KR100972208B1 - Apparatus for diagnosing a living body - Google Patents

Abstract

The present invention relates to a biosignal measuring device, and particularly, even if the wrist or ankle of a body part of the wrist (ankle) type of measuring device while measuring the bio-index while wearing loosely in a comfortable state without tightly tightening the measurement, The purpose is to help you manage your health.

Its configuration is a body 10 which can be worn on both ends of the wrist and ankle by the fastener 11, and alternately repeated at regular intervals on the inner surface of the body 10 to form a plurality in a row The biosignal sensor 20 and the ground terminal 30 and the biosignal data detected by the biosignal sensor 20 are amplified and converted into a digital signal, and then wirelessly transmit and receive the compared biosignal data. It provides a bio-signal measuring device comprising a control unit 40 is formed so that the display unit.

Bio signal measuring instrument, bio signal detecting sensor, ground terminal

Description

Apparatus for diagnosing a living body}

The present invention relates to a biosignal measuring device, and particularly, even if the wrist or ankle of a body part of the wrist (ankle) type of measuring device while measuring the bio-index while wearing loosely in a comfortable state without tightly tightening the measurement, The purpose is to help you manage your health.

People living in modern society are inevitably exposed to a lot of stress, which is generally perceived as the source of all illnesses, especially when these stresses do not immediately resolve and accumulate, causing depression, weakness, etc. This can lead to extreme behaviors such as suicide, violence or murder. Recently, the number of suicides or murders caused by these mental problems is increasing, and they are emerging as social problems.

In particular, depression, anxiety, or helplessness occur mainly in examinees who are exposed to high stress, housewives, and elderly people who live alone.However, treatment of mental illnesses such as depression, anxiety, and helplessness is visited by a patient. It is only made in the form of receiving consultation and treatment periodically.

Therefore, since the patient's condition cannot be continuously confirmed, effective treatment is difficult to achieve, and it is difficult to cope with extreme behaviors due to sudden impulse or stress, and thus, the physical state as well as the mental health state are systematic. We need a way to identify and manage them.

As mentioned above, with increasing interest in health in recent years, many people want to know their biological index (for example, blood flow, blood pressure, blood sugar, heart rate, etc.) and constantly manage them. In addition, doctors should basically measure biometrics to examine the patient's condition.

In the past, the biosignal was mainly measured in the form of invasive, and the non-invasive biosignal was limited. In particular, the blood pressure is a lot of invasive or pressurized method, but it is difficult to carry the measuring equipment and the user has to go to the measuring device installed in a specific place to measure directly, it was difficult to monitor the continuous blood pressure while moving.

Therefore, a lot of technologies are being developed for a bio-index measuring device to measure the bio-index while wearing on a part of the body to manage their health condition steadily. In particular, the heart rate monitor products sold in the past mainly measure the bio-signal using a belt worn on the chest and transmit the measurement result to the wrist watch wirelessly to display the heart rate. Sweat caused by exercise affects heart rate measurement, or wears on the chest, so if you move severely, the belt may fall or you may feel stuffy by tightening your chest.

(Garment and Method for Prodcuing the Same, PCT, W003 / 095020) or fixing the electrode by folding and overlapping the middle part of the garment as a method to compensate for the above disadvantages Methods (Textile Article Having Electrically Conductive Portions and Method For Producing The Same, PCT, W003 / 094717) have been developed. However, these methods had a problem that the electrode is poor by the movement of the clothes according to the activity in daily life. That is, methods similar to those using clothes also have a problem in that it is inconvenient to wear and not easy to wear and remove because many sensors are attached.

Therefore, it is proposed to solve the conventional problems as described above, formed in a small form and worn on the wrist or ankle part of the body in the form of a bracelet (ring) to check the vital signs such as blood pressure, pulse and body temperature of a person at regular intervals It is an object of the present invention to provide a ubiquitous bio-signal measuring device capable of wirelessly transmitting a health state according to a check result.

The present invention detects a plurality of bio-signals on the surface of the bracelet, ie, the surface of the wrist and the ankle, so that the user can steadily measure their health while wearing a bracelet (ring) on the wrist and ankle, which is a part of their body. By attaching the sensor, any one of the sensors equipped with a plurality of bio-signal sensors comes into contact with the skin of the wrist and ankle even if the bracelet is worn without being tightened tightly. It aims to make it possible for you to take appropriate action.

In addition, an object of the present invention is to mount a control unit formed with a display unit on the outer surface of the body of the bracelet so that it can be utilized for decoration as well as measurement of the biological signal.

