CN111735179A - Control method of intelligent home system and intelligent home system - Google Patents

Abstract

The invention discloses a control method of an intelligent home system and the intelligent home system, wherein the control method comprises the following steps: acquiring a temperature value of the surface of the mattress; comparing the temperature value of the surface of the mattress with a preset standard temperature value, and generating a temperature control signal according to the comparison result; and controlling the air conditioner to adjust the temperature based on the temperature signal. The intelligent household system comprises a mattress, an air conditioner and a remote control unit; the mattress includes: the temperature detection unit is used for acquiring a temperature value of the surface of the mattress; the main control unit is electrically connected with the temperature detection unit and is used for comparing the temperature value of the surface of the mattress with a preset standard temperature value and generating a temperature control signal according to the comparison result; and the remote control unit is in communication connection with the main control unit and the air conditioner and is used for controlling the air conditioner to regulate the temperature based on the temperature signal. The invention collects the surface temperature value of the mattress and controls the air conditioner to regulate the temperature by taking the surface temperature value as the reference, so that the indoor temperature is matched with the current state of the human body, thereby effectively improving the sleep state and being more beneficial to the health of the human body.

Description

Control method of intelligent home system and intelligent home system

Technical Field

The invention relates to the technical field of intelligent home, in particular to a control method of an intelligent home system and the intelligent home system.

Background

As society develops, people's work and life are becoming more and more rhythmic, and the pressure to face is increasing with the day, so that during the precious rest period of each day, many people want to be keen by high quality sleep quality to face the next day's challenge.

Because the metabolism of the human body is greatly reduced in the sleeping state, the immunity of the human body is reduced, and if the indoor temperature is not suitable, adverse reactions such as hypodynamia, headache and even diarrhea can possibly occur to the human body, and the sleeping quality and the health of the human body are influenced. Although most of air conditioners in the prior art have a sleep mode, the sleep mode of the air conditioner generally controls temperature by taking time as a reference, and temperature adjustment is mechanical, so that the sleep quality of a person cannot be effectively improved; in addition, if the temperature of the air conditioner is adjusted to be different from the temperature which is adapted to the human body condition, the adjustment may be adverse, and the human body health is not facilitated.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a control method of an intelligent home system and the intelligent home system, and solves the problems that the sleep quality of a person is poor and the health of the person is even affected due to the fact that the room temperature is not suitable in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a control method of an intelligent home system comprises the following steps:

acquiring a temperature value of the surface of the mattress;

comparing the mattress surface temperature value with a preset standard temperature value, and generating a temperature control signal according to a comparison result;

and controlling the air conditioner to regulate the temperature based on the temperature signal.

Optionally, the acquiring a temperature value of a surface of the mattress includes:

detecting the temperature value of the surface of the mattress in the unit induction area, and taking the maximum temperature value as the final temperature value of the surface of the mattress;

the mattress surface temperature value is compared with a preset standard temperature value, and a temperature control signal is generated according to the comparison result, and the method comprises the following steps:

when the temperature value of the surface of the mattress is higher than the standard temperature value, generating a temperature lowering signal;

and when the temperature value of the surface of the mattress is lower than the standard temperature value, generating a temperature increasing signal.

Optionally, the controlling the air conditioner to adjust the temperature based on the temperature signal includes:

controlling an air conditioner to cool down based on the temperature lowering signal;

and controlling the air conditioner to heat up based on the temperature rising signal.

Optionally, when the temperature value of the mattress surface is higher than the standard temperature value, the method further includes:

comparing the mattress surface temperature value with a preset early warning temperature value;

and when the temperature value of the surface of the mattress is higher than the early warning temperature value, generating an alarm signal.

Optionally, the control method of the smart home system further includes:

acquiring body characteristic signals of the surface of the mattress, and processing the body characteristic signals to form body characteristic parameter values; the physical characteristic parameter values comprise heart rate information, breathing information, body movement information and snoring information;

and generating a sleep report based on the body characteristic parameter values and sending the sleep report to a client.

Optionally, the control method of the smart home system further includes: judging whether the mattress surface temperature value and/or the body characteristic signal meet the bed leaving condition;

if so, generating a closing signal and controlling the air conditioner to be closed.

