KR20210064725A - Bio-signal detecting apparatus for vehicle - Google Patents

Abstract

The present invention relates to provide a bio-signal sensing apparatus for a vehicle which prevents vibrations generated in the vehicle from being transmitted to a biometric sensor. According to the present invention, since an elasticity unit is provided between a backrest of a vehicle seat and a main body, the elasticity unit absorbs or attenuates vibrations generated in the vehicle, thereby improving reliability of a signal detected by the biometric sensor provided inside the main body. The bio-signal sensing apparatus for the vehicle comprises: the main body; the biometric sensor; and the elastic unit.

Description

Bio-signal detection device for vehicle {BIO-SIGNAL DETECTING APPARATUS FOR VEHICLE}

The present invention relates to a bio-signal sensing device for a vehicle, and more particularly, to a bio-signal sensing device for a vehicle that prevents vibrations generated in a vehicle from being transmitted to a sensor.

A technology for providing safety services such as preventing drowsy driving and warning of abnormal health conditions by determining the driver's biometric information is gradually being utilized in vehicles. In order to determine the driver's biometric information, it is essential to accurately determine the driver's condition, and to this end, it is required to accurately detect the driver's biometric information. Accordingly, the seat of the vehicle detects the driver's bio-signals, checks the driver's condition using the detected bio-signals, and automatically changes the driving function to the autonomous driving system when there are abnormalities in the driver's condition. A driving assistance system has been proposed to make an emergency stop or drive the vehicle to a nearby hospital.

1 is a diagram illustrating a biosignal sensing device for a vehicle provided in a conventional driving assistance system.

Referring to FIG. 1 , a conventional device for detecting biosignals for a vehicle 10 is disposed on a backrest of a vehicle seat. The biosignal sensing device measures the heartbeat of the driver (USER), and includes an antenna block that transmits a transmission signal to the driver seated in the vehicle seat and receives a carrier signal corresponding to the transmission signal. The conventional vehicle biosignal sensing apparatus 10 measures a Doppler frequency using a transmission signal and a carrier signal, and detects a minute movement such as a heartbeat using the measured Doppler frequency.

However, in the conventional vehicle biosignal sensing device 10, the weak carrier signal is affected by various environmental variables in the vehicle environment, that is, the vibration noise of the vehicle, the movement of the occupant, etc., and noise is introduced into the carrier signal, so that the conventional signal There is a problem in that the reliability of the signal detected by the sensing device is lowered.

Domestic Patent Publication No. 10-2019-0014427

SUMMARY OF THE INVENTION An object of the present invention to solve the problems of the prior art as described above is to provide a bio-signal sensing device for a vehicle that prevents vibrations generated in a vehicle from being transmitted to a sensor.

In order to achieve the above object, the present invention is provided on a backrest of a vehicle seat, the body having a space therein; a biometric sensor accommodated in the main body and sensing a biosignal of a passenger seated on the seat; and an elastic part positioned on the inner surface of the body facing the backrest of the vehicle seat and having elasticity, wherein one surface of the elastic part is in close contact with the inner surface of the body, and the other surface of the elastic part is in close contact with the backrest of the vehicle seat. To provide a bio-signal sensing device for a vehicle.

In addition, a concave elastic receiving groove is formed on one surface of the elastic part, and an inner surface of the main body is inserted into the elastic receiving groove.

In addition, the elastic part provides a biosignal sensing device for a vehicle, characterized in that formed of a material lower than the density and hardness of the backrest of the vehicle seat.

In addition, there is provided a biosignal sensing device for a vehicle, wherein the other surface of the elastic portion is inserted into a concave portion concavely formed in the backrest of the vehicle seat.

In addition, the bracket is formed to cover the outer surface of the main body located in the opposite direction of the elastic part, both ends are bent to be mounted on the backrest of the vehicle seat; and an auxiliary elastic part having elasticity positioned between the outer surface of the main body and the bracket.

In addition, the auxiliary elastic part, a central elastic part formed in a long shape in the longitudinal direction to cross the outer surface of the main body, and the central elastic part on both sides of the central elastic part to cover both sides of the body to cover the backrest direction of the vehicle seat is bent There is provided a biosignal sensing device for a vehicle, characterized in that it includes a bending elastic part.

In addition, the body includes a base in close contact with the elastic part, and a cover formed to cover the base, wherein the biometric sensor is configured to be accommodated in a space between the base and the cover. A biosignal detection device is provided.

