CN116098417A - Method for forming sleeping gesture animation and intelligent mattress - Google Patents

Abstract

The invention provides a method for forming a sleeping gesture animation, which comprises the following steps: acquiring the pressure of each pressure sensing area on the pressure sensing pad at each time node; forming sleeping gesture patterns of all the time nodes according to the pressure, wherein the pressure sensing pad is arranged on the mattress body; continuously playing the sleeping gesture graphics corresponding to each time node under the set time axis to form sleeping gesture animation. The invention also provides an intelligent mattress which is characterized by comprising a mattress body, a sleep monitoring belt, a pressure sensing pad and a control box, wherein the sleep monitoring belt and the pressure sensing pad are arranged on the mattress body, the control box is respectively connected with the sleep monitoring belt and the pressure sensing pad, and the control box comprises the method for forming the sleeping gesture animation.

Description

Method for forming sleeping gesture animation and intelligent mattress

Technical Field

The invention relates to bedding, in particular to a mattress.

Background

At present, with the development of national economy, the national consumer level is improved, and the requirements of intelligent home furnishing are gradually increased in China. In recent years, the global healthy sleep market is rapidly expanded, people pay more attention to healthy sleep, and the intelligent mattress capable of monitoring the sleep quality of people can better help people to solve the healthy sleep problem, so that the demand quantity in the market in China is obviously increased.

In the prior art, an intelligent air bag mattress with sleep monitoring function of a twin bed is needed to be planted with two sleep monitoring belts, radar, microwave and the like to detect the heart rate, respiration, body movement and other multidimensional degrees of a sleeper so as to judge the sleep of a user. However, the sleep report is often some forms and data, and needs some expertise to read, so that the user is not intuitive, and cannot quickly know the sleep condition of the user.

Disclosure of Invention

The main technical problem to be solved by the invention is to provide the mattress, which can enable a user to see the visual image of the user in the sleeping process, and enable the user to have more visual knowledge of the sleeping state of the user.

In order to solve the above technical problems, the present invention provides a method for forming a sleeping gesture animation, including:

acquiring the pressure of each pressure sensing area on the pressure sensing pad at each time node; forming sleeping gesture patterns of all the time nodes according to the pressure, wherein the pressure sensing pad is arranged on the mattress body;

continuously playing the sleeping gesture graphics corresponding to each time node under the set time axis to form sleeping gesture animation.

In a preferred embodiment: forming sleeping gesture patterns of all the time nodes according to the pressure, wherein the sleeping gesture patterns are specifically as follows:

establishing a coordinate system, wherein the coordinate system is used for representing the positions of the pressure sensing areas on the pressure sensing pad;

judging whether the pressure of each pressure sensing area is larger than a pressure threshold value, and if so, recording the position of the pressure sensing area;

and visually displaying the recorded pressure sensing area on the coordinate system to form the sleeping gesture graph.

In a preferred embodiment: the visual display comprises setting the pressure sensing area to be displayed with color or displaying the pressure sensing area with the outline of the pressure sensing area.

In a preferred embodiment: and displaying colors with different RGB values according to different pressures of the pressure sensing areas.

In a preferred embodiment: the time nodes specifically include:

s1, when the fact that a user is ready to go to bed on the mattress body is monitored, recording time nodes and the pressure of each pressure sensing area corresponding to the time;

s2, judging whether the user generates body movement change in a first set time, if so, recording time nodes and the pressure of each pressure sensing area corresponding to the time;

if not, after the first set time is reached, recording a time node and the pressure of each pressure sensing area corresponding to the time.

In a preferred embodiment: the step S2 is as follows: judging whether the user generates body movement change in the first set time, if so, recording a time node through the second time, and recording the pressure of each pressure sensing area corresponding to the time; the second time is the time from dynamic to static for the person.

In a preferred embodiment: the method also comprises a step S3 of judging whether the user gets out of the bed:

s3: if the fact that the user sleeps on the mattress body is monitored, judging that the user does not leave the bed, and returning to the step S2; if the user is not sleeping on the mattress body, judging that the user leaves the bed, starting to calculate the leaving time, if the leaving time is greater than or equal to the third set time, calculating the user in-bed time, and if the leaving time is less than the third set time, returning to the step S1.

In a preferred embodiment: and if the in-bed time is greater than the fourth set time, storing the pressure of each time node and each corresponding pressure sensing area.