Optionally, the control method of the smart home system further includes:

judging whether the change value of the body characteristic parameter value meets the condition of falling asleep within a preset time interval; if so, setting a preset standard value of the falling-asleep temperature as the standard temperature value; if not, setting the preset waking temperature standard value as the standard temperature value.

The invention also provides an intelligent home system, which comprises a mattress, an air conditioner and a remote control unit;

the mattress comprises:

the temperature detection unit is used for acquiring a temperature value of the surface of the mattress;

the main control unit is electrically connected with the temperature detection unit and is used for comparing the temperature value of the surface of the mattress with a preset standard temperature value and generating a temperature control signal according to a comparison result;

and the remote control unit is in communication connection with the main control unit and the air conditioner and is used for controlling the air conditioner to regulate the temperature based on the temperature signal.

Optionally, the temperature detecting unit includes:

a plurality of temperature film sensors implanted in the lower surface of the mattress fabric;

the temperature control board is electrically connected with each temperature film sensor;

the temperature film sensor is used for detecting the temperature value of the surface of the mattress in the unit sensing area, and the temperature control board is used for taking the maximum temperature value as the final temperature value of the surface of the mattress;

the plurality of temperature film sensors are arranged on the mattress in a matrix form to form a temperature sensing area.

Optionally, the multifunctional mattress further comprises a sign signal acquisition unit electrically connected with the main control unit, wherein the sign signal acquisition unit is used for acquiring body characteristic signals of the surface of the mattress, and the body characteristic signals comprise sound signals and pressure change values of the surface of the mattress;

the main control unit is used for:

processing the body characteristic signals to generate heart rate information, breathing information, body movement information and snoring information, generating a sleep report and sending the sleep report to a client;

judging whether the mattress surface temperature value and/or the body characteristic signal meet starting conditions or not; if so, generating a starting signal; if not, generating a closing signal;

judging whether the change value of the body characteristic parameter value meets the condition of falling asleep within a preset time interval; if so, setting a preset standard value of the falling-asleep temperature as the standard temperature value; if not, setting a preset waking temperature standard value as the standard temperature value;

the remote control unit is used for controlling the air conditioner to be started according to the starting signal or controlling the air conditioner to be closed according to the closing signal;

wherein, the sign signal acquisition unit includes: a pressure sensing subunit for identifying the pressure change value, including a piezoelectric sensor disposed within the mattress; and a sound identification subunit for collecting the sound signal, including a microphone.

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

the invention provides a control method of an intelligent home system and the intelligent home system, which are characterized in that the surface temperature value of a mattress is collected, and an air conditioner is controlled by taking the surface temperature value as a reference to regulate the temperature, so that the indoor temperature is matched with the current state of a human body, the sleep state is effectively improved, and the intelligent home system is more beneficial to the health of the human body.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a flowchart of a control method of an intelligent home system according to the present invention;

fig. 2 is another flowchart of a control method of an intelligent home system according to the present invention;

fig. 3 is a block diagram of a smart home system according to the present invention;

fig. 4 is a schematic structural diagram of an intelligent home system provided by the invention.

In the above figures: 10. a main control unit; 20. a temperature detection unit; 21. a thin film temperature sensor; 22. a temperature control panel; 30. a remote control unit; 40. an air conditioner; 50. a sign signal acquisition unit; 51. a pressure sensing subunit; 52. a sound identification subunit; 60. a client; 70. a mattress; 71. and (4) isolating the groove.

Detailed Description

In order to make the objects, features and advantages of the present invention more obvious and understandable, 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, and it is apparent that the embodiments described below are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present.

Furthermore, the terms "long", "short", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of describing the present invention, but do not indicate or imply that the referred devices or elements must have the specific orientations, be configured to operate in the specific orientations, and thus are not to be construed as limitations of the present invention.

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Example one

Referring to fig. 1 and fig. 2 in combination, this embodiment provides a control method for an intelligent home system to implement a temperature adjustment function implemented by an air conditioner. The control method provided by the embodiment is realized through the mattress, and the execution premise can be that the control method is started by the user, or the control method can be started automatically when the user is detected to lie on the bed or the air conditioner is started. Specifically, the control method of the intelligent home system comprises the following steps:

s101, obtaining a temperature value of the surface of the mattress.

