KR102497327B1 - Cervical pillow - Google Patents

Abstract

The present invention is to provide a cervical pillow that can comfortably support the cervical spine of a sleeping user based on the cervical spine state or sleeping posture of each user, and induce comfortable rest and deep sleep. The present invention for this is the main body; a cervical vertebrae support having a stiffness changing portion disposed on an upper part of the main body to support a back neck where a user's cervical vertebrae is located and having a stiffness varying portion according to an applied voltage; a power supply unit for applying a voltage to the stiffness change unit; and a control unit configured to change the stiffness of the stiffness variation unit by controlling a voltage applied to the stiffness variation unit based on previously stored information on the user's cervical vertebrae.

Description

Cervical Pillow {CERVICAL PILLOW}

The present invention relates to a cervical pillow, and more particularly, based on the state of the user's cervical spine and sleeping posture, automatically adjusts the position of the cervical spine and the occipital region of the user during sleep, so that the user can take a comfortable and healthy resting and sleeping posture. It's about pillows.

In general, since a good night's sleep in a very comfortable state has a very important effect on the health of the human body, the proper use and function of a pillow used for sleeping are important factors that control and affect the metabolism of our body.

As the importance of these pillows is on the rise, functional pillows that can protect the user's cervical vertebrae using memory foam, sponge, cotton, latex material, etc. have been widely used in recent years.

However, since existing pillows have the same shape and elasticity, there is a problem in that the cervical vertebrae cannot be effectively supported for each user having different cervical vertebrae conditions, such as a straight neck and a turtle neck.

In addition, since existing pillows have the same shape and elasticity, if the user changes the sleeping posture, such as lying on one's side during sleep, the abnormal shape of the cervical vertebrae may continue, making it difficult to maintain deep sleep. difficult. In the process of returning to the original position of the cervical vertebrae upon awakening, the nerves and muscles around the cervical vertebrae are stimulated, causing discomfort such as feeling stiff.

Republic of Korea Patent Publication No. 2019-0094556 (2019.08.14. Publication)

An object of the present invention for solving the above problems is to provide a cervical pillow that can comfortably support the cervical spine of a sleeping user based on the cervical state or sleeping posture of each user, and induce comfortable rest and deep sleep.

Cervical pillow according to an embodiment of the present invention for solving the above problems, the main body; A cervical vertebrae support having a stiffness changing unit disposed above the main body to support the back neck where the user's cervical vertebrae is located, and having a stiffness changing unit whose stiffness is changed according to an applied voltage, and a height adjusting unit that changes the height of the stiffness varying unit from the main body. wealth; a power supply unit for applying a voltage to the stiffness change unit; a posture sensor coupled to the main body and sensing a user's sleeping posture; and a control unit configured to change the stiffness of the stiffness change unit by controlling a voltage applied to the stiffness change unit based on the user's cervical vertebrae information stored in advance and the user's sleep posture information detected by the posture sensor, wherein the stiffness change unit includes, A plurality of parts are provided along the left and right directions of the main body, and the stiffness of the plurality of rigidity changing parts is independently changed by the controller, and the posture sensing part is disposed on one side of the main body and detects the user's left shoulder. A first sensor and a second sensor disposed on the other side of the main body and detecting the right shoulder of the user, wherein the control unit senses the side on which the user is lying down through the first sensor and the second sensor, , It is characterized in that the rigidity of the rigidity changing unit disposed on the side where the user lies down is changed to a small extent and the height is lowered.

delete

delete

delete

In the cervical pillow according to this embodiment, the cervical spine support portion is coupled to the upper portion of the rigidity changing portion, and when the user's back neck is in close contact with the flexible support portion for supporting the back neck while being compressed and deformed in response to the shape of the back neck; further includes You may.

delete

In the cervical pillow according to this embodiment, the stiffness changing unit, the outer shell, the magnetorheological elastic body accommodated inside the outer shell and the stiffness is changed by a magnetic field, and disposed inside the magnetorheological elastic body, applied from the power supply unit It may include a conductor that forms a magnetic field around it by a voltage that is applied.

