Disclosure of Invention
The present invention aims to solve at least one of the technical problems existing in the prior art. Therefore, the invention needs to provide an intelligent sleep control method, an intelligent sleep control device and an intelligent home system.
The intelligent sleep control method of the embodiment of the invention is used for controlling household equipment to improve the sleep quality of a human body, and comprises the following steps:
Acquiring light intensity information in a preset range;
acquiring a first control strategy of corresponding household equipment according to the light intensity information, wherein the first control strategy comprises the steps of turning off a main lamp and turning on an auxiliary lamp so as to gradually change light from bright to dark until the light goes out;
generating a corresponding first control instruction according to the first control strategy; a kind of electronic device with high-pressure air-conditioning system
And sending the corresponding first control instruction to the corresponding household equipment to control the working state of each household equipment.
According to the intelligent sleep control method, the working state of the corresponding household equipment is controlled according to the acquired light intensity information, so that a human body is in a proper sleep environment, and the sleep quality of the human body is improved.
In some embodiments, the intelligent sleep control method includes:
acquiring sound intensity information in a preset range;
acquiring a second control strategy of the corresponding household equipment according to the sound intensity information;
generating a corresponding second control instruction according to the second control strategy; a kind of electronic device with high-pressure air-conditioning system
And sending the corresponding second control instruction to the corresponding household equipment to control the working state of each household equipment.
In some embodiments, the intelligent sleep control method includes:
Acquiring temperature information in a preset range;
acquiring a third control strategy of the corresponding household equipment according to the temperature information;
generating a corresponding third control instruction according to the third control strategy; a kind of electronic device with high-pressure air-conditioning system
And sending the corresponding third control instruction to the corresponding household equipment to control the working state of each household equipment.
In some embodiments, the intelligent sleep control method includes:
acquiring sleeping state information of a human body;
acquiring a fourth control strategy of the corresponding household equipment according to the human sleep state information;
generating a corresponding fourth control instruction according to the fourth control strategy; a kind of electronic device with high-pressure air-conditioning system
And sending the corresponding fourth control instruction to the corresponding household equipment to control the working state of each household equipment.
In some embodiments, the intelligent sleep control method includes:
acquiring sleeping body temperature information of a human body;
acquiring a fifth control strategy of the corresponding household equipment according to the human sleep body temperature information;
generating a corresponding fifth control instruction according to the fifth control strategy; a kind of electronic device with high-pressure air-conditioning system
And sending the corresponding fifth control instruction to the corresponding household equipment to control the working state of each household equipment.
In some embodiments, the intelligent sleep control method includes:
Acquiring sleeping state information of a human body;
acquiring sleeping body temperature information of a human body;
acquiring a sixth control strategy of the corresponding household equipment according to the human sleep state information and the human sleep body temperature information;
generating a corresponding sixth control instruction according to the sixth control strategy; a kind of electronic device with high-pressure air-conditioning system
And sending the corresponding sixth control instruction to the corresponding household equipment to control the working state of each household equipment.
In certain embodiments, the step of performing at predetermined time intervals:
acquiring sleeping state information of a human body;
acquiring sleeping body temperature information of a human body;
acquiring a sixth control strategy of the corresponding household equipment according to the human sleep state information and the human sleep body temperature information;
generating a corresponding sixth control instruction according to the sixth control strategy; a kind of electronic device with high-pressure air-conditioning system
And sending the corresponding sixth control instruction to the corresponding household equipment to control the working state of each household equipment.
In some embodiments, the intelligent sleep control method includes the steps of:
acquiring human sleep state information in a preset period to obtain a sleep state-time curve in the preset period, wherein the human sleep state comprises a deep sleep state;
Acquiring human body sleep temperature information in the preset period to obtain a human body temperature-time curve in the preset period;
calculating the body temperature range of the human body in the deep sleep state according to the sleep state-time curve and the human body temperature-time curve;
acquiring current sleeping body temperature information of a human body;
acquiring current human sleep state information;
when the human sleep state information is displayed as the deep sleep state, acquiring a seventh control strategy of the corresponding household equipment according to the body temperature range and the current human sleep body temperature information;
generating a corresponding seventh control instruction according to the seventh control strategy; a kind of electronic device with high-pressure air-conditioning system
And sending the corresponding seventh control instruction to the corresponding household equipment to control the working state of each household equipment.
