JP2016140679A - Body moisture meter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a body moisture meter capable of preventing a sensor part from being damaged when a cap is mounted.SOLUTION: A body moisture meter 10 includes: a moisture meter body 12 including a sensor part 16 at a tip end; a cap 14 that is mountable/demountable with respect to the tip end of the moisture meter body 12 and covers the sensor part 16 with it mounted on the moisture meter body 12; and a regulation structure 42 that, when the cap 14 is mounted on the moisture meter body 12, stops the cap 14 by engagement, at a prescribed regulation position with respect to the moisture meter body 12. In a state where the cap 14 is located at the regulation position with respect to the moisture meter body 12, the cap 14 is in non-contact with the sensor part 16.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an in-vivo moisture meter that measures the amount of water in a living body of a subject.

  In order to avoid dehydration in the living body, it is important to accurately grasp the amount of water in the living body of the subject. In particular, in the case of an elderly person, since the water retention ability of the living body itself is reduced, dehydration is likely to occur compared to a normal healthy person. Under such background, for example, in Patent Document 1 below, attention is paid to the subject's axilla as a part suitable for accurately grasping the amount of water in the living body, and a sensor unit having electrodes arranged in the axilla is assigned. There has been proposed an in-vivo moisture meter that calculates moisture in the living body of a subject by measuring the capacitance between the electrodes.

International Publication No. 2014/027378 Pamphlet

  When the moisture meter in the body is not used, it is desirable to attach a cap to the tip of the moisture meter in the body in order to protect the sensor unit. However, when the cap is attached to the moisture meter in the body, if the cap is pushed too much into the moisture meter in the body, the inside of the cap may come into contact with the sensor unit and the sensor unit may be damaged.

  The present invention has been made in consideration of such problems, and an object of the present invention is to provide a moisture meter in the body that can prevent a sensor unit from being damaged when a cap is attached.

  In order to achieve the above object, the in-vivo moisture meter of the present invention includes a moisture meter main body provided with a sensor unit for measuring data on moisture in the living body by contacting the body surface of the subject, A cap that is detachably attached to the tip of the moisture meter main body and covers the sensor unit in a state of being attached to the moisture meter main body; and when the cap is attached to the moisture meter main body, the cap is engaged by engagement. A restriction structure that stops the moisture meter body at a predetermined restriction position, and the cap is positioned at the restriction position with respect to the moisture meter body, and the cap is connected to the sensor unit. It is non-contact.

  According to the moisture meter in the body configured as described above, when the cap is mounted on the moisture meter main body, the cap is pushed into the moisture meter main body only to a predetermined restriction position due to the engaging action of the restriction structure. That is, the mounting depth of the cap with respect to the moisture meter main body is limited. Thereby, since a cap is not pushed too much into a moisture meter main part, contact with a cap and a sensor part can be avoided and it can prevent that a sensor part is damaged.

  In the in-vivo moisture meter, a convex portion constituting a part of the restriction structure may be provided on the outer surface of the moisture meter main body.

  As described above, since the moisture meter main body is provided with a convex portion instead of a concave portion as a part of the regulation structure, it is easy to remove dirt when the tip region of the moisture meter main body is cleaned by wiping or the like after use.

  In the moisture meter in the body, the restriction structure may include a first restriction portion and a second restriction portion that are provided at portions opposite to each other in the moisture meter main body and the cap.

  Thereby, the mounting state of the cap can be stabilized.

  In the moisture meter in the body, the moisture meter body includes a slide mechanism that movably supports the sensor unit with respect to the housing of the moisture meter body, and the slide mechanism between the sensor unit and the housing. The cap has a protective member that is liquid-tightly covered and can be deformed following the relative displacement between the sensor unit and the housing, and the cap is attached to the moisture meter body on the inner wall surfaces of the cap facing each other. In this state, a rib that faces the protective member may be provided.

  With this configuration, it is possible to prevent the protective member from being damaged by the backlash of the cap when the cap is attached.

  In the moisture meter in the body, the cap has an upper wall portion and a lower wall portion facing each other, and left and right side wall portions facing each other, and the restriction structure provided on the cap includes the upper wall portion And at least one of the lower wall portions, and the ribs may be formed on the left and right side wall portions.

  With this configuration, it is possible to prevent the protective member from being damaged by the roll of the cap when the cap is attached.

