CN206587089U - Easy pillow - Google Patents

Abstract

The utility model discloses a kind of Easy pillow, including：Pillow body, sound transducer, pressure sensitive layer, airbag structure layer, controller and inflator pump；Wherein sound transducer is arranged on inside pillow body, and voice signal is exported for sensing the sound of snoring that user sends；Pressure sensitive layer is arranged on inside pillow body, for sensing the pressure output pressure signal that the incidence of user is acted in pillow body；Airbag structure layer is arranged on inside pillow body, is connected by charge and discharge air pipe with inflator pump；Controller is electrically connected with sound transducer, pressure sensitive layer and inflator pump, for receiving voice signal and pressure signal, according to voice signal and pressure signal output control signal, to control inflator pump to be inflated or deflate airbag structure layer.The Easy pillow realizes the function of multi-angle regulation user's head pose, and Adjustment precision is high, has good support to the incidence of people, reduces snoring, improves sleep quality.

Description

Snore relieving pillow

Technical Field

The utility model relates to a household articles field, concretely relates to snore relieving pillow.

Background

Snoring, a common sleeping phenomenon, can reduce the blood oxygen concentration of a sleeper in the sleeping process, leads to apnea in severe cases, induces cardiovascular and cerebrovascular diseases, and causes harm to the physical health of the sleeper. Moreover, snoring affects the sleeping quality of the sleeper and other people, so that the human body cannot have a good rest.

The existing snore stopping pillow adopts modes of vibration, sound and the like to prompt a sleeper to adjust the sleeping posture so as to stop snoring, or a water bag, an air bag, a mechanical mechanism and the like are arranged to drive the pillow to move locally so as to adjust the head posture of the sleeper, so that the aim of stopping snoring is fulfilled. However, the conventional snore stopping pillow has limited adjusting angle, low adjusting precision, unadjustable support for the neck and poor comfort.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the defects of the prior art, and provides a snore stopping pillow which is used for solving the problems that the snore stopping pillow in the prior art has limited adjusting angle, low adjusting precision, unadjustable support for the neck and poor comfort.

According to an aspect of the utility model, a snore relieving pillow is provided, include: the pillow comprises a pillow body, a sound sensor, a pressure sensing layer, an air bag structure layer, a controller and an inflator pump; wherein,

the sound sensor is arranged in the pillow body and used for sensing snore sent by a user so as to output a sound signal;

the pressure sensing layer is arranged in the pillow body and used for sensing the pressure of the head and neck of the user acting on the pillow body so as to output a pressure signal;

the air bag structure layer is arranged inside the pillow body and is communicated with the inflator pump through an air charging and discharging pipeline;

the controller is electrically connected with the sound sensor, the pressure sensing layer and the inflator pump and used for receiving the sound signals and the pressure signals and outputting control signals according to the sound signals and the pressure signals so as to control the inflator pump to inflate or deflate the airbag structural layer.

Optionally, the pillow body comprises a pillow core and a fabric layer; the pressure sensing layer and the air bag structure layer are arranged between the fabric layer and the pillow core in a laminated mode.

Optionally, the airbag structure layer is formed by at least one airbag, the at least one airbag forms an array structure with M rows and N columns, the airbags are connected with each other but not communicated with each other, each airbag is provided with an inflation and deflation valve, and each airbag is communicated with the inflation and deflation pipeline through the inflation and deflation valve.

Optionally, the pressure sensing layer is formed by at least one pressure sensor, the at least one pressure sensor forms an array structure with M rows and N columns, and each pressure sensor corresponds to the position of each air bag in a one-to-one mode.

Optionally, each pressure sensor has a first output and a second output; the first output ends of the pressure sensors in each row are connected, and a first terminal is led out; second output ends of the pressure sensors in each row are connected, and a second terminal is led out; all the M first terminals and the N second terminals are output ends of the pressure sensing layer for outputting pressure signals.

Optionally, the pressure sensor is a friction generator and/or a piezoelectric generator, the friction generator is a three-layer structure, a four-layer structure or a five-layer structure, and the piezoelectric generator is a piezoelectric generator made of zinc oxide, PZT (lead zirconate titanate piezoelectric ceramic) or PVDF (polyvinylidene fluoride).

