JP2015128562A - Biological body information collection unit and adhesive member for the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a biological body information collection unit being capable of improving a function of biological body information collection while being stably fixed to a skin of a user, and further to provide an adhesive member for the biological body information collection unit.SOLUTION: There is provided an adhesive member for a biological body information collection unit comprising: a base material sheet 30 having a frame structure having a first principal surface and a second principal surface and being fixed to a biological body sensor housing 1 via a first principal surface side; and gel-like conductive adhesive layers 41 and 42 formed on the second principal surface of the base material sheet 30. As viewed in a perspective plan view from a biological body sensor housing 1 side in a state that the adhesive member for the biological body information collection unit is fixed to the biological body sensor housing 1, a whole contour of the base material sheet 30 is positioned outside a contour of the biological body sensor housing 1, and at least a half of contours of the conductive adhesive layers 41 and 42 or more are positioned between the outer contour of the base material sheet 30 and the contour of the biological body sensor housing 1.

Description

  Embodiments described herein relate generally to a biological information collecting apparatus and an adhesive member for a biological information collecting apparatus.

  Conventionally, a biological information collecting apparatus that collects various biological information, and a technique for covering the biological information collecting apparatus with an adhesive tape coated with a gel-like adhesive and fixing the biological information collecting apparatus to a user's skin are disclosed.

  It is desirable that the biological information collecting device is stably fixed to the skin while the user is wearing it. Further, depending on the type of biometric information collected by the biometric information collection device or the function of the biometric information collection device, it is necessary to devise means for fixing to the user's skin.

JP 2013-99651 A

  One embodiment of the present invention provides a living body information collecting apparatus and a living body information collecting apparatus adhesive member that can be stably fixed to a user's skin and can improve the function of collecting living body information. The purpose is to do.

  According to one embodiment of the present invention, a base sheet having a frame structure having a first main surface and a second main surface, the first main surface side being fixed to a biosensor housing; There is provided a pressure-sensitive adhesive member for a biological information collecting device comprising a gel-like conductive pressure-sensitive adhesive layer formed on a second main surface of the base sheet. When the biometric information collecting device adhesive member is fixed to the biosensor housing, the entire outer contour of the base sheet is located outside the contour of the biosensor housing when viewed from the biosensor housing side. The contour of at least 1/2 or more of the conductive adhesive layer is located between the outer contour of the base sheet and the contour of the biosensor housing.

FIG. 1 is a diagram illustrating an embodiment of a biological information collection apparatus. FIG. 2 is a diagram illustrating an embodiment of the housing of the biological information collection device. FIG. 3 is a diagram illustrating an embodiment in which the biological information collection device is worn by a user. FIG. 4 is a diagram for explaining in detail one embodiment of the adhesive member for a biological information collection device that fixes the casing of the biological information collection device to the skin of the user. FIG. 5 is a diagram illustrating one embodiment of a state in which the biological information collection device is worn by a user. FIG. 6 is a view for explaining in detail one embodiment of the adhesive member for a biological information collection device for fixing the casing of the biological information collection device to the skin of the user. FIG. 7 is a diagram showing an embodiment of a configuration for storing the adhesive member for a biological information collection device. FIG. 8 is a diagram showing an embodiment of a configuration for storing the adhesive reinforcing member of the adhesive member for a biological information collecting apparatus. FIG. 9 is a diagram showing one embodiment of a state in which the biological information collection device is worn by a user. FIG. 10 is a diagram showing an embodiment of a biological information collecting apparatus including an adhesive member for a biological information collecting apparatus having a bag-like storage body. FIG. 11 is a view showing another embodiment of the biological information collecting apparatus provided with the adhesive member for a biological information collecting apparatus having a bag-like storage body.

  Exemplary embodiments of a biological information collecting apparatus and an adhesive member for a biological information collecting apparatus will be explained below in detail with reference to the accompanying drawings. Note that the present invention is not limited to these embodiments.

(First embodiment)
FIG. 1 is a diagram illustrating an embodiment of a configuration of a biological information collection apparatus. The biological information collection apparatus 100 includes, for example, a pulse wave sensor 2, a first electrode 3, a second electrode 4, and a body temperature sensor 5. The pulse wave sensor 2 has, for example, a light emitting element (not shown) and a light receiving element (not shown), and adopts a photoelectric pulse wave method. The 1st electrode 3 and the 2nd electrode 4 are metal electrodes, for example, and are used as a sensor which detects an electrocardiogram signal by contacting a user's skin. The body temperature sensor 5 is composed of, for example, a metal electrode, and detects body surface temperature by contacting the user's skin. It is also possible to configure using an infrared sensor.