The intelligent sleep control device of the embodiment of the invention is used for controlling household equipment to improve the sleep quality of a human body, and comprises:
the photosensitive sensor is used for acquiring light intensity information in a preset range;
the first acquisition module is used for acquiring a first control strategy of the corresponding household equipment according to the light intensity information, wherein the first control strategy comprises the steps of turning off a main lamp and turning on an auxiliary lamp so as to gradually change light from on to off;
The first generation module is used for generating a corresponding first control instruction according to the first control strategy; a kind of electronic device with high-pressure air-conditioning system
And the communication module is used for sending the corresponding first control instruction to the corresponding household equipment so as to control the working state of each household equipment.
According to the intelligent sleep control device, the working state of the corresponding household equipment is controlled according to the acquired light intensity information, so that a human body is in a proper sleep environment, and the sleep quality of the human body is improved.
In certain embodiments, the intelligent sleep control apparatus includes:
the sound pickup module is used for acquiring sound intensity information in a preset range;
the second acquisition module is used for acquiring a second control strategy of the corresponding household equipment according to the sound intensity information; a kind of electronic device with high-pressure air-conditioning system
The second generation module is used for generating a corresponding second control instruction according to the second control strategy;
the communication module is also used for sending the corresponding second control instruction to the corresponding household equipment so as to control the working state of each household equipment.
In certain embodiments, the intelligent sleep control apparatus includes:
the temperature and humidity sensor is used for acquiring temperature information in a preset range;
the third acquisition module is used for acquiring a third control strategy of the corresponding household equipment according to the temperature information; a kind of electronic device with high-pressure air-conditioning system
The third generation module is used for generating a corresponding third control instruction according to the third control strategy;
the communication module is further used for sending the corresponding third control instruction to the corresponding household equipment so as to control the working state of each household equipment.
In certain embodiments, the intelligent sleep control apparatus includes:
the sleep state acquisition module is used for acquiring human sleep state information;
the fourth acquisition module is used for acquiring a fourth control strategy of the corresponding household equipment according to the human sleep state information; a kind of electronic device with high-pressure air-conditioning system
The fourth generation module is used for generating a corresponding fourth control instruction according to the fourth control strategy;
the communication module is further used for sending the corresponding fourth control instruction to the corresponding household equipment so as to control the working state of each household equipment.
In certain embodiments, the intelligent sleep control apparatus includes:
the body temperature acquisition module is used for acquiring sleeping body temperature information of a human body;
a fifth acquisition module, configured to acquire a fifth control policy of the corresponding home device according to the sleep body temperature information of the human body; a kind of electronic device with high-pressure air-conditioning system
A fifth generation module, configured to generate a corresponding fifth control instruction according to the fifth control policy;
The communication module is further used for sending the corresponding fifth control instruction to the corresponding household equipment to control the working state of each household equipment.
In certain embodiments, the intelligent sleep control apparatus includes:
the sleep state acquisition module is used for acquiring human sleep state information;
the body temperature acquisition module is used for acquiring sleeping body temperature information of a human body;
the sixth acquisition module is used for acquiring a sixth control strategy of the corresponding household equipment according to the human sleep state information and the human sleep body temperature information; a kind of electronic device with high-pressure air-conditioning system
A sixth generation module, configured to generate a corresponding sixth control instruction according to the sixth control policy;
the communication module is further used for sending the corresponding sixth control instruction to the corresponding household equipment to control the working state of each household equipment.
In certain embodiments, the intelligent sleep control apparatus includes:
the sleep state acquisition module is used for acquiring human sleep state information in a preset period to obtain a sleep state-time curve in the preset period and acquiring current human sleep body temperature information, wherein the human sleep state comprises a deep sleep state;
the body temperature acquisition module is used for acquiring the human body sleep body temperature information in the preset period to obtain a human body temperature-time curve in the preset period and acquiring current human body sleep state information;
The calculating module is used for calculating the body temperature range of the human body in the deep sleep state according to the sleep state-time curve and the human body temperature-time curve;
a seventh obtaining module, configured to obtain a seventh control policy of a corresponding home device according to the body temperature range and the current body sleep temperature information when the body sleep state information is displayed as the deep sleep state; a kind of electronic device with high-pressure air-conditioning system
A seventh generating module, configured to generate a corresponding seventh control instruction according to the seventh control policy;
the communication module is further used for sending the corresponding seventh control instruction to the corresponding household equipment so as to control the working state of each household equipment.
In some embodiments, the communication module includes any one or more of an infrared remote control module, a wifi communication module, a Zigbee communication module, and a bluetooth communication module.
