KR20180101794A - Smart pillow system - Google Patents

Abstract

The present invention relates to a smart pillow system and, more specifically, to a smart pillow system capable of always monitoring health state as well as predicting a stroke by measuring bio-signals such as cardiac output and the like. The smart pillow system comprises: a pillow (100); a slope adjusting means (150); a bio-signal detection sensor (200); an information analysis unit (250); an information storage unit (300); and a control unit (350).

Description

Smart pillow system < RTI ID = 0.0 >

The present invention relates to a smart pillow system, which can measure the vital signs such as cardiac output and monitor the health state, as well as predict the stroke, and a smart pillow system that can prevent the user's snoring by adjusting the height of the pillow .

People normally spend about a third of their lives sleeping, which can be seen as taking about 8 hours of sleep per day. Desired sleep can be the most basic way to maintain health. For example, growth hormone is secreted around the midnight of sleep during the growing season, and secretion of immune hormone is secreted by the non-growing person. Sleep is also known to play a major role in relieving accumulated fatigue in life. It is important to know that the brain is in a state of being in a state of being in a state of being, This is the task of resting the energy to reserve the energy to maximize the function of the activity, relax the muscles and induce the release and release of fatigue substances in the body.

The importance of the pillow is emphasized when the importance of sleep is raised. The main role of the pillow is to connect the body with the head and support the neck through which many nerves pass to induce optimal sleep. If the height of the pillow is too high or low compared to the body, It is also responsible for the painful condition hunting.

On the other hand, wrong habits during sleep and sleep patterns that occur during unconsciousness can cause serious problems to the human body. As an example, 20% to 30% of the general adults in the water are snoring. It is reported that 5% to 10% of them cause sleep apnea. If this sleep pattern persists, the work efficiency is lowered due to lack of concentration and judgment, and it is reported in the sleep medicine research data of Pennsylvania University in USA that the heart rate is 34%, the stroke is 67% and the probability of hypertension is more than 40% There is a need for a technological or methodological means to derive such information.

Accordingly, a pillow for preventing the pillow or the snoring that can analyze the physical condition of the user by collecting the sleeping information generated during the sleeping has been patented. For example, Patent Registration No. 1383199, 2016-0073102, and JP-A-2016-0125840.

However, the above-mentioned patent registration No. 1383199 is a technique for analyzing the body condition by collecting sleeping information such as returning, and is not a technique for measuring bio-signals such as cardiac output and blood flow, 2016-0125840 detects the snoring and adjusts the height of the pillow to prevent snoring by the technique or sound snoring is detected by the accuracy of the lower accuracy of the snoring prevention effect is less than the problem have.

Patent Registration No. 1383199 (April 04, 2014, wellness pillow system) Patent Publication No. 2016-0073102 (June 26, 201, snoring-resistant smart pillow) Patent Publication No. 2016-0125840 (Nov. 11, 201, smart pillow based on snoring sound)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a method and apparatus for estimating a stroke by measuring cardiac output such as cardiac output and blood flow using heart trajectory, And a smart pillow system that can prevent snoring by changing the position of the user's head by adjusting the inclination of the upper plate when the snoring is sensed.

According to an aspect of the present invention, there is provided an ultrasonic diagnostic apparatus including a lower plate having a plurality of lower brackets having rectangular fixing holes, And an upper plate 120 installed to support the head and to be pivotally connected to the lower plate 110 by a hinge shaft 121. The lower plate 110 includes a plurality of And a resilient connection part (130) installed on the upper plate (120) to provide an elastic force to the upper plate (120) and move the upper plate (120) upward. An inclination adjusting unit 150 installed between the lower plate 110 and the upper plate 120 to adjust the inclination of the upper plate 120 while being operated by a driving signal; A biological signal detection sensor 200 installed on the inner surface of the upper plate 120 in close contact with the cervical portion of the user to sense a user's biological signal; An information analyzer 250 for receiving the bio-signal information sensed by the bio-signal sensor 200 and analyzing the bio-signal information to determine an abnormality; An information storage unit 300 for storing the biological signal information sensed by the biological signal sensing sensor 200; A controller 350 for generating a driving signal for controlling the inclination adjusting unit 150 to change the inclination of the upper plate 120 when the information analyzed by the information analyzing unit 250 is abnormal; And a control unit.

