CN110553358A - Air conditioner control method and system based on intelligent wearable device and air conditioner - Google Patents

Abstract

The invention discloses an air conditioner control method based on intelligent wearable equipment, which comprises the following steps: the air conditioner enters an intelligent somatosensory mode, and receives the human body state parameters sent by the intelligent wearable device; the air conditioner adjusts the temperature and the air supply angle of the air conditioner according to the received human body state parameters, and sends feedback signals to the intelligent wearable device. Still disclose an air conditioner control system based on intelligence wearing equipment. The air conditioner comprises the air conditioner control system based on the intelligent wearable device. The invention provides an air conditioner control method and system based on intelligent wearable equipment and an air conditioner.

Description

Air conditioner control method and system based on intelligent wearable device and air conditioner

Technical Field

The invention belongs to the field of intelligent home furnishing, and particularly relates to an air conditioner control method and system based on intelligent wearable equipment and an air conditioner.

background

along with the development of science and technology, more and more electrical equipment has all realized the intellectuality to give people's life and brought very big facility, human response technique has also obtained extensive application in the household electrical appliances field. In the prior art, the sleep function of a common air conditioner is set from a subjective angle, and one or more sleep temperature curves are simply set through a remote controller to meet the requirements of a large number of users. The sleep function sets the temperature for 8 hours of sleep at the beginning, the same temperature is set all night, or the temperature is increased or reduced by a few degrees at most on the basis of the set temperature, and the temperature can not be automatically adjusted according to the actual sleep state, habits, work and rest of a user and the like. The actual situation of the user in the sleeping process is not considered deeply, and the real sleeping information of the user and the quality of the sleeping room cannot be obtained.

The existing variable frequency air conditioner is controlled according to indoor environmental load and outdoor environmental load, and according to the temperature set by a user, the running frequency is adjusted, and the air supply angle and the wind speed of a windshield cannot be automatically adjusted. The comfort requirement is met by mainly setting the operation such as temperature, windshield and wind sweeping angle in the use process of a user. The setting is completed, the air conditioner mainly adjusts the running frequency according to the environmental load, but different states and different types of people of a human body cannot be judged, so that some people often experience the problem of cold or even cold when using the air conditioner, or some people feel that the air conditioner is not cold enough and sleep and wake up at night, the reason is that the air conditioner cannot judge the change parameters of the human body, different people have different constitutions, and the people with sensitive constitution can have the problems, such as children, old people and obese or people with slight thinness can have different feelings.

Disclosure of Invention

The invention aims to provide an air conditioner control method and system based on intelligent wearable equipment and an air conditioner. Mainly solving the problems mentioned in the background art.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

an air conditioner control method based on intelligent wearable equipment comprises the following steps: the air conditioner enters an intelligent somatosensory mode, and receives the human body state parameters sent by the intelligent wearable device; the air conditioner adjusts the temperature and the air supply angle of the air conditioner according to the received human body state parameters, and sends feedback signals to the intelligent wearable device.

further, the human body state parameters comprise heart rate, action frequency, blood pressure, blood oxygen, breathing frequency and body surface temperature of the intelligent wearable device contacting with the skin.

further, after the air conditioner receives the human body state parameters detected by the intelligent wearable device, the air conditioner also comprises a sleep signal detected by the intelligent wearable device and sent by the intelligent wearable device, and the air conditioner adjusts the operation mode of the air conditioner according to the received sleep signal.

Further, the air conditioner adjusting the control action corresponding to the operation mode of the air conditioner according to the received sleep signal comprises:

further, determining mode information of the air conditioner needing to operate, wherein the mode information comprises a child mode and an old man mode;

And calling a corresponding preset process to control the air conditioner to execute a control action corresponding to the running mode according to the determined mode information.

