is mounted.
  • a test equipment mounting part which can hold the test tool
  • a part of the housing facing the grip piece and a part of the housing facing the grip piece.
  • a fulcrum portion that contacts the gripping piece.
  • the gripping piece is provided with a flexible input part provided on the base end side from the fulcrum part. By pressing the input part, the gripping piece is rotated around the fulcrum part to release the grip of the test device. It is characterized by doing so.
  • a part of a housing is made flexible so that the test device can be discharged by bending and deforming the housing portion having flexibility. Configured. Thereby, the used test tool can be discharged hygienically and processed without increasing the number of parts.
  • FIG. 2 is a perspective view in which a central portion of the body fluid component measuring device shown in FIG. 1 is longitudinally cut along a longitudinal direction. It is explanatory drawing which expanded the cross section of the principal part of the bodily fluid component measuring apparatus shown in FIG. It is a perspective view which shows the 2nd Example of the bodily fluid component measuring apparatus of this invention.
  • FIG. 5 is a perspective view in which a central portion of the body fluid component measuring device shown in FIG. 4 is longitudinally cut along the longitudinal direction. It is explanatory drawing which expanded the cross section of the principal part of the bodily fluid component measuring apparatus shown in FIG.
  • 1 to 3 are diagrams showing a blood glucose meter 1 according to a first embodiment of a body fluid component measuring apparatus of the present invention.
  • 4 to 8 are views showing a blood glucose meter 100 according to a second embodiment of the body fluid component measuring apparatus of the present invention.
  • 9 to 12 are views showing a blood glucose meter 200 according to a third embodiment of the body fluid component measuring apparatus of the present invention.
  • the present invention is not limited to the blood glucose meter 1, 100, 200 shown in the first to third embodiments.
  • the blood glucose meter 1 shown in FIGS. 1 to 3 is a hospital-use product suitable for use by medical personnel such as doctors and nurses mainly for patients admitted to medical facilities.
  • the blood glucose meter 1 may be used by a patient at home or the like.
  • the blood glucose meter 1 can be used by a doctor, a nurse or the like by holding it like a mobile phone or by placing it on a desk or a medical table.
  • the main function of the blood glucose meter 1 is to measure the blood glucose level in the blood and manage the measurement data.
  • the blood glucose meter 1 has functions such as confirmation of the patient's name and medicine to be administered, and accuracy management of the device. It may be added.
  • the blood glucose meter 1 displays a housing 2 formed of a hollow container, a measurement unit 3 built in the housing 2, input items, confirmation items, measurement results, and the like.
  • the display unit 4 includes a control unit 5 that controls the operation of the measurement unit 3 and the display unit 4, a power supply unit that supplies power to the display unit 4, the control unit 5, and the like.
  • the housing 2 is formed as a rectangular parallelepiped container having an elongated trunk so that a person can hold it with one hand and easily press the operation button of the operation unit.
  • the housing 2 includes a container body 7 having an opening at the back, which is one end face in the longitudinal direction of the rectangular parallelepiped, and a lid 8 that closes the back opening of the container body 7.
  • the lid body 8 is fixed to the container body 7.
  • a material of the housing 2 for example, ABS resin (acrylonitrile / butadiene / styrene resin) or polycarbonate (PC) can be used.
  • PC polycarbonate
  • the present invention is not limited to this, and various engineering plastics having a certain degree of strength and capable of exhibiting appropriate flexibility (bending deformation) can be used.
  • a display unit 4 that displays the blood sugar level calculated by the control unit 5 based on the information measured by the measurement unit 3 is provided.
  • the display unit 4 has an opening window 11 having a rectangular shape penetrating the upper surface of the container body 7 and extending in the longitudinal direction.
  • the opening window 11 has a transparent panel cover having a shape corresponding to the opening window 11. 12 is mounted.
  • a display panel 13 capable of displaying characters, graphics and the like is disposed on the inner surface of the panel cover 12.
  • the display panel 13 is configured by, for example, a liquid crystal display or an organic EL display.
  • the control unit 5 includes a storage device such as a microcomputer, ROM, and RAM, and a wiring board 15 on which a predetermined wiring pattern is formed. And the control part 5 is comprised by mounting a microcomputer and other electronic components in the predetermined position of the wiring board 15. FIG. The control unit 5 executes predetermined arithmetic processing based on a measurement signal supplied from the measurement unit 3 described later and outputs a control signal.
  • the power supply unit includes a battery as a portable power supply, and the operation of the measurement unit 3, the control unit 5 and the like is executed by the power of the battery, and the display of the display unit 4 is controlled. Yes.
  • An operation unit includes a power switch for turning on / off the power, an operation button for inputting an information signal, a command signal, and the like.
  • a barcode reader unit may be provided in the housing 2 so that patient ID information and the like can be read.
  • a test tool mounting portion 17 for mounting a test tool 30 for collecting blood is provided at the front end of the casing 2 in the longitudinal direction.
  • the test tool mounting portion 17 includes a ring-shaped cylindrical portion 18 having a circular cross-section projecting forward from the front surface of the housing 2, and the test tool 30 is detachably mounted to the cylindrical portion 18. Is done.
  • the cylindrical portion 18 is divided into two in the diameter direction by a cutting portion 21 extending in the axial direction.
  • the cutting portion 21 extends from the base end of the cylindrical portion 18 in the longitudinal direction of the container main body 7, and is a slit that is notched linearly to the middle portion of the container main body 7.
  • a grip piece 22 is formed on a part of the container body 7.
  • a portion of the grip piece 22 close to the base end portion of the cutting portion 21 serves as an input unit 23 that is pressed and elastically deformed to displace the grip piece 22.
  • the input unit 23 constitutes a part of the housing 2 and is formed so as to be thin and flexible compared to the portion of the housing 2 other than the input unit 23.
  • the input portion 23 may be formed so as to slightly bulge to the outer surface side, and may be provided so as to be deformed to the inner surface side by being pressed and buckled or reversed.
  • the input unit 23 may be formed of a flexible material different from other parts of the housing 2, for example, polyethylene (PE), polypropylene (PP), ethylene-vinyl acetate copolymer (EVA). ), A styrene-based or olefin-based thermoplastic elastomer, or a composite material thereof.
  • the input unit 23 and the other part of the housing 2 can be integrally formed by two-color molding.
  • a claw portion 24 for gripping the test device 30 is provided, and the claw portion 24 is formed as a semi-cylindrical portion forming the upper half of the cylindrical portion 18.
  • a test device 30 that is detachably attached to the cylindrical portion 18 including the claw portion 24 has a configuration as shown in FIGS. That is, the test tool 30 includes a base portion 31 formed in a disk shape, a nozzle portion 32 formed on one surface of the base portion 31, and a cylindrical shaft portion formed on the other surface of the base portion 31. 33.
  • the outer diameter of the base portion 31 is formed to be approximately the same as the outer diameter of the cylindrical portion 18.
  • the nozzle portion 32 is erected at the center of the base portion 31, and a sampling hole 34 that penetrates in the axial direction and opens on the surface on the cylinder shaft portion 33 side is provided at the center portion.
  • the tip of the nozzle portion 32 is formed in a tapered shape, and a concave groove is provided at the tip for facilitating aspiration of blood, which is a specific example of the body fluid that is a specimen.
  • the cylindrical shaft portion 33 of the test device 30 is formed in a size that fits into the hole of the cylindrical portion 18 and is configured so that the cylindrical portion 18 is closed by the base portion 31. Furthermore, a plurality of engaging claws (four in this embodiment) 35 made of an elastic piece are provided at the tip of the cylindrical shaft portion 33 by providing a notch. By fitting the tube shaft part 33 into the hole of the cylindrical part 18, the test tool 30 is elastically held by the test tool mounting part 17 by the engaging claws 35.
  • the engaging claw 35 is formed as an arc-shaped convex portion that is continuous in the circumferential direction, and a convex portion having a mountain shape for increasing frictional resistance is provided on the outer peripheral surface thereof.
  • the test device 30 is a disposable product and is packaged in a package not shown.
  • the sampling hole 34 of the test device 30 is formed to have a sufficiently small diameter so that blood can be sucked up by capillary action so that the blood in contact with the tip of the nozzle portion 32 can move to the opening on the tube shaft portion 33 side. It has become.
  • a test paper 36 into which blood that has moved through the collection hole 34 is stored is stored in a test paper storage portion formed inside the tube shaft portion 33 of the test tool 30. By irradiating the test paper 36 with predetermined light emitted from the optical measurement unit 40, components in the blood can be measured.
  • test paper 36 examples include polyethersulfone.
  • examples of the reagent pre-impregnated in the test paper 36 include glucose oxidase (GOD), peroxidase (POD), 4-aminoantipyrine, N-ethyl N- (2-hydroxy-3-sulfopropyl) and the like. Mention may be made of color formers.
  • the reagent may contain a predetermined buffer.
  • the optical measuring unit 40 (measuring unit) is a device that irradiates the test paper 36 soaked with blood and receives the reflected light.
  • the optical measuring unit 40 includes a holder 41 attached to the bottom side of the housing 2, and a light emitting element and a light receiving element held by the holder 41.
  • the light emitting element is made of, for example, a light emitting diode
  • the light receiving element is made of, for example, a photodiode.
  • the light emitting element and the light receiving element of the optical measuring unit 40 are held inside a holder 41 having a passage extending to the end face on the test paper 36 side.
  • the light emitted from the light emitting element is applied to the test paper 36 through the passage, and the light reflected by the test paper 36 is guided to the light receiving element, and is photoelectrically converted by the light receiving element. Then, an analog signal corresponding to the amount of received light is output from the light receiving element to the control unit 5.
  • the holder 41 has a block-like base portion 41a and a cylindrical shaft portion 41b formed continuously on the front side of the base portion 41a. An irradiation port 37 for irradiating one test paper 36 with light of two types of wavelengths is opened in the shaft portion 41b.
  • the optical measurement unit 40 is disposed inside the cylindrical portion 18 and the gripping piece 22.
  • a ring-shaped space portion is formed between the shaft portion 41 b of the holder 41 and the cylindrical portion 18.
  • a cylindrical shaft portion 33 of the test device 30 is detachably inserted into a ring-shaped space formed in the cylindrical portion 18.
  • the space portion constitutes a test tool mounting portion 17 that can removably support the test tool (chip) 30.
  • the control unit 5 is provided on the wiring board 15 on the base end side of the holder 41 that holds the optical measurement unit 40.
  • the control unit 5 is electrically connected to the optical measurement unit 40 via a wiring pattern provided on the wiring board 15, and causes the light emitting element of the optical measurement unit 40 to emit light at an appropriate timing and is supplied from the light receiving element.
  • the analog signal is converted into a digital signal by an A / D converter (not shown). Further, the control unit 5 performs a predetermined calculation process based on the digital signal of the amount of received light, and calculates the blood sugar level in the blood. Then, the calculated blood glucose level is displayed on the display panel 13 to inform the measurer.
  • the holder 41 is provided with a fulcrum part 45 for rotating the grip piece 22 in accordance with the pressing operation of the input part 23.
  • the fulcrum part 45 is disposed on the upper surface of the holder 41 at an intermediate position between the claw part 24 of the gripping piece 22 and the input part 23.
  • the fulcrum portion 45 is preferably formed as a convex portion that contacts the inner surface of the gripping piece 22 in a state where the test piece 30 is gripped by the gripping piece 22, and the convex portion is a direction orthogonal to the direction in which the gripping piece 22 extends. It may be formed as a ridge extending in the right direction, or may be a plurality of protrusions formed with appropriate gaps in the orthogonal direction.
  • the fulcrum portion 45 is preferably a dome shape having a semicircular cross section with the upper surface curved in an arc shape in consideration of the rotation of the gripping piece 22 during elastic deformation. It is good also as a shape.
  • a packing is attached to the outer peripheral portion of the holder 41 in the housing 2 and the space between the holder 41 and the control unit 5 is sealed in a liquid-tight manner, so that the specimen, water, etc. Intrusion can be prevented.
  • the blood glucose meter 1 can be wiped clean or washed with water by interposing a packing at the fitting portion between the container body 7 and the lid body 8 and sealing it in a liquid-tight manner.
  • the blood glucose meter 1 having such a configuration can be assembled as follows, for example. Since one end of the container body 7 in the longitudinal direction is opened and the lid 8 is fitted to the opening, the optical measurement unit 40 and the control unit 5 are inserted through the opening. Thereafter, the lid 8 closes the opening and tightens it with a fixing screw, so that it can be easily assembled.
