JP6859741B2 - Biometric information acquisition unit, stationary unit, and biometric information acquisition device - Google Patents

Description

The present invention relates to a biological information acquisition unit, a stationary unit, and a biological information acquisition device.

There is a biometric information acquisition device that acquires biometric information of the subject.

As this type of device, Patent Document 1 discloses a belt-type biological information acquisition device. As shown in FIG. 2, for example, in the same document, this biometric information acquisition device obtains a belt that can be worn on the waist of a subject, an air bag (pressure sensitive portion) attached to the surface of the belt, and the internal pressure of the air bag. It has a pressure sensor to detect. When the subject's body movement acts on the air bag while the subject is wearing the belt, the internal pressure of the air bag changes. The pressure sensor acquires a signal related to the biological information of the subject (for example, body movements such as turning over of the subject, movements such as respiration and heartbeat) based on the internal pressure.

Japanese Unexamined Patent Publication No. 2001-286448

The wearable biometric information acquisition device as described above must always be attached to the subject when acquiring biometric information. On the other hand, the subject may not necessarily want to wear a wearable biological information acquisition device, for example, when going to bed or when he / she wants to relax on a sofa or the like. This is because wearing a biological information acquisition device may give a feeling of restraint.

The present invention has been made in view of such a problem, and an object of the present invention is to acquire biometric information even if the wearable biometric information acquisition device is removed from the subject, although the configuration is relatively simple. It is to provide a biometric information acquisition unit that can be used.

The first invention comprises a wearable biometric information acquisition device (10) that is configured to be wearable to a subject and acquires biometric information of the subject based on a first signal indicating the subject's body movements. A biometric information acquisition unit including a stationary unit (60) having an installation table (61) on which a biometric information acquisition device (10) removed from the subject is installed. , A body movement detection unit (70) provided on a predetermined object (5) to detect a second signal indicating the body movement of the target person, and an output for outputting the second signal to the biometric information acquisition device (10). A unit (76) is provided, and the biometric information acquisition device (10) is based on an input unit (36) into which the second signal output from the output unit (76) is input and the first signal. A signal processing unit (51) capable of executing the first processing operation for acquiring the biometric information and the second processing operation for acquiring the biometric information based on the second signal input to the input unit (36). ) Is provided, and the biometric information acquisition unit is characterized in that the first signal and the second signal are the same type of signal.

In the first invention, when the biological information acquisition device (10) is attached to the subject, the biological information acquisition device (10) detects the first signal indicating the body movement of the subject. When the first processing operation is performed by the signal processing unit (51) of the biological information acquisition device (10), the biological information is acquired based on the first signal.

On the other hand, when the subject does not want to wear the biometric information acquisition device (10), the biometric information acquisition device (10) is removed and installed on the installation table (61) of the stationary unit (60). The stationary unit (60) detects a second signal indicating the body movement of the subject by a body movement detection unit (70) provided on a predetermined object (5) (for example, bedding or a sofa). This second signal is sent to the signal processing unit (51) via the output unit (76) of the stationary unit (60) and the input unit (36) of the biometric information acquisition device (10). When the second processing operation is performed by the signal processing unit (51), biometric information is acquired based on the second signal.

As described above, in the present invention, even if the biological information acquisition device (10) is removed, the body movement detection unit (70) of the stationary unit (60) can detect the second signal indicating the body movement, and the second signal can be detected. Biometric information can be obtained based on. Therefore, even if the biological information acquisition device (10) is removed according to the situation of the subject, the biological information can be continuously acquired.

Further, in the present invention, the first signal detected by the biological information acquisition device (10) and the second signal detected by the stationary unit (60) are processed by the same signal processing unit (51). Therefore, the number of parts can be reduced and the device can be simplified as compared with the configuration in which the stationary unit (60) is provided with a separate signal processing unit.

In the second invention, in the first invention, the biometric information acquisition device (10) is provided with a rechargeable battery (22), and the stationary unit (60) is installed on the installation table (61). The biometric information acquisition unit is provided with a power supply unit (77) for supplying power to the rechargeable battery (22) of the biometric information acquisition device (10).

In the second invention, when the biometric information acquisition device (10) is installed on the installation table (61) of the stationary unit (60), the biometric information acquisition device (10) is transmitted from the power supply unit (77) of the stationary unit (60). Power is supplied to the rechargeable battery (22). As a result, the biological information acquisition device (10) can be charged with the biological information acquisition device (10) removed from the subject.

