WO2013168345A1

WO2013168345A1 - Biological information measuring device

Info

Publication number: WO2013168345A1
Application number: PCT/JP2013/001808
Authority: WO
Inventors: 西堀　裕一; 太一濱塚
Original assignee: パナソニック株式会社
Priority date: 2012-05-11
Filing date: 2013-03-15
Publication date: 2013-11-14
Also published as: JP2013236657A; JP5887546B2

Abstract

Provided is a biological information measuring device capable of achieving multiple functions and minimizing an increase in size. The biological information measuring device (1) has a liquid crystal panel (51) for displaying biological information and the like, and an antenna (70) for communicating with a mobile phone. The antenna (70) is positioned lower than the liquid crystal panel (51) in such a manner as to at least partially overlap with the liquid crystal panel (51).

Description

Biological information measuring device

The present invention relates to a biological information measuring apparatus having a main body case and a liquid crystal panel accommodated in the main body case.

The biological information measuring device of Patent Document 1 is a sphygmomanometer that is attached to a user's wrist and measures blood pressure and pulse as biological information. The biological information measuring device displays biological information measured by a display unit having a liquid crystal panel.

JP 2011-139827 A

In recent years, a biological information measurement device that communicates a measurement result of biological information to an external device such as a portable terminal has been proposed so that a user can check the measurement result of biological information with an external device. However, the number of parts increases with the addition of the communication function to the biological information measuring device, which increases the size of the biological information measuring device.

In order to solve the above-described problems, an object of the present invention is to provide a biological information measuring device capable of achieving both multi-function and suppression of enlargement.

-According to one aspect of the present invention, in a biological information measuring device for measuring biological information of a human body, including a main body case and a display unit housed in the main body case, the liquid crystal panel having a display surface, A display unit and an antenna housed in the main body case for communicating with an external device, wherein the antenna overlaps at least partially with the liquid crystal panel on a side opposite to the display surface of the liquid crystal panel. A biological information measuring device is provided.

In the biological information measuring device, the antenna is preferably used for communicating with the external device via the display surface of the liquid crystal panel.

In the biological information measuring device, a main substrate housed in the main body case and disposed on the opposite side of the display surface of the liquid crystal panel, and attached to the main substrate and controlling power supplied to the liquid crystal panel Preferably, the antenna includes an antenna substrate formed separately from the main substrate, and the antenna substrate is located between the main substrate and the liquid crystal panel.

-In the above-mentioned living body information measuring device, it has an air bag, a compression part which presses a part of a human body by expansion of the air bag, an electric pump which supplies air to the air bag, and supply of air to the air bag An electromagnetic valve that controls exhaust, and the antenna is used to communicate with the external device by electromagnetic waves, and at least one of the electric pump and the electromagnetic valve is arranged to overlap the liquid crystal panel, The electric pump and the electromagnetic valve are preferably arranged so as not to overlap the antenna.

In the biological information measuring device, the main body case is provided in a space surrounded by the bottom wall to which the compression portion is attached, a side wall rising from a peripheral edge of the bottom wall, and the bottom wall and the side wall, A first housing part for housing the pump and the electromagnetic valve, and a second housing part for housing the antenna, wherein the bottom wall protrudes in a direction away from the liquid crystal panel in the first housing part. It is preferable to include a portion having

-In the above-mentioned living body information measuring device, it is preferred that the bottom wall contains a part which has a concave shape dented in the direction which approaches the liquid crystal panel in the 2nd accommodation part.

In the biological information measuring device, the display unit is configured to display a position confirmation unit that indicates a position of the external device with respect to the biological information measuring device for the external device to communicate with the antenna. Is preferred.

The present invention provides a biological information measuring apparatus capable of achieving both multifunctional functions and suppression of an increase in size.

BRIEF DESCRIPTION OF THE DRAWINGS (a) is a schematic perspective view, (b) is a schematic front view of the biological information measuring device by one Embodiment of this invention. The schematic perspective view which shows the decomposition | disassembly structure of the main body of the biological information measuring device by one Embodiment of this invention. The perspective view of the main body housing of the biological information measuring device by one embodiment of the present invention. The top view which shows the internal structure of the main body of the biological information measuring device by one Embodiment of this invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1A is a schematic plan view of a part of a main body of a biological information measuring apparatus according to an embodiment of the present invention before the mobile phone is positioned in the upper direction of the apparatus main body, and FIG. FIG. 3 is a schematic plan view of a part of the main body when being located at a position; The schematic diagram which shows the components arrangement | positioning in the main body housing of the biological information measuring device by one Embodiment of this invention. FIG. 3 is a cross-sectional view taken along line Z1-Z1 of the main body of the biological information measuring apparatus according to the embodiment of the present invention shown in FIG. The schematic diagram which shows the components arrangement | positioning in the main body housing of the biological information measuring device by other embodiment of this invention. The schematic plan view of a part of the main body of the biological information measuring device according to another embodiment of the present invention.

With reference to FIG. 1, the structure of the sphygmomanometer as the biological information measuring apparatus 1 will be described.

The biological information measuring apparatus 1 includes a main body 10, a cuff 100, and a battery DC (see FIG. 2). The cuff 100 corresponds to a “compression portion”.

The main body 10 of the biological information measuring device 1 is formed in a rectangular shape in plan view. The main body 10 performs measurement of blood pressure and pulse as biological information of the user, display of measurement results, supply of air to the cuff 100, and the like. The battery DC supplies power to the main body 10.

