KR102102871B1 - Palm rest type measuring device for bio information - Google Patents

Abstract

A palm rest-type biometric information measuring device according to an embodiment of the present invention comprises: an upper housing including a grip part in which a finger seating groove corresponding to each finger is formed at an upper portion thereof so that fingers are seated when gripped; a biometric information measurement module provided on the finger seating groove to measure biometric information by at least one method from among contact and non-contact methods; and a lower housing coupled to the upper housing and having a second receiving part formed on one surface thereof to receive a printed circuit board. According to the present invention, it is possible to improve measurement accuracy of biometric information, and at the same time, to miniaturize the biometric information measuring device.

Description

Palm rest type biometric information measuring device {PALM REST TYPE MEASURING DEVICE FOR BIO INFORMATION}

The present application relates to a palm rest type biometric information measuring device.

Recently, as living standards and health consciousness have increased, interest and demand for health management using a biometric information measuring device has increased. The biometric information measuring device is a device for measuring biometric information such as blood pressure, pulse wave, and electrocardiogram of the human body, and can determine a health state based on the biometric information measured using such a device.

As an example of such a biometric information measurement device, Korean Patent Publication No. 2005-0047877 discloses a 'mouse having a biometric information measurement module and a biometric information management system using the same'.

The above-mentioned 'Mouse having a bioinformation measurement module and a bioinformation management system using the same' discloses contents for conveniently measuring bioinformation such as a heart rate using a mouse, a device frequently used in daily life.

Since the above-described 'mouse type multiple biosignal measuring device' measures only one ECG biometric information, it cannot measure various biometric information, and there is a problem in that the wrist posture is inconvenient when used for a long time.

Korean Patent Publication No. 2005-0047877 ('Mouse with bio-information measurement module and bio-information management system using the same', publication date: May 23, 2005)

The present application is a palm rest type living body capable of measuring biometric information in a natural state as much as possible, reducing measurement stress when using for a long time, increasing the measurement accuracy of biometric information, and miniaturizing the biometric information measuring device. An information measuring device is provided.

According to an embodiment of the present invention, the upper housing including a grip portion formed on the upper finger seating groove corresponding to each finger so that the finger is seated when gripped; A biometric information measurement module provided in the finger seating groove for measuring biometric information in at least one of contact and non-contact methods; And a lower housing coupled to the upper housing and having a second receiving portion for accommodating a printed circuit board on one surface, wherein the grip portion is inclined at a predetermined angle in the direction of the thumb gripped about a vertical axis. Formed, a cut surface is formed at one end of the inclined grip portion, a first finger seating groove corresponding to the thumb is formed inside the inclined grip portion, and an index finger is formed outside the inclined grip portion. A second finger seating groove corresponding to a two-finger seating groove and a middle finger is formed, and the first finger seating groove is equipped with a PPG (Photo PlethysmoGraphy) sensor for measuring optical blood flow among the biometric information measuring modules. A first accommodating portion having an insertion groove is formed, and the first accommodating portion has a free curved surface of the thumb. A sensor frame having a horizontal portion bent along and a vertical portion inserted into the first insertion groove is attached, and on the horizontal portion of the sensor frame, a first through hole formed at a corresponding position of the PPG sensor, and the living body A second through hole in which a first electrode of a pair of galvanic skin resistance (GSR) electrodes for measuring electrical resistance among the information measurement modules is inserted is formed, and the first electrode of the pair of GSR electrodes is the first Provided is a palm rest type biometric information measuring device that is fixed via a receiving portion and a spring.

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According to one embodiment of the present invention, by allowing the grip portion having the finger seating groove formed to be inclined at a predetermined angle around the vertical axis, bio-information can be measured in a natural state as much as possible and measurement stress can be reduced when used for a long time.

In addition, according to one embodiment of the present invention, the GSR electrode can be positioned on the thumb-index or thumb-ring to prevent the influx of noise to increase the measurement accuracy of biometric information.

In addition, according to one embodiment of the present invention, the GSR electrode is fixed to the upper housing by means of a spring to maintain a constant contact pressure with the finger, while the sensor frame is formed to be bent along the free curved surface of the finger, so that the finger and Through precise contact between GSR electrodes, measurement accuracy of biometric information can be improved.