In certain embodiments, the intelligent sleep control apparatus further comprises:
the photosensitive sensor, the first acquisition module, the first generation module and the communication module are arranged on the shell, and communication state icons and keys are arranged on the shell; the communication state icon is used for displaying the communication state of the intelligent sleep control device and the household equipment, and the key is used for opening or closing the intelligent sleep control device.
In some embodiments, the keys include a sleep-assisting key and a start-up key, the housing includes a body portion with one open end and a top cover sealing the open end of the body portion, a plurality of through holes are formed in the body portion, the photosensor is disposed in the body portion and obtains light intensity information in a predetermined range through a through hole, the start-up key is disposed in the body and is exposed from a through hole, and the communication status icon and the sleep-assisting key are disposed on the top cover.
In some embodiments, the top cover includes a glass cover plate and an ink layer between the glass cover plate and the bottom of the body portion, the ink layer including a normally black ink region and an infrared-transparent ink region surrounding the normally black ink region, the communication status icon and the sleep-aid key being located in the normally black ink region.
In some embodiments, the communication module is an infrared remote control module, and includes an infrared emitting diode and an infrared receiving diode, where the infrared emitting diode and the infrared receiving diode are located in the body portion and correspond to the infrared ink transmitting area.
In some embodiments, the intelligent sleep control device further includes a plurality of light emitting diodes and a capacitance sensor, one light emitting diode is correspondingly disposed below each communication status icon, and one light emitting diode and the capacitance sensor are disposed below the sleep-aiding button.
In some embodiments, the communication status icons include a bluetooth signal icon, a wifi signal icon, and a ZigBee signal icon.
In some embodiments, a USB interface is provided on the body portion for connecting a power supply for charging or transmitting data.
The intelligent home system of the embodiment of the invention comprises the intelligent sleep control device.
According to the intelligent home system, the working state of the corresponding home equipment is controlled according to the acquired light intensity information, so that a human body is in a proper sleeping environment, and the sleeping quality of the human body is improved.
Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.
Detailed Description
Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present invention and are not to be construed as limiting the present invention.
In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, be configured 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 a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more of the described features. In the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.
In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically connected, electrically connected or can be communicated with each other; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.
In the present invention, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is less level than the second feature.
The following disclosure provides many different embodiments, or examples, for implementing different features of the invention. In order to simplify the present disclosure, components and arrangements of specific examples are described below. They are, of course, merely examples and are not intended to limit the invention. Furthermore, the present invention may repeat reference numerals and/or letters in the various examples, which are for the purpose of brevity and clarity, and which do not themselves indicate the relationship between the various embodiments and/or arrangements discussed. In addition, the present invention provides examples of various specific processes and materials, but one of ordinary skill in the art will recognize the application of other processes and/or the use of other materials.
Referring to fig. 1, the intelligent sleep control method according to the embodiment of the present invention is used for controlling home devices to improve sleep quality of a human body. The intelligent sleep control method comprises the following steps:
step S01, acquiring light intensity information in a preset range;
step S02, obtaining a first control strategy of the corresponding household equipment according to the light intensity information, wherein the first control strategy comprises the steps of turning off a main lamp and turning on an auxiliary lamp so as to gradually change light from on to off;
Step S03, generating a corresponding first control instruction according to a first control strategy; a kind of electronic device with high-pressure air-conditioning system
Step S04, a corresponding first control instruction is sent to corresponding household equipment to control the working state of each household equipment.
Referring to fig. 2, an intelligent sleep control device 10 according to an embodiment of the present invention includes a photosensitive sensor 11, a first acquisition module 12, a first generation module 13, and a communication module 14.
The intelligent sleep control method according to the embodiment of the present invention may be implemented by the intelligent sleep control apparatus 10 according to the embodiment of the present invention, for example, step S01 may be implemented by the photosensitive sensor 11, step S02 may be implemented by the first acquisition module 12, step S03 may be implemented by the first generation module 13, and step S04 may be implemented by the communication module 14.
That is, the photosensor 11 may be used to acquire light intensity information within a predetermined range. The first obtaining module 12 may be configured to obtain a first control policy of the corresponding home device according to the light intensity information, where the first control policy includes turning off the main lamp and turning on the auxiliary lamp to change the light from on to off. The first generation module 13 may be configured to generate the corresponding first control instruction according to the first control policy. The communication module 14 may be configured to send a corresponding first control instruction to a corresponding home device to control an operating state of each home device.
According to the intelligent sleep control method and the intelligent sleep control device 10, the working state of the corresponding household equipment is controlled according to the acquired light intensity information, so that a human body is in a proper sleep environment, and the sleep quality of the human body is improved.