The user terminal 400 for receiving the analysis information stored in the information storage unit 300 is registered in the control unit 350. When there is an abnormality in the biological signal, Signal information and driving information of the tilt adjusting means 150 can be provided.

At this time, it is preferable that the bio-signal detection sensor 200 is a heart ballistic sensor for sensing the cardiac trajectory of the user.

According to the smart pillow system configured as described above, the cardiac output and the blood flow of the carotid artery can be measured and the health status can be checked and managed by continuous monitoring during sleep as well as stroke prediction.

Further, when there is an amplitude larger than a set reference due to the snoring, the inclination of the upper plate of the pillow is adjusted to prevent snoring by changing the head position of the user.

1 is a schematic diagram showing a smart pillow system according to the present invention;
FIG. 2 is a perspective view showing a smart pillow according to the present invention, FIG.
FIG. 3 is a state in which the upper plate is removed in FIG. 2,
4 is a cross-sectional view taken along line AA in Fig. 2,
5 is a cross-sectional view taken along line BB of Fig. 2,
6 is a view showing another embodiment of the elastic connecting portion according to the present invention.
Figure 7 is a flowchart of the operation of the smart pillow of the present invention,
8 is a graph showing the heart ballistic signal detected by the heart ballistic sensor installed in the smart pillow of the present invention.

Hereinafter, the smart pillow system of the present invention will be described in detail with reference to the accompanying drawings.

1 to 8, a smart pillow system according to the present invention includes a pillow 100, a bio-signal measurement unit installed in the pillow 100 for sensing and analyzing a bio-signal, And a tilt adjusting unit 150 for adjusting the tilt of the top surface of the pillow according to the information measured by the measuring unit to change the position of the user's head.

Here, the bio-signal measuring unit, i.e., means for measuring a user's bio-signal during sleep, includes: a bio-signal detecting sensor 200 installed inside the pillow to sense a user's bio-signal; An information analyzer 250 for receiving the bio-signal information sensed by the bio-signal analyzer 250 and analyzing the bio-signal information to determine whether there is an abnormality, an information storage unit 300 for storing information analyzed by the information analyzer 250, And a controller 350 for adjusting the slope of the top surface of the pillow when it is determined that the bio-signal analyzed by the information analyzer 250 is abnormal.

The bio-signal detection sensor 200 is a sensor that detects a bio-signal of a user, that is, a cardiac output, a blood flow, and the like, in a state where the user takes a sleeping pillow or sleeps or rests.

The bio-signal detection sensor 200 may use a heart ballistic sensor for sensing cardiac trajectory.

The information analyzer 250 analyzes information detected by the biological signal detection sensor 200 based on a previously set criterion to determine whether or not the information is out of the setting criteria. If the information analyzer 250 determines that the information is out of the setting criterion, As shown in FIG.

The control unit 350 controls the slope of the top surface of the pillow only when there is an abnormality in the bio-signal analyzed by the information analysis unit 250. [

The upper surface inclination of the pillow is controlled by controlling a driving motor to be described later to adjust the horizontal degree of the upper plate.

In addition to the control of the driving motor, the control unit 350 is configured to process an overall portion related to storage, analysis, and communication of information.

2 to 6, the pillow 100 includes a lower plate 110 having a plurality of lower brackets 111 having rectangular fixing holes 111a, An upper plate 120 installed at an upper portion of the lower plate 110 to support the user's head and pivotally coupled to the lower plate 110 by a hinge shaft 121, And an elastic connection part 130 installed to connect the upper plate 120 and the lower plate 110 to each other to provide an elastic force to the upper plate 120 to move the upper plate 120 upward.

The lower plate 110 may be formed as a flat plate or may be formed as a plate having an edge portion protruding upward by a predetermined length. The upper plate 120 may be provided on the upper portion of the lower plate 110, And may be formed as a rectangular cylinder having a curved corner portion.

The lower bracket 111 may be formed at an edge of the lower plate 110 or may be formed at an inner portion of the lower plate 110. The lower bracket 111 is protruded upward from the edge of the lower plate.

The lower bracket 111 is vertically formed with a rectangular fixing hole 111a. The fixing hole is formed in a long rectangular shape when the pillow is not used, because the upper plate 120 is moved upward by the elastic connecting part 130 So that the upper plate can be moved downward by a certain amount while pushing the elastic connection part 130 by the user's head weight at the time of using the pillow.