In the third invention, in the first or second invention, the biometric information acquisition device (10) determines whether or not the biometric information acquisition device (10) is installed on the installation table (61). The signal processing unit (51) includes a unit (50), and the signal processing unit (51) is described when the determination unit (50) determines that the biometric information acquisition device (10) is not installed on the installation table (61). The first processing operation is executed, and when the determination unit (50) determines that the biometric information acquisition device (10) is installed on the installation table (61), the second processing operation is executed. It is a characteristic biological information acquisition unit.

In the third invention, the first processing operation and the second processing operation are automatically switched according to the state of the biological information acquisition device (10). That is, when the subject wears the biological information acquisition device (10), the biological information acquisition device (10) is not installed on the installation table (61). When the determination unit (50) determines this, the signal processing unit (51) performs the first processing operation. Therefore, the signal processing unit (51) acquires the biological information based on the first signal detected by the biological information acquisition device (10).

On the other hand, when the subject removes the biometric information acquisition device (10) and installs the biometric information acquisition device (10) on the installation table (61), the determination unit (50) determines this and the signal processing unit (51). The second processing operation is performed at. Therefore, the signal processing unit (51) acquires biological information based on the second signal detected by the stationary unit (60).

In this way, by switching between the first processing operation and the second processing operation according to the installation status of the biological information acquisition device (10), erroneous signal processing can be avoided. That is, for example, even though the subject is wearing the biometric information acquisition device (10), the second processing operation is performed, or the subject is removing the biometric information acquisition device (10). , It is possible to avoid the first processing operation being performed. Therefore, the accuracy of the acquired biometric information can be improved.

A fourth invention is a biological information acquisition unit according to any one of the first to third inventions, wherein the body movement detection unit (70) is provided on the bedding (5) as the object. Is.

In the fourth invention, the body movement detection unit (70) is provided on the bedding (5) (bed, futon, etc. on which the subject sleeps). When the subject goes to bed on the bedding (5), the biological information acquisition device (10) is installed on the installation table (61) while removing the biological information acquisition device (10). In this state, the stationary unit (60) detects the second signal of the subject on the bedding (5), and the second processing operation is performed. Therefore, the subject can go to bed without feeling restrained, and can acquire the biological information of the subject in the sleeping state.

A fifth invention is a stationary unit, which is configured to be wearable to a target person, and is a wearable type biological information acquisition that acquires the biological information of the target person based on a first signal indicating the body movement of the target person. Installed on the installation table (61) on which the device (10) is installed, the body movement detection unit (70) that detects the second signal indicating the body movement of the target person of a predetermined object, and the installation table (61). A stationary unit characterized in that the biometric information acquisition device (10) provided with an output unit (76) for outputting the second signal, and the first signal and the second signal are the same type of signal. Is.

In the fifth invention, a stationary unit (60) for realizing the first invention can be provided.

The sixth invention includes, in the fifth invention, a power feeding unit (77) that supplies power to the rechargeable battery (22) of the biometric information acquisition device (10) installed on the installation table (61). It is a stationary unit characterized by.

In the sixth invention, a stationary unit (60) for realizing the second invention can be provided.

A seventh invention is a stationary unit according to the fifth or sixth invention, wherein the body movement detection unit (70) is provided on the bedding (5) as the object.

In the seventh invention, a stationary unit (60) for realizing the fourth invention can be provided.

The eighth invention is a wearable biometric information acquisition device that is configured to be wearable to a subject and acquires biometric information of the subject based on a first signal indicating the body movement of the subject, and is stationary. The biometric information is acquired based on the input unit (36), which is detected by the body motion detection unit (70) of the unit (60), and the second signal indicating the body movement of the subject is input, and the first signal. A signal processing unit (51) capable of executing a first processing operation and a second processing operation for acquiring biometric information based on the second signal input to the input unit (36) is provided . The biological information acquisition device is characterized in that the first signal and the second signal are the same type of signal.

In the eighth invention, the biological information acquisition device (10) for realizing the first invention can be provided.

In the eighth invention, the ninth invention includes a determination unit (50) for determining whether or not the stationary unit (60) is installed on the installation table (61), and the signal processing unit (51) When the determination unit (50) determines that the device is not installed on the installation table (61), the first processing operation is executed, and the determination unit (50) installs the device on the installation table (61). The biometric information acquisition device is characterized in that the second processing operation is executed when it is determined to be.

In the ninth invention, a biological information acquisition device (10) for realizing the third invention can be provided.

According to the present invention, while removing the biological information acquisition device (10) from the subject, the biological information can be continuously acquired by using the second signal detected by the stationary unit (60). Therefore, it is possible to avoid impairing the comfort of the subject due to the subject wearing the biological information acquisition device (10).