  • FIG. 1 shows a normal use state of the blood glucose meter 1, which is used by grasping the housing 2 so as to be grasped lightly with one hand.
  • the fingertip is punctured with a dedicated puncture device, and a small amount of blood (eg, about 0.3 to 1.5 ⁇ L) is allowed to flow out from the puncture portion onto the skin.
  • a small amount of blood eg, about 0.3 to 1.5 ⁇ L
  • the tip of the nozzle part 32 of the test device 30 attached to the tip of the blood glucose meter 1 is brought into contact with a small amount of blood on the fingertip.
  • blood enters the collection hole 34 of the nozzle portion 32, is sucked by capillary action, flows inward, and reaches the central portion of the test paper 36 accommodated in the tube shaft portion 33.
  • the blood that has reached the test paper 36 soaks into the test paper 36 from its surface and spreads radially outward.
  • the glucose in the blood and the reagent carried on the test paper 36 start to react and color according to the amount of glucose.
  • the blood glucose level can be determined by measuring the color of the colored test paper and measuring the color intensity.
  • the test tool 30 When the test tool 30 is ejected from the test tool mounting portion 17 after the measurement is completed, for example, the casing 2 is grasped with four fingers and palms except for the thumb, and the thumb is aligned with the input unit 23 and the input is performed. The part 23 is pressed.
  • the test instrument mounting part 17 has a gripping piece 22 which is made flexible by providing a cutting part 21 in the container body 7, and an input part 23 is provided at the root of the gripping piece 22. It is comprised so that a root part may be pressed. Further, since a fulcrum portion 45 is provided between the claw portion 24 at the tip and the input portion 23, when the input portion 23 is pressed with a predetermined external force F as shown in FIG. As a result, the gripping piece 22 is elastically deformed into a V shape.
  • the distal end side of the gripping piece 22 is rotated clockwise in FIG.
  • the claw portion 24 holding the upper half of the tube shaft portion 33 of the test device 30 mounted on the test device mounting portion 17 is separated from the tube shaft portion 33 and the test piece 30 is locked by the gripping piece 22. Canceled. Therefore, the test tool 30 is easily detached from the test tool mounting portion 17. Therefore, the test device 30 is easily detached from the test device mounting portion 17 by turning the blood glucose meter 1 downward with the test device 30 facing downward, or by lightly shaking the test device 30 by its own weight or vertically. Can be disposed of in a waste container.
  • the operator who operates the blood glucose meter 1 can separate the test device 30 from the blood glucose meter 1 and discard it by one-hand operation while holding the blood glucose meter 1 with one hand. Accordingly, the disposal of the test tool 30 can be performed hygienically and easily without touching the test tool 30.
  • FIGS. 4 to 8 are views showing a blood glucose meter 100 according to a second embodiment of the present invention.
  • This blood glucose meter 100 is provided with a test tool discharge mechanism 120 that automatically releases the test tool 130 at the same time as releasing the grip of the test tool (test piece) 130 by bending and deforming a part of the housing 102. It is.
  • the blood glucose meter 100 shown in this embodiment is different from the blood glucose meter 1 shown in the first embodiment, and measures the blood glucose level by electrochemical means. That is, the blood glucose meter 100 is equipped with an electrochemical sensor for measuring components in the blood, and can measure the blood glucose level based on the current value obtained from the reaction between the collected blood component and the reagent. It is a component measuring device.
  • the blood glucose meter 100 includes a casing 102 having a lower case 107 and an upper case 108.
  • the lower case 107 is a shallow container having a substantially rectangular shape opened on the upper surface, and a hook-like portion 109 protruding in the longitudinal direction is provided at the center of the front surface, which is one surface of the lower case 107 in the longitudinal direction. It has been.
  • An upper case 108 having a flat plate shape is superimposed on the lower case 107.
  • the upper case 108 is fixed to the lower case 107 by a fixing screw (not shown).
  • the hook-shaped portion 109 of the lower case 107 is a convex portion having a U-shaped cross-section and opened upward, and the upper surface opening portion projects into a tongue-like shape provided in the upper case 108 and has flexibility. It is closed by the gripping piece 122.
  • the gripping piece 122 is given flexibility by making a part of the base part thinner than the other part to weaken the strength.
  • a claw portion 124 that presses and fixes a portion close to the base end of the test tool (test piece) 130 is provided at the tip of the grip piece 122.
  • a thin portion provided at the base portion of the grip piece 122 serves as an input unit 123 for bending and deforming the grip piece 122. Note that the input unit 123 may be formed by integral molding using a member having flexibility different from that of other parts of the gripping piece 122.
  • fulcrum portions 145 and 145 including two protrusions are provided on the inner surface of the hook-shaped portion 109.
  • the two fulcrum portions 145 and 145 are arranged at a substantially intermediate portion in the longitudinal direction of the bowl-shaped portion 109 with a predetermined gap in the width direction intersecting with the longitudinal direction.
  • the upper end part of each fulcrum part 145 is formed as a circular-arc-shaped curved-surface part in order to make the bending deformation of the holding piece 122 easy.
  • a front end portion 109a having a rectangular entrance / exit 146 through which the test tool 130 is detachably inserted is provided at the central portion at the distal end portion in the longitudinal direction of the bowl-shaped portion 109.
  • the height of the front surface portion 109 a of the bowl-shaped portion 109 is set to the same height as the height of the fulcrum portion 145.
  • the lower surface of the gripping piece 122 abuts only the upper end surfaces on both sides of the front surface portion 109a and the two fulcrum portions 145 and 145, thereby opening the upper surface of the hook-shaped portion 109. It is comprised so that a part may be closed.
  • the claw portion 124 provided at the tip of the grip piece 122 is engaged with the entrance / exit 146 provided in the front surface portion 109 a of the hook-shaped portion 109, and the claw portion 124 causes the test tool 130 to be placed on the bottom surface of the hook-shaped portion 109. Grab as if pressing.
  • a guide groove 147 for guiding the test tool 130 is provided on the bottom surface of the bowl-shaped portion 109 continuously from the entrance / exit 146.
  • the guide groove 147 has the same width as the width of the test tool 130.
  • the measuring portion 103 is disposed inside the guide groove 147 inside the hook-shaped portion 109.
  • the measurement unit 103 includes a terminal block 150 having a plurality of conductive terminals 151 at the tip.
  • the terminal block 150 has a T-shaped planar shape, and is fixed to the hook-shaped portion 109 in a state where the protruding portion from which the conductive terminal 151 protrudes extends in the longitudinal direction of the hook-shaped portion 109. .
  • Two fulcrum portions 145 and 145 are arranged on both sides of the tip of the terminal block 150 with a predetermined gap.
  • the tips of the plurality of conductive terminals 151 are formed to be bent 180 degrees downward, and are configured so that the tips of the test tool 130 inserted from the entrance / exit 146 can be easily inserted.
  • the plurality of conductive terminals 151 can be elastically contacted with the base end portion of the test tool 130, and the distal end portion of the test tool 130 is inserted under the plurality of conductive terminals 151, whereby the electrode terminals of the test tool 130 are provided.
  • each conductive terminal 151 is electrically connected.
  • One end of the cable line 152 is connected to the terminal block 150, and the other end of the cable line 152 is connected to the connector 154 of the control unit 105.
  • Each conductive terminal 151 is biased toward the hook-shaped portion 109 and has a function of sandwiching and gripping the test tool 130 with the hook-shaped portion 109.
  • the connector 154 is mounted on a control unit wiring board (hereinafter referred to as a “wiring board”) 155 housed in the housing 102, and is provided on the wiring board 155.
  • the wiring pattern is electrically connected.
  • a display panel 113 forming a display unit is disposed above the wiring substrate 155.
  • the display panel 113 is integrally formed by being joined to the inner surface of the panel cover 112 attached to the opening window 111 provided in the upper case 108.
  • the control unit 105 includes a storage device such as a microcomputer, a ROM, and a RAM, and a predetermined wiring pattern, and is provided on the wiring board 155.
  • the control unit 105 is configured by mounting a microcomputer and other electronic components at predetermined positions on the wiring board 155.
  • the control unit 105 and the measurement unit 103 are electrically connected, and based on the measurement signal supplied from the measurement unit 103, the control unit 105 executes a predetermined calculation process and outputs a predetermined control signal.
  • the upper case 108 is provided with a power switch 114a and an operation button 114b of the operation unit 114.
  • a leaf spring 160 showing a specific example of a test tool push-out mechanism that pushes the test tool 130 outward from the entrance / exit 146 is provided inside the bowl-shaped portion 109.
  • the plate spring 160 is formed as a rectangular frame-shaped plate material.
  • a pressing portion 160a that abuts the test tool 130 and presses the test tool 130 is provided.
  • the pressing portion 160 a is provided with a notch portion 161 for avoiding contact with the conductive terminal 151. This notch portion 161 prevents the pressing portion 160 a from coming into contact with the plurality of conductive terminals 151 even when the test tool 130 is pushed out by the leaf spring 160.
  • the leaf spring 160 is formed in a crank shape as a whole by providing a mountain fold 160b and a valley fold 160c by bending two longitudinal portions in the plate thickness direction.
  • the leaf spring 160 has a mountain fold 160b provided on the side opposite to the pressing portion 160a and a valley fold 160c provided on the pressing portion 160a side.
  • the leaf spring 160 is attached to the terminal block 150 so that the end on the valley fold 160 c side faces the guide groove 147 and the end on the mountain fold 160 b is placed on the upper surface of the terminal block 150.
  • the convex portion side of the terminal block 150 is fitted into a central square hole provided in the leaf spring 160, thereby restricting the movement of the leaf spring 160 in the width direction and allowing forward and backward movement only in the longitudinal direction. I have to.
  • the blood glucose meter 100 having such a configuration can be assembled as follows, for example. First, the control unit 105 is assembled by attaching the wiring board 155 and the like to the lower case 107. Next, the terminal block 150 is attached to a predetermined position of the hook-shaped portion 109, and then the leaf spring 160 is attached to the terminal block 150. Then, the wiring board 155 and the terminal block 150 are electrically connected by the cable line 152.
  • the blood glucose meter 100 having such a configuration can be used as follows, for example. First, the test device 130 is attached to the test device mounting portion 117 of the blood glucose meter 100. That is, one end of the test device 130 is inserted into the entrance / exit 146 of the blood glucose meter 100, and the base end portion of the test device 130 is inserted under the conductive terminal 151 as shown in FIGS. Thereby, the blood glucose level can be measured.
  • blood to be measured is supplied to the blood collection unit 131 provided at the tip of the test device 130.
  • the blood travels through the capillary passage of the test device 130 and moves to the reagent installing portion where the reagent is provided, and a signal corresponding to the amount of glucose is output by the enzyme reaction, and the control unit 105 calculates the blood glucose level based on the signal.
  • the blood glucose level is displayed on the display panel 113.
  • the casing 102 is gripped by four fingers and the palm excluding the thumb, and the thumb is aligned with the input unit 123 and the input is performed.
  • the part 23 is pressed.
  • the grip piece 122 of the housing 102 changes from the state shown in FIG. 7 to the state shown in FIG. 8, so that the test tool 130 can be automatically discharged from the test tool mounting portion 117 to the outside.
  • the claw portion 124 provided at the tip of the grip piece 122 is rotated outward so as to open the entrance / exit 146, and the force pressing the test tool 130 against the guide groove 147 is released.
  • the leaf spring 160 is elastically deformed so that the mountain fold 160b is straight.
  • the pressing portion 160a slides toward the entrance / exit 146 as much as the leaf spring 160 becomes longer in the longitudinal direction, and pushes out the test tool 130.
  • the base end portion of the test device 130 is detached from the conductive terminal 151 and the holding force by the conductive terminal 151 is also released.
  • the test tool 130 becomes free and is automatically ejected by being pushed out by the leaf spring 160.
  • the external force applied to the input unit 123 is released, so that the housing 102 is returned to the original state by the restoring force of the gripping piece 122 and the spring force of the leaf spring 160.
  • the test tool 130 is pushed out using the leaf spring 160.
  • the leaf spring 160 is not provided, if the pressing force of the conductive terminal 151 to the test tool 130 is set to be sufficiently weak, when the holding of the gripping piece 122 by the claw portion 124 is released, the holding weight 122 is turned downward to reduce its own weight. Thus, the test tool 130 can be detached.
  • FIGS. 9 to 12 are diagrams showing a blood glucose meter 200 according to a third embodiment of the present invention.
  • the partial structure of the blood glucose meter 100 according to the second embodiment is changed, and the conductive terminal 251 is elastically deformed by the gripping piece 122 to hold the test device 130. In this configuration, the holding force of the terminal 251 is released.