Further, the air conditioner collects human body state parameters monitored by the intelligent wearable device every T1 seconds, and the human body state parameters are compared with a preset human body state parameter interval;

when the human body state parameter is larger than the preset human body state parameter interval, controlling the air conditioner to reduce the internal temperature setting, reducing the motor frequency of the air conditioner and reducing the wind speed;

When the human body state parameter is smaller than the preset human body state parameter interval, controlling the air conditioner to improve the internal temperature setting, increasing the motor frequency of the air conditioner and improving the wind speed;

And when the human body state parameter is within the preset human body state parameter interval, controlling the air conditioner to keep the current running state.

And further, when the long-time low body surface temperature of the human body is detected, the air conditioner operates at low frequency or stops.

Further, detect that the intelligent wearing equipment among the human state parameter contacts the body surface temperature of skin for a long time slightly low, the operation of air conditioner low frequency or shut down.

Further, the human body state parameters collected by the intelligent wearable equipment are obtained at least in one of the following modes: infrared communication, bluetooth communication, WIFI communication, cellular network communication.

The utility model provides an air conditioner control system based on intelligence wearing equipment, air conditioner control system based on intelligence wearing equipment includes control module and acquisition module, control module is connected with the acquisition module electricity.

the acquisition module is used for receiving the human body state parameters sent and detected by the intelligent wearable equipment;

And the air conditioner adjusts the operation parameters of the air conditioner according to the received human body state parameters and sends feedback signals to the intelligent wearable equipment.

Furthermore, the air conditioner control system based on the intelligent wearable device further comprises a judgment module, an air conditioner main control unit and a communication module which are respectively and electrically connected with the control module;

The judging module is used for judging and comparing the received human body state parameter with a preset human body state parameter;

The air conditioner main control unit adjusts the motor frequency of the air conditioner according to the feedback signal of the control module;

And the communication module is used for communicating the human body state parameters stored by the control module with a network platform.

an air conditioner comprises the air conditioner control system based on the intelligent wearable device.

The invention has the beneficial effects that:

The invention provides an air conditioner control method, an air conditioner control system and an air conditioner based on intelligent wearable equipment. The problem of various discomfort when a user uses the air conditioner is reduced, and the intelligent degree of the air conditioner is improved.

drawings

the invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a flowchart of an air conditioner control method according to an embodiment of the present invention;

fig. 2 is a block diagram of an air conditioning control system according to an embodiment of the present invention.

The reference numbers in the figures illustrate: 1. a judgment module; 2. a control module; 3. an acquisition module; 4. a communication module; 5. an air conditioner main control unit; 6. a network platform; 7. intelligent wearing equipment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to fig. 1-2 and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. 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.

it should be noted that the terms of orientation such as left, right, up, down, top and bottom in the present embodiment are only relative concepts or reference to the normal use state of the product, and should not be considered as limiting.

At present, the operation frequency of the industrial variable frequency air conditioner is mainly adjusted by the environmental load, and the adjustment operation is lack of the analysis and judgment of the human body state, so that people often experience the problems of air conditioner diseases such as cold and even cold or feeling of cold in the process of using the air conditioner, and the reason is that the air conditioner cannot judge the human body change parameters. The invention solves the problem of poor comfort experience caused by single control of the air conditioner. Collect human parameter information like the bracelet wrist-watch through intelligent wearing equipment 7, like heart rate, motion step number, blood pressure, body temperature etc. upload APP software, APP software passes through WIFI through setting for comfortable state and is connected with the air conditioner, and the air conditioner reads the parameter variation of APP and adjusts air conditioner running state parameter, like operating frequency, air supply rate, air supply temperature, air supply angle etc. satisfy different crowds' travelling comfort requirement. The air conditioner can also output air conditioner operation parameter control such as an old people mode and a child mode through big data operation APP software according to the parameter characteristics such as human heart rate, body temperature, blood pressure and blood oxygen of different crowds such as old people, children, women, obesity and emaciation, and the like, so that the comfortable requirements of different crowds are met.