Further, according to the present invention, since the two signals are processed by the same signal processing unit (51), the number of parts and the cost can be reduced as compared with the configuration in which the stationary unit (60) is provided with a separate signal processing unit. The device can be simplified and downsized.

FIG. 1 is a schematic overall configuration diagram showing a biological information acquisition unit according to an embodiment, and shows a state in which the biological information acquisition device is detached from the stationary unit. FIG. 2 is a schematic overall configuration diagram showing the biological information acquisition unit according to the embodiment, and shows a state in which the biological information acquisition device is installed in the stationary unit. FIG. 3 is a top view showing the appearance of the biological information acquisition device according to the embodiment. FIG. 4 is a front view showing the appearance of the biological information acquisition device according to the embodiment. FIG. 5 is a right side view showing the appearance of the biological information acquisition device according to the embodiment. FIG. 6 is a rear view showing the appearance of the biological information acquisition device according to the embodiment. FIG. 7 is a block diagram showing the overall configuration of the biological information acquisition unit according to the embodiment. FIG. 8 is a schematic configuration diagram showing an example of an installation state of the second tube according to the embodiment.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. It should be noted that the following embodiments are essentially preferred examples and are not intended to limit the scope of the present invention, its applications, or its uses.

As shown in FIGS. 1 and 2, the biological information acquisition unit (1) according to the embodiment is configured by combining a wearable biological information acquisition device (10) and a cradle unit (60). The biological information acquisition device (10) is configured to be installable on the charging stand (61) of the cradle unit (60) (see FIG. 2).

<Basic configuration of biometric information acquisition device>
The biological information acquisition device (10) shown in FIGS. 1 to 6 is a wearable type that can be worn by a subject. The biological information acquisition device (10) is configured to be removable from the wearable item (2,3) of the subject, and is attached to the subject via the wearable item (2,3). The biological information acquisition device (10) of the present embodiment is attached to the belt (2) and the trousers (3) which are worn items.

The biological information acquisition device (10) includes a case unit (11), a first pressure-sensitive unit (30), a circuit board (21), and a rechargeable battery (22).

<Case unit>
As shown in FIGS. 1 and 5, the case unit (11) has an inverted U-shaped outer shape that is vertically long as a whole and the lower side is open. The case unit (11) is worn by the subject (2,3)
Consists of a sandwiching member for sandwiching. The case unit (11) has a first casing (12), a second casing (13), and a connecting member (14). The first casing (12) is arranged on the subject side with the worn items (2, 3) in between. The second casing (13) is arranged on the opposite side of the wearable item (2,3) from the subject. The connecting member (14) is made of a flexible tubular resin material. The connecting member (14) connects the end of the first casing (12) and the end of the second casing (13).

The first casing (12) houses the first pressure-sensitive unit (30), and the second casing (13) contains a liquid crystal display (20), a circuit board (21), and a rechargeable battery (22). Be housed.

As shown in FIG. 4, an opening (15) for exposing the liquid crystal display (20) is formed on the front surface of the second casing (13). The liquid crystal display (20) displays information on the operation of the biological information acquisition device (10) and information on the biological information of the subject.

A power button (16) and a switching button (17) are provided on the right side surface of the second casing (13). The power button (16) is an ON / OFF switch for switching ON / OFF of the liquid crystal display (20) or the biological information acquisition device (10). The switching button (17) is, for example, a switching unit for switching the display of the liquid crystal display (20).

In the case unit (11), a recess (18) (insertion hole) through which the worn item (2,3) is inserted between the first casing (12), the second casing (13), and the connecting member (14). Is formed.

A clip (not shown) is housed inside the case unit (11). The clip is a U-shaped leaf spring along the first casing (12), the connecting member (14), and the second casing (13). The urging force of this clip urges the first casing (12) and the second casing (13) in a direction in which they are close to each other. As a result, the case unit (11) can firmly attach the worn items (2,3). In addition, another elastic member such as a spring can be used instead of the clip.

<First pressure sensitive unit>
As shown in FIGS. 1 and 6, the first pressure sensitive unit (30) is housed inside the first casing (12). The first pressure-sensitive unit (30) constitutes a first body movement detection unit that detects a first signal indicating the body movement of the subject. The first pressure-sensitive unit (30) of the present embodiment has a first tube (31), a first pressure sensor (32), and a first tube connector (33).