  • the blood glucose meter 200 according to the third embodiment is different from the blood glucose meter 100 in that the leaf spring 160 is not used and the tip end side of the conductive terminal 251 is locked to the claw portion 124. Therefore, in the blood glucose meter 200, the same parts as those in the second embodiment are denoted by the same reference numerals, and the duplicate description is omitted.
  • the conductive terminal 251 includes a contact part 251 a that is in contact with the test tool 130, a fixed part 251 b that is continuous on one side of the contact part 251 a, and the other side of the contact part 251 a. And a continuous locking portion 251c.
  • the contact portion 251a is formed in a U-shape that protrudes downward.
  • the fixing portion 251b extends in the horizontal direction and is fixed to the terminal block 150.
  • the locking portion 251c is formed in an L shape, is fixed to the back side of the claw portion 124 with a vertical portion raised upward, and follows the rotation of the claw portion 124.
  • Other configurations are the same as those in the above-described embodiment.
  • the casing 102 When the test tool 130 is ejected from the test tool mounting portion 117 after the measurement is completed, for example, the casing 102 is gripped by four fingers and the palm excluding the thumb, and the thumb is aligned with the input unit 123 and the input is performed. The part 23 is pressed. Thereby, since the grip piece 122 of the housing
  • FIG. 11 shows a state in which the test tool 130 is inserted from the entrance / exit 146 and is mounted on the test tool mounting portion 117. At this time, when the test tool 130 is inserted to a predetermined position in the guide groove 147, the contact portions 251 a of the plurality of conductive terminals 251 are pressed against the upper surface of the base end portion of the test tool 130. At this time, the test device 130 is pressed by the claw portion 124 of the grip piece 122.
  • the claw portion 124 provided at the tip of the grip piece 122 is rotated outward so as to open the entrance / exit 146, and the force pressing the test tool 130 against the guide groove 147 is released.
  • the engaging portion 251c of the conductive terminal 251 fixed to the back surface of the claw portion 124 is pulled upward.
  • the entire conductive terminal 251 is lifted, and the contact portion 251 a is pulled away from the test tool 130.
  • the holding force for holding the test tool 130 is released, the test tool 130 becomes free. Therefore, by changing the posture of the blood glucose meter 100 so that the entrance / exit 146 faces downward, the test device 130 can be dropped and discharged by its own weight.
  • the external force applied to the input unit 123 is released, so that the casing 102 returns to the original state by the restoring force of the gripping piece 122 and the spring force of the conductive terminal 251.
  • the test tool can be discharged by giving flexibility to a part of the housing and bending and deforming the flexible part. Therefore, in the conventional apparatus, the number of parts of the discharging member such as a knob is large, but the number of parts can be reduced, and the test tool after measurement can be discharged hygienically.
  • the body fluid component measuring device of the present invention is not limited to the above-described embodiment, and various modifications and changes can be made in the configuration, shape, material, and the like without departing from the configuration of the present invention. It goes without saying that it is possible.
  • blood has been described as a body fluid.
  • the present invention is not limited to this, and may be lymph fluid, spinal fluid, saliva, or the like.
  • glucose blood glucose level
  • glucose blood glucose level
  • examples thereof include cholesterol, uric acid, creatinine, lactic acid, hemoglobin (occult blood).
  • cholesterol may be various alcohols, various sugars, various proteins, various vitamins, various inorganic ions such as sodium, and environmental hormones such as PCB and dioxin.
  • the description has been made on the assumption that the amount of the predetermined component is measured.
  • the property of the predetermined component may be measured, and both the amount and the property of the predetermined component are measured. It may be.

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Abstract

To provide a mechanism for discharging a test tool, parts such as an eject lever and a coil spring are necessary, and therefore the number of parts and the number of assembly processes are increased, which is uneconomical. A body fluid component measurement device (1) has a holding piece (22) that is provided as a part of a casing (2), forms a part of a test tool mounting portion (17), and is capable of holding a test tool (30) and a support point portion (45) that is provided on a part of the casing (2) which is opposed to the holding piece (22) and that is in contact with the holding piece (22). Further, the holding piece (22) is provided with an input portion (23) having flexibility which is provided on the side closer to a base end than the support point portion (45), and by pressing the input portion (23), the holding piece (22) is pivoted about the support point portion (45), thereby releasing the holding of the test tool (30).

Description

体液成分測定装置Body fluid component measuring device
 本発明は、例えば、血液中の血糖値のような体液中の所定成分の量や性質を測定する体液成分測定装置に関し、特に、筐体の一部に可撓性を持たせ、可撓性を有する筐体部を撓み変形させることにより試験具を手で触れずに排出できるように構成した体液成分測定装置に関する。 The present invention relates to a bodily fluid component measuring device that measures the amount and property of a predetermined component in a body fluid such as blood sugar level in blood, and in particular, a part of a housing is made flexible so that the flexibility It is related with the humor component measuring apparatus comprised so that it could discharge | emit without touching a test tool by bending and deform | transforming the housing | casing part which has this.
 体液中の所定成分を検出し、その所定成分の量や性質を測定するために、種々の体液成分測定装置が用いられている。このような体液成分測定装置の例として、例えば、血液中のブドウ糖濃度を測定する血糖計を挙げることができる。
 近年、安全意識の高まりから血液に接触することなく使用済の試験具を廃棄できる血糖計の需要が高まっている。
In order to detect a predetermined component in a body fluid and measure the amount and property of the predetermined component, various body fluid component measuring devices are used. As an example of such a body fluid component measuring device, for example, a blood glucose meter that measures glucose concentration in blood can be cited.
In recent years, there has been an increasing demand for blood glucose meters that can dispose of used test devices without coming into contact with blood due to increased safety awareness.
 従来の血糖計は、使用後の試験片(試験具)を測定者自らが手で直接把持し、試験片を装着する試験片装着部から引き抜いて廃棄していた。そのため、使用済の試験片に付着している血液に手が触れてしまうことから、衛生面の点から好ましいものではなかった。また、試験片を手で触れずに排出する排出機構を有する測定装置も提供されているが、この測定装置に使用されている排出機構は、ばねや押し出し部材、つまみ等の部品を用いているため、部品点数が多くなって不経済である等の問題があった。 In the conventional blood glucose meter, the tester himself / herself directly grips the used test piece (test device) by hand, and the test piece is pulled out from the test piece mounting portion where the test piece is mounted and discarded. Therefore, the hand touches the blood adhering to the used test piece, which is not preferable from the viewpoint of hygiene. A measuring device having a discharging mechanism that discharges a test piece without touching it is also provided. However, the discharging mechanism used in this measuring device uses components such as a spring, a pushing member, and a knob. For this reason, there are problems such as an increase in the number of parts, which is uneconomical.
 従来の体液成分測定装置の例として、例えば、特許文献1に記載されているような、体液等の試料を測定する測定装置がある。この測定装置は、試料が点着されるセンサが装着され、該試料の測定を行う測定装置であって、センサを測定装置から排出する排出機構を備えた、ことを特徴としている。 As an example of a conventional body fluid component measuring device, there is a measuring device for measuring a sample such as a body fluid as described in Patent Document 1, for example. This measuring apparatus is a measuring apparatus that is equipped with a sensor on which a sample is spotted and measures the sample, and is characterized by including a discharge mechanism that discharges the sensor from the measuring apparatus.
特開2003-114213号公報JP 2003-114213 A
 しかしながら、前述した従来例の場合には、スライドツマミや樹脂ばね等が用いられており、同じく部品点数が多くなって、コスト的に不利であった。 However, in the case of the conventional example described above, slide knobs, resin springs, and the like are used, and the number of parts is also increased, which is disadvantageous in terms of cost.
 本発明の目的は、前述したような従来の体液成分測定装置において、試験具を排出するための機構を構成するイジェクトレバーやコイルばね等の部品点数を減らし、組立工数を減らすことで、製造コストの低減を図ることにある。 The purpose of the present invention is to reduce the number of parts such as eject levers and coil springs constituting the mechanism for discharging the test device in the conventional body fluid component measuring apparatus as described above, thereby reducing the manufacturing cost. The purpose is to reduce this.
 本発明は、体液成分を測定するための試験具が装着される試験具装着部を備える体液成分測定装置に関する。体液成分測定装置の筐体の一部として設けられ、かつ、試験具装着部の一部を構成する、試験具を把持可能な把持片と、その把持片と対向する筐体の部分に設けられ、把持片に当接する支点部とを有する。把持片は、支点部より基端側に設けられた可撓性を有する入力部を備え、その入力部を押圧することにより支点部を中心として把持片を回動させて試験具の把持を解除するようにしたことを特徴としている。 The present invention relates to a body fluid component measuring apparatus including a test device mounting portion on which a test device for measuring a body fluid component is mounted. Provided as a part of the housing of the body fluid component measuring device and which constitutes a part of the test equipment mounting part, which can hold the test tool, and a part of the housing facing the grip piece. And a fulcrum portion that contacts the gripping piece. The gripping piece is provided with a flexible input part provided on the base end side from the fulcrum part. By pressing the input part, the gripping piece is rotated around the fulcrum part to release the grip of the test device. It is characterized by doing so.
 本発明によれば、血糖計等の体液成分測定装置において、筐体の一部に可撓性を持たせ、可撓性を有する筐体部を撓み変形させることにより試験具を排出できるように構成した。これにより、部品点数を増加することなく、使用後の試験具を衛生的に排出して処理することができる。 According to the present invention, in a body fluid component measurement device such as a blood glucose meter, a part of a housing is made flexible so that the test device can be discharged by bending and deforming the housing portion having flexibility. Configured. Thereby, the used test tool can be discharged hygienically and processed without increasing the number of parts.
本発明の体液成分測定装置の第1の実施例を示す斜視図である。It is a perspective view which shows the 1st Example of the bodily fluid component measuring apparatus of this invention. 図1に示す体液成分測定装置の中央部分を長手方向に沿って縦方向に断面した斜視図である。FIG. 2 is a perspective view in which a central portion of the body fluid component measuring device shown in FIG. 1 is longitudinally cut along a longitudinal direction. 図1に示す体液成分測定装置の要部を断面して拡大した説明図である。It is explanatory drawing which expanded the cross section of the principal part of the bodily fluid component measuring apparatus shown in FIG. 本発明の体液成分測定装置の第2の実施例を示す斜視図である。It is a perspective view which shows the 2nd Example of the bodily fluid component measuring apparatus of this invention. 図4に示す体液成分測定装置の中央部分を長手方向に沿って縦方向に断面した斜視図である。FIG. 5 is a perspective view in which a central portion of the body fluid component measuring device shown in FIG. 4 is longitudinally cut along the longitudinal direction. 図4に示す体液成分測定装置の要部を断面して拡大した説明図である。It is explanatory drawing which expanded the cross section of the principal part of the bodily fluid component measuring apparatus shown in FIG. 図4に示す体液成分測定装置による試験具(試験片)の排出前の状態を示す説明図である。It is explanatory drawing which shows the state before discharge | emission of the test device (test piece) by the bodily fluid component measuring apparatus shown in FIG. 図4に示す体液成分測定装置による試験具の排出時の状態を示す説明図である。It is explanatory drawing which shows the state at the time of discharge | emission of the test device by the bodily fluid component measuring apparatus shown in FIG. 本発明の体液成分測定装置の第3の実施例を示すもので、中央部分を長手方向に沿って縦方向に断面した斜視図である。The 3rd Example of the bodily fluid component measuring apparatus of this invention is shown, and it is the perspective view which cut the center part in the vertical direction along the longitudinal direction. 図9に示す体液成分測定装置の要部を断面して拡大した説明図である。It is explanatory drawing which expanded the cross section of the principal part of the bodily fluid component measuring apparatus shown in FIG. 図9に示す体液成分測定装置による試験具の排出前の状態を示す説明図である。It is explanatory drawing which shows the state before discharge | emission of the test device by the bodily fluid component measuring apparatus shown in FIG. 図9に示す体液成分測定装置による試験具の排出時の状態を示す説明図である。It is explanatory drawing which shows the state at the time of discharge | emission of the test device by the bodily fluid component measuring apparatus shown in FIG.
