CN115076937A - Air conditioner control device and method based on intelligent wearable equipment and air conditioner - Google Patents

Abstract

The invention provides an air conditioner control device and method based on intelligent wearable equipment and an air conditioner. The control method comprises the following steps: s1, primary and secondary intelligent wearing equipment obtains a standard comfort judgment value A1 of a person under guardianship; s2, wearing primary and secondary intelligent wearing equipment by the person under guardianship and the guardian respectively; s3, starting an intelligent somatosensory mode of the air conditioner; s4, the child intelligent wearable device collects parameter information of the person under guardianship and feeds the parameter information back to the parent intelligent wearable device; s5, the female intelligent wearable equipment obtains a preset comfort judgment value A2; s6, after the first preset time T1, the female intelligent wearable device obtains a current human body parameter value A3; s7, judging whether a first preset condition is met; if so, the air conditioner keeps the intelligent body sensing mode, otherwise, S8 is executed; and S8, adjusting the running state of the air conditioner. The intelligent air conditioner is suitable for special people who cannot take care of life, the feeling of a person under guardianship is fed back by the sub intelligent wearing equipment, the running state of the air conditioner is adjusted by the main intelligent wearing equipment, and the comfort of the special people in using the air conditioner is improved.

Description

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

Technical Field

The invention relates to the technical field of air conditioners, in particular to an air conditioner control device and method based on intelligent wearable equipment and an air conditioner.

Background

The air conditioner is one of the essential household appliances of family members, and brings great convenience and comfort level to the life of people. However, for some special people, such as infants, patients, and persons who cannot take care of their lives, the problem of difficulty in adjusting the comfortable environment of the air conditioner is presented. Even they have difficulty communicating with the guardian whether the current air-conditioned environment is a relatively comfortable environment for themselves.

The temperature and the humidity around special crowd are detected through the intelligent bracelet in the prior art, and when the temperature and the humidity reach a certain value, the temperature and the humidity are fed back to the air conditioner, and meanwhile, the air conditioner supplies air to a guardian to remind the guardian to change the temperature and the humidity set by the air conditioner. However, this method has the following problems: only the temperature and humidity precision is low, and whether special people are in a comfortable environment cannot be accurately shown; the air conditioner supplies air to the guardian to remind the guardian of changing the running state of the air conditioner, so that the condition is limited, the air conditioner is difficult to implement when the guardian and a special group are not in the same room, and the air supply to the guardian risks causing diseases; because the adjusting mode depends on a guardian too much, the running state of the air conditioner cannot be automatically adjusted.

Disclosure of Invention

In view of this, the invention aims to provide an air conditioner control device, a control method and an air conditioner based on intelligent wearable equipment, which can remotely change the running state of the air conditioner in an air conditioning room where special people are located, can exert the automatic adjustment function of the air conditioner, and can improve the use experience of the special people.

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

the utility model provides an air conditioner controlling means based on intelligence wearing equipment, includes: the sub-intelligent wearable device is used for acquiring human physiological information parameters and surrounding environment information of a person under guardianship in the environment where the air conditioner belongs; the primary intelligent wearing equipment is used for receiving the human physiological information parameters and the peripheral environment information acquired by the secondary intelligent wearing equipment, feeding back the human physiological information parameters and the peripheral environment information to the air conditioner and sending an instruction to the air conditioner; the acquisition module is used for enabling the air conditioner to acquire the instruction sent by the mother intelligent wearable device; the control module is used for regulating and controlling the running state of the air conditioner; the person under guardianship wears the sub intelligent wearing equipment, and the guardian wears the parent intelligent wearing equipment. The intelligent wearable device is provided with two intelligent wearable devices which are respectively worn on a guardian and a person under guardianship. When the person under guardianship is in the air-conditioned room, the sub-intelligent wearing equipment worn by the person under guardianship acquires the human physiological information parameters and the surrounding environment information of the person under guardianship, so that the trouble that the person under guardianship expresses by the sub-intelligent wearing equipment is eliminated. Through female intelligent wearing equipment, the guardian of being convenient for knows the condition of person under guardianship to can adjust the running state of air conditioner.

Furthermore, the child intelligent wearable device and the mother intelligent wearable device are selected from any one of an intelligent bracelet, an intelligent watch, an intelligent earphone, intelligent glasses and an intelligent pillow. The guardian and the person under guardianship can select the type of the intelligent wearable device according to the requirements of the guardian and the person under guardianship.