The cuff 100 is wrapped around the user's wrist. The cuff 100 is fixed to the main body 10 of the biological information measuring device 1. The cuff 100 has a cloth-like main body 101 and an air bag 102. The air bag 102 is located inside the main body 101 of the cuff 100. When the air bag 102 is inflated by the air supplied from the main body 10 of the biological information measuring device 1, the cuff 100 presses the wrist of the user.

The direction of the biological information measuring device 1 is defined as follows.
(A) The direction along the longitudinal direction of the apparatus main body 10 is defined as “width direction ZA”. In the width direction ZA, when the user wears the biological information measuring device 1, the right direction when viewed from the user is defined as “right direction ZA1,” and the left direction when viewed from the user is defined as “left direction ZA2.” Is done.
(B) The direction along the short direction of the apparatus main body 10 is defined as “depth direction ZB”. In the depth direction ZB, when the user wears the biological information measuring device 1, the front side direction as viewed from the user is “front direction ZB 1”, and the back side direction as viewed from the user is “rear direction ZB 2”. Is defined.
(C) A direction orthogonal to the width direction ZA and the depth direction ZB is defined as a “height direction ZC”. In the height direction ZC, as shown in FIG. 1B, the direction from the cuff 100 toward the device body 10 is “upward ZC1”, and the direction from the device body 10 toward the cuff 100 is “downward ZC2”. Defined.

The detailed configuration of the main body 10 of the biological information measuring apparatus 1 will be described with reference to FIG.

The main body 10 includes a main body case 20, a display unit 50, a control circuit 60, an antenna 70, an operation unit 80, and an air supply mechanism 90.

The main body case 20 includes a main body housing 30, an intermediate housing 40, a liquid crystal cover 21, a battery cover 22, and bolts 23. The main body case 20 accommodates the display unit 50, the control circuit 60, the antenna 70, the operation unit 80, and the air supply mechanism 90.

The main body housing 30 has an internal space 30A, a bottom wall 34, a side wall 35, a pump support structure 36, a valve support structure 37, a pipe support structure 38, and a substrate support structure 39. The main body housing 30 is formed by integrally molding the bottom wall 34, the side wall 35, the pump support structure 36, the valve support structure 37, the pipe support structure 38, and the substrate support structure 39 with a resin material.

The bottom wall 34 has a curved shape along the wrist of the user. The side wall 35 rises from the periphery of the bottom wall 34 in the depth direction ZB. The internal space 30 A is formed as a space surrounded by the bottom wall 34 and the side wall 35. The internal space 30 A includes a first accommodation portion 31, a second accommodation portion 32, and a third accommodation portion 33. The first housing portion 31, the second housing portion 32, and the third housing portion 33 are formed by dividing the main body housing 30 in the width direction ZA. In the main body housing 30, the first housing portion 31, the second housing portion 32, and the third housing portion 33 are formed in order from right to left in the width direction ZA.

The intermediate housing 40 is formed in a frame shape from a resin material. The intermediate housing 40 is located above the main body housing 30 in the upward direction ZC1. The intermediate housing 40 is fixed to the main body housing 30 with bolts 23 at its four corners. The intermediate housing 40 is formed across the first housing portion 31 and the second housing portion 32. The intermediate housing 40 has a lower support portion 41, an intermediate support portion 42, an upper support portion 43, and a button insertion portion 44. The intermediate housing 40 supports the backlight 52 of the display unit 50 at the lower support portion 41. The intermediate housing 40 supports the liquid crystal panel 51 of the display unit 50 at the intermediate support portion 42. The intermediate housing 40 supports the liquid crystal cover 21 at the upper support portion 43.

The liquid crystal cover 21 is formed in a flat plate shape using a transparent resin material. The liquid crystal cover 21 is fixed to the upper support portion 43 of the intermediate housing 40 by double-sided tape (not shown). The liquid crystal cover 21 covers the surface of the display unit 50 in the upward direction ZC1. A button insertion portion 21 A is formed at the front portion of the liquid crystal cover 21 in the front direction ZB 1, and a position confirmation portion 21 B is formed at the left end of the liquid crystal cover 21. The position confirmation unit 21 B is located near the rear end of the antenna 70. The position confirmation unit 21B indicates the position of the mobile phone 2 with respect to the biological information measuring device 1 when the biological information measuring device 1 communicates with the mobile phone 2 as an external device.

The battery cover 22 is formed of a resin material. The battery cover 22 covers the third housing portion 33 of the main body housing 30 in the upward direction ZC1. The battery cover 22 is attached to the main body housing 30 and the intermediate housing 40.

The display unit 50 includes a liquid crystal panel 51 and a backlight 52. The liquid crystal panel 51 is located above the backlight 52 in the upward direction ZC1.

The liquid crystal panel 51 includes a liquid crystal, a transparent substrate 51A sandwiching the liquid crystal, and a transparent electrode (not shown) as a segment for applying a voltage to the liquid crystal. The transparent electrode is attached to the transparent substrate 51A. The upper surface of the liquid crystal panel 51 is a display surface.

The backlight 52 has a flat plate shape. The backlight 52 includes a light guide plate 52A, a substrate portion 52B, and two light emitting diodes 52C. The substrate portion 52B is located at the right end portion of the backlight 52. The light emitting diode 52C is attached to the substrate portion 52B. The light guide plate 52A diffuses the light from the light emitting diode 52C.

The control circuit 60 is housed in the second housing portion 32 of the main body housing 30. The control circuit 60 includes a main board 61, a control unit 62, a flexible circuit board 63, a power supply lead wire 64, a motor lead wire 65, a solenoid valve lead wire 66, and a display lead wire 67. The control circuit 60 includes a communication microcomputer (not shown). The communication microcomputer controls the frequency of power supplied to the antenna pattern 72 of the antenna 70.