 以下、本発明の体液成分測定装置を実施する形態の例について、図面を参照して説明する。図1~図3は、本発明の体液成分測定装置の第1の実施例に係る血糖計1を示す図である。また、図4~図8は、本発明の体液成分測定装置の第2の実施例に係る血糖計100を示す図である。更に、図9~図12は、本発明の体液成分測定装置の第3の実施例に係る血糖計200を示す図である。なお、本発明は、この第1~第3の実施例に示した血糖計1、100、200に限定されるものではない。 Hereinafter, an example of a mode for carrying out the body fluid component measurement device of the present invention will be described with reference to the drawings. 1 to 3 are diagrams showing a blood glucose meter 1 according to a first embodiment of a body fluid component measuring apparatus of the present invention. 4 to 8 are views showing a blood glucose meter 100 according to a second embodiment of the body fluid component measuring apparatus of the present invention. 9 to 12 are views showing a blood glucose meter 200 according to a third embodiment of the body fluid component measuring apparatus of the present invention. The present invention is not limited to the blood glucose meter 1, 100, 200 shown in the first to third embodiments.
 図1~図3に示す血糖計1は、主に、医療施設に入院している患者に対して医師や看護師等の医療従事者が使用するのに好適な院内用途品である。しかしながら、血糖計1は、患者が、家庭等において自己使用するものであっても良いことは勿論である。この血糖計1は、医師や看護師等が、携帯電話のように手に持って操作したり、机や診療台等に載置して使用することができる。この血糖計1の主な機能は、血液中の血糖値を測定し、測定データの管理を行うことであるが、更に、患者の氏名や投与する薬剤の確認、装置の精度管理等の機能が付加されていてもよい。 The blood glucose meter 1 shown in FIGS. 1 to 3 is a hospital-use product suitable for use by medical personnel such as doctors and nurses mainly for patients admitted to medical facilities. However, it goes without saying that the blood glucose meter 1 may be used by a patient at home or the like. The blood glucose meter 1 can be used by a doctor, a nurse or the like by holding it like a mobile phone or by placing it on a desk or a medical table. The main function of the blood glucose meter 1 is to measure the blood glucose level in the blood and manage the measurement data. In addition, the blood glucose meter 1 has functions such as confirmation of the patient's name and medicine to be administered, and accuracy management of the device. It may be added.
 図1及び図2に示すように、血糖計1は、中空の容器からなる筐体2と、その筐体2に内蔵された測定部3と、入力事項や確認事項、測定結果等を表示する表示部4と、測定部3や表示部4の動作を制御する制御部5と、表示部4や制御部5等に電力を供給する電源部等を備えて構成されている。 As shown in FIGS. 1 and 2, the blood glucose meter 1 displays a housing 2 formed of a hollow container, a measurement unit 3 built in the housing 2, input items, confirmation items, measurement results, and the like. The display unit 4 includes a control unit 5 that controls the operation of the measurement unit 3 and the display unit 4, a power supply unit that supplies power to the display unit 4, the control unit 5, and the like.
 筐体2は、人が片手で持って操作部の操作ボタンを容易に押圧操作することができるように細長の胴部を有する直方体の容器として形成されている。この筐体2は、直方体の長手方向の一方の端面である背面を開口させた容器本体7と、この容器本体7の背面開口部を閉じる蓋体8とを有しており、図示しない固定ねじによって蓋体8が容器本体7に固定されている。筐体2の材質としては、例えば、ABS樹脂(アクリロニトリル・ブタジエン・スチレン樹脂)やポリカーボネート(PC)を用いることができる。しかし、これに限定されるものではなく、ある程度の強度を有し且つ適度な可撓性(撓み変形)を発揮し得る各種のエンジニアリングプラスチックを用いることができる。 The housing 2 is formed as a rectangular parallelepiped container having an elongated trunk so that a person can hold it with one hand and easily press the operation button of the operation unit. The housing 2 includes a container body 7 having an opening at the back, which is one end face in the longitudinal direction of the rectangular parallelepiped, and a lid 8 that closes the back opening of the container body 7. Thus, the lid body 8 is fixed to the container body 7. As a material of the housing 2, for example, ABS resin (acrylonitrile / butadiene / styrene resin) or polycarbonate (PC) can be used. However, the present invention is not limited to this, and various engineering plastics having a certain degree of strength and capable of exhibiting appropriate flexibility (bending deformation) can be used.
 筐体2の上面の背面側に、測定部3によって測定された情報に基づいて制御部5で算出された血糖値等を表示する表示部4が設けられている。表示部4は、容器本体7の上面を貫通すると共に長手方向に延在された長方形をなす開口窓11を有しており、その開口窓11には、これに見合う形状を有する透明なパネルカバー12が装着されている。このパネルカバー12の内面に、文字や図形等を表示可能な表示パネル13が配設されている。表示パネル13は、例えば、液晶ディスプレイや有機ELディスプレイ等よって構成されている。 On the back side of the upper surface of the housing 2, a display unit 4 that displays the blood sugar level calculated by the control unit 5 based on the information measured by the measurement unit 3 is provided. The display unit 4 has an opening window 11 having a rectangular shape penetrating the upper surface of the container body 7 and extending in the longitudinal direction. The opening window 11 has a transparent panel cover having a shape corresponding to the opening window 11. 12 is mounted. A display panel 13 capable of displaying characters, graphics and the like is disposed on the inner surface of the panel cover 12. The display panel 13 is configured by, for example, a liquid crystal display or an organic EL display.
 制御部5は、マイクロコンピュータやROM,RAM等の記憶装置や、所定の配線パターンが形成された配線基板15を備えて構成されている。そして、配線基板15の所定位置にマイクロコンピュータその他の電子部品を実装することによって制御部5が構成されている。この制御部5は、後述する測定部3から供給される測定信号に基づき所定の演算処理を実行して制御信号を出力する。 The control unit 5 includes a storage device such as a microcomputer, ROM, and RAM, and a wiring board 15 on which a predetermined wiring pattern is formed. And the control part 5 is comprised by mounting a microcomputer and other electronic components in the predetermined position of the wiring board 15. FIG. The control unit 5 executes predetermined arithmetic processing based on a measurement signal supplied from the measurement unit 3 described later and outputs a control signal.
 図示しない電源部は、携帯用電源としての電池を備えており、この電池の電力によって測定部3や制御部5等の動作が実行され、表示部4の表示等が制御されるようになっている。図示しない操作部は、電源をオン・オフさせる電源スイッチや、情報信号や指令信号等を入力する操作ボタン等によって構成される。なお、筐体2にバーコードリーダーユニットを設け、患者のID情報等を読み取り可能に構成してもよい。 The power supply unit (not shown) includes a battery as a portable power supply, and the operation of the measurement unit 3, the control unit 5 and the like is executed by the power of the battery, and the display of the display unit 4 is controlled. Yes. An operation unit (not shown) includes a power switch for turning on / off the power, an operation button for inputting an information signal, a command signal, and the like. Note that a barcode reader unit may be provided in the housing 2 so that patient ID information and the like can be read.
 また、筐体2の長手方向の先端部に、血液を採取する試験具30が装着されるための試験具装着部17が設けられている。試験具装着部17は、筐体2の前面から前方に突出する断面形状が円形をなすリング状の円筒部18を有しており、この円筒部18に対して試験具30が着脱可能に装着される。円筒部18は、軸方向に延在された切断部21によって直径方向へ2分割されている。切断部21は、円筒部18の基端から続けて容器本体7の長手方向に延在され、容器本体7の中途部まで直線状に切り欠いたすり割りとなっている。この切断部21を設けたことにより、容器本体7の一部に、把持片22が形成されている。 In addition, a test tool mounting portion 17 for mounting a test tool 30 for collecting blood is provided at the front end of the casing 2 in the longitudinal direction. The test tool mounting portion 17 includes a ring-shaped cylindrical portion 18 having a circular cross-section projecting forward from the front surface of the housing 2, and the test tool 30 is detachably mounted to the cylindrical portion 18. Is done. The cylindrical portion 18 is divided into two in the diameter direction by a cutting portion 21 extending in the axial direction. The cutting portion 21 extends from the base end of the cylindrical portion 18 in the longitudinal direction of the container main body 7, and is a slit that is notched linearly to the middle portion of the container main body 7. By providing this cutting part 21, a grip piece 22 is formed on a part of the container body 7.
 この把持片22における、切断部21の基端部に近い部分が、押圧されて弾性変形することによって把持片22を変位させる入力部23とされている。入力部23は筐体2の一部を構成しており、入力部23以外の筐体2の部分に比べて薄く、可撓性を有するように形成されている。この入力部23は、外面側にわずかに膨出するように形成され、押圧することで内面側に変形し、座屈或いは反転するように設けられていてもよい。また、入力部23は、筐体2の他の部分とは異なる柔軟な材料で形成されていてもよく、例えば、ポリエチレン(PE)、ポリプロピレン(PP)、エチレン-酢酸ビニル-共重合体(EVA)等の軟質樹脂材料、スチレン系やオレフィン系の熱可塑性エラストマ、或いは、それらの複合材料が適用される。この場合、入力部23と筐体2の他の部分とは2色成形によって一体的に形成することができる。 A portion of the grip piece 22 close to the base end portion of the cutting portion 21 serves as an input unit 23 that is pressed and elastically deformed to displace the grip piece 22. The input unit 23 constitutes a part of the housing 2 and is formed so as to be thin and flexible compared to the portion of the housing 2 other than the input unit 23. The input portion 23 may be formed so as to slightly bulge to the outer surface side, and may be provided so as to be deformed to the inner surface side by being pressed and buckled or reversed. Further, the input unit 23 may be formed of a flexible material different from other parts of the housing 2, for example, polyethylene (PE), polypropylene (PP), ethylene-vinyl acetate copolymer (EVA). ), A styrene-based or olefin-based thermoplastic elastomer, or a composite material thereof. In this case, the input unit 23 and the other part of the housing 2 can be integrally formed by two-color molding.
 把持片22の先端には、試験具30を把持するための爪部24が設けられ、爪部24は円筒部18の上半分をなす半円筒状の部分として形成されている。この爪部24を含む円筒部18に対して着脱可能に装着される試験具30は、図1~図3に示すような構成を有している。即ち、試験具30は、円板状に形成されたベース部31と、このベース部31の一方の面に形成されたノズル部32と、ベース部31の他方の面に形成された筒軸部33とからなっている。ベース部31の外径は、円筒部18の外径と略同じ寸法に形成されている。また、ノズル部32は、ベース部31の中央に立設されており、その中心部には軸方向へ貫通して筒軸部33側の面に開口する採取孔34が設けられている。ノズル部32の先端部は先細に形成されており、その先端には、検体である体液の一具体例を示す血液を吸引し易くするための凹溝が設けられている。 At the tip of the gripping piece 22, a claw portion 24 for gripping the test device 30 is provided, and the claw portion 24 is formed as a semi-cylindrical portion forming the upper half of the cylindrical portion 18. A test device 30 that is detachably attached to the cylindrical portion 18 including the claw portion 24 has a configuration as shown in FIGS. That is, the test tool 30 includes a base portion 31 formed in a disk shape, a nozzle portion 32 formed on one surface of the base portion 31, and a cylindrical shaft portion formed on the other surface of the base portion 31. 33. The outer diameter of the base portion 31 is formed to be approximately the same as the outer diameter of the cylindrical portion 18. The nozzle portion 32 is erected at the center of the base portion 31, and a sampling hole 34 that penetrates in the axial direction and opens on the surface on the cylinder shaft portion 33 side is provided at the center portion. The tip of the nozzle portion 32 is formed in a tapered shape, and a concave groove is provided at the tip for facilitating aspiration of blood, which is a specific example of the body fluid that is a specimen.
 試験具30の筒軸部33は、円筒部18の穴に嵌り合う大きさに形成されていると共に、ベース部31によって円筒部18が閉じられるように構成されている。更に、筒軸部33の先端部には、切欠きを設けることによって弾性片からなる複数の係合爪(本実施例では4個)35が設けられている。この筒軸部33を円筒部18の穴に嵌合することにより、係合爪35によって試験具30が試験具装着部17に弾性的に保持される。係合爪35は、周方向に連続する円弧状の凸部として形成されており、その外周面には、摩擦抵抗を高めるための山形状をなす凸部が設けられている。 The cylindrical shaft portion 33 of the test device 30 is formed in a size that fits into the hole of the cylindrical portion 18 and is configured so that the cylindrical portion 18 is closed by the base portion 31. Furthermore, a plurality of engaging claws (four in this embodiment) 35 made of an elastic piece are provided at the tip of the cylindrical shaft portion 33 by providing a notch. By fitting the tube shaft part 33 into the hole of the cylindrical part 18, the test tool 30 is elastically held by the test tool mounting part 17 by the engaging claws 35. The engaging claw 35 is formed as an arc-shaped convex portion that is continuous in the circumferential direction, and a convex portion having a mountain shape for increasing frictional resistance is provided on the outer peripheral surface thereof.