The first tube (31) is a first pressure-sensitive portion on which the body movement of the subject acts, and constitutes a hollow hollow member. Specifically, the first tube (31) is formed of an elongated tube having a circular cross section and is made of a flexible resin material (for example, vinyl chloride). The first tube (31) is formed on the back wall surface (first wall portion (12a)) of the first casing (12) and the front wall surface (second wall portion (12b)) of the first casing (12). Arranged so as to be sandwiched.

As shown in FIG. 6, the first tube (31) is arranged in a substantially U shape along the first wall portion (12a). The base end of the first tube (31) is connected to the first pressure sensor (32) via a tubular first tube connector (33). The tip of the first tube (31) may be open or sealed with a stopper or the like. Further, the stopper may be formed with a communication port for communicating the inside and the outside of the first tube (31). In either configuration, the first tube (31) is configured so that the internal pressure changes due to the action of the subject's body movement.

The first pressure sensor (32) is located near the upper end of the first casing (12) and overlaps with the connecting member (14) in the front-rear direction. The first pressure sensor (32) is composed of a microphone. The first pressure sensor (32) detects the internal pressure of the first tube (31) and outputs a pressure signal corresponding to the internal pressure. This pressure signal becomes the first signal indicating the body movement of the subject. The first signal detected by the first pressure sensor (32) is sent to the circuit board (21) via a signal line (not shown).

The first tube connector (33) is a tubular member that connects the first tube (31) and the first pressure sensor (32). The first tube connector (33) is formed with a concave first housing portion (34) in which the first pressure sensor (32) is housed. The first accommodating portion (34) communicates with the first tube (31) connected to the first tube connector (33).

<Circuit board>
As shown in FIG. 1, the circuit board (21) is housed inside the second casing (13). The circuit board (21) is composed of a printed circuit board, and is equipped with an electronic circuit including a central processing unit (CPU) and a storage device (memory, registers, etc.). The circuit board (21) is formed in a plate shape extending vertically along the front surface and the rear surface of the second casing (13). The liquid crystal display (20) described above is mounted on the front surface (front surface) of the circuit board (21).

<Rechargeable battery>
The rechargeable battery (22) is housed inside the second casing (13) at a position adjacent to the circuit board (21). The rechargeable battery (22) constitutes the power source of the biological information acquisition device (10). The rechargeable battery (22) is powered by the cradle unit (60).

<Main unit side connection terminal>
As shown in FIG. 1, the first casing (12) of the biological information acquisition device (10) is provided with a main body side connection terminal (35). The main body side connection terminal (35) has a first input terminal (36) and a second input terminal (37) (see FIG. 7). The first input terminal (36) constitutes an input terminal (input unit) for signals. A pressure signal (second signal) output from the first output terminal (76) of the cradle unit (60) is input to the first input terminal (36). The second input terminal (37) constitutes an input terminal for charging. The power output from the second output terminal (77) of the cradle unit (60) is input to the second input terminal (37).

<Basic configuration of cradle unit>
The cradle unit (60) shown in FIGS. 1 and 2 constitutes a stationary unit installed on a predetermined installation surface (for example, on a desk). The cradle unit (60) has a charging stand (61), an AC adapter (68), and a second pressure sensitive unit (70).

<Charging stand>
The charging stand (61) constitutes an installation stand on which the biological information acquisition device (10) (strictly speaking, the case unit (11) which is the main body of the device) is installed. The charging stand (61) is formed in a concave shape with the upper side open. The charging stand (61) includes a horizontally long base portion (62), a first convex portion (63) protruding upward from one end (right end in FIG. 1) in the longitudinal direction of the base portion (62), and the like. It has a second convex portion (64) protruding upward from the other end (left end in FIG. 1) in the longitudinal direction of the base portion (62). In the charging stand (61), the storage portion (65) in which the biological information acquisition device (10) is stored inside the base portion (62), the first convex portion (63), and the second convex portion (64). Is formed.

An AC adapter (68) for charging the rechargeable battery (22) of the biological information acquisition device (10) is connected to the first convex portion (63). A second pressure sensor (72) and a second tube connector (73) are housed inside the first convex portion (63).

<Second pressure sensitive unit>
As shown in FIGS. 1, 2, and 8, the second pressure-sensitive unit (70) has a second tube (71), a second pressure sensor (72), and a second tube connector (73). Have.

The second tube (71) is a second pressure-sensitive portion on which the body movement of the subject acts, and constitutes a hollow hollow member. Specifically, the second tube (71) is formed of an elongated tube having a circular cross section and is made of a flexible resin material (for example, vinyl chloride).

The base end portion of the second tube (71) is arranged inside the first convex portion (63) and is connected to the second pressure sensor (72) via the second tube connector (73).

