JP2011200461A - Biological information measuring apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a biological information measuring apparatus by which a user can easily visually check the display content on the display section under a state wherein the measuring section is brought into contact with the body surface.SOLUTION: This biological information measuring apparatus 10 includes: the measuring section 30 which measures the body composition; and the display section 50 which is installed on the measuring section 30 and displays the measurement result of the body composition. Then, the display section 50 is made movable to the measuring section 30.

Description

  The present invention relates to a biological information measuring device including a measuring unit that measures a body composition and a display unit that is provided in the measuring unit and displays a measurement result of the body composition.

For example, a device described in Patent Document 1 is known as the biological information measuring device.
In this biological information measuring apparatus, the body composition is measured in a state where the measurement unit is in contact with the body surface. In addition, by displaying the measurement result on the display unit, the user is notified of information such as body fat percentage.

JP 2003-310575 A

  By the way, in this biological information measuring device, although the location where the display unit is provided is not described, if the measurement unit is configured to contact the body surface and measure the body composition, the display unit is the measurement surface. Is considered to be on the opposite side. For this reason, it is difficult for a user to confirm the display content of a display part, measuring a body composition.

  An object of the present invention is to provide a biological information measurement apparatus that allows a user to easily visually recognize the display content of a display unit in a state where the measurement unit is in contact with the body surface.

  The biological information measuring device of the present invention includes a measurement unit that measures body composition and a display unit that is provided in the measurement unit and displays the measurement result of body composition, and the display unit is included in the measurement unit. It is characterized by being movable.

In this biological information measuring device, it is preferable that the biological information measuring device includes a main body that can attach and detach the measuring unit.
In this biological information measuring apparatus, the measurement unit includes a first measurement unit that measures a body composition in contact with the body surface, and a second measurement unit that measures a body composition while being held by a hand. The display unit includes a first position corresponding to a measurement mode when the body composition is measured by the first measurement unit, and a body composition measurement by the second measurement unit. It is preferable that the second position according to the measurement mode can be selected.

In this biological information measuring device, it is preferable that a fixing unit for fixing the display unit to the measuring unit is included.
In this biological information measuring apparatus, it is preferable that the movable state of the display unit with respect to the measurement unit is automatically changed according to the measurement mode of the body composition.

  In this biological information measuring device, it is preferable that a change unit for changing the size of the display unit is included.

  ADVANTAGE OF THE INVENTION According to this invention, in the state which made the measurement part contact the body surface, the biometric information measuring apparatus with which a user can visually recognize the display content of a display part easily can be provided.

1A is an overall perspective view showing a state in which a measurement unit is attached to a main body, and FIG. 1B shows a state in which the measurement unit is detached from the main body. FIG. About the measurement part of the embodiment, (a) is a front view showing a front structure when the display part is in the second position, and (b) is a plane showing a planar structure when the display part is in the second position. Figure. About the measurement part of the embodiment, (a) is a front view showing a front structure when the display part is in the first position, and (b) is a plane showing a planar structure when the display part is in the first position. Figure. About the measurement part of the embodiment, (a) is a perspective view showing a perspective structure when the display part is in the second position, and (b) is a perspective view showing the perspective structure when the display part is in the first position. Figure. The rear view which shows the back structure about the measurement part of the embodiment. The operation | movement figure which shows a state when measuring a body composition with the 1st measuring method using the biological information measuring device of the embodiment. The operation | movement figure which shows a state when measuring a body composition with the 2nd measuring method using the biological information measuring device of the embodiment. The rear view which shows the back surface structure of the measurement part about 2nd Embodiment of this invention.

(First embodiment)
A first embodiment of the present invention will be described with reference to FIGS.
FIG. 1 shows the configuration of the biological information measuring apparatus 10. FIG. 1A shows a state in which the measurement unit 30 is attached to the main body unit 20. FIG. 1B shows a state in which the measurement unit 30 is detached from the main body unit 20.

  The biological information measuring device 10 includes a main body unit 20 for a user to measure body composition by placing both feet, and a measuring unit 30 for a user to grasp the body composition and measure the body composition. The main body 20 and the measurement unit 30 are connected to each other by a cord 28.

  The main body portion 20 is provided with a placement portion 21 having a plurality of electrodes and the like, a power source 26 for turning on and off the power source of the biological information measuring device 10, and a holder 27 for housing the measurement portion 30. ing.

  The mounting portion 21 is provided with a foot electrode 22 for measuring impedance. As the foot electrode 22, a pair of energizing electrodes 23 for supplying current to the living body and a pair of measuring electrodes 24 for measuring the voltage of the current flowing through the living body are provided. A load sensor 25 is provided below each electrode 23, 24.

  The measurement unit 30 includes a gripping unit 31 for a user to grip, an input unit 40 for a user to input information necessary for body composition measurement, a body composition measurement result, and the like. A display unit 50 for displaying is provided.

