JP4041612B2 - Electrode moving body fat scale - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a body fat scale capable of measuring a body impedance of a subject and also measuring a body weight.
[0002]
[Prior art]
From the viewpoint of maintaining health, body fat percentage, which is an index of body fat, has attracted attention. An increase in body fat causes adult diseases and the like, and thus it is possible to prevent adult diseases by measuring body fat percentage and knowing body fat. A body fat scale is known as an apparatus for measuring the body fat percentage.
[0003]
The body fat scale is configured to obtain the body fat percentage based on bioimpedance, which is the impedance of the human body of the subject, and personal data of the subject such as body weight. That is, the body fat meter has a pair of current path forming electrodes for forming a current path between both ends of the subject's human body and a pair of potential terminals for measuring a potential difference between both ends of the human body in the current path. Four electrodes made up of voltage measuring electrodes are provided. These electrodes have one current path forming electrode and one voltage measuring electrode in contact with one end of the human body, and another current path forming electrode and another voltage measuring electrode in contact with the other end of the human body. The bioimpedance between both ends of the human body can be measured via the four electrodes.
[0004]
The body fat scale is also provided with operation keys and the like, and the personal data can be input by operating the operation keys. The body fat percentage is calculated based on the bioelectrical impedance and personal data measured through the electrodes.
[0005]
An example of such a body fat scale is disclosed in Japanese Patent Publication No. 5-49050. The body fat scale disclosed in the publication is configured such that the body fat scale is integrated into a weight scale. In this body fat scale, the electrodes are disposed on the surface of a measurement table for measuring body weight, and when the subject is placed on the measurement table, the weight can be measured and the feet of each foot can be measured. It is also possible to measure bioimpedance with the soles of both feet as the ends via electrodes arranged so as to come into contact with the backs two by two.
[0006]
Also, Japanese Utility Model Laid-Open No. 5-41505 discloses a body fat scale in which electrodes are arranged on a measurement surface. In the body fat scale disclosed in the same publication, the electrodes for the toes and the heels for contacting the soles of the feet of the subject's feet were placed on the measurement surface by the subject with both feet. In this case, the legs are arranged at intervals so that the legs can stably take an upright posture without touching each other. Also for this body fat scale, the bioimpedance with the back of both feet as the end when the subject is placed in an upright posture on the measurement surface is measured.
[0007]
Japanese Patent Application Laid-Open No. 7-108040 discloses a body fat scale in which an electrode part for a foot is placed on a measurement table, and this body fat scale is also placed on the electrode part, The body weight can be measured, and the bioimpedance with the soles of both feet as ends can be measured.
[0008]
[Problems to be solved by the invention]
Here, in the body fat scale that can measure bioimpedance by placing the subject described above on the measuring table, the electrodes arranged so as to be in contact with the soles of both feet are on the surface of the measuring table. It is fixed in place and installed.
[0009]
The electrodes are arranged in such a manner that the subject is placed on the measuring table with the sole of each foot in contact with the two electrodes for each foot, and the examinee's feet are placed at an appropriate interval. Each electrode is arranged at an appropriately spaced position so that it can be spread and the subject can take a stable upright posture.
[0010]
In other words, by spreading both feet of the subject to an appropriate interval, measurement error of bioimpedance due to contact between both feet is prevented, and by taking an upright posture and making sure that the soles of the feet are in contact with the electrodes Each electrode is disposed at a position separated by a certain distance so that the bioimpedance can be measured stably. In addition, there are some which have a large electrode and which are provided with a guide for the eyelid so that bioimpedance can be measured stably.
[0011]
However, the relative position of each electrode for stably contacting each electrode on the sole of the subject's feet depends on individual differences such as the height of the subject. That is, the width between the left and right feet when both feet are spread out in a stable posture is different between a child and an adult. Therefore, the position of the electrode that can stably contact the left and right feet is also different. Is different.
[0012]
Also, even if the height is the same (even if the foot length is the same), the distance between the left and right feet to prevent both feet from touching depending on the thickness of the foot (such as the degree of obesity of the foot) Are different, and the positions of the electrodes for optimizing the distance between the left and right feet are different. Furthermore, the relative positions at which the current path forming electrode for each foot and the voltage measuring electrode should be separated differ depending on the size of the subject's foot.
[0013]
Therefore, an object of the present invention is to provide an electrode movable body fat scale that can freely adjust the position of each electrode for measuring bioimpedance according to the physique of a subject.