In a preferred embodiment: monitoring has the user to prepare to go to bed on the mattress body specifically does:

s11, receiving a pressure value on the pressure sensing pad, judging whether the pressure value is larger than a set pressure value, and if not, judging that the user is not at bedtime; if yes, go to step S12;

s12, judging whether heart rate breathing data monitored by the sleep monitoring belt are received, if yes, judging that the user is at bedtime, and if no, judging that the user is at bedtime; the sleep monitoring belt is arranged on the mattress body.

In a preferred embodiment: the time axis setting is specifically: the number of line segments divided by the time axis is the same as the number of the time nodes.

In a preferred embodiment: the timeline is divided into a plurality of equally divided line segments.

The invention also provides an intelligent mattress, which comprises a mattress body, a sleep monitoring belt, a pressure sensing pad and a control box, wherein the sleep monitoring belt and the pressure sensing pad are arranged on the mattress body, the control box is respectively connected with the sleep monitoring belt and the pressure sensing pad, and the control box comprises the method for forming the sleeping gesture animation.

In a preferred embodiment: the intelligent terminal is further included, and the control box transmits the sleeping gesture animation to the intelligent terminal for display.

In a preferred embodiment: the mattress body comprises an outer sleeve, a comfortable layer, an air bag layer and a bottom layer sponge which are sequentially arranged from top to bottom, and the comfortable layer is used for forming an interlayer between a human body and the air bag layer; the pressure sensing pad and the sleep monitoring belt are disposed between the outer cover and the comfort layer.

In a preferred embodiment: the sleep monitoring belt is also used for monitoring the sleep stage of the user, and the air bag layer adjusts the inflation and deflation frequency of the air bag in the air bag layer according to the sleep stage of the user: the inflation and deflation frequency of the air bag when the user does not fall asleep is larger than that of the air bag when the user falls asleep; when the user is in deep sleep, the air bag stops inflating and deflating.

The invention also provides an intelligent mattress, which comprises a mattress body, a sleep monitoring belt, a pressure sensing pad and an intelligent terminal, wherein the sleep monitoring belt and the pressure sensing pad are arranged on the mattress body, the intelligent terminal respectively receives signals of the sleep monitoring belt and the pressure sensing pad, and the intelligent terminal comprises the method for forming the sleeping gesture animation.

Compared with the prior art, the technical scheme of the invention has the following beneficial effects:

1. the invention provides a mattress for displaying sleeping gesture animation, which can collect pressure values at different positions on a pressure sensing pad 2 at different moments after a user falls asleep. And different colors are given to the pressure values with different magnitudes, so that the visualized graphs at different moments are obtained. And then, after the visual graphics at each moment are played in time sequence, the user can intuitively see the sleeping positions of the user at each sleeping stage, so that the user experience is improved.

2. The mattress for displaying the sleeping gesture animation can automatically adjust the hardness degree of the mattress according to users with different body types, and further increases the use experience of the users.

3. According to the mattress for displaying the sleeping gesture animation, the high-pressure air pump is used for storing high-pressure air in the high-pressure air tank, so that the high-pressure air in the high-pressure air tank can be used when the air bag needs to be inflated rapidly, and the inflation time is shortened. In order to reduce the noise generated when the high-pressure gas flows, a silencing device is additionally arranged, so that the user is ensured not to be disturbed by the too much noise.

Drawings

FIG. 1 is a diagram of a sleeping position at a certain time node in a preferred embodiment of the present invention;

FIG. 2 is an exploded view of a mattress in accordance with a preferred embodiment of the present invention;

FIG. 3 is a schematic view of the electrical connections of the various modules of the mattress in a preferred embodiment of the invention;

FIG. 4 is a logic flow diagram of a sleep animation recording in accordance with a preferred embodiment of the present invention;

FIG. 5 is a schematic view of the air passage connection of the air bag layer in the preferred embodiment of the present invention;

FIG. 6 is a schematic view of a muffler device according to a preferred embodiment of the present invention;

fig. 7 is an exploded view of a muffler device in accordance with a preferred embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments, and that all other embodiments obtained by persons of ordinary skill in the art without making creative efforts based on the embodiments in the present invention are within the protection scope of the present invention.