  In the body moisture meter, the rib has a rounded edge, and the edge is not in contact with the protection member in a state where the cap is located at the restriction position with respect to the moisture meter body. It may be.

  With this configuration, it is possible to prevent the protective member from being damaged by the edge of the rib.

  The moisture meter in the body includes a strap that connects the moisture meter main body and the cap, and the moisture meter main body is linearly formed, and is curved and extended from the tip of the main body portion. The cap is formed in an asymmetric shape so as to match the curved shape of the insertion portion, and the length of the strap is in a normal orientation with respect to the moisture meter body. However, it may be set to a length that is opposite to the normal direction with respect to the moisture meter body and that is insufficient to attach the cap.

  With this configuration, it is possible to prevent the cap from being lost and to prevent the cap from being attached in the opposite direction with respect to the moisture meter body. Moreover, when a moisture meter main body is provided with a protection member, damage to the protection member due to the cap being mounted in the opposite direction can be prevented.

  According to the moisture meter in the body of the present invention, it is possible to prevent the sensor unit from being damaged when the cap is attached.

It is a whole side view of the moisture meter in a body concerning the embodiment of the present invention. In the moisture meter in a body shown in FIG. 1, it is a perspective view of the state which removed the cap from the moisture meter main body. It is a perspective view of the slide mechanism provided in the front-end | tip part of a moisture meter main body. It is a partial cross section side view of the front-end | tip area | region of the moisture meter in a body in the state with which the cap was mounted | worn with the moisture meter main body. FIG. 5A is a diagram showing the first convex portion provided in the moisture meter main body and its peripheral portion, and FIG. 5B is a diagram showing the second convex portion provided in the moisture meter main body and its peripheral portion. 6A is a perspective view of the cap from an angle at which the first locking protrusion can be seen, and FIG. 6B is a perspective view of the cap from an angle at which the second locking protrusion can be seen. It is sectional drawing of the rib periphery of a cap.

  Preferred embodiments of the moisture meter in the body according to the present invention will be described below with reference to the accompanying drawings. In each figure, the X direction indicates the major axis direction of the moisture meter in the body, in particular, the Fr direction indicates the distal direction, and the Rr direction indicates the proximal direction. The LR direction indicates the left-right direction, and the Z direction indicates the up-down direction.

  FIG. 1 is an overall side view of an in-vivo moisture meter 10 according to an embodiment of the present invention. The moisture meter 10 in the body includes a moisture meter body 12 that measures the moisture content of the subject and a cap 14 that can be attached to and detached from the distal end region of the moisture meter body 12. FIG. 2 is a perspective view of the in-vivo moisture meter 10 with the cap 14 removed from the moisture meter body 12.

  The moisture meter main body 12 includes a sensor unit 16 at the tip thereof, and measures data related to moisture in the living body by bringing the sensor unit 16 into contact with the body surface of the subject. In particular, in the case of the present embodiment, the moisture meter main body 12 brings the sensor unit 16 into contact with the skin of the axilla, which is the body surface of the subject, and the sensor unit 16 detects a physical quantity according to the supplied electrical signal. The amount of water in the subject's body is detected. Specifically, the wetness of the axillary skin is detected by measuring the capacitance of the subject as the physical quantity (data related to the moisture in the living body), and the moisture content in the body is calculated.

  The moisture meter main body 12 has a main body portion 18 formed in a linear shape and an insertion portion 20 that is curved and extended from the tip of the main body portion 18.

  The main body 18 has an upper surface 18a, a lower surface 18b, and left and right side surfaces 18c, 18d that are formed substantially in parallel with each other in the major axis direction, and are formed linearly as a whole. The main body 18 includes a housing 22 that forms an outer shell, and various user interfaces are arranged on the surface of the housing 22.

  The housing 22 forms from the proximal end of the body portion 18 of the moisture meter body 12 to the distal end of the insertion portion 20. Moreover, the housing | casing 22 becomes a right-and-left half crack structure, and has the left casing 22L and the right casing 22R. The housing 22 may be made of, for example, a hard resin material (polyvinyl chloride, polyethylene, polypropylene, ABS, or the like).

  Although not shown in the figure, the housing 22 houses an electronic circuit as a calculation control unit for calculating moisture in the body, a power supply unit (battery) for supplying power to each part of the moisture meter main body 12, and the like. . The power supply to the moisture meter main body 12 may be performed by an external power source.