[0014]
[Means for Solving the Problems]
In order to solve the above problems, the present invention provides a pair of current path forming electrodes for forming a current path in the body of a subject and a pair of voltage measurements for measuring a voltage between two points in the current path. An electrode group consisting of electrodes for use, a reference table connected to the weight measuring means, capable of receiving the weight of the subject and measuring the weight of the subject, and provided on the reference table, An electrode table on which the electrode group is disposed, and the subject can measure the weight of the subject by placing the electrode table on the electrode table, and the back surfaces of both feet are brought into contact with the electrode group Can measure the bioimpedance through the electrode group, can determine the body fat percentage based on the subject's personal data including the measured body weight, and the measured bioimpedance, The electrode group is at least one of the subject. One current path forming electrode and one voltage measuring electrode for making contact with the other leg, and another current path forming electrode and another voltage measuring electrode for making contact with the other leg of the subject are relatively Electrode-moving body fat scale that can be moved along the horizontal direction of the reference table.The
[0015]
According to this electrode migration type body fat scale, with respect to the electrode group, at least the one current path forming electrode and the one voltage measuring electrode and the other current path forming electrode and the other voltage measuring electrode are relative to each other. Thus, it can be moved along the lateral direction of the reference table. Accordingly, it is possible to change the position of the electrode group in the lateral direction according to the width between the left and right feet according to the physique such as the length of the subject's feet and the thickness of the feet. As a result, the electrodes can be stably brought into contact with the soles of the subject's feet according to the physique of the subject, and the bioimpedance of the subject can be measured more accurately. Therefore, the body fat percentage obtained from the bioelectrical impedance and the personal data can be obtained more accurately.
[0016]
  Further, the electrode moving body fat scale may be configured such that the current path forming electrode and the voltage measuring electrode in contact with each foot can be relatively moved along the front-rear direction of the reference table. CanTheThereby, it is possible to change the position of the electrode for each foot in the front-rear direction according to the size of the subject's foot, the electrode can be reliably contacted by the sole of the subject's foot, The bioimpedance of the subject can be measured more accurately.
[0017]
  Further, the electrode base is provided with one electrode base on which the one current path forming electrode and one voltage measuring electrode are disposed, and the other current path forming electrode and another voltage measuring electrode. Formed so that the lower surface of the one electrode table, the lower surface of the other electrode table, and the surface of the reference table are fitted together by unevenness along the lateral direction of the reference table. In addition, the one electrode table and the other electrode table can be configured to be moved along a portion fitted to the unevenness of the reference table.The
[0018]
Accordingly, the one electrode table and the other electrode table can be relatively moved along the lateral direction, and when the subject is placed on the electrode table and the foot is brought into contact with the electrode group, Can be set to the optimal position of the foot in the horizontal direction according to the physique of the subject. Further, according to this body fat scale, the reference table and the electrode table are fitted to each other by unevenness, so that when the subject is placed on the electrode table, it can be stabilized between the reference table and the electrode table. . Thereby, the contact between the electrode disposed on the electrode table and the sole of the foot can be stabilized, the bioimpedance can be stably measured, and the body weight can be stably measured.
[0019]
  Further, in the electrode moving body fat scale, the first current path forming electrode and the one voltage measuring electrode are inclined with respect to the lateral direction and approach each other from the outside to the inside of the reference table. The second two electrodes are moved along two directions, and the other current path forming electrode and the other voltage measuring electrode are inclined with respect to the lateral direction and approach each other from the outside to the inside of the reference table. By moving along one direction, the one current path forming electrode and the one voltage measuring electrode and the other current path forming electrode and the other voltage measuring electrode are moved relatively laterally. In addition, the one current path forming electrode and the one voltage measuring electrode can be relatively moved along the front-rear direction, and the other current path forming electrode and the other voltage measuring electrode are relatively Move along the front-rear direction It may be configured to (claim1).
[0020]
According to this electrode movement type body fat scale, the electrode group can be moved in the lateral direction according to the physique of the subject, and at the same time, can be moved in the front-rear direction according to the size of the subject's foot. . Accordingly, in response to the situation that the size of the foot changes corresponding to the physique such as height (that is, the width between the left and right feet accompanying the length of the foot), which applies to many subjects, Since the change of the position in the lateral direction and the change of the position in the front-rear direction can be performed simultaneously, the position of the electrode for accurately measuring the bioelectrical impedance can be easily changed.
