JP4056626B2 - Body fat scale and body fat percentage measurement system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a body fat scale, a weight scale, and a body fat percentage measurement system, and a body fat scale capable of directly inputting weight data from the weight scale by being incorporated in the weight scale, and the body fat scale are housed and used. The present invention relates to a body fat percentage measuring system, and a body fat percentage measuring system including the body fat scale and the weight scale.
[0002]
[Prior art]
The body fat percentage has attracted attention from the viewpoint of maintaining health. If the body fat percentage increases, it causes adult diseases and the like, and therefore, adult disease can be prevented by measuring the body fat percentage. Some body fat scales for measuring the body fat percentage are attached to the weight scale.
[0003]
Such a conventional body fat scale is configured as follows. A pair of current electrodes for forming a current path in the body of the subject and a pair of impedance measurement electrodes for measuring a bioimpedance between two points in the current path are the base of the scale. It is provided at the position where the foot is placed.
[0004]
An operation panel is provided for inputting body data of a subject having a height other than the body weight necessary for obtaining the body fat percentage, and for operating other body fat scales. The operation panel is attached to the weight scale via a support arm so as to be positioned at a predetermined height so that the subject who is on the weight scale can easily operate in a posture that is almost upright.
[0005]
In such a body fat scale, based on weight data and bioelectrical impedance measured by the subject on the scale base, and body data other than the weight data input by operating the operation panel. Body fat percentage is measured.
[0006]
[Problems to be solved by the invention]
Here, in the body fat scale, the operation panel is attached to the weight scale via the support arm, so that the space for housing is bulky or cannot be easily moved. There is.
[0007]
On the other hand, when the body fat scale is formed so as to be physically integrated with the weight scale, that is, when the operation panel of the body fat scale is formed so as to be substantially integrated with the surface of the base of the weight scale, The inconvenience such as a large space can be eliminated.
[0008]
However, when a configuration in which a body fat scale is incorporated integrally with the weight scale, there is a disadvantage in that an operation to be performed on the operation panel must be performed by bending the upper body. In other words, it is necessary to bend the upper body for operations on the operation panel such as inputting body data composed of a large number of data items, which is inconvenient in operation.
[0009]
Therefore, an object of the present invention is to provide a body fat scale that is improved in operability in the measurement of the body fat percentage while improving the storability and the like by being incorporated in a weight scale.
[0010]
[Means for Solving the Problems]
In order to solve the above problems, a body fat meter according to the present invention includes an operation button for inputting body data of a subject, a pair of current electrodes and a pair of current electrodes for measuring the bioimpedance of the subject. A body fat scale that includes a voltage measuring electrode and a display unit for displaying a body fat percentage determined from the body data and the bioelectrical impedance;
Incorporating the body fat scale integrally with the weight scale, and detachable means for removing from the weight scale,
Data input means for inputting the weight data of the subject output from the scale,
The body fat scale is formed in a card shape, the pair of current electrodes are provided on a predetermined side surface of the body fat scale, and the pair of voltage measurement electrodes are opposed to the predetermined side surface of the body fat scale. Provided on the side to
The body fat scale so that the pair of current electrodes and the pair of voltage measuring electrodes are supported by one finger of each of both hands of the subject and a finger other than the one finger of each of the both hands. The bioimpedance is measured by gripping the body (claim 1).
[0011]
Thus, the subject can remove the body fat scale from the weight scale and operate it at hand when measuring the body fat percentage, and thus has the following significance. In other words, the operation of inputting body data composed of a large number of input items can be performed without bending the body and is easy to operate. In addition, since the body fat scale can be operated without bending the body, measurement with good reproducibility can be performed with the correct posture. Moreover, since the display of the body fat percentage as a measurement result can be seen at hand, it is easy to see. In addition, since it is possible to carry only a body fat scale, it is possible to measure the body fat percentage on a daily basis, for example, to incorporate a pedometer into the body fat scale, and other necessary for health management. It can be configured to be able to acquire data, and can be developed as a comprehensive measuring instrument for health care.