Optionally, the controller is further configured to:

analyzing the sound signal output by the sound sensor to determine the snore intensity, interval and duration of the user, and analyzing the pressure signal output by the pressure sensing layer to determine the position of pressure generation;

if the snore intensity, the interval and the duration time of the user meet preset conditions, a control signal is output to control the inflator pump to inflate or deflate the air bag corresponding to the position where the pressure is generated.

Optionally, the controller comprises:

the data preprocessing circuit is used for amplifying, filtering and carrying out analog-to-digital conversion on the sound signal output by the sound sensor and the pressure signal output by the pressure sensing layer;

and the control circuit is used for outputting a control signal according to the processed sound signal and the processed pressure signal so as to control the inflator pump to inflate or deflate the air bag structure layer.

Optionally, the controller further comprises:

the signal processing circuit is used for processing and integrating the snore intensity, interval, duration and snore time of the user which are analyzed and determined by the control circuit to obtain snore data;

and the wireless communication circuit is used for sending the snoring data to the client for the user to look up.

The snore stopping pillow provided by the utility model can sense the snore sent by the user and the pressure of the head and the neck of the user acting on the pillow body by arranging the sound sensor and the pressure sensing layer in the pillow body; the controller controls the inflator pump to inflate or deflate the air bag structure layer according to signals output by the sound sensor and the pressure sensing layer, so that the head posture of a user is adjusted at multiple angles, the adjustment precision is high, the head and the neck of the user are well supported, snoring is reduced, and the sleeping quality is improved.

Drawings

Fig. 1 is a schematic structural view of a first embodiment of the snore stopping pillow provided by the utility model;

fig. 2 is a schematic sectional structure view of a first embodiment of the snore stopping pillow provided by the present invention;

fig. 3 is a schematic view of a pressure sensing layer in a first embodiment of the snore stopping pillow provided by the utility model;

fig. 4 is a functional module schematic diagram of a first embodiment of the snore stopping pillow provided by the utility model;

fig. 5 is a schematic diagram of functional modules of a second embodiment of the snore stopping pillow provided by the present invention.

Detailed Description

The present invention will be described in detail with reference to the following embodiments in order to fully understand the objects, features and functions of the present invention, but the present invention is not limited thereto.

Example one

Fig. 1 is a schematic structural diagram of a first embodiment of the snore stopping pillow provided by the present invention. Fig. 2 is a schematic sectional structure view of a first embodiment of the snore stopping pillow provided by the present invention. As shown in fig. 1 and fig. 2, the snore stopping pillow provided in this embodiment includes: a pillow body 10, a sound sensor 11, a pressure sensing layer 12, an air bag structure layer 21, a controller (not shown in the figure) and an inflator (not shown in the figure).

The pillow body 10 includes a pillow core 22 and a material layer 23, both of which are made of materials of prior art pillows, and can be selected by a user according to the needs, which is not limited in detail herein. The pillow core 22 plays a supporting role, and the fabric layer 23 is used for completely covering the pressure sensing layer 12, the air bag structure layer 21 and the pillow core 22.

The sound sensor 11 is disposed inside the pillow body 10, and optionally, the sound sensor 11 is embedded in the fabric layer 23 of the pillow body 10, and at least one is disposed on each of the left and right sides of the pillow body 10, so as to sense the snoring emitted by the user and output a sound signal when the user snores.

The pressure sensing layer 12 and the air bag structure layer 21 are both disposed inside the pillow body 10, and optionally, the pressure sensing layer 12 is disposed on the upper surface of the air bag structure layer 21, and both are disposed between the fabric layer 23 and the pillow core 22 in a stacked manner.

The airbag structure layer 21 is formed by at least one airbag 31, and the at least one airbag 31 is connected with each other but not communicated with each other to form an array structure with M rows and N columns. Each air bag 31 is provided with an air inflation and deflation valve, and each air bag 31 is communicated with the air inflation and deflation pipeline through the air inflation and deflation valve to realize the air inflation and deflation of the air bag 31, so that the function of adjusting the supporting angle of the pillow to the head and the neck is realized.