[0021]
  Further, the electrode base is provided with one electrode base on which the one current path forming electrode and one voltage measuring electrode are disposed, and the other current path forming electrode and another voltage measuring electrode. And separate one electrode base into a first portion where one current path forming electrode is disposed and a second portion where one voltage measuring electrode is disposed. And separating the other electrode base into another first part in which another current path forming electrode is arranged and another second part in which another voltage measuring electrode is arranged, By moving the first portion and the second portion of each electrode base in two directions that are oblique to the lateral direction and approach each other from the outside to the inside of the reference base, the one electrode The first part and the second part of the table and the other first part and the other second part of the other electrode table relatively And the first part and the second part of the one electrode base can be relatively moved along the front-rear direction, and the other first part of the other electrode base and The other second portion can be configured to move relatively along the front-rear direction.2).
[0022]
In such a body fat scale, one current path forming electrode disposed in the first portion, a voltage measuring electrode disposed in the second portion, and the other first portion are disposed. The other current path forming electrode and the other voltage measuring electrode arranged in the other second part are moved relatively laterally, and at the same time, one of the voltage measuring electrodes arranged in the first part. The current path forming electrode and the voltage measuring electrode disposed in the second part are moved relatively in the front-rear direction, and the other current path forming electrode is disposed in the other first part. And other voltage measurement electrodes arranged in the other second part can be moved relatively along the front-rear direction.
[0023]
Thereby, the change of the position of the electrode group in the lateral direction and the change of the position in the front-rear direction can be performed simultaneously, and the position of the electrode for accurately measuring the bioelectrical impedance can be easily changed. .
[0024]
  Further, in the electrode moving body fat scale, a concave portion and / or a convex portion that are oblique to the lateral direction of the reference table and approach each other from the outside to the inside of the reference table are provided on the surface of the reference table. Formed in a right region and a left region, and the lower surfaces of the first part and the second part of the one electrode base are fitted to the concave and / or convex parts of the right region of the reference base. And forming the lower surfaces of the other first part and the other second part of the other electrode base so as to be fitted to the concave part and / or the convex part of the left region of the reference base, The first part and the second part of the one electrode base and the other first part and the other second part of the other electrode base are relatively moved laterally, and the one part The first part and the second part of the electrode table are relatively moved along the front-rear direction. Bets can be can be configured to move along the said other other of the first portion of the electrode base and the other of the second portion relative the longitudinal direction (claim3).
[0025]
Also in such an electrode moving body fat scale, it is possible to simultaneously change the position of the electrode group in the lateral direction and the position in the front-rear direction, and determine the position of the electrode for accurately measuring the bioimpedance. Changes can be made easily. In addition, since the reference table and the electrode table are fitted to each other by unevenness, stability between the reference table and the reference table can be achieved when the subject is placed on the electrode table. Thereby, the contact between the electrode disposed on the electrode table and the sole of the foot can be stabilized, the bioimpedance can be stably measured, and the body weight can be stably measured.
[0026]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described with reference to FIGS.
[0027]
FIG. 1 shows an electrode moving body fat scale 1 according to an embodiment of the present invention. FIG. 1A is a plan view of the body fat scale 1 viewed from above, and FIG. 1B is a right side view of the body fat scale 1.
[0028]
The electrode movement type body fat scale 1 is configured such that a body fat scale is incorporated in an electronic weight scale, and includes a main body 2 and electrode stands 6 and 7. Then, the subject touches the electrodes 8, 9, 10, and 11 of the electrode bases 6 and 7 on the electrode bases 6 and 7 disposed on the main body 2 so that the soles of the feet of the feet are in contact Then, as will be described later, the measurement of the bioelectrical impedance through the electrode and the measurement of the body weight by the main body 2 can be performed. The body fat percentage can be obtained based on the measured bioelectrical impedance and body weight.
[0029]
An operation panel unit 5 is provided at the distal end of the main body 2, and an operation unit 12 and a display unit 13 are disposed on the operation panel unit 5. The operation unit 12 is for inputting the personal data of the subject necessary for obtaining the body fat percentage, and includes many operation keys for inputting the personal data.
[0030]
The personal data includes the subject's height data and sex, but the operation unit 12 includes a selection key for selecting an item of personal data and a numerical key for inputting numerical data. ing. The operation unit 12 is also provided with a measurement start switch for starting measurement of bioelectrical impedance. For the weight data included in one of the personal data, a weight value measured by the main body 2 described later is used.