  The grip portion 31 is provided with a hand electrode 32 for measuring impedance. As the hand electrode 32, a pair of energizing electrodes 33 (see FIG. 5) for supplying a current to the living body and a pair of measuring electrodes 34 for measuring the voltage of the current flowing in the living body are provided.

  Further, an abdominal electrode 35 (see FIG. 5) for measuring impedance is provided on the back surface of the measurement unit 30. As the abdominal electrode 35, a pair of energizing electrodes 36 (see FIG. 5) for supplying current to the living body and a pair of measuring electrodes 37 (see FIG. 5) for measuring the voltage of the current flowing in the living body are provided. It has been.

  In the input unit 40, a user button 41 for calling information registered in advance for each user, a selection button 42 for selecting a numerical value or the like when the user inputs various information, a measurement mode, and the like are set. A setting button 43 is provided.

The measurement unit 30 is provided with a display unit 50 that can rotate with respect to the measurement unit 30. The display unit 50 is provided with a display panel 51 for displaying various information.
The calculation unit in the main body unit 20 calculates the weight of the user based on the detection value of the load sensor 25. Also, impedance is calculated based on the voltage measured by the foot electrode 22 or the hand electrode 32, and body composition components such as muscle mass, body fat mass, visceral area, water content, and bone mass are calculated based on the impedance. . The calculated weight and the like are displayed on the display panel 51 of the display unit 50.

  With reference to FIGS. 2-4, the movable aspect of the display part 50 is demonstrated. Note that the position switching unit 70 shown in FIG. 4 is added to the measurement unit 30 in the third embodiment of the present invention, and thus the description thereof is omitted here.

The measurement unit 30 and the display unit 50 are provided with a dial-type lock mechanism (fixing unit) for fixing the rotation position of the display unit 50 with respect to the measurement unit 30 for each predetermined angle.
The locking mechanism includes an engaged member provided in the display unit 50 and having recesses at regular intervals in the circumferential direction, and an engagement member provided in the measurement unit 30 and engaged with the recesses of the display unit 50. including.

  When the engaging member is engaged with the recess of the engaged member as the display unit 50 rotates, the rotational position of the display unit 50 with respect to the measuring unit 30 is fixed. That is, the lock mechanism is in the “lock state”. When the lock mechanism is in the locked state, when a torque larger than a predetermined amount is applied to the display unit 50, the engagement between the engaged member and the engagement member is released, and the display unit 50 is measured. Rotate with respect to 30. That is, the lock mechanism is in the “unlocked state”.

  2A and 4A, when the rotation position of the display unit 50 with respect to the measurement unit 30 is in the second position, the engaged member of the measurement unit 30 is the display unit 50. The lock mechanism is locked by engaging with the engaging member. When the rotation position of the display unit 50 with respect to the measurement unit 30 is at the second position, the display panel 51 appears in front of the measurement unit 30. In addition, as shown in FIGS. 2B and 4A, the display panel 51 does not appear on the upper surface of the display unit 50.

  When the user applies a torque larger than a predetermined amount to the display unit 50 from the locked state, the engagement between the engaged member of the measurement unit 30 and the engagement member of the display unit 50 is released, and the lock mechanism is unlocked. It becomes a state. That is, the display unit 50 rotates with respect to the measurement unit 30 from the front surface toward the upper surface.

  As shown in FIG. 3B and FIG. 4B, when the rotation position of the display unit 50 with respect to the measurement unit 30 is moved to the first position, the engaged member of the measurement unit 30 is again displayed on the display unit 50. The locking mechanism is locked by engaging with the engaging member. When the rotation position of the display unit 50 with respect to the measurement unit 30 is at the first position, the display panel 51 appears on the upper surface of the measurement unit 30. Further, as shown in FIGS. 3A and 4B, the display panel 51 does not appear in front of the display unit 50. Further, when the display panel 51 appears on the upper surface of the measuring unit 30, the numerical value of the measurement result of the biological information is displayed toward the user side. That is, the vertical direction of the numerical value and the like on the panel 51 when the display panel 51 appears on the upper surface of the measuring unit 30 is the vertical direction of the numerical value and the like on the panel 51 when the display panel 51 appears on the front of the measuring unit 30. And the opposite.

A method for measuring body composition by the biological information measuring apparatus 10 will be described with reference to FIGS.
In the biological information measuring apparatus 10, a first measurement method for measuring the body composition component by pressing the abdominal electrode 35 of the measurement unit 30 against the body surface, and a second measurement for measuring the body composition component by holding the hand electrode 32. The body composition component can be measured by selecting either of the methods.

