CN115645143A - Sleep pillow and control method thereof - Google Patents

Abstract

The invention relates to the technical field of health care products, and discloses a sleep pillow and a control method thereof. The pillow can effectively adjust the head posture during sleeping to intervene snoring, can also partially adjust the height to stretch cervical vertebra and has the effects of warm keeping and hot compress on the cervical vertebra.

Description

Sleep pillow and control method thereof

Technical Field

The invention relates to the technical field of health care products, in particular to a sleep pillow and a control method thereof.

Background

At present, a plurality of snore stopping pillows are arranged on the market, the height of the pillow is adjusted through air bags, so that a breathing airway is recovered to be smooth, the positioning of the head is not accurate enough, the mode of adjusting the position of the head is single, and the condition that the function is invalid or not obvious can occur in the actual using process. In addition, the function of the snore stopping pillow is single, and various requirements of users such as neck stretching, heating, warm keeping, hot compress and the like cannot be met.

Disclosure of Invention

The purpose of the invention is: a sleeping pillow capable of effectively adjusting the head posture during sleeping to intervene snoring, locally adjusting the height to stretch cervical vertebra and performing warm keeping and hot compress and a control method thereof are designed.

In order to achieve the purpose, the invention provides a sleep pillow which comprises a pillow body, a controller and an air pump, wherein a head adjusting area positioned at the upper part and a neck adjusting area positioned at the lower part are arranged in the pillow body, at least five longitudinal air bags extending from top to bottom are sequentially arranged in the head adjusting area from left to right at intervals, a pressure sensor is arranged on each longitudinal air bag, a heating device and a transverse air bag extending from left to right are arranged in the neck adjusting area, the heating device is laid on the front side of the transverse air bag, the air pump is arranged outside the pillow body and is respectively communicated with the transverse air bags and the longitudinal air bags, a sound sensor is further arranged on the pillow body, and the controller is respectively in communication connection with the air pump, the heating device and the sound sensor.

Preferably, the pillow body is equipped with stereoplasm pillow layer, emulsion layer, adjustment layer and the surface course that is used for laminating the head from back to front in proper order, the head adjustment district reaches the neck adjustment district all is located in the adjustment layer.

Preferably, the surface layer is a spectrum layer capable of releasing far infrared rays.

Preferably, when viewed from left to right, the surface layer is wavy, and the lower part of the pillow body is higher than the upper part of the pillow body.

Preferably, the transverse airbag comprises a plurality of sub-airbags, each sub-airbag is sequentially stacked from front to back, and two adjacent sub-airbags are communicated with each other.

Preferably, the controller includes:

the acquisition module is used for determining head position information of the user through the pressure sensor and determining whether the user generates snore or not through the sound sensor;

and the control module is used for controlling the air pump to inflate the transverse air bags or the longitudinal air bags, controlling the switch of the control valve to deflate the transverse air bags or the longitudinal air bags, and controlling the heating device to realize temperature control.

The invention also provides a control method of the sleep pillow, which is used for the sleep pillow and comprises the following specific steps:

s1, in an initial state, all longitudinal air bags of a sleep pillow are located at the lowest positions, the height of the sleep pillow is at an appropriate sleep height, and whether a user snores or not is monitored in real time through a sound sensor;

s2, when snoring is monitored, the head position of the user on the sleeping pillow is acquired through the pressure sensor, the controller controls the air pump to inflate the longitudinal air bag close to the head position, so that the head position of the user is passively changed in the sleeping process, and the snoring is continuously monitored within a first set time;

s3, when the snoring is not monitored in the first set time, the controller controls the longitudinal air bag to deflate and recover to the lowest position, so that the sleep pillow recovers to the initial state, and then S1 is carried out.

Preferably, the method further comprises the following steps:

s4, when the snore is continuously monitored within the first set time and after the first set time is finished, controlling the air pump to inflate the transverse air bag, enabling the user to change the head position again in the sleeping process, and continuously monitoring the snore within the second set time;

s5, when snoring is not monitored in the second set time, the controller controls the transverse air bag to deflate and recover to the position before S4, and the S1 is turned.

Preferably, the first set time and the second set time are both 10 to 120 seconds.

Compared with the prior art, the sleep pillow and the control method thereof have the advantages that:

the sleep pillow provided by the embodiment of the invention can adjust the head posture of a user, intervenes snore, improves the sleep quality of the user and reduces the sleep influence on a person beside the pillow, and the multi-airbag multi-sensor arrangement in the sleep pillow can improve the accuracy of intervention; the transverse air bag can also adjust the height to stretch the cervical vertebra, so that the problems of cervical vertebra stiffness and muscle soreness are relieved; meanwhile, the sleep pillow has a heating function, and can realize warm keeping or hot compress on the neck.