[0012]
By incorporating the body fat scale into the weight scale, body weight data, which is one of the body data, can be directly input to the body fat scale when measuring the body fat percentage. Moreover, when the body fat scale is incorporated into the weight scale, it is physically integrated into one body, which is convenient for storage, placement, use as a weight scale, and the like.
[0013]
Further, the one finger may be a thumb, and a finger other than the one finger may include a forefinger.
[0014]
And a data output for outputting body weight data to a data input means of the body fat scale, a housing part for integrally incorporating the body fat scale, a detaching means for integrating and removing the body fat scale. And a body fat scale according to claim 1 housed in a housing part of the weight scale,
In the body fat percentage measurement system (Claim 3) in which the weight data output by the data output means of the weight scale is input to the body fat scale via the data input means, the weight data is measured by the weight scale. Since the weight data can be input to the body fat scale, it is convenient for measuring the body fat percentage.
[0015]
Further, in the body fat percentage measurement system, the data output means has a data output terminal provided on a side surface in contact with the housed body fat scale in the housing portion of the scale.
The data input means has a data input terminal provided so as to be connectable to the data output terminal on a side surface in contact with a side surface provided with the data output terminal of the accommodating portion in the accommodated body fat scale,
When the weight data is input to the body fat scale via the data output terminal and the data input terminal connected to the data output terminal (Claim 4), the body fat scale is used as the weight scale. The weight data output from the weight scale can be directly input to the body fat scale simply by storing.
[0016]
Further, in the body fat percentage measurement system, the data output means has a signal transmission line for connecting the weight scale and the body fat scale,
When the body weight data is input to the body fat scale via the signal transmission line (Claim 5), it is also possible to provide a form in which the body fat scale is used, for example, installed on a wall. Easy to measure the rate.
[0017]
In the body fat percentage measurement system, when the output of the weight data by the data output means and the input of the weight data by the data input means are performed by wireless communication (claim 6), the body fat since the form is also possible to provide for use when it is installed a total of example to a wall, not easily do that measure body fat percentage.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of a body fat scale, a weight scale, and a body fat percentage measurement system according to the present invention will be described with reference to FIGS.
[0019]
FIG. 1 is a perspective view of a body fat scale 1 according to an embodiment of the present invention.
[0020]
The body fat scale 1 is formed in a thin shape such as a card as shown in FIG. 1 and is formed so that a subject with body fat percentage can easily take it in hand, The subject can easily carry it on a daily basis. An operation unit 2 and a display unit 3 are provided in front of the body fat scale 1.
[0021]
The operation unit 2 is provided with operation buttons 2a, 2b, and 2c that are operated to input body data necessary for obtaining the body fat percentage. The body data includes data relating to the height, weight, etc. of the subject, and the button 2a is a selection button for selecting an item of body data. The button 2b corresponds to a so-called decrement key for decreasing the numerical data of the body data, and the button 2c corresponds to a so-called increment key for increasing the numerical data.
[0022]
In this body fat scale 1, weight data, which is one of the body data, can be input from the weight scale 20 as will be described later, but can be input by operating the operation buttons. You can also The display unit 3 displays the input body data and the numerical value of the body fat percentage as a measurement result.
[0023]
A pair of current electrodes 11, 12 and a pair of voltage measurement electrodes 13, 14 are provided on the side surface of the body fat scale 1. The current electrodes 11 and 12 and the voltage measurement electrodes 13 and 14 are used for obtaining bioimpedance necessary for obtaining the body fat percentage together with the body data of the subject. The current electrodes 11 and 12 are for forming a current path for conducting a constant current in the body of the subject. The voltage measuring electrodes 13 and 14 are for obtaining a potential difference between two points of these electrodes. Then, the bioimpedance of the subject is obtained from the current conducted by the current electrode and the potential difference between the voltage measurement electrodes. Note that a constant current power source (not shown) connected to the current electrodes 11 and 12 is built in the body fat scale 1, and a constant current can be conducted to the body of the subject by the current electrodes 11 and 12. It is like that.