[0031]
Various data input via the operation unit 12 and weight values measured by the main body 2 are displayed on the display unit 13, and the body fat percentage as a final measurement result is also displayed.
[0032]
The main body 2 is formed with a reference table 3. The reference table 3 is connected to a load cell 14 which is a weight measuring means inside the main body, and can measure the weight of the one placed on the reference table 3. A concave groove 4 is formed along the horizontal direction L1 on the surface of the reference table 3, and the surface of the reference table 3 and the lower surfaces of electrode tables 6 and 7 to be described later are connected to each other along the horizontal direction L1. It is designed to fit into irregularities.
[0033]
Further, stoppers 15 and 16 are provided on the left and right side portions of the body 2 where the groove 4 is formed. The stopper 15 prevents the electrode base 6 from coming off right outside the reference base 3, and the stopper 16 prevents the left foot electrode base 7 from coming off left outside the reference base 3. The stoppers 15 and 16 are provided at a position lower than the height of the upper surface of the electrode table so as not to get in the way when the feet are placed on the electrode tables 6 and 7.
[0034]
The subject's right foot is placed on the electrode table 6, and the subject's left foot is placed on the electrode table 7. Then, when the subject is placed on the electrode bases 6 and 7, the body weight of the subject can be measured by the main body 2.
[0035]
On the upper surface of the electrode platform 6 for the right foot, an electrode 8 for making contact with the toe portion of the sole of the right foot of the subject is an electrode 10 for making contact with the heel portion of the right foot of the subject. Is arranged. Further, on the upper surface of the electrode table 7 for the left foot, an electrode 9 for contacting the toe portion of the back of the left foot of the subject is an electrode 11 for contacting the heel portion of the left foot of the subject. Is arranged.
[0036]
The electrodes 8 and 9 are a pair of current path forming electrodes for forming a current path inside the human body with the tip portions of the left and right soles as both ends. The electrodes 10 and 11 are a pair of voltage measuring electrodes for measuring a potential difference between the left and right collar portions in the current path. These electrodes 8, 9, 10, 11 are connected to a known impedance measuring means comprising a current source and a voltmeter provided inside the body fat meter 1, and the bioimpedance of the human body through the electrodes Measurement is made possible.
[0037]
And the convex part as shown to 6a of FIG.1 (b) is formed in the lower surface of the electrode bases 6 and 7, and it follows the groove | channel 4 of the surface of the said reference stand 3, and the horizontal direction L1. It is made to fit in unevenness mutually. The right foot electrode base 6 and the left foot electrode base 7 can be freely moved along the lateral direction L1. Thereby, the electrodes 8 and 10 for the right foot and the electrodes 9 and 11 for the left foot change according to the width between the left and right feet in the lateral direction of the subject (the length and thickness of the subject's feet). ) To change the position.
[0038]
As a result, when measuring the bioimpedance, the position of the electrode can be freely adjusted according to the physique of the subject, so that contact between both feet can be prevented, while taking a stable upright posture The back can also be made to contact an electrode reliably.
[0039]
Next, a block of data processing related to the measurement of body weight and body fat percentage of the body fat scale 1 will be described with reference to FIG. FIG. 2 is a block diagram relating to data processing of the body fat scale 1. Various calculations such as obtaining body fat percentage are performed by an arithmetic processing unit configured to include the storage unit 17 and the CPU 18. The storage unit 17 stores personal data input through operation of the operation unit 12 and bioimpedance measurement values measured through the electrodes 8, 9, and the like, and a test object measured by the load cell 14. The person's weight data is also stored.
[0040]
The storage unit 17 stores various arithmetic expressions and coefficients necessary for obtaining a body fat percentage based on bioelectrical impedance and personal data. In addition, the storage unit 17 stores in advance the weights of the electrode bases 6 and 7 and the electrodes 8 and 9 on the reference base 3, and the load cell 14 places the subject on the electrode bases 6 and 7. Of the detected weight, only the body weight of the subject can be measured.
[0041]
And the calculation which calculates | requires the body fat rate based on the said data and arithmetic expression memorize | stored in the memory | storage part 17 is performed based on operation | movement of CPU18. In addition, the input / output of the data between the respective units in the course of each data processing is performed via the input / output (I / O) unit 19. That is, input of personal data to the storage unit 17 through operation of the operation unit 12, input of bioimpedance measured through the electrodes 8, 9, and weight measured by the load cell 14 to the storage unit 17. The body fat percentage finally obtained is output to the display unit 13 through the input / output unit 19 and displayed.