Specifically, when the photosensor 11 of the intelligent sleep control device 10 detects that the intensity of light in the room is bright, the main lamp in the room is controlled to be turned off, and the sub-lamp is turned on to make the light gradually change from bright to dark until it is extinguished. Thus, an atmosphere of a sunset mode can be created, and the human body can be helped to quickly sleep.
In one example, when the light intensity is still bright after the main light in the closed room is controlled, the indication may be during the day, at which time the control strategy for closing the window covering may be obtained, and then an instruction for closing the window covering may be generated and sent to the window covering controller to close the window covering.
Referring to fig. 3, in some embodiments, the intelligent sleep control method includes:
step S05, acquiring sound intensity information in a preset range;
step S06, obtaining a second control strategy of the corresponding household equipment according to the sound intensity information;
step S07, generating a corresponding second control instruction according to a second control strategy; a kind of electronic device with high-pressure air-conditioning system
Step S08, sending a corresponding second control instruction to the corresponding household equipment to control the working state of each household equipment.
Referring to fig. 4, in some embodiments, the intelligent sleep control apparatus 10 includes a pickup module 15, a second acquisition module 16, and a second generation module 17. Step S05 may be implemented by the sound pickup module 15, step S06 may be implemented by the second acquisition module 16, step S07 may be implemented by the second generation module 17, and step S08 may be implemented by the communication module 14.
That is, the sound pickup module 15 may be used to acquire sound intensity information within a predetermined range. The second obtaining module 16 may be configured to obtain a second control policy of the corresponding home device according to the sound intensity information. The second generation module 17 may be configured to generate the corresponding second control instruction according to a second control policy. The communication module 14 is further configured to send a corresponding second control instruction to the corresponding home device to control the working state of each home device.
In particular, the predetermined range may be an indoor environment range including a television, a music player, or other audio-video player. The second control strategy may include turning off the television and turning on the music player to play different music.
Therefore, when the sound intensity collected by the sound pickup module 15 is high, the stimulus of music and content to the human senses can be avoided through the second control strategy, and simultaneously, different music can be played to ease the emotion of the human body, and the heart rate of the human body is slowly reduced through the music, so that the sleep state can be better entered.
Referring to fig. 5, in some embodiments, the intelligent sleep control method includes:
step S09, acquiring temperature information in a preset range;
step S10, obtaining a third control strategy of the corresponding household equipment according to the temperature information;
step S11, generating a corresponding third control instruction according to a third control strategy; a kind of electronic device with high-pressure air-conditioning system
Step S12, a corresponding third control instruction is sent to the corresponding household equipment to control the working state of each household equipment.
Referring to fig. 6, in some embodiments, the intelligent sleep control apparatus 10 includes a temperature and humidity sensor 18, a third acquisition module 19, and a third generation module 20. Step S09 may be implemented by the temperature and humidity sensor 18, step S10 may be implemented by the third obtaining module 19, step S11 may be implemented by the third generating module 20, and step S12 may be implemented by the communication module 14.
That is, the temperature and humidity sensor 18 may be used to obtain temperature information within a predetermined range. The third obtaining module 19 may be configured to obtain a third control policy of the corresponding home device according to the temperature information. The third generation module 20 may be configured to generate a corresponding third control instruction according to a third control policy. The communication module 14 is further configured to send a corresponding third control instruction to the corresponding home device to control the working state of each home device.
Specifically, the third control strategy may include turning on the air conditioner and gradually adjusting the temperature of the air conditioner to a predetermined value.
In one example, the temperature and humidity sensor 18 may be used to sense a temperature value in a room, and when the sensed temperature value is low beyond a predetermined range, the air conditioner may be turned on. It will be appreciated that the initial temperature of the air conditioner may be set to 27 c and then the temperature value of the air conditioner is gradually increased at intervals to compensate for the indoor temperature value, so that the user gradually enters an environment having a comfortable temperature. Similarly, when the temperature value sensed by the temperature and humidity sensor 18 is high beyond a predetermined range, the temperature value of the air conditioner may be gradually lowered at intervals, which will not be further elaborated herein.
Referring to fig. 7, in some embodiments, the intelligent sleep control method includes:
step S13, acquiring human sleep state information;
step S14, obtaining a fourth control strategy of the corresponding household equipment according to the human sleep state information;
step S15, generating a corresponding fourth control instruction according to a fourth control strategy; a kind of electronic device with high-pressure air-conditioning system
Step S16, a corresponding fourth control instruction is sent to the corresponding household equipment to control the working state of each household equipment.