  The moisture meter body 12 includes a power switch 24 and a display unit 26 as a user interface. In the case of this embodiment, the power switch 24 is disposed on the rear end surface of the main body 18 so that the user can easily press the power switch 24 while holding the moisture meter main body 12. When the power switch 24 is pressed, power supply from the power supply unit provided in the housing 22 to each part of the moisture meter main body 12 is started, and the moisture meter main body 12 enters an operating state (power on).

  In addition, the arrangement position of the power switch 24 is not limited to the rear end surface of the main body 18, and may be another appropriate location (a location where there is no hindrance to pressing the power switch 24).

  In the case of this embodiment, the display unit 26 is disposed on the side surface 18 c of the main body unit 18. The display unit 26 displays the current moisture content measurement result as a numerical value. The display unit 26 may display a pattern corresponding to the measured moisture content, a previous measurement result, a remaining battery level, a symbol for notifying that when a measurement error occurs, and the like. .

  The insertion portion 20 of the moisture meter main body 12 has an upper surface 20 a and a lower surface 20 b that are curved, and is gently curved downward as a whole with respect to the main body portion 18. That is, the upper surface 20a of the insertion portion 20 constitutes a curved outer surface, and the lower surface 20b of the insertion portion 20 constitutes a curved inner surface. Therefore, the curvature of the lower surface 20b is larger than the curvature of the upper surface 20a.

  An anti-slip 28 made of an elastic member is provided in the vicinity of the tip of the side surface (right side surface in the illustrated example) opposite to the side surface on which the display unit 26 is provided in the moisture meter main body 12.

  As shown in FIGS. 2 and 3, the sensor unit 16 is provided at the distal end portion of the moisture meter main body 12 via a slide mechanism 30. The sensor unit 16 includes a planar sensor head 17 that is substantially perpendicular to the axis a of the distal end of the insertion unit 20.

  In FIG. 3, the slide mechanism 30 supports the sensor unit 16 movably with respect to the housing 22 of the moisture meter main body 12. Specifically, the slide mechanism 30 supports the sensor unit 16 so as to be slidable in a direction (A direction) along the axis a of the distal end portion of the insertion unit 20.

  In the case of the present embodiment, the slide mechanism 30 includes a hollow slide shaft portion 34 extending from the sensor portion 16 in the proximal direction (A2 direction) and the slide shaft portion 34 provided at the distal end of the insertion portion 20 in the A direction. And a hollow slide cylinder 36 that is slidably supported, and a spring 38 as a biasing member that elastically biases the sensor portion 16 in a direction (A1 direction) in which the distal end portion of the insertion portion 20 is directed.

  Although not shown, the slide shaft portion 34 is prevented from coming off in the distal direction with respect to the slide cylinder 36, and is provided in the sensor head 17 and the housing 22 in the hollow portion of the slide shaft portion 34. A signal line for electrically connecting the electronic circuit is provided.

  When the body portion 18 of the moisture meter body 12 having the slide mechanism 30 configured as described above is gripped and the sensor portion 16 is pressed against the axilla of the subject with a predetermined force or more, the elastic force of the spring 38 is increased. In contrast, the sensor unit 16 is displaced toward the insertion unit 20 side (A2 direction) by the movable range. On the other hand, when the moisture meter main body 12 is separated from the axilla, the sensor unit 16 advances by the elastic force of the spring 38 and returns to the initial position.

  The moisture meter main body 12 further includes a protective member 40 that covers the slide mechanism 30 between the sensor unit 16 and the housing 22 in a liquid-tight manner and can be deformed following the relative displacement between the sensor unit 16 and the housing 22. Have. The circumferential size (thickness) of the protection member 40 is slightly smaller (thin) than the circumferential size (thickness) of the distal end portion of the insertion portion 20.

  The protection member 40 is formed in a hollow cylindrical shape, and the slide mechanism 30 is accommodated inside thereof. The inner peripheral portion of the tip of the protection member 40 is fluid-tightly fitted into an annular groove 43 formed on the outer peripheral portion of the sensor unit 16. The proximal end portion of the protection member 40 is liquid-tightly fitted to the distal end opening 23 of the housing 22. Since such a protective member 40 is provided, the moisture meter body when the dirt on the tip region (sensor portion 16 and its peripheral portion) of the moisture meter body 12 is wiped off with a wet sheet or the like after the moisture meter body 12 is used. Intrusion of liquid (water, alcohol, etc.) into the inside 12 can be prevented.