Further, the human physiological information parameter of the person under guardianship is selected from at least one of body surface temperature, heart rate, respiratory rate and blood pressure of the person under guardianship; the surrounding environment information is selected from at least one of temperature and humidity of the surrounding of the person under guardianship. One or more indexes in the human physiological information parameters are used for feeding back whether the monitored person is in a comfortable air-conditioned indoor environment. The interference of external factors is eliminated by utilizing the surrounding environment information of the person under guardianship.

The invention also provides an air conditioner control method based on the intelligent wearable equipment, wherein the control method applies the air conditioner control device based on the intelligent wearable equipment; the control method comprises the following steps:

s1, acquiring a standard comfort judgment value A1 of a person under guardianship by using child intelligent wearing equipment and parent intelligent wearing equipment;

s2, wearing a child intelligent wearing device by a person under guardianship, and wearing a parent intelligent wearing device by a guardian;

s3, starting an intelligent somatosensory mode of the air conditioner;

s4, the child intelligent wearing equipment collects human body physiological information parameters and surrounding environment information of the person under guardianship and feeds the human body physiological information parameters and the surrounding environment information back to the parent intelligent wearing equipment;

s5, the female intelligent wearing equipment calibrates the standard comfort judgment value A1 to obtain a preset comfort judgment value A2 suitable for the person under guardianship;

s6, after a first preset time T1, the female intelligent wearing equipment obtains a current human body parameter value A3 of the person under guardianship;

s7, judging whether a first preset condition is met; if yes, the air conditioner keeps the intelligent feeling mode, and if not, the step S8 is executed;

and S8, adjusting the running state of the air conditioner.

Further, the step S8 includes the following processes:

s81, automatically adjusting the running state of the air conditioner;

s82, after a second preset time T2, continuously judging whether the first preset condition is met; if so, the air conditioner is kept in the current running state, and if not, the step S83 is executed;

s83, the guardian adjusts the running state of the air conditioner through the female intelligent wearable device.

The air conditioner control method based on the intelligent wearable device is suitable for special crowds who cannot take care of themselves or have defective bodies, the real feeling of a person under guardianship is accurately fed back by using the sub intelligent wearable device, the running state of the air conditioner can be adjusted by analyzing related data information of the sub intelligent wearable device, the comfort of the special crowds using the air conditioner is improved, and the problem that the special crowds cannot operate the air conditioner is solved.

Further, the first preset condition is that the current human body parameter value A3-a preset comfort judgment value A2| ≦ D. When the first preset condition is met, the fact that the difference between the current human body parameter value A3 and the preset comfort judgment value A2 is not large indicates that the air conditioner still keeps the intelligent feeling mode can meet the needs of the person under guardianship. When the first preset condition is not met, the fact that the difference between the current human body parameter value A3 and the preset comfort judgment value A2 is large means that the intelligent sensing mode of the air conditioner cannot meet the comfort requirement of the person under guardianship, and therefore the running state of the air conditioner needs to be changed and adjusted.

Further, in the step S1, the standard comfort determination value a1 of the monitored person is obtained based on the physical information of the monitored person, which includes at least the age, sex, and height of the monitored person. The guardian inputs the body information of the person under guardianship into the child intelligent wearing equipment and the parent intelligent wearing equipment, and finds the standard comfort judgment value A1 of the person under guardianship in the database through big data analysis.

Further, in step S6, the human physiological information parameters and the surrounding environment information of the person under guardianship collected by the female smart wearable device are displayed on the female smart wearable device. The guardian can conveniently and visually and clearly know and inquire the condition of the person under guardianship. Even if the guardian and the person under guardianship are not in one room, the guardian can master the information of the person under guardianship and the condition of the person under guardianship in the air-conditioning room at any time through the female intelligent wearing equipment.

Further, in step S8, the operation state of the air conditioner may be adjusted by adjusting temperature, humidity, carbon dioxide concentration, noise value, wind speed, and a yaw angle. The monitored person is in a comfortable air-conditioning environment through the adjustment of a plurality of air-conditioning operation state parameters.

The invention also provides an air conditioner, which comprises a computer readable storage medium and a processor, wherein the computer readable storage medium is used for storing a computer program, and the computer program is read by the processing area and runs to realize the air conditioner control method based on the intelligent wearable device and/or the air conditioner control device based on the intelligent wearable device.