In addition, according to one embodiment of the present invention, by accommodating the printed circuit board in the receiving portion of the lower housing coupled to the upper housing, it is possible to minimize the space occupancy and to miniaturize the biometric information measuring device.

1A is a perspective view of a palm rest type biometric information measuring device according to an embodiment of the present invention.
1B is a view as viewed from a first finger seating groove side of a palm rest type biometric information measuring device according to an embodiment of the present invention.
1C is a view as viewed from the second finger seating groove to the fifth finger seating groove side of the palm rest type biometric information measuring device according to an embodiment of the present invention.
2A is a diagram showing a PPG sensor, a GSR electrode, and a sensor frame provided in a first receiving portion formed in a first finger seating groove of a palm rest type biometric information measuring device according to a first embodiment of the present invention.
2B is a diagram showing a PPG sensor, a GSR electrode, and a sensor frame provided in a first receiving portion formed in a first finger seating groove of a palm rest type biometric information measuring device according to a second embodiment of the present invention.
3 is a view showing the SKT sensor and the GSR electrode provided in the second and third finger seating grooves of the palm rest type biometric information measuring device according to an embodiment of the present invention.
4 is a view showing a lower housing coupled with an upper housing according to an embodiment of the present invention.
5 is a diagram illustrating a method for measuring biometric information using a palm rest biometric information measuring apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention may be modified in various other forms, and the scope of the present invention is not limited only to the embodiments described below. The shape and size of elements in the drawings may be exaggerated for a more clear description, and elements indicated by the same reference numerals in the drawings are the same elements.

1A is a perspective view of a palm rest type biometric information measuring device according to an embodiment of the present invention, and FIG. 1B is a view as viewed from a first finger seating groove side of the palm rest type biometric information measuring device according to an embodiment of the present invention 1C is a view as viewed from the second finger seating groove to the fifth finger seating groove side of the palm rest type biometric information measuring device according to an embodiment of the present invention.

First, as shown in Figures 1a to 1c, the palm rest type biometric information measuring device according to an embodiment of the present invention, the finger seating groove 120 corresponding to each finger so that the fingers are seated when gripped, the upper part Biometric information measurement modules (GSR1, GSR2) for measuring biometric information in at least one of a contact and non-contact method provided in the upper housing 100 and the finger seating groove 120 including the grip portion 110 formed in the PPG, SKT).

The above-described upper housing 100 may include a grip portion 110 in which a finger seating groove 120 corresponding to each finger is formed on the upper portion so that fingers are seated when gripped.

Specifically, the grip portion 110 includes a first finger seating groove 121 corresponding to a thumb, a second finger seating groove 122 corresponding to an index finger, a third finger seating groove 123 corresponding to a middle finger, A fourth finger seating groove 124 corresponding to the ring finger and a fifth finger seating groove 125 corresponding to the little finger may be formed.

In addition, the grip unit 110 may be formed to be inclined by a predetermined angle around the vertical axis. Here, the preset angle may be a value between 30 and 50 degrees, because the grip portion 110 can be gripped in a natural state as much as possible when it has the above-described angle, thereby reducing measurement stress when used for a long time. to be.

Further, the upper housing 100 may be formed such that its cross-sectional area gradually decreases from the bottom to the grip portion 110 formed on the top.

On the other hand, the biometric information measurement module (GSR1. GSR2, PPG, SKT) is provided in the finger seating groove 120 to measure biometric information in at least one of contact and non-contact methods.

GSR (Galvanic Skin Resistance) electrodes (GSR1, GSR2) include a pair of GSR electrodes for measuring skin electrical resistance through contact with a finger, and a PPG (Photo PlethysmoGraphy) sensor (PPG) is a non-contact method for optical blood flow. It is a sensor for measuring, and the SKT (SKin Temperature) sensor (SKT) may be a sensor for measuring body temperature through contact with a finger.

In particular, the first electrode GSR1 and the PPG sensor PPG of the pair of GSR electrodes GSR1 and GSR2 are provided in the first finger seating groove 121 corresponding to the thumb, and the pair of GSR electrodes ( Among the GSR1 and GSR2, the second electrode GSR2 is provided in the second finger seating groove 122 corresponding to the index finger, and the SKT sensor SKT has a third finger seating groove 123 corresponding to the middle finger. It may be provided in.