  Signals from the pulse wave sensor 2, the first electrode 3, the second electrode 4, and the body temperature sensor 5 are supplied to the signal processing unit 6. The output signal of the signal processing unit 6 is supplied to the transmission / reception unit 7 and transmitted as a radio signal. The signal transmitted from the transmission / reception unit 7 is received by, for example, a smartphone (not shown) or a tablet terminal (not shown) having a reception function. The biological information collection device 100 includes, for example, a rechargeable battery 8. The pulse wave sensor 2, the signal processing unit 6, and the transmission / reception unit 7 are biased by the battery 8. A voltage conversion circuit that converts the voltage of the battery 8 and supplies it to the pulse wave sensor 2, the signal processing unit 6, and the transmission / reception unit 7 is omitted, but is omitted. A pulse wave sensor 2, a first electrode 3, a second electrode 4, a body temperature sensor 5, a signal processing unit 6, a transmission / reception unit 7, and a battery 8 are integrally incorporated in the biosensor housing 1, and a biometric information collection device 100 is configured.

(Second Embodiment)
FIG. 2 is a diagram illustrating one embodiment of the biosensor housing 1 constituting the biometric information collection device 100. 2A is a view showing the biosensor housing 1 from the side, and FIG. 2B is a view showing the biosensor housing 1 from the lower surface 10 side.

  The biosensor housing 1 has a protrusion 20 on the lower surface 10 side, that is, the side fixed to the user's skin. For example, the pulse wave sensor 2 and the body temperature sensor 5 are provided in the protruding portion 20. By bringing the protruding portion 20 into close contact with the user's skin, collection of biological information becomes easy. The first electrode 3 and the second electrode 4 are disposed on both sides of the protruding portion 20. The first electrode 3 and the second electrode 4 are provided such that the surfaces thereof are exposed on the surface of the lower surface 10 of the biosensor housing 1. The biosensor housing 1 is made of, for example, ABS resin.

(Third embodiment)
FIG. 3 is a diagram illustrating an embodiment in which the biological information collection device 100 is worn by a user. FIG. 3A is a plan view showing a state in which the biosensor housing 1 is fixed to the adhesive base sheet 30. FIG. 3B illustrates a schematic cross-sectional structure taken along one-dot chain line II in FIG. The adhesive base sheet 30 is made of, for example, a nonwoven fabric. The biosensor housing 1 is provided on the first main surface, that is, the upper surface side of the adhesive base sheet 30. On the second main surface of the pressure-sensitive adhesive base sheet 30, that is, the surface fixed to the user's skin, two divided gel-like conductive pressure-sensitive adhesive layers, that is, the first conductivity An adhesive layer 41 and a second conductive adhesive layer 42 are attached. The protruding portion 20 of the biosensor housing 1 is located between the right contour 410 of the first conductive adhesive layer 41 and the left contour 420 of the second conductive adhesive layer 42.

  The biosensor housing 1 is fixed to the user's skin by the conductive adhesive layers (41, 42), and the first electrode 3 and the second electrode 4 provided on the biosensor housing 1 are: The conductive adhesive layer (41, 42) is electrically connected to the user's skin. The first electrode 3 and the second electrode 4 are fixed to the user's skin by the two divided conductive adhesive layers (41, 42), respectively. The electrodes 4 are fixed to the user's skin while being electrically insulated from each other.

  As shown in FIG. 3A, when the biometric information collecting device adhesive member (hereinafter, adhesive member) 9 is fixed to the biosensor housing 1 in a plan view from the biosensor housing 1 side, The outer contour 31 of the material sheet 30 is located outside the contour 11 of the biosensor housing 1 throughout. The first conductive adhesive layer 41 has a planar shape corresponding to the planar shape of the adhesive base sheet 30, and the right contour 410 of the first conductive adhesive layer 41 is the biosensor housing 1. In contact with the projecting portion 20. Note that the right contour 410 of the first conductive adhesive layer 41 may not be in contact with the protruding portion 20 of the biosensor housing 1. The contours of the three sides excluding the right contour 410 of the first conductive adhesive layer 41 are located on the outer contour 31 of the adhesive base sheet 30. The contours of the three sides excluding the right contour 410 of the first conductive adhesive layer 41 are not on the outer contour 31 of the adhesive substrate sheet 30 but between the contour 11 of the biosensor housing 1 and the adhesive substrate sheet 30. It can also be located at any point between the outer contours 31. The contours of the three sides excluding the right contour 410 of the first conductive adhesive layer 41 are set on the outer contour 31 of the adhesive base sheet 30 or between the outer contour 31 and the contour 11 of the biosensor housing 1. By positioning at an arbitrary point, the outline of about 3/4 of the first conductive adhesive layer 41 is formed on the adhesive base sheet 30 with the outer contour 31 of the adhesive base sheet 30 and the biosensor housing 1. It becomes a structure located between the outlines 11. With this configuration, the first conductive adhesive layer 41 can be used not only in the range of the area in contact with the lower surface 10 of the biosensor casing 1 but also in the area outside the outline 11 of the biosensor casing 1. The biosensor housing 1 can be fixed to the user's skin.