The present invention, as shown in Figure 1, by alternately repeating the body 10, which can be worn on the wrist and ankle by the fastener 11, at regular intervals on the inner surface of the body 10 The present invention provides a biosignal measuring device comprising a biosignal detecting sensor 20 and a ground terminal 30 formed in a plurality.

As described above, in the present invention, since a plurality of biosignal sensors are mounted on the body, any one of the biosignal sensors that is attached to the skin even when the biosignal sensor is loosely worn without being tightly attached to the wrist or the ankle is contacted with the skin. By allowing one biosignal sensor to detect a biosignal, it is possible to accurately measure the biosignal in a stable state, thereby effectively managing its own health state.

Referring to the configuration of the present invention having the above object with reference to the accompanying drawings as follows.

The present invention, as shown in Figure 1, by alternately repeating the body 10, which can be worn on the wrist and ankle by the fastener 11, at regular intervals on the inner surface of the body 10 The present invention provides a biosignal measuring device comprising a biosignal detecting sensor 20 and a ground terminal 30 formed in a plurality.

The present invention also amplifies the biosignal data detected by the biosignal detection sensor 20 in the amplifier 42 and converts the biosignal data into a digital signal in the signal converting section 43, and then transmits and compares the compared biosignal data ( It provides a bio-signal measuring device, characterized in that further comprising a control unit 40, the display unit 41 is formed so as to transmit and receive wirelessly at 44 on the outer surface of the body (10).

In addition, the present invention provides a server 50 formed with a transceiver 51 capable of receiving the bio-signal data transmitted from the control unit 40 and outputting the synchronized bio-signal data relating to the health state of a person to the outside. It provides a bio-signal measuring device, characterized in that further comprises.

In addition, the present invention provides a bio-signal measuring device, characterized in that to form a plurality of alternately by forming another biosignal sensor 20 'on the inner surface of the body (10).

In addition, the present invention is a bio-signal measuring device, characterized in that the upper and lower two columns of the bio-signal sensor 20 and the ground terminal 30 formed a plurality of alternately repeated on the inner surface of the body 10 To provide.

In addition, the present invention forms a plurality of alternately repeating the bio signal detecting sensor 20 and the ground terminal 30 on the upper surface of the inner surface of the body 10, the ground terminal 30 and the bio signal detection at the bottom It provides a bio-signal measuring device, characterized in that the sensor 20 is composed of two rows of upper and lower so as to form a plurality of alternately repeated.

In addition, the present invention forms a plurality of alternately repeating the biological signal detecting sensor 20 and the ground terminal 30 on the upper surface of the inner surface of the body 10, the lower ground terminal 30 and another living body It provides a bio-signal measuring device, characterized in that the upper and lower two columns formed so that a plurality of signal detection sensors (20 ') are formed alternately.

In addition, in the present invention, a plurality of biological signal detecting sensors 20 and ground terminals 30 are alternately formed on the upper surface of the inner surface of the body 10, and the biosignal detecting sensor 20 and It provides a bio-signal measuring device, characterized in that the bio-signal detection sensor 20 and the ground terminal 30 is composed of two columns in the top and bottom so that a plurality of ground terminals 30 are alternately repeated between the ground terminal 30.

Referring to the configuration of the present invention as described above in more detail.

As shown in FIG. 1, the present invention is a biosignal measuring device used in a ubiquitous system, and is worn on a wrist or ankle of a person to detect a biosignal (for example, blood flow, blood pressure, blood sugar, and heart rate). The sensor 20 and the ground terminal 30 are formed on the inner surface of the body 10 in pairs. However, the biological signal sensor 20 and the ground terminal 30 are repeatedly formed alternately at regular intervals to form a plurality. That is, the biosignal sensor 20, the ground terminal 30, the biosignal sensor 20, the ground terminal 30,... Install several in order. As described above, the biological signal detecting sensor 20 and the ground terminal 30 mounted on the body 10 are formed in pairs to detect the biological signals by contacting the skin, respectively. And both ends of the body 10 forms a fastening portion 11 to be fastened to the wrist or ankle. One end portion of the fastening portion 11 is fastened to the wrist or ankle because it is composed of a hanging structure 110, the other end of the configuration 111 is fastened. The ground terminal 30 is installed to prevent the electric shock generated when the measuring device is operated.