The main substrate 61 is formed in a flat plate shape. The main substrate 61 is parallel to the upper surfaces of the liquid crystal panel 51 and the liquid crystal cover 21. The main board 61 has two cutout portions 61A. A control unit 62 is attached to the upper surface of the rear portion of the main board 61 in the rear direction ZB2. A power supply lead wire 64, a motor lead wire 65, and a solenoid valve lead wire 66 are attached to the upper surface of the left front end portion of the main board 61. A display lead 67 is attached to the upper surface of the left rear end portion of the main board 61.

The control unit 62 is configured by a microcomputer. The control unit 62 controls display on the liquid crystal panel 51, operation of the electric pump 91 and the electromagnetic valve 92, communication with the mobile phone 2, and the like.

The flexible circuit board 63 is attached to the upper surface of the rear end portion of the main board 61. The flexible circuit board 63 electrically connects the main board 61 and the liquid crystal panel 51.

The power supply lead 64 electrically connects the battery DC and the main board 61. The motor lead wire 65 electrically connects the electric motor 91 A of the electric pump 91 and the main board 61. The electromagnetic valve lead wire 66 electrically connects the electromagnetic valve 92 and the main board 61. The display lead 67 electrically connects the backlight 52 and the main board 61.

The antenna 70 is attached to the surface (upper surface) of the main substrate 61 on the liquid crystal panel 51 side. The antenna 70 has an antenna substrate 71 and two jumper wires 73. The antenna substrate 71 is formed in a flat plate shape. The antenna board 71 is electrically connected to the main board 61 by being attached to the main board 61 via a jumper wire 73. The antenna substrate 71 is parallel to the upper surfaces of the liquid crystal panel 51 and the liquid crystal cover 21. The antenna substrate 71 has an antenna pattern 72 formed on the surface (upper surface) of the antenna substrate 71 on the liquid crystal panel 51 side. The antenna pattern 72 is formed of a spiral copper foil. The antenna pattern 72 generates a magnetic field around it by supplying power to the copper foil. Jumper wire 73 is connected to the end of antenna pattern 72.

The operation unit 80 includes a start / end button 81, a memory call button 82, a setting button 83, a communication button 84, a board support base 85, a switch board 86, four switches 87, and a board lead wire 88. The start / end button 81, the memory call button 82, the setting button 83, and the communication button 84 are inserted into the button insertion portion 44 of the intermediate housing 40 and the button insertion portion 21A of the liquid crystal cover 21. The substrate support 85 and the switch substrate 86 are arranged in the intermediate housing 40 so as to overlap the display unit 50 in the depth direction ZB. The substrate support 85 and the switch substrate 86 are disposed above the main substrate 61 and the antenna 70 in the upward direction ZC1, and are disposed so as to overlap the main substrate 61 and the antenna 70 in the height direction ZC.

The start / end button 81 is a button for measuring the blood pressure of the user. The recall memory button 82 is a button for displaying past measurement results and the like on the liquid crystal panel 51. The setting button 83 is a button for operating the setting of the calendar and the clock. The communication button 84 is a button for communicating with the mobile phone 2.

The substrate support 85 is located at the front end of the first housing portion 31 and the second housing portion 32 of the main body housing 30 in the front direction ZB1. The substrate support base 85 is fixed to the main body housing 30 by bolts 23 that fix the main body housing 30 and the intermediate housing 40 to each other. The left portion of the substrate support base 85 in the left direction ZA2 overlaps the main substrate 61 and the antenna substrate 71 in the height direction ZC. The substrate support base 85 has two substrate support portions 85A, two positioning portions 85B, and a lead wire insertion portion 85C.

The substrate support portion 85A is formed in a hook shape. The board support portion 85A supports the switch board 86 by sandwiching it. The positioning portion 85 B regulates the movement of the switch substrate 86 relative to the substrate support base 85 by contacting the side surface of the switch substrate 86. The lead wire insertion portion 85C has a shape that is cut out toward the rear direction ZB2 in the left portion of the substrate support base 85 in the left direction ZA2.

The switch board 86 has a flat plate shape. Four switches 87 and substrate lead wires 88 are attached to the upper surface of the switch substrate 86. Each switch 87 is located at a location corresponding to each button 81-84. The board lead wire 88 is connected to the main board 61 from the upper surface of the switch board 86 via the lead wire insertion portion 85C.

The air supply mechanism 90 includes an electric pump 91, a solenoid valve 92, a pipe 93, and a bolt 94.

The electric pump 91 constitutes a diaphragm type pump. The electric pump 91 includes an electric motor 91A and a pump portion 91B, and the electric motor 91A and the pump portion 91B are arranged in a row in the depth direction ZB. The electric motor 91A has a case 91C made of magnetic material and metal, and an armature and a magnet (both not shown) are accommodated in the case 91C.

The electromagnetic valve 92 is located in front of the electric pump 91 in the forward direction ZB1. The electromagnetic valve 92 has a magnetic and metal case 92A, and a coil (not shown) is accommodated in the case 92A. In the solenoid valve 92, a state in which the internal space of the pipe 93 and the space in the main body case 20 communicate with each other (hereinafter, “open valve state”), and the internal space of the pipe 93 and the space in the main body case 20 are blocked. Switch the state (hereinafter referred to as “valve closed state”).