Compared with the prior art, the air conditioner control device, the air conditioner control method and the air conditioner based on the intelligent wearable equipment have the following advantages:

on one hand, the air conditioner control device, the air conditioner control method and the air conditioner based on the intelligent wearable equipment can more accurately adjust the running state of the air conditioner, are suitable for a person under guardianship who has higher requirements on the air conditioning environment and cannot express the feelings of the person under guardianship, and greatly improve the use experience of the person under guardianship; on the other hand, a plurality of human body physiological information parameters are detected simultaneously, the state of the person under guardianship is comprehensively analyzed in many aspects, the accuracy is improved, and the person under guardianship can master the information of the guardian at any time.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a flowchart of an air conditioner control method based on an intelligent wearable device according to an embodiment of the present invention.

Detailed Description

The inventive concepts of the present disclosure will be described hereinafter using terms commonly employed by those skilled in the art to convey the substance of their work to others skilled in the art. These inventive concepts may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

The invention will be described in detail below with reference to specific embodiments with reference to the attached drawings.

The invention relates to an air conditioner control device based on intelligent wearable equipment, which comprises: the sub-intelligent wearable device is used for acquiring human physiological information parameters and surrounding environment information of a person under guardianship in the environment where the air conditioner belongs; the primary intelligent wearing equipment is used for receiving the human physiological information parameters and the peripheral environment information acquired by the secondary intelligent wearing equipment, feeding back the human physiological information parameters and the peripheral environment information to the air conditioner and sending an instruction to the air conditioner; the acquisition module is used for enabling the air conditioner to acquire the instruction sent by the mother intelligent wearable device; the control module is used for regulating and controlling the running state of the air conditioner; the person under guardianship wears the sub intelligent wearing equipment, and the guardian wears the parent intelligent wearing equipment.

For some special people, such as infants, patients and persons who cannot take care of themselves in life, the air conditioner cannot be actively adjusted due to physical reasons or age reasons, and it is difficult to communicate with other people whether the indoor environment under the current air conditioner is a relatively comfortable environment. Because the physical quality of the special people is relatively weaker than that of healthy people, a proper air-conditioning use environment is needed when the air conditioner is used. For these special groups, the requirements of the healthy people on the air conditioner cannot be used as the regulation standard when the air conditioner is used by the special groups because the parameters such as the temperature and the humidity of the indoor environment are inconsistent with the requirements of the healthy people.

These special groups often require healthy people as guardians to attend to them, and the special groups are people under guardianship. The air conditioner control device based on the intelligent wearing equipment comprises the sub intelligent wearing equipment and the parent intelligent wearing equipment, wherein a person under guardianship wears the sub intelligent wearing equipment, and a guardian wears the parent intelligent wearing equipment. When the person under guardianship is in the air-conditioned room, the sub-intelligent wearing equipment worn by the person under guardianship acquires the human physiological information parameters of the person under guardianship, so that the trouble that the person under guardianship expresses the parameters by self is eliminated. The human physiological information parameters of the person under guardianship include but are not limited to: the body surface temperature, the heart rate, the breathing rate, the blood pressure and the like of the person under guardianship. By acquiring a plurality of human body physiological information parameters, the state of the person under guardianship is comprehensively analyzed in multiple aspects, so that a proper air-conditioning indoor environment is set, and the accuracy is improved. The surrounding environment information includes, but is not limited to, temperature and humidity information of the surrounding of the person under guardianship.

The primary intelligent wearing equipment is used for receiving the human physiological information parameters collected by the secondary intelligent wearing equipment and feeding back the human physiological information parameters to the air conditioner. The air conditioner automatically adjusts the running state of the air conditioner according to the feedback information, or adjusts the running state of the air conditioner by means of the mother intelligent wearing equipment, so that the person under guardianship is in a proper environment. By the aid of the sub-intelligent wearable device, the problem that a person under guardianship cannot clearly express or even cannot express own requirements is avoided; through female intelligent wearing equipment, the guardian of being convenient for knows the condition of person under guardianship to can adjust the running state of air conditioner.