As shown in FIG. 8, the second tube (71) is arranged on or inside the bedding (5) (for example, a bed mat) which is an object. When the subject lies on the bedding (5), the subject's body movements act on the second tube (71).

A rectangular thin plate-shaped pad (80) is attached to the tip of the second tube (71). By placing the pad (80) on the bedding (5), the misalignment of the second tube (71) can be prevented.

The tip of the second tube (71) may be open or sealed with a stopper or the like. Further, the stopper may be formed with a communication port for communicating the inside and the outside of the second tube (71). In either configuration, the second tube (71) is configured so that the internal pressure changes due to the action of the subject's body movements.

The second pressure sensor (72) is composed of a microphone. The second pressure sensor (72) detects the internal pressure of the second tube (71) and outputs a pressure signal corresponding to the internal pressure. This pressure signal becomes the second signal indicating the body movement of the subject existing in the bedding (5).

The second tube connector (73) is a tubular member that connects the second tube (71) and the second pressure sensor (72). The second tube connector (73) has a concave second accommodating portion (74) in which the second pressure sensor (72) is accommodated. The second accommodating portion (74) communicates with a second tube (71) connected to the second tube connector (73).

<Cradle side connection terminal>
As shown in FIG. 1, a cradle side connection terminal (75) is provided on the storage portion (65) side (right side in FIG. 1) on the upper portion of the second convex portion (64) of the charging stand (61). When the biological information acquisition device (10) is installed on the charging stand (61), the main body side connection terminal (35) and the cradle side connection terminal (75) come into contact with each other, and both contacts are connected.

The cradle side connection terminal (75) has a first output terminal (76) and a second output terminal (77) (see FIG. 7). The first output terminal (76) constitutes an output terminal (output unit) for signals. A second signal detected by the second pressure sensor (72) is sent to the first output terminal (76) via a signal line (not shown). When the cradle side connection terminal (75) and the main body side connection terminal (35) are connected, the second signal can be output to the first input terminal (36) via the second output terminal (77). The second output terminal (77) constitutes an output terminal (power supply unit) for power supply. The DC power output from the AC adapter (68) is input to the second output terminal (77). When the cradle side connection terminal (75) and the main body side connection terminal (35) are connected, DC power is input to the second input terminal (37) via the second output terminal (77). This DC power is supplied to the rechargeable battery (22) via the power supply line.

<Functional block>
The functional block configured in the circuit board (21) described above will be described in detail with reference to FIG. 7. The biological information acquisition device (10) has a determination unit (50), a signal processing unit (51), a storage unit (57), and a communication unit (58).

The determination unit (50) determines whether or not the biological information acquisition device (10) is installed on the charging stand (61). The determination unit (50) of the present embodiment determines the installation state of the biological information acquisition device (10) according to the presence or absence of power supply to the rechargeable battery (22). Specifically, when the biological information acquisition device (10) is installed on the charging stand (61), the contacts of the second output terminal (77) and the second input terminal (37) are connected from the cradle unit (60). DC power is supplied to the rechargeable battery (22). Therefore, the determination unit (50) can determine the presence or absence of power supply based on the index (DC power, DC current, DC voltage, etc.) indicating the power supply state of the power supply line, and by extension, the installation state of the biological information acquisition device (10). Can be judged. For example, when the power supply of the power supply line is not detected, the determination unit (50) determines that the biometric information acquisition device (10) is not installed on the charging stand (61). On the contrary, when the power supply of the power supply line is detected, the determination unit (50) determines that the biological information acquisition device (10) is installed on the charging stand (61).

The signal processing unit (51) performs signal processing for acquiring the biological information of the subject based on the signal indicating the body movement. The signal processing unit (51) switches between the first processing operation and the second processing operation according to the installation state of the biological information acquisition device (10) determined by the determination unit (50).

The first processing operation is executed when the determination unit (50) determines that the biometric information acquisition device (10) is not installed on the charging stand (61). In the first processing operation, the biological information of the subject is acquired based on the first signal detected by the first pressure sensitive unit (30) of the biological information acquisition device (10).

The second processing operation is executed when the determination unit (50) determines that the biometric information acquisition device (10) is installed on the charging stand (61). In the second processing operation, the biological information of the subject is acquired based on the second signal detected by the second pressure-sensitive unit (70) of the cradle unit (60).

The signal processing unit (51) of the present embodiment includes a body movement signal extraction unit (52), a heartbeat signal extraction unit (53), a respiratory signal extraction unit (54), an autonomic nerve information acquisition unit (55), and a sleep information acquisition unit. It has a part (56).