[0042]
Next, another embodiment of the present invention will be described. FIG. 3 shows an electrode moving body fat scale 20 according to another embodiment of the present invention. FIG. 3 (a) is a plan view of the body fat scale 20 viewed from above, and FIG. 3 is a right side view of the body fat scale 20. FIG.
[0043]
As with the body fat scale 1, the body fat scale 20 also includes a main body 22 and electrode stands 26 and 27. An operation panel unit 5 in which the operation unit 12 and the display unit 13 are disposed is provided at the tip of the main body 22. The main body 22 is formed with a reference table 23 on which the weight on the main body 22 can be measured. Also for the body fat scale 20, the calculation processing related to the measurement of body weight and body fat percentage is performed by the data processing block shown in FIG. 2.
[0044]
In the body fat scale 20, the surface of the reference table 23 and the lower surfaces of the electrode tables 26 and 27 are made flat. The reference table 23 is provided with a guide 24 a corresponding to the positions of the front ends of the electrode tables 26 and 27 and a guide 24 b corresponding to the positions of the rear ends of the electrode tables 26 and 27. The right foot electrode base 26 and the left foot electrode base 27 can be freely moved in the lateral direction L1 along the guides 24a and 24b.
[0045]
Thereby, the position of the electrodes 8 and 10 for the right foot and the electrodes 9 and 11 for the left foot can be changed according to the height of the subject and the degree of obesity (that is, the length and thickness of the foot). . As a result, when measuring the bioelectrical impedance on the electrode bases 26 and 27, the position of the electrode can be freely adjusted in accordance with the physique of the subject, and contact between both feet can be prevented. Further, by taking a stable upright posture, the sole of the foot can be surely brought into contact with the electrode.
[0046]
Next, still another embodiment of the present invention will be described. FIG. 4 shows an electrode moving body fat scale 30 according to another embodiment of the present invention. FIG. 4 (a) is a plan view of the body fat scale 30 viewed from above, and FIG. 4 is a right side view of the body fat scale 30. FIG. As with the body fat scales 1 and 20, the body fat scale 30 also includes a main body 32 and electrode bases such as 36a and 37a.
[0047]
The body fat scale 30 is divided into an electrode base 36 for the foot and an electrode base 38 for the heel as the electrode base for the right foot. In addition, the electrode table for the left foot is separated into the electrode table 37 for the foot and the electrode table 39 for the heel. In addition, current path forming electrodes 8 and 9 are disposed on the foot electrode bases 36 and 37, and voltage measuring electrodes 10 and 11 are disposed on the heel electrode bases 38 and 39. ing. Further, convex portions as shown by 36a and 38a in FIG. 4B are formed on the lower surfaces of the electrode tables 36, 37, 38 and 39, and grooves 34a of the reference table 33, which will be described later, 34b, 35a, and 35b are fitted to the unevenness.
[0048]
Further, in the body fat scale 30, four concave grooves 34a, 34b, 35a, 35b are formed on the surface of the reference base 33 of the main body 32 in a direction oblique to the lateral direction L1. ing. That is, as shown in FIG. 4, the grooves 34a and 34b formed in the region on the right side of the reference table 33 are formed so as to approach each other from the outside toward the inside from the right end of the reference table 33. An electrode base 36 is fitted into the groove 34b, and an electrode base 38 is fitted into the groove 34b. The grooves 35a and 35b formed in the left region of the reference table 33 are formed so as to approach each other from the outside toward the inside from the left end of the reference table 33, and the electrode table 37 is fitted into the groove 35a. An electrode base 39 is fitted in the groove 35b.
[0049]
The right foot electrode bases 36 and 38 can be moved along the grooves 34a and 34b, respectively, and the left foot electrode bases 37 and 39 can be moved along the grooves 35a and 35b, respectively. Then, by moving each electrode base along the groove, the lateral relative positions of the right foot electrodes 8 and 10 and the left foot electrodes 9 and 11 can be changed, and a current path for each foot is formed. The relative positions of the electrodes 8 and 9 and the voltage measuring electrodes 10 and 11 in the front-rear direction L2 can be changed at the same time.