the real-time state of the human body is judged through a six-axis step counting sensor of the wearable device, GPS motion track positioning and near-one-hour heart rate state data, if the human body is in a violent motion state, a general motion state and a resting and resting state, the running state of an air conditioner is adjusted, and if the human body is in the motion state, larger cooling capacity and larger air volume are needed; in a quiet state, the cold quantity and the air quantity need to be reduced, and the requirement on the comfort level of a human body is ensured; the heart rate and the body temperature of a human body are monitored through the wearable equipment, and the indoor oxygen capacity is stabilized by intelligently adjusting fresh air in combination with parameters of an air conditioner carbon dioxide sensor and the like, so that the air quality of an air-conditioned room is ensured; the heart rate, the action frequency and the body temperature are monitored by the wearable device, an AI intelligent algorithm is combined, the deep sleep and the shallow sleep of the human body are intelligently judged, the problem that the child wakes up due to supercooling or overheating can not occur in the sleep body feeling, and the problem that the child kicks the quilt to catch a cold at night by an air conditioner is effectively judged.

as shown in fig. 1, an air conditioner control method based on an intelligent wearable device 7 includes: before the air conditioner enters the intelligent motion sensing mode, the method comprises the following steps:

S1, pairing the intelligent wearable device 7 and the air conditioner to the same WIFI through the mobile phone APP;

A temperature sensor is installed in the intelligent wearable device 7 or the intelligent wearable device 7 with the temperature sensor is selected; the temperature near the surface of the human body is sensed by a temperature sensor.

Preferably, the wearable device of this embodiment may be, but is not limited to: the intelligent watch comprises an intelligent bracelet, an intelligent watch, earphones capable of monitoring sleep, a headgear capable of monitoring sleep, glasses capable of monitoring sleep, clothes capable of monitoring sleep, a pillow capable of monitoring sleep and the like.

Preferably, intelligence wearing equipment 7 is intelligent bracelet, and intelligent bracelet is small and exquisite light, wear on user's wrist can, comfortable convenience.

It should be noted that the function is a special function and needs WIFI support, the mobile phone APP develops a bracelet device distribution network function, and the mobile phone is connected with WIFI first; the intelligent bracelet develops a WIFI function, WIFI modules are arranged in the intelligent bracelet, each WIFI module has an independent MAC address, a reset key is additionally arranged on the intelligent bracelet, the reset key is pressed for a long time, the display screen of the intelligent bracelet is reset for 3s, all paired equipment before the intelligent bracelet is deleted after the intelligent bracelet is reset successfully, and a network can be distributed again; the mobile phone is close to the mobile phone, the bracelet is searched through the mobile phone APP, and the bracelet is distributed under the same WIFI; the air conditioner has a WIFI function, each device has an independent MAC address, a buzzer of a controller in the air conditioner responds to 2 sounds to complete WIFI resetting, the air conditioner controller is found through a mobile phone APP, and the air conditioner is distributed under the same WIFI.

S2, the air conditioner receives a starting signal of an intelligent motion sensing mode of the mobile phone App or the air conditioner remote controller;

The method comprises the following steps of starting the mobile phone APP: an intelligent motion sensing switch button is newly added in a mobile phone APP, an intelligent motion sensing function is started by using the mobile phone APP, a function starting signal is sent to an intelligent bracelet and an air conditioner, and a buzzer in a controller in the air conditioner makes a sound to enter intelligent motion sensing control;

And (3) turning on a remote controller: use the remote controller interval not to exceed 2s and press the start key N times in succession, buzzer in the controller in the air conditioner responds M sound in succession, opens the intelligence and feels the function, sends the function to the bracelet simultaneously and opens the signal, gets into the intelligence and feels control to synchronous cell-phone APP state.

The N, M times and the start button may be set according to actual development needs. The invention is only set for the model of a certain air conditioner.

S3, starting an intelligent motion sensing mode by the air conditioner;

Each air conditioner can be provided with 2 intelligent bracelets at most in a distribution network, the first bracelet which is successfully distributed in the distribution network is the main bracelet by default, and the second bracelet which is successfully distributed in the distribution network is the secondary bracelet.