An upper bracket 120a is formed on the upper plate 120 to engage the hinge shaft 121. [

It should be noted that the lower bracket 111 and the upper bracket 120a may be formed on the upper plate and the lower plate, respectively.

The upper surface of the upper plate 120 may be formed to be flat or curved so as to support the back of the head while allowing the head to be tilted back and may be formed at a portion of the inner surface of the upper plate 120 that is in close contact with the cervical portion of the user The bio-signal detection sensor 200 is installed.

It is preferable that the pillow configured as described above is used by covering the pillow cover separately manufactured.

The inclination adjusting means 150 is provided between the lower plate 110 and the upper plate 120 and is a means for adjusting the inclination of the upper plate 120 while being operated by a driving signal. And a reduction gear unit 152 installed between the driving motor 151 and the hinge shaft 121 to reduce the driving force of the driving motor and transmit the reduced driving force to the hinge shaft 121.

Therefore, the driving force of the driving motor 151 changes the horizontal degree of the upper plate 120 about the hinge axis, and adjusts the inclination of the upper surface of the pillow.

The inclination of the upper plate is preferably adjusted within about 30 mm.

In addition to the structure that adjusts the level of the upper plate by rotating the hinge axis by coupling the inclination adjusting means to the hinge axis as described above, the upper plate is provided with a support on one side of the lower surface, The support plate may be raised and lowered by the driving force of the motor to adjust the horizontality of the upper plate.

The bio-signal detection sensor 200 is installed at a portion of the user's cervical portion in close contact with the bio-signal detection sensor 200 for accurate measurement of the bio-signal.

The elastic connection part 130 is configured to elastically operate the upper plate with respect to the lower plate. The elastic connection part 130 may be configured to provide elastic force to the upper plate.

As an example of the elastic connection portion, the structure shown in Figs. 3 and 5 can be formed.

3 is a perspective view of the elastic coupling part 130 of the first embodiment. As shown in the figure, at least one lower support protrusion 131 protruding from left and right sides of the upper surface of the lower plate 110, An upper support protrusion 132 protruding at least one side of the lower surface of the upper plate 120 so as to face the upper support protrusion 132 and a lower support protrusion 131, And an elastic spring 133 for urging the spring 133.

5 is an elastic connection part 130 of the second embodiment. The elastic connection part 130 is provided between the lower plate 110 and the upper plate 120 and has both ends connected to the lower plate and the upper plate. And an elastic spring 136 accommodated in the pocket 135 to provide an elastic force to the upper plate 120.

The elastic connection part 130 is formed of a resin material to provide an elastic force, thereby reducing the inconvenience in use due to a buffer operation during use.

Here, the upper surface of the upper plate may be provided with a shock absorbing pad 160 such as a sponge so as to prevent damage by absorbing the impact, and to improve the ease of use by solving the hardness.

In the smart pillow system of the present invention configured as described above, when the user lays his head on the pillow top plate 120 for sleeping and resting, the bio-signal sensing sensor 200 senses the user's heartbeat.

The signal detected by the biological signal detection sensor 200 is transmitted to the information analysis unit 250. The information analysis unit 250 analyzes the received detection signal to determine whether there is an abnormality. If it is determined that there is an abnormality in the detection signal, the control unit 350 transmits an abnormal signal to the control unit 350. The control unit 350 operates the driving motor 140 according to the received abnormal signal to change the horizontal level of the upper plate, It is induced to change or change the position.

In the present invention, heart rate, cardiac output, respiration rate and the like can be measured by using the cardiac trajectory sensed by the bio-signal sensor, and blood flow can be confirmed through the cardiac output, so that stroke or the like can be predicted or prevented.

In addition, since the snoring can be confirmed through the amplitude of the cardiac trajectory, when the snoring is detected over the set reference by analyzing the amplitude, the controller drives the drive motor to adjust the top surface inclination of the pillow, The position is changed to prevent snoring.

Meanwhile, when the user terminal 400 is registered, if the information analyzer 250 determines that the user terminal 400 is abnormal, the analysis result is transmitted to the user terminal 400, To monitor or manage the health of either himself or the monitoring party.

The user terminal 400 is a terminal for receiving measurement information on a living body signal and is carried by a terminal carried by a user using a pillow or a manager (nurse, doctor) May be a terminal provided.