The pressure sensing layer 12 is composed of at least one pressure sensor, the pressure sensors form an array structure with M rows and N columns, each pressure sensor corresponds to the position of each air bag one by one, so that the supporting angle of the pillow to the head and the neck can be adjusted through the inflation and deflation of the air bags at the corresponding positions.

Each pressure sensor has a first output and a second output; the first output ends of the pressure sensors in each row are connected, and a first terminal is led out; second output ends of the pressure sensors in each row are connected, and a second terminal is led out; all the M first terminals and the N second terminals are output ends of the pressure sensing layer for outputting pressure signals.

Wherein, the pressure sensor is a friction generator and/or a piezoelectric generator. The friction generator can be of a three-layer structure, a four-layer structure or a five-layer structure; the piezoelectric generator may be a piezoelectric generator made of piezoelectric materials such as zinc oxide, PZT (lead zirconate titanate piezoelectric ceramic), PVDF (polyvinylidene fluoride), etc., and those skilled in the art can select the piezoelectric generator according to needs, which is not limited herein.

Fig. 3 is a schematic view of a pressure sensing layer in the first embodiment of the snore stopping pillow provided by the present invention. As shown in fig. 3, the pressure sensing layer 12 is composed of 9 pressure sensors 41, and if each pressure sensor includes a friction generator, the pressure sensing layer of fig. 4 is composed of 9 friction generators, and is arranged in an array of 3 rows and 3 columns. Taking the friction generator with a three-layer structure as an example, each friction generator comprises a first electrode layer, a first high polymer insulating layer and a second electrode layer which are sequentially stacked from top to bottom, wherein the first electrode layer is a first output end of the friction generator, and the second electrode layer is a second output end of the friction generator. The first electrode layers of the 3 friction generators of each row are connected with each other to obtain a first terminal M1 of the first row, a first terminal M2 of the second row and a first terminal M3 of the third row, while the second electrode layers of the 3 friction generators of each column are connected with each other to obtain a second terminal N1 of the first column, a second terminal N2 of the second column and a second terminal N3 of the third column, the first and second terminals are connected with a controller, when an external force acts on the pressure sensors, the corresponding pressure sensors generate electric signals, and the controller identifies the positions of the pressure sensors generating the electric signals according to the terminals to which the signals are input. For example, when the controller detects the electric signals output by the first terminal M2 and the second terminal N1, it indicates that the force-bearing point is located at the second row and the first column pressure sensor. The output voltage of the pressure sensor included in the pressure sensing layer is approximately linearly related to the acting force applied by the pressure sensor. The number of pressure sensors included in the pressure sensing layer is selected by a person skilled in the art according to the size of the snore stopping pillow and the required control precision, and is not limited herein.

Fig. 4 is a schematic diagram of functional modules of a first embodiment of the snore stopping pillow provided by the present invention. As shown in fig. 4, the controller 33 is electrically connected to the sound sensor 11, the pressure sensing layer 12 and the inflator 32, and is configured to receive the sound signal output by the sound sensor 11 and the pressure signal output by the pressure sensing layer 12, and output a control signal according to the sound signal and the pressure signal, so as to control the inflator 32 to inflate or deflate the airbag 31. Specifically, the controller 33 analyzes the sound signal output by the sound sensor 11 to determine the snore intensity, the interval and the duration of the user, analyzes the pressure signal output by the pressure sensing layer to determine the position where the pressure is generated, and outputs a control signal to control the inflator to inflate or deflate the airbag corresponding to the position where the pressure is generated if the snore intensity, the interval and the duration of the user meet preset conditions.

The controller 33 further includes: a data preprocessing circuit 34 and a control circuit 35.

The data preprocessing circuit 34 is used for performing amplification, filtering and analog-to-digital conversion processing on the sound signal output by the sound sensor 11 and the pressure signal output by the pressure sensing layer 12.

The control circuit 35 is connected to the data preprocessing circuit 34, and is configured to output a control signal according to the processed sound signal and the processed pressure signal, so as to control the inflator 32 to inflate or deflate the airbag 31.