The first measurement method will be described with reference to FIG.
When measuring the amount of subcutaneous fat around the abdomen, the user holds the measuring unit 30 in both hands while standing and presses the measuring unit 30 against the body surface. At this time, by setting the rotation position of the display unit 50 with respect to the measurement unit 30 to the first position, the display content of the display panel 51 can be confirmed as the user looks down on the measurement unit 30.

The second measurement method will be described with reference to FIG.
When the user measures the amount of subcutaneous fat in the whole body, the user puts the toes on both feet on the mounting electrode 21 so that the toes of both feet are positioned on the energizing electrode 23 and the heels of both feet are respectively positioned on the measuring electrode 24. In this standing state, after holding the hand electrode 32 of the measuring unit 30 in both hands, the arm is raised horizontally, and the elbow is extended straight forward. At this time, by setting the rotation position of the display unit 50 with respect to the measurement unit 30 to the second position, the user can visually recognize the display content of the display panel 51 while facing the front.

According to this embodiment, the following effects can be achieved.
(1) In the biological information measuring apparatus 10, the display unit 50 can be moved with respect to the measuring unit 30 to select the first position and the second position. Thereby, even when any of the first measurement method and the second measurement method is selected as the measurement method, the user can easily display the display contents on the display panel 51 when measuring the body composition. It becomes possible to visually recognize.
(Second Embodiment)
A second embodiment of the present invention will be described with reference to FIG. In the following description, the changes from the configuration of the first embodiment will be mainly described, and the components common to the embodiment will be denoted by the same reference numerals and the description thereof will be omitted.

  In the biological information measuring device 10 of the first embodiment, the biological impedance is measured, and the numerical values of the body compositions are calculated based on the measured biological impedance. On the other hand, in the biological information measuring device 10 of the present embodiment, the amount of light propagated through the living body is measured, and the numerical value of each body composition is calculated based on this. That is, an optical measurement unit 60 is provided instead of the abdominal electrode 35 of the first embodiment.

  The optical measurement unit 60 includes a light source 61, a first light receiving element 62, and a second light receiving element 63. These are arranged in the order of the light source 61, the first light receiving element 62, and the second light receiving element 63 from above in the vertical direction.

  The light emitted from the light source 61 to the living body propagates through the living body while being scattered and absorbed, and appears again on the body surface. This light is received by the first light receiving element 62 or the second light receiving element 63. Since subcutaneous fat becomes resistant to the movement of light, the amount of light transmitted from the living body to the body surface decreases when the amount of subcutaneous fat in the living body is large. For this reason, the amount of light received by the first light receiving element 62 or the second light receiving element 63 is reduced. On the other hand, when the subcutaneous fat is small, the amount of light that propagates from the living body to the body surface increases, and thus the amount of light received by the first light receiving element 62 or the second light receiving element 63 increases.

  In the 1st light receiving element 62, the light which propagated to the body surface before reaching | attaining mainly a muscle among the lights irradiated in the living body from the light source 61 is received. In the second light receiving element 63, among the light irradiated from the light source 61 into the living body, the light that has propagated to the body surface after passing through the skin and subcutaneous fat and reaching the muscle is received.

  The measurement unit 30 calculates a received light amount ratio that is a ratio (B / A) of the received light amount ZB of the second light receiving element 63 to the received light amount ZA of the first light receiving element 62, and subcutaneously based on the calculated received light amount ratio. Calculate fat mass.

A method for measuring body composition by the measuring unit 30 will be described.
When measuring the amount of subcutaneous fat around the abdomen, the user holds the measuring unit 30 in both arms in the standing position, and sets the position of the display unit 50 relative to the measuring unit 30 to the first position. 30 is pressed against the body surface. And the measurement by the measurement part 30 is started in this state. The measurement unit 30 displays the subcutaneous fat amount calculated based on the measurement result of the received light amount on the display unit 50.

According to the present embodiment, the effect (1) of the first embodiment, that is, the effect that the user can easily view the display content of the display panel 51 when measuring the body composition can be achieved. it can.
(Third embodiment)
A third embodiment of the present invention will be described with reference to FIG. In the following description, the changes from the configuration of the first embodiment will be mainly described, and the components common to the embodiment will be denoted by the same reference numerals and the description thereof will be omitted.

  The biological information measuring apparatus 10 according to the first embodiment employs a configuration in which the user directly rotates the display unit 50 to select the first position or the second position. On the other hand, in the biological information measuring device 10 of the present embodiment, when the user operates the position switching unit 70, the display unit 50 is automatically changed according to the operated button.

  The position switching unit 70 is provided on the front surface of the measurement unit 30. The position switching unit 70 includes a first switching button 71 for setting the position of the display unit 50 to the first position, and a second switching button for setting the position of the display unit 50 to the second position. 72 is provided.

  An actuator for rotating the display unit 50 relative to the measurement unit 30 is provided in the measurement unit 30. This actuator operates as follows according to the operation of the position switching unit 70.