The piping 93 is located between the electric pump 91 and the electromagnetic valve 92 in the depth direction ZB. The piping 93 is connected to the pump portion 91B, the electromagnetic valve 92, and the air bag 102 (see FIG. 1) of the cuff 100. The pipe 93 has a fixed portion 93A. The pipe 93 is fixed to the main body housing 30 by a bolt 94 at a fixed portion 93A.

With reference to FIG. 3, the detailed structure of the main body housing 30 is demonstrated.

The first housing portion 31 is formed as a space in the right portion of the main body housing 30 in the right direction ZA1. A portion of the bottom wall 34 corresponding to the first housing portion 31 has a convex shape that protrudes in the downward direction ZC2. The side wall 35 corresponding to the first housing portion 31 has a height direction ZC dimension corresponding to the second housing portion 32 and the side wall 35 corresponding to the third housing portion 33. It has a part larger than the dimension of the height direction ZC.

The second housing portion 32 is formed as a space between the first housing portion 31 and the second housing portion 32 in the width direction ZA. The second housing portion 32 communicates with the first housing portion 31 and the third housing portion 33. The portion of the bottom wall 34 corresponding to the second accommodating portion 32 has a concave shape that is recessed in the upward direction ZC1. The portion of the bottom wall 34 corresponding to the second housing portion 32 is used as a dent in which a part of the wrist is housed when the biological information measuring apparatus 1 is attached to the wrist. The side wall 35 corresponding to the second accommodating portion 32 has a portion whose dimension in the height direction ZC is smaller than the dimension in the height direction ZC of the side wall 35 corresponding to the third accommodating portion 33.

The third housing portion 33 is located in the left portion of the main body housing 30 in the left direction ZA2. The portion of the bottom wall 34 corresponding to the third housing portion 33 is inclined downward ZC2 toward the left direction ZA2.

The bottom wall 34 has six through holes 34A. When the solenoid valve 92 (see FIG. 2) is in the open state, the air discharged into the main body case 20 (see FIG. 2) through the solenoid valve 92 is passed through the through-hole 34A (see FIG. 1). ) Is discharged outside.

The pump support structure 36 has a pair of first support portions 36A, one second support portion 36B, and two positioning portions 36C.

Each first support portion 36A extends from the bottom wall 34 along the upward direction ZC1. Each first support portion 36A supports the lower surface and the right side surface of the case 91C of the electric motor 91A of the electric pump 91 (see FIG. 4). The second support portion 36B is located on the left side of the pair of first support portions 36A.

The second support portion 36B extends from the bottom wall 34 along the upward direction ZC1. The second support portion 36B has an upper end that curves in the right direction ZA1. The second support portion 36B supports the left side surface of the case 91C of the electric motor 91A and covers the left portion in the left direction ZA2 on the upper surface of the case 91C (see FIG. 4).

Each positioning portion 36C is formed in an L shape in plan view. Each positioning portion 36C extends from the bottom wall 34 along the upward direction ZC1. The two positioning portions 36C are in contact with the left front portion and the right rear portion of the four corners of the pump portion 91B (see FIG. 4), respectively. The two positioning portions 36C restrict movement of the pump portion 91B in the width direction ZA and the depth direction ZB.

The valve support structure 37 has a support portion 37A and two positioning portions 37B.

The support portion 37A is formed in a U shape in plan view. The support portion 37A extends from the bottom wall 34 along the upward direction ZC1. The support portion 37A has a protruding portion 37C protruding along the upward direction ZC1 at the rear end portion in the rear direction ZB2. The pair of support portions 37A support the lower surface of the case 92A (see FIG. 4) of the electromagnetic valve 92. The pair of support parts 37A regulates the movement of the electromagnetic valve 92 in the backward direction ZB2 by contacting the rear side surface of the case 92A of the electromagnetic valve 92 (see FIG. 4).

Each positioning portion 37B protrudes from the front side wall 35 in the front direction ZB1 of the main body housing 30 along the rear direction ZB2. The two positioning portions 37B restrict movement of the electromagnetic valve 92 in the width direction ZA by sandwiching the electromagnetic valve 92 in the width direction ZA (see FIG. 4).

The pipe support structure 38 has one support part 38A, one fixed part 38B, one holding part 38C, and one through hole 38D.

The support portion 38A is located at the portion of the bottom wall 34 adjacent to the left end portion of the electromagnetic valve 92. The support portion 38A extends from the bottom wall 34 in the upward direction ZC1. The support portion 38A supports the lower surface of the pipe 93 (see FIG. 4).

The fixed portion 38B is located in the portion of the bottom wall 34 between the electric pump 91 and the electromagnetic valve 92 in the second direction ZB. The fixed portion 38B extends from the bottom wall 34 along the upward direction ZC1.

The holding portion 38C and the through hole 38D are located in the portion of the bottom wall 34 that overlaps the main substrate 61 (see FIG. 2). The holding portion 38C is located at the left portion in the left direction ZA2 at the periphery of the through hole 38D. The holding portion 38C is formed in a hook shape. The holding portion 38 C covers the left side surface and the upper surface of the left end portion of the pipe 93. A portion of the pipe 93 connected to the air bag 102 (see FIG. 1) of the cuff 100 is inserted into the through hole 38D. A part of the pipe 93 is supported by the protruding portion 37 C of the support portion 37 A of the valve support structure 37.

The substrate support structure 39 has one first holding portion 39A, one second holding portion 39B, six peripheral edge supporting portions 39C, and two lower surface supporting portions 39D.