In the cervical pillow according to this embodiment, it is coupled to the cervical support, pulse rate measurement unit for measuring the user's pulse rate; may further include, wherein the control unit, the user's pulse rate measured by the pulse rate measurement unit When is higher than the preset reference pulse rate, the stiffness of the stiffness change unit can be changed relatively greatly, and when the user's pulse rate measured by the pulse rate measurement unit is lower than the preset reference pulse rate, the stiffness of the stiffness change unit is relatively changed. can be changed to a small

According to the present invention, the stiffness of the cervical spine support is appropriately adjusted according to the user's cervical spine information or sleeping posture information through a cervical spine support portion including a stiffness changer whose stiffness is changed according to the applied voltage, thereby allowing the user to rest or sleep. It is possible to greatly improve the quality of the cervical vertebrae, and it is possible to provide an effect of correcting the cervical vertebrae of users who are resting or sleeping.

According to the present invention, it is possible to easily manage the operation history of the cervical spine support unit including the stiffness change unit during sleep through wireless communication through a user terminal such as a mobile phone or tablet, thereby greatly improving the quality of the user's rest or sleep. can

1 is an exemplary side view showing a cervical pillow according to an embodiment of the present invention.
Figure 2 is an exemplary view for explaining the cervical support of the cervical pillow according to an embodiment of the present invention.
Figure 3 is an exemplary view for explaining the action of the flexible support portion according to the change in stiffness of the stiffness change portion of the cervical pillow according to an embodiment of the present invention.
Figure 4 is an exemplary view for explaining the action of the cervical spine support according to the user's sleeping posture according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention in which the above-described problem to be solved can be realized in detail will be described with reference to the accompanying drawings. In describing the present embodiments, the same name and the same reference numeral may be used for the same configuration, and additional description accordingly may be omitted.

Figure 1 is an exemplary side view showing a cervical pillow according to an embodiment of the present invention, Figure 2 is an exemplary view for explaining the cervical support of the cervical pillow according to an embodiment of the present invention.

1 and 2, the cervical pillow according to an embodiment of the present invention may include a main body 110, a cervical spine support 120, a power supply 160 and a control unit 180.

The main body 110 may have a flat bottom surface and a top surface with a central portion concave downward. The main body 110 may be made of an inelastic material, and the cervical support 120, the power supply 160, and the control unit 180 may be supported and mounted on the inside or outside of the main body 110.

The main body 110 may further have a cover 115 .

The cover 115 may directly contact the user's skin while covering the outer surface of the body 110 including the cervical spine support 120, the power supply 160, and the control unit 180. Various materials such as cotton having air permeability may be used as the cover 115, and functional powder or slime such as negative ions, far-infrared ray emitters, and air fresheners may be additionally coated.

The cervical support part 120 may be coupled to the concave upper surface of the main body 110, and may support the back of the neck where the user's cervical vertebrae are located.

The cervical vertebra support 120 may have a stiffness changing unit 130 .

The stiffness of the stiffness changing unit 130 may be changed according to the applied voltage.

The stiffness change unit 130 is provided inside the first shell 131, the magnetorheological elastomer (MRE 133) accommodated inside the first shell 131, and the magnetorheological elastomer 133. Conductor 135 may be included.

The first shell 131 may be made of a flexible material and may be made of a non-conductive material. The shape of the first shell 131 may be changed according to the change of the magnetorheological elastomer 133, and the magnetic field generated inside may be blocked from being transmitted to the outside.

The magneto-rheological elastomer 133 is an intelligent material in which particles that can have polarity by magnetic force, such as iron particles, are added to a polymer material such as natural rubber or silicone rubber, and its original stiffness is changed under the influence of an external magnetic field. have a characteristic

That is, when a voltage is applied to the conductor 135, which is a conductive material, a magnetic field is applied to the magnetorheological elastomer 133, and then the magnetic particles inside the magnetorheological elastomer 133 have directionality and the stiffness can be relatively increased. .