[0050]
As a result, as shown in FIG. 5, the position in the front-rear direction of each foot electrode can be changed in accordance with the size of the subject's foot. FIG. 5 is a diagram showing a state in which the electrode is in contact with the sole of the subject's foot using an example of the left foot, and FIG. 5A is a plan view of the back of the left foot. b) is a side view of the left foot as viewed from the inside.
[0051]
In FIG. 5, reference numeral 50 denotes a subject's foot having a large foot size, and shows a state in which the positions of the current path forming electrode 9 and the voltage measuring electrode 11 are adjusted so that the foot can be stably contacted. It is. In FIG. 5, reference numeral 51 denotes a subject's foot having a small foot size, and the positions of the current path forming electrode 9 and the voltage measuring electrode 11 are adjusted so that the foot 51 can be stably contacted. Indicates the state.
[0052]
And according to this body fat scale 30, the positions of the electrodes can be changed simultaneously in both the lateral direction L1 and the front-rear direction L2, so that the physique such as height (that is, accompanying the length of the foot) applicable to many subjects The adjustment in the lateral direction L1 of the electrode and the adjustment in the front-rear direction L2 corresponding to the situation in which the size of the foot changes corresponding to the width between the left and right feet) can be quickly completed. In addition, a body fat scale that allows easy adjustment of the electrodes can be realized with an extremely simple structure. Further, when the two electrode bases 36 and 38 for the right foot and the two electrode bases 37 and 39 for the left foot are connected so that the two separated electrode bases for each foot can be moved together, The adjustment of the electrode can be made easier and is preferable.
[0053]
In the above description, the example in which the electrode base and the main body are fitted to the concaves and convexes has been described by an example in which one protrusion is formed on the lower surface of one electrode base and one concave part on the reference base of the main body. The electrode table and the reference table may be fitted by a plurality of uneven portions formed on the strip. If a plurality of projections and depressions are provided to such an extent that the structure of the projections and depressions is not extremely complicated, the fitting between the reference base of the main body and the electrode base can be made more stable, and the bioimpedance made on the electrode base can be improved. Measurement and weight measurement can be made more stable.
[0054]
Further, in the above description, when the electrode base and the reference base are fitted together by unevenness, the example has been described in which the reference base side is concave and the electrode base side is convex. The base side may be concave.
[0055]
In the above description, an example is described in which one convex portion is fitted into one concave portion, but two or more convex portions may be fitted into one concave portion. For example, as a convex portion on one electrode base side that is fitted into a single concave portion formed on the surface of the reference base, a plurality of pin-shaped protruding portions are formed on the lower surface of the single electrode base. Also good. Even in such a case, it is sufficient if the electrode table and the reference table can be fitted to each other.
[0056]
Further, in the above description, the electrode position is changed by moving the electrode table on which the electrode is disposed. However, only the electrode may be moved. That is, the electrode table itself that supports the electrode so that it can be in contact with the sole of the subject's foot is fixed to the reference table without moving, and the electrode slides relative to the reference table. It may be.
[0057]
【The invention's effect】
As described above, the electrode moving body fat scale of the present invention can freely adjust the position of each electrode for measuring bioimpedance according to the physique of the subject. Thereby, the electrode can be stably brought into contact with the sole of the foot according to the physique of the subject, and the effect of stabilizing the measurement of the bioimpedance can be achieved.
[Brief description of the drawings]
FIG. 1 is a diagram showing a body fat scale according to one embodiment of the present invention.
FIG. 2 is a diagram showing a block of data processing according to the body fat scale of the present invention.
FIG. 3 is a diagram showing a body fat scale according to another embodiment of the present invention.
FIG. 4 is a view showing a body fat scale according to still another embodiment of the present invention.
FIG. 5 is a diagram illustrating a state in which an electrode is in contact with a sole of a foot.