 試験具30は、ディスポーザブル品であり、図示しない包装体に包装されている。試験具30の採取孔34は、血液を毛管現象によって吸い上げる程度に十分に細径に形成されており、ノズル部32の先端に接触した血液が筒軸部33側の開口部まで移動し得るようになっている。この試験具30の筒軸部33の内側に形成された試験紙収納部に、採取孔34を移動してきた血液が染み込む試験紙36が収納されている。この試験紙36に、光学測定部40から放射される所定の光を照射することにより、血液中の成分を測定することができる。 The test device 30 is a disposable product and is packaged in a package not shown. The sampling hole 34 of the test device 30 is formed to have a sufficiently small diameter so that blood can be sucked up by capillary action so that the blood in contact with the tip of the nozzle portion 32 can move to the opening on the tube shaft portion 33 side. It has become. A test paper 36 into which blood that has moved through the collection hole 34 is stored is stored in a test paper storage portion formed inside the tube shaft portion 33 of the test tool 30. By irradiating the test paper 36 with predetermined light emitted from the optical measurement unit 40, components in the blood can be measured.
 試験紙36の材質としては、例えば、ポリエーテルスルホンを挙げることができる。また、試験紙36に予め含浸されている試薬としては、例えば、グルコースオキシターゼ(GOD)、ペルオキシターゼ(POD)、4-アミノアンチピリン、N-エチルN-(2-ヒドロキシ-3-スルホプロピル)等の発色剤を挙げることができる。なお、試薬には、所定の緩衝剤が含まれていてもよい。 Examples of the material of the test paper 36 include polyethersulfone. Examples of the reagent pre-impregnated in the test paper 36 include glucose oxidase (GOD), peroxidase (POD), 4-aminoantipyrine, N-ethyl N- (2-hydroxy-3-sulfopropyl) and the like. Mention may be made of color formers. The reagent may contain a predetermined buffer.
 光学測定部40(測定部)は、血液が染み込んだ試験紙36に光を照射してその反射光を受光する装置である。光学測定部40は、筐体2の底部側に取り付けられるホルダ41と、このホルダ41に保持される発光素子及び受光素子を含んでいる。発光素子は、例えば、発光ダイオードからなり、受光素子は、例えば、フォトダイオードからなる。 The optical measuring unit 40 (measuring unit) is a device that irradiates the test paper 36 soaked with blood and receives the reflected light. The optical measuring unit 40 includes a holder 41 attached to the bottom side of the housing 2, and a light emitting element and a light receiving element held by the holder 41. The light emitting element is made of, for example, a light emitting diode, and the light receiving element is made of, for example, a photodiode.
 光学測定部40の発光素子及び受光素子は、試験紙36側の端面まで延在された通路を有するホルダ41の内部に保持されている。発光素子から放射された光が通路を通じて試験紙36に照射され、その試験紙36で反射された光が受光素子へと導かれ、受光素子にて光電変換される。そして、受光素子から制御部5へと、受光光量に応じたアナログ信号が出力される。また、ホルダ41は、ブロック状のベース部41aと、このベース部41aの前側に連続して形成された円筒形の軸部41bとを有している。軸部41bには、二種類の波長の光を一つの試験紙36に照射するための照射口37が開口されている。 The light emitting element and the light receiving element of the optical measuring unit 40 are held inside a holder 41 having a passage extending to the end face on the test paper 36 side. The light emitted from the light emitting element is applied to the test paper 36 through the passage, and the light reflected by the test paper 36 is guided to the light receiving element, and is photoelectrically converted by the light receiving element. Then, an analog signal corresponding to the amount of received light is output from the light receiving element to the control unit 5. The holder 41 has a block-like base portion 41a and a cylindrical shaft portion 41b formed continuously on the front side of the base portion 41a. An irradiation port 37 for irradiating one test paper 36 with light of two types of wavelengths is opened in the shaft portion 41b.
 光学測定部40は、円筒部18と把持片22の内側に配置されている。ホルダ41の軸部41bと円筒部18との間にリング状をなす空間部が形成されている。この円筒部18内に形成されたリング状をなす空間部に、試験具30の筒軸部33が着脱可能に挿着される。この空間部によって、試験具(チップ)30を着脱可能に支持することができる試験具装着部17が構成されている。 The optical measurement unit 40 is disposed inside the cylindrical portion 18 and the gripping piece 22. A ring-shaped space portion is formed between the shaft portion 41 b of the holder 41 and the cylindrical portion 18. A cylindrical shaft portion 33 of the test device 30 is detachably inserted into a ring-shaped space formed in the cylindrical portion 18. The space portion constitutes a test tool mounting portion 17 that can removably support the test tool (chip) 30.
 光学測定部40を保持するホルダ41の基端側には、配線基板15上に制御部5が設けられている。制御部5は、配線基板15に設けた配線パターンを介して光学測定部40と電気的に接続されており、光学測定部40の発光素子を適切なタイミングで発光させると共に、受光素子から供給されるアナログ信号をA/D変換器(図示せず)でデジタル信号に変換する。更に、制御部5では、受光光量のデジタル信号に基づいて所定の演算処理を行い、血液中の血糖値を算出する。そして、算出された血糖値を表示パネル13に表示し、測定者に知らせる。 The control unit 5 is provided on the wiring board 15 on the base end side of the holder 41 that holds the optical measurement unit 40. The control unit 5 is electrically connected to the optical measurement unit 40 via a wiring pattern provided on the wiring board 15, and causes the light emitting element of the optical measurement unit 40 to emit light at an appropriate timing and is supplied from the light receiving element. The analog signal is converted into a digital signal by an A / D converter (not shown). Further, the control unit 5 performs a predetermined calculation process based on the digital signal of the amount of received light, and calculates the blood sugar level in the blood. Then, the calculated blood glucose level is displayed on the display panel 13 to inform the measurer.
 また、ホルダ41には、入力部23の押圧操作に応じて把持片22を回動させるための支点部45が設けられている。支点部45は、ホルダ41の上面であって、把持片22の爪部24と入力部23との中間位置に配置されている。支点部45は、把持片22で試験具30を把持した状態において、把持片22の内面に接触する凸部として形成することが好ましく、その凸部は、把持片22が延びる方向と直交する方向に延在された突条として形成してもよく、また、直交する方向に適当な隙間をあけて形成された複数の突起であってもよい。更に、支点部45は、弾性変形時に把持片22が回動することを考慮すると、上面を円弧状に湾曲させた断面半円形をなすドーム型とすることが好ましいが、断面三角形、断面台形等の形状としてもよい。 Further, the holder 41 is provided with a fulcrum part 45 for rotating the grip piece 22 in accordance with the pressing operation of the input part 23. The fulcrum part 45 is disposed on the upper surface of the holder 41 at an intermediate position between the claw part 24 of the gripping piece 22 and the input part 23. The fulcrum portion 45 is preferably formed as a convex portion that contacts the inner surface of the gripping piece 22 in a state where the test piece 30 is gripped by the gripping piece 22, and the convex portion is a direction orthogonal to the direction in which the gripping piece 22 extends. It may be formed as a ridge extending in the right direction, or may be a plurality of protrusions formed with appropriate gaps in the orthogonal direction. Furthermore, the fulcrum portion 45 is preferably a dome shape having a semicircular cross section with the upper surface curved in an arc shape in consideration of the rotation of the gripping piece 22 during elastic deformation. It is good also as a shape.
 なお、図示しないが、筐体2内において、ホルダ41の外周部にパッキンを装着し、ホルダ41と制御部5との間を液密に封止することにより、検体や水等が制御部5内に入り込むのを防止することができる。また、容器本体7と蓋体8との嵌合部にパッキンを介在させて液密に封止することにより、血糖計1を拭き掃除したり水洗いすることができる。 Although not shown in the figure, a packing is attached to the outer peripheral portion of the holder 41 in the housing 2 and the space between the holder 41 and the control unit 5 is sealed in a liquid-tight manner, so that the specimen, water, etc. Intrusion can be prevented. Moreover, the blood glucose meter 1 can be wiped clean or washed with water by interposing a packing at the fitting portion between the container body 7 and the lid body 8 and sealing it in a liquid-tight manner.
 このような構成を有する血糖計1は、例えば、次のようにして組み立てることができる。容器本体7の長手方向の一端が開口されていて、その開口部に蓋体8が嵌合される構造となっているため、その開口部から光学測定部40及び制御部5等を挿入する。その後、蓋体8で開口部を閉じて固定ねじで締め付けることにより、簡単に組み立てることができる。 The blood glucose meter 1 having such a configuration can be assembled as follows, for example. Since one end of the container body 7 in the longitudinal direction is opened and the lid 8 is fitted to the opening, the optical measurement unit 40 and the control unit 5 are inserted through the opening. Thereafter, the lid 8 closes the opening and tightens it with a fixing screw, so that it can be easily assembled.
 また、血糖計1は、次のようにして使用することができる。図1は、血糖計1の通常の使用状態を示すもので、筐体2を片手で軽く握るように把持して使用される。 Moreover, the blood glucose meter 1 can be used as follows. FIG. 1 shows a normal use state of the blood glucose meter 1, which is used by grasping the housing 2 so as to be grasped lightly with one hand.
 測定には、まず、指先を専用の穿刺器具で穿刺し、その穿刺部から皮膚上に少量(例えば0.3~1.5μL程度)の血液を流出させる。この指先上の少量の血液に、血糖計1の先端に装着されている試験具30のノズル部32の先端を当接させる。これにより、血液は、ノズル部32の採取孔34内に入り込み、毛細管現象により吸引されて内側に流れ、筒軸部33内に収容されている試験紙36の中央部に到達する。この試験紙36に到達した血液は、その表面から試験紙36の内部に染み込み、半径方向外側へ向かって放射状に広がって行く。この血液の展開と同時に、血液中のブドウ糖と試験紙36に担持されている試薬とが反応を開始し、ブドウ糖の量に応じて呈色する。この呈色した試験紙の色を測定し、呈色の強度を測定することにより、血糖値を求めることができる。 For measurement, first, the fingertip is punctured with a dedicated puncture device, and a small amount of blood (eg, about 0.3 to 1.5 μL) is allowed to flow out from the puncture portion onto the skin. The tip of the nozzle part 32 of the test device 30 attached to the tip of the blood glucose meter 1 is brought into contact with a small amount of blood on the fingertip. As a result, blood enters the collection hole 34 of the nozzle portion 32, is sucked by capillary action, flows inward, and reaches the central portion of the test paper 36 accommodated in the tube shaft portion 33. The blood that has reached the test paper 36 soaks into the test paper 36 from its surface and spreads radially outward. Simultaneously with the development of the blood, the glucose in the blood and the reagent carried on the test paper 36 start to react and color according to the amount of glucose. The blood glucose level can be determined by measuring the color of the colored test paper and measuring the color intensity.
 測定終了後、試験具30を試験具装着部17から排出する場合には、例えば、親指を除く4本の指と手のひらで筐体2を把持すると共に、親指を入力部23に合わせ、その入力部23を押圧する。このとき、試験具装着部17は、容器本体7に切断部21を設けることによって可撓性を持たせた把持片22を有し、その把持片22の根元部分に入力部23を設け、その根元部分を押圧するように構成されている。更に、先端の爪部24と入力部23との間に支点部45が設けられていることから、図3に示すように、入力部23を所定の外力Fで押圧すると、入力部23を中心として把持片22がくの字状に弾性変形される。 When the test tool 30 is ejected from the test tool mounting portion 17 after the measurement is completed, for example, the casing 2 is grasped with four fingers and palms except for the thumb, and the thumb is aligned with the input unit 23 and the input is performed. The part 23 is pressed. At this time, the test instrument mounting part 17 has a gripping piece 22 which is made flexible by providing a cutting part 21 in the container body 7, and an input part 23 is provided at the root of the gripping piece 22. It is comprised so that a root part may be pressed. Further, since a fulcrum portion 45 is provided between the claw portion 24 at the tip and the input portion 23, when the input portion 23 is pressed with a predetermined external force F as shown in FIG. As a result, the gripping piece 22 is elastically deformed into a V shape.