Drawings

FIG. 1 is a schematic front view of a sleep pillow according to an embodiment of the present invention;

FIG. 2 is a side view of a sleep pillow according to an embodiment of the present invention;

fig. 3 is a schematic diagram of the hardware structure of the sleep pillow according to the embodiment of the invention.

In the figure, 1, a pillow body; 11. a hard pillow layer; 12. a latex layer; 13. an adjustment layer; 131. a head adjustment region; 132. a neck adjustment region; 14. a surface layer; 2. a controller; 3. an air pump; 5. a longitudinal balloon; 6. a pressure sensor; 7. a heating device; 8. a transverse air bag; 81. a sub-airbag; 9. a sound sensor; 10. and (4) controlling the valve.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present invention, it should be understood that the terms "connected," "fixed," and the like are used in a broad sense, and for example, the terms "connected," "connected," and "fixed" may be fixed, detachable, or integrated; the connection can be mechanical connection or welding connection; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

The terms "first", "second", and the like are used herein to describe various information, but the information should not be limited to these terms, which are used only to distinguish the same type of information from each other. For example, "first" information may also be referred to as "second" information, and similarly, "second" information may also be referred to as "first" information, without departing from the scope of the present invention.

In the description of the present invention, it should be understood that, when a user uses the sleep pillow of the present invention for sleep, a direction close to the top of the head is "up", a direction away from the top of the head is "down", a direction close to the left ear is "left", a direction close to the right ear is "right", a direction close to the head is "front", and a direction away from the head is "back".

As shown in fig. 1 and 2, a sleep pillow according to a preferred embodiment of the present invention includes a pillow body 1, a controller 2 and an air pump 3, wherein a head adjustment region 131 at an upper portion and a neck adjustment region 132 at a lower portion are disposed in the pillow body 1, the head adjustment region 131 is sequentially provided with at least five longitudinal air bags 5 extending from top to bottom from left to right at intervals, each longitudinal air bag 5 is provided with a pressure sensor 6, the neck adjustment region 132 is provided with a heating device 7 and a transverse air bag 8 extending from left to right, the heating device 7 is laid on a front side of the transverse air bag 8, the air pump 3 is disposed outside the pillow body 1 and is respectively communicated with the transverse air bags 8 and the longitudinal air bags 5, the pillow body 1 is further provided with a sound sensor 9, and the controller 2 is respectively connected to the air pump 3, the heating device 7 and the sound sensor 9 in a communication manner.

The transverse air bags 8 and the longitudinal air bags 5 are used for adjusting the posture of the pillow, the transverse air bags 8 are mainly used for adjusting the height of the neck part to stretch the cervical vertebra up and down, the longitudinal air bags 5 are uniformly distributed on the upper part and can adjust the head to rotate through the height difference without causing too high lifting stroke, the head can rotate in a limited way without displacement, and a user cannot wake up from the sleep; a temperature sensor is arranged in the heating device 7, and can be matched with the controller 2 to realize control and adjustment of multi-gear temperature; the sound sensor 9 is used for receiving and monitoring snore, and the controller 2 is used for receiving signals of the pressure sensor 6, the sound sensor 9 and the heating device 7; control valves 10 are arranged between the air pump 3 and the transverse air bags 8 and between the air pump and the longitudinal air bags 5, and the control valves 10 are used for controlling the input and output of air in the air bags so as to realize the inflation, deflation and storage of the air bags.

The user can adjust the transverse air bag 8 to a proper height by himself through the controller 2, or adjust the heating temperature of the heating device 7 by himself to keep the neck warm or apply hot compress; the controller 2 can monitor whether the user snores in real time when the user sleeps, then determines head position information through analysis and calculation, controls the air pump 3 and the control valve 10 to inflate the corresponding longitudinal air bag 5, further adjusts the head posture of the user, intervenes in snoring of the user, improves sleeping comfort and reduces interference on a sleeper. When the adjustment of the longitudinal air bag 5 fails to intervene in snoring, the controller 2 can adjust the height of the transverse air bag 8 through the air pump 3 and the control valve 10, and further adjust the head posture of the user in cooperation with the longitudinal air bag 5 to intervene in snoring. When the user snores for a certain time after adjusting the snore, the controller 2 enables the longitudinal air bag 5 to stop inflating and deflate to the initial state through the air pump 3 and the control valve 10, or enables the transverse air bag 8 to deflate to the height which is adjusted by the user.