[Explanation of symbols]
1 Electrode moving body fat scale
2 body
3 standards
4 groove
5 Operation panel
6 (for right foot) electrode base
7 (for left foot) electrode base
8 Current path forming electrode for one leg
9 Current path forming electrode for the other leg
10 Voltage measuring electrode for one leg
11 Voltage measurement electrode for the other leg
12 Operation unit
13 Display section
14 Load cell
17 Memory unit
18 CPU
19 Input / output section
20 Electrode moving body fat scale
22 Body
23 Standard stand
24a, 24b guide
26 (for right foot) electrode base
27 (for left foot) electrode base
30 Electrode moving body fat scale
32 body
34a, 34b (in the area on the right side of the reference platform)
35a, 35b (in the area on the left side of the reference table)
36 (for right foot) electrode base
37 (for left foot) electrode base
38 (for right foot heel) electrode base
39 (for left foot heel) electrode base
50, 51 Subject's feet

Claims (3)

An electrode group comprising a pair of current path forming electrodes for forming a current path in the body of the subject, and a pair of voltage measuring electrodes for measuring a voltage between two points in the current path;
A reference table connected to the weight measuring means and capable of receiving the weight of the subject and measuring the weight of the subject;
An electrode table provided on the reference table and having the electrode group disposed on an upper surface thereof;
The subject can measure the body weight of the subject by placing it on the electrode table, and can measure the bioimpedance through the electrode group by bringing the backs of both feet into contact with the electrode group. ,
The body fat percentage can be determined based on the personal data of the subject including the measured weight and the measured bioimpedance,
The electrode group includes at least one current path forming electrode and one voltage measuring electrode for contacting one foot of the subject, and another current path for contacting the other foot of the subject. Forming electrodes and other voltage measuring electrodes,
The one current path forming electrode and the one voltage measuring electrode are moved obliquely with respect to the lateral direction of the reference base and moved along the first two directions approaching each other from the outside to the inside of the reference base. With
The other current path forming electrode and the other voltage measuring electrode are moved along two second directions that are inclined with respect to the lateral direction of the reference table and approach each other from the outside to the inside of the reference table. By
Moving the one current path forming electrode and the one voltage measuring electrode and the other current path forming electrode and the other voltage measuring electrode relatively in the lateral direction of the reference table ;
The one current path forming electrode and the one voltage measuring electrode can be relatively moved along the front-rear direction of the reference table, and the other current forming electrode and the other voltage measuring electrode are relatively wherein the reference table longitudinal direction Ru can also be moved along, the electrodes mobile body fat meter in manner. An electrode group comprising a pair of current path forming electrodes for forming a current path in the body of the subject, and a pair of voltage measuring electrodes for measuring a voltage between two points in the current path;
A reference table connected to the weight measuring means and capable of receiving the weight of the subject and measuring the weight of the subject;
An electrode table provided on the reference table and having the electrode group disposed on an upper surface thereof;
The subject can measure the body weight of the subject by placing it on the electrode table, and can measure the bioimpedance through the electrode group by bringing the backs of both feet into contact with the electrode group. ,
The body fat percentage can be determined based on the personal data of the subject including the measured weight and the measured bioimpedance,
The electrode group includes at least one current path forming electrode and one voltage measuring electrode for contacting one foot of the subject, and another current path for contacting the other foot of the subject. Forming electrodes and other voltage measuring electrodes,
The electrode base includes one electrode base on which the one current path forming electrode and one voltage measuring electrode are disposed, and the other current path forming electrode and another voltage measuring electrode on the other. And one electrode base is separated into a first portion where one current path forming electrode is disposed and a second portion where one voltage measuring electrode is disposed. And the other electrode base is separated into another first part in which another current path forming electrode is arranged and another second part in which another voltage measuring electrode is arranged,
By making the first part and the second part of each of the electrode tables oblique to the lateral direction of the reference table and moving along the two directions approaching each other from the outside to the inside of the reference table, Moving the first part and the second part of the one electrode table and the other first part and the other second part of the other electrode table relatively in the lateral direction of the reference table; The first part and the second part of the one electrode table can be relatively moved along the front-rear direction of the reference table, and the other first part and the other of the other electrode table can be moved. second portion and the front and rear of the relatively said reference table the direction Ru can also be moved along, the electrodes mobile body fat meter. On the surface of the reference table, a concave portion and / or a convex portion that form an oblique to the lateral direction of the reference table and approach each other from the outside to the inside of the reference table are formed in a right region and a left region of the reference table. And the lower surfaces of the first part and the second part of the one electrode base are formed so as to be fitted to the concave and / or convex parts of the region on the right side of the reference base,
The lower surfaces of the other first part and the other second part of the other electrode base are formed so as to be fitted to the concave part and / or the convex part of the left region of the reference base,
Moving the first part and the second part of the one electrode table and the other first part and the other second part of the other electrode table relatively in the lateral direction of the reference table; The first part and the second part of the one electrode table can be relatively moved along the front-rear direction of the reference table, and the other first part and the other of the other electrode table can be moved. The electrode movable body fat scale according to claim 2 , wherein the second part can be relatively moved along the front-rear direction of the reference table .

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