Conversely, when the voltage applied to the conductor 135 is removed, the magnetic field is removed from the magnetorheological elastomer 133, and then the magnetic particles inside the magnetorheological elastomer 133 move freely, so that the stiffness can be relatively small. .

Through this stiffness changing unit 130, it is possible to adjust the stiffness of the cervical vertebra support 120 according to the conditions required by users with different cervical vertebrae conditions, such as a straight neck and a turtle neck, and accordingly, the cervical vertebrae can be comfortably and comfortably adjusted without sagging of the cervical vertebrae. can sustain In addition, by adjusting the stiffness of the stiffness change unit 130, an acupressure effect may be provided to the cervical vertebrae requiring correction.

Meanwhile, a plurality of rigidity changing units 130 may be provided, and a plurality may be provided along the left-right direction, which is the longitudinal direction of the main body 110 .

In the illustrated embodiment, four stiffness changing parts 130 are provided along the left and right directions of the main body 110, but unlike this, the stiffness changing parts 130 may be provided in a quantity of 5 or more.

In addition, the upper surface of each stiffness changing unit 130 closely attached to a part of the user's back neck may be provided with a curved surface corresponding to the curved shape of the cervical vertebrae, and the upper surface of the plurality of stiffness changing units 130 covering the user's back neck as a whole. may have a curved surface concavely formed in an upward direction so as to naturally cover the back of the user's neck. Therefore, the plurality of stiffness changing units 130 can support the user's cervical vertebrae in close contact while naturally surrounding the back of the neck.

As described above, the stiffness of the plurality of stiffness changing units 130 is independently changed according to the applied voltage, and the stiffness can be appropriately adjusted according to the conditions required for each user with different cervical spine conditions, thereby allowing the user's cervical spine to rest or sleep. can be supported in a more accurate position without sagging, and effective correction is possible by precisely pressing the desired cervical spine.

On the other hand, the cervical support portion 120 may further have a flexible support portion (140).

The lower surface of the flexible support unit 140 may be coupled to the upper surface of the rigidity changing unit 130, and the upper surface may be in close contact with the back of the user's neck.

The flexible support part 140 may include a second shell 141 and a fluid 143 accommodated inside the second shell 141 .

Like the first shell 131, the second shell 141 may be made of a flexible material, and its shape may change according to the change of the fluid 143 accommodated therein.

The fluid 143 may be filled with a certain capacity inside the second shell 141, and may be gas or liquid. Of course, instead of the fluid 143, similar to the above-described stiffness change unit 130, the magneto-rheological elastic body 133 and the conductor 135 may be accommodated inside the second shell 141.

When the flexible support unit 140 is in close contact with the back of the user's neck, it can compress and deform in response to the shape of the back of the user's neck, thereby more comfortably supporting the back of the user's neck.

Figure 3 is an exemplary view for explaining the action of the flexible support portion according to the change in stiffness of the stiffness change portion of the cervical pillow according to an embodiment of the present invention.

First, as shown in FIG. 3 (a), when the stiffness of the rigidity changing unit 130 is relatively small, when the user's back neck 1 is in close contact with one surface of the flexible supporting unit 140 and the flexible supporting unit 140 is deformed. , The stiffness changing portion 130 may be deformed together, and the stiffness changing portion 130 may support the flexible support portion 140. At this time, the rigidity change unit 130 has a relatively small stiffness and has a large amount of deformation. Due to this, the flexible support unit 140 between the stiffness change unit 130 and the back neck 1 is the user's back neck (without a large change in internal pressure). 1) while being deformed into a corresponding shape, it is possible to support the back neck (1) relatively softly.