In the present invention, the second electrode GSR2 of the pair of GSR electrodes GSR1 and GSR2 is illustrated as being provided in the second finger seating groove 122 corresponding to the index finger, but the fourth finger corresponding to the ring finger It may be provided in the seating groove 124.

In addition, although the present invention illustrates electrodes or sensors for measuring skin electrical resistance, light blood flow, and body temperature, various biosignal measurement modules may be used according to the needs of those skilled in the art. On the other hand, an unexplained symbol C is a cable.

Meanwhile, FIG. 2A is a diagram showing a PPG sensor, a GSR electrode, and a sensor frame provided in a first receiving portion formed in a first finger seating groove of a palm rest type biometric information measuring device according to a first embodiment of the present invention. Hereinafter, the PPG sensor, the GSR electrode, and the sensor frame provided in the first receiving portion formed in the first finger seating groove will be described in detail with reference to FIG. 2A.

As shown in Figure 2a, the first finger receiving groove 121, PPG sensor (PPG) is attached, the first receiving portion 121b is formed with a first insertion groove (121a) is formed, the first receiving portion A sensor frame 130 having a horizontal portion 131 formed to be bent along a free curved surface of the thumb and a vertical portion 132 inserted into the first insertion groove 121a may be attached to the 121b.

Here, the above-described sensor frame 130 may be a first electrode (GSR1) of a pair of GSR electrodes, and the above-described sensor frame 130 has a first through hole formed at a corresponding position of the PPG sensor (PPG). 131a may be formed, and the first electrode GSR1 of the pair of GSR electrodes may be fixed through a first receiving portion 121b and a spring (not shown).

On the other hand, the unexplained code CV (cover) is a cover for covering the horizontal portion 131 of the sensor frame 130, may be a semi-cylindrical shape or a band type, to prevent interference of light from light or sunlight. In order to be made of opaque material.

Meanwhile, FIG. 2B is a diagram showing a PPG sensor, a GSR electrode, and a sensor frame provided in a first accommodating portion formed in a first finger seating groove of a palm rest biometric information measuring device according to a second embodiment of the present invention.

As shown in Figure 2b, the first finger receiving groove 121, PPG sensor (PPG) is attached, the first receiving portion 121b is formed with a first insertion groove (121a) is formed, the first receiving portion A sensor frame 130 having a horizontal portion 131 formed to be bent along a free curved surface of the thumb and a vertical portion 132 inserted into the first insertion groove 121a may be attached to the 121b.

In the horizontal portion 131 of the sensor frame 130 described above, a first through hole 131a formed at a corresponding position of the PPG sensor PPG and a first electrode GSR1 among a pair of GSR electrodes are inserted. The second through hole 131b is formed, and the first electrode GSR1 of the pair of GSR electrodes inserted into the second through hole 131b may be fixed through the first receiving portion 121b and the spring. have.

On the other hand, the unexplained code CV (cover) is a cover for covering the horizontal portion 131 of the sensor frame 130, may be a semi-cylindrical shape or a band type, and light and PPG sensor from light or sunlight ( PPG) may be made of an opaque material to prevent interference between light.

As described above, according to one embodiment of the present invention, the GSR electrode is fixed to the upper housing via a spring to maintain a constant contact pressure with the finger while the sensor frame is formed to bend along the free curved surface of the finger, Through the precise contact between the GSR electrode and the measurement accuracy of the biometric information can be improved.

On the other hand, Figure 3 is a view showing the SKT sensor and the GSR electrode provided in the second and third finger seating grooves of the palm rest biometric information measuring device according to an embodiment of the present invention.

As illustrated in FIG. 3, in the second finger seating groove 122 corresponding to the index finger, a second insertion groove 122a into which the second electrode GSR2 is inserted among the pair of GSR electrodes may be formed. , Among the pair of GSR electrodes, the second electrode GSR2 may be fixed through a second insertion groove 122a and a spring (not shown).

Also, a third insertion groove l23a for accommodating the SKT sensor SKT may be formed in the third finger seating groove 123, and the SKT sensor SKT includes a third insertion groove l23a and a spring ( (Not shown).