In addition, the biometric sensor is configured to receive a biosignal generated by the heartbeat of an occupant seated in the vehicle seat, and the base is inclined on the backrest of the vehicle seat, and the biometric sensor supported on the base is the vehicle. There is provided a biosignal sensing device for a vehicle, characterized in that the occupant is guided toward the heart of a seated passenger.

In addition, the other surface of the elastic part is inserted into a recess formed concavely on the rear surface of the backrest of the vehicle seat, and the bottom surface of the recess located in the opposite direction to the occupant sitting on the vehicle seat is inclined upwardly so as to approach the occupant , The elastic part and the main body are inclinedly arranged in a state supported by the bottom surface part, and angle fixing wings contacting the rear surface of the backrest of the vehicle seat protrude from both sides of the main body to fix the inclined angle of the main body. There is provided a biosignal sensing device for a vehicle, characterized in that it becomes.

In addition, when the elastic portion is inserted into the concave portion in an inclined state, the lower side of the base is positioned to protrude out of the concave portion, and the upper side of the base is inserted into the concave portion in an inclined state along the elastic portion. and the cover is positioned so as to protrude out of the concave portion, and the angle fixing wing includes a lower wing protruding in an inclined state on both lower sides of the base, and an inclined state on both upper sides of the cover. It provides a bio-signal sensing device for a vehicle, characterized in that it includes an upper wing that is formed to protrude.

According to the present invention, since the elastic part is provided between the backrest of the vehicle seat and the body, the elastic part absorbs or attenuates vibrations generated in the vehicle, thereby improving the reliability of the signal detected by the biometric sensor provided inside the body.

In addition, since the elastic part is safely inserted into the concave part, there is an effect that the elastic part is not arbitrarily removed by an external impact.

In addition, the elastic part is configured to have relatively low density and hardness compared to the backrest of the vehicle seat, so that the vibration absorbed by the elastic part is maximized.

In addition, since the main body is inserted into the elastic receiving groove, the elastic part protects the edge of the main body, and even if the main body is shaken by an external impact, the elastic part absorbs the shock applied to the main body. It has the effect of being safely protected from impact.

In addition, since the auxiliary elastic part is provided between the bracket and the body, the vibration transmitted to the bracket is not transmitted to the body, so that the reliability of the signal detected by the biometric sensor provided inside the body is further improved.

In addition, since the body is mounted at an angle to the vehicle seat toward the heart of the occupant, the detection efficiency of the biometric sensor accommodated in the body is improved.

In addition, the lower wing and the upper wing are each configured to be coupled to the rear surface of the backrest of the vehicle seat in an inclined state, so that the body is firmly coupled to the concave portion in an inclined state.

In addition, since the inclined angle and position of the lower wing and the upper wing can be set variously according to the inclined state of the concave portion, the main body can be fixed to the backrest of the vehicle seat at a specific angle to face the heart of the occupant. have.

In addition, when the lower wing and the upper wing are formed of a metal body, the lower wing and the upper wing are formed to protrude in a direction away from the main body, so they are positioned away from the biometric sensor located inside the main body, the performance of the biometric sensor It has no effect on the

1 is a diagram illustrating a biosignal sensing device for a vehicle provided in a conventional driving assistance system.
2 is a diagram schematically illustrating a state in which a biosignal sensing device for a vehicle according to a preferred embodiment of the present invention is installed on a seat of a vehicle.
3 is an exploded view illustrating a biosignal sensing device for a vehicle according to a preferred embodiment of the present invention.
4 is a diagram schematically illustrating a vertical cross-section of a biosignal sensing device for a vehicle according to a preferred embodiment of the present invention.
5 is a diagram schematically illustrating a horizontal cross-section of a biosignal sensing device for a vehicle according to a preferred embodiment of the present invention.
6 is a diagram schematically illustrating a state in which the biosignal sensing device for a vehicle according to a preferred embodiment of the present invention is installed to be inclined on a backrest of a vehicle seat.
FIG. 7 is a cross-sectional view taken along line AA′ of FIG. 6 .
FIG. 8 is a cross-sectional view taken along line BB′ of FIG. 6 .

Hereinafter, a biosignal sensing device for a vehicle according to a preferred embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

2 is a view schematically showing a state in which the bio-signal sensing device for a vehicle according to a preferred embodiment of the present invention is installed on the seat of the vehicle, and FIG. 3 is an exploded view of the bio-signal sensing device for a vehicle according to a preferred embodiment of the present invention. It is the drawing shown.