[0024]
Further, a voltmeter (not shown) connected to the voltage measuring electrodes 13 and 14 is built in the body fat meter 1 so that a potential difference between the electrodes 13 and 14 can be measured.
[0025]
For example, the voltage measuring electrode 14 is supported by the right thumb, the current electrode 12 is supported by the right index finger, the voltage measuring electrode 13 is supported by the left thumb, and the current electrode 11 is supported by the left index finger. Moreover, when the subject holds the body fat scale 1, the bioimpedance can be measured.
[0026]
Further, data input terminals 15 and 15 are provided on the side surface of the body fat scale 1.
[0027]
The data input terminal 15 is a female signal terminal as shown in FIG. 1 and corresponds to data input means for inputting weight data measured by a weight scale 20 described later to the body fat scale 1.
[0028]
The body fat scale 1 incorporates a calculation unit and a storage unit (not shown), and can store body data and a potential difference between the voltage measurement electrodes 13 and 14 and can calculate a bioimpedance and a body fat percentage. It is like that. The weight data input from the data input terminal 15 can be stored.
[0029]
FIG. 2 is a perspective view of a weight scale 20 to which the body fat scale 1 is incorporated. The weight scale 20 is configured such that the weight of the subject is measured when the subject is placed on the base 21. The measured weight is stored as weight data in a storage unit (not shown) built in the weight scale 20 and can be output from an output terminal 25 described later.
[0030]
The weighing scale 20 is formed with a housing portion 22 for incorporating the body fat scale 1. As shown in FIG. 2, the housing portion 22 is formed by a part of the weight scale 20 that is notched. However, by incorporating the body fat scale 1, the housing portion 22 is formed to have an integrated smooth shape. ing.
[0031]
A data output terminal 25 is provided on one side surface of the accommodating portion 22 as shown in FIG. 3 showing a view taken along the line III-III. The data output terminal 25 corresponds to data output means for outputting weight data from the scale 20. The output terminal 25 is a male signal terminal and can be connected to the data input terminal 15.
[0032]
The body fat scale 1 is provided with an attaching / detaching means for being integrated into the weight scale 20 and for being detached from the weight scale 20. The weight scale 20 is provided with attachment / detachment means that can integrally incorporate and remove the body fat scale 1. A data input terminal 15 provided in the body fat scale 1 and a data output terminal provided in the weight scale 20 that can be connected to each other with respect to the attaching / detaching means provided in the body fat scale 1 and the attaching / detaching means provided in the weight scale 20. 25 can also be used. Although not particularly illustrated, as an example, a hook mechanism that can be engaged and disengaged is provided on both side surfaces where the body fat scale 1 and the housing portion 22 of the weight scale 20 come into contact, and the weight scale 20 is provided. Examples of the configuration are such that the hook mechanism can be engaged and released by operating a push button.
[0033]
When the body fat scale 1 is incorporated so as to be housed in the housing portion 22 of the weight scale 20 as shown in FIG. 4A, a body fat percentage measurement system can be configured.
FIG. 4B shows a perspective view of the body fat percentage measurement system 30.
[0034]
As shown in FIG. 4B, the body fat percentage measurement system 30 has an integral smooth shape with no protruding portion on the surface thereof. Therefore, the body fat percentage measurement system 30 is convenient for storage and arrangement, and is also convenient for use as a weight scale.
[0035]
The body fat scale 1, the weight scale 20, and the body fat percentage measurement system 30 having the above-described configuration are used as follows.
First, as shown in FIG. 5, when the subject 35 is placed on the base 21 of the weight scale 20, the weight of the subject 35 is measured by the weight scale 20. The measured weight is input to the body fat scale 1 from the data input terminal 15 as weight data.