  The left outline 420 of the second conductive adhesive layer 42 is in contact with the protrusion 20 of the biosensor casing 1, and the right outline 422 of the second conductive adhesive layer 42 is the outline 11 of the biosensor casing 1. Outside the outer contour 31 of the adhesive substrate sheet 30. The remaining two sides of the second conductive adhesive layer 42 are positioned on the outer contour 31 of the adhesive base sheet 30. The upper and lower contours of the second conductive adhesive layer 42 are not on the outer contour 31 of the adhesive base sheet 30 but on the contour 11 of the biosensor housing 1 and the outer contour 31 of the adhesive base sheet 30. It can be located at any point in between. The contours of the three sides excluding the left contour 420 of the second conductive adhesive layer 42 are set on the outer contour 31 of the adhesive base sheet 30 or between the outer contour 31 and the contour 11 of the biosensor housing 1. By positioning at an arbitrary point, the outline of about 3/4 of the second conductive adhesive layer 42 is formed on the adhesive substrate sheet 30 with the outer contour 31 of the adhesive substrate sheet 30 and the biosensor housing 1. It becomes a structure located between the outlines 11. With this configuration, the second conductive adhesive layer 42 can be used not only in the region in contact with the lower surface 10 of the biosensor housing 1 but also in the outer region beyond the outline 11 of the biosensor housing 1. The biosensor housing 1 can be fixed to the user's skin. Note that the left-side contour 420 of the second conductive adhesive layer 42 may be configured not to contact the protruding portion 20 of the biosensor housing 1. The adhesive force for fixing the biosensor housing 1 to the user's skin can be adjusted by adjusting the dimensions of the adhesive substrate sheet 30 and adjusting the areas of the conductive adhesive layers (41, 42). I can do it.

  According to the present embodiment, the conductive adhesive layer (41, 42) is in contact with the substantially entire surface of the lower surface 10 of the biosensor housing 1 except for the protruding portion 20 provided on the lower surface 10 of the biosensor housing 1. . In addition, the conductive adhesive layers (41, 42) are integrated with the adhesive base sheet 30 even in a region beyond the outline 11 of the biosensor housing 1 when viewed from the biosensor housing 1 in a plan view. The biosensor housing 1 is fixed to the user's skin. Therefore, the biosensor housing 1 can be stably fixed to the user's skin surface. Further, the surface side of the conductive pressure-sensitive adhesive layers (41, 42), that is, the side on which the biosensor housing 1 is mounted is covered with the pressure-sensitive adhesive base sheet 30. Therefore, it is possible to avoid a situation where the conductive adhesive layer (41, 42) adheres to the clothing in a state where the user wears the biosensor housing 1. By adjusting the dimensions of the adhesive substrate sheet 30 and the conductive adhesive layers (41, 42), the strength for fixing the biosensor housing 1 can be adjusted. Further, since the electrodes (3, 4) provided on the biosensor housing 1 come into contact with the user's skin via the adhesive member 9, for example, the biosensor housing can be replaced by replacing the adhesive member 9 each time it is used. One electrode (3, 4) can be kept clean. In addition, the effect which provides the area | region 32 in which an electroconductive adhesive layer (41, 42) is not formed in the adhesion base material sheet 30 is mentioned later.

(Fourth embodiment)
FIG. 4 is a diagram for explaining in detail one embodiment of the adhesive member 9 described in the embodiment of FIG. 3. The state which integrated each component of the adhesion member 9 and each component is shown. FIG. 4A shows the adhesive base sheet 30. The adhesive base sheet 30 has a first main surface on the biosensor housing 1 side and a second main surface on the side fixed to the skin of the user. The adhesive base sheet 30 has a frame structure indicated by an outer contour 31 and an inner contour 34, and has an opening 33 indicated by an inner contour 34. The dimension of the opening 33 is adjusted according to the outline 11 of the biosensor housing 1, for example.

  FIG. 4B shows a first conductive pressure-sensitive adhesive layer 41 and a second conductive pressure-sensitive adhesive layer 42. The first conductive pressure-sensitive adhesive layer 41 has a quadrangular outer shape corresponding to the pressure-sensitive adhesive base sheet 30, and has four-side contours 410 to 413. The second conductive pressure-sensitive adhesive layer 42 also has a substantially quadrangular shape, and has four sides 420 to 423. The first conductive pressure-sensitive adhesive layer 41 and the second conductive pressure-sensitive adhesive layer 42 are attached to the second main surface of the pressure-sensitive adhesive base sheet 30. In the adhesive base sheet 30, the side on which the conductive adhesive layers (41, 42) are attached is the side fixed to the user's skin.