The child intelligent wearable device and the mother intelligent wearable device can be any one of an intelligent bracelet, an intelligent watch, an intelligent earphone, intelligent glasses and an intelligent pillow. Specifically, child intelligent wearing equipment and mother intelligent wearing equipment are intelligent bracelet. The intelligent bracelet is small and exquisite and light, and only needs to be worn on the wrist of a human body, so that the normal life of a person under guardianship is not obstructed.

Specifically, as shown in fig. 1, the air conditioner control method based on the intelligent wearable device of the present invention includes the following steps:

s1, acquiring a standard comfort judgment value A1 of a person under guardianship by using child intelligent wearing equipment and parent intelligent wearing equipment;

specifically, the guardian inputs the body information of the person under guardianship into the child intelligent wearing device and the parent intelligent wearing device. The standard comfort decision value a1 of the person under guardianship is found in the database by big data analysis. The standard comfort determination value a1 is a result obtained by big data analysis suitable for a population having the same physical information. The physical information of the person under guardianship at least comprises the age, the sex and the height of the person under guardianship. The standard comfort judgment value A1 at least comprises a standard heart rate, a standard body surface temperature, a standard respiration rate, a standard blood pressure and the like of a person to be monitored. Obtaining the standard comfort determination value a1 through the child intelligent wearable device and the parent intelligent wearable device is prior art and will not be described herein.

S2, wearing a child intelligent wearing device by a person under guardianship, and wearing a parent intelligent wearing device by a guardian;

specifically, the intelligent wearable device can be worn on the wrist, the ankle, the head and the ear or on the body according to the type of the intelligent wearable device selected for use. The child intelligent wearing equipment is used for obtaining human physiological information parameters of a person under guardianship in the environment where the air conditioner belongs to and transmitting the obtained human physiological information parameters to the parent intelligent wearing equipment, and the parent intelligent wearing equipment feeds the human physiological information parameters back to the air conditioner.

S3, starting an intelligent somatosensory mode of the air conditioner;

specifically, after the sub-intelligent wearable device finds the standard comfortable judgment value A1 corresponding to the monitored person in the database according to the characteristic information of the monitored person, such as age, gender and the like, the sub-intelligent wearable device automatically adapts to the physical demands of the monitored person by setting an air conditioner intelligent body feeling mode. The air conditioner can start the air conditioner intelligent body sensing mode when receiving a starting instruction sent by a guardian, or the air conditioner intelligent body sensing mode is automatically started after the air conditioner runs.

S4, the child intelligent wearing equipment collects human body physiological information parameters and surrounding environment information of the person under guardianship and feeds the human body physiological information parameters and the surrounding environment information back to the parent intelligent wearing equipment;

specifically, human body physiological information parameters and surrounding environment information of the person under guardianship are detected through the sub intelligent wearable device. The human body physiological information parameters at least comprise body surface temperature, heart rate, respiration rate, blood pressure and the like of the person under guardianship, and the surrounding environment information at least comprises the temperature, humidity and other information of the surrounding of the person under guardianship.

One or more indexes in the human physiological information parameters are used for feeding back whether the monitored person is in a comfortable air-conditioned indoor environment. Preferably, the sub-intelligent wearable device detects human physiological information parameters in various forms, so that the working state of the air conditioner can be adjusted more accurately according to the human physiological information parameters of the person under guardianship, and the person under guardianship is ensured to be in a comfortable environment. The interference of external factors is eliminated by utilizing the surrounding environment information of the person under guardianship, so that the control is more accurate. For example, when a person under guardianship needs to cover a quilt usually in a sleeping state, the body surface temperature of the person under guardianship detected by the sub intelligent wearing device is higher than the body surface temperature of the person under guardianship when the person under guardianship is not covered by the quilt. Therefore, the sub-intelligent wearable device also needs to collect the surrounding environment information of the person under guardianship to eliminate and reduce the interference of the surrounding environment factors.

S5, the female intelligent wearing equipment calibrates the standard comfort judgment value A1 to obtain a preset comfort judgment value A2 suitable for the person under guardianship;

specifically, the standard comfort determination value a1 may vary from person to person and have individual differences, and simply responding to the demands of users through the standard comfort determination value a1 is inaccurate, so the mother intelligent wearable device needs to further analyze the human physiological information parameters and the ambient environment information of the person under guardianship, and calibrate the standard comfort determination value a1 according to the human physiological information parameters and the ambient environment information of the person under guardianship to obtain the preset comfort determination value a2 suitable for the person under guardianship, so as to reduce the influence of the comfort determination value due to the individual differences and improve the comfort and reliability of the person under guardianship using the air conditioner. The preset comfort judgment value A2 at least comprises a preset heart rate, a preset body surface temperature, a preset respiration rate, a preset blood pressure and the like of a person under guardianship. It is prior art to obtain a preset comfort decision value a2 suitable for a person under guardianship by calibrating the standard comfort decision value a1, and will not be described herein again.