 その結果、把持片22の先端側が、支点部45を中心として、図3において時計方向に回動される。これにより、試験具装着部17に装着されている試験具30の筒軸部33の上半分を把持している爪部24が筒軸部33から離れ、把持片22による試験具30のロックが解除される。そのため、試験具30が試験具装着部17から外れ易い状態となる。そこで、試験具30を下向きにして血糖計1を垂直方向へ向けることにより、試験具30の自重によって、或いは、上下方向へ軽く振ることにより、試験具装着部17から試験具30を容易に離脱させて、廃棄容器に廃棄することができる。 As a result, the distal end side of the gripping piece 22 is rotated clockwise in FIG. As a result, the claw portion 24 holding the upper half of the tube shaft portion 33 of the test device 30 mounted on the test device mounting portion 17 is separated from the tube shaft portion 33 and the test piece 30 is locked by the gripping piece 22. Canceled. Therefore, the test tool 30 is easily detached from the test tool mounting portion 17. Therefore, the test device 30 is easily detached from the test device mounting portion 17 by turning the blood glucose meter 1 downward with the test device 30 facing downward, or by lightly shaking the test device 30 by its own weight or vertically. Can be disposed of in a waste container.
 この場合、血糖計1を操作する作業者は、血糖計1を片手で持った状態において、片手操作によって試験具30を血糖計1から分離させ、廃棄することができる。従って、試験具30に手を触れることなく、その試験具30の廃棄処理を衛生的に、簡単且つ迅速に行うことができる。 In this case, the operator who operates the blood glucose meter 1 can separate the test device 30 from the blood glucose meter 1 and discard it by one-hand operation while holding the blood glucose meter 1 with one hand. Accordingly, the disposal of the test tool 30 can be performed hygienically and easily without touching the test tool 30.
 図4乃至図8は、本発明の第2の実施例に係る血糖計100を示す図である。この血糖計100は、筐体102の一部を撓み変形させることにより試験具(試験片)130の把持を解除すると同時に、試験具130を自動的に排出する試験具排出機構120を設けたものである。 4 to 8 are views showing a blood glucose meter 100 according to a second embodiment of the present invention. This blood glucose meter 100 is provided with a test tool discharge mechanism 120 that automatically releases the test tool 130 at the same time as releasing the grip of the test tool (test piece) 130 by bending and deforming a part of the housing 102. It is.
 この実施例で示す血糖計100は、第1の実施例で示した血糖計1とは異なり、電気化学的手段によって血糖値を測定するものである。即ち、血糖計100は、血液中の成分を計測するために電気化学センサが装着され、採取された血液の成分と試薬の反応から得られる電流値に基づいて血糖値を計測することができる体液成分測定装置である。 The blood glucose meter 100 shown in this embodiment is different from the blood glucose meter 1 shown in the first embodiment, and measures the blood glucose level by electrochemical means. That is, the blood glucose meter 100 is equipped with an electrochemical sensor for measuring components in the blood, and can measure the blood glucose level based on the current value obtained from the reaction between the collected blood component and the reagent. It is a component measuring device.
 図4及び図5に示すように、血糖計100は、下ケース107と上ケース108とを有する筐体102を備えている。下ケース107は、上面に開口された略長方形をなす底の浅い容器からなり、下ケース107の長手方向の一面である前面の中央部には、その長手方向に突出する樋状部109が設けられている。この下ケース107に、平板状をなす上ケース108が重ね合わされている。この上ケース108は、図示しない固定ねじによって下ケース107に固定されている。 As shown in FIGS. 4 and 5, the blood glucose meter 100 includes a casing 102 having a lower case 107 and an upper case 108. The lower case 107 is a shallow container having a substantially rectangular shape opened on the upper surface, and a hook-like portion 109 protruding in the longitudinal direction is provided at the center of the front surface, which is one surface of the lower case 107 in the longitudinal direction. It has been. An upper case 108 having a flat plate shape is superimposed on the lower case 107. The upper case 108 is fixed to the lower case 107 by a fixing screw (not shown).
 下ケース107の樋状部109は、断面形状がコ字状をなし且つ上方に開口された凸部からなり、その上面開口部が上ケース108に設けた舌片状に突出し可撓性を有する把持片122によって閉じられている。この把持片122は、その付け根部分の一部を他の部分よりも薄くして強度を弱くすることにより、可撓性が付与されている。この把持片122の先端に、試験具(試験片)130の基端に近い部分を押圧して固定する爪部124が設けられている。また、把持片122の付け根部分に設けた薄肉部分が、その把持片122を撓み変形させるための入力部123とされている。なお、入力部123は、把持片122の他の部分と異なる柔軟性を有する部材を用いて、一体成形によって形成されていてもよい。 The hook-shaped portion 109 of the lower case 107 is a convex portion having a U-shaped cross-section and opened upward, and the upper surface opening portion projects into a tongue-like shape provided in the upper case 108 and has flexibility. It is closed by the gripping piece 122. The gripping piece 122 is given flexibility by making a part of the base part thinner than the other part to weaken the strength. A claw portion 124 that presses and fixes a portion close to the base end of the test tool (test piece) 130 is provided at the tip of the grip piece 122. In addition, a thin portion provided at the base portion of the grip piece 122 serves as an input unit 123 for bending and deforming the grip piece 122. Note that the input unit 123 may be formed by integral molding using a member having flexibility different from that of other parts of the gripping piece 122.
 図6に示すように、把持片122に撓み変形を生じさせるために、樋状部109の内面には、2つの突起部からなる支点部145,145が設けられている。2つの支点部145,145は、樋状部109の長手方向の略中間部において、その長手方向と交差する幅方向に所定の隙間をあけて配置されている。そして、各支点部145の上端部は、把持片122の撓み変形を容易にするため円弧状の曲面部として形成されている。また、樋状部109の長手方向の先端部には、中央部に試験具130が着脱可能に挿通される四角形をなす出入口146を有する前面部109aが設けられている。 As shown in FIG. 6, in order to cause the gripping piece 122 to bend and deform, fulcrum portions 145 and 145 including two protrusions are provided on the inner surface of the hook-shaped portion 109. The two fulcrum portions 145 and 145 are arranged at a substantially intermediate portion in the longitudinal direction of the bowl-shaped portion 109 with a predetermined gap in the width direction intersecting with the longitudinal direction. And the upper end part of each fulcrum part 145 is formed as a circular-arc-shaped curved-surface part in order to make the bending deformation of the holding piece 122 easy. Further, a front end portion 109a having a rectangular entrance / exit 146 through which the test tool 130 is detachably inserted is provided at the central portion at the distal end portion in the longitudinal direction of the bowl-shaped portion 109.
 樋状部109の前面部109aの高さは、支点部145の高さと同じ高さに設定されている。これにより、把持片122を撓み変形させる前の自然状態では、把持片122の下面が前面部109aの両側上端面と2つの支点部145,145のみに当接して、樋状部109の上面開口部を閉じるように構成されている。このとき、把持片122の先端に設けた爪部124が、樋状部109の前面部109aに設けた出入口146に係合され、その爪部124が試験具130を樋状部109の底面に押し付けるようにして把持する。この出入口146に連続して樋状部109の底面には、試験具130をガイドするガイド溝147が設けられている。 The height of the front surface portion 109 a of the bowl-shaped portion 109 is set to the same height as the height of the fulcrum portion 145. As a result, in the natural state before the gripping piece 122 is bent and deformed, the lower surface of the gripping piece 122 abuts only the upper end surfaces on both sides of the front surface portion 109a and the two fulcrum portions 145 and 145, thereby opening the upper surface of the hook-shaped portion 109. It is comprised so that a part may be closed. At this time, the claw portion 124 provided at the tip of the grip piece 122 is engaged with the entrance / exit 146 provided in the front surface portion 109 a of the hook-shaped portion 109, and the claw portion 124 causes the test tool 130 to be placed on the bottom surface of the hook-shaped portion 109. Grab as if pressing. A guide groove 147 for guiding the test tool 130 is provided on the bottom surface of the bowl-shaped portion 109 continuously from the entrance / exit 146.
 ガイド溝147は、試験具130の幅と同じ大きさの幅を有する。この樋状部109の内部において、ガイド溝147の内側に測定部103が配設されている。測定部103は、先端に複数の導電端子151を有する端子ブロック150を備えている。端子ブロック150は、平面形状がT字形状をなしており、導電端子151が突出した凸部側を樋状部109の長手方向に延在させた状態で当該樋状部109に固定されている。この端子ブロック150の先端部の両側に所定の隙間をあけて2つの支点部145,145が配置されている。 The guide groove 147 has the same width as the width of the test tool 130. The measuring portion 103 is disposed inside the guide groove 147 inside the hook-shaped portion 109. The measurement unit 103 includes a terminal block 150 having a plurality of conductive terminals 151 at the tip. The terminal block 150 has a T-shaped planar shape, and is fixed to the hook-shaped portion 109 in a state where the protruding portion from which the conductive terminal 151 protrudes extends in the longitudinal direction of the hook-shaped portion 109. . Two fulcrum portions 145 and 145 are arranged on both sides of the tip of the terminal block 150 with a predetermined gap.
 複数の導電端子151の先端は下向きに180度湾曲するように形成されており、出入口146から挿入される試験具130の先端部を容易に差し込むことができるように構成されている。複数の導電端子151は試験具130の基端部と弾性的に接触可能とされており、複数の導電端子151の下に試験具130の先端部が差し込まれることにより、試験具130の電極端子に対して各導電端子151が電気的に導通されるようになっている。端子ブロック150にはケーブル線152の一端が接続され、そのケーブル線152の他端は、制御部105のコネクタ154に接続されている。なお、各導電端子151は、樋状部109側に付勢されており、樋状部109との間で試験具130を挟み込んで把持する機能を有する。 The tips of the plurality of conductive terminals 151 are formed to be bent 180 degrees downward, and are configured so that the tips of the test tool 130 inserted from the entrance / exit 146 can be easily inserted. The plurality of conductive terminals 151 can be elastically contacted with the base end portion of the test tool 130, and the distal end portion of the test tool 130 is inserted under the plurality of conductive terminals 151, whereby the electrode terminals of the test tool 130 are provided. In contrast, each conductive terminal 151 is electrically connected. One end of the cable line 152 is connected to the terminal block 150, and the other end of the cable line 152 is connected to the connector 154 of the control unit 105. Each conductive terminal 151 is biased toward the hook-shaped portion 109 and has a function of sandwiching and gripping the test tool 130 with the hook-shaped portion 109.
 図5に示すように、コネクタ154は、筐体102内に収容されている制御部用配線基板(以下、「配線基板」という)155に搭載されていて、その配線基板155に設けられた所定の配線パターンと電気的に接続されている。この配線基板155の上方に、表示部をなす表示パネル113が配置されている。表示パネル113は、上ケース108に設けた開口窓111に装着されたパネルカバー112の内面に接合されて一体的に構成されている。 As shown in FIG. 5, the connector 154 is mounted on a control unit wiring board (hereinafter referred to as a “wiring board”) 155 housed in the housing 102, and is provided on the wiring board 155. The wiring pattern is electrically connected. A display panel 113 forming a display unit is disposed above the wiring substrate 155. The display panel 113 is integrally formed by being joined to the inner surface of the panel cover 112 attached to the opening window 111 provided in the upper case 108.
 制御部105は、マイクロコンピュータやROM,RAM等の記憶装置や、所定の配線パターンを備えて、配線基板155上に設けられている。この配線基板155の所定位置にマイクロコンピュータその他の電子部品を実装することによって制御部105が構成されている。この制御部105と測定部103とが電気的に接続され、測定部103から供給される測定信号に基づき、制御部105が所定の演算処理を実行し、所定の制御信号を出力する。なお、上ケース108には、操作部114の電源スイッチ114aと操作ボタン114bとが設けられている。 The control unit 105 includes a storage device such as a microcomputer, a ROM, and a RAM, and a predetermined wiring pattern, and is provided on the wiring board 155. The control unit 105 is configured by mounting a microcomputer and other electronic components at predetermined positions on the wiring board 155. The control unit 105 and the measurement unit 103 are electrically connected, and based on the measurement signal supplied from the measurement unit 103, the control unit 105 executes a predetermined calculation process and outputs a predetermined control signal. The upper case 108 is provided with a power switch 114a and an operation button 114b of the operation unit 114.