In the step, the temperature value of the surface of the mattress can be obtained in real time, and the temperature value of the surface of the mattress can also be obtained at preset time intervals.

In the embodiment, the temperature detection unit is arranged in the mattress to realize the acquisition of the surface temperature value of the mattress; specifically, the temperature detection unit includes a plurality of thin film temperature sensors. In order to improve the accuracy of the acquired data, the film temperature sensors can be uniformly distributed on the mattress, so as to acquire the temperature value of the surface of the mattress in the unit sensing area and take the maximum temperature value as the final temperature value of the surface of the mattress.

S102, comparing the temperature value of the surface of the mattress with a preset standard temperature value, generating a temperature control signal according to the comparison result, and controlling the air conditioner to regulate the temperature based on the temperature signal.

In the step, when the temperature value of the surface of the mattress is higher than the standard temperature value, a temperature lowering signal is generated; when the temperature value of the surface of the mattress is lower than the standard temperature value, generating a temperature increasing signal; and controlling the air conditioner to perform corresponding operation according to the temperature lowering signal and the temperature raising signal so as to enable the room temperature to be adjusted to a temperature range matched with the human body.

Further, controlling the air conditioner to cool down based on the temperature lowering signal; and controlling the air conditioner to heat up based on the temperature rising signal.

It will be appreciated that the standard temperature values include a falling asleep temperature standard and an awake temperature standard for adjusting the standard temperature value for use as a basis for regulating temperature depending on whether the person in bed is currently awake or asleep. Because the temperature of the human body is different between the waking state and the sleeping state, the design can adjust the room temperature according to whether the human body falls asleep or not. In addition, the standard temperature value can be set to different standard temperature values respectively for four seasons, namely spring, summer, autumn and winter, so that the temperature adjustment of the air conditioner is more humanized.

S103, comparing the mattress surface temperature value with a preset early warning temperature value, and generating an alarm signal when the mattress surface temperature value is higher than the early warning temperature value.

The present embodiment can also implement body temperature monitoring, for example, when the surface temperature of the mattress reaches 38 degrees celsius, it indicates that the person on the mattress may be in a state of over-high body temperature at this time, so that the alarm signal is generated while the air conditioner is controlled to adjust the temperature in step S102. The alarm signal can be sent to the client in a wireless communication mode to generate an alarm prompt on the client, so that the user is reminded to seek medical advice in time, and further serious illness is avoided. The early warning function is particularly suitable for the old or the children needing to be cared for.

Specifically, light prompt, warning sound prompt, vibration prompt or the like can be performed through the client, and no limitation is made herein.

Further, the control method of the smart home system provided by this embodiment further includes the following steps:

s201, collecting body characteristic signals on the surface of the mattress, and processing the body characteristic signals to form body characteristic parameter values.

Wherein the physical characteristic parameter values include heart rate information, respiration information, body movement information and snoring information.

When a person lies on the bed, the pressure is generated on the mattress due to the expansion and contraction of the lung and the change of the physical movement caused by the heartbeat and the respiration, so that the pressure change value is generated, and the heart rate data, the respiration data, the physical movement data and the snoring data can be obtained by detecting the pressure change values of different areas on the mattress. Specifically, heart rate information, breathing information and body movement information are obtained through heart rate data, breathing data, body movement data and snoring data; the snoring information can be obtained by detecting sound signals in combination with the microphone and the snoring data.

And S202, generating a sleep report based on the body characteristic parameter values and sending the sleep report to the client.

It is understood that the sleep report may be generated by entering values of physical characteristic parameters in a preset report template. Furthermore, the sleep report can be uploaded to the cloud for storage before being sent to the client, so that the historical sleep report can be traced conveniently.

S203, judging whether the surface temperature value and/or the body characteristic signal of the mattress meet the bed leaving condition; if so, generating a closing signal and controlling the air conditioner to be closed.

In the step, when the surface temperature value and/or the body characteristic signal of the mattress meet the bed leaving condition, the user leaves the mattress, and the air conditioner can be controlled to be closed by generating a closing signal, so that the aim of saving electric quantity is fulfilled.

