JP2005134190A - Sensor-mounting structure and measurement indicator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a sensor-mounting structure and a measurement indicator for confirming whether a sensor unit is mounted properly and measurably. <P>SOLUTION: The sensor-mounting structure 10 is provided with a hollow part 20 for measurably holding the sensor unit 16 and an insertion sensing means 22 for sensing insertion of the sensor unit 16 in the hollow part 20. The insertion sensing means 22 senses contacts at two locations of a protrusion 24 provided on a surface of the sensor unit 16. The measurement indicator 12 is constituted to include the sensor-mounting structure 10. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a sensor mounting structure for mounting a sensor unit having a biosensor, and a measurement display using the sensor mounting structure.

Conventionally, a measurement display that calculates and displays a measurement value such as a blood glucose level by a biosensor has been used (see, for example, Patent Document 1 and Patent Document 2). According to this measurement display, a blood glucose level or the like can be recognized by attaching a biosensor to the measurement display, taking a sample, and calculating and displaying the blood glucose level or the like. However, since the biosensor to be attached to the measurement display is usually determined, the blood glucose level could not be measured when different types of biosensors were attached. In addition, it was a cause of erroneous measurement.
Japanese Patent Publication No.8-10208 Japanese Patent Laid-Open No. 10-1988

  The problem to be solved is to provide a sensor mounting structure capable of confirming whether or not an appropriate biosensor is mounted so that it can be measured, and a type of the biosensor mounted, and a measurement display using the sensor mounting structure It is to be.

  The sensor mounting structure of the present invention is a sensor mounting structure of a measurement indicator for mounting a sensor unit having a biosensor in a measurable state, and a hollow portion that holds the sensor unit in a measurable state, and in the hollow portion Insertion detecting means for detecting insertion of the sensor unit, wherein the insertion detecting means is means for detecting contact or approach of a plurality of locations on the surface of the sensor unit. In this specification, the concept of contact includes touching and pressing.

  In the sensor mounting structure of the present invention, in the sensor mounting structure, the insertion detection means includes a plurality of second electrodes that contact the first electrode when the first electrode and the surface of the sensor unit come into contact with each other and press. It is comprised from these.

  The sensor mounting structure according to the present invention is characterized in that the second electrode is provided in the sensor mounting structure.

  The sensor mounting structure of the present invention is characterized in that in the sensor mounting structure, a detaching means for detaching the sensor unit held in the hollow part from the hollow part is provided.

  The measurement display of the present invention includes a sensor mounting structure.

  According to the sensor mounting structure of the present invention, it is possible to confirm whether or not the biosensor is mounted so as to be measurable by the insertion detecting means. Further, since the insertion detection means detects contact or approach of a plurality of locations on the surface of the sensor unit, the number or position of the locations where the insertion detection means reacts on the surface of the sensor unit is determined according to the type of the sensor unit. Thus, the type of the attached sensor unit can be discriminated by recognizing how many points the insertion detection means has detected contact or approach, or at what position the contact or approach has been detected.

  In addition, according to the sensor mounting structure of the present invention in which the insertion detecting means includes the first electrode and the plurality of second electrodes, the mounting detection unit can be mounted by recognizing how many second electrodes are in contact with the first electrode. The type of sensor unit can be discriminated.

  Further, according to the sensor mounting structure of the present invention provided with the detaching means, the sensor unit can be detached from the measurement display by the detaching means after the blood glucose level or the like is measured. For this reason, the person who performs the inspection can remove the sensor unit without touching the sensor unit, and can prevent infection with a viral disease such as hepatitis.

  Embodiments of a sensor mounting structure and a measurement display according to the present invention will be described in detail with reference to the drawings. 1 to 4, reference numeral 10 denotes a sensor mounting structure according to the present invention, and reference numeral 12 denotes a measurement display according to the present invention. The measurement indicator 12 is a device that calculates and displays a blood glucose level by attaching a sensor unit 16 having a biosensor 14 in a measurable state, and includes a sensor attachment structure 10 at a main body tip 18.