As shown in fig. 4, the inflator 32 is connected to the controller 33 by a wire, and is connected to the airbag 31 by a pipeline, and is configured to perform inflation and deflation operations on the corresponding airbag 31 through the inflation and deflation valve according to a control signal of the controller 33.

Optionally, the inflator 32 and the controller 33 are disposed outside the pillow body 10, so as to avoid electromagnetic radiation generated by the circuit elements and influence of the operation of the inflator on the human body, and the inflator 32 is a micro inflator, so that noise is low, and influence on the sleep of the user is avoided.

The specific working principle of the snore stopping pillow provided by the embodiment is as follows:

when the user uses the utility model discloses a during the snore relieving pillow, the head is used in pressure messenger pressure sensor on pressure sensor surface and produces deformation, thereby make the pressure sensor of corresponding part produce pressure signal output, the position that the head was located on the pillow is confirmed to the pressure signal of controller according to pressure sensor output, the signal detection user's snore intensity when the controller is exported according to sound transducer, interval and duration satisfy when presetting the condition, then carry out slow gassing operation of filling by controller control pump to the gasbag, with help the user to adjust the head position, play the effect of snore relieving. Because the snore stopping pillow is provided with the pressure sensor array and the air bag array, the angle of the head can be adjusted in the horizontal direction and the vertical direction, and the adjustment precision is high.

For example, when the user snores, the snore reaches 35 db, the snore interval is less than 10 seconds, and the duration time exceeds 1 minute, the controller controls the inflator to inflate the air bags on one side or two sides of the head to lift the side, or inflate the air bags on the head to lift the side, so as to enable the head of the user to deflect to achieve the purpose of stopping the snore. When the user does not snore or stops snoring, the controller adjusts the inflation state of the air bag according to the curve of the head and the neck of the human body, so that the head of the user is well supported, and the sleeping quality is improved. Because the snore stopping pillow is provided with the pressure sensor array and the air bag array, the angle of the head can be adjusted in the horizontal direction and the vertical direction, and the adjustment precision is high.

Example two

Fig. 5 is a schematic diagram of functional modules of a second embodiment of the snore stopping pillow provided by the present invention. The difference between the snore stopping pillow provided in the second embodiment and the first embodiment is the controller, and other components and the arrangement thereof are the same as those in the first embodiment, and are not described again.

As shown in fig. 5, the controller 53 in this embodiment includes a signal processing circuit 51 and a wireless communication circuit 52 in addition to the data preprocessing circuit 34 and the control circuit 35. The signal processing circuit 51 is connected with the control circuit 35, and the signal processing circuit 51 processes and integrates data such as time, intensity, time interval, duration and the like of snoring of the user according to the electric signals output by the control circuit; the wireless communication circuit 52 is connected to the signal processing circuit 51, and is used for transmitting the data of the user snoring output by the signal processing circuit 51 to the mobile phone client for the user to look up.

Specifically, use when the user the utility model discloses a when the snore stopping pillow, the head is used in pressure on pressure sensor surface and makes pressure sensor produce deformation, thereby make the pressure sensor of corresponding part produce pressure signal output, the position that the head was located on the pillow is confirmed to the pressure signal of controller according to pressure sensor output, when the controller detects user's snore intensity according to the signal of sound sensor output, interval and duration satisfy the default condition, then carry out slow gassing operation of filling by controller control pump to the gasbag, with help the user to adjust the head position, play the effect of snore stopping. Meanwhile, the signal processing circuit processes and integrates data of the time, intensity, time interval, duration and the like of the user snoring, and sends the data of the user snoring to the mobile phone client through the wireless communication circuit for the user to look up when waking up.

The utility model provides a snore stopping pillow simple structure, but user's head gesture is adjusted to the multi-angle, and the adjustment precision is high to have good support to people's neck, reduce and snore, improve the sleep quality.

Finally, it is noted that: the above list is only the concrete implementation example of the present invention, and of course those skilled in the art can make modifications and variations to the present invention, and if these modifications and variations fall within the scope of the claims of the present invention and their equivalent technology, they should be considered as the protection scope of the present invention.