In describing the present invention, the second electrode GSR2 of the pair of GSR electrodes described above is provided in the second finger seating groove 122 corresponding to the index finger, but the second electrode GSR2 is Instead of the second finger seating groove 122, the fourth finger seating groove 124 corresponding to the ring finger may be provided.

As described above, according to one embodiment of the present invention, the GSR electrode can be positioned at the thumb-index or thumb-ring to prevent the inflow of noise to increase the measurement accuracy of biometric information.

On the other hand, Figure 4 is a view showing a lower housing coupled to the upper housing according to an embodiment of the present invention.

As shown in FIG. 4, the second housing portion 201 is formed in the lower housing 200, and the printed circuit board 300 may be accommodated in the formed second accommodation portion 201.

The above-described printed circuit board 300 includes a GSR terminal 301 for connection with a GSR electrode, a PPG terminal 302 for connection with a PPG sensor, a SKT terminal 303 for connection with a SKT sensor, and Bluetooth. A control module 304 capable of the same wireless communication may be provided.

As described above, according to one embodiment of the present invention, by accommodating the printed circuit board in the receiving portion of the lower housing coupled to the upper housing, there is an advantage that the space occupancy is minimized and the size of the biometric information measuring device can be reduced. .

As described above, according to one embodiment of the present invention, by allowing the grip portion having the finger seating groove formed to be inclined at a predetermined angle around the vertical axis, bio-information can be measured in a natural state as much as possible and reduced measurement stress when used for a long time. I can do it.

In addition, according to one embodiment of the present invention, the GSR electrode can be positioned on the thumb-index or thumb-ring to prevent the influx of noise to increase the measurement accuracy of biometric information.

In addition, according to one embodiment of the present invention, the GSR electrode is fixed to the upper housing by means of a spring to maintain a constant contact pressure with the finger, while the sensor frame is formed to be bent along the free curved surface of the finger, so that the finger and Through precise contact between GSR electrodes, measurement accuracy of biometric information can be improved.

In addition, according to one embodiment of the present invention, by accommodating the printed circuit board in the receiving portion of the lower housing coupled to the upper housing, it is possible to minimize the space occupancy and to miniaturize the biometric information measuring device.

Meanwhile, FIG. 5 is a flowchart illustrating a method for measuring biometric information using a palm rest biometric information measuring apparatus according to an embodiment of the present invention. For the sake of simplicity of the invention, descriptions of overlapping parts with reference to FIGS. 1 to 4 are omitted.

1 to 5, first, a method for measuring biometric information using a palm rest biometric information measuring apparatus according to an embodiment of the present invention will be disclosed by the step of holding a palm rest biometric information measuring apparatus (S501). You can.

The palm rest-type biometric information measuring device described above includes an upper housing 100 including a grip portion 110 in which a finger seating groove 120 corresponding to each finger is formed on an upper portion so that the fingers are seated when gripped, and a finger seating groove ( It is provided in 120) may include a biometric information measurement module (GSR1.GSR2, PPG, SKT) for measuring biometric information in a contact or non-contact manner.

In particular, the grip portion 110 according to an embodiment of the present invention is formed to be inclined by a predetermined angle around the vertical axis, and the upper housing 100 gradually decreases in cross-sectional area toward the grip portion 110 formed at the top from the bottom. It can be formed to be as described above.

Thereafter, a bio-information measurement module, that is, a PPG sensor (PPG), a pair of GSR electrodes (GSR1, GSR2), and a SKT sensor (SKT) may be used to measure optical blood flow, skin electrical response, and body temperature (S502).

Next, the control module 304 signals the measured optical blood flow, skin electrical reaction and body temperature (S503), and then the signal processed optical blood flow, skin electrical reaction and body temperature can be wirelessly transmitted (S504).

As described above, according to one embodiment of the present invention, by allowing the grip portion with the finger seating groove formed to be inclined at a predetermined angle around the vertical axis, it is possible to measure bio-information in the most natural state and reduce measurement stress when used for a long time. I can do it.

In addition, according to one embodiment of the present invention, the GSR electrode can be positioned on the thumb-index or thumb-ring to prevent the influx of noise to increase the measurement accuracy of biometric information.