Referring to fig. 8, in some embodiments, the intelligent sleep control apparatus 10 includes a sleep state acquisition module 21, a fourth acquisition module 22, and a fourth generation module 23. Step S13 may be implemented by the sleep state acquisition module 21, step S14 may be implemented by the fourth acquisition module 22, step S15 may be implemented by the fourth generation module 23, and step S16 may be implemented by the communication module 14.
That is, the sleep state acquisition module 21 may be used to acquire human sleep state information. The fourth obtaining module 22 may be configured to obtain a fourth control policy of the corresponding home device according to the sleep state information of the human body. The fourth generation module 23 may be configured to generate a corresponding fourth control instruction according to a fourth control policy. The communication module 14 is further configured to send a corresponding fourth control instruction to the corresponding home device to control the working state of each home device.
Many people always turn on the lamp at night, and enter a sleep state under the environments of running an air conditioner, playing a television and the like, however, due to strong illumination, unsuitable temperature and loud television sound, the human body gradually enters light sleep from deep sleep and wakes up. Then, in uncomfortable state, the lamp is turned off, the air conditioner is turned on, the television is turned off, and the like in turn, so that the user can go on sleeping and can sleep for a long time. This severely affects the sleep quality of people.
Specifically, the sleep state acquisition module 21 may be a smart arm ring. The intelligent arm ring can monitor human sleep states including a waking state, a shallow sleep state and a deep sleep state. The intelligent sleep control device 10 may perform different control on the home device according to different sleep state information of the human body detected by the intelligent arm ring, for example, when the intelligent arm ring detects that the sleep state of the human body is in deep sleep, the fourth control policy may be to turn off the electric lamp, turn off the television, and adjust the temperature of the air conditioner to achieve the state beneficial to sleep. Thus, the human body can be prevented from waking up by the influence of uncomfortable sleeping environment after being carelessly asleep.
More specifically, the intelligent arm ring monitors the sleep state of the human body through the acceleration sensor. The acceleration sensor may detect minute movements of the human body to determine whether the human body is awake, in light sleep, or in deep sleep. The muscles of the human body can relax during deep sleep, the limbs can not move greatly, and even the human body can slightly move during shallow sleep. The intelligent arm ring is used for judging that the human body is in a deep sleep state by monitoring the motion state of the arm and slowly converting the light motion mode into the motionless state at night, so that the deep sleep time of the human body can be calculated.
It should be noted that the type of the sleep state acquisition module 21 is not limited to a smart arm ring. In other embodiments, the sleep state acquisition module 21 may also be a module for reading data of the smart arm ring in the smart sleep control device 10.
Referring to fig. 9, in some embodiments, the intelligent sleep control method includes:
step S17, obtaining sleeping body temperature information of a human body;
step S18, obtaining a fifth control strategy of the corresponding household equipment according to the sleeping body temperature information of the human body;
step S19, generating a corresponding fifth control instruction according to a fifth control strategy; a kind of electronic device with high-pressure air-conditioning system
Step S20, a corresponding fifth control instruction is sent to corresponding household equipment to control the working state of each household equipment.
Referring to fig. 10, in some embodiments, the intelligent sleep control apparatus 10 includes a body temperature acquisition module 24, a fifth acquisition module 25, and a fifth generation module 26. Step S17 may be implemented by the body temperature acquisition module 24, step S18 may be implemented by the fifth acquisition module 25, step S19 may be implemented by the fifth generation module 26, and step S20 may be implemented by the communication module 14.
That is, the body temperature acquisition module 24 may be used to acquire human sleep body temperature information. The fifth obtaining module 25 may be configured to obtain a fifth control policy of the corresponding home device according to the sleep and body temperature information of the human body. The fifth generation module 26 may be configured to generate a corresponding fifth control instruction according to a fifth control policy. The communication module 14 is further configured to send a corresponding fifth control instruction to the corresponding home device to control the working state of each home device.
Specifically, body temperature acquisition module 24 may be a body temperature sensor. The body temperature sensor can be arranged in the intelligent arm ring, so that the human body can wear and detect the temperature of the human body conveniently. The wearing position of the intelligent arm ring is positioned at or near the armpit of the human body, so that the body temperature detection value of the intelligent arm ring has great reference value. In one example, the body temperature sensor employs an NTC thermistor with an accuracy of up to 0.1 ℃.