S6, after a first preset time T1, the female intelligent wearing equipment obtains a current human body parameter value A3 of the person under guardianship;

specifically, when the human physiological information parameter and/or the ambient environment information of the person under guardianship changes, the air-conditioning intelligent body sensing mode according to the standard comfort determination value a1 in the database is not always applicable, and therefore, the specific human physiological information parameter of the person under guardianship needs to be combined under different conditions.

For example, when the air conditioner is in a cooling mode, the infant can breathe stably when sleeping, the heart rate is low, the temperature of the air conditioner can be properly increased, and the infant can be prevented from catching a cold. When the baby wakes up and cry, the baby breathes rapidly, the heart rate is increased, and if the air-conditioning temperature of the baby in sleep is kept, the baby feels hot, so that the air-conditioning temperature needs to be reduced appropriately. For the patient, the patient is characterized in that the body of the patient is weak, and the refrigerating temperature of the air conditioner cannot be too low when the patient moves, so that the patient is in a comfortable environment; when a patient falls asleep, the noise of the operation of the air conditioner needs to be reduced, and the fresh air is started to ensure the oxygen content of the indoor environment, so that the patient is in an air-conditioning room with appropriate temperature, the interference of the noise is avoided, and the patient does not feel unsmooth breathing in the closed air-conditioning room.

After the first preset time T1, the child intelligent wearable device feeds back the collected human physiological information parameters and the surrounding environment information of the person under guardianship to the parent intelligent wearable device, and the parent intelligent wearable device analyzes the collected data information to obtain the current human parameter value A3 of the person under guardianship. The current human body parameter value a3 includes at least a current heart rate, a current body surface temperature, a current respiration rate, a current blood pressure, and the like of the person under guardianship. The first preset time T1 may be determined by an air conditioner manufacturer according to an empirical value.

The human body physiological information parameters and the surrounding environment information of the person under guardianship, which are collected by the female intelligent wearing equipment, are displayed on the female intelligent wearing equipment, so that a guardian can visually and clearly know and inquire the condition of the person under guardianship conveniently. Even if the guardian and the person under guardianship are not in one room, the guardian can master the information of the person under guardianship and the condition of the air-conditioned room in which the person under guardianship is located at any time through the female intelligent wearing equipment.

S7, judging whether a first preset condition is met; if yes, the air conditioner keeps the intelligent feeling mode, and if not, the step S8 is executed;

specifically, the first preset condition is that the current human body parameter value A3-a preset comfort judgment value A2| < D, wherein D is a constant and is determined by an air conditioner manufacturer according to an empirical value. Since the preset comfort determination value a2 includes a plurality of indices: the method comprises the following steps of presetting heart rate, presetting body surface temperature, presetting respiration rate, presetting blood pressure and the like of a person under guardianship; correspondingly, the current human body parameter value a3 also includes a plurality of indicators: the current heart rate of the person under guardianship, the current body surface temperature, the current breathing rate, the current blood pressure and the like. And when the absolute value of the difference value between any one of the corresponding indexes is less than or equal to D, a first preset condition is met.

When the first preset condition is met, the fact that the difference between the current human body parameter value A3 and the preset comfort judgment value A2 is not large indicates that the air conditioner still keeps the intelligent feeling mode can meet the needs of the person under guardianship. When the first preset condition is not met, the fact that the difference between the current human body parameter value A3 and the preset comfort judgment value A2 is large means that the intelligent sensing mode of the air conditioner cannot meet the comfort requirement of the person under guardianship, and therefore the running state of the air conditioner needs to be changed and adjusted.

S8, adjusting the running state of the air conditioner;

specifically, the operation state of the air conditioner can be adjusted by adjusting the following parameters of the air conditioner: temperature, humidity, carbon dioxide concentration, noise value, wind speed, and yaw angle. The monitored person is in a comfortable air-conditioning environment through the adjustment of a plurality of air-conditioning operation state parameters.