The first holding portion 39A is formed integrally with the second support portion 36B of the pump support structure 36. The first holding portion 39A has a hook shape. The right side surface of the main substrate 61 in the right direction ZA1 is in contact with the second support portion 36B. The first holding portion 39A is in contact with the upper surface of the main substrate 61.

The second holding portion 39B is located at the left end portion of the second housing portion 32. The second holding portion 39B has a hook shape. The second holding portion 39B extends from the bottom wall 34 along the upward direction ZC1. The second holding portion 39B contacts the left side surface and the top surface of the main substrate 61.

The lower surface support portion 39D extends from the bottom wall 34 along the upward direction ZC1. The lower surface support portion 39D supports the main substrate 61 by contacting the lower surface of the main substrate 61.

The peripheral support portion 39C is located in the left portion, the front portion, and the rear portion of the peripheral edge of the second housing portion 32. The peripheral support portion 39C has a step shape. The peripheral support portion 39C supports the main substrate 61 by contacting the side surface and the lower surface of the main substrate 61, and restricts the movement of the main substrate 61 in the width direction ZA and the depth direction ZB. The peripheral support portion 39C adjacent to the first holding portion 39A in the rear direction ZB2 is fitted into a cutout portion 61A formed at the right end portion of the main board 61 (see FIG. 4). The peripheral support portion 39C adjacent to the second holding portion 39B in the rear direction ZB2 is fitted into a cutout portion 61A formed at the left end portion of the main board 61 (see FIG. 4).

Referring to FIG. 4, the arrangement of each part in the main body housing 30 will be described.

The main body housing 30 houses the air supply mechanism 90 in the first housing portion 31, houses the control circuit 60 and the antenna 70 in the second housing portion 32, and houses the battery DC in the third housing portion 33.

The electromagnetic valve 92 is located at the front end of the first accommodating portion 31. The electric pump 91 is located from the rear end portion of the first accommodating portion 31 to the intermediate portion. The pipe 93 is located between the electric pump 91 and the electromagnetic valve 92 in the first housing portion 31.

The main board 61 is located over substantially the entire area of the second housing portion 32. Lead wires 64 to 66 are connected to the front portion in the front direction ZB1 of the main board 61 close to the electric pump 91 and the electromagnetic valve 92. The antenna 70 is attached to the front portion in the front direction ZB1 of the main board 61 close to the battery DC.

The measurement operation of the biological information measuring apparatus 1 will be described with reference to FIGS.

The user wraps the cuff 100 around the wrist. And a user moves a wrist so that the height of the biological information measuring device 1 may become the same height as a user's heart. In this state, the user operates the start / end button 81. Based on the operation of the start / end button 81, the electric pump 91 is driven, and the electromagnetic valve 92 is changed to the closed state. Thereby, air is supplied from the electric pump 91 to the air bag 102 via the pipe 93. Thereafter, when a predetermined amount of air is supplied to the air bag 102, the biological information measuring apparatus 1 measures blood pressure and pulse.

When the measurement of blood pressure and pulse by the biological information measuring device 1 is completed, the driving of the electric pump 91 is stopped and the electromagnetic valve 92 is opened. At this time, the air in the air bag 102 moves to the electromagnetic valve 92 via the pipe 93. The air that has moved to the electromagnetic valve 92 is discharged to the outside of the electromagnetic valve 92 through a through hole formed in the electromagnetic valve 92. The air discharged from the electromagnetic valve 92 is discharged to the outside of the apparatus main body 10 through the through hole 34 A (see FIG. 3) of the main body housing 30.

Referring to FIG. 5, communication between the biological information measuring device 1 and the mobile phone 2 will be described.

The user operates the communication button 84 so that the biological information measuring apparatus 1 can communicate with the mobile phone 2. At this time, the liquid crystal panel 51 blinks and displays the segment 51B indicating the radio wave, for example, over the communication period of the biological information measuring device 1 and the mobile phone 2. Thereby, the user can recognize that the biological information measuring device 1 is in a communicable state.

Further, the user operates the mobile phone 2 so that the mobile phone 2 can communicate with the biological information measuring apparatus 1. Then, the user matches the position of the mobile phone 2 to the position of the position confirmation unit 21 B of the liquid crystal cover 21. At this time, communication between the biological information measuring device 1 and the mobile phone 2 is started. Communication between the biological information measuring device 1 and the mobile phone 2 includes transmitting authentication results and the measurement results stored in the biological information measuring device 1 to the mobile phone 2.

The operation of the biological information measuring apparatus 1 will be described with reference to FIGS. In the following, a configuration that assumes that the liquid crystal panel 51 and the antenna 70 do not overlap each other in the height direction ZC is referred to as a “comparison configuration”.

In the comparative configuration, when it is assumed that the dimension in the width direction ZA and the dimension in the depth direction ZB of the main body 10 of the biological information measuring apparatus 1 are constant, in order to secure a space for the antenna 70, the width direction ZA of the liquid crystal panel 51 is secured. And at least one of the dimension in the depth direction ZB is set small. In this case, since the numerical values and characters displayed on the liquid crystal panel 51 are small, it is difficult for the user to read the numerical values and characters. Further, assuming that the width direction ZA dimension and the depth direction ZB dimension of the main body 10 of the biological information measuring device 1 can be changed, the dimensions of the liquid crystal panel 51 in the width direction ZA and the depth direction ZB are maintained, and In order to secure a space for the antenna 70, the dimensions of the main body 10 in the width direction ZA and the depth direction ZB are set large.