And a controller 40 capable of transmitting and receiving the compared data by amplifying the amplified signals into digital signals by amplifying the bio signals detected by the plurality of bio signal sensors 20 mounted on the inner surface of the body 10. Is formed on the outer surface of the body (10). At this time, the control unit 40 is formed with a display unit 41 that can display the synchronized measurement value of the bio-signal data. In addition, since the controller 41 is beautifully designed in various forms so that it can be worn as an accessory to be worn on the wrist or ankle, it is possible to obtain an effect of wearing a decorative bracelet in addition to the biometer.

As shown in FIG. 7, the controller 40 for controlling the biosignal measured by the biosignal measuring device includes an amplifier 42 for amplifying the biosignal data detected by the biosignal sensor 20. The signal converter 43 converts the electrical signal amplified by the amplifier 42 into a digital signal. After recognizing the biosignal through the digital signal converted by the signal converting unit 43 and comparing the biosignal with a predetermined reference value, the health state of the person is determined, and information about the biosignal data on the determination result is externally displayed. A transmission / reception section 44 for transmitting to 50 is configured.

In addition, the server 50 for analyzing the bio-signal data transmitted from the transmission and reception unit 44 of the control unit 40 is configured, the transmission and reception unit 51 of the server 50 to the results analyzed by the server 50 The display unit 41 is transmitted to the control unit 40 to display the synchronized bio-signal data is formed in the control unit 40.

Hereinafter, the most preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

1 and 2, the biosignal measuring apparatus of the present invention, when worn using the fastener 11 on the wrist and ankle, a plurality of biosignal detection sensors mounted on the inner surface of the body 10 Any one of the biological signal detecting sensors 20 is configured to be in contact with the skin. In other words, it is to reduce the stuffiness and burden when worn by tightening the measuring device on the wrist or ankle.

Accordingly, even when the biosignal measuring device of the present invention is worn without loosening the wrist and ankle without using the fastener 11, the biosignal sensor 20 is mounted on the inner surface of the body 10 in a large number. Any one of the bio-signal sensor 20 is in contact with the skin to accurately detect the bio-signal in a stable state. In addition, the ground terminal 30 is formed on the inner surface of the body 10 to prevent electric shock caused by electric shock generated when the signal is transmitted to the skin to prevent safety accidents.

As described above, any one of the biosignal detection sensors 20 mounted on the body 10 detects the biosignal and detects the biosignal data of the biosignal sensor 20 that is in contact with the skin. The amplifier 42 amplifies. The electrical signal amplified by the amplifier 42 is converted into a digital signal by the signal conversion unit 43 and compared with the data value previously stored in the control unit 40 to compare the compared bio-signal data through the transmission and reception unit 44. It transmits to the external server 50.

The display unit formed in the control unit 40 when the biological signal data received by the transmitting and receiving unit 51 of the server 50 is monitored and analyzed by the server 50 and transmitted to the transmitting and receiving unit 44 of the control unit 40. By displaying the synchronized bio-signal data at (41) can be managed while measuring their health status from time to time.

2 is a plan view showing another embodiment of the biosignal measuring apparatus of the present invention, in addition to the biosignal sensor 20 and the ground unit 30 mounted on the body 10 constituting the biosignal measuring apparatus described above. Another configuration is further equipped with a bio-signal measuring device (20 ').

That is, the biosignal sensor 20, another biosignal sensor 20 ', the ground on the inner surface of the body 10, the fastener 11 is formed at both ends to be worn in the form of a bracelet on the wrist or ankle A plurality of terminals 30 are alternately repeated.

As described above, different biosignal detection sensors 20 'may be added and installed to measure more biosignals. Therefore, any one of the plurality of bio-signal detection sensors 20, 20 'mounted on the inner surface of the body 10, as described above the embodiment of the wrist or ankle By contacting the skin to detect the biological signal to perform the same action as the above-described embodiment it is possible to measure and manage the health condition in advance. Hereinafter, the description of the same operation as in the above-described embodiment will be omitted.

3 is a plan view illustrating a biosignal measuring apparatus according to another exemplary embodiment of the present invention, and the same components as those of the aforementioned exemplary embodiment will be described with the same reference numerals. Like the above-described embodiment, a biosignal measuring device is configured to detect an accurate biosignal in a stable state even when worn loosely using the fastener 11 in a state in which a wrist or ankle is not tightened in the form of a bracelet. On the inner surface of the body 10 to alternately repeat the biological signal sensor 20 and the ground terminal 30 is composed of two columns up and down.

That is, when the bio signal detecting sensor 20 and the ground terminal 30 are formed in two rows on the inner surface of the body 10, the two parts are formed in two rows so as to form more portions in contact with the skin. All the more accurate bio signals can be measured.