S4, the intelligent wearable device 7 receives a function starting signal sent by the air conditioner;

It should be noted that, when the personal feeling function of the remote controller is turned on, the air conditioner receives the signal of the intelligent feeling mode, exits from the personal feeling control of the remote controller, and executes the intelligent feeling mode.

when the air conditioner starts the intelligent motion sensing mode to operate, and when a motion sensing function starting signal of the remote controller is received, the buzzer in the controller responds but does not enter the motion sensing function of the remote controller, shields the automatic code sending of the motion sensing of the remote controller, and keeps the control of the intelligent motion sensing mode.

the control method of the invention is intelligent, simple and convenient with the current, can effectively reduce the limitation, is very convenient to use, effectively improves the comfort of users, and reduces the complaint rate.

S5, the intelligent wearable device 7 reads in human body parameter detection and transmits the human body parameter detection to the APP;

the human state parameters needing to be detected comprise a heart rate XL, an action frequency DF, a blood pressure XP, a blood oxygen XY respiratory frequency HC, a body surface temperature TB of wearing a bracelet to contact the skin, deep sleep time TS, shallow sleep time TQ, quick eye movement time YD, waking time TX, and a human body sign table generated by transmitting detected human parameter information data to the APP.

s6, acquiring data every T seconds by the intelligent wearable device 7;

Wherein: t is the time preset by the air conditioner system; the time range of T is: 30 seconds to 180 seconds.

preferably, the air conditioner receives the detected user somatosensory temperature sent by the intelligent bracelet every 2 min; t can carry out the self-setting according to the model of actual air conditioner model and intelligent bracelet.

it should be noted that, after the function is started, the intelligent bracelet monitors the somatosensory temperature every 30 seconds to 180 seconds, and sends data to the air conditioner controller through WIFI, and after the controller receives the bracelet temperature signal (receives the bracelet temperature signal and the buzzer does not respond), the controller feeds back the receiving state to the bracelet simultaneously, and updates the ring temperature on the mobile phone APP synchronously and displays the body temperature.

S7, judging the state of the human body according to the parameters;

Acquiring human body state parameters acquired by the smart bracelet, wherein each human body parameter is used for representing the state of a human body;

furthermore, the human body is divided into different groups, and the comfort requirements of different groups are met according to the parameter characteristics of human body heart rate, body temperature, blood pressure, blood oxygen and the like of different groups such as old people, children, women, obesity, emaciation and the like.

s8, collecting human body state parameters at intervals of T seconds;

And comparing the acquired human body state parameters with the human body state parameters acquired before T seconds.

s9, judging whether the human body state is stable;

And judging whether the human body state is stable according to the human body state parameters collected in the step S8. If yes, go to step S91; if not, step S92 is executed.

And S91, keeping the human body state parameters unchanged, and executing S10 to stably run the air conditioner.

S92, if the human body state parameters change, executing S921 and adjusting the air conditioner;

the air conditioner collects human body state parameters monitored by the intelligent wearable device every T1 seconds, and the human body state parameters are compared with a preset human body state parameter interval; when the human body state parameter is larger than the preset human body state parameter interval, controlling the air conditioner to reduce the internal temperature setting, reducing the motor frequency of the air conditioner and reducing the wind speed;

when the human body state parameter is smaller than the preset human body state parameter interval, controlling the air conditioner to improve the internal temperature setting, increasing the motor frequency of the air conditioner and improving the wind speed;

And when the human body state parameter is within the preset human body state parameter interval, controlling the air conditioner to keep the current running state.

furthermore, according to the detected human body state parameters, the fan rotating speed, the air outlet temperature and the air supply angle of the air conditioner are adjusted, and the frequency of a compressor of the air conditioner is controlled and adjusted.

More specifically, the carbon dioxide concentration in a room has a great influence on the comfort, and in an indoor environment with a high personnel density, such as a bus, a station, a mall, a classroom, a book reading room, and the like, the personnel still feel physiological and psychological discomfort such as poor air quality, fatigue, nausea, and the like. At this time, carbon dioxide, metabolites, and body odor emitted from the human body are major factors affecting the quality of indoor air. Therefore, the fresh air ventilation function is added, the carbon dioxide sensor is also arranged in the air conditioner, the ventilation function is started to introduce some fresh air from the outside to a room through the combination of the indoor air conditioner carbon dioxide sensor and the bracelet for detecting the blood oxygen concentration of a human body, the air quality of a user in a closed space is ensured, the problems of oxygen deficiency discomfort and the like cannot occur in sleep, and the air quality of an air-conditioned room is ensured.