The body motion signal extraction unit (52) extracts the body motion signal of the subject based on the first signal or the second signal. Here, the body movement signal is a signal in which a large body movement (coarse body movement) of the subject and a small body movement (microbody movement) derived from heartbeat and respiration are superimposed.

The body motion signal extraction unit (52) switches between extracting the body motion signal from the first signal and extracting the body motion signal from the second signal according to the determination result of the determination unit (50). That is, in the first processing operation, the body motion signal is extracted based on the first signal, and in the second processing operation, the body motion signal is extracted based on the second signal.

The heartbeat signal extraction unit (53) extracts only the signal derived from the heartbeat (heartbeat signal) from the body movement signal extracted by the body movement signal extraction unit (52).

The respiration signal extraction unit (54) extracts only the signal derived from respiration (respiration signal) from the body movement signal extracted by the body movement signal extraction unit (52).

The autonomic nerve information acquisition unit (55) calculates, for example, the LF / HF value of the subject based on the heartbeat signal extracted by the heartbeat signal extraction unit (53). Here, the LF / HF value is the ratio of the low frequency component LF of the fluctuation of the beat interval obtained based on the heartbeat signal to the high frequency component HF of the fluctuation of the beat interval. This LF / HF value is an index showing the degree of stress and autonomic nervous activity, and the higher the LF / HF value, the higher the degree of stress.

The sleep information acquisition unit (56) uses information on the subject's sleep (implantation, falling asleep, awakening, getting out of bed, etc.) and sleep depth based on body movement signals, heart rate signals, and breathing signals. Etc.) to get.

In the first processing operation of the signal processing unit (51), the autonomic nerve information acquisition unit (55) acquires information on the autonomic nerve of the subject. On the other hand, in the second processing operation of the signal processing unit (51), the sleep information acquisition unit (56) acquires information on the sleep of the subject (details will be described later).

The storage unit (57) is composed of a semiconductor memory such as a flash memory. Various signals processed by the circuit board (21) and data related to the acquired biological information are appropriately stored in the storage unit (57) together with the corresponding time. Specifically, for example, the storage unit (57) gradually stores body motion signals, heartbeat signals, LF / HF values, and the like as time-series data.

The communication unit (58) is a communication interface of the biometric information acquisition device (10). That is, the communication unit (58) is connected to an external device (information terminal such as a smartphone, tablet, personal computer) via network communication consisting of wired or wireless. For example, each information stored in the storage unit (57) is transmitted to an external device via network communication. As a result, the subject can confirm the details of the biological information using an external device.

<Installation / removal of biological information acquisition device>
As shown in FIG. 5, the biological information acquisition device (10) of the present embodiment is attached to the subject by attaching the case unit (11) to the worn item (2, 3). Specifically, the belt (2) and the waist-circling portion of the trousers (3) are simultaneously inserted into the recess (18) of the case unit (11). When the belt (2) and the trousers (3) are inserted into the recess (18), the first casing (12) and the second casing (13) are urged by the clips inside the first casing (12) and the second casing (13). As a result, the belt (2) and the trousers (3) are sandwiched between the first casing (12) and the second casing (13). Therefore, it is possible to surely prevent the case unit (11) from coming off from the belt (2) and the trousers (3).

When removing the biological information acquisition device (10), the first casing (12) and the second casing (13) are separated from each other against the urging force of the clip, and the case unit (11) is moved upward. As a result, the biological information acquisition device (10) can be easily removed from the belt (2) and the trousers (3).

<First processing operation>
The first processing operation is executed when the biological information acquisition device (10) is attached to the subject.

When the biological information acquisition device (10) is attached to the belt (2) and the trousers (3), the subject's abdomen and the first casing (12) come into contact with each other. Therefore, the body movement of the subject is transmitted to the first tube (31) via the first wall portion (12a) of the first casing (12). The first pressure sensor (32) detects the internal pressure or the change in the internal pressure of the first tube (31) and outputs the first signal.

When the biological information acquisition device (10) is attached to the subject, the determination unit (50) determines that the biological information acquisition device (10) is not installed on the charging stand (61). Therefore, the signal processing unit (51) executes the first processing operation.

In the first processing operation, the body motion signal extraction unit (52) extracts the body motion signal from the first signal. Next, the heartbeat signal extraction unit (53) extracts the heartbeat signal from this body movement signal. Next, the autonomic nerve information acquisition unit (55) gradually calculates the LF / HF value of the subject based on the heartbeat signal. Based on this LF / HF value, the stress state of the subject can be evaluated.