  The sensor mounting structure 10 includes a hollow portion 20 that holds the sensor unit 16 in a measurable state, and an insertion detection unit 22 that detects insertion of the sensor unit 16 in the hollow portion 20. The insertion detection unit 22 is a unit that detects contact of two portions of the convex portion 24 provided on the surface of the sensor unit 16. Specifically, as shown in FIG. 5, the insertion detection means 22 includes two first electrodes 26 that come into contact with the first electrode 26 when the first electrode 26 and the convex portion 24 of the sensor unit 16 are in contact with each other and pressed. And two electrodes 28. The first electrode 26 and the second electrode 28 are connected to a power source (not shown) provided in the measurement display 12 and are configured to be energized when the second electrode 28 contacts the first electrode 26. Whether the two second electrodes 28 are in contact with the first electrode 26 or the one second electrode 28 is in contact with the first electrode 26 is configured to be discriminated by a discrimination means (not shown). . In FIG. 5, reference numerals 30 and 32 denote support members that support the first electrode 26 and the second electrode 28.

  In addition, the sensor mounting structure 10 includes a detaching means 23 that detaches the sensor unit 16 held in the hollow portion 20 from the hollow portion 20. As shown in FIGS. 1 to 4, the detachment means 23 slides integrally with the slider 30 that slides against the urging force of the spring 52 in the direction opposite to the insertion direction of the sensor unit 16. It comprises a slide fitting (pressing member) 29 for pushing out the sensor unit 16.

  As a sensor unit 16 that can be attached to the sensor mounting structure 10, FIGS. 6 and 7 show a sensor unit 16 (a), and FIGS. 8 and 9 show a sensor unit 16 (b). As shown in FIGS. 6 and 7, the sensor unit 16 (a) inserts the biosensor 14 (a) into the sensor cover 80 (a) and attaches the sensor cap 82, thereby attaching the biosensor 14 (a). It is comprised so that it may coat | cover. The sensor cover 80 (a) of the sensor unit 16 (a) is provided with a convex portion 24 that presses the second electrode 28. On the other hand, as shown in FIGS. 8 and 9, the sensor unit 16 (b) inserts the biosensor 14 (b) into the sensor cover 80 (b) and attaches the sensor cap 82, whereby the biosensor 14 (b ), And substantially the same configuration as the sensor unit 16 (a), but a recess 36 is provided on one side of the center line 34 of the projection 24, and the two second electrodes 28 are provided. It is comprised so that one of these may not be pressed.

  The operation of the sensor mounting structure 10 and the measurement display 12 will be described below. A person who performs a blood glucose level test using the sensor unit 16 (a) holds the sensor unit 16 (a), and moves the sensor unit 16 (a) as shown in FIGS. Insert into the hollow portion 20 of the measurement display 12. At this time, as shown in FIG. 2, the convex portions 24 of the sensor unit 16 (a) press the two second electrodes 28, and the two second electrodes 28 come into contact with the first electrode 26. When the two second electrodes 28 come into contact with the first electrode 26, electricity flows through the two second electrodes 28. The fact that electricity has flowed through the two second electrodes 28 can be recognized by the discriminating means, whereby it can be recognized that the sensor unit 16 (a) is properly attached.

  On the other hand, a person who performs a blood glucose level test using the sensor unit 16 (b) holds the sensor unit 16 (b) and measures the sensor unit 16 (b) as shown in FIGS. Insert into the hollow portion 20 of the display 12. At this time, one second electrode 28 is pressed by the convex portion 24 of the sensor unit 16 (b), but the other second electrode 28 enters the concave portion 36 and is not pressed as shown in FIG. Thereby, although one second electrode 28 contacts the first electrode 26 and electricity flows, the other second electrode 28 does not contact the first electrode 26 and thus does not flow electricity. The fact that electricity has flowed only through the second electrode 28 can be recognized by the discriminating means, whereby it can be recognized that the sensor unit 16 (b) is properly attached.