2 and 3 , the biosignal sensing apparatus 100 for a vehicle according to a preferred embodiment of the present invention is mounted on the backrest S1 of the vehicle seat S and seated on the vehicle seat S. , and includes an elastic part 130 , a body 110 , a biometric sensor 120 , an auxiliary elastic part 140 , and a bracket 150 .

The vehicle seat S includes a seating portion (not shown) on which the buttocks of the occupant are seated, and the backrest S1 for supporting the occupant's back. In an embodiment of the present invention, the vehicle seat S may be provided in the driver's seat or the passenger seat. In addition, a concave portion S1a is concavely formed on the rear surface of the backrest S1 of the vehicle seat S positioned in the opposite direction to the back of the occupant.

The elastic part 130 is formed of an elastic material, for example, is formed in a rectangular parallelepiped shape, and is installed to be inserted into the concave part S1a. One surface of the elastic part 130 is in close contact with the inner surface of the main body 110 to be described later, and the other surface of the elastic part 130 is in close contact with the bottom surface of the concave portion S1a facing the front direction of the backrest S1.

The body 110 is mounted on the back S1 of the vehicle seat S in a state coupled to the elastic part 130 , and a plate-shaped base 112 in close contact with the elastic part 130 and the base 112 . and a cover 114 convexly formed to cover the . And an empty space is formed between the base 112 and the cover 114, and the biometric sensor 120 is accommodated in the empty space. Since the base 112 is positioned to be inserted into the concave portion S1a of the elastic portion 130, the elastic portion 130 surrounds the rim of the base 112, and is moved from the vehicle to the body 110 in the driving process of the vehicle. Even if an external shock such as vibration is applied, the base 112 has an effect of being firmly positioned in the concave portion S1a of the elastic portion 130 .

The biometric sensor 120 is accommodated in the body 110 and detects the biosignal of the passenger sitting on the seat S, for example, transmits a continuous sinusoidal radio frequency signal to the passenger, and a carrier wave carried by the passenger. receives the phase change of the occupant and detects the occupant's biosignal. Since air and blood enter and exit the human lungs and heart, and periodically contract and expand, minute movements such as respiration and heartbeat can be sensed using a carrier wave carried by the Doppler effect.

The bracket 150 is formed to cover the outer surface of the cover 114 positioned in the opposite direction to the elastic part 130, and both ends thereof are mounted on the backrest S1 of the vehicle seat S in the backrest S1 direction. formed by bending This bracket 150 firmly couples the body 110 to the backrest S1 of the seat S.

The auxiliary elastic part 140 is positioned between the outer surface of the main body 110 and the bracket 150 and is formed to have elasticity like the elastic part 130 . Looking at the detailed structure of the correction elastic part 130, the central elastic parts 142 and 130 formed in a long shape in the longitudinal direction to cross the outer surface of the cover 114, and the central elastic parts 142, 130 ) includes bending elastic parts 144 and 130 bent in the direction of the backrest S1 of the vehicle seat S to cover both sides of the cover 114 and both sides of the base 112 on both sides of the . And on the outer surface of the cover 114, a concave guide groove 115 is formed so that the central elastic parts 142 and 130 are guided.

4 is a diagram schematically illustrating a vertical cross-section of a biosignal sensing device for a vehicle according to a preferred embodiment of the present invention.

Referring to FIG. 4 , a concave portion S1a is formed in the backrest S1 of the vehicle seat S, and the inner surface of the elastic portion 130 is inserted into the concave portion S1a and coupled thereto. And the body 110 is coupled to the outer surface of the elastic part (130). As such, since the elastic part 130 is provided between the backrest S1 of the vehicle seat S and the body 110, the elastic part 130 absorbs or attenuates vibrations generated in the vehicle, so that the inside of the body 110 is There is an effect that the reliability of the signal detected by the provided biometric sensor 120 is improved.

In addition, the elastic part 130 is preferably formed of a material lower than the density and hardness of the backrest S1 of the vehicle seat (S). That is, in the case of the backrest S1 of the vehicle seat S, it is configured to have a relatively strong density and hardness because it must support the occupant. On the other hand, since the elastic part 130 serves to absorb the impact applied to the body 110 , it may be configured to have a relatively weaker density and hardness than the backrest S1 of the vehicle seat S. Accordingly, in the present invention, the elastic part 130 is configured to have a relatively low density and hardness compared to the backrest S1 of the vehicle seat S, so that the effect of maximizing the vibration absorbed by the elastic part 130 is effective. have.