In addition, according to one embodiment of the present invention, the GSR electrode is fixed to the upper housing by means of a spring to maintain a constant contact pressure with the finger, while the sensor frame is formed to be bent along the free curved surface of the finger, so that the finger and Through precise contact between GSR electrodes, measurement accuracy of biometric information can be improved.

In addition, according to one embodiment of the present invention, by accommodating the printed circuit board in the receiving portion of the lower housing coupled to the upper housing, it is possible to minimize the space occupancy and to miniaturize the biometric information measuring device.

This application is not limited by the above-described embodiment and the accompanying drawings. It is intended to limit the scope of rights by the appended claims, and that various forms of substitutions, modifications, and changes can be made without departing from the technical spirit of the present application described in the claims to those skilled in the art. It will be self-evident.

100: upper housing 110: grip portion
120: finger seating groove 121: first finger seating groove
121a: first insertion groove 121b: first receiving portion
122: second finger seating groove 122a: second insertion groove
123: third finger seating groove 123a: third insertion groove
124: fourth finger seating groove 125: fifth finger seating groove
130: sensor frame 131: horizontal part
131a: first through hole 131b: second through hole
132: vertical portion 200: lower housing
201: second receiving portion 300: printed circuit board
301: GSR terminal 302: PPG terminal
303: SKT terminal 304: control module
GSR1, GSR2: GSR electrode PPG: PPG sensor
SKT: SKT sensor CV: cover
C: Cable

Claims (10)

An upper housing including a grip portion in which a finger seating groove corresponding to each finger is formed at an upper portion so that fingers are seated when gripped;
A biometric information measurement module provided in the finger seating groove for measuring biometric information in at least one of contact and non-contact methods; And
It is coupled to the upper housing, a lower housing formed with a second receiving portion for receiving a printed circuit board on one side; includes,
The grip portion,
In the direction of the thumb gripped about the vertical axis, the whole is formed to be inclined at a predetermined angle, and a cut surface is formed at one end of the inclined grip portion,
A first finger seating groove corresponding to the thumb is formed inside the gripped portion of the grip,
A second finger seating groove corresponding to the index finger and a third finger seating groove corresponding to the middle finger are formed on the outside of the inclined grip portion,
In the first finger seating groove, a PPG (Photo PlethysmoGraphy) sensor for measuring optical blood flow among the biometric information measuring modules is attached, and a first receiving portion having a first insertion groove is formed,
A sensor frame having a horizontal portion bent along a free curved surface of the thumb and a vertical portion inserted into the first insertion groove is attached to the first receiving portion,
In the horizontal portion of the sensor frame, a first through hole formed in a corresponding position of the PPG sensor, and a first electrode of a pair of galvanic skin resistance (GSR) electrodes for measuring electrical resistance among the biometric information measurement modules A second through hole to be inserted is formed,
The first electrode of the pair of GSR electrodes is fixed via the first receiving portion and a spring, a palm rest type biometric information measuring device.
According to claim 1,
The upper housing,
The palm rest type biometric information measuring device is formed to gradually decrease in cross-sectional area from the lower portion toward the grip portion formed at the upper portion.
According to claim 1,
The biometric information measurement module,
A palm rest type biometric information measuring device further comprising a SKT (SKin Temperature) sensor for measuring body temperature.
According to claim 3,
The SKT sensor is provided in a third finger seating groove corresponding to a middle finger, a palm rest type biometric information measuring device.
delete delete According to claim 1,
In the sensor frame,
A palm rest type biometric information measuring device further comprising a cover for covering the horizontal portion.
According to claim 4,
In the second finger seating groove, a second insertion groove into which a second electrode is inserted among the pair of GSR electrodes is formed, and a second electrode of the pair of GSR electrodes mediates the second insertion groove and a spring. Is fixed to,
In the third finger seating groove, a third insertion groove into which the SKT sensor is inserted is formed, and the SKT sensor is fixed via the third insertion groove and a spring, a palm rest biometric information measuring device.
delete According to claim 1,
The preset angle,
Palm rest type biometric information measuring device, which is a value between 30 degrees and 50 degrees.

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