<Second processing operation>
The second processing operation is executed when the biological information acquisition device (10) is installed on the charging stand (61). For example, when the subject goes to bed, if the subject is still wearing the biological information acquisition device (10), the subject feels restrained. Therefore, the subject removes the biological information acquisition device (10) and installs it on the charging stand (61). As a result, the subject can further charge the biological information acquisition device (10) without feeling restrained.

When the subject enters the bedding (5), the subject's body movements are transmitted to the second tube (71). The second pressure sensor (72) detects the internal pressure or the change in the internal pressure of the second tube (71) and outputs a second signal.

When the biological information acquisition device (10) is installed on the charging stand (61), the second signal is sent to the circuit board (21) via the first output terminal (76) and the first input terminal (36). Be done. At the same time, DC power is supplied to the rechargeable battery (22) via the second output terminal (77) and the second input terminal (37).

When the rechargeable battery (22) is supplied with power in this way, the determination unit (50) determines that the biological information acquisition device (10) is installed on the charging stand (61). Therefore, the signal processing unit (51) executes the second processing operation.

In the second processing operation, the body motion signal extraction unit (52) extracts the body motion signal from the second signal. Next, the heartbeat signal extraction unit (53) extracts the heartbeat signal from this body movement signal. In addition, the respiratory signal extraction unit (54) extracts a respiratory signal from this body movement signal. Next, the sleep information acquisition unit (56) acquires information on the sleep of the subject using at least one of the body movement signal, the heartbeat signal, and the respiratory signal. Thereby, the sleep state of the subject can be evaluated.

<Effect of embodiment>
According to the present embodiment, when the subject goes to bed, the biological information acquisition device (10) can be continuously acquired from the subject while the biological information acquisition device (10) is removed. Therefore, the biological information of the subject can be acquired without the subject feeling restrained.

In addition, by installing the biometric information acquisition device (10) on the charging stand (61) at bedtime of the subject, the biometric information acquisition device (10) is charged while acquiring the sleep information of the subject. Can be done.

The signal processing unit (51) is also used in the first processing operation and the second processing operation. Therefore, for example, since it is not necessary to separately provide a signal processing unit or a circuit board on the cradle unit (60) side, the number of parts and the cost can be reduced, and the cradle unit (60) can be downsized.

The first processing operation and the second processing operation are automatically switched based on the presence or absence of power supply to the power supply line by the determination unit (50). Therefore, for example, even though the biometric information acquisition device (10) is attached to the subject, a process of acquiring sleep information based on the second signal is performed, or the biometric information acquisition device (10) is charged. Despite being installed on the table (61), it is possible to avoid a problem that a process of acquiring autonomic nerve information is performed based on the first signal.

<< Other Embodiments >>
The determination unit (50) of the above embodiment determines the installation state of the biological information acquisition device (10) based on the presence or absence of power supply to the rechargeable battery (22), and determines the first processing operation and the second processing operation. Switching. However, the determination unit (50) may determine the installation state of the biological information acquisition device (10) by another method. Specifically, a switch that operates by installing the biological information acquisition device (10) on the charging stand (61) is used, or a change in the second signal output from the second pressure sensor (72) is used. It is also possible.

Further, the determination unit (50) may be omitted, and the first processing operation and the second processing operation may be manually switched by the operation of the target person.

In the above embodiment, the second tube (71) is provided on the bedding (5) which is the object, but the second tube (71) may be provided on the seat of a chair such as a sofa or a massage chair. .. In this case, with the biometric information acquisition device (10) installed on the charging stand (61), the biometric information (for example, autonomic nerve information) of the subject sitting on the seat is continued based on the second signal. Can be obtained.

The stationary unit (cradle unit (60)) does not necessarily have to have a charging function. In this case as well, by installing the biological information acquisition device (10) on the installation table (61), it is possible to acquire biological information based on the second signal without feeling restrained.

The first pressure-sensitive unit (30) of the above embodiment has a first tube (31) and a first pressure sensor (32), and the body movement of the subject as the first pressure-sensitive unit (30). Other sensors such as a piezoelectric element on which the element acts can also be used. The same applies to the second pressure-sensitive unit (70), which is a body movement detection unit.

The first tube (31) and the second tube (71), which are hollow members, do not necessarily have to be tubular, and may be, for example, bag-shaped.