In the description of the present invention, it should be noted that the positional or positional relationship indicated by the terms such as "upper", "lower", "inner", "outer", "top/bottom", etc. are based on the positional or positional relationship shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, unless explicitly specified and limited otherwise, the terms "mounted," configured to, "" engaged with, "" connected to, "and the like are to be construed broadly, and may be, for example," connected to, "wall-mounted," connected to, removably connected to, or integrally connected to, mechanically connected to, electrically connected to, directly connected to, or indirectly connected to, through an intermediary, and may be in communication with each other between two elements, as will be apparent to those of ordinary skill in the art, in view of the detailed description of the terms herein.

The embodiment provides a method for forming a sleeping gesture animation, which comprises the following steps: acquiring the pressure of each pressure sensing area on the pressure sensing pad at each time node; forming sleeping gesture patterns of all the time nodes according to the pressure, wherein the pressure sensing pad is arranged on the mattress body; continuously playing the sleeping gesture graphics corresponding to each time node under the set time axis to form sleeping gesture animation.

The sleeping gesture graph of each time node is formed according to the pressure, and specifically comprises the following steps:

establishing a coordinate system, wherein the coordinate system is used for representing the positions of the pressure sensing areas on the pressure sensing pad;

judging whether the pressure of each pressure sensing area is larger than a pressure threshold value, and if so, recording the position of the pressure sensing area;

and visually displaying the recorded pressure sensing area on the coordinate system to form the sleeping gesture graph. The visual display comprises setting the pressure sensing area to be displayed with color or displaying the pressure sensing area with the outline of the pressure sensing area. Further, according to the difference of the pressure sensing area, the pressure sensing area or the outer contour of the pressure sensing area displays colors with different RGB values. Referring to fig. 1, in this embodiment, a scheme of filling the pressure sensing area with different colors according to the pressure of the pressure sensing area is adopted. For example, the darker the corresponding color on the visual graphic, the greater the pressure value, e.g., the pressure value display is divided into 0-10 mmhg for blue, 10-15 mmhg for lake green, 15-30 mmhg for green, 30-35 mmhg for yellow, 30-40 mmhg for orange, and 40-50 mmhg for red.

In the above method, the time nodes specifically include:

s1, when the fact that a user is ready to go to bed on the mattress body is monitored, recording time nodes and the pressure of each pressure sensing area corresponding to the time;

s2, judging whether the user generates body movement change in a first set time, if so, recording time nodes and the pressure of each pressure sensing area corresponding to the time;

if not, after the first set time is reached, recording a time node and the pressure of each pressure sensing area corresponding to the time.

Thus, the time node can be recorded after the user generates body movement, or the time node can be recorded at intervals when the user does not generate body movement. The method can ensure that the corresponding sleeping posture graph can be generated when the user generates body movement, and also ensure that the user generates a sleeping posture graph for a period of time when the user does not generate body movement, and ensure the rationality of the data recording frequency.

Since the body movement of the user is always continuous, the time node of the body movement should be after the body movement of the user is finished, so the step S2 can be further expressed as: judging whether the user generates body movement change in the first set time, if so, recording a time node through the second time, and recording the pressure of each pressure sensing area corresponding to the time; the second time is the time from dynamic to static for the person.

In addition to body movement, the user can easily get up at night in the sleeping process, so the method of the embodiment further comprises a step S3 of judging whether the user gets out of the bed:

s3: if the fact that the user sleeps on the mattress body is monitored, judging that the user does not leave the bed, and returning to the step S2; if the user is not sleeping on the mattress body, judging that the user leaves the bed, starting to calculate the leaving time, if the leaving time is greater than or equal to the third set time, calculating the user in-bed time, and if the leaving time is less than the third set time, returning to the step S1. And if the in-bed time is greater than the fourth set time, storing the pressure of each time node and each corresponding pressure sensing area. The user can be considered to have finished sleeping after the bed leaving time is equal to or longer than the third set time, and the user is calculated to distinguish whether the user is resting or actually has performed a complete sleep. If only a rest is needed, the pressure of each time node is not needed to be saved, and the rest time is short, the data volume is small, and the meaning of generating the sleeping gesture animation is not great.

In this embodiment, in order to monitor that the mattress body is ready for sleeping by a user, the following method is specifically adopted:

s11, receiving a pressure value on the pressure sensing pad, judging whether the pressure value is larger than a set pressure value, and if not, judging that the user is not at bedtime; if yes, go to step S12;

s12, judging whether heart rate breathing data monitored by the sleep monitoring belt are received, if yes, judging that the user is at bedtime, and if no, judging that the user is at bedtime; the sleep monitoring belt is arranged on the mattress body.