[0036]
Next, as shown in FIG. 6, the subject 35 removes the body fat scale 1 from the weight scale 20 and performs various operations for measuring the body fat percentage on the body fat scale 1. That is, the bioimpedance is measured by holding the body fat scale 1 so as to support the electrodes 11 and 12 and the electrodes 13 and 14. Further, by operating the operation buttons 21a, 21b, and 21c, body data other than the weight data is input.
[0037]
According to the body fat percentage measurement system 30, the subject 35 performs an operation consisting of various items to be performed on the body fat scale 1 for measuring the body fat percentage, as shown in FIG. Can be done. That is, since the body fat scale 1 can be removed from the weight scale 20 and operated, it is not necessary to operate the body fat scale in a bent posture that is forced to be incorporated in the weight scale 20.
[0038]
In addition, if the operation on the body fat scale 1 can be performed in an upright posture instead of a bent posture, the accuracy of the operation on the body fat scale 1 can be expected, and accurate measurement of the body fat percentage is expected. be able to.
Thus, according to the body fat scale 1, the weight scale 20 and the body fat percentage measurement system 30 of the present invention, the operability in the measurement of the body fat percentage is improved, and the storability by integrating with the weight scale is improved. Improvements can also be made.
[0039]
Moreover, since the body fat scale 1 can be removed from the weight scale 20, it can also be always carried as a body fat scale unrelated to the weight scale 20. When the body fat scale 1 is used in this manner, the weight data output from the weight scale 20 is stored in the body fat scale 1 or used, or is input with the operation button 2a or the like. It can also be used. Thereby, it becomes possible to measure a body fat rate also to persons other than the said portable person of the body fat meter 1. FIG.
[0040]
Further, when a pedometer is incorporated in the body fat scale 1, the body fat scale 1 can be carried as described above, so that it is possible to monitor the number of steps of the subject together with the body fat percentage. And when it is set as the structure which incorporates a pedometer, it can also be set as the structure which can convert the calorie consumption with respect to the number of steps.
[0041]
Alternatively, the body fat scale 1 can be connected to a calorie scale for determining the calories from the type and weight of food, and the intake calories for meals taken together with the body fat percentage can also be monitored.
[0042]
Thus, since the body fat scale 1 can be used alone, as described above, it is possible to monitor the number of steps and the consumed calories and the intake calories. Data can also be managed centrally.
[0043]
In the above description, the data input means for inputting the weight data to the body fat scale 1 is constituted by the data input terminal 15, and the data output means for the weight scale 20 to output the weight data is the data output terminal. However, the input of the weight data by the data input means and the output of the weight data by the data output means can be performed as follows.
[0044]
FIG. 7 shows an example in which input of weight data by the data input means of the body fat scale 1 and output of weight data by the data output means of the weight scale 20 are performed via the signal transmission line 36. That is, the signal transmission line 36 is connected to the body fat scale 1 and the weight scale 20, and the weight data measured by the weight scale 20 is input to the body fat scale 1 through the signal transmission line 36. When the weight data is output and input via the signal transmission line 36 between the weight scale 20 and the body fat scale 1, the body fat scale 1 is installed on the wall as shown in FIG. Can be provided, so that it can be operated and recognized at eye level, and the operation of measuring body fat percentage is easy.
[0045]
Although not specifically shown, the input of the weight data by the data input means of the body fat scale 1 and the output of the weight data by the data output means of the weight scale 20 can be performed by wireless communication using infrared rays or the like. That is, the weight data transmitted from the weight scale 20 by radio is configured to be received by the body fat scale 1. Thereby, since the form used in the state which installed the body fat scale 1 in the wall can also be provided, it can operate and recognize with the height of eyes, and it is easy to perform operation which measures a body fat percentage.