The user terminal 400 receives the information through the wireless communication network by registering in advance, and preferably receives the analysis information stored in the information storage unit 300.

The user terminal 400 may be connected to the Internet such as a smart phone, a laptop computer, a digital broadcasting terminal, a PDA (Personal Digital Assistants), a PMP (Portable Multimedia Player) Or a terminal used without movement, such as a desktop PC.

One side of the pillow 100 of the present invention includes an interface unit having a communication terminal 141 for accessing the information storage unit 300 and inquiring information stored in the information storage unit 300 or downloading stored information The interface unit 140 is provided with a power supply terminal 142 for supplying power and charging a battery built in the pillow.

The communication terminal 141 is a terminal used when a terminal such as a PC or a smart phone carried by a user directly connects using a connection jack or the like to transmit / receive information. Since the bio-signal information stored through the communication terminal can be received, it is possible to check the health of the user through periodic information collection as well as systematically and effectively manage it.

100: pillow 110: bottom plate
111: fixing hole 120: upper plate
121: hinge shaft 130: elastic connection part
131: lower supporting projection 132: upper supporting projection
133: elastic spring 135: pocket
136 elastic spring 140 interface part
141: Communication terminal 142: Power supply terminal
150: tilt adjusting means 151: drive motor
152: Reduction gear unit 160: Cushion pad
200: biological signal detection sensor 250: information analysis unit
300: information storage unit 350:
400: User terminal

Claims (8)

A lower plate 110 provided with a plurality of lower brackets 111 having rectangular fixing holes 111a and a lower plate 110 provided to support the user's cervical vertebra and head on the upper plate 110, A plurality of upper plates 120 installed on both sides of the upper plate 120 and the lower plate 110 to provide an elastic force to the upper plate 120, A pillow (100) comprising a resilient connection portion (130) for moving the pillow (100) upward;
An inclination adjusting unit 150 installed between the lower plate 110 and the upper plate 120 to adjust the inclination of the upper plate 120 while being operated by a driving signal;
A biological signal detection sensor 200 installed on the inner surface of the upper plate 120 in close contact with the cervical portion of the user to sense a user's biological signal;
An information analyzer 250 for receiving the bio-signal information sensed by the bio-signal sensor 200 and analyzing the bio-signal information to determine an abnormality;
An information storage unit 300 for storing biological signal information sensed by the biological signal sensing sensor 200;
A control unit 350 for generating a driving signal for controlling the inclination adjusting unit 150 to change the inclination of the upper plate 120 when the information analyzed by the information analyzing unit 250 is abnormal;
Wherein the smart pillow system comprises:
The method according to claim 1,
The user terminal 400 receiving the analysis information stored in the information storage unit 300 is registered in the control unit 350. When there is an abnormality in the bio-signal, the bio-signal information detected by the registered user- And driving information of the inclination adjusting means (150).
The method according to claim 1,
One side of the pillow 100 is connected to the information storage unit 300 and an interface unit 140 having a communication terminal 141 for inquiring information stored in the information storage unit 300 or downloading stored information And a power supply terminal (142) for charging the battery built in the pillow is installed in the interface unit (140).
The method according to claim 1,
Wherein the bio-signal detection sensor (200) comprises a heart ballistic sensor for sensing a heart trajectory of a user.
The method according to claim 1,
The inclination adjusting means 150 includes a driving motor 151 and a reduction gear unit 152 installed between the driving motor 151 and the hinge shaft 121 for transmitting the driving force of the driving motor to the hinge shaft 121 ). ≪ / RTI >
The method according to claim 1,
The elastic connection part 130 includes a lower support protrusion 131 protruding from at least one side of the upper surface of the upper plate 110 and a lower support protrusion 131 protruding from the lower surface of the upper plate 120 to face the lower support protrusion 131. [ And an elastic spring 133 vertically installed on the upper support protrusions 132 and the lower support protrusions 131. The upper and lower support protrusions 132,
The method according to claim 1,
The elastic connection part 130 includes a pocket 135 provided between the lower plate 110 and the upper plate 120 and having both ends connected to the lower plate and the upper plate, And an elastic spring (136) which is accommodated and provides an elastic force to the upper plate (120)
The method according to claim 1,
And a cushion pad (160) having an elastic force is attached to an upper surface of the upper plate (120).

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