Further, the step S8 includes the following processes:

s81, automatically adjusting the running state of the air conditioner;

specifically, when the intelligent motion sensing mode of the air conditioner cannot meet the use requirement, the main intelligent wearable device feeds a current human body parameter value A3 acquired from the sub intelligent wearable device back to the air conditioner, and the air conditioner automatically adjusts the running state according to the current human body parameter value A3 so as to meet the comfortable requirement of the person under guardianship for using the air conditioner.

S82, after a second preset time T2, continuously judging whether the first preset condition is met; if so, the air conditioner is kept in the current running state, and if not, the step S83 is executed;

specifically, the problem that the operation state is automatically adjusted only by the air conditioner may occur that the air conditioner is adjusted for a long time or the requirement of a person under guardianship cannot be met after the air conditioner is automatically adjusted. After the second preset time T2, whether the current human body parameter value A3 and the preset comfort judgment value A2 of the person under guardianship meet the first preset condition or not is continuously judged. The first preset condition is that the current human body parameter value A3-the preset comfort judgment value A2| < D, wherein D is a constant. It should be noted that the human physiological information parameter A3 obtained by the mother intelligent wearable device is obtained after the current human parameter value A3 is the second preset time T2. If the first preset condition is met, the operation state is automatically adjusted through the air conditioner, the environment in the air-conditioning room is suitable for the person under guardianship, and the air conditioner is kept in the current operation state.

The second preset time T2 may be determined by an air conditioner manufacturer according to an empirical value. More specifically, the second preset time T2 is 3-15 min. If the second preset time T2 is too short, it may be because the air conditioner has a short time for automatically adjusting the operation state, which is not enough to make the indoor environment in a comfortable condition of the person under guardianship. If the second preset time T2 is longer, the monitored person may be in a non-optimum air-conditioned indoor environment for a longer period of time, which affects the use experience of the monitored person.

S83, the guardian adjusts the running state of the air conditioner through the female intelligent wearable device.

Specifically, if the air conditioner automatically adjusts the operation state for the second preset time T2, the first preset condition still cannot be satisfied, which indicates that the current operation state of the air conditioner is not the optimal comfortable state of the person under guardianship. The parent intelligent wearing equipment reminds a guardian, and the guardian sends an instruction to adjust the air conditioner through the parent intelligent wearing equipment. When the guardian sends an adjusting instruction through the female intelligent wearable device, the air conditioner is turned off to automatically adjust the running state. The parent intelligent wearable device can remind a guardian through any one of vibration, music sending, flickering and the like. The running state of the air conditioner is adjusted through the female intelligent wearable device, so that even if a person under guardianship and a guardian are not in the same room, the guardian can remotely control the air conditioner through the female intelligent wearable device, and the running state of the air conditioner is more accurate through a manual adjustment mode. Compare in the condition that only relies on air conditioner automatically regulated running state, this application utilizes air conditioner automatically regulated running state and the long-range manual adjustment air conditioner running state of guardian simultaneously, and is more accurate, is particularly suitable for special crowd. The requirements of special people on the indoor environment of the air conditioner are higher than those of ordinary people, the air conditioner running state can be adjusted more accurately through the air conditioner control method based on the intelligent wearable equipment, and the use experience of people under guardianship is greatly improved.

In step S8, the guardian may automatically send a command to the primary smart wearable device to actively adjust the air conditioner through the information displayed on the primary smart wearable device at any time when the air conditioner automatically adjusts the operation state. The instruction that female intelligent wearing equipment sent is the highest priority, and when female intelligent wearing equipment sent the instruction, the mode of automatic adjustment running state was closed in step to the guardian was opened manually to the air conditioner.

The air conditioner control method based on the intelligent wearable device is suitable for special crowds who cannot take care of themselves or have defective bodies, the real feeling of a person under guardianship is accurately fed back by using the sub intelligent wearable device, the running state of the air conditioner can be adjusted by analyzing related data information of the sub intelligent wearable device, the comfort of the special crowds using the air conditioner is improved, and the problem that the special crowds cannot operate the air conditioner is solved.