 更に、樋状部109の内部には、試験具130を出入口146から外部に向かって押し出す試験具押出機構の一具体例を示す板ばね160が設けられている。板ばね160は、長方形をなす枠状の板材として形成されている。板ばね160の長手方向の一側には、試験具130に当接して当該試験具130を押圧する押圧部160aが設けられている。押圧部160aには、導電端子151との接触を避けるための切欠き部161が設けられている。この切欠き部161により、板ばね160による試験具130の押し出し動作が実行されたときにも、その押圧部160aが複数の導電端子151と接触するのを回避している。 Furthermore, a leaf spring 160 showing a specific example of a test tool push-out mechanism that pushes the test tool 130 outward from the entrance / exit 146 is provided inside the bowl-shaped portion 109. The plate spring 160 is formed as a rectangular frame-shaped plate material. On one side in the longitudinal direction of the leaf spring 160, a pressing portion 160a that abuts the test tool 130 and presses the test tool 130 is provided. The pressing portion 160 a is provided with a notch portion 161 for avoiding contact with the conductive terminal 151. This notch portion 161 prevents the pressing portion 160 a from coming into contact with the plurality of conductive terminals 151 even when the test tool 130 is pushed out by the leaf spring 160.
 また、図6~図8に示すように、板ばね160は、長手方向の2箇所を板厚方向に湾曲させて山折部160bと谷折部160cとを設けることにより、全体としてクランク状に形成されている。即ち、板ばね160は、押圧部160aと反対側に設けた山折部160bと、押圧部160a側に設けた谷折部160cとを有している。この板ばね160は、谷折部160c側の端部をガイド溝147に臨ませると共に、山折部160b側の端部を端子ブロック150の上面に載置させるようにして当該端子ブロック150に取り付けられている。この際、板ばね160に設けた中央の四角い穴に端子ブロック150の凸部側が嵌合され、これにより、板ばね160の幅方向への移動を制限して、長手方向へのみ進退移動を可能にしている。 Also, as shown in FIGS. 6 to 8, the leaf spring 160 is formed in a crank shape as a whole by providing a mountain fold 160b and a valley fold 160c by bending two longitudinal portions in the plate thickness direction. Has been. That is, the leaf spring 160 has a mountain fold 160b provided on the side opposite to the pressing portion 160a and a valley fold 160c provided on the pressing portion 160a side. The leaf spring 160 is attached to the terminal block 150 so that the end on the valley fold 160 c side faces the guide groove 147 and the end on the mountain fold 160 b is placed on the upper surface of the terminal block 150. ing. At this time, the convex portion side of the terminal block 150 is fitted into a central square hole provided in the leaf spring 160, thereby restricting the movement of the leaf spring 160 in the width direction and allowing forward and backward movement only in the longitudinal direction. I have to.
 このような構成を有する血糖計100は、例えば、次のようにして組み立てることができる。まず、下ケース107に、配線基板155等を取り付けて制御部105を組み立てる。次に、樋状部109の所定位置に端子ブロック150を取り付け、次いで、端子ブロック150に板ばね160を取り付ける。そして、ケーブル線152によって配線基板155と端子ブロック150を電気的に接続する。 The blood glucose meter 100 having such a configuration can be assembled as follows, for example. First, the control unit 105 is assembled by attaching the wiring board 155 and the like to the lower case 107. Next, the terminal block 150 is attached to a predetermined position of the hook-shaped portion 109, and then the leaf spring 160 is attached to the terminal block 150. Then, the wiring board 155 and the terminal block 150 are electrically connected by the cable line 152.
 次に、上ケース108に、表示パネル113等を取り付ける。そして、表示パネル113と配線基板155を電気的に接続する。その後、下ケース107に上ケース108を重ね合わせ、図示しない固定ねじでねじ止めする。これにより、血糖計100の組立作業が完了する。 Next, the display panel 113 and the like are attached to the upper case 108. Then, the display panel 113 and the wiring board 155 are electrically connected. Thereafter, the upper case 108 is overlaid on the lower case 107 and fixed with a fixing screw (not shown). Thereby, the assembly work of the blood glucose meter 100 is completed.
 このような構成を有する血糖計100は、例えば、次のようにして使用することができる。まず、血糖計100の試験具装着部117に試験具130を取り付ける。即ち、血糖計100の出入口146に試験具130の一端を挿入し、図4~図7に示すように、試験具130の基端部を導電端子151の下まで差し込む。これにより、血糖値の測定が可能となる。 The blood glucose meter 100 having such a configuration can be used as follows, for example. First, the test device 130 is attached to the test device mounting portion 117 of the blood glucose meter 100. That is, one end of the test device 130 is inserted into the entrance / exit 146 of the blood glucose meter 100, and the base end portion of the test device 130 is inserted under the conductive terminal 151 as shown in FIGS. Thereby, the blood glucose level can be measured.
 そこで、試験具130の先端に設けた採血部131に測定する血液を供給する。血液は、試験具130の毛細管路を伝わって試薬が設けられた試薬設置部に移動し、酵素反応によってブドウ糖の量に応じた信号が出力され、その信号に基づき制御部105において血糖値が算出され、その血糖値が表示パネル113に表示される。 Therefore, blood to be measured is supplied to the blood collection unit 131 provided at the tip of the test device 130. The blood travels through the capillary passage of the test device 130 and moves to the reagent installing portion where the reagent is provided, and a signal corresponding to the amount of glucose is output by the enzyme reaction, and the control unit 105 calculates the blood glucose level based on the signal. The blood glucose level is displayed on the display panel 113.
 測定終了後、試験具130を試験具装着部117から排出する場合には、例えば、親指を除く4本の指と手のひらで筐体102を把持すると共に、親指を入力部123に合わせ、その入力部23を押圧する。これにより、筐体102の把持片122が、図7に示す状態から図8に示す状態に変化するため、試験具130を試験具装着部117から外部に自動的に排出することができる。 When the test tool 130 is ejected from the test tool mounting portion 117 after the measurement is completed, for example, the casing 102 is gripped by four fingers and the palm excluding the thumb, and the thumb is aligned with the input unit 123 and the input is performed. The part 23 is pressed. As a result, the grip piece 122 of the housing 102 changes from the state shown in FIG. 7 to the state shown in FIG. 8, so that the test tool 130 can be automatically discharged from the test tool mounting portion 117 to the outside.
 図7は、試験具130を出入口146から挿入して試験具装着部117に装着した状態を示すものである。このとき、試験具130をガイド溝147の所定位置まで挿入すると、試験具130の基端部の上面の電極端子に複数の導電端子151が圧接される。この際、把持片122の爪部124は試験具130を押圧した状態となっている。この導電端子151による圧接と爪部124による押圧によって試験具130が固定される。また、この際、板ばね160の山折部160bが把持片122の内面に当接されている。なお、谷折部160cが無くても板ばね160がスムースに進退動作し得る場合には、谷折部160cの無い板ばねとすることができる。また、板ばね160の山折部160bは、把持片122側に湾曲していて、把持片122の内面に軽く当接していてもよい。 FIG. 7 shows a state in which the test tool 130 is inserted from the entrance / exit 146 and is mounted on the test tool mounting portion 117. At this time, when the test tool 130 is inserted to a predetermined position in the guide groove 147, the plurality of conductive terminals 151 are pressed against the electrode terminals on the upper surface of the base end portion of the test tool 130. At this time, the claw portion 124 of the grip piece 122 is in a state of pressing the test tool 130. The test tool 130 is fixed by pressure contact with the conductive terminal 151 and pressing by the claw portion 124. At this time, the mountain fold 160 b of the leaf spring 160 is in contact with the inner surface of the gripping piece 122. In addition, when the leaf | plate spring 160 can move smoothly back and forth even if there is no valley | folding part 160c, it can be set as the leaf | plate spring without the valley | folding part 160c. Further, the mountain-folded portion 160 b of the leaf spring 160 may be curved toward the gripping piece 122, and may be in light contact with the inner surface of the gripping piece 122.
 この図7に示す状態から、入力部123に外力を加えて把持片122を内側に撓み変形させる。すると、把持片122の入力部123はそれ以外の部分に比べて強度が弱く、即ち、薄く構成されているため、図8に示すように、入力部123のみが大きく撓み変形する。このとき、把持片122の入力部123より先端側は、樋状部109に設けた支点部145によって下方から支持されているため、把持片122の先端側は、支点部145を中心として図8において時計方向に回動する。 From the state shown in FIG. 7, an external force is applied to the input unit 123 to bend and deform the gripping piece 122 inward. Then, since the input portion 123 of the grip piece 122 has a lower strength than other portions, that is, is configured to be thin, only the input portion 123 is greatly bent and deformed as shown in FIG. At this time, the distal end side of the gripping piece 122 from the input portion 123 is supported from below by a fulcrum portion 145 provided in the bowl-shaped portion 109, and therefore the distal end side of the gripping piece 122 is centered on the fulcrum portion 145 as shown in FIG. In the clockwise direction.
 これにより、把持片122の先端に設けた爪部124が出入口146を開放するよう外側に回動され、試験具130をガイド溝147に押し付けている力が解除される。これと連動するように板ばね160は、その山折部160bが真っ直ぐになるように弾性変形される。これにより、板ばね160が、長手方向に長くなった分だけ押圧部160aが出入口146側に摺動し、試験具130を押し出す。これにより、試験具130の基端部が導電端子151から外れ、導電端子151による保持力も解除される。その結果、試験具130を保持する全ての力が解除されるため、試験具130がフリーな状態となり、板ばね160によって押し出されることで、自動的に排出される。 Thereby, the claw portion 124 provided at the tip of the grip piece 122 is rotated outward so as to open the entrance / exit 146, and the force pressing the test tool 130 against the guide groove 147 is released. In conjunction with this, the leaf spring 160 is elastically deformed so that the mountain fold 160b is straight. As a result, the pressing portion 160a slides toward the entrance / exit 146 as much as the leaf spring 160 becomes longer in the longitudinal direction, and pushes out the test tool 130. As a result, the base end portion of the test device 130 is detached from the conductive terminal 151 and the holding force by the conductive terminal 151 is also released. As a result, since all the forces that hold the test tool 130 are released, the test tool 130 becomes free and is automatically ejected by being pushed out by the leaf spring 160.
 試験具130を排出した後、入力部123に加えている外力を解放することにより、把持片122が持つ復元力と板ばね160のばね力によって、筐体102が元の状態に復帰される。 After discharging the test tool 130, the external force applied to the input unit 123 is released, so that the housing 102 is returned to the original state by the restoring force of the gripping piece 122 and the spring force of the leaf spring 160.
 なお、第2の実施例では、板ばね160を用いて試験具130を押し出す構成とした。しかし、板ばね160を設けなくても、導電端子151の試験具130への押圧力を十分弱く設定すれば、把持片122の爪部124による保持を解除したとき、下向きにすることでその自重により試験具130を離脱させることが可能である。 In the second embodiment, the test tool 130 is pushed out using the leaf spring 160. However, even if the leaf spring 160 is not provided, if the pressing force of the conductive terminal 151 to the test tool 130 is set to be sufficiently weak, when the holding of the gripping piece 122 by the claw portion 124 is released, the holding weight 122 is turned downward to reduce its own weight. Thus, the test tool 130 can be detached.
 図9乃至図12は、本発明の第3の実施例に係る血糖計200を示す図である。この第3の実施例として示す血糖計200は、第2の実施例に係る血糖計100の一部構造を変更し、把持片122によって導電端子251を弾性変形させ、試験具130を保持する導電端子251の保持力を解放する構成としたものである。この第3の実施例に係る血糖計200が血糖計100と異なる点は、板ばね160を使わないことと、導電端子251の先端側を爪部124に係止したところである。そのため、血糖計200において、第2の実施例と同一部分には同一の符号を付して、重複した説明を省略する。 9 to 12 are diagrams showing a blood glucose meter 200 according to a third embodiment of the present invention. In the blood glucose meter 200 shown as the third embodiment, the partial structure of the blood glucose meter 100 according to the second embodiment is changed, and the conductive terminal 251 is elastically deformed by the gripping piece 122 to hold the test device 130. In this configuration, the holding force of the terminal 251 is released. The blood glucose meter 200 according to the third embodiment is different from the blood glucose meter 100 in that the leaf spring 160 is not used and the tip end side of the conductive terminal 251 is locked to the claw portion 124. Therefore, in the blood glucose meter 200, the same parts as those in the second embodiment are denoted by the same reference numerals, and the duplicate description is omitted.
 図10に示すように、導電端子251は、試験具130に当接される当接部251aと、この当接部251aの一側に連続する固定部251bと、当接部251aの他側に連続する係止部251cとを有している。当接部251aは、下方に凸となったU字形状に形成されている。固定部251bは水平方向に延在されて、端子ブロック150に固定されている。係止部251cは、L字形状に形成されていて、上方に立ち上げられた垂直部で爪部124の背面側に固定され、爪部124の回動に追従する。その他の構成は上述した実施例と同様である。 As shown in FIG. 10, the conductive terminal 251 includes a contact part 251 a that is in contact with the test tool 130, a fixed part 251 b that is continuous on one side of the contact part 251 a, and the other side of the contact part 251 a. And a continuous locking portion 251c. The contact portion 251a is formed in a U-shape that protrudes downward. The fixing portion 251b extends in the horizontal direction and is fixed to the terminal block 150. The locking portion 251c is formed in an L shape, is fixed to the back side of the claw portion 124 with a vertical portion raised upward, and follows the rotation of the claw portion 124. Other configurations are the same as those in the above-described embodiment.