In addition, since the elastic part 130 is safely inserted into the concave part S1a, there is an effect that the elastic part 130 is not arbitrarily detached due to an external impact.

In addition, since the main body 110 is inserted into the elastic receiving groove 132 , the elastic part 130 protects the edge of the main body 110 , and even if the main body 110 is shaken by an external impact, the elastic part 130 . ) absorbs the shock applied to the main body 110, so that the biometric sensor 120 inside the main body 110 has an effect of being safely protected from external shocks.

5 is a diagram schematically illustrating a horizontal cross-section of a biosignal sensing device for a vehicle according to a preferred embodiment of the present invention.

Referring to FIG. 5 , the bracket 150 fixes the main body 110 to the backrest S1 of the vehicle seat S. Since the auxiliary elastic part 140 is provided between the bracket 150 and the main body 110 , the auxiliary elastic part 140 absorbs the vibration transmitted from the vehicle seat S to the bracket 150 . As such, the vibration transmitted to the bracket 150 is not transmitted to the cover 114 of the main body 110 in contact with the auxiliary elastic part 140 due to the auxiliary elastic part 140 provided on the inside of the bracket 150, There is an effect that the reliability of the signal detected by the biometric sensor 120 provided in the body 110 is further improved.

6 is a view schematically illustrating a state in which a biosignal sensing device for a vehicle is installed to be inclined on a backrest of a vehicle seat according to a preferred embodiment of the present invention, FIG. 7 is a cross-sectional view taken along line AA' of FIG. 6, and FIG. 8 is FIG. of the BB' section.

6 to 8 , since the biometric sensor 120 is configured to receive a biosignal generated by the heartbeat of the occupant sitting on the vehicle seat S, it should be installed to face the occupant's heart. To this end, the bottom surface of the concave portion S1a positioned in the opposite direction to the occupant sitting on the vehicle seat S is inclined to be closer to the occupant in the upward direction. And the base 112 is inclinedly disposed on the back S1 of the vehicle seat S along the recess S1a, and the biometric sensor 120 supported by the base 112 is seated on the vehicle seat S. is directed toward the heart of the At this time, the inner surface of the elastic part 130 is inserted into the concave part S1a which is concavely formed on the rear surface of the backrest S1 of the vehicle seat S, and the elastic part 130 and the body 110 are connected to the bottom surface part. It is inclined in a supported state.

As such, since the elastic part 130 and the main body 110 are disposed to be inclined in the concave part S1a, the biometric sensor 120 provided in the main body 110 faces the occupant's heart direction. ) has excellent efficiency in detecting the occupant's heartbeat. That is, when the biometric sensor 120 is positioned to face the occupant's heart direction, the radio wave can be transmitted in the occupant's heart direction and the carrier wave can be easily received. In the present invention, since the body 110 is provided to be inclined on the vehicle seat S so as to face the heart direction of the occupant, the detection efficiency of the biometric sensor 120 accommodated in the body 110 is improved.

On the other hand, when the elastic portion 130 is inserted into the concave portion (S1a) in an inclined state, the body 110 is also disposed to be inclined in the concave portion (S1a), the lower side of the base 112 is the concave portion (S1a). It is positioned to protrude to the outside, and the upper side of the base 112 is positioned to be inserted into the concave part S1a in an inclined state along the elastic part 130 . The cover 114 is positioned to protrude to the outside of the concave portion S1a on both the lower side and the upper side. And in order to firmly support the body 110 inclinedly disposed in the concave portion S1a, the body 110 is provided with an angle fixing blade. The angle fixing wing is provided on both sides of the main body 110 to fix the inclined angle α of the main body 110, and includes a lower wing 112a and an upper wing 114a.

The lower wing 112a is formed to protrude in an inclined state on both lower sides of the base 112, and both ends of the lower wing 112a are formed to contact the lower rear side of the back S1 of the vehicle seat S. . The upper wing 114a is formed to protrude in an inclined state on both upper sides of the cover 114, and both ends of the upper wing 114a are formed to contact the upper rear side of the backrest S1 of the vehicle seat S. .