In the signal processing unit (51), the body movement signal extraction unit (52), the heartbeat signal extraction unit (53), the respiratory signal extraction unit (54), the autonomic nerve information acquisition unit (55), and the sleep information acquisition unit (56) Either of them may be omitted. Further, for example, the functions of the autonomic nerve information acquisition unit (55) and the sleep information acquisition unit (56) may be added to a server connected to the network via the communication unit (58) or another communication terminal. In this case, based on the signal obtained by the signal processing unit (51), further biometric information of the target person is acquired by the server or the communication terminal.

The case unit (11) of the biological information acquisition device (10) is attached to the belt (2) and trousers (3) that are worn, but is attached to other worn items such as skirts, shoes, and disposable pants. It may be one.

As described above, the present invention is useful as a biological information acquisition unit.

1 Biological information acquisition unit 5 Bedding (object)
10 Biological information acquisition device 22 Rechargeable battery 36 First input terminal (input section)
50 Judgment unit 51 Signal processing unit 60 Cradle unit (stationary unit)
61 Charging stand (installation stand)
70 Second pressure sensitive unit (body movement detection unit)
76 First output terminal (output section)
77 Second output terminal (power supply unit)

Claims (9)

A wearable biological information acquisition device (10) that is configured to be wearable to the subject and acquires the biological information of the subject based on the first signal indicating the body movement of the subject.
A biometric information acquisition unit including a stationary unit (60) having an installation table (61) on which the biometric information acquisition device (10) removed from the subject is installed.
The above stationary unit (60) has
A body motion detection unit (70) provided on a predetermined object (5) and detecting a second signal indicating the body motion of the subject, and a body motion detection unit (70).
The biological information acquisition device (10) is provided with an output unit (76) that outputs the second signal.
The biometric information acquisition device (10) has
The input unit (36) to which the second signal output from the output unit (76) is input, and
It is possible to execute the first processing operation of acquiring the biometric information based on the first signal and the second processing operation of acquiring the biometric information based on the second signal input to the input unit (36). A signal processing unit (51) is provided .
A biological information acquisition unit characterized in that the first signal and the second signal are the same type of signal. In claim 1,
The biometric information acquisition device (10) is provided with a rechargeable battery (22).
The stationary unit (60) is characterized by being provided with a power supply unit (77) that supplies power to the rechargeable battery (22) of the biometric information acquisition device (10) installed on the installation table (61). Biological information acquisition unit. In claim 1 or 2,
The biometric information acquisition device (10) includes a determination unit (50) for determining whether or not the biometric information acquisition device (10) is installed on the installation table (61).
The signal processing unit (51)
When the determination unit (50) determines that the biometric information acquisition device (10) is not installed on the installation table (61), the first processing operation is executed.
A biometric information acquisition unit characterized in that the second processing operation is executed when the determination unit (50) determines that the biometric information acquisition device (10) is installed on the installation table (61). In any one of claims 1 to 3,
The body movement detection unit (70) is a biological information acquisition unit characterized in that it is provided on the bedding (5) as the object. It ’s a stationary unit,
An installation table (61) on which a wearable biological information acquisition device (10) that is configured to be wearable to the target person and acquires the biological information of the target person based on the first signal indicating the body movement of the target person is installed. )When,
A body movement detection unit (70) that detects a second signal indicating the body movement of the target person of a predetermined object, and
The biological information acquisition device (10) installed on the installation table (61) is provided with an output unit (76) for outputting the second signal .
A stationary unit characterized in that the first signal and the second signal are the same type of signal. In claim 5,
A stationary unit characterized by having a power supply unit (77) for supplying power to the rechargeable battery (22) of the biological information acquisition device (10) installed on the installation table (61). In claim 5 or 6,
The body movement detection unit (70) is a stationary unit characterized in that it is provided on the bedding (5) as the object. It is a wearable biological information acquisition device that is configured to be wearable to a target person and acquires the biological information of the target person based on a first signal indicating the body movement of the target person.
An input unit (36) into which a second signal indicating the subject's body movement detected by the body movement detection unit (70) of the stationary unit (60) is input, and
It is possible to execute the first processing operation of acquiring the biometric information based on the first signal and the second processing operation of acquiring the biometric information based on the second signal input to the input unit (36). comprising a signal processing unit (51),
A biological information acquisition device characterized in that the first signal and the second signal are the same type of signal. In claim 8.
It is equipped with a determination unit (50) for determining whether or not it is installed on the installation table (61) of the stationary unit (60).
The signal processing unit (51)
When it is determined by the determination unit (50) that it is not installed on the installation table (61), the first processing operation is executed.
A biological information acquisition device characterized in that the second processing operation is executed when the determination unit (50) determines that the device is installed on the installation table (61).

Images