  FIG. 4 (C) shows the adhesive member 9 in a state where the first conductive adhesive layer 41 and the second conductive adhesive layer 42 are attached to the adhesive base sheet 30. 42) side. For example, the first conductive pressure-sensitive adhesive layer 41 and the second conductive pressure-sensitive adhesive layer 42 are arranged such that, for example, the first conductive pressure-sensitive adhesive layer 41 and the second conductive pressure-sensitive adhesive layer 42 maintain the distance corresponding to the size of the protruding portion 20 of the biosensor housing 1. It attaches to the 2 main surfaces, ie, the main surface of the side fixed to a user's skin. The gap between the conductive adhesive layers (41, 42) indicated by the right outline 410 of the first conductive adhesive layer 41 and the left outline 420 of the second conductive adhesive layer 42 and the inside of the adhesive base sheet 30 For example, an opening 46 corresponding to the protruding portion 20 of the biosensor housing 1 is configured by the contour 34.

  The contours 411 to 413 of the three sides of the first conductive adhesive layer 41 are located on the outer contour 31 of the adhesive base sheet 30. The upper outline 421 and the lower outline 423 of the second conductive adhesive layer 42 are located on the outer outline 31 of the adhesive base sheet 30. The right contour 422 of the second conductive adhesive layer 42 is located on the adhesive base sheet 30. That is, approximately 3/4 of the outline of the first conductive pressure-sensitive adhesive layer 41 and the second conductive pressure-sensitive adhesive layer 42 exists on the pressure-sensitive adhesive base sheet 30. In other words, when the adhesive member 9 is fixed to the biosensor housing 1 and viewed through the biosensor housing 1 in a plan view, the entire contour of the adhesive base sheet 30 is outside the contour 11 of the biosensor housing 1. The outline of approximately 3/4 of the first conductive adhesive layer 41 and the second conductive adhesive layer 42 is located between the outer outline 31 of the adhesive substrate sheet 30 and the outline 11 of the biosensor housing 1. Since the first conductive adhesive layer 41 and the second conductive adhesive layer 42 are positioned between the outer contour 31 of the adhesive base sheet 30 and the biosensor housing 1, the first conductive adhesive layer 41 and the second conductive adhesive layer 42 have at least a half contour. Between the two contours 11. With this configuration, the conductive adhesive layer (41, 42) fixes the biosensor housing 1 to the user's skin even in a region beyond the outline 11 of the biosensor housing 1. As shown by the outer contour 31 of the adhesive substrate sheet 30 and the right contour 422 of the second conductive adhesive layer 42, the adhesive substrate sheet 30 has a region 32 where no conductive adhesive layer is formed. It is provided in a part of the periphery of the sheet 30. The adhesive base sheet 30 is made of, for example, a nonwoven fabric. The conductive pressure-sensitive adhesive layers (41, 42) are constituted by adding polyhydric alcohol, electrolytic medieval salts, a stabilizer and water to an acrylic resin.

(Fifth embodiment)
FIG. 5 is a diagram illustrating an embodiment in which the biological information collection device 100 is worn by a user. Constituent elements corresponding to the above-described embodiment are denoted by the same reference numerals, and description thereof is omitted. FIG. 5A is a plan view showing a state in which the biosensor housing 1 is fixed to the adhesive base sheet 30. FIG. 5B illustrates a schematic cross-sectional structure taken along one-dot chain line JJ in FIG. In the present embodiment, an adhesive reinforcing member 50 is provided between the conductive adhesive layer (41, 42) and the biosensor housing 1. The adhesive reinforcing member 50 is constituted by, for example, a double-sided pressure-sensitive adhesive sheet in which a pressure-sensitive adhesive is applied on both sides. The adhesive reinforcing member 50 has an opening 51 and an opening 52 at locations corresponding to the positions where the first electrode 3 and the second electrode 4 are formed on the surface of the biosensor housing 1. The first electrode 3 and the second electrode 4 are electrically connected to the user's skin through the conductive adhesive layers (41, 42) filled in the openings 51 and 52.

  According to this embodiment, by providing the adhesive reinforcing member 50 between the conductive adhesive layer (41, 42) and the biosensor casing 1, the conductive adhesive layer (41, 42) and the biosensor casing. The adhesive strength with 1 can be increased. By increasing the adhesive force between the conductive adhesive layer (41, 42) and the biosensor housing 1, for example, when the biosensor housing 1 is removed from the skin after use, the conductive adhesive is removed from the biosensor housing 1. It is possible to avoid a situation in which the agent layers (41, 42) peel and remain on the skin. The adhesive reinforcing member 50 includes a knob portion 54 formed by protruding a part thereof. The effect of the knob part 54 will be described later.

(Sixth embodiment)
FIG. 6 is a diagram for explaining in detail one embodiment of the adhesive member 9 described in the embodiment of FIG. 5. The component which comprises the adhesion member 9 and the state which integrated each component are shown. Constituent elements corresponding to the above-described embodiment are denoted by the same reference numerals, and description thereof is omitted. FIG. 6A shows the adhesive reinforcing member 50. The adhesive reinforcing member 50 has three openings (51, 52, 53). The opening 51 and the opening 52 are provided corresponding to the positions where the first electrode 3 and the second electrode 4 formed on the surface of the lower surface 10 of the biosensor housing 1 are formed. The opening 53 is provided corresponding to the formation position of the protruding portion 20 of the biosensor housing 1. The adhesive reinforcing member 50 has a knob portion 54 formed by protruding a part thereof.