The method for forming the sleeping gesture animation, wherein the time axis setting specifically comprises the following steps: the number of the line segments divided by the time axis is the same as the number of the time nodes, and the time axis is divided into a plurality of equal-divided line segments.

Referring to fig. 2-4, the present embodiment provides a mattress exhibiting a sleeping posture animation, comprising: the mattress comprises a mattress body for realizing a supporting function, a sleep monitoring belt 1 and a pressure sensing pad 2;

the mattress body comprises an outer sleeve, a comfortable layer 4, an air bag layer 5 and a bottom layer sponge 6 which are sequentially arranged from top to bottom, wherein the comfortable layer 4 is used for forming an interlayer between a human body and the air bag layer 5, so that the air bag is prevented from directly contacting the human body to form uncomfortable feeling; the pressure sensing mat 2 and the sleep monitoring belt 1 are arranged between the outer cover and the comfort layer 4.

The pressure sensing pad 2 is used for monitoring the pressure distribution condition of the upper surface of the mattress body, and the sleep monitoring belt 1 is used for monitoring the heart rate and the respiration of a user on the upper surface of the mattress body; as a simple alternative it is also possible to monitor only one of heart rate and respiration.

The output ends of the sleep monitoring belt 1 and the pressure sensing pad 2 are connected to a controller 3. When the controller 3 receives the output signals of the sleep monitoring belt 1 and the pressure sensing pad 2 at the same time, the controller starts the sleep animation record: acquiring the pressure of each pressure sensing area on the pressure sensing pad at each time node; forming sleeping gesture patterns of all the time nodes according to the pressure, wherein the pressure sensing pad is arranged on the mattress body; continuously playing the sleeping gesture graphics corresponding to each time node under the set time axis to form sleeping gesture animation.

The simultaneous output of the sleep monitor belt 1 and the pressure sensing mat 2 is required because a weight may be placed on the mattress at some time, and the pressure sensing mat 2 may output a signal at this time, but the sleep monitor belt 1 does not output a signal. The simultaneous output of the sleep monitoring belt 1 and the pressure sensing mat 2 can be well distinguished, thereby avoiding erroneous operation.

Therefore, the mattress can collect the pressure values of different positions on the pressure sensing mat 2 at different moments after the user falls asleep. And different colors are given to the pressure values with different magnitudes, so that the visualized graphs at different moments are obtained. And then, after the visual graphics at each moment are played in time sequence, the user can intuitively see the sleeping positions of the user at each sleeping stage, so that the user experience is improved.

Referring to fig. 5 to 7, the mattress in this embodiment has the function of recording the sleeping animation, and also has the function of adaptively adjusting the hardness of the mattress, specifically, the mattress is matched with the air bag layer 5 and the pressure sensing pad 2. The sleeping position of the current user is judged through the pressure values of the different areas obtained by the pressure sensing pad 2, so that the current sleeping position can be matched with the sleeping position of the current user through inflating and deflating the air bags of the different areas in the air bag layer 5, and the optimal support is provided for the user.

For this purpose, the airbag layer 5 is divided into left and right groups of airbags in the width direction, each group of airbags being further divided into one airbag each for the back, waist, buttocks and legs. The air pump box is integrated with 2 miniature inflation and deflation pumps 7, 2 electromagnetic valve groups, an air pressure sensor 8, a high-pressure air pump 9, a high-pressure air tank 10, a silencing device 11 and a control circuit board. Therefore, one group of air bags can use one inflation and deflation pump and the electromagnetic valve group, so that two groups of air bags are mutually independent and can be inflated and deflated respectively. The electromagnetic valve group can enable the inflation and deflation routes of the air bags in each group of air bags to be independent, so that one or more air bags in one group of air bags can be inflated and deflated independently.

In addition to adjusting the inflation and deflation degrees of the air bags according to sleeping positions, the embodiment can also adjust the softness and hardness degrees of the mattress according to different users. Typically each air cell on the mattress is inflated to a default value. When a person lies on the bed, the pressure sensing pad 2 monitors pressure change, the air pressure value of the air bags can also change, comprehensive comparison analysis is carried out by combining the pressure change monitored by the pressure sensing pad 2 and the air pressure value change of each air bag, the body type of the person is obtained, and the hardness suitable for the user of the body type is obtained according to the data comparison stored in the person, so that each air bag can be automatically adjusted to the corresponding hardness. The hardness is divided into three modes of soft, medium and hard, and each mode has corresponding inflation amount.