  The protection member 40 is preferably composed of an elastic member. Examples of the constituent material of the protective member 40 include various rubber materials such as natural rubber, butyl rubber, isoprene rubber, butadiene rubber, styrene-butadiene rubber, and silicone rubber, and polyurethane, polyester, polyamide, olefin, and styrene. Examples thereof include various thermoplastic elastomers such as systems, or mixtures thereof.

  As shown in FIGS. 1 and 2, the cap 14 can be attached to and detached from the distal end region of the moisture meter main body 12, and at least the sensor unit in a state of being attached to the moisture meter main body 12 (hereinafter also referred to as “attached state”). 16 is configured to cover 16. In the present embodiment, the cap 14 covers the sensor unit 16 and the protection member 40 in the mounted state.

  The cap 14 includes a front wall portion 14a, an upper wall portion 14b, a lower wall portion 14c, and left and right side wall portions 14d and 14e, and the upper wall portion 14b, the lower wall portion 14c, and the left and right side wall portions. A peripheral wall is constituted by 14d and 14e, and the front end of the peripheral wall is closed by the front wall portion 14a.

  The cap 14 is formed in an asymmetric shape so as to match the curved shape of the insertion portion 20. Specifically, the lower wall portion 14c is formed longer than the upper wall portion 14b (projects in the proximal direction from the upper wall portion 14b), and the inner side of the curved shape of the insertion portion 20 (lower surface 20b). Is curved along. The lower wall portion 14c is opposed to the inside of the curved shape of the insertion portion 20 when the cap 14 is attached.

  FIG. 4 is a partial cross-sectional side view of the distal end region of the in-vivo moisture meter 10 with the cap 14 attached to the moisture meter body 12. In FIG. 4, for convenience of illustration, the moisture meter body 12 has a side surface, and the cap 14 has a cross section. As shown in FIG. 4, the moisture meter 10 in the body further restricts the cap 14 with respect to the moisture meter body 12 at a predetermined restriction position by engagement when the cap 14 is attached to the moisture meter body 12. 42 is provided. The cap 14 is not in contact with the sensor unit 16 in a state where the cap 14 is located at the restriction position with respect to the moisture meter main body 12.

  In the case of this embodiment, the restricting structure 42 includes a first convex portion 44 and a second convex portion 46 provided on the outer surface of the moisture meter main body 12, and a first locking projection 48 and a first convex portion provided on the inner surface of the cap 14. 2 locking projections 50. The first convex portion 44 and the second convex portion 46 are formed in the vicinity of the tip of the housing 22 of the moisture meter main body 12.

  As shown in FIG. 2, the first convex portion 44 is provided on the outer surface (upper surface 20 a) of the insertion portion 20 on the outer surface of the housing 22, and extends in the left-right direction. The first convex portion 44 is formed across the boundary portion 25 (joint) between the left casing 22L and the right casing 22R of the housing 22. In the case of the present embodiment, as shown in FIG. 5A, the portion 44L provided in the left casing 22L of the housing 22 and the portion 44R provided in the right casing 22R of the housing 22 in the first convex portion 44 are , The width (dimension in the front-rear direction) and the length (dimension in the left-right direction) are the same, that is, a symmetrical shape. In addition, the left and right portions 44L and 44R of the first convex portion 44 may have a left-right asymmetric shape.

  As shown in FIG. 2, the second convex portion 46 is provided on the curved inner surface (lower surface 20 b) of the insertion portion 20 on the outer surface of the housing 22, and extends in the left-right direction. As shown in FIG. 5B, the second convex portion 46 is formed across the boundary portion 25 (joint) between the left casing 22L and the right casing 22R of the housing 22. In the case of this embodiment, the 2nd convex part 46 is a part which the engaging protrusion 60 (refer FIG. 6B) of the cap 14 mentioned later engages. In FIG. 5B, the portion 46L provided in the left casing 22L of the housing 22 and the portion 46R provided in the right casing 22R of the housing 22 of the second convex portion 46 are the width (dimension in the front-rear direction) and The lengths (the dimensions in the left-right direction) are the same, that is, they have a symmetrical shape. Note that the left and right portions 46L and 46R of the second convex portion 46 may have a left-right asymmetric shape.

