KR100446075B1 - Pulse counter based on bioelectrical impedance analysis - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wrist-type pulse meter using a bioelectrical impedance method. The wristwatch is always measured by measuring a change in bioimpedance, which is changed according to the cross-sectional area of the artery that changes according to the contraction and expansion of the radial artery located on the wrist. As such, there is an advantage that can conveniently count the pulse while wearing and exercising.

Description

Wrist type pulse meter using bioelectrical impedance method {PULSE COUNTER BASED ON BIOELECTRICAL IMPEDANCE ANALYSIS}

The present invention relates to a wrist-type pulse meter using a bioelectrical impedance method, and more particularly, to measure a change in bioimpedance that is changed according to the cross-sectional area of an artery that changes according to contraction and expansion of the radial artery located on the wrist. The present invention relates to a wrist-type pulse meter using a bioelectrical impedance method which enables counting of pulses.

As the industrial products necessary for human cultural life are developed day by day with the improvement of electronic application technology and semiconductor chip manufacturing technology, interests in health are growing more and more and always carry devices to check their own health.

The bioelectrical impedance method is a safe, inexpensive, and quick method for measuring the electrical resistance or electrical conductivity of a human body. A pair of current electrodes and a pair of voltage electrodes are in contact with the human body, and then a pair of current electrodes are used to measure about 1 KHz to 1 MHz. It is a method of calculating the impedance of the human body after sending an AC current of 0.1 to 2.0mA with a frequency and measuring the voltage at a pair of voltage electrodes.

The bioelectrical impedance method is widely used in body fat analysis because the body resistance can be analyzed precisely when measuring the body resistance because the body resistance is different depending on the quantification of body composition such as water, protein, bone and fat constituting the human body. That is, a weak current is sent to the human body to calculate the amount of body fluid, muscle mass, body fat, etc. by using the measured value of the human body's electrical resistance or electrical impedance and information such as the user's height, weight, age, and gender.

An object of the present invention is to wear on the wrist as a wrist watch by measuring the change in the bioelectrical impedance changes according to the contraction and swelling of the radial artery located on the wrist to count the pulse so that you can easily check your own pulse anytime, anywhere during exercise To provide a wrist-type pulse rate meter using the bioelectrical impedance method.

1 is a block diagram showing a wrist-type pulse meter using a bioelectrical impedance method according to the present invention.

Figure 2 is a view showing the lower body of the wrist type pulse meter using a bioelectrical impedance method according to the present invention.

Figure 3 is a graph showing the change of the impedance measured in the impedance unit of the wrist type pulse meter using the bioelectrical impedance method according to the present invention.

-Explanation of symbols for the main parts of the drawings-

10: wrist 20: pulse meter body

22: current electrode 24: voltage electrode

30: impedance measuring unit 40: counter unit

50: display unit 60: operation switch

The present invention for realizing the above object is a wristwatch-shaped body worn on the wrist by the band, a pair of current electrodes mounted on the bottom of the body in contact with the radial artery of the wrist, and is mounted on the wrist An impedance measuring unit formed inside the body to measure the impedance change of the radial artery part of the wrist from a pair of voltage electrodes in contact with the body and a pair of current electrodes and a pair of voltage electrodes; It is characterized by consisting of a counting unit for calculating the pulse rate per minute by measuring the, a control unit which is installed on the upper surface of the body to display the output value of the counting unit, the operation switch for the operation of the pulse meter.

The pair of current electrodes and the pair of voltage electrodes may be formed by integrating the pair of electrodes.

The present invention made as described above can measure the pulse by measuring the change in the bioelectrical impedance changed during contraction and expansion of the radial artery in a state in which a pair of current and voltage electrodes in contact with the radial artery of the wrist.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In addition, this embodiment is not intended to limit the scope of the present invention, but is presented by way of example only.

1 is a block diagram showing a wrist-type pulse meter using a bioelectrical impedance method according to the present invention.

As shown here, a pair of current electrodes 22 formed at the bottom of the body in contact with the radial artery of the wrist 10, a pair of voltage electrodes 24 formed at the bottom of the body, and a pair Impedance measurement unit 30 for measuring the impedance change of the radial artery portion of the wrist 10 from the current electrode 22 and the pair of voltage electrodes 24 and the impedance change period of the impedance measurement unit 30 by measuring The counting unit 40 for calculating the pulse rate per minute, the display unit 50 for displaying the output value of the counting unit 40, and the operation switch 60 for operating the pulse meter, characterized in that the body is a wrist It is preferable to be mounted on the band 10 so as to be worn, and the impedance measuring unit 30 and the counting unit 40 are formed inside the body, and the display unit 50 is installed on the upper surface of the body.

In addition, when measuring impedance, a current is obtained using the pair of electrodes 26 by integrating the current electrode 22 and the voltage electrode 24 without using the pair of current electrodes 22 and the pair of voltage electrodes 24. It can be configured to measure the voltage through this same electrode while supplying.

Figure 2 is a view showing the lower body of the wrist type pulse meter using a bioelectrical impedance method according to the present invention (A) shows an electrode by a four-electrode method using a pair of current electrodes and a pair of voltage electrodes, (b) Denotes an electrode by the two-electrode method using a pair of electrodes.

As shown in (a), the pair of current electrodes 22 and the pair of voltage electrodes 24 are formed in parallel to the lower part of the body 20 of the pulse meter so that the radial artery of the wrist 10 can be contacted with each other. After that, while supplying current to the pair of current electrodes 22, the impedance of the wrist 10 is measured by measuring the voltage through the pair of voltage electrodes 24.

In addition, as shown in (b), a pair of electrodes 26 are formed under the body 20 of the pulsimeter so that the radial artery of the wrist 10 is in contact with each other, thereby forming a current. While supplying, the impedance of the wrist 10 is measured by measuring the voltage through the electrode 26.

Figure 3 is a graph showing the change of the impedance measured in the impedance unit of the wrist type pulse meter using the bioelectrical impedance method according to the present invention.

As shown here, as the radial artery of the wrist expands and contracts in response to the heartbeat, a change in the amount of blood flowing to the wrist causes a change in the cross-sectional area of the radial artery and measured at the wrist 10. Impedance changes to match the heartbeat.

Accordingly, the pulse of the wearer can be measured by measuring the pulse period in the counter 40 and calculating the pulse per minute, calculating the heart rate per minute, and outputting the pulse to the display unit 50.

In addition, the operation of the wrist-type pulse meter according to the present invention through the operation switch 60.

As described above, the present invention measures the impedance change by using a bioelectrical impedance method to measure the impedance change according to the expansion and contraction of the radial artery located on the wrist by wearing it on the wrist as a wristwatch, thereby measuring the heart rate of the heart. You can easily check your pulse anytime, anywhere during exercise.

Claims (2)

Watch-shaped body worn on the wrist by the band, A pair of current electrodes mounted on the bottom of the body and in contact with the radial artery of the wrist; A pair of voltage electrodes mounted on the bottom of the body and in contact with the wrist; An impedance measuring unit formed inside the body and measuring an impedance change of the radial artery part of the wrist from the pair of current electrodes and the pair of voltage electrodes; A counting unit which is formed inside the body and calculates a pulse rate per minute by measuring an impedance change period of the impedance measuring unit; A control unit installed on the upper surface of the body to display an output value of the counting unit; An operation switch formed on the body for operation of a pulse meter Pulse meter using a bioelectrical impedance method, characterized in that consisting of. The pulsimeter according to claim 1, wherein the pair of current electrodes and the pair of voltage electrodes are integrated into a pair of electrodes.