  FIG. 6B shows the adhesive base sheet 30. The adhesive base sheet 30 has a first main surface on the biosensor housing 1 side and a second main surface on the side fixed to the skin of the user. The adhesive base sheet 30 has a frame structure indicated by an outer contour 31 and an inner contour 34, and has an opening 33 indicated by an inner contour 34. The dimension of the opening 33 is adjusted according to the outline 11 of the biosensor housing 1, for example.

  FIG. 6C shows a first conductive pressure-sensitive adhesive layer 41 and a second conductive pressure-sensitive adhesive layer 42. The 1st electroconductive adhesive layer 41 and the 2nd electroconductive adhesive layer 42 are attached to the 2nd main surface of the adhesion base material sheet 30, ie, the surface side fixed to a user's skin. In the adhesive base sheet 30, the side on which the first conductive pressure-sensitive adhesive layer 41 and the second conductive pressure-sensitive adhesive layer 42 are attached is the side fixed to the user's skin.

  FIG. 6D shows a state where the adhesive reinforcing member 50 and the conductive adhesive layers (41, 42) are attached to the adhesive base sheet 30 from the adhesive reinforcing member 50 side. The adhesive reinforcing member 50 is affixed to the first main surface of the adhesive base sheet 30, that is, the biosensor housing 1 side. The adhesive reinforcing member 50 is used, for example, when the user determines that the adhesive strength between the conductive adhesive layers (41, 42) and the biosensor housing 1 is to be strengthened. The knob portion 54 of the adhesive reinforcing member 50 extends on the frame of the adhesive base sheet 30. By peeling the knob portion 54 from the adhesive base sheet 30, it is easy to peel only the adhesive reinforcing member 50 from the conductive adhesive layer (41, 42) alone. The knob portion 54 has convenience when the user reattaches the adhesive reinforcing member 50 to the adhesive base sheet 30.

(Seventh embodiment)
FIG. 7 is a diagram showing one embodiment of a configuration for storing the adhesive member 9. FIG. 7A is a plan view showing a state in which the upper surface side protective sheet 60 and the lower surface side protective sheet 70 are provided on the surface of the adhesive base sheet 30. FIG. 7B illustrates a schematic cross-sectional structure taken along one-dot chain line KK in FIG. As shown in FIG. 7B, a lower surface side protective sheet 70 is provided on the lower surfaces of the first conductive adhesive layer 41 and the second conductive adhesive layer 42. The state in which the conductive pressure-sensitive adhesive layers (41, 42) are attached to the pressure-sensitive adhesive base sheet 30 is protected and stored with the upper surface side protective sheet 60 and the lower surface side protective sheet 70, whereby the conductive pressure sensitive adhesive layer (41 , 42) can be stored while maintaining the adhesiveness. Further, when the adhesive member 9 is handled, contact with the conductive adhesive layer (41, 42) can be avoided by the protective sheet (60, 70), so that the conductive adhesive layer (41, 42) can be applied to hands or clothes. Can be avoided. Further, since the adhesive base sheet 30 is provided with the region 32 where the conductive adhesive layer is not formed, the lower surface side protective sheet 70 can be easily peeled from the adhesive member 9. In addition, it can also be made into the object of a commercial transaction in the form which the upper surface side protective sheet 60 and the lower surface side protective sheet 70 were affixed on the adhesive member 9. FIG. When using, for example, the upper surface side protection sheet 60 is peeled off, and the adhesive member 9 is attached to the biosensor housing 1. For example, by applying pressure to the lower surface side of the adhesive member 9 with the lower surface side protective sheet 70 attached, the conductive adhesive layer (41, 42) is filled in the opening 33 of the adhesive base material sheet 30, and the biosensor housing is filled. The body 1 and the conductive adhesive layer (41, 42) are in contact with each other. Thereafter, the lower surface side protective sheet 70 is peeled off, and the biosensor housing 1 is fixed to the user's skin for use.