It can be understood that, when the mattress surface temperature value and the body characteristic signal are simultaneously used for judging the out-of-bed state, the accuracy is higher, specifically as follows:

respectively presetting a threshold value lower than the bed leaving threshold value according to the surface temperature value and the body characteristic signal of the mattress; when the body characteristic signal is lower than the bed leaving threshold value, the pressure change on the surface of the mattress can not be sensed; meanwhile, the surface temperature value of the mattress is the indoor temperature which is usually lower than the normal body temperature of a human body, so that the temperature value is also lower than the bed leaving threshold value; and when the surface temperature value of the mattress and the body characteristic signal simultaneously meet the condition that the temperature value and the body characteristic signal are lower than the preset bed leaving threshold value, namely the bed leaving condition is met, the person is judged to leave the mattress.

It will be appreciated that this step may also enable an automatic start of the control method, i.e. when the mattress surface temperature value and/or the body characteristic signal is higher than a preset out-of-bed threshold value, i.e. step S101 is performed.

In addition, the step can also be used for realizing the automatic starting of the air conditioner, namely when the surface temperature value and/or the body characteristic signal of the mattress are higher than the preset bed leaving threshold value, the person is judged to be in the bed, at the moment, the air conditioner can be controlled to be started, and the temperature control operation of the step S101 and the subsequent step is executed.

S204, judging whether the change value of the body characteristic parameter value meets the condition of falling asleep within a preset time interval; if so, setting a preset standard value of the falling-asleep temperature as the standard temperature value; if not, setting the preset waking temperature standard value as the standard temperature value.

After the person falls asleep, the breathing frequency and the turning frequency both change, a sleep threshold value can be preset according to the change value of the body characteristic parameter value, and whether the human body falls asleep is detected by judging whether the change value of the body characteristic parameter value is lower than the preset sleep threshold value. Because different people's physique is different, and some people's rhythm of the heart is high, and some people's rhythm of the heart is low, consequently introduce the variable quantity of health body characteristic parameter value and can make the judged result more accurate as the basis of judging whether the people falls asleep.

The step is used for identifying whether the user falls asleep or not, and adjusting the standard temperature value in the step S102 according to the falling asleep state of the user.

Specifically, when the body characteristic parameter value is lower than a preset falling asleep threshold value, setting a preset falling asleep temperature standard value as a standard temperature value; otherwise, setting the preset waking temperature standard value as the standard temperature value.

The body temperature of a person falling asleep is lower than that of the person falling asleep, so that the standard falling asleep temperature is lower than the standard waking temperature.

In addition, in combination with step S201, it can also be determined whether the human body is in a deep sleep state or a light sleep state at this time according to changes of the heart rate data, the respiration data, the body movement data, and the snoring data when the human body falls asleep. If the time of falling asleep lasts for one night, sending a sleep report of the previous night to the client on the next day, wherein the sleep report comprises the time of getting on bed, the time of getting off bed, and the surface temperature value and the body characteristic signal of the mattress in each time period; meanwhile, according to the deep sleep time, the light sleep time and the waking time, the quality score of sleep is comprehensively judged, and the feedback of sleep problems is made. In addition, the sleep report can also show the problems of difficult sleep, snoring, mild apnea, abnormal heart rate and the like, and corresponding reference suggestions are extracted from a preset suggestion library aiming at various problems. The reference advice may include, for example, advocated sleep time, exercise advice, diet advice, and the like.

Example two

Referring to fig. 3 and 4 in combination, according to the first embodiment, the present invention further provides an intelligent home system, which includes a mattress 70, an air conditioner 40, and a remote control unit 30.

Specifically, the mattress 70 includes a temperature detection unit 20 and a main control unit 10, and further includes a power adapter electrically connecting the temperature detection unit 20 and the main control unit 10.

And the temperature detection unit 20 is used for acquiring the temperature value of the surface of the mattress 70.

In this embodiment, the temperature detecting unit 20 includes a plurality of temperature film sensors implanted on the lower surface of the mattress 70 fabric; specifically, a thin cloth layer may be placed on the lower surface of the mattress 70 fabric, and the temperature thin film sensors may be embedded on the thin cloth layer at certain intervals, such that a plurality of temperature thin film sensors are arranged in a matrix on the thin cloth layer, and each temperature thin film sensor corresponds to one unit sensing region. It can be understood that the size and model of the temperature film sensor can be selected according to specific requirements such as the size of a mattress, and the areas of unit sensing areas corresponding to different types of temperature film sensors are different and are not limited too much.