In the embodiment, the left and right groups of air bags are respectively and simultaneously butted on the miniature inflation and deflation pump 7, the high-pressure air pump 9 and the high-pressure air tank 10. The air bag is directly regulated by the miniature inflation and deflation pump 7 under normal condition. The high-pressure air pump 9 is directly communicated with the high-pressure air tank 10, only the high-pressure air tank 10 is inflated, the high-pressure air tank 10 is connected with the electromagnetic valve 12, the air release valve port of the electromagnetic valve 12 is connected with the pressure release valve 13, and when the air pressure in the high-pressure air tank 10 is higher than 1MPa, the pressure release valve 13 can be automatically opened, so that the air pressure in the high-pressure air tank 10 is ensured not to be excessively high. When the air bag needs to be quickly adjusted, the electromagnetic valve 12 is opened, and the air in the high-pressure air tank 10 can be quickly filled into the air bag through high pressure. To reduce noise, a muffler 11 is connected between the solenoid valve 12 and the high-pressure gas tank 10 for reducing the sound during the deflation. When the air needs to be quickly discharged, the air discharge valve 14 is opened to realize automatic air discharge, the micro air charging and discharging pump 7 also works simultaneously to pump out the air in the air bag, and the air discharge speed is improved. All the air discharge ports are connected with a silencing air tap 15.

The above-described muffler 11 reduces the flow rate of the gas by increasing the flow path of the gas in the muffler chamber, so that the noise at the time of deflation can be reduced. Specifically, the silencer 11 is composed of a housing 111 and a connector 112, and a rigid air pipe 113 is disposed on the housing 111 and the connector 112. The housing 111 and the connector 112 are assembled by screw-coupling or the like to form a sound deadening chamber 114. The silencing cavity 114 may be further filled with a silencing material such as sponge to increase silencing effect. The muffler 11 can realize series connection of a plurality of muffler chambers 114 by increasing the number of the housings 111 and the connectors 112. In this embodiment, two silencing cavities 114 are taken as an example, when the air is inflated, the air in the high-pressure air tank 10 enters the bottom of the first silencing cavity from the first air tap 115, and because the opening of the hard air pipe 113 on the connector 112 is arranged at the top, the air will fill the first silencing cavity and then enter the second silencing cavity through the hard air pipe 113, so as to realize primary noise reduction. Similarly, when the second silencing cavity is filled, the gas flows out from the second air nozzle 116, so that the second-stage noise reduction is realized. When the cavities are increased, the noise reduction effect is more obvious.

Finally, even after the above-mentioned setting, noise is inevitably generated when the mattress is subjected to hardness adjustment, in order to reduce the disturbance of noise to the user, the mattress of this embodiment may further be used to monitor the sleep stage where the user is located through the sleep monitoring belt 1, and the air bag layer 5 adjusts the inflation and deflation frequency of the air bag in the air bag layer 5 according to the sleep stage where the user is located: the inflation and deflation frequency of the air bag is larger than that of the air bag when the user is in light sleep when the user is not asleep, so that the noise of inflation and deflation can be reduced, and the influence on the user is avoided; when the user is in deep sleep, the air bag stops inflating and deflating, so that the user can be in deep sleep for a long time and is not disturbed.

The foregoing is only a preferred embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any person skilled in the art will be able to make insubstantial modifications of the present invention within the scope of the present invention disclosed herein by this concept, which falls within the actions of invading the protection scope of the present invention.

Claims (16)

1. A method of forming a sleep position animation comprising:

acquiring the pressure of each pressure sensing area on the pressure sensing pad at each time node; forming sleeping gesture patterns of all the time nodes according to the pressure, wherein the pressure sensing pad is arranged on the mattress body;

continuously playing the sleeping gesture graphics corresponding to each time node under the set time axis to form sleeping gesture animation.