  As shown in FIG. 4A, when the second switching button 72 is pushed down, the display unit 50 is rotated to the second position based on the drive signal transmitted accordingly. Further, when the display unit 50 is at the second position, the display unit 50 is held at the same position.

  As shown in FIG. 4B, when the first switching button 71 is pressed, the display unit 50 is rotated to the first position based on the drive signal transmitted accordingly. When the display unit 50 is in the first position, the display unit 50 is held at the same position.

  According to the present embodiment, in addition to the effect (1) of the previous first embodiment, that is, the effect that the user can easily view the display content of the display panel 51 when measuring the body composition, The effect of can be produced.

  (2) By selecting the position switching unit 70, the movable state of the display unit 50 is automatically changed according to the body composition measurement mode. Thereby, the user can omit the operation of moving the display unit 50 for each measurement mode. In addition, by operating the position switching unit 70, the display unit 50 automatically moves to the optimal rotation position according to the measurement mode selected at that time, so that the user can measure the body composition. However, the display content of the display panel 51 can be easily recognized.

(Other embodiments)
Embodiments of the biological information measuring device of the present invention are not limited to the embodiments exemplified in the above embodiments, and can be modified as shown below, for example. Moreover, each modification shown below is not applied only to corresponding embodiment, A different modification can also be implemented in combination with each other.

  In the first embodiment, the structure that can fix the display unit 50 to the first position or the second position by the dial type lock mechanism is adopted. However, the lock that can fix the display unit 50 at an arbitrary position. A mechanism can also be provided. Specifically, for example, a lock mechanism including a free stop hinge may be employed instead of the lock mechanism of the first embodiment. According to this configuration, since the body composition can be measured by fixing the display unit 50 at an arbitrary position intended by the user, the measurement result can be visually recognized more easily.

In the third embodiment, the position switching unit 70 is provided in the measurement unit 30, but the position switching unit 70 may be provided in the main body unit 20.
In the third embodiment, the display unit 50 is maintained at the first position based on the operation of the first switching button 71 of the position switching unit 70, but this can be changed as follows. That is, a sensor that detects that the back surface of the measurement unit 30 is in contact with the body surface is provided, and the first display unit 50 is displayed based on the detection that the back surface of the measurement unit 30 is in contact with the body surface. It is also possible to maintain the position.

  In the above-described embodiments, the display unit 50 can be provided with a lens as a changing unit. Specifically, a guide portion into which a lens can be inserted is provided below the surface of the display portion 50 where the display panel 51 is provided, and the lens is inserted into this guide portion. Thereby, since the items and measurement results displayed on the display panel 51 are greatly enlarged, it becomes easier for the user to visually recognize the display contents.

  In each of the above embodiments, the amount of subcutaneous fat in the abdomen is measured by the first measurement method, but the site measured by the first measurement method is not limited to this. For example, it is possible to measure the amount of subcutaneous fat on the thigh and the back of the upper arm.

  In each of the above embodiments, the biological information measuring device 10 including the main body unit 20 is used. However, the main body unit 20 may be omitted. In this case, the function provided in the main body unit 20 is provided in the measurement unit 30.

  In each of the above embodiments, the cord 28 is provided between the placement unit 21 and the measurement unit 30. However, the placement unit 21 and the measurement unit 30 are each provided with a communication unit, and wirelessly using radio waves, light, or the like. You can also send and receive signals.

  DESCRIPTION OF SYMBOLS 10 ... Biological information measuring device, 20 ... Main-body part, 30 ... Measurement part, 32 ... Hand electrode (2nd measurement part), 35 ... Abdominal electrode (1st measurement part), 50 ... Display part.

Claims (6)

In a biological information measuring device including a measurement unit that measures body composition and a display unit that is provided in the measurement unit and displays a measurement result of body composition,
The biological information measuring device, wherein the display unit is movable with respect to the measuring unit. The biological information measuring device according to claim 1,
A biological information measuring device comprising: a main body that can be attached to and detached from the measuring part. The biological information measuring device according to claim 1 or 2,
The measurement unit includes a first measurement unit that measures a body composition in contact with the body surface, and a second measurement unit that measures a body composition while being held by a hand,
The display unit corresponds to the first position according to the measurement mode when the body composition is measured by the first measurement unit and the measurement mode when the body composition is measured by the second measurement unit. A biological information measuring device characterized in that the second position can be selected. In the biological information measuring device according to any one of claims 1 to 3,
A biological information measuring device comprising: a fixing unit for fixing the display unit to the measuring unit. In the biological information measuring device according to any one of claims 1 to 4,
The biological information measuring device, wherein the movable state of the display unit with respect to the measuring unit is automatically changed according to a body composition measurement mode. In the biological information measuring device according to any one of claims 1 to 5,
A biological information measuring device comprising: a changing unit for changing the size of the display unit.

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