KR200495528Y1 - Bioelectrical impedance measurement device - Google Patents

Abstract

The present invention relates to an apparatus for detecting human body bioinformation, the main configuration of which includes a portable detection apparatus, a control element is installed inside the portable detection apparatus, and the control element includes a detection current generating unit, a detection current receiving and processing unit, and a current control protection add-on is installed Further, a detection electrode assembly is connected to the portable detection device, and the detection electrode assembly includes a left-hand contact member, a right-hand contact member, a left-foot contact member, and a right-foot contact member. Accordingly, the user can detect the bio-impedance value in the human body by connecting the detection electrode assembly to the limbs of the human body and introducing the bio-impedance detection current generated by the detection current generator into the human body. In this way, it is possible to realize the advantages of acquiring the necessary human body bioinformation, carrying it conveniently, and detecting it accurately.

Description

Human body bioinformation detection device {BIOELECTRICAL IMPEDANCE MEASUREMENT DEVICE}

The present invention provides an apparatus for detecting human bioinformation, and in particular, provides an apparatus for detecting human bioinformation that is conveniently carried and accurately detected.

As the notion of health spreads, people are increasingly concerned with body fat and muscle ratio, aside from the conventional notion of body size. The reason is that even if two people are exactly the same height and weight, they have different body types and health conditions due to different body fat and muscle ratios. For example, even if a person does not look chubby, the body fat to muscle ratio is quite low and the fat ratio is high, so the health status is not as good as the general population.

On the other hand, factors affecting the health state, except for the ratio of muscle and body fat, the ratio of visceral fat also has a great influence on the health of the human body. Currently, all devices that can measure body fat-related data completely and accurately on the market are large devices, and general small devices on the market generally have poor measurement accuracy.

The main object of the present invention is to improve the convenience of use and to improve the accuracy of measurement together with the detection electrode assembly connected to the extremities by using the convenient carrying effect of the portable detection device.

In order to achieve the above object, the configuration of the present invention is mainly composed of a portable detection device, a control element installed in the portable detection device, a detection current generating unit installed in the control element, a detection current receiving and processing unit installed in the control element, and a current installed in the control element a control guard, and a detection electrode assembly connected to the portable detection device and connected to the control element, the detection electrode assembly comprising: a left-hand contact member connected to the portable detection device, a right-hand contact member connected to the portable detection device, a portable detection device a left foot contact member connected to the , and a right foot contact member connected to the portable detection device.

Through the above configuration, the user connects the left hand contact member, the right hand contact member, the left foot contact member, and the right foot contact member in the detection electrode assembly to the left hand, right hand, left foot and right foot of the subject, respectively, and again the detection current generating unit in the control element Bio-impedance detection current can be generated by using it. The amount of the bio-impedance detection current is controlled through the current control protection unit to prevent adverse effects on the human body, and again flows through the extremities into the body of the subject. Since the bio-impedance detection current flows into the body, it is completely distributed to each part of the body, measures the bio-impedance value (resistance value) of each part of the body, and then returns to the detection electrode assembly through the extremities of the body. . The detection electrode assembly introduces the detected bio-impedance detection current to the detection current receiving and processing unit, and the detection current receiving and processing unit determines necessary human bio-information using the bio-impedance value detected by the bio-impedance detection current. As such, it is possible to implement the advantages of being conveniently carried and measuring more accurately.

1 is a perspective perspective view of a preferred embodiment of the present invention.
2 is a contact schematic diagram of a preferred embodiment of the present invention.
3 is a clamping schematic diagram of a preferred embodiment of the present invention.
4 is a schematic diagram of current introduction in a preferred embodiment of the present invention.
5 is a schematic diagram of current derivation of a preferred embodiment of the present invention.
6 is a schematic representation of a preferred embodiment of the present invention.
6A is an impedance schematic diagram of a preferred embodiment of the present invention.
7 is a perspective perspective view of another preferred embodiment of the present invention.
8 is a detection schematic diagram of another preferred embodiment of the present invention.
9 is a perspective perspective view of another preferred embodiment of the present invention.

1 to 6A, this is a perspective perspective view or an impedance schematic diagram of a preferred embodiment of the present invention. As can be clearly seen from the drawings, the present invention includes the following configurations:

- a portable detection device (1);

- The control element 11 installed in the portable detection device 1, the control element 11 in this embodiment is a circuit board installed in the portable detection device 1, and the control element 11 is the detection current generator 111 , a detection current receiving and processing unit 112 and a current control protection unit 113;

- a plurality of gripping contact members 12 installed in the portable detection device 1, the gripping contact members 12 in this embodiment are hand pads installed on both sides of the portable detection device 1;

- the detection electrode assembly 2 connected to the portable detection device 1, in this embodiment the detection electrode assembly 2 is connected to the control element 11 of the portable detection device 1, the detection electrode assembly 2 is , a left hand contact member 21 provided on one gripping contact member 12 and connected to the portable detection device 1 , a right hand contact member installed on the other gripping contact member 12 and connected to the portable detection device 1 . 22, a left-foot contact member 23 connected to the portable detection device 1, and a right-foot contact member 24 connected to the portable detection device 1, the left-hand contact member 21 of this embodiment, a right-hand contact The member 22, the left foot contacting member 23 and the right foot contacting member 24 are all metal sheets through which an electric current can pass, and the left foot contacting member 23 and the right foot contacting member 24 are each a foot fixing member 3 installed on, an example of the foot fixing member 3 is a clamp; and

- a display member 13 connected to the portable detection device 1, an example of the display member in this embodiment is a panel screen connected to the portable detection device 1 .