(Eighth embodiment)
FIG. 8 is a view showing one embodiment of a configuration for storing the adhesive reinforcing member 50. FIG. 8A is a plan view showing a state in which the upper surface side protective sheet 80 and the lower surface side protective sheet 90 are provided on the surface of the adhesive reinforcing member 50. FIG. 8B illustrates a schematic cross-sectional structure taken along one-dot chain line LL in FIG. As shown in FIG. 8B, a lower surface side protective sheet 90 is provided on the lower surface of the adhesive reinforcing member 50. The upper surface side protective sheet 80 has a shape corresponding to the shape of the adhesive reinforcing member 50, and has openings (81, 82, 83) corresponding to the openings (51, 52, 53) provided in the adhesive reinforcing member 50, In addition, a protrusion 84 corresponding to the knob 54 is provided. The pressure-sensitive adhesive reinforcing member 50 having both surfaces coated with a pressure-sensitive adhesive is protected and stored with the upper surface side protective sheet 80 and the lower surface side protective sheet 90 provided on the upper surface side, thereby maintaining the adhesive property of the adhesive reinforcing member 50. It is possible to save as it is. Moreover, since the contact with the adhesive layers on both sides of the adhesive reinforcing member 50 can be avoided by the protective sheets (80, 90) during handling, the adhesive of the adhesive reinforcing member 50 is prevented from coming into contact with hands or clothes. I can do it. In addition, it can also be made into the object of a commercial transaction in the form which the upper surface side protection sheet 80 and the lower surface side protection sheet 90 were stuck to the adhesion reinforcement member 50. FIG. When using, for example, the upper surface side protective sheet 80 and the lower surface side protective sheet 90 are peeled off and attached to the surface of the conductive adhesive layer (41, 42) attached to the adhesive member 9.

(Ninth embodiment)
FIG. 9 is a diagram illustrating an embodiment in which the biological information collection device 100 is worn by a user. Constituent elements corresponding to the above-described embodiment are denoted by the same reference numerals, and description thereof is omitted. FIG. 9A shows a schematic cross section of the biosensor housing 1 with the adhesive base sheet 30 and the conductive adhesive layers (41, 42) attached thereto. FIG. 9B is a view as seen from the lower side, that is, the side where the biosensor housing 1 is fixed to the skin of the user. FIG. 9A corresponds to a cross section taken along one-dot chain line MM in FIG.

  In this embodiment, it has the light-shielding member 95 surrounding the circumference | surroundings of the protrusion part 20 of the biosensor housing | casing 1, ie, the location where the pulse wave sensor 2 and the body temperature sensor 5 are arrange | positioned. When adopting a photoelectric pulse wave system having a light emitting element and a light receiving element as the pulse wave sensor 2, it is possible to improve the collection accuracy of pulse wave information by preventing light from being mixed in from the surroundings. The light-shielding member 95 has a configuration in which a member obtained by mixing a light-shielding material in an insulating gel-like pressure-sensitive adhesive layer is provided around the protruding portion 20 separately from the conductive pressure-sensitive adhesive layers (41, 42). I can do it. In addition, it is possible to further improve the light-shielding effect by mixing a light-shielding material into the adhesive substrate sheet 30 adjacent to the protruding portion 20.

  It can also be set as the structure which adds the chemical | medical agent which accelerates | stimulates a blood vessel to an electroconductive adhesive layer (41, 42). This is effective when the blood vessel becomes thin due to the influence of the environmental temperature, etc., and the pulse wave amplitude becomes small, making it difficult to measure. As a drug that promotes vasodilation, for example, capsaicin or β blocker can be used.

  The conductive pressure-sensitive adhesive layer (41, 42) may be configured to add a component that changes color when moisture is absorbed. This is for informing the user that the conductive adhesive layers (41, 42) are in a hygroscopic state, for example, the biosensor housing 1 is in a state of being easily removed. For example, cobalt chloride or the like can be used as a component that changes color when it absorbs moisture. When it is necessary to use the biological information collecting device 100 during bathing, the biological sensor housing 1 fixed by the adhesive member 9 is covered with an adhesive waterproof sheet (not shown) or the like. Can be used by fixing to the skin.

(Tenth embodiment)
FIG. 10 is a diagram illustrating an embodiment of the biological information collection device 100 including the biological information collection device adhesive member having the bag-shaped storage body 500. Constituent elements corresponding to the above-described embodiment are denoted by the same reference numerals. FIG. 10A shows a schematic cross section, and FIG. 10B is a view as seen from the lower side, that is, the side where the biosensor housing 1 is fixed to the skin of the user. FIG. 10A corresponds to a cross section taken along one-dot chain line N-N in FIG.

  The bag-shaped storage body 500 has an insertion port 550. The biosensor housing 1 is inserted from the insertion port 550. The bag-shaped storage body 500 includes a first opening 501, a second opening 502, and a third opening 503. The first opening 501 is provided at a position corresponding to the first electrode 3 (see FIG. 2B) provided in the biosensor housing 1. Similarly, the second opening 502 is the second opening 502. It is provided at a position corresponding to the second electrode 4. Further, the third opening 503 is provided at a position corresponding to the protruding portion 20. The first opening 501 and the second opening 502 preferably have dimensions and shapes corresponding to the electrodes (3, 4) provided in the biosensor housing 1, but are not necessarily provided in the biosensor housing 1. It is not necessary to have the same shape and the same dimensions as the electrodes (3, 4) provided. The shape and size of the first opening 501 and the second opening 502 have a certain degree of margin with respect to the shape and size of the electrodes (3, 4) provided in the biosensor housing 1, As well as dimensions. The same applies to the relationship between the third opening 503 and the protrusion 20. In this embodiment, the case where the outline of the 3rd opening 503 corresponds with the outline of the protrusion part 20 is shown.