On the other hand, as shown in FIG. 3 (b), when the stiffness of the rigidity changing unit 130 is relatively large, when the user's back neck 1 is in close contact with one surface of the flexible supporting unit 140 and the flexible supporting unit 140 is deformed. , The stiffness changing portion 130 may be deformed together, and the stiffness changing portion 130 may support the flexible support portion 140. At this time, the rigidity variable part 130 has a relatively large amount of deformation, so that the flexible support part 140 between the rigidity variable part 130 and the back neck 1 contracts and the internal pressure rises, and accordingly While being deformed into a shape corresponding to the user's back neck 1, the back neck 1 can be supported relatively firmly.

Referring back to FIGS. 1 and 2 , the cervical vertebra support 120 may further include a height adjusting unit 150 .

The height adjusting unit 150 may connect the main body 110 and the stiffness varying unit 130, and may change the height of the rigidity varying unit 130 from the main body 110.

The height adjustment unit 150 may include a driving unit, and a servo motor may be used as the driving unit. This driving unit may be controlled by the controller 180 .

That is, the control unit 180 may control the height adjusting unit 150 to adjust the heights of the plurality of stiffness varying units 130 differently.

The height adjusting unit 150 according to the embodiment may include a driving unit installed on the main body 110, a pinion gear member coupled to the output end of the driving unit, and a rack gear member coupled to the lower portion of the stiffness changing unit 130. . Of course, for the height adjusting unit 150, not only such a rack and pinion transport structure, but also various known linear transport structures such as a ball screw may be used.

The power supply unit 160 may apply voltage to the conductor 135 of the stiffness variation unit 130 and may independently apply voltage to the conductors 135 of the plurality of stiffness variation units 130 .

The power supply unit 160 may be provided in the main body 110 and may be a battery. Of course, the power supply unit may be directly connected to the external power unit.

The control unit 180 can change the stiffness of each stiffness changing unit 130 by controlling the voltage applied from the power supply unit 160 to each stiffness changing unit 130 based on the user's cervical vertebrae information stored in advance. there is.

In addition, the controller 180 may change the height of each cervical vertebra support 120 by controlling the height adjusting unit 150 based on previously stored information on the user's cervical vertebrae.

Also, the controller 180 may change the stiffness or height of the cervical spine support 120 based on the user's sleeping posture information.

Meanwhile, the controller 180 may further have a communication unit for communication with an external terminal, and in this case, the external terminal may be a user's mobile phone, tablet, or computer.

For example, a user may use an application installed in a mobile phone to interwork with the control unit 180 through Bluetooth communication, and accordingly, the user may input and set his or her cervical vertebrae information to the control unit 180 through the mobile phone application, and the control unit ( 180), it is possible to modify preset cervical vertebrae information. In addition, it is possible to output and check the operation pattern of the cervical spine support unit 120 during sleep, and effectively manage the operation history and sleep history of the cervical spine support unit 120 through a user terminal.

Figure 4 is an exemplary view for explaining the action of the cervical spine support according to the user's sleeping posture according to an embodiment of the present invention.

Referring further to Figure 4, the cervical pillow according to this embodiment may further include a posture detection unit (170L, 170R).

The posture detection units 170L and 170R may detect the user's sleeping posture, and may be disposed in plurality on one side of the main body 110 facing the user's upper body.

An infrared sensor may be used as the position detection units 170L and 170R.

According to the embodiment, the posture detecting units 170L and 170R may include a first sensor 170L and a second sensor 170R.

The first sensor 170L may be disposed to face the user's left shoulder in the main body 110, and may detect the position of the user's left shoulder.

The second sensor 170R may be disposed to face the user's right shoulder on the main body 110 and detect the position of the user's right shoulder.

As shown in FIG. 4 (a), when both the left and right shoulder regions of the user are detected by the first sensor 170L and the second sensor 170R, it can be determined that the user is sleeping in an upright position while looking at the ceiling. there is.