  As shown in FIG. 4, the first locking protrusion 48 is formed on the inner surface of the upper wall portion 14 b of the cap 14, and is provided on the moisture meter body 12 when the cap 14 is attached to the moisture meter body 12. Further, it abuts against the tip surface of the first convex portion 44. The pushing position of the cap 14 with respect to the moisture meter main body 12 is regulated outside the curved shape of the insertion portion 20 by the first convex portion 44 provided on the moisture meter main body 12 and the first locking projection 48 provided on the cap 14. The 1st control part 52 to do is comprised.

  In the case of this embodiment, as shown in FIG. 6A, the first locking projection 48 is in the vicinity of the opening 15 of the cap 14 (slightly behind the opening 15) and on the inner surface of the upper wall 14b. It is formed at the approximate center in the left-right direction. Further, a shallow concave portion 56 is formed behind the first locking projection 48 (on the opening 15 side), and the first convex portion 44 enters the concave portion 56 when the cap 14 is mounted as shown in FIG. .

  As shown in FIGS. 4 and 6B, the second locking projection 50 is formed on the inner surface of the lower wall portion 14 c of the cap 14, and when the cap 14 is attached to the moisture meter body 12, the moisture meter body 12. It abuts on the tip surface of the second convex portion 46 provided on the surface. In the case of the present embodiment, the second locking protrusions 50 are formed at positions facing the first locking protrusions 48, and a plurality (two in the illustrated example) are provided apart from each other in the left-right direction. Note that only one second locking protrusion 50 may be provided.

  As shown in FIG. 4, the second convex portion 46 provided on the moisture meter main body 12 and the second locking projection 50 provided on the cap 14, with respect to the moisture meter main body 12 inside the curved shape of the insertion portion 20. A second restricting portion 54 that restricts the pushing position of the cap 14 is configured.

  Thus, in the case of this embodiment, the regulation structure 42 has the 1st regulation part 52 and the 2nd regulation part 54 which were provided in the site | part on the opposite side in the moisture meter main body 12 and the cap 14. FIG. One of the first restriction part 52 and the second restriction part 54 may be omitted.

  As shown in FIGS. 4 and 6B, an engagement protrusion 60 that can be engaged with the base end surface of the second protrusion 46 provided on the moisture meter body 12 is formed behind the second locking protrusion 50. Yes. The engagement protrusion 60 is hooked on the base end surface of the second convex portion 46 with a weak engagement force in a state in which the cap 14 is attached to the moisture meter main body 12, so that the moisture meter main body does not apply a predetermined force or more to the cap 14. 12 holds the mounting state of the cap 14 with respect to 12. Thereby, the cap 14 is prevented from being unintentionally detached from the moisture meter main body 12. In addition to the engaging protrusion 60 that engages with the base end surface of the second convex portion 46 in the mounted state of the cap 14, or in place of the engaging protrusion 60, the first convex portion 44 is in the mounted state of the cap 14. An engagement protrusion that engages with the base end surface may be provided.

  In the case of this embodiment, the engagement protrusion 60 is formed at a position shifted to one side (left side in the illustrated example) from the center in the left-right direction of the cap 14. As a result, the engagement protrusion 60 can be engaged with the horizontally elongated second convex portion 46 at a position avoiding the boundary portion 25 (joint) between the left casing 22L and the right casing 22R of the housing 22.

  As shown in FIGS. 6A and 6B, ribs 62 projecting inward of the cap 14 are provided on the inner wall surfaces of the cap 14 facing each other. Specifically, ribs 62 are formed on the inner surfaces of the left and right side wall portions so as to extend in the front-rear direction. The rib 62 faces the protection member 40 in a state where the cap 14 is attached to the moisture meter main body 12. A plurality of ribs 62 are formed at intervals in the vertical direction.

  As shown in FIG. 7, the rib 62 has a rounded edge 63. The edge 63 is a portion that is located on both side edges in the width direction (short direction) of the rib 62 and extends in the extending direction (longitudinal direction) of the rib 62. The edge 63 of the rib 62 is not in contact with the protection member 40 in a state where the cap 14 is positioned at the restriction position with respect to the moisture meter main body 12 (the state shown in FIG. 4).

  The cap 14 may be made of, for example, a hard resin material (polyvinyl chloride, polyethylene, polypropylene, ABS, etc.) or a metal material (stainless steel, aluminum alloy, etc.).