  The first opening 501 and the second opening 502 are filled with a gel-like first conductive adhesive layer 510 and a gel-like second conductive adhesive layer 511, respectively. The biological information collection device 100 is attached to the user's skin by pressing the bag-shaped storage body 500 in which the biosensor housing 1 is inserted by hand. When the biological information collecting apparatus 100 is attached to the user's skin, the gel-like conductive adhesive layers (510, 511) are in contact with the user's skin and electrodes provided on the biosensor housing 1 (Not shown) Thereby, a user's skin and the electrode provided in the biosensor housing | casing 1 are electrically connected.

  The gel-like first conductive pressure-sensitive adhesive layer 510 and the second conductive pressure-sensitive adhesive layer 511 are separated by a space region indicated by an end portion 531 and an end portion 532. That is, the gel-like first conductive pressure-sensitive adhesive layer 510 and the second conductive pressure-sensitive adhesive layer 511 are electrically separated. The distance between the end portion 531 of the gel-like first conductive adhesive layer 510 and the end portion 532 of the second conductive adhesive layer 511 corresponds to, for example, the width of the protruding portion 20.

  The bag-shaped storage body 500 can be made of a cloth such as a nonwoven fabric, for example. By using a soft material, the thickness of the bag-shaped storage body 500 is reduced in a state where the biosensor housing 1 is not inserted, and thus the adhesive member for a biological information collection device can be stored in a compact manner. Further, as the material of the bag-shaped storage body 500, a material made of a material that can maintain regularity, such as urethane foam, can be used. In the case of a bag-shaped storage body 500 that can maintain the regularity, the position of the opening (501 to 503) provided in the bag-shaped storage body 500 is fixed. Positioning of the electrodes (3, 4) provided on the biosensor housing 1 and the openings (501, 502) of the storage body 500 when inserted into the biosensor casing 1 is facilitated.

  According to this embodiment, since the biosensor housing 1 is inserted into the bag-shaped storage body 500 and fixed to the user's skin, the biosensor housing 1 can be easily mounted. By setting the shape and dimensions of the bag-shaped storage body 500 according to the shape and dimensions of the biosensor housing 1, the biosensor housing 1 can be inserted up to the end of the bag-shaped storage body 500. The electrodes (3, 4) provided in the biosensor housing 1 and the openings (501, 502) formed in the bag-like storage body 500 can be aligned. Moreover, the structure which protects the biosensor housing | casing 1 can be provided by setting it as the bag-shaped storage body 500. FIG. In addition, it is good also as a structure which sets the dimension by the side of the insertion port 550 of the bag-shaped storage body 500 so that the insertion port 550 is covered with the storage body 500 in the state in which the biosensor housing | casing 1 was stored.

(Eleventh embodiment)
FIG. 11 is a view showing another embodiment of the biological information collecting apparatus 100 including the adhesive member for the biological information collecting apparatus having the bag-shaped storage body 500. Constituent elements corresponding to the above-described embodiment are denoted by the same reference numerals. FIG. 11A shows a schematic cross section, and FIG. 11B is a view as seen from the lower side, that is, the side where the biosensor housing 1 is fixed to the skin of the user. FIG. 11A corresponds to a cross section taken along one-dot chain line OO in FIG.

  In the present embodiment, the gel-like first and second conductive pressure-sensitive adhesive layers 520 and 520 are disposed around the gel-like first conductive pressure-sensitive adhesive layer 520 and the second conductive pressure-sensitive adhesive layer 521. 521) is provided with an insulating adhesive layer 522 in contact with the outer periphery. That is, the gel-like first conductive pressure-sensitive adhesive layer 520 and the second conductive pressure-sensitive adhesive layer 521 are electrically separated by the insulating pressure-sensitive adhesive layer 522. Since the gel-like conductive pressure-sensitive adhesive layer is higher in cost than the insulating pressure-sensitive adhesive layer, a part of the pressure-sensitive adhesive layer that fixes the bag-shaped storage body 500 to the user's skin is part of the pressure-sensitive adhesive layer. By doing so, it is possible to reduce the cost. In addition, since the entire surface of the bag-like container 500 on the side in contact with the user's skin can be covered with the gel-like conductive adhesive layer (520, 521) and the insulating adhesive layer 522, It is possible to increase the adhesive force between the bag-shaped container 500 and the user's skin.