 この実施例で示す血糖計200は、例えば、次のようにして使用することができる。なお、血糖値を測定する作業工程は上述した実施例と同様であるため、その説明は省略し、試験具130を排出する場合について説明する。 The blood glucose meter 200 shown in this embodiment can be used as follows, for example. In addition, since the operation | work process which measures a blood glucose level is the same as that of the Example mentioned above, the description is abbreviate | omitted and the case where the test device 130 is discharged | emitted is demonstrated.
 測定終了後、試験具130を試験具装着部117から排出する場合には、例えば、親指を除く4本の指と手のひらで筐体102を把持すると共に、親指を入力部123に合わせ、その入力部23を押圧する。これにより、筐体102の把持片122が、図11に示す状態から図12に示す状態に変化するため、試験具130を試験具装着部117から外部に排出することができる。 When the test tool 130 is ejected from the test tool mounting portion 117 after the measurement is completed, for example, the casing 102 is gripped by four fingers and the palm excluding the thumb, and the thumb is aligned with the input unit 123 and the input is performed. The part 23 is pressed. Thereby, since the grip piece 122 of the housing | casing 102 changes from the state shown in FIG. 11 to the state shown in FIG. 12, the test tool 130 can be discharged | emitted from the test tool mounting part 117 outside.
 図11は、試験具130を出入口146から挿入して試験具装着部117に装着した状態を示すものである。このとき、試験具130をガイド溝147の所定位置まで挿入すると、試験具130の基端部の上面に複数の導電端子251の当接部251aが圧接される。この際、試験具130は把持片122の爪部124によって押圧された状態となっている。 FIG. 11 shows a state in which the test tool 130 is inserted from the entrance / exit 146 and is mounted on the test tool mounting portion 117. At this time, when the test tool 130 is inserted to a predetermined position in the guide groove 147, the contact portions 251 a of the plurality of conductive terminals 251 are pressed against the upper surface of the base end portion of the test tool 130. At this time, the test device 130 is pressed by the claw portion 124 of the grip piece 122.
 この図11に示す状態から、入力部123に外力を加えて把持片122を内側に撓み変形させる。すると、把持片122の入力部123はそれ以外の部分に比べて強度が弱く設定されているため、図12に示すように、入力部123のみが大きく撓み変形する。このとき、把持片122の入力部123より先端側は、樋状部109に設けた支点部145によって下方から支持されているため、把持片122の先端側は、支点部145を中心として図12において時計方向に回動する。 From the state shown in FIG. 11, an external force is applied to the input unit 123 to bend and deform the gripping piece 122 inward. Then, since the input portion 123 of the grip piece 122 is set to be weaker than the other portions, only the input portion 123 is greatly bent and deformed as shown in FIG. At this time, the distal end side of the gripping piece 122 from the input portion 123 is supported from below by a fulcrum portion 145 provided in the bowl-shaped portion 109, and therefore the distal end side of the gripping piece 122 is centered on the fulcrum portion 145 as shown in FIG. In the clockwise direction.
 これにより、把持片122の先端に設けた爪部124が出入口146を開放するよう外側に回動され、試験具130をガイド溝147に押し付けている力が解除される。これと同時に、爪部124に背面に固定されている導電端子251の係止部251cが、上方に引き上げられる。これにより、導電端子251の全体が持ち上げられ、当接部251aが試験具130から引き離される。その結果、試験具130を保持する保持力が解除されるため、試験具130がフリーな状態となる。そこで、出入口146を下に向けるように血糖計100の姿勢を変えることにより、自重によって試験具130を落下させて排出することができる。 Thereby, the claw portion 124 provided at the tip of the grip piece 122 is rotated outward so as to open the entrance / exit 146, and the force pressing the test tool 130 against the guide groove 147 is released. At the same time, the engaging portion 251c of the conductive terminal 251 fixed to the back surface of the claw portion 124 is pulled upward. As a result, the entire conductive terminal 251 is lifted, and the contact portion 251 a is pulled away from the test tool 130. As a result, since the holding force for holding the test tool 130 is released, the test tool 130 becomes free. Therefore, by changing the posture of the blood glucose meter 100 so that the entrance / exit 146 faces downward, the test device 130 can be dropped and discharged by its own weight.
 試験具130を排出した後、入力部123に加えている外力を解放することにより、把持片122が持つ復元力と導電端子251のばね力によって筐体102が元の状態に復帰する。 After discharging the test tool 130, the external force applied to the input unit 123 is released, so that the casing 102 returns to the original state by the restoring force of the gripping piece 122 and the spring force of the conductive terminal 251.
 本発明によれば、筐体の一部に可撓性を持たせ、可撓性を有する部分を撓み変形させることにより試験具を排出できるように構成した。そのため、従来の装置では、つまみ等の排出部材の部品点数が多かったが、部品点数を減らすことができ、測定後の試験具を衛生的に排出することができる。 According to the present invention, the test tool can be discharged by giving flexibility to a part of the housing and bending and deforming the flexible part. Therefore, in the conventional apparatus, the number of parts of the discharging member such as a knob is large, but the number of parts can be reduced, and the test tool after measurement can be discharged hygienically.
 以上説明したが、本発明の体液成分測定装置は、前述した実施の形態に限定されるものではなく、構成や形状、材料等において、本発明の構成を逸脱しない範囲において種々の変形、変更が可能であることはいうまでもない。 As described above, the body fluid component measuring device of the present invention is not limited to the above-described embodiment, and various modifications and changes can be made in the configuration, shape, material, and the like without departing from the configuration of the present invention. It goes without saying that it is possible.
 なお、上述した実施例では、体液として血液を挙げて説明したが、これに限定されるものではなく、例えば、リンパ液、髄液、唾液等であってもよい。更に、体液(血液)中の測定目的とする成分として、ブドウ糖(血糖値)を挙げて説明したが、これに限定されるものではなく、例えば、コレステロール、尿酸、クレアチニン、乳酸、ヘモグロビン(潜血)、各種アルコール類、各種糖類、各種タンパク質、各種ビタミン類、ナトリウム等の各種無機イオン、PCBやダイオキシン等の環境ホルモンであってもよい。更にまた、上述した実施例では、所定成分の量を測定するものとして説明したが、所定成分の性質を測定するものであってもよく、また、所定成分の量及び性質の双方を測定するものであってもよい。 In the above-described embodiments, blood has been described as a body fluid. However, the present invention is not limited to this, and may be lymph fluid, spinal fluid, saliva, or the like. Furthermore, glucose (blood glucose level) has been described as a component to be measured in body fluid (blood), but is not limited thereto, and examples thereof include cholesterol, uric acid, creatinine, lactic acid, hemoglobin (occult blood). These may be various alcohols, various sugars, various proteins, various vitamins, various inorganic ions such as sodium, and environmental hormones such as PCB and dioxin. Furthermore, in the above-described embodiments, the description has been made on the assumption that the amount of the predetermined component is measured. However, the property of the predetermined component may be measured, and both the amount and the property of the predetermined component are measured. It may be.
 1,100,200…血糖計(体液成分測定装置)、 2,102…筐体、 4,104…表示部、 5,105…制御部、 7…容器本体、 8…蓋体、 13,113…表示パネル、 15,115…配線基板、 17,117…試験具装着部、 18…円筒部、 21…切断部、 22,122…把持片、 23,123…入力部、 24,124…爪部、 30,130…試験具、 40…光学測定部(測定部)、 45,145…支点部、 103…測定部、 107…下ケース、 108…上ケース、 109…樋状部、 120…試験具排出機構、 146…出入口、 147…ガイド溝、 150…端子ブロック、 151,251…導電端子、 160…板ばね、 251a…当接部 1,100,200 ... blood glucose meter (body fluid component measuring device), 2,102 ... housing, 4,104 ... display unit, 5,105 ... control unit, 7 ... container body, 8 ... lid body, 13,113 ... Display panel, 15, 115 ... wiring board, 17, 117 ... test instrument mounting part, 18 ... cylindrical part, 21 ... cutting part, 22, 122 ... gripping piece, 23, 123 ... input part, 24, 124 ... nail part, 30, 130 ... Test tool, 40 ... Optical measurement part (measurement part), 45,145 ... Support point part, 103 ... Measurement part, 107 ... Lower case, 108 ... Upper case, 109 ... Squid part, 120 ... Discharge of test tool Mechanism, 146 ... Entrance / exit, 147 ... Guide groove, 150 ... Terminal block, 151, 251 ... Conductive terminal, 160 ... Leaf spring, 251a ... Contact part

Claims (6)

  1.  体液成分を測定するための試験具が装着される試験具装着部を備える体液成分測定装置において、
     前記体液成分測定装置の筐体の一部として設けられ、かつ、前記試験具装着部の一部を構成する、前記試験具を把持可能な把持片と、
     前記把持片と対向する筐体の部分に設けられ、前記把持片に当接する支点部とを有し、
     前記把持片は、前記支点部より基端側に設けられた可撓性を有する入力部を備え、前記入力部を押圧することにより前記支点部を中心として前記把持片を回動させて前記試験具の把持を解除するようにした
     ことを特徴とする体液成分測定装置。
    In a bodily fluid component measuring device including a test tool mounting portion to which a test tool for measuring a bodily fluid component is mounted,
    A gripping piece that is provided as a part of the housing of the body fluid component measurement device and that constitutes a part of the test tool mounting portion and is capable of gripping the test tool;
    Provided in a portion of the housing facing the gripping piece, and having a fulcrum part contacting the gripping piece,
    The gripping piece includes a flexible input portion provided on the base end side with respect to the fulcrum portion, and by pressing the input portion, the gripping piece is rotated around the fulcrum portion to perform the test. A bodily fluid component measuring device characterized in that the grasping of the device is released.
  2.  前記把持片は、前記筐体に切断部を設けて他の部分に対して変位可能に形成され、
     前記把持片の先端に前記試験具を把持する爪部を設けた
     ことを特徴とする請求項1記載の体液成分測定装置。
    The gripping piece is formed so as to be displaceable with respect to other parts by providing a cutting portion in the housing.
    The body fluid component measuring device according to claim 1, wherein a claw portion for gripping the test device is provided at a tip of the gripping piece.
  3.  前記把持片の入力部は、前記筐体の他の部分よりも薄くすることによって容易に撓み変形し得るように形成された
     ことを特徴とする請求項1に記載の体液成分測定装置。
    The humor component measurement device according to claim 1, wherein the input portion of the grip piece is formed so as to be easily bent and deformed by making it thinner than other portions of the housing.
  4.  前記把持片の入力部は、前記筐体の他の部分と異なる柔軟な材料により形成され、前記筐体の他の部分と一体成形された
     ことを特徴とする請求項1に記載の体液成分測定装置。
    The body fluid component measurement according to claim 1, wherein the input portion of the grip piece is formed of a flexible material different from other portions of the housing and is integrally formed with the other portions of the housing. apparatus.
  5.  前記体液成分測定装置の筐体の内部に設けられ、前記入力部の押圧動作により動作されて前記試験具を排出する試験具排出機構を有する
     ことを特徴とする請求項1に記載の体液成分測定装置。
    2. The body fluid component measurement according to claim 1, further comprising a test device discharge mechanism that is provided inside a housing of the body fluid component measurement device and is operated by a pressing operation of the input unit to discharge the test device. apparatus.
  6.  前記体液成分測定装置の筐体の内部に設けられ、前記試験具を前記試験具装着部に装着したときに当該試験具を圧接する導電端子を有し、
     前記入力部を押圧することにより、前記把持片による前記試験具の把持が解除されると共に、前記導電端子による前記試験具の圧接が解除されるように構成された
     ことを特徴とする請求項1に記載の体液成分測定装置。
    Provided inside the housing of the body fluid component measuring device, and having a conductive terminal that presses the test tool when the test tool is mounted on the test tool mounting part,
    2. The pressing device according to claim 1, wherein pressing of the input portion releases the grip of the test tool by the grip piece and releases the press contact of the test tool by the conductive terminal. The bodily fluid component measuring apparatus according to 1.
PCT/JP2011/075266 2010-11-05 2011-11-02 Body fluid component measurement device WO2012060400A1 (en)

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