  For this reason, when the sensor unit 16 (a) having the biosensor 14 (a) is attached to the measurement indicator 12, and the sensor unit 16 (b) having the biosensor 14 (b) is attached to the measurement indicator 12. It is possible to discriminate and recognize the case, and it is possible to select a blood glucose level calculation program corresponding to the biosensor 14 (a) and the biosensor 14 (b) preset in the measurement display 12.

  With the appropriate sensor unit 16 attached to the measurement display 12 in this way, a person who conducts the inspection punctures the finger 100 with a needle as shown in FIG. On the other hand, the measurement indicator 12 to which the sensor unit 16 is attached is held by hand, the sensor cap 82 is removed, and the inflow portion 104 of the biosensor 14 is brought into contact with the blood 102. The blood 102 that has come into contact with the inflow portion 104 flows into the specimen holding portion 106 by capillary action. The measurement display 12 measures the blood glucose level of the blood 102 via the terminal 108 and displays it after a certain time.

  When the measurement of the blood glucose level is completed in this way, the sensor cap 82 is attached to the sensor cover 80 (a) again, the slider 30 is pressed with a finger, and the slider 30 is slid against the urging force of the spring 52. By sliding the slider 30, the slide fitting 29 slides integrally, and the slide fitting 29 pushes out the sensor unit 16. When the slide fitting 29 pushes out the sensor unit 16, the sensor unit 16 is detached from the hollow portion 20, and the sensor unit 16 is detached from the measurement display 12.

  As mentioned above, although embodiment of this invention was described, this invention is not limited to what was mentioned above. For example, the sensor mounting structure capable of discriminating two types of sensor units has been described, but a configuration capable of discriminating three or more types of sensor units may be used. This configuration is possible by using three or more second electrodes.

  Moreover, the shape of the measurement display of this invention is not specifically limited, What is necessary is just to include the sensor attachment structure of this invention. The application of the present invention is not limited to blood glucose level testing, and may be widely used for medical, biological, chemical testing or testing. Moreover, blood tests other than blood sugar levels may be used. In addition, the technical scope of the present invention includes embodiments in which various improvements, modifications, and variations are added based on the knowledge of those skilled in the art without departing from the spirit of the present invention. Moreover, you may implement with the form which substituted any invention specific matter to the other technique within the range which the same effect | action or effect produces.

  FIG. 12 shows a discrimination means 60 as an example of the discrimination means. The discriminating means 60 includes two energization display means 62 connected to the two second electrodes 28 respectively. The energization display means 62 is a lighting means such as an LED. When the two second electrodes 28 come into contact with the first electrode 26 due to the electromotive force of the power supply 64, the two energization display means 62 are turned on, and the one second electrode 28 comes into contact with the first electrode 26. In this case, one energization display means 62 is turned on, so that the two second electrodes 28 are in contact with the first electrode 26, or one second electrode 28 is in contact with the first electrode 26. Can be determined. Therefore, it can be determined whether the sensor unit 16 (a) or the sensor unit 16 (b) is attached based on the number of energization display means 62 to be lit. When both the energization display means 62 are not lit, it can be recognized that the attached sensor unit is not the sensor unit 16 (a) but the sensor unit 16 (b).

  Further, in this case, the convex portions 24 of the sensor units 16 (c) other than the sensor unit 16 (a) and the sensor unit 16 (b) are recessed on the opposite side of the concave portion 36 of FIG. By providing this, it is possible to discriminate between three types of sensor units: the sensor unit 16 (a), the sensor unit 16 (b), and the sensor unit 16 (c). That is, when both the energization display means 62 are lit, the sensor unit 16 (a) is attached, and when only the left energization display means is lit in FIG. 12, the sensor unit 16 (b) is attached. When only the right side energization display means is turned on, it can be recognized that the sensor unit 16 (c) is attached.