Further, the pillow body 1 is sequentially provided with a hard pillow layer 11, an emulsion layer 12, an adjusting layer 13 and a surface layer 14 for fitting the head from back to front, and the head adjusting region 131 and the neck adjusting region 132 are both located in the adjusting layer 13.

The hard pillow layer 11 plays a role of supporting; the latex layer 12 is used as a middle layer for ensuring the comfort of the sleep pillow and inhibiting bacteria and preventing mites; the longitudinal cells 5 are uniformly filled in the head adjusting region 131, and the lateral cells 8 span the entire neck adjusting region 132; the face layer 14 is in contact with the head, and the sound sensor 9 may be disposed at the upper left end or the upper right end of the face layer 14 so as not to be blocked by the user.

Further, the surface layer 14 is a spectrum layer capable of releasing far infrared rays. The frequency spectrum layer can release far infrared, and the heat effect that 7 superposes heating device brought has the effect that promotes blood circulation, can improve the comfort level of cervical vertebra. Specifically, the spectrum layer can be a composite coating material composed of ceramic or polymer composite materials, and can radiate a broadband infrared spectrum when being heated, wherein the wavelength range of the infrared spectrum is 3-25 μm, the peak wavelength region is 7.7-10 μm, and the peak wavelength region is matched with the peak wavelength of human body infrared absorption (emission) of 9.35 μm. After the generated infrared spectrum acts on a human body, good biomedical effects are generated, such as improvement of local blood circulation, improvement of microcirculation, promotion of swelling and fading, reduction of muscle tension, relief of muscle spasm, analgesia and the like, so that the effect of adjuvant therapy is achieved.

Furthermore, when viewed from left to right, the surface layer 14 is wavy, and the lower part of the pillow body 1 is higher than the upper part of the pillow body 1, so as to fit the physiological curve of the head and neck of a human body.

Further, the transverse air bag 8 comprises a plurality of sub air bags 81, each sub air bag 81 is sequentially stacked from front to back and is arranged, the adjacent sub air bags 81 are communicated with each other, the stress degree of the transverse air bag 8 in the vertical direction can be improved due to the arrangement of the sub air bags 81, the height of the transverse air bag 8 can be further adjusted in a stepless mode, and the up-and-down stretching of the neck and the interference on the snoring of a user can be simply and conveniently achieved.

Further, the controller 2 includes:

the acquisition module is used for determining head position information of the user through the pressure sensor 6 and determining whether the user generates snore or not through the sound sensor 9;

and the control module is used for controlling the air pump 3 to inflate the transverse air bags 8 or the longitudinal air bags 5, controlling the switches of the control valves 10 to deflate the transverse air bags 8 or the longitudinal air bags 5, and controlling the heating device 7 to realize temperature control.

As shown in fig. 3, a control method of a sleep pillow according to a preferred embodiment of the present invention is applied to the sleep pillow, and includes the following steps:

s1, in an initial state, each longitudinal air bag 5 of the sleep pillow is located at the lowest position, the height of the sleep pillow is at an appropriate sleep height, and whether a user snores or not is monitored in real time through a sound sensor 9;

s2, when snoring is monitored, acquiring the head position of a user on the sleeping pillow through the pressure sensor 6, and controlling the air pump 3 to inflate the longitudinal air bag 5 close to the head position by the controller 2, so that the head position of the user is passively changed during sleeping, and the snoring is continuously monitored within a first set time;

s3, when the snore is not monitored within the first set time, the fact that the air pump 3 inflates the longitudinal air bag 5 to adjust the height enables the head of the user to rotate and the user stops snoring is shown, the controller 2 controls the longitudinal air bag 5 to deflate and recover to the lowest position, the sleep pillow is recovered to the initial state, namely the appropriate sleep height, and the S1 is turned to monitor the snore of the user in real time again.

Further, the method also comprises the following steps:

s4, when the snore is continuously monitored within the first set time and after the first set time is finished, the fact that the interference effect of the longitudinal air bag 5 on the snore is not obvious when the head of the user is adjusted to rotate is shown, at the moment, the user is further interfered by the transverse air bag 8, the air pump 3 is controlled to slowly inflate the transverse air bag 8, the chin and the mouth of the user are lifted, the head position of the user is changed again in the sleeping process, and the snore is continuously monitored within the second set time; in addition, in practical application, the transverse air bag 8 can be controlled to slowly deflate to lower the chin and the mouth of the user, so that the user can change the head position of the user from multiple angles to intervene in snoring.

S5, when the snore is not monitored within the second set time, indicating that the intervention is successful, the controller 2 controls the transverse air bag 8 to deflate and recover to the position in front of the S4, namely the height set by the user through the controller 2, and the snore of the user is monitored in real time again through the S1.