An air conditioner control method based on an intelligent wearable device 7 specifically comprises the following steps: the air conditioner receives a sleep signal detected by the intelligent bracelet and sent by the intelligent bracelet, and the operation mode of the air conditioner is adjusted.

generally, human sleep undergoes four stages, in turn, an in-sleep stage, a light sleep stage, a deep sleep stage, and an eye movement/REM stage.

Stage 1, sleep stage: the muscle is relaxed to enter light sleep and is easy to wake up. The fastest heart rate and respiratory stability has large fluctuation, the most unstable heart rate and respiratory stability, more times of body motion frequency and long time.

Stage 2, light sleep stage: the respiration and the heartbeat become slow, the body temperature slightly decreases, and the body movement is relatively active. The heart rate is fast, the fluctuation of the respiratory stability is large and unstable, and the frequency of the body motion is large.

Stage 3, deep sleep stage: the breathing heartbeat becomes slower than the previous phase, the muscles relax, the body hardly moves, the brain is inactive, and there is no dream, and the phase of being awakened requires time for recovery. The heart rate is slowest, the breathing stationarity is regular and most stable, and the body movement frequency basically does not generate body movement.

stage 4, eye movement/REM stage: the brain activity is the same as that of the day, and the eyes move rapidly but the body hardly moves. The heart rate is fast, the respiratory stability is not stable, and the body movement frequency is more.

From the falling asleep stage to the light sleep stage, then to the deep sleep stage and the eye movement/REM stage, the respiratory rate and heart rate of the human body are gradually reduced, the body temperature is slightly reduced, and the body immunity of the human body is gradually reduced. In order to strengthen the protection of the human body and reduce the influence of the surrounding environment on the human body, the fan rotating speed, the air outlet temperature, the air supply angle and the fresh air volume of the air conditioner are adjusted in different sleep stages, the air conditioner is adjusted in the sleep stage, the light sleep stage, the deep sleep stage and the eye movement/REM stage, individuals in different sleep stages are protected in different degrees, the comfort level of a user is improved, the human body health is facilitated, and the air conditioner is more beneficial to the old and children with poor constitution.

Further, bracelet sensor can discriminate this data in which age crowd scope through big database according to the data of gathering after collecting human data, as long as set for intelligent comfortable mode automatic adaptation user's physique demand. The operation modes of the air conditioner include a child mode and an old man mode, and the adjustment modes of the air conditioner in two different modes are specifically described below.

when the air conditioner is in a child mode, the APP software analyzes whether the child covers the quilt and is overheated to sweat or kicks the quilt to catch a cold or not according to the sleeping characteristics of the child from the sleeping turning-over action record and the body surface temperature, and adjusts the air volume, the air outlet temperature and the air supply angle of the air conditioner to ensure that the child is not caught a cold. After entering into intelligent children sleep mode, the operating temperature, the air-out angle of air conditioner, the human state parameter that the new trend amount of wind detected according to the real-time transmission of received intelligent bracelet is adjusted, and user's human state parameter is not in during the scope that the air conditioner was set for, adjust the operating fan rotational speed, air-out temperature, air supply angle and the new trend amount of wind of air conditioner.

the requirements of physiological and cognitive characteristics of the child air conditioner in each growth stage:

Children (especially infants) have little subcutaneous fat and rich capillary vessels, the thermoregulation center is not developed completely, adults can not feel the temperature difference, but children can obviously feel the temperature difference. In a cold air environment in an air-conditioned room, capillary vessels of children contract, sweat gland holes are closed, sympathetic nerves are excited, visceral vessels contract, gastrointestinal movement is weakened, and resistance is weakened. The child mode is controlled from the aspect of air quality, such as monitoring and processing of the air oxygen content and the air quality; wind direction and wind speed, through the characteristics of the collection children sleep of big data, the sleep action frequency is great, and quick eye movement number of times is many, and the fluctuation of body surface temperature is great, temperature fluctuation adaptability is poor, characteristics such as deep sleep time is longer, and children's human parameter, rhythm of the heart are gathered to the bracelet: XL, action frequency DF, blood pressure XP, blood oxygen XY, respiratory frequency HC, body surface temperature TB of wearing bracelet contact skin, deep sleep time TS, shallow sleep time TQ, rapid eye movement time YD waking time TX.

The air conditioner is set to operate in a child mode, the air conditioner collects human body state parameters monitored by the bracelet every T1 seconds, the temperature of the air conditioner is initially default to 27 ℃, the windshield is lowered, and after the human body state parameters are continuously collected for N minutes, whether the child is in a waking activity state or a sleeping state is judged.

the built-in components and parts of intelligence bracelet have six sensors, can sensitively judge human slight action and change, and when the human body gets into sleep state, parameters such as real time monitoring human action, respiratory rate, rhythm of the heart, blood pressure judge sleep state.

When the respiratory frequency HC is monitored for T minutes continuously and is less than the respiratory frequency in the waking static state;

the rapid eye movement sleep time is less than T2 seconds within T minutes continuously, and the heart rate fluctuates around 95% of the waking rest;

When the blood pressure is around 97% of the blood pressure in the wake-up state, it is judged as a light sleep state.

When people are in deep sleep, the exercise amount is basically not generated, the time for changing the exercise amount is longer, and corresponding judgment can be made according to the principle.

When the respiratory frequency HC is monitored to be less than the respiratory frequency in the waking state for T minutes continuously;

The rapid eye movement sleep time is less than T3 seconds within continuous T minutes, and the heart rate fluctuates around 90% -93% of waking time;

when the blood pressure is around 92-94% of the waking state, the deep sleep state is judged if the blood pressure is satisfied.

When the action frequency and the heart rate are relatively high in the waking state, the air conditioner is adjusted according to the calculation of the currently detected body surface temperature and the environment temperature, the difference between the body surface temperature and the environment temperature is smaller than the obvious body surface temperature deviation value of the child, and the body function influence caused by too large temperature change which cannot be adapted by the child in a short time is prevented.

one embodiment provided by the invention is as follows:

When the environment temperature is T3 ℃, the body surface temperature is T4 ℃, the breathing frequency K, the action frequency DF1 and the blood oxygen XY1 are adjusted along with the slow falling asleep of the child, the operation frequency of an air conditioner, the air supply speed and the air supply angle are adjusted according to the parameters, the temperature fluctuation is controlled to be less than 0.5 ℃, and the air supply angle blows upwards at the same time;

when the continuous action of the child is larger, the child generally has dreams or turns over and kicks off a quilt, the deviation between the detected body sensing temperature and the ambient temperature is larger, when the body sensing temperature exceeds a threshold value, the temperature of an air conditioner is properly raised to operate, the air outlet temperature is increased, the air supply angle is adjusted upwards, and the problem of supercooling of the child during sleeping is solved;

After the air conditioner is operated for a period of time, if the room is better in sealing, the concentration of carbon dioxide in the room rises, the fresh air function of the air conditioner is opened, outdoor air is introduced, fresh air in the room is supplemented, the concentration of the carbon dioxide is reduced, children can sleep in an oxygen-containing environment, brain oxygen uptake can be promoted, and body metabolism is accelerated.