Claims (12)

1. A snore relieving pillow is characterized by comprising: the pillow comprises a pillow body, a sound sensor, a pressure sensing layer, an air bag structure layer, a controller and an inflator pump;

the sound sensor is arranged in the pillow body and used for sensing snore sent by a user so as to output a sound signal;

the pressure sensing layer is arranged in the pillow body and used for sensing the pressure of the head and neck of a user acting on the pillow body so as to output a pressure signal;

the air bag structure layer is arranged in the pillow body and is communicated with the inflator pump through an air charging and discharging pipeline;

the controller with sound sensor, pressure-sensitive layer with the pump electricity is connected for receive sound signal with pressure signal, the foundation sound signal with pressure signal output control signal, in order to control the pump is right the gasbag structural layer is aerifyd or is deflated.

2. The snore stopping pillow of claim 1, wherein the pillow body comprises a pillow core and a fabric layer; the pressure sensing layer and the air bag structure layer are stacked between the fabric layer and the pillow core.

3. The snore stopping pillow of claim 2, wherein the sound sensors are positioned on both sides of the pillow body and embedded in the fabric layer.

4. The snore stopping pillow according to claim 2, wherein the air bag structure layer is composed of at least one air bag, the at least one air bag forms an array structure with M rows and N columns, the air bags are connected with each other but not communicated with each other, each air bag is provided with an inflation and deflation valve, and each air bag is communicated with the inflation and deflation pipeline through the inflation and deflation valve.

5. The snore stopping pillow of claim 4, wherein the pressure sensing layer is formed by at least one pressure sensor, the at least one pressure sensor forms an array structure with M rows and N columns, and each pressure sensor corresponds to the position of each air bag in a one-to-one mode.

6. The snore stopping pillow of claim 5, wherein each pressure sensor has a first output and a second output; the first output ends of the pressure sensors in each row are connected, and a first terminal is led out; second output ends of the pressure sensors in each row are connected, and a second terminal is led out; all the M first terminals and the N second terminals are output ends of the pressure sensing layer for outputting pressure signals.

7. The snore stopping pillow according to claim 5, wherein the pressure sensor is a friction generator and/or a piezoelectric generator, the friction generator is of a three-layer structure, a four-layer structure or a five-layer structure, and the piezoelectric generator is made of zinc oxide, lead zirconate titanate piezoelectric ceramic or polyvinylidene fluoride.

8. The snore stopping pillow of any one of claims 1-7, wherein the controller is further configured to:

analyzing the sound signal output by the sound sensor to determine the snore intensity, interval and duration of the user, and analyzing the pressure signal output by the pressure sensing layer to determine the position where the pressure is generated;

and if the snore intensity, the interval and the duration time of the user meet preset conditions, outputting a control signal to control the inflator pump to inflate or deflate the air bag corresponding to the position where the pressure is generated.

9. The snore stopping pillow of any one of claims 1-7, wherein the controller comprises:

the data preprocessing circuit is used for amplifying, filtering and carrying out analog-to-digital conversion on the sound signal output by the sound sensor and the pressure signal output by the pressure sensing layer;

and the control circuit is used for outputting a control signal according to the processed sound signal and the processed pressure signal so as to control the inflator pump to inflate or deflate the air bag structure layer.

10. The snore stopping pillow of claim 8, wherein the controller comprises:

the data preprocessing circuit is used for amplifying, filtering and carrying out analog-to-digital conversion on the sound signal output by the sound sensor and the pressure signal output by the pressure sensing layer;

and the control circuit is used for outputting a control signal according to the processed sound signal and the processed pressure signal so as to control the inflator pump to inflate or deflate the air bag structure layer.

11. The snore stopping pillow of claim 9, wherein the controller further comprises:

the signal processing circuit is used for processing and integrating the snore intensity, interval, duration and snore time of the user which are analyzed and determined by the control circuit to obtain snore data;

and the wireless communication circuit is used for sending the snoring data to a client for being consulted by a user.

12. The snore stopping pillow of claim 10, wherein the controller further comprises:

the signal processing circuit is used for processing and integrating the snore intensity, interval, duration and snore time of the user which are analyzed and determined by the control circuit to obtain snore data;

and the wireless communication circuit is used for sending the snoring data to a client for being consulted by a user.