Further, the first set time and the second set time are both 10 to 120 seconds. Specifically, the first set time may be 10 seconds, 20 seconds, 30 seconds, during which the longitudinal air bag 5 is continuously or intermittently inflated slowly to rotate the head of the user slowly to gradually change the head position of the user; the second setting time can be 45 seconds and 60 seconds, the transverse air bag 8 is inflated in the time, the transverse air bag 8 can be deflated when being inflated to the limit so as to adjust the head posture of the user, and the sleeping of the sleeper can be influenced if the time setting is too long.

To sum up, the embodiment of the invention provides a sleep pillow and a control method thereof, which can automatically adjust the head posture of a user, intervene snore, improve the sleep quality of the user and reduce the sleep influence on a person beside the pillow, and the multi-airbag and multi-sensor arrangement in the sleep pillow can improve the accuracy of the intervention; the transverse air bag 8 can also adjust the height to stretch the cervical vertebra, so that the problems of cervical vertebra stiffness and muscle soreness are relieved; meanwhile, the sleeping pillow has a frequency spectrum warming effect, can realize warm keeping or hot compress on cervical vertebra, and improves blood circulation.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, many modifications and substitutions can be made without departing from the technical principle of the present invention, and these modifications and substitutions should also be regarded as the protection scope of the present invention.

Claims (9)

1. The utility model provides a sleep pillow, its characterized in that, includes pillow body, controller and air pump, this internal head adjustment district that is located the upper portion and the neck adjustment district that is located the lower part that is equipped with of pillow, the head adjustment district is equipped with five at least vertical gasbags that down extend from the last from a left side to the right side in proper order at intervals, each all be equipped with pressure sensor on the vertical gasbag, the neck adjustment district is equipped with heating device and turns right the horizontal gasbag that extends from a left side, heating device lays in the front side of horizontal gasbag, the air pump is located this external and respectively with horizontal gasbag and each vertical gasbag intercommunication still is equipped with sound transducer on the pillow body, the controller respectively with the air pump heating device reaches sound transducer communication connection.

2. The sleep pillow according to claim 1, wherein the pillow body is sequentially provided with a hard pillow layer, a latex layer, an adjusting layer and a surface layer for fitting the head from back to front, and the head adjusting region and the neck adjusting region are both located in the adjusting layer.

3. The sleep pillow of claim 2, wherein the face layer is a spectral layer capable of releasing far infrared rays.

4. The sleep pillow according to claim 3, wherein the surface layer is wave-shaped when viewed from left to right, and the lower part of the pillow body is higher than the upper part of the pillow body.

5. The sleep pillow according to claim 1, wherein the transverse air cell comprises a plurality of sub air cells, each sub air cell is sequentially stacked from front to back, and two adjacent sub air cells are communicated with each other.

6. The sleep pillow of claim 1, wherein the controller comprises:

the acquisition module is used for determining head position information of the user through the pressure sensor and determining whether the user generates snore or not through the sound sensor;

and the control module is used for controlling the air pump to inflate the transverse air bags or the longitudinal air bags, controlling the switch of the control valve to deflate the transverse air bags or the longitudinal air bags, and controlling the heating device to realize temperature control.

7. A control method of a sleep pillow is used for the sleep pillow according to any one of claims 1 to 6, and is characterized by comprising the following specific steps:

s1, in an initial state, all longitudinal air bags of a sleep pillow are located at the lowest positions, the height of the sleep pillow is at an appropriate sleep height, and whether a user snores or not is monitored in real time through a sound sensor;

s2, when snoring is monitored, the head position of the user on the sleeping pillow is acquired through the pressure sensor, the controller controls the air pump to inflate the longitudinal air bag close to the head position, so that the head position of the user is passively changed in the sleeping process, and the snoring is continuously monitored within a first set time;

s3, when the snoring is not monitored in the first set time, the controller controls the longitudinal air bag to deflate and recover to the lowest position, so that the sleep pillow recovers to the initial state, and then S1 is carried out.

8. The method of controlling a sleep pillow according to claim 7, further comprising:

s4, when the snore is continuously monitored within the first set time and after the first set time is finished, controlling the air pump to inflate the transverse air bag, enabling the user to change the head position again in the sleeping process, and continuously monitoring the snore within the second set time;

s5, when the snoring is not monitored in the second set time, the controller controls the transverse air bag to deflate and recover to the position before S4, and then S1 is carried out.

9. The method for controlling a sleep pillow according to claim 8, wherein the first set time and the second set time are both 10-120 seconds.

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