If children kick the quilt after, have not covered the quilt by oneself for a period in succession, detect the long-time low partially of body surface temperature simultaneously, then the air conditioner carries out the low frequency operation or shuts down, makes ambient temperature up-regulate gradually to send signal simultaneously and give the head of a family, remind head of a family children through cell-phone APP to cover the quilt.

when the air conditioner is in the old people mode, the old people sleep and are characterized by more waking times at night, less deep sleep, more shallow sleep, short sleep cycle and relatively poorer sleep quality. After the air conditioner is set in the old man mode, the running noise and the air supply quantity of the air conditioner are reduced, and the noise sensitivity to old people is reduced.

the fan rotational speed of air conditioner operation descends, combines old man's body surface temperature and ambient temperature's data simultaneously, guarantees to reduce under the rotational speed condition, and indoor ambient temperature can not appear rising, and the operating frequency of outer machine is properly adjusted, reduces the air-out temperature. Because the vast majority of old people do not like to blow, the air supply angle of the air conditioner can blow upwards to avoid blowing people.

in addition, the old people are generally afraid of cold, the accurate control of air conditioner temperature is in 0.5 ℃, it is more comfortable to judge that human comfort needs to combine old people's health parameter adjustment, according to old people's rhythm of the heart, respiratory frequency, body surface temperature, blood pressure judges which sleep interval old people are in, when judging the old people in the shallow sleep state, the noise that reduces the air conditioner operation arouses the sensitive concern of old people, the rotational speed of air conditioner reduces N commentaries on classics, noise control is at lower level, air supply operating speed also reduces in step, detect blood pressure simultaneously, blood oxygen, indoor carbon dioxide concentration, open the indoor oxygen content with the low noise, let the old people also can breathe fresh air evening, be unlikely to feel vexed in airtight room.

When a plurality of people exist indoors, an intelligent mode is set to operate, priority authority of a user can be set on the APP to execute, the air conditioner is adjusted in a mode of high priority authority, for example, children, adults and the old have different cooling and air supply effects required by different age groups, and the air conditioner cannot meet the requirements of all people, so that the priority authority needs to be set, and complaints that the comfort effect of the air conditioner is not in accordance with the effect of the consumer are prevented; in addition, the air conditioner monitors that a plurality of people use the same collected body surface data of different people in the same space to adjust the air supply angle, for example, the body surface temperature of a certain user is low, the body feeling is cold, the air conditioner properly adjusts the air supply angle through the intelligent bracelet positioning infrared heat sensor, and the user with cold body feeling is protected.

The air conditioner control method based on the intelligent wearable device 7 comprises a self-learning function, wherein after the APP is worn by a user for a period of time through the intelligent wearable device 7, the life work and rest rules and body state data of the user are accumulated, and corresponding parameters are respectively adjusted to run at different time periods. And adjusting the operation parameters through the collected data and a habit database of the user without a preset mode.

An air conditioner control system based on intelligence bracelet includes:

The judging module 1 compares the received human body state parameters with the human body state parameters recorded in the database;

The control module 2 is used for the air conditioner to receive the human body state parameters sent and detected by the intelligent wearable device 7; controlling the air conditioner to adjust the air conditioner according to the received human body state parameters, sending a feedback signal to the intelligent bracelet, and synchronously starting timing;

the acquisition module 3 is used for receiving human body state parameters detected by the smart band and sent by the smart band by the air conditioner;

After the air conditioner receives the human body state parameters sent by the intelligent bracelet, the air conditioner controls and sends corresponding receiving feedback signals;

The air conditioner main control unit 5 adjusts the operation parameters of the air conditioner according to the comparison result of the human body state parameters;

And the communication module 4 is used for communicating the human body state parameters stored by the control module 2 with the network platform 6.

The control system is worn close to the body through the intelligent bracelet, the distance from the intelligent bracelet to the body is short, the monitored temperature is more accurate, and the air conditioner control effect is better.

The invention further provides an air conditioner which comprises the air conditioner control system based on the intelligent bracelet.

The intelligent wearable device 7 is mainly used for acquiring various parameters of a large number of human bodies such as heart rate, blood pressure, movement steps and movement tracks through various sensors, judging whether the human bodies are in a sleep state, a movement state, a quiet sitting state and the like through big data operation, setting cold and hot comfort requirement parameters through APP, and automatically adjusting the temperature and the wind speed to meet the comfort requirements of people with various constitutions to realize full-automatic comfortable closed-loop control. The problem of various discomfort when a user uses the air conditioner is reduced, and the intelligent degree of the air conditioner is improved.