On the other hand, as shown in FIG. 6, in the biological information measuring apparatus 1, the antenna 70 at least partially overlaps the liquid crystal panel 51 indicated by the two-dot chain line in the main body housing 30 in the height direction ZC. Specifically, the antenna 70 is overlapped with a portion extending from the left front end portion of the liquid crystal panel 51 to the left middle portion. For this reason, it is not necessary to reduce at least one of the dimension in the width direction ZA and the dimension in the depth direction ZB of the liquid crystal panel 51 in order to secure a space for the antenna 70. Further, it is not necessary to increase the dimension in the width direction ZA and the dimension in the depth direction ZB of the apparatus main body 10. Accordingly, it is possible to achieve both the securing of the dimension in the planar direction of the liquid crystal panel 51 and the suppression of the enlargement of the apparatus main body 10.

Further, the antenna 70 is located in a portion of the main body housing 30 that does not overlap with the electric pump 91 and the electromagnetic valve 92 in the height direction ZC. Specifically, the antenna 70 is located on the left side of the main body housing 30 in the left direction ZA2 with respect to the electric pump 91 and the electromagnetic valve 92. More specifically, the antenna 70 is located in a region (second housing portion 32) sandwiched between the battery DC, the electric pump 91, and the electromagnetic valve 92 in the width direction ZA. In addition, the antenna 70 is located closer to the battery DC than the electric pump 91 and the electromagnetic valve 92 in the second housing portion 32. For this reason, the magnetic flux generated around the antenna pattern 72 of the antenna 70 is unlikely to flow through the case 91C of the electric pump 91 and the case 92A of the electromagnetic valve 92 (both see FIG. 4).

The antenna 70 is attached to the surface of the main substrate 61 on the liquid crystal panel 51 side. For this reason, the upper surface of the antenna 70, that is, the upper surface of the antenna pattern 72 is located above the upper surface of the main substrate 61 in the upward direction ZC1. For this reason, the distance between the upper surface of the antenna 70 and the upper surface of the liquid crystal panel 51 is smaller than the distance between the upper surface of the main substrate 61 and the upper surface of the liquid crystal panel 51. Therefore, the distance between the upper surface of the antenna 70 and the upper surface of the liquid crystal cover 21 (see FIG. 7) is smaller than the distance between the upper surface of the main substrate 61 and the upper surface of the liquid crystal cover 21. Therefore, as compared with the case where the antenna pattern 72 is formed on the main board 61, the cellular phone in the upward direction ZC1 with respect to the liquid crystal cover 21 can communicate with the biological information measuring device 1 and the cellular phone 2 (see FIG. 5). The distance range of 2 is larger.

As shown in FIG. 7, the main body housing 30 has a protruding shape in which the bottom wall 34 protrudes in the downward direction ZC2 in the first housing portion 31, and the bottom wall 34 faces in the upward direction ZC1 in the second housing portion 32. And has a concave shape. Thereby, the bottom wall 34 is formed in a shape along the wrist of the user. The distance between the bottom wall 34 and the liquid crystal panel 51 in the first housing portion 31 (hereinafter referred to as “first distance D1”) is the distance between the bottom wall 34 and the liquid crystal panel 51 in the second housing portion 32 (hereinafter, “first distance D1”). Hereinafter, it is larger than “second distance D2”) (D1> D2). For this reason, the 1st accommodating part 31 can accommodate the components which have the dimension of the height direction ZC larger than the dimension of the height direction ZC of the side wall 35 (refer FIG. 3) corresponding to the 2nd accommodating part 32. FIG.

Therefore, the first housing portion 31 of the biological information measuring apparatus 1 includes an electric pump 91, a solenoid valve 92, and a pipe 93 having dimensions in the height direction ZC larger than those of the main board 61 and the antenna board 71 (see FIG. 4 for both). To accommodate.

On the other hand, it is preferable that the second accommodating portion 32 accommodates components accommodated in the first accommodating portion 31, that is, components having dimensions in the height direction ZC smaller than those of the electric pump 91 and the electromagnetic valve 92. Moreover, it is preferable that the 2nd accommodating part 32 accommodates components which have the dimension of the height direction ZC smaller than the battery DC accommodated in the 3rd accommodating part 33. FIG.

Therefore, the second housing portion 32 of the biological information measuring apparatus 1 houses the electric pump 91, the electromagnetic valve 92, and the main board 61 and the antenna 70 (see FIG. 4) having a dimension in the height direction ZC smaller than the battery DC. To do. In this manner, component placement that effectively utilizes the shape of the main body housing 30 is possible. For this reason, since it is suppressed that the distance from the bottom wall 34 to the liquid crystal panel 51 becomes large, it is suppressed that the apparatus main body 10 enlarges in the height direction ZC.

The biological information measuring apparatus 1 of the present embodiment has the following effects.

(1) The biological information measuring apparatus 1 has an antenna 70 that communicates with the mobile phone 2. For this reason, the biological information measuring device 1 has a communication function for transmitting the blood pressure and pulse measurement results to the mobile phone 2. Therefore, the function of the biological information measuring device 1 can be increased.

In addition, the antenna 70 is disposed below the liquid crystal panel 51 in the downward direction ZC2 and so as to overlap the liquid crystal panel 51. According to this configuration, the size of the main body case 20 is suppressed from increasing in the width direction ZA and the depth direction ZB. Therefore, the enlargement of the biological information measuring device 1 can be suppressed.