[0046]
Further, the voltage measuring electrodes 13 and 14 can also be used as data input means for inputting weight data. That is, when the body fat scale 1 is incorporated in the housing portion 22 of the weight scale 20, data output means such as electrodes for outputting weight data is provided at the position of the side surface in contact with the electrodes 13, 14. When incorporated in the total 20, the weight data is input to the body fat scale 1 through the electrodes 13 and 14. And it is comprised so that the input of the weight data by the electrodes 13 and 14 and the measurement of the bioimpedance by using the electrodes 13 and 14 can be switched by the operation button 2a.
[0047]
【The invention's effect】
As described above, according to the body fat scale, weight scale, and body fat percentage measurement system of the present invention, in measuring the body fat percentage, the operation of inputting body data consisting of a large number of input items is bent over the body. There is an effect that it can be done without being performed and it is easy to operate. In addition, since the body fat scale can be physically integrated into the weight scale, there is an effect that it is convenient for storage, arrangement, use as a weight scale, and the like.
[Brief description of the drawings]
FIG. 1 is a perspective view of a body fat scale.
FIG. 2 is a perspective view of a weight scale.
FIG. 3 is a view taken along the line III-III in FIG. 2;
FIG. 4 (a) is a diagram showing a state in which a body fat scale is incorporated into a weight scale. FIG. 4B is a perspective view of the body fat percentage measurement system.
FIG. 5 is a diagram showing a state in which a subject is placed on a body fat percentage measurement system.
FIG. 6 is a diagram showing how a subject operates a body fat scale.
FIG. 7 is a diagram showing a state in which a body fat scale and a weight scale are connected by a signal transmission line.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Body fat scale 2 Operation part 2a, 2b, 2c Operation button 3 Display part 11, 12 Current electrode 13, 14 Voltage measurement electrode 15 Data input terminal 20 Scale 21 Base 22 Storage part 25 Data output terminal 30 Body fat Rate measurement system 35 Subject 36 Signal transmission line

Claims (6)

An operation button for inputting the body data of the subject, a pair of current electrodes and a pair of voltage measurement electrodes for measuring the bioimpedance of the subject, and the body data and the bioimpedance. A body fat scale that is detachable from the scale, comprising a display unit for displaying the body fat percentage.
Incorporating the body fat scale integrally with the weight scale, and detachable means for removing from the weight scale,
Data input means for inputting the weight data of the subject output from the scale,
The body fat scale is formed in a card shape, the pair of current electrodes are provided on a predetermined side surface of the body fat scale, and the pair of voltage measurement electrodes are opposed to the predetermined side surface of the body fat scale. Provided on the side to
The body fat scale so that the pair of current electrodes and the pair of voltage measuring electrodes are supported by one finger of each of both hands of the subject and a finger other than the one finger of each of the both hands. A body fat scale that measures the bioimpedance by gripping the body.   The body fat scale according to claim 1, wherein the one finger is a thumb, and a finger other than the one finger is a finger including an index finger. A housing part for integrally incorporating the body fat scale, a detaching means for integrally incorporating and removing the body fat scale, and a data output means for outputting weight data to a data input means of the body fat scale A weight scale comprising:
The body fat scale according to claim 1 housed in a housing part of the scale.
A body fat percentage measurement system in which the weight data output by the data output means of the weight scale is input to the body fat scale via the data input means. The data output means has a data output terminal provided on a side in contact with the housed body fat scale in the housing portion of the scale,
The data input means has a data input terminal provided so as to be connectable to the data output terminal on a side surface in contact with the side surface provided with the data output terminal of the containing unit in the housed body fat scale.
4. The body fat percentage measurement system according to claim 3, wherein the weight data is input to the body fat scale via the data output terminal and the data input terminal connected to the data output terminal. The data output means has a signal transmission line for connecting the weight scale and the body fat scale,
4. The body fat percentage measuring system according to claim 3, wherein the weight data is input to the body fat scale via the signal transmission line.   4. The body fat percentage measurement system according to claim 3, wherein the output of weight data by the data output means and the input of weight data by the data input means are performed by wireless communication.

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