As part of the embodiments of the present invention, the present invention further provides an air conditioner, which includes a computer readable storage medium storing a computer program and a processor, where the computer program is read by the processing area and executed to implement the above-mentioned air conditioner control method based on the smart wearable device, and/or include the above-mentioned air conditioner control apparatus based on the smart wearable device.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. The utility model provides an air conditioner controlling means based on intelligence wearing equipment which characterized in that includes:

the sub-intelligent wearable device is used for acquiring human physiological information parameters and surrounding environment information of a person under guardianship in the environment where the air conditioner belongs;

the primary intelligent wearing equipment is used for receiving the human physiological information parameters and the peripheral environment information acquired by the secondary intelligent wearing equipment, feeding back the human physiological information parameters and the peripheral environment information to the air conditioner and sending an instruction to the air conditioner;

the acquisition module is used for enabling the air conditioner to acquire the instruction sent by the mother intelligent wearable device;

the control module is used for regulating and controlling the running state of the air conditioner;

the person under guardianship wears the sub intelligent wearing equipment, and the guardian wears the parent intelligent wearing equipment.

2. The air conditioner control device based on the intelligent wearable device of claim 1, wherein the child intelligent wearable device and the mother intelligent wearable device are selected from any one of an intelligent bracelet, an intelligent watch, an intelligent earphone, an intelligent glasses and an intelligent pillow.

3. The intelligent wearable device-based air conditioning control device according to claim 1, wherein the human physiological information parameter of the monitored person is selected from at least one of a body surface temperature, a heart rate, a respiration rate and a blood pressure of the monitored person; the surrounding environment information is selected from at least one of temperature and humidity of the surrounding of the person under guardianship.

4. An air conditioner control method based on intelligent wearable equipment is characterized in that the control method applies the air conditioner control device based on the intelligent wearable equipment in any one of claims 1-3; the control method comprises the following steps:

s1, acquiring a standard comfort judgment value A1 of a person under guardianship by using child intelligent wearing equipment and parent intelligent wearing equipment;

s2, wearing a child intelligent wearing device by a person under guardianship, and wearing a parent intelligent wearing device by a guardian;

s3, starting an intelligent somatosensory mode of the air conditioner;

s4, the child intelligent wearing equipment collects human body physiological information parameters and surrounding environment information of the person under guardianship and feeds the human body physiological information parameters and the surrounding environment information back to the parent intelligent wearing equipment;

s5, the female intelligent wearing equipment calibrates the standard comfort judgment value A1 to obtain a preset comfort judgment value A2 suitable for the person under guardianship;

s6, after a first preset time T1, the female intelligent wearing equipment obtains a current human body parameter value A3 of the person under guardianship;

s7, judging whether a first preset condition is met; if yes, the air conditioner keeps the intelligent feeling mode, and if not, the step S8 is executed;

and S8, adjusting the running state of the air conditioner.

5. The intelligent wearable device-based air conditioner control method according to claim 4, wherein the step S8 comprises the following steps:

s81, automatically adjusting the running state of the air conditioner;

s82, after a second preset time T2, continuously judging whether the first preset condition is met; if so, the air conditioner is kept in the current running state, and if not, the step S83 is executed;

s83, the guardian adjusts the running state of the air conditioner through the female intelligent wearable device.

6. The intelligent wearable device-based air conditioner control method according to any one of claims 4 or 5, wherein the first preset condition is | current human body parameter value A3-preset comfort determination value A2| ≦ D.

7. The intelligent wearable device based air conditioner control method according to claim 4, wherein in the step S1, a standard comfort decision value A1 of the person under guardianship is obtained according to body information of the person under guardianship, wherein the body information at least comprises age, sex and height of the person under guardianship.

8. The intelligent wearable device-based air conditioner control method according to claim 4, wherein in step S6, the human physiological information parameters and the surrounding environment information of the person under guardianship collected by the mother intelligent wearable device are displayed on the mother intelligent wearable device.

9. The air conditioner control method based on the intelligent wearable device, according to claim 4, wherein in the step S8, the operation state of the air conditioner can be adjusted by adjusting temperature, humidity, carbon dioxide concentration, noise value, wind speed and wind swinging angle.

10. An air conditioner, characterized in that the air conditioner comprises a computer readable storage medium storing a computer program and a processor, the computer program is read and executed by the processing area, and the computer program implements the intelligent wearable device-based air conditioner control method according to any one of claims 4 to 9, and/or comprises the intelligent wearable device-based air conditioner control apparatus according to any one of claims 1 to 3.

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