  The biosensor housing 1 described in the embodiment includes a protrusion 20 in which a pulse wave sensor 2 and a body temperature sensor 5 are provided. Depending on the specifications of the biological information collecting apparatus 100, the arrangement of the openings provided in the bag-shaped storage body 500 is different. For example, in the case of the biometric information collecting apparatus 100 having the biosensor housing 1 having a configuration not including the protruding portion 20 in which the pulse wave sensor 2 and the body temperature sensor 5 are provided, the bag-shaped storage body 500 is a biosensor housing. 1 may have only openings (501, 502) corresponding to the electrodes (3, 4) provided in FIG.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

  DESCRIPTION OF SYMBOLS 1 Biosensor housing | casing, 2 Pulse wave sensor, 3rd electrode, 4th electrode, 5 Body temperature sensor, 6 Signal processing part, 7 Transmission / reception part, 8 Battery, 9 Adhesive member, 30 Adhesive base material sheet, 41 And 42 Conductive adhesive layer, 50 Adhesive reinforcement member, 60 and 80 Upper surface side protective sheet, 70 and 90 Lower surface side protective sheet, 95 Light blocking member, 500 Bag-shaped storage body, 501 to 503 opening, 510 and 511 Adhesive layer, 520 and 521 Conductive adhesive layer, 522 Insulating adhesive layer, 550 Insertion slot.

Claims (11)

A biometric information collecting device adhesive member for fixing a biosensor housing incorporating a biosensor for collecting biometric information of a user to the user's skin, wherein the biometric information collection device adhesive member comprises:
A base material sheet having a frame structure having a first main surface and a second main surface, the first main surface side being fixed to the biosensor housing;
A gel-like conductive pressure-sensitive adhesive layer formed on the second main surface side of the base sheet;
When the biosensor collecting device adhesive member is fixed to the biosensor housing in a plan view from the biosensor housing side, the entire outer contour of the base sheet is the biosensor housing. Biological information, wherein the biometric information is located outside the contour of the biosensor, and at least a half or more of the contour of the conductive adhesive layer is located between the outer contour of the base sheet and the contour of the biosensor housing. Adhesive member for collection device.   The pressure-sensitive adhesive member for a biological information collecting apparatus according to claim 1, comprising a pressure-sensitive adhesive reinforcing member having a pressure-sensitive adhesive layer formed on both sides on the first main surface side of the base sheet.   The pressure-sensitive adhesive member for a biological information collecting apparatus according to claim 1 or 2, further comprising a region where the conductive pressure-sensitive adhesive layer is not formed in a part of the outer periphery of the second main surface of the base sheet. .   The biometric sensor has at least a function of collecting pulse wave information of a user, and the conductive adhesive layer includes a component having a vasodilating action. The adhesive member for a biological information collecting device according to one item.   A first electrode and a second electrode are provided on the surface of the biosensor housing, and the conductive adhesive layer covers the arrangement positions of the first electrode and the second electrode, respectively. It is divided | segmented and formed in the said base material sheet, The adhesive member for biological information collection devices as described in any one of Claim 1 to 4 characterized by the above-mentioned. A biometric information collecting device adhesive member for fixing a biosensor housing incorporating a biosensor for collecting biometric information of a user to the user's skin, wherein the biometric information collection device adhesive member comprises:
A base material sheet having a frame structure having a first main surface and a second main surface, the first main surface side being fixed to the biosensor housing;
A gel-like conductive pressure-sensitive adhesive layer formed on the second main surface side of the base sheet;
An adhesive reinforcing member provided on the first main surface side of the base sheet, with an adhesive layer formed on both sides;
A pressure-sensitive adhesive member for a biological information collecting device. A biosensor housing incorporating a biosensor for collecting user biometric information;
An adhesive member for fixing the biosensor housing to a user's skin;
In a biological information collecting apparatus comprising:
The adhesive member is
A base material sheet having a frame structure having a first main surface and a second main surface, the first main surface side being fixed to the biosensor housing;
A gel-like conductive adhesive layer formed on the second main surface of the base sheet;
And when the adhesive member is fixed to the biosensor housing, the entire outer contour of the base sheet is outside the contour of the biosensor housing. The biological information collection device is characterized in that at least a half or more of the contour of the conductive adhesive layer is located between the outer contour of the base sheet and the contour of the biosensor housing. A storage body having at least two or more openings on the surface of the biosensor housing fixed to the user's skin;
A gel-like conductive adhesive layer filled in at least two of the openings while being electrically insulated from each other;
An adhesive member for a biological information collecting device, comprising:   The biological information collection according to claim 8, wherein the opening filled with the gel-like conductive adhesive layer is formed corresponding to a position of an electrode provided in the biosensor housing. Adhesive member for equipment.   9. An insulating pressure-sensitive adhesive layer provided on a surface of a bag-like storage body on a side that contacts the outer periphery of the gel-like conductive pressure-sensitive adhesive layer and fixes the biosensor housing. Or an adhesive member for collecting biological information according to 9; A biosensor housing incorporating a biosensor for collecting user biometric information;
An adhesive member for fixing the biosensor housing to a user's skin;
In a biological information collecting apparatus comprising:
The adhesive member is
A storage body having at least two or more openings on the surface of the biosensor housing fixed to the user's skin;
A gel-like conductive adhesive layer filled in at least two of the openings while being electrically insulated from each other;
A biological information collecting apparatus comprising:

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