In addition, as shown in FIG. 4 (b), when the user's shoulder is detected by only one of the first sensor 170L and the second sensor 170R, the user turns to the left or right side while lying down while sleeping. can be judged to be

The sleep position information detected by the first sensor 170L and the second sensor 170R may be transmitted to the controller 180, and the controller 180 may transmit The stiffness and height of the cervical spine support 120 may be appropriately adjusted based on the sleep posture information sensed by the.

For example, as shown in FIG. 4 (a), when a user in sleep is twisted to the left and correction of the left side of the cervical spine is required, the control unit 180 greatly changes the stiffness of the stiffness changing unit 130A disposed on the left side. As a result, the left side of the cervical spine can be supported with a relatively strong reaction force. As a result, the back of the neck 1 of the user is not tilted to the left so that the cervical vertebrae can maintain a correct posture, and nerves or muscles around the cervical vertebrae are prevented from being stimulated, so that the user can have a comfortable and comfortable sleep.

In addition, as shown in FIG. 4 (a), when a user in sleep is twisted to the left and correction of the left side of the cervical spine is required, the control unit 180 adjusts the height adjusting unit 150A to adjust the left stiffness changing unit 130A. ) may be increased, so that the back of the neck 1 of the user is not tilted to the left so that the cervical vertebrae can maintain the correct posture.

Of course, as shown in FIG. 4 (a), when the sleeping user's cervical spine is twisted to the left and correction of the left cervical spine is required, the controller 180 may adjust the stiffness and height of the left cervical spine support together.

On the other hand, in the state in which the rigidity or height of the cervical spine support 120 is adjusted in this way, as shown in FIG. As it is pressed, excessive pressure may be applied to the left side of the cervical vertebrae, which may stimulate nerves or muscles around the cervical vertebrae of the sleeping user.

As shown in FIG. 4 (b), when a user requiring correction of the left side of the cervical vertebrae changes the sleeping posture and lies on the left side through the first sensor 170L and the second sensor 170R, the controller 180 By changing the stiffness of the stiffness changer 130A disposed on the left side to a smaller size, it is possible to support the left side of the cervical spine with a relatively weak reaction force. This prevents stimulation of nerves or muscles around the user's cervical vertebrae, so that the user can have a comfortable and comfortable sleep.

In addition, as shown in FIG. 4 (b), when the user changes the sleeping posture and turns over to the left side, the control unit 180 adjusts the height adjusting unit 150 to lower the height of the left stiffness changing unit 130A, , The control unit 180 may also lower the stiffness and height of the left cervical spine support.

In this way, the control unit 180 changes the reaction force and position of the cervical vertebra support 120 supporting the cervical vertebrae based on the user's cervical vertebrae information stored in advance as well as the sleeping posture changed during sleep, thereby changing the surroundings of the cervical vertebrae during sleep. By preventing stimulation of the nerves or muscles of the user, it is possible to provide a more comfortable and comfortable sleep for the user.

Referring back to Figure 1, the cervical pillow according to this embodiment may further include a pulse rate measuring unit (135).

The pulse rate measurement unit 135 measures the pulse rate of the user during sleep, and may be disposed on an upper surface of the rigidity change unit 130 or the flexible support unit 140 .

The pulse rate measured by the pulse rate measurement unit 135 may be transmitted to the controller 180 . That is, the control unit 180 may change the stiffness of the stiffness changing unit 130 or the height of the cervical spine support unit 120 based on the user's pulse rate measured by the pulse rate measuring unit 135 .

Basically, it is known that the pulse rate is controlled by the autonomic nerve and fluctuates according to the sleep state. In the state of deep sleep, the pulse rate is relatively low and the fluctuation is small, whereas in the state of light sleep, the pulse rate is high and the fluctuation is large.