Because the thickness of the film temperature sensor 21 is smaller, the film temperature sensor can be arranged on the lower surface of the mattress 70 fabric without influencing the comfort level of the mattress 70, thereby ensuring the accuracy of temperature detection.

The temperature detection unit 20 further includes a temperature control board 22 electrically connected to each temperature film sensor; the temperature film sensor is used for detecting the temperature value of the unit area of the mattress 70, and the temperature control plate 22 is used for taking the maximum temperature value as the final surface temperature value of the mattress 70.

Specifically, each temperature film sensor comprises two pins, wherein one pin is a common end and is used for realizing the connection between the temperature film sensors so as to realize the access of a power supply; the other pin is an output terminal that is connected to the temperature control plate 22. The temperature control board 22 directly controls all the temperature film sensors with a small number of AD ports by means of a switch selection or a data selector.

In addition, the temperature control board 22 includes an MCU (micro control Unit), because the MCU has a fast operating speed, the MCU can collect the voltage signals and the resistance values sensed by the temperature film sensors at one time, obtain the temperature values corresponding to the temperature film sensors by the resistance values, compare the temperature values in pairs in sequence to obtain the maximum temperature value, and use the obtained temperature value as the final surface temperature value of the mattress 70.

In one optional implementation of this embodiment, each temperature film sensor is used for a plurality of temperature film sensors arranged in a matrix to form a temperature sensing area, and the mattress 70 is provided with one temperature sensing area which covers the whole mattress 70.

The main control unit 10 is electrically connected to the temperature detection unit 20, and is configured to compare the surface temperature value of the mattress 70 with a preset standard temperature value, and generate a temperature control signal according to the comparison result.

And the remote control unit 30 is in communication connection with the main control unit 10 and the air conditioner 40 and is used for controlling the air conditioner 40 to adjust the temperature based on the temperature signal. Specifically, the remote control unit 30 includes a wireless communication module and an infrared transmitter; the air conditioner 40 is aligned with the emission port of the infrared emitter to emit a control signal to the air conditioner 40. Wherein the remote control unit 30 may be disposed at a position aimed at the air conditioner 40, such as a ceiling, so as to facilitate control of the air conditioner 40.

The master control signal is connected with the remote control unit 30 in a wireless transmission connection mode, and the temperature control signal is sent to the remote control unit 30; after receiving the temperature control signal, the remote control unit 30 modulates the temperature control signal to obtain a modulated signal, and transmits the modulated signal to the air conditioner 40 through the infrared transmitter.

In this embodiment, the air conditioner 40 is a conventional cabinet or wall-mounted air conditioner, and is capable of receiving infrared control signals, and has a cooling and/or heating function. After receiving the modulation signal, the air conditioner 40 processes the modulation signal in an infrared decoding manner, and controls the valve and the compressor to perform corresponding operations, such as increasing the cooling output/heating output, and the like, thereby achieving temperature rise or temperature reduction at room temperature.

The physical sign signal acquisition unit 50 is electrically connected with the main control unit 10 and is used for acquiring the physical characteristic signals on the surface of the mattress 70 and sending the physical characteristic signals to the main control unit 10; the body characteristic signal includes a sound signal and a pressure variation value of the surface of the mattress 70.

The sign signal collecting unit 50 includes a pressure sensing subunit 51 for identifying a pressure change value, and includes a piezoelectric sensor disposed in the mattress 70, and the piezoelectric sensor is disposed in a comfort layer of the mattress 70.

When a person lies on the mattress 70, a pressure change value is formed on the mattress 70 due to the heart beat, the contraction and expansion caused by the lung respiration, the turning motion or snoring, and after the piezoelectric sensor identifies the pressure change value, the physical signal is converted into an electric signal, so that a body characteristic signal is formed.