  As shown in FIGS. 1 and 2, the moisture meter 10 in the body further includes a strap 66 that connects the moisture meter body 12 and the cap 14 in order to prevent the cap 14 from being lost. The strap 66 is an elongated and flexible member as a whole, and is constituted by a resin linear member (string member) in the present embodiment. The strap 66 may be constituted by a chain.

  One end of the strap 66 is connected to the moisture meter main body 12 (in the illustrated example, the strap attachment portion 19 provided near the base end of the main body portion 18). The other end of the strap 66 is connected to the cap 14 (in the illustrated example, the strap attaching portion 67 provided near the base end edge of the lower wall portion 14c).

  The length of the strap 66 is sufficient to attach and detach the cap 14 in the normal orientation shown in FIG. 1 with respect to the moisture meter main body 12, but is opposite to the normal orientation with respect to the moisture meter main body 12. It is set to a length that is insufficient to attach the cap 14 in the (upside down direction).

  The in-vivo moisture meter 10 according to the present embodiment is basically configured as described above, and its operation and effects will be described below.

  When using the moisture meter 10 in the body configured as described above, the cap 14 is removed from the moisture meter body 12. In this case, when the cap 14 is pulled with a predetermined force or more, the engagement protrusion 60 provided on the cap 14 gets over the second convex portion 46 provided on the moisture meter main body 12, so that the cap 14 is in the moisture meter main body 12. Leave.

  Then, when the power switch 24 provided on the moisture meter main body 12 is pressed, power supply from the battery to each part is started, and the moisture meter main body 12 enters an operating state (the power is turned on). Next, when the insertion part 20 of the moisture meter main body 12 with the power turned on is inserted under the subject's heel and the sensor part 16 is pressed against the skin of the axilla, the sensor part resists the elastic force of the spring 38. 16 moves backwards. When the moisture meter main body 12 detects that the sensor unit 16 has retracted to a predetermined position, the moisture meter main body 12 starts measuring the moisture content, and ends the measurement after a predetermined time has elapsed from the start of the measurement. The measurement result of the moisture amount is displayed on the display unit 26.

  Since the moisture meter 10 in the body has the cap 14, the sensor unit 16 can be prevented from being damaged by attaching the cap 14 to the moisture meter body 12 and covering the sensor unit 16 when not in use.

  In this case, according to the moisture meter 10 in the body according to the present embodiment, when the cap 14 is attached to the moisture meter body 12, the cap 14 is shown in FIG. It can only be pushed to the indicated regulation position. That is, the mounting depth of the cap 14 with respect to the moisture meter main body 12 is limited. Thereby, since the cap 14 is not pushed too much into the moisture meter main body 12, the contact between the cap 14 and the sensor unit 16 can be avoided, and the sensor unit 16 can be prevented from being damaged.

  In the case of this embodiment, the moisture meter main body 12 is provided with convex engaging portions (first convex portion 44 and second convex portion 46) as a part of the regulation structure 42 instead of a concave engaging portion. Therefore, it is difficult for dirt to adhere to the convex engaging portion with use. Moreover, even if dirt adheres, it is easy to remove the dirt when the tip area of the moisture meter main body 12 is cleaned by wiping after use. On the other hand, when the moisture meter body 12 is provided with a concave engaging portion instead of the convex engaging portion as a part of the regulating structure 42, dirt is likely to adhere to the concave engaging portion. In addition, when dirt is attached to the concave engaging portion, the dirt remains in the concave engaging portion when the tip region (sensor portion 16 and its peripheral region) of the moisture meter body 12 is cleaned by wiping after use. Cheap.

  In the case of the present embodiment, the restricting structure 42 includes the first restricting portion 52 and the second restricting portion 54 provided on the outer peripheral surface and the inner peripheral surface on the opposite sides of the moisture meter main body 12 and the cap 14. The wearing state of can be stabilized.

  In the case of the present embodiment, the moisture meter body 12 covers the slide mechanism 30 between the sensor unit 16 and the housing 22 in a liquid-tight manner and can be deformed following the relative displacement between the sensor unit 16 and the housing 22. A rib 62 is provided on an inner wall surface of the cap 14 facing the protection member 40 in a state where the cap 14 is mounted on the moisture meter main body 12. With this configuration, it is possible to prevent the protective member 40 from being damaged by the backlash of the cap 14 when the cap 14 is attached.