The biosignal measuring device of the present invention configured as described above is worn using a fastener 11 on a wrist or ankle. When the biosignal sensor 20 mounted in two rows on the inner surface of the body 10 detects the biosignal by contacting the skin, the biosignal sensor 20 performs the same operation as in the above-described embodiment to measure and manage its own health state in advance. You can do it. Hereinafter, the description of the same operation as in the above-described embodiment will be omitted.

4 is a plan view illustrating a biosignal measuring apparatus according to another exemplary embodiment of the present invention, and the same components as those of the aforementioned exemplary embodiment will be described with the same reference numerals. Like the above-described embodiment, a plurality of biological signal detecting sensors 20 and ground terminals 30 are alternately repeated on the upper surface of the inner surface of the body 10 constituting the biosignal measuring device.

On the other hand, the bottom of the biosignal sensor 20 and the ground terminal 30, on the contrary, the ground terminal 30 and the biosignal sensor 20 are alternately repeated so as to form a plurality of upper and lower columns.

The description of the operation of the bio-signal measurement by the above configuration will be omitted since the bio-signal sensor 20 performs the same operation as the above-described embodiment.

FIG. 5 is a plan view illustrating a biosignal measuring apparatus according to another exemplary embodiment of the present invention, and the same components as those of the aforementioned exemplary embodiment will be described with the same reference numerals. As in the above-described embodiment, a plurality of biological signal detecting sensors 20 and ground terminals 30 are alternately formed on the upper surface of the inner surface of the body 10 constituting the biological signal measuring instrument, and the biological signal is detected. At the bottom of the sensor 20 and the ground terminal 30, the ground terminal 30 and another biosignal detection sensor 20 'are alternately repeated so as to be configured in two columns above and below.

The description of the operation of the bio-signal measurement by the above configuration is the same as the above-described embodiment when the bio-signal detection sensor 20 (20 ') is detected, so the description thereof is omitted.

FIG. 6 is a plan view illustrating a biosignal measuring apparatus according to another exemplary embodiment of the present invention, and the same components as those of the aforementioned exemplary embodiment will be described with the same reference numerals. Similarly to the above-described embodiment, a plurality of biological signal detecting sensors 20 and ground terminals 30 are alternately formed on the upper surface of the inner surface of the body 10 constituting the biosignal measuring instrument, and a lower portion of the biosignal measuring instrument is formed. The biosignal sensor 20 and the ground terminal 30 are alternately repeated between the signal sensor 20 and the ground terminal 30 so that a plurality of upper and lower columns are formed.

The description of the operation of the bio-signal measurement by the above configuration is omitted when the bio-signal sensor 20 detects, because the same operation as the above-described embodiment.

The embodiment described above has been described in which the biosignal detecting sensor 20 and the grounding portion 30 are mounted on the inner surface of the body 10 in two rows above and below, but not limited thereto. It can be mounted in four rows.

1 is a plan view of a bio-signal measuring device worn on the wrist and ankle of the present invention.

Figure 2 is a plan view showing a state arranged by mounting another biosignal sensor to the biosignal measuring apparatus of the present invention.

3 is a plan view of another embodiment of a biosignal measuring apparatus of the present invention.

4 is a plan view of another embodiment of a biosignal measuring apparatus of the present invention.

5 is a plan view of another embodiment of a biosignal measuring apparatus of the present invention.

6 is a plan view of another embodiment of a biosignal measuring apparatus of the present invention.

7 is a block diagram illustrating a state in which a biosignal is measured and managed by a biosignal measuring apparatus of the present invention.

* Explanation of symbols on the main parts of the drawings

10. Body 20. Biosignal sensor

30. Grounding terminal 40. Control part

50. Server

Claims (8)

delete delete delete delete Body 10 which can be worn on both wrists and ankles by the fastener 11; A biosignal sensor 20 and a ground terminal 30 which are repeatedly formed at a predetermined interval on the inner surface of the body 10 to form a plurality in a row; It is formed on the outer surface of the body 10, amplified biosignal data detected by the biosignal detection sensor 20 in the amplifier 42 and converted into a digital signal in the signal converter 43, and then compared A control unit 40 in which a display unit 41 is formed so that the biological signal data can be wirelessly transmitted and received by the transceiver unit 44; Receiving the bio-signal data transmitted from the control unit 40 is configured to include a server 50 that forms a transmission and reception unit 51 for outputting the synchronized bio-signal data about the health of the person to the outside, Biological signal measuring device characterized in that the upper and lower two columns of the bio-signal sensor 20 and the ground terminal 30 formed a plurality of alternately repeated on the inner surface of the body (10). delete delete delete

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