Specifically, the pressure change may be recognized by the piezoelectric sensors on the mattress 70 corresponding to different parts of the human body to respectively recognize the conditions of heartbeat, lung respiration, turning over, and snoring, and generate pressure change values including heart rate data, respiration data, body movement data, and snoring data. The vital signs signal acquisition unit 50 further comprises a sound identification subunit 52, including a microphone, for acquiring sound signals. The sound of snoring has a certain frequency, and whether the sound signal is located in the frequency interval corresponding to the sound of snoring is judged by identifying the frequency of the sound signal, so that whether the human body snores is judged.

Preferably, in this embodiment, the piezoelectric sensor is placed at a position corresponding to the heart of the human body, and only one piezoelectric sensor is needed to be arranged to recognize pressure changes caused by the beating of the heart, the breathing of the lung, the turning over and the snoring of the human body, so that the cost is reduced while the recognition effect is ensured.

Based on this, the main control unit 10 processes the heart rate data, the respiration data and the body movement data to generate heart rate information, respiration information and body movement information, generates snoring information by combining the snoring data and the sound signal, and generates a sleep report according to the heart rate information, the respiration information, the body movement information and the snoring information and sends the sleep report to the client 60.

The snore information is generated by combining the sound signal and the snore data, namely, when the pressure change value and the sound signal simultaneously meet the snore condition, the snore information which means that the person snores is generated, so that the accuracy of the sleep report is improved.

In order to further improve the accuracy of the sleep report, the main control unit 10 may further include a filtering processor for amplifying and filtering the sound signal to obtain a non-interference sound signal, so as to improve the accuracy of the judgment on the snoring.

In this embodiment, the piezoelectric sensor may be configured for single-sided or double-sided detection; in the single-side detection, the piezoelectric sensor is arranged in only one half area of the mattress 70; during bilateral detection, the mattress is divided into two piezoelectric induction areas, and the two piezoelectric induction areas are symmetrical about the central axis of the mattress. In order to make the detection of the piezoelectric sensors more reliable, an isolation groove 71 may be formed between the two piezoelectric sensing areas on the comfort area of the mattress 70 to isolate the piezoelectric sensors in the two piezoelectric sensing areas.

Based on the above embodiment, the surface temperature value and the body characteristic signal of the mattress 70 can also be used as a judgment basis for whether the person gets out of the bed; by determining whether the temperature value and/or the physical characteristic signal of the surface of the mattress 70 exceeds a preset activation threshold. If yes, the person is in the bed, and a starting signal can be generated at the moment; if not, the person is not in the bed, and a closing signal can be generated at the moment; the remote control unit 30 controls the air conditioner 40 to be started according to the start signal or controls the air conditioner 40 to be shut down according to the shut-down signal.

The purpose of saving electric quantity can be achieved by detecting whether a person is on the bed to control the starting and stopping of the air conditioner 40.

In addition, in this embodiment, since the breathing frequency and the turning-over frequency both change after the person falls asleep, whether the characteristic parameter value of the body is lower than a preset threshold value for falling asleep can be determined to detect whether the person falls asleep.

When the fact that the person falls asleep is detected, setting a preset standard value of the falling asleep temperature as a standard temperature value; and when the fact that the person does not fall asleep is detected, setting the preset waking temperature standard value as a standard temperature value. The body temperature of the person falling asleep is lower than that of the person falling asleep, so that the standard falling asleep temperature value is lower than the standard temperature value.

Based on the above embodiment, the present invention has the following advantages:

1. the air conditioner can be controlled to carry out corresponding temperature regulation according to the body temperature condition, the seasonal condition and the sleeping state, so that a comfortable sleeping atmosphere is created;

2. the alarm function can be carried out when the body temperature is too high, and a user is reminded to take corresponding measures in time;

3. the method can detect the heart rate, the breathing rate, the body temperature, the body movement and the snoring condition of a user in the sleeping process, divide the sleeping stages according to the change of the parameters, evaluate the sleeping quality, and simultaneously generate corresponding pertinence improvement suggestions aiming at different problems.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A control method of an intelligent home system is characterized by comprising the following steps:

acquiring a temperature value of the surface of the mattress;

comparing the mattress surface temperature value with a preset standard temperature value, and generating a temperature control signal according to a comparison result;

and controlling the air conditioner to regulate the temperature based on the temperature signal.