  In the case of this embodiment, the regulation structure 42 provided in the cap 14 is formed on the upper wall portion 14b and the lower wall portion 14c, and the rib 62 is formed on the left and right side wall portions 14d and 14e. With this configuration, it is possible to prevent the protective member 40 from being damaged due to the roll of the cap 14 in the mounted state of the cap 14.

  In the case of the present embodiment, the rib 62 has a rounded edge 63 (see FIG. 7), and the rib 14 is in a state in which the cap 14 is located at the restriction position (see FIG. 4) with respect to the moisture meter main body 12. The edge 63 of 62 is not in contact with the protection member 40. With this configuration, it is possible to prevent the protection member 40 from being damaged by the edge 63 of the rib 62.

  In the case of the present embodiment, the length of the strap 66 that connects the moisture meter main body 12 and the cap 14 is long enough to attach and detach the cap 14 in a normal orientation (see FIG. 1) with respect to the moisture meter main body 12. However, it is set to a length that is not sufficient to attach the cap 14 in the direction opposite to the normal direction with respect to the moisture meter main body 12 (the direction of the cap 14 shown in FIG. 1 is upside down). With this configuration, it is possible to prevent the cap 14 from being lost and to prevent the cap 14 from being attached in the reverse direction with respect to the moisture meter main body 12. Further, it is possible to prevent the protective member 40 from being damaged due to the cap 14 being mounted in the reverse direction.

  In the above description, the present invention has been described with reference to preferred embodiments. However, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the scope of the present invention. Yes.

DESCRIPTION OF SYMBOLS 10 ... Body moisture meter 12 ... Moisture meter main body 14 ... Cap 16 ... Sensor part 18 ... Main body part 20 ... Insertion part 42 ... Restriction structure 44 ... 1st convex part 46 ... 2nd convex part 48 ... 1st latching protrusion 50 ... 2nd latching protrusion 52 ... 1st control part 54 ... 2nd control part 60 ... Engagement protrusion 62 ... Rib 63 ... Edge

Claims (7)

A moisture meter body provided with a sensor part at the tip part for measuring data on moisture in the living body by contacting the body surface of the subject;
A cap that is detachable from the tip of the moisture meter body, and covers the sensor unit in a state of being attached to the moisture meter body;
A restriction structure for stopping the cap at a predetermined restriction position with respect to the moisture meter main body by engagement when the cap is attached to the moisture meter main body,
In a state where the cap is located at the restriction position with respect to the moisture meter main body, the cap is not in contact with the sensor unit.
Body moisture meter. In the body moisture meter according to claim 1,
On the outer surface of the moisture meter main body, a convex portion constituting a part of the regulation structure is provided.
Body moisture meter. In the body moisture meter according to claim 1 or 2,
The restricting structure includes a first restricting portion and a second restricting portion that are provided on opposite sides of the moisture meter body and the cap.
Body moisture meter. In the body moisture meter according to any one of claims 1 to 3,
The moisture meter main body liquid-tightly covers the slide mechanism that movably supports the sensor unit with respect to the casing of the moisture meter main body, and the sensor unit and the casing, and the sensor. A protective member that can be deformed following the relative displacement between the portion and the housing,
Ribs facing the protection member in a state where the cap is mounted on the moisture meter main body are provided on the inner wall surfaces facing each other of the cap.
Body moisture meter. The moisture meter in a body according to claim 4,
The cap has an upper wall portion and a lower wall portion facing each other, and left and right side wall portions facing each other,
The restriction structure provided on the cap is formed on at least one of the upper wall portion and the lower wall portion,
The rib is formed on the left and right side wall portions,
Body moisture meter. In the body moisture meter according to claim 4 or 5,
The rib has a rounded edge;
In a state where the cap is located at the restriction position with respect to the moisture meter body, the edge is not in contact with the protection member.
Body moisture meter. In the in-vivo moisture meter according to any one of claims 1 to 6,
A strap connecting the moisture meter body and the cap;
The moisture meter main body has a main body portion formed in a straight line, and an insertion portion that is curved and extended from the tip of the main body portion,
The cap is formed in an asymmetric shape so as to match the curved shape of the insertion portion,
The length of the strap is long enough to attach and detach the cap in a normal orientation with respect to the moisture meter body, but the cap is attached in a direction opposite to the normal direction with respect to the moisture meter body. It is set to a length that is insufficient for wearing,
Body moisture meter.

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