(2) In the biological information measuring apparatus 1, the antenna substrate 71 is attached to the surface of the main substrate 61 on the liquid crystal panel 51 side. According to this configuration, the distance between the antenna pattern 72 and the liquid crystal panel 51 is smaller than when the antenna pattern 72 is formed on the main substrate 61. For this reason, the distance between the antenna pattern 72 and the upper surface of the liquid crystal cover 21 is also small. Therefore, the biological information measuring apparatus 1 can easily communicate with the mobile phone 2.

(3) In the biological information measuring apparatus 1, the antenna 70 does not overlap the electric pump 91 and the electromagnetic valve 92. According to this configuration, the magnetic flux of the antenna 70 is suppressed from being affected by the case 91C of the electric pump 91 and the case 92A of the electromagnetic valve 92.

(4) According to the biological information measuring apparatus 1 of the present embodiment, the bottom wall 34 and the liquid crystal that are larger than the distance (second distance D2) between the bottom wall 34 and the liquid crystal panel 51 in the second housing portion 32. The electric pump 91 and the electromagnetic valve 92 are accommodated in the first accommodating portion 31 having a distance from the panel 51 (first distance D1). According to this structure, compared with the case where the electric pump 91 and the electromagnetic valve 92 are accommodated in the second accommodating portion 32, the main body 10 of the biological information measuring device 1 is suppressed from being enlarged in the height direction ZC. The

(5) According to the biological information measuring apparatus 1 of the present embodiment, the portion of the bottom wall 34 corresponding to the second housing portion 32 has a concave shape that is recessed toward the liquid crystal panel 51. According to this configuration, the portion of the bottom wall 34 corresponding to the second housing portion 32 can be used as a dent for mounting on the wrist in the biological information measuring device 1.

In addition, the main board 61 and the antenna 70 are accommodated in the second accommodation portion 32 having the second distance D2 smaller than the first distance D1 of the first accommodation portion 31. According to this configuration, as compared with the case where the battery DC or the electric pump 91 and the electromagnetic valve 92 are accommodated in the second accommodating portion 32, the apparatus main body 10 is suppressed from being enlarged in the height direction ZC.

(6) According to the biological information measuring apparatus 1 of the present embodiment, the switch board 86 is located on the upper surface of the main board 61 and is disposed so as to overlap the main board 61 in the height direction ZC. According to this configuration, the dimension in the depth direction ZB of the main body 10 of the biological information measuring device 1 can be reduced as compared with the case where the switch substrate 86 does not overlap the main substrate 61 in the height direction ZC. Therefore, the increase in the depth direction ZB of the biological information measuring apparatus 1 is suppressed.

(7) According to the biological information measuring apparatus 1 of the present embodiment, in the main body housing 30, the second support portion 36B of the pump support structure 36 and the first holding portion 39A of the substrate support structure 39 are integrally formed. ing. According to this configuration, the first holding portion 39A is formed separately from the second support portion 36B and is located on the left side in the left direction ZA2 with respect to the second support portion 36B. The dimension in the width direction ZA can be reduced. Therefore, the enlargement of the biological information measuring device 1 in the width direction ZA is suppressed.

The present invention includes an embodiment different from the above embodiment. Hereinafter, the modification of the said embodiment as other embodiment of this invention is shown. The following modifications can be combined with each other.

· According to the biological information measuring apparatus 1 of the above embodiment, the display unit 50 includes the backlight 52. On the other hand, the display unit 50 of the modified example does not have the backlight 52.

In the biological information measuring apparatus 1 of the above embodiment, the portion of the bottom wall 34 corresponding to the first housing portion 31 of the main body housing 30 has a protruding shape that protrudes in the downward direction ZC2. On the other hand, the portion of the bottom wall 34 corresponding to the first housing portion 31 of the main body housing 30 of the modified example does not have a protruding shape. In the modification, for example, the portion of the bottom wall 34 corresponding to the first housing portion 31 has a plane along the width direction ZA and the depth direction ZB.

In the biological information measuring apparatus 1 of the above embodiment, the portion of the bottom wall 34 corresponding to the second housing portion 32 of the main body housing 30 has a concave shape that is recessed in the upward direction ZC1. On the other hand, the portion of the bottom wall 34 corresponding to the second accommodating portion 32 of the main body housing 30 of the modified example does not have a concave shape. In the modification, for example, the portion of the bottom wall 34 corresponding to the second housing portion 32 has a plane along the width direction ZA and the depth direction ZB.

In the biological information measuring apparatus 1 of the above embodiment, the upper surface of the main substrate 61 is in contact with the lower surface of the antenna substrate 71. On the other hand, in the biological information measuring apparatus 1 of the modified example, a space is formed between the upper surface of the main substrate 61 and the lower surface of the antenna substrate 71. Further, in the biological information measuring apparatus 1 of another modified example, the lower surface of the main substrate 61 is in contact with the upper surface of the antenna substrate 71.

In the biological information measuring apparatus 1 according to the above-described embodiment, the antenna 70 is located at a portion near the battery DC in the second housing portion 32 of the main body housing 30. On the other hand, the antenna 70 of the biological information measuring apparatus 1 of the modified example is located in a portion near the electric pump 91 and the electromagnetic valve 92 in the second housing portion 32 of the main body housing 30. Note that the antenna 70 is positioned at a portion near the battery DC in the second housing portion 32 that the midpoint in the width direction ZA of the antenna pattern 72 is in the left direction ZA2 than the midpoint in the width direction ZA of the second housing portion 32. It is located on the left side.

· According to the biological information measuring apparatus 1 of the above embodiment, the antenna substrate 71 is located in the region of the upper surface of the main substrate 61. On the other hand, according to the biological information measuring apparatus 1 of the modified example, a part of the antenna substrate 71 protrudes outside the area of the upper surface of the main substrate 61.