2. The control method of the smart home system according to claim 1, wherein the obtaining of the temperature value of the surface of the mattress comprises:

detecting the temperature value of the mattress in unit area, and taking the maximum temperature value as the final mattress surface temperature value;

the mattress surface temperature value is compared with a preset standard temperature value, and a temperature control signal is generated according to the comparison result, and the method comprises the following steps:

when the temperature value of the surface of the mattress is higher than the standard temperature value, generating a temperature lowering signal;

and when the temperature value of the surface of the mattress is lower than the standard temperature value, generating a temperature increasing signal.

3. The control method of the smart home system according to claim 2, wherein the controlling the air conditioner to adjust the temperature based on the temperature signal comprises:

controlling an air conditioner to cool down based on the temperature lowering signal;

and controlling the air conditioner to heat up based on the temperature rising signal.

4. The control method of the smart home system according to claim 2, wherein when the temperature value of the mattress surface is higher than the standard temperature value, the method further comprises:

comparing the mattress surface temperature value with a preset early warning temperature value;

and when the temperature value of the surface of the mattress is higher than the early warning temperature value, generating an alarm signal.

5. The control method of the smart home system according to claim 2, further comprising:

acquiring body characteristic signals of the surface of the mattress, and processing the body characteristic signals to form body characteristic parameter values; the physical characteristic parameter values comprise heart rate information, breathing information, body movement information and snoring information;

and generating a sleep report based on the body characteristic parameter values and sending the sleep report to a client.

6. The control method of the smart home system according to claim 5, further comprising: judging whether the mattress surface temperature value and/or the body characteristic signal meet the bed leaving condition;

if so, generating a closing signal and controlling the air conditioner to be closed.

7. The control method of the smart home system according to claim 5, further comprising:

judging whether the change value of the body characteristic parameter value meets the condition of falling asleep within a preset time interval; if so, setting a preset standard value of the falling-asleep temperature as the standard temperature value; if not, setting the preset waking temperature standard value as the standard temperature value.

8. An intelligent home system is characterized by comprising a mattress, an air conditioner and a remote control unit;

the mattress comprises:

the temperature detection unit is used for acquiring a temperature value of the surface of the mattress;

the main control unit is electrically connected with the temperature detection unit and is used for comparing the temperature value of the surface of the mattress with a preset standard temperature value and generating a temperature control signal according to a comparison result;

and the remote control unit is in communication connection with the main control unit and the air conditioner and is used for controlling the air conditioner to regulate the temperature based on the temperature signal.

9. The smart home system of claim 8, wherein the temperature detection unit comprises:

a plurality of temperature film sensors implanted in the lower surface of the mattress fabric;

the temperature control board is electrically connected with each temperature film sensor;

the temperature film sensor is used for detecting the temperature value of the surface of the mattress in the unit sensing area, and the temperature control board is used for taking the maximum temperature value as the final temperature value of the surface of the mattress;

the plurality of temperature film sensors are arranged on the mattress in a matrix.

10. The smart home system according to claim 8, further comprising a sign signal acquisition unit electrically connected to the main control unit, wherein the sign signal acquisition unit is configured to acquire a body characteristic signal on a surface of a mattress, and the body characteristic signal includes a sound signal and a pressure change value on the surface of the mattress;

the main control unit is used for:

processing the body characteristic signals to generate heart rate information, breathing information, body movement information and snoring information, generating a sleep report and sending the sleep report to a client;

judging whether the temperature value of the surface of the mattress and/or the body characteristic signal exceed a preset starting threshold value or not; if so, generating a starting signal; if not, generating a closing signal;

judging whether the change value of the body characteristic parameter value meets the condition of falling asleep within a preset time interval; if so, setting a preset standard value of the falling-asleep temperature as the standard temperature value; if not, setting a preset waking temperature standard value as the standard temperature value;

the remote control unit is used for controlling the air conditioner to be started according to the starting signal or controlling the air conditioner to be closed according to the closing signal;

wherein, the sign signal acquisition unit includes: a pressure sensing subunit for identifying the pressure change value, including a piezoelectric sensor disposed within the mattress; and a sound identification subunit for collecting the sound signal, including a microphone.

Images