It can be understood that when the human body is continuously sleeping for a while, the temperature of the human body naturally drops due to the decrease of metabolism during the night and the indoor environment created by the air conditioner is continuously low, so that the comprehensive body temperature of the human body is reduced to influence the sleeping state of the user, and the user is easy to go from deep sleep to light sleep. At this time, the smart arm ring transmits the light sleep state and the current body temperature value of the human body to the smart sleep control device 10. The intelligent sleep control device 10 can perform different control on the home equipment according to different human sleep body temperature information detected by the intelligent arm ring, for example, when the human sleep body temperature is low, the intelligent sleep control device 10 can send a temperature rising instruction to the air conditioner at a certain time interval to raise the environment temperature, and then the human body temperature is improved, so that the human body enters a deep sleep state. Similarly, when the sleeping body temperature of the human body is higher, a cooling instruction can be sent to the air conditioner, and the cooling instruction is not expanded in detail.
It should be noted that the type of body temperature acquisition module 24 is not limited to a smart arm ring. In other embodiments, body temperature acquisition module 24 may also be a module within intelligent sleep control device 10 for reading data from the intelligent arm loop.
Referring to fig. 11, in some embodiments, the intelligent sleep control method includes:
step S21, acquiring human sleep state information;
step S22, obtaining sleeping body temperature information of a human body;
step S23, obtaining a sixth control strategy of the corresponding household equipment according to the human sleep state information and the human sleep body temperature information;
step S24, generating a corresponding sixth control instruction according to a sixth control strategy; a kind of electronic device with high-pressure air-conditioning system
Step S25, a corresponding sixth control instruction is sent to the corresponding household equipment to control the working state of each household equipment.
Referring to fig. 12, in some embodiments, the intelligent sleep control apparatus 10 includes a sleep state acquisition module 21, a body temperature acquisition module 24, a sixth acquisition module 27, and a sixth generation module 28. Step S21 may be implemented by the sleep state acquisition module 21, step S22 may be implemented by the body temperature acquisition module 24, step S23 may be implemented by the sixth acquisition module 27, step S24 may be implemented by the sixth generation module 28, step S25 may be implemented by the communication module 14,
That is, the sleep state acquisition module 21 may be used to acquire human sleep state information. The body temperature acquisition module 24 may be used to acquire human sleep body temperature information. The sixth obtaining module 27 may be configured to obtain a sixth control policy of the corresponding home device according to the sleep state information of the human body and the sleep body temperature information of the human body. The sixth generation module 28 may be configured to generate the corresponding sixth control instruction according to a sixth control strategy. The communication module 14 is further configured to send a corresponding sixth control instruction to the corresponding home device to control the working state of each home device.
It will be appreciated that the sleep state acquiring module 21 and the body temperature acquiring module 24 may be both disposed in the intelligent arm ring, and the intelligent sleep control device 10 may perform different control on the home device according to different sleep state information and sleep body temperature information of the human body detected by the intelligent arm ring, so that the human body enters a deep sleep state, and is not developed in detail herein.
It should be noted that the types of sleep state acquisition module 21 and body temperature acquisition module 24 are not limited to being or having to be provided in a smart arm loop. In other embodiments, sleep state acquisition module 21 and body temperature acquisition module 24 may also be modules within intelligent sleep control device 10 for reading data of the intelligent arm loop.
With continued reference to fig. 11, in some embodiments, the intelligent sleep control method performs at predetermined time intervals:
step S21, acquiring human sleep state information;
step S22, obtaining sleeping body temperature information of a human body;
step S23, obtaining a sixth control strategy of the corresponding household equipment according to the human sleep state information and the human sleep body temperature information;
step S24, generating a corresponding sixth control instruction according to a sixth control strategy; a kind of electronic device with high-pressure air-conditioning system
Step S25, a corresponding sixth control instruction is sent to the corresponding household equipment to control the working state of each household equipment.
It will be appreciated that the sleep state acquiring module 21 and the body temperature acquiring module 24 may be both disposed in an intelligent arm ring, and the intelligent arm ring may detect the human sleep state information and the human sleep body temperature information according to a predetermined time interval, and the intelligent sleep control device 10 performs different control on the home device according to different human sleep state information and human sleep body temperature information detected by the intelligent arm ring, so that the human body enters a deep sleep state.
For example, a person is generally more likely to be asleep from 8 pm to 6 am the next day, during which time the interval may be reduced, while during the rest of the time a slightly longer interval may be set. In this way, the energy consumed by the operation of the intelligent sleep control apparatus 10 can be saved.