Through the above description, the configuration according to the present technology can be grasped, and the advantage of convenient portability and more accurate detection effect can be realized through the corresponding combination of these configurations. Hereinafter, these configurations will be described in detail.

The user holds the gripping contact member 12 of the portable detection device 1 with two hands, the left hand A contacts the left hand contact member 21 , and the right hand B touches the right hand contact member 22 . make contact Then, the left foot C and the right foot D of the human body 4 are clamped using the foot fixing member 3, and together with the left foot contacting member 23 and the right foot contacting member using the foot fixing member 3 (24) is fixed and brought into contact with the left foot (C) and the right foot (D) of the human body (4), respectively. An ordinary person's feet are not easy to control, so they cannot perform a gripping motion like a hand. Accordingly, the left foot contact member 23 and the right foot contact member 24 can be completely fixed to the left foot C and the right foot D of the human body 4 by using the foot fixing member 3 . And, since the hand has a gripping function, it is possible to directly grip the gripping contact member 12 on the portable detection device 1 , and the portable detection device 1 may be lifted. In this way, the left-hand contact member 21 and the right-hand contact member 22 can be completely adhered to the left hand A and the right hand B. Thereby, the left hand contact member 21 , the right hand contact member 22 , the left foot contact member 23 and the right foot contact member 24 are connected to the left hand A, the right hand B, the left foot C and the human body 4 . By making it completely in contact with the right foot (D), the accuracy at the time of detection can be improved. In addition, since the present embodiment clamps the ankles of the human body 4 with the foot fixing members 3 , respectively, unlike the method in which the conventional body fat meter contacts the sole of the foot to the device, it can contact the human body more completely. This is mainly because the thickness of the skin in the ankle region is thinner than the skin thickness in the sole of the foot, so that an electric current can be more easily introduced into the human body.

Thereafter, the control element 11 receives the first bio-impedance detection current (the power source is not limited and can be used by using a built-in battery or by connecting an external power source) through the detection current generator 111 . generate And, since the first bio-impedance detection current flows into the human body, it is necessary to limit the upper limit of the current by the current control protection unit to prevent the human body from being adversely affected by the overcurrent. The first bio-impedance detection current adjusted through the current control protection unit flows into the human body 4 through the extremities through the detection electrode assembly 2 , and is thus uniformly distributed in each part of the human body 4 to form the human body 4 ) through each part of the Accordingly, the bio-impedance value of each part of the human body 4 is measured, and the bio-impedance value is returned to the detection electrode assembly 2 via the extremities again. The detection electrode assembly 2 introduces the measured first bio-impedance detection current to the detection current receiving and processing unit 112 . In this way, a complete circuit can be formed in the human body 4 , whereby the bio-impedance value of each part of the human body 4 can be measured more accurately. The detection current receiving and processing unit 112 may calculate necessary human bio-information, for example, body fat, visceral fat, and muscle mass, by using the bio-impedance value, and display the detected information on the display member 13 . For example, it can be displayed as [Body fat: XX% Visceral fat: XX% Muscle mass: XX%], and even by linking this human bio-information, the health status of the human body (4), such as the presence or absence of chronic disease and congestive heart failure By calculating , the user may be able to observe the related information. Thus, the advantage of being conveniently carried and measuring more accurately can be realized.

In addition, the first bioimpedance detection current described above first flows into the human body 4 through one of the limbs, and returns to the detection current receiving and processing unit 112 through the other of the limbs. Accordingly, a comparison operation is performed using different impedance values generated according to different inflow and outgoing points to obtain more complete human body bio-information.

For example, the first bio-impedance detection current flows into the human body from the left hand A and then returns to the detection current receiving and processing unit 112 from the right foot D. Thereby, the impedance value according to the conduction of the left hand (A) and the right foot (D) is obtained, and the first bio-impedance detection current is again introduced from the right hand (B) and returned from the left foot (C), and the right hand (B) and the left foot (C) ), the impedance value according to the conduction can be obtained. By analogy in this way, in this embodiment, the impedance value according to the conduction of the left hand (A) and the right foot (D) is defined as the AD impedance value, and the impedance value according to the conduction of the left hand (A) and the right foot (B) is defined as the AB impedance. It is defined as a value, and the impedance value according to the conduction of the left hand (A) and the left foot (C) is defined as the AC impedance value, and the impedance value according to the conduction of the right hand (B) and the left foot (C) is defined as the BC impedance value. , If the impedance value according to the conduction of the right hand (B) and the right foot (D) is defined as the BD impedance value, and the impedance value according to the conduction of the left foot (C) and the right foot (D) is defined as the CD impedance value, different impedances In the operation of comparing values, for example, by comparing the AD impedance value that conducts the limbs and the BC impedance value, and cross-comparing the AD impedance value and the organs and muscles through which the BC impedance passes respectively, the occupation ratio is determined can be obtained For example, if the AD impedance value is greater than the BC impedance value, the muscle mass of the left hand (A) may be greater than the muscle mass of the right hand (B), or the ratio of visceral fat may be different. In this cross-comparison method, it is possible to completely obtain the occupancy ratio of muscles, fat, and internal organs of the human body, thereby providing a more accurate measurement effect.