It is to be understood that the present invention has been described with reference to certain embodiments, and that various changes in the features and embodiments, or equivalent substitutions may be made therein by those skilled in the art without departing from the spirit and scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (10)

1. an air conditioner control method based on intelligent wearable equipment is characterized by comprising the following steps: the air conditioner enters an intelligent somatosensory mode, and the air conditioner receives the human body state parameters sent by the intelligent wearable device (7); the air conditioner adjusts the operation parameters of the air conditioner according to the received human body state parameters, and sends feedback signals to the intelligent wearable device (7).

2. The intelligent wearable device-based air conditioner control method according to claim 1, wherein the human body state parameters comprise heart rate, action frequency, blood pressure, blood oxygen, breathing frequency, and skin-contacting body surface temperature of the intelligent wearable device (7).

3. the air conditioner control method based on the intelligent wearable device is characterized in that after the air conditioner receives the human body state parameters detected by the intelligent wearable device (7), the air conditioner receives a sleep signal detected by the intelligent wearable device (7) and sent by the intelligent wearable device (7), and the air conditioner adjusts the operation mode of the air conditioner according to the received sleep signal.

4. The intelligent wearable device-based air conditioner control method according to claim 3, wherein the step of adjusting the control action corresponding to the operation mode of the air conditioner according to the received sleep signal by the air conditioner comprises:

Judging a detected human body state parameter interval according to preset human body state parameters, and determining mode information of the air conditioner, wherein the mode information comprises a child mode and an old man mode;

and calling a corresponding preset process to control the air conditioner to execute a control action corresponding to the running mode according to the determined mode information.

5. The intelligent wearable device-based air conditioner control method according to claim 1, wherein the air conditioner collects human body state parameters monitored by the intelligent wearable device (7) every T1 seconds, and compares the human body state parameters with a preset human body state parameter interval;

when the human body state parameter is larger than the preset human body state parameter interval, controlling the air conditioner to reduce the internal temperature setting, reducing the motor frequency of the air conditioner and reducing the wind speed;

When the human body state parameter is smaller than the preset human body state parameter interval, controlling the air conditioner to improve the internal temperature setting, increasing the motor frequency of the air conditioner and improving the wind speed;

And when the human body state parameter is within the preset human body state parameter interval, controlling the air conditioner to keep the current running state.

6. the air conditioner control method based on the intelligent wearable device is characterized in that the air conditioner runs at a low frequency or stops when the fact that the body surface temperature of the intelligent wearable device (7) in the human body state parameters, which is in contact with the skin, is low for a long time is detected.

7. The intelligent wearable device-based air conditioner control method according to claim 1, wherein the human body state parameters collected by the intelligent wearable device (7) are obtained at least by one of the following methods: infrared communication, bluetooth communication, WIFI communication, cellular network communication.

8. The air conditioner control system based on the intelligent wearable equipment is characterized by comprising a control module (2) and an acquisition module (3), wherein the control module (2) is electrically connected with the acquisition module (3);

The acquisition module (3) is used for receiving the human body state parameters sent and detected by the intelligent wearable device (7);

And the air conditioner adjusts the operation parameters of the air conditioner according to the received human body state parameters and sends feedback signals to the intelligent wearable device (7).

9. The intelligent wearable device-based air conditioning control system of claim 8, further comprising a judgment module (1), an air conditioning main control unit (5) and a communication module (4) electrically connected to the control module (2), respectively;

The judging module (1) is used for judging and comparing the received human body state parameter with a preset human body state parameter;

the air conditioner main control unit (5) is used for adjusting the motor frequency of the air conditioner according to a feedback signal of the control module (2);

and the communication module (4) is used for communicating the human body state parameters stored by the control module (2) with the network platform (6).

10. An air conditioner characterized by comprising the intelligent wearable device (7) -based air conditioning control system as claimed in any one of claims 8-9.