Referring to fig. 13, in some embodiments, the intelligent sleep control method includes the steps of:
step S31, acquiring human sleep state information in a preset period to obtain a sleep state-time curve in the preset period, wherein the human sleep state comprises a deep sleep state;
step S32, acquiring human body sleep temperature information in a preset period to obtain a human body temperature-time curve in the preset period;
step S33, calculating the body temperature range of the human body in a deep sleep state according to the sleep state-time curve and the body temperature-time curve;
step S34, current human sleep temperature information is obtained;
step S35, acquiring current human sleep state information;
step S36, when the human sleep state information is displayed as a deep sleep state, acquiring a seventh control strategy of the corresponding household equipment according to the body temperature range and the current human sleep body temperature information;
step S37, generating a corresponding seventh control instruction according to a seventh control strategy; a kind of electronic device with high-pressure air-conditioning system
Step S38, a corresponding seventh control instruction is sent to the corresponding household equipment to control the working state of each household equipment.
Referring to fig. 14, in some embodiments, the intelligent sleep control apparatus 10 includes a sleep state acquisition module 21, a body temperature acquisition module 24, a calculation module 29, a seventh acquisition module 30, and a seventh generation module 31. Step S31 and step S34 may be implemented by the sleep state acquisition module 21, step S32 and step S35 may be implemented by the body temperature acquisition module 24, step S33 may be implemented by the calculation module 29, step S36 may be implemented by the seventh acquisition module 30, and step S35 may be implemented by the communication module 14.
That is, the sleep state acquisition module 21 may be configured to acquire human sleep state information within a predetermined period to obtain a sleep state-time curve within the predetermined period and to acquire current human sleep body temperature information, and the human sleep state includes a deep sleep state. The body temperature acquisition module 24 may be configured to acquire body temperature information of the sleep of the human body in a predetermined period to obtain a body temperature-time curve in the predetermined period and to acquire current sleep state information of the human body. The calculating module 29 may be configured to calculate a body temperature range of the human body in the deep sleep state according to the sleep state-time curve and the body temperature-time curve. The seventh obtaining module 30 may be configured to obtain a seventh control policy of the corresponding home device according to the body temperature range and the current sleep body temperature information when the sleep state information of the human body is displayed as the deep sleep state. The seventh generation module 31 may be configured to generate the corresponding seventh control instruction according to a seventh control policy. The communication module 14 is further configured to send a corresponding seventh control instruction to the corresponding home device to control the working state of each home device.
Step S31 and step S32 are sample learning phases, and in one example, the predetermined period may be one week. Referring to fig. 15 and 16, it can be seen that the time periods of the human body in the deep sleep state and the body temperatures corresponding to the time periods are shown. Thus, we can calculate the optimal body temperature range when the human body is in a deep sleep state.
In the real-time sleeping process of the human body, when the intelligent arm ring detects that the human body enters the deep sleeping state, the temperature of the air conditioner is regulated based on the optimal body temperature range found in the sampling learning stage, so that the body temperature of the human body is maintained in the body temperature range, and the user can be ensured to easily enter the deep sleeping state.
In some embodiments, the communication module 14 includes any one or more of an infrared remote control module, a wifi communication module, a Zigbee communication module, a bluetooth communication module.
Thus, the working state of the household equipment can be controlled through the infrared remote control module, for example, a television is turned off, a music player is turned on, an air conditioner is turned on, the temperature of the air conditioner is regulated, and the like. The intelligent sleep control device 10 may communicate with a mobile terminal (e.g., a mobile phone) through a wifi communication module. The intelligent sleep control device 10 may communicate with the home appliance through a Zigbee communication module.
In one example, sleep state acquisition module 21 and body temperature acquisition module 24 may be included in a smart arm loop with which smart sleep control device 10 may communicate via a bluetooth communication module. For example, the intelligent arm ring can send the detected sleep state information and sleep body temperature information of the human body to the intelligent sleep control device 10 through the bluetooth communication module, and the intelligent sleep control device 10 controls household equipment through the infrared remote control module and the zigbee communication module, such as turning off an electric lamp, turning off a television, and adjusting the temperature of an air conditioner to achieve a sleep-beneficial state.
It will be appreciated that the communication module 14 is not limited to necessarily include an infrared remote control module, a wifi communication module, a Zigbee communication module, and a bluetooth communication module. The communication module 14 may be any one or more of an infrared remote control module, a wifi communication module, a Zigbee communication module, and a bluetooth communication module,
referring to fig. 17, in some embodiments, the intelligent sleep control apparatus 10 further includes a housing 40. The photosensor 11, the first acquisition module 12, the first generation module 13, and the communication module 14 are mounted on the housing 40. The housing 40 is provided with communication status icons 41 and keys 42. The communication status icon 41 is used to display the communication status of the intelligent sleep control apparatus 10 and the home equipment. The key 42 is used to turn on or off the intelligent sleep control apparatus 10.