According to the present embodiment, when the user's pulse rate measured by the pulse rate measurement unit 135 is higher than the preset reference pulse rate, the control unit 180 can relatively greatly change the stiffness of the stiffness changer 130, and the pulse rate When the user's pulse rate measured by the measurement unit 135 is lower than the preset reference pulse rate, the controller may change the stiffness of the stiffness change unit 130 relatively small. In this case, the reference pulse rate may be 70 to 90 times per minute.

In this way, by accurately determining the sleep state of the user who is currently sleeping and appropriately adjusting the rigidity of the stiffness changer 130, the user can induce sleep or continuously maintain deep sleep.

And, the cervical pillow according to this embodiment may further include a speaker 190.

The speaker 190 may be linked to a terminal such as a user's mobile phone or tablet via Bluetooth. Through such a speaker 190, more comfortable rest and sleep can be induced.

As described above, the cervical pillow according to the present invention appropriately adjusts the stiffness or height of the cervical vertebra support 120 supporting the cervical vertebrae according to the user's cervical vertebrae information, sleep posture information and sleep state information, thereby allowing the user to relax However, the quality of sleep can be greatly improved, and the cervical vertebra correction effect can be provided to users who are resting or sleeping.

In addition, the cervical pillow according to the present invention through wireless communication through a user terminal such as a mobile phone or tablet, the history of the operation history of the cervical support portion 120, the user's cervical spine information, sleep posture information and sleep state information By being able to easily manage, it is possible to greatly improve the quality of the user's rest or sleep.

As described above, the preferred embodiments of the present invention have been described with reference to the drawings, but those skilled in the art can make various modifications to the present invention within the scope not departing from the spirit and scope of the present invention described in the claims below. may be modified or changed.

110: body
120: cervical support
130: rigidity change unit
140: flexible support
150: height adjustment unit
160: power supply
180: control unit

Claims (8)

main body;
A cervical vertebrae support having a stiffness changing unit disposed above the main body to support the back neck where the user's cervical vertebrae is located, and having a stiffness changing unit whose stiffness is changed according to an applied voltage, and a height adjusting unit that changes the height of the stiffness varying unit from the main body. wealth;
a power supply unit for applying a voltage to the stiffness change unit;
a posture sensor coupled to the main body and sensing a user's sleeping posture; and
A control unit that changes the stiffness of the stiffness change unit by controlling a voltage applied to the stiffness change unit based on the user's cervical spine information stored in advance and the user's sleep posture information detected by the posture sensor,
A plurality of the stiffness changing parts are provided along the left and right directions of the main body, and the stiffness of the plurality of stiffness changing parts is independently changed by the controller,
The posture detecting unit includes a first sensor disposed on one side of the body and detecting a left shoulder of the user, and a second sensor disposed on the other side of the body and detecting a right shoulder of the user,
The control unit detects the side on which the user has turned through the first sensor and the second sensor, and changes the stiffness of the stiffness change unit disposed on the side on which the user has turned to small and lowers the height of the cervical pillow. delete delete delete According to claim 1,
The cervical support part,
Cervical pillow characterized in that it further comprises; coupled to the upper portion of the rigidity changing portion, flexible support for supporting the back neck while being compressed and deformed in response to the shape of the back neck when the user's back neck is in close contact. delete According to claim 1,
The stiffness change unit,
with the skin,
A magneto-rheological elastomer that is accommodated inside the outer shell and whose stiffness is changed by a magnetic field;
Cervical pillow, characterized in that it comprises a conductor disposed inside the magnetic rheological elastomer and forming a magnetic field around it by the voltage applied from the power supply. According to claim 1,
A pulse rate measuring unit coupled to the cervical spine support and measuring a user's pulse rate; further comprising;
The control unit,
When the user's pulse rate measured by the pulse rate measuring unit is higher than a preset reference pulse rate, the stiffness of the stiffness changing unit is relatively greatly changed;
When the user's pulse rate measured by the pulse rate measuring unit is lower than the preset reference pulse rate, the cervical pillow characterized in that the stiffness of the stiffness changing unit is changed relatively small.

Images