And the lower wing 112a and the upper wing 114a are configured to be coupled to the rear surface of the back S1 of the vehicle seat S, respectively, and the body 110 is firmly coupled to the concave portion S1a in an inclined state. has the effect of being And since the inclined angle and position of the lower wing 112a and the upper wing 114a can be variously set according to the inclined state of the concave portion S1a, the main body 110 has a specific angle to face the occupant's heart direction. There is an effect that can be fixed to the back (S1) of the vehicle seat (S). In addition, when the lower wing 112a and the upper wing 114a are formed of a metal body, the lower wing 112a and the upper wing 114a are formed to protrude in a direction away from the main body 110, so the main body 110 inside It is positioned far away from the biometric sensor 120 positioned in the , so that the performance of the biometric sensor 120 is not significantly affected.

Although the present invention has been described in detail in the above embodiments, it is natural that the present invention is not limited thereto, and it is apparent to those skilled in the art that various modifications and modifications can be made within the scope of the technical spirit of the present invention. If it falls within the scope of the claims, the technical idea should also be regarded as belonging to the present invention.

S: vehicle seat S1: backrest
S1a: recess
100: vehicle biosignal detection device
110: body 112: base
112a: lower wing 114: cover
114a: upper wing 115: guide groove
120: biometric sensor 130: elastic part
132: elastic receiving groove 140: auxiliary elastic part
142: central elastic part 144: bending elastic part
150: bracket

Claims (10)

a body provided on a backrest of a vehicle seat and having a space therein;
a biometric sensor accommodated in the main body and sensing a biosignal of a passenger seated on the seat; and
It is located on the inner surface of the main body facing the backrest of the vehicle seat comprising an elastic part having elasticity,
One surface of the elastic part is in close contact with the inner surface of the main body, and the other surface of the elastic part is in close contact with the backrest of the vehicle seat.
The method of claim 1,
An elastic receiving groove is formed concavely on one surface of the elastic part,
The inner surface of the main body is a biosignal sensing device for a vehicle, characterized in that inserted into the elastic receiving groove.
The method of claim 1,
The biosignal sensing device for a vehicle, characterized in that the elastic part is formed of a material lower than the density and hardness of the backrest of the vehicle seat.
The method of claim 1,
The other surface of the elastic part is inserted into a concave part concavely formed in the backrest of the vehicle seat.
The method of claim 1,
a bracket formed to cover an outer surface of the body positioned in a direction opposite to the elastic part, and both ends of which are bent to be mounted on a backrest of a vehicle seat; and
The biosignal sensing device for a vehicle, further comprising an auxiliary elastic part positioned between the outer surface of the main body and the bracket and having elasticity.
6. The method of claim 5,
The auxiliary elastic part includes a central elastic part formed in a long shape in a longitudinal direction so as to cross the outer surface of the main body, and a bending elastic part bent in the direction of the backrest of the vehicle seat to cover both sides of the main body on both sides of the central elastic part A biosignal sensing device for a vehicle, characterized in that it comprises a unit.
The method of claim 1,
The body includes a base in close contact with the elastic part, and a cover formed to cover the base, wherein the biometric sensor is configured to be accommodated in a space between the base and the cover. detection device.
8. The method of claim 7,
The biometric sensor is configured to receive a biosignal generated by the heartbeat of an occupant seated in a vehicle seat,
The base is disposed at an angle on the backrest of the vehicle seat, and the biometric sensor supported on the base is induced to face the heart of a occupant seated in the vehicle seat.
9. The method of claim 8,
The other surface of the elastic part is inserted into a concave portion concavely formed on the rear surface of the backrest of the vehicle seat,
The lower surface of the concave portion positioned in the opposite direction to the occupant sitting on the vehicle seat is inclined upwardly so as to approach the occupant,
The elastic part and the main body are inclinedly arranged in a state supported by the bottom surface part,
The bio-signal sensing device for a vehicle, characterized in that the angle fixing wings contacting the rear surface of the backrest of the vehicle seat are protrudingly formed on both sides of the main body to fix the inclined angle of the main body.
10. The method of claim 9,
When the elastic part is inserted into the recess in an inclined state, the lower side of the base is positioned to protrude outside the recess, and the upper side of the base is positioned to be inserted into the recess in an inclined state along the elastic part. and the cover is positioned to protrude to the outside of the concave portion,
The angle fixing wing is a biosignal sensing device for a vehicle, characterized in that it comprises a lower wing protruding in an inclined state on both lower sides of the base, and an upper wing protruding in an inclined state on both upper sides of the cover. .

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