In the biological information measuring apparatus 1 according to the above embodiment, the control circuit 60 and the antenna 70 are accommodated in the second accommodation portion 32 of the main body housing 30. On the other hand, according to the biological information measuring apparatus 1 of the modified example, the control circuit 60 and the antenna 70 are accommodated in the first accommodating portion 31 of the main body housing 30. The air supply mechanism 90 is accommodated in the second accommodation portion 32.

In the biological information measuring apparatus 1 of the above embodiment, the main board 61 and the switch board 86 are formed individually. On the other hand, according to the biological information measuring apparatus 1 of the modified example, as shown in FIG. 8, the main board 61 and the switch board 86 are integrally formed, that is, the main board 61 and the switch board 86 are formed as a single board. Is done. In the biological information measuring apparatus 1 of the modified example, the switch board 86 continues from the front end portion of the main board 61. The switch board 86 protrudes in the right direction ZA1 from the main board 61. The switch board 86 is positioned in front of the electromagnetic valve 92 in the front direction ZB1. According to this configuration, since the main board 61 and the switch board 86 are integrally formed, the number of parts of the biological information measuring apparatus 1 can be reduced.

In the biological information measuring apparatus 1 of the embodiment, the position confirmation unit 21B is formed on the liquid crystal cover 21. On the other hand, in the biological information measuring apparatus 1 of the modification, as shown in FIG. 9, a position confirmation unit 21 B is formed as a segment display of the liquid crystal panel 51. According to this configuration, the position confirmation unit 21 B can be arranged according to the position of the antenna 70. For this reason, the positioning accuracy of the mobile phone 2 with respect to the antenna 70 is improved. Therefore, the biological information measuring device 1 and the mobile phone 2 can be more easily communicated.

The biological information measuring apparatus 1 of the above embodiment is applied to a sphygmomanometer that wraps the cuff 100 around the wrist. On the other hand, the biological information measuring apparatus 1 of the modification is applied to a sphygmomanometer that wraps a cuff around the upper arm. In short, the biological information measuring apparatus 1 of the above embodiment is not limited to the sphygmomanometer that wraps the cuff 100 around the wrist, but can be applied to a sphygmomanometer that compresses a part of the user's body with the cuff.

The biological information measuring device 1 according to the above embodiment is applied to a sphygmomanometer. On the other hand, the biological information measuring device 1 according to a modification is applied to a device that measures biological information different from blood pressure and pulse, such as an activity meter and a body composition meter, instead of a sphygmomanometer.

The biological information measuring device 1 of the above embodiment has a battery DC. On the other hand, the biological information measuring apparatus 1 of the modified example is supplied with power from an external power source (not shown) such as a commercial power source instead of the battery DC. According to the biological information measuring apparatus 1 of the modified example, the antenna 70 is disposed closer to the third housing portion 33 in the second housing portion 32. According to this configuration, the effect of suppressing the magnetic flux of the antenna 70 from being affected by the case 91C of the electric pump 91 and the case 92A of the electromagnetic valve 92 is enhanced.

· The mobile phone 2 is used as the external device in the above embodiment. On the other hand, as a modified external device, a portable information terminal other than the cellular phone 2, for example, a tablet computer is used.

Claims

In a biological information measuring device that measures biological information of a human body,
A body case,
A display unit housed in the main body case, including a liquid crystal panel having a display surface; and
And an antenna for communicating with an external device. The antenna is disposed so as to at least partially overlap the liquid crystal panel on the side opposite to the display surface of the liquid crystal panel. Biological information measuring device.
2. The biological information measuring apparatus according to claim 1, wherein the antenna is used to communicate with the external device via a display surface of the liquid crystal panel.
The biological information measuring device according to claim 1 or 2,
A main substrate housed in the main body case and disposed on the opposite side of the display surface of the liquid crystal panel;
A controller that is attached to the main board and controls the power supplied to the liquid crystal panel;
The antenna includes an antenna substrate formed separately from the main substrate,
The antenna substrate is a biological information measuring device positioned between the main substrate and the liquid crystal panel.
The biological information measuring apparatus according to any one of claims 1 to 3,
A compression part that has an air bag and compresses a part of the human body by the expansion of the air bag;
An electric pump for supplying air to the air bag;
A solenoid valve for controlling supply and discharge of air to and from the air bag,
The antenna is used to communicate with the external device by electromagnetic waves,
At least one of the electric pump and the solenoid valve is disposed so as to overlap the liquid crystal panel,
The biological information measuring device, wherein the electric pump and the electromagnetic valve are arranged so as not to overlap the antenna.
The biological information measuring apparatus according to claim 4,
The body case is
A bottom wall to which the compression part is attached;
Side walls rising from the periphery of the bottom wall;
A first housing part for housing the electric pump and the electromagnetic valve and a second housing part for housing the antenna, which are provided in a space surrounded by the bottom wall and the side wall;
The said bottom wall is a biological information measuring device containing the part which has a convex shape which protrudes in the direction spaced apart from the said liquid crystal panel in the said 1st accommodating part.
The biological information measuring apparatus according to claim 5,
The said bottom wall is a biological information measuring device containing the part which has a concave shape dented in the direction which approaches the said liquid crystal panel in the said 2nd accommodating part.
7. The biological information measuring apparatus according to claim 1, wherein the display unit indicates a position of the external device with respect to the biological information measuring device for the external device to communicate with the antenna. A biological information measuring device configured to display a position confirmation unit.