2. The method for forming the sleeping gesture animation according to claim 1, wherein the sleeping gesture graph of each time node is formed according to the pressure, specifically:

establishing a coordinate system, wherein the coordinate system is used for representing the positions of the pressure sensing areas on the pressure sensing pad;

judging whether the pressure of each pressure sensing area is larger than a pressure threshold value, and if so, recording the position of the pressure sensing area;

and visually displaying the recorded pressure sensing area on the coordinate system to form the sleeping gesture graph.

3. The method of claim 2, wherein the visually displaying comprises displaying the pressure sensitive area in a set color or in an outer contour of the pressure sensitive area.

4. A method of animating a sleeping gesture as claimed in claim 3 wherein colors having different RGB values are displayed according to the pressure of the pressure sensing area.

5. The method for forming the sleeping gesture animation according to claim 1, wherein each time node is specifically:

s1, when the fact that a user is ready to go to bed on the mattress body is monitored, recording time nodes and the pressure of each pressure sensing area corresponding to the time;

s2, judging whether the user generates body movement change in a first set time, if so, recording time nodes and the pressure of each pressure sensing area corresponding to the time;

if not, after the first set time is reached, recording a time node and the pressure of each pressure sensing area corresponding to the time.

6. The method for forming a sleep-like animation as claimed in claim 5, characterized in that, step S2 is: judging whether the user generates body movement change in the first set time, if so, recording a time node through the second time, and recording the pressure of each pressure sensing area corresponding to the time; the second time is the time from dynamic to static for the person.

7. The method of claim 5 or 6, further comprising the step of determining whether the user gets out of bed or not S3:

s3: if the fact that the user sleeps on the mattress body is monitored, judging that the user does not leave the bed, and returning to the step S2; if the user is not sleeping on the mattress body, judging that the user leaves the bed, starting to calculate the leaving time, if the leaving time is greater than or equal to the third set time, calculating the user in-bed time, and if the leaving time is less than the third set time, returning to the step S1.

8. The method of claim 7, wherein if the in-bed time is greater than a fourth set time, storing the pressure levels of the respective time nodes and the respective pressure sensitive zones.

9. The method of claim 5, wherein monitoring that the mattress body has a user ready to go to bed, in particular:

s11, receiving a pressure value on the pressure sensing pad, judging whether the pressure value is larger than a set pressure value, and if not, judging that the user is not at bedtime; if yes, go to step S12;

s12, judging whether heart rate breathing data monitored by the sleep monitoring belt are received, if yes, judging that the user is at bedtime, and if no, judging that the user is at bedtime; the sleep monitoring belt is arranged on the mattress body.

10. The method of forming a sleep position animation according to claim 1, wherein the time axis arrangement is specifically: the number of line segments divided by the time axis is the same as the number of the time nodes.

11. The method of claim 10, wherein the timeline is divided into a plurality of equally divided line segments.

12. The intelligent mattress is characterized by comprising a mattress body, a sleep monitoring belt, a pressure sensing pad and a control box, wherein the sleep monitoring belt and the pressure sensing pad are arranged on the mattress body, the control box is respectively connected with the sleep monitoring belt and the pressure sensing pad, and the control box comprises the method for forming the sleeping gesture animation according to any one of claims 1-11.

13. The intelligent mattress of claim 12, further comprising an intelligent terminal, wherein the control box communicates the sleep position animation to the intelligent terminal for display.

14. The mattress according to claim 12 or 13, wherein the mattress body comprises an outer cover, a comfort layer, an air bag layer and a bottom layer sponge which are arranged in sequence from top to bottom, the comfort layer being used for forming an interlayer between the human body and the air bag layer; the pressure sensing pad and the sleep monitoring belt are disposed between the outer cover and the comfort layer.

15. The intelligent mattress of claim 12 or 13, wherein: the sleep monitoring belt is also used for monitoring the sleep stage of the user, and the air bag layer adjusts the inflation and deflation frequency of the air bag in the air bag layer according to the sleep stage of the user: the inflation and deflation frequency of the air bag when the user does not fall asleep is larger than that of the air bag when the user falls asleep; when the user is in deep sleep, the air bag stops inflating and deflating.

16. The utility model provides an intelligent mattress which characterized in that, includes mattress body, sleep monitoring area, pressure sensing pad and intelligent terminal, be equipped with on the mattress body sleep monitoring area and pressure sensing pad, intelligent terminal receives respectively sleep monitoring area with the signal of pressure sensing pad, intelligent terminal includes the method of any one of claims 1-11 formation appearance animation.

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