  FIG. 13 shows a discrimination means 70 as another example of the discrimination means. The discriminating means 70 is composed of an ammeter connected to the two second electrodes 28. The determination means 70 is configured by forming the second electrode 28 with a member having a resistance larger than that of the lead wire, so that the two second electrodes 28 come into contact with the first electrode 26 and the one second electrode 28. Since the amount of current is different from when the first electrode 26 is in contact with the first electrode 26, it can be determined whether the sensor unit 16 (a) or the sensor unit 16 (b) is attached.

  According to the sensor mounting structure and the measurement display of the present invention, it is possible to check whether or not an appropriate biosensor is mounted so as to be measurable, and to check the type of the attached biosensor.

It is front sectional drawing which shows the state which attaches a sensor unit to the sensor attachment structure of this invention. It is an expanded front sectional view which shows the state which attached the sensor unit to the sensor attachment structure of FIG. It is front sectional drawing which shows the state which attaches another sensor unit to the sensor attachment structure of FIG. FIG. 4 is an enlarged front sectional view showing a state where the sensor unit of FIG. 3 is attached to the sensor attachment structure of FIG. 1. It is a figure which shows the insertion detection means with which the sensor attachment structure of FIG. 1 is provided, (a) is a front view, (b) is a top view. It is a figure which shows the state which assembles the sensor unit attached to the sensor attachment structure of FIG. 1, (a) is a front view, (b) is a top view. FIG. 7 is a diagram illustrating the sensor unit of FIG. 6, (a) is a rear view, (b) is a bottom view, (c) is a plan view, (d) is a right side view, and (e ) Is a front view, and (f) is a cross-sectional view taken along line YY. It is a figure which shows the state which assembles the other sensor unit attached to the sensor attachment structure of FIG. 1, (a) is a front view, (b) is a top view. It is a figure which shows the sensor unit of FIG. 8, (a) is a rear view, (b) is a bottom view, (c) is a top view, (d) is a right view, (e ) Is a front view, and (f) is a sectional view taken along the line XX. It is a figure which shows the state which attaches a sensor unit to the sensor attachment structure of FIG. 1, (a) is front sectional drawing, (b) is a top view. It is a figure which shows the use condition of the measurement indicator containing the sensor attachment structure of FIG. It is a circuit diagram which shows an example of the discrimination means with which the sensor attachment structure of FIG. 1 is provided. It is a circuit diagram which shows another example of the discrimination | determination means with which the sensor attachment structure of FIG. 1 is provided.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Sensor mounting structure 12 Measurement indicator 14 (a), 14 (b) Biosensor 16 (a), 16 (b) Sensor unit 18 Main body front-end | tip part 20 Hollow part 22 Insertion detection means 23 Separation means 24 Convex part 26 1st Electrode 28 Second electrode 29 Slide fitting (pressing member)
30 Slider 36 Recess 60, 70 Discrimination means

Claims (5)

It is a sensor mounting structure of a measurement indicator that attaches a sensor unit having a biosensor in a measurable state,
A hollow portion for holding the sensor unit in a measurable state;
Insertion detecting means for detecting insertion of the sensor unit in the hollow part;
With
A sensor mounting structure in which the insertion detection means is means for detecting contact or approach at a plurality of locations on the surface of the sensor unit. 2. The sensor mounting structure according to claim 1, wherein the insertion detection unit includes a first electrode and a plurality of second electrodes that come into contact with the first electrode when the surface of the sensor unit is in contact with and pressed. . The sensor mounting structure according to claim 2, wherein two second electrodes are provided. The sensor mounting structure according to any one of claims 1 to 3, further comprising detaching means for detaching the sensor unit held in the hollow portion from the hollow portion. A measurement indicator including the sensor mounting structure according to any one of claims 1 to 4.

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