Thus, the intelligent sleep control device 10 has a simple structure and is convenient to operate, and suitable for the masses. When the intelligent sleep control device is used, the intelligent sleep control device 10 can be started only by pressing the key 42, and the communication state of the intelligent sleep control device 10 and household equipment can be displayed through the communication state icon 41.
In some embodiments, keys 42 include a sleep aid key 422 and a power on key 424. The housing 40 includes a body portion 43 having one end opened, and a top cover 44 sealing the open end of the body portion 43. The body 43 is provided with a plurality of through holes 432, the photosensor 11 is disposed in the body 43 and obtains the light intensity information within a predetermined range through a through hole 432, the start key 424 is disposed in the body and is exposed from a through hole 432, and the communication status icon 41 and the sleep-assisting key 422 are disposed on the top cover 44.
When the human body presses the sleep aiding button 422, the intelligent sleep control apparatus 10 starts the sleep aiding function, that is: and acquiring various environmental information in a preset range, so as to acquire a control strategy of corresponding household equipment, further generating corresponding control instructions to control the working states of all the household equipment, and constructing a comfortable pre-sleeping environment for a human body, so that the human body is in a proper temperature, light and quiet environment, and a guarantee is provided for acquiring high-quality sleep.
In some embodiments, the material of the body portion 43 is plastic.
Referring to fig. 18 and 19, in some embodiments, the top cover 44 includes a glass cover plate 442 and an ink layer 444 between the glass cover plate 442 and the bottom of the body 43, the ink layer 444 includes a normally black ink region 4442 and an infrared-transparent ink region 4444 surrounding the normally black ink region 4442, and the communication status icons 41 and the sleep-aid keys 422 are located in the normally black ink region 4442.
In this manner, the glass cover plate 442 may allow a user to clearly see the communication status.
In some embodiments, the body 43 is frustoconical.
Thus, the utility model is convenient for stable placement and has small appearance.
In some embodiments, the communication module 14 is an infrared remote control module, and includes an infrared emitting diode and an infrared receiving diode, which are located in the body 43 and correspond to the infrared-transmitting ink area 4444.
Specifically, the communication module 14 controls the operating state of the home device through the infrared remote control module. The infrared-transmitting ink region 4444 has infrared transmittance of more than 80% for 940nm infrared light, and can ensure signal transmittance when the infrared emitting diode and the infrared receiving diode emit and receive infrared light.
In some embodiments, the intelligent sleep control device 10 further includes a plurality of leds and a capacitive sensor, and one led is disposed below each communication status icon 41, and one led and a capacitive sensor are disposed below the sleep-aiding button 42.
It can be appreciated that the sleep-aiding key 422 may be a capacitive touch, and when in use, the sleep-aiding function may be turned on or off by the touch of a human finger. Thus, the method is convenient and quick. The LED under the communication status icon 41 and the LED under the sleep-aid button 422 can display the communication status and whether the sleep-aid function is on when the LED is on.
In some embodiments, the communication status icons 41 include a bluetooth signal icon 412, a wifi signal icon 414, and a ZigBee signal icon 416.
Specifically, the bluetooth signal icon 412 may be used to display the communication state between the intelligent sleep control apparatus 10 and the intelligent arm ring (the sleep state acquisition module 21 and the body temperature acquisition module 24 may be provided in one intelligent arm ring). The wifi signal icon 414 may be used to display a communication status between the intelligent sleep control device 10 and a mobile terminal (e.g., a mobile phone). The ZigBee signal icon 416 may be used to display a communication status between the intelligent sleep control apparatus 10 and a home device.
In some embodiments, a USB interface 434 is provided on the body portion 43 for connecting a power supply for charging or transmitting data.
In this way, power and data may be supplied and transferred to the intelligent sleep control device 10 through the USB interface 434.
Referring to fig. 20, an intelligent home system 100 according to an embodiment of the present invention includes an intelligent sleep control device 10.
In some embodiments, the smart home system 100 also includes home devices such as lights, curtains, televisions, music players, air conditioners, and the like.
The intelligent home system 100 according to the embodiment of the invention controls the working state of the corresponding home equipment according to the acquired environmental information, so that the human body is in a proper sleeping environment, thereby improving the sleeping quality of the human body.
In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the invention, the scope of which is defined by the claims and their equivalents.