In addition, in the present embodiment, after the detection of the first bio-impedance detection current is completed, the detection current generator 111 again generates a plurality of second bio-impedance detection currents having different frequencies from the first bio-impedance detection current. and measure the AD impedance value, AB impedance value, AC impedance value, BC impedance value, BD impedance value, and CD impedance value through the second bio-impedance detection current using the same measurement method as the first bio-impedance detection current . The human body 4 has a large amount of water, and according to experience, different impedance values occur when electric currents of different frequencies pass through the water. Accordingly, the impedance value calculated using the second bio-impedance detection current of different frequencies may be compared with the impedance value calculated using the first bio-impedance detection current. For example, AD impedance values detected using currents having frequencies of 1k, 5k, 50k, 250k, and 500k are Z ₁ , Z ₂ , Z ₃ , Z ₄ and Z ₅ , respectively, and the impedance values of the AD impedance values are Y ₁ to Y ₅ , respectively, the impedance values of the AC impedance values are X ₁ to X ₅ , the impedance values of the BC impedance values are W ₁ to W ₅ , respectively, and the impedance values of the BD impedance values are V ₁ to V, respectively. ₅ , and the impedance values of the CD impedance values are U ₁ to U ₅ , respectively, by performing a comparison operation to derive the proportion of water in the human body 4 by the difference in impedance values according to different frequencies, It reinforces the accuracy of the measurement once again.

Referring again to FIGS. 7 and 8 together, these drawings are a perspective perspective view and a detection schematic diagram of another preferred embodiment of the present invention. As can be clearly seen from the drawings, the present embodiment and the above embodiment are not significantly different, except that in this embodiment, the left-hand contact member 21a and the right-hand contact member 22a are installed on the hand fixing member 5a, respectively. and the left foot contacting member 23a and the right foot contacting member 24a are also respectively installed on the foot fixing member 3a, and examples of the hand fixing member 5a and the foot fixing member 3a are both clamps, , the display member 13a is a display screen provided in the portable detection device 1a. Accordingly, the user can directly use the hand fixing member 5a to fix the left hand contact member 21a and the right hand contact member 22a to the left hand A and the right hand B, so that the fixing effect is more stable and Convenience of use can be improved by making it sturdy.

Referring again to FIG. 9 in conjunction with each other, this is a perspective perspective view of another preferred embodiment of the present invention. As can be seen clearly from the drawings, the present embodiment and the above embodiment are not significantly different, except for a bandage provided with magic tape as an example of the hand fixing member 5b and the foot fixing member 3b of this embodiment. It is possible, and thus, the type of the hand fixing member 5b and the foot fixing member 3b is not limited.

1, 1a portable detection device
11 control element
111 detection current generator
112 detection current receiving and processing unit
113 current control protection
12 Contact member for gripping
13, 13a No indication
2 detection electrode assembly
21, 21a Left hand contact member
22, 22a Right-hand contact member
23, 23a Left foot contact member
24, 24a No right foot contact
3, 3a, 3b foot fixation member
4 human body
A left hand
B right hand
C left foot
D right foot
5a, 5b hand holding member

Claims (5)

A device for detecting human bioinformation, comprising:
portable detection device;
a control element installed inside the portable detection device;
a detection current generator installed in the control element;
a current control protection unit installed on the control element;
a detection current receiving and processing unit installed in the control element; and
a detection electrode assembly coupled to the portable detection device and coupled to the control element;
the detection electrode assembly comprises a left hand contact member connected to the portable detection device, a right hand contact member connected to the portable detection device, a left foot contact member connected to the portable detection device, and a right foot contact member connected to the portable detection device,
Each of the left foot contact member and the right foot contact member is installed on at least one foot fixing member, and the left foot contact member and the right foot contact member are respectively fixed and contacted to the left foot and the right foot of the human body through the foot fixing member,
The detection electrode assembly introduces the bio-impedance detection current generated by the detection current generator into the human body through the extremities, and introduces the bio-impedance detection current after flowing through the human body into the detection current receiving and processing unit to receive the detection current and a human body bioinformation detecting device that causes the processing unit to cross-compare. According to claim 1,
A plurality of gripping contact members are provided in the portable detection device, and each of the left-hand contact member and the right-hand contact member is installed on each of the gripping contact members. According to claim 1,
Each of the left-hand contact member and the right-hand contact member is installed on at least one hand fixing member, and the left-hand contact member and the right-hand contact member are fixed to and contacted with the left hand and the right hand of the human body, respectively, through the hand fixing member. Bioinformation detection device. delete According to claim 1,
A human body bioinformation detecting device is connected to the portable detecting device with a display member.

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