CN111102643A - Wall-mounted furnace and control method and system thereof - Google Patents

Abstract

The invention provides a wall-mounted boiler control method, a wall-mounted boiler control system, a wall-mounted boiler and a computer readable storage medium. The wall-mounted furnace and the body state detector can perform data transmission, and the control method comprises the following steps: acquiring heart rate data detected by a target body state detector; and when the heart rate data meets the preset sleep condition, starting a sleep mode, and controlling the output temperature of the wall-mounted furnace according to the sleep curve corresponding to the target body state detector. According to the control method of the wall-mounted furnace, the sleep mode of the wall-mounted furnace is intelligently started according to the heart rate detected by the target body state detector, and the output temperature of the wall-mounted furnace is controlled according to the corresponding sleep curve, so that the heating requirement of a user is guaranteed to the greatest extent, and the resource waste is avoided.

Description

Wall-mounted furnace and control method and system thereof

Technical Field

The invention relates to the technical field of heating equipment, in particular to a wall-mounted furnace and a control method and a control system thereof.

Background

At present, the gas wall-mounted stove has a powerful household central heating function, can meet the heating requirements of multiple rooms, and can set comfortable temperature at will according to the requirements in each room. After a human body falls asleep at night, a biological rhythm exists in sleep, namely, a period with 5 different stages is passed within about 90-100 minutes, and the sleep stage is divided into five stages by international sleep medicine: falling asleep, light sleep, sound sleep, deep sleep, and rapid eye movement. Because the requirement of sleep cycle to the temperature is different, can lead to hanging stove can't satisfy the demand at the ambient temperature that people sleep time provided, sometimes overheated, sometimes supercooling, experience is very bad.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art.

To this end, a first aspect of the present invention proposes a method for controlling a wall-hanging stove.

A second aspect of the present invention is to provide a control system for a wall-hanging stove.

A third aspect of the present invention is to provide a wall hanging stove.

A fourth aspect of the invention is directed to a computer-readable storage medium.

In view of this, according to a first aspect of the present invention, there is provided a method for controlling a wall-hanging stove, in which the wall-hanging stove and a body state detector can perform data transmission, the method comprising: acquiring heart rate data detected by a target body state detector; and when the heart rate data meets the preset sleep condition, starting a sleep mode, and controlling the output temperature of the wall-mounted furnace according to the sleep curve corresponding to the target body state detector.

According to the control method of the wall-mounted furnace, the wall-mounted furnace and the body state detector can perform data transmission, wherein the target body state detector can detect heart rate data of a user, the heart rate data of the user is acquired in real time, the heart rate data is judged after the heart rate data detected by the target body state detector is acquired, when the heart rate data meets preset sleep conditions, the user is proved to be in a sleep state, the wall-mounted furnace is controlled to start the sleep mode at the moment, the automatic start of the sleep mode of the wall-mounted furnace is realized, the phenomenon that the sleep mode is started by manual control in the prior art, the use experience of the user is influenced is avoided, and the intelligent level of heating of the wall-mounted furnace is improved. Further, the user can have a plurality of stages under the sleep state, and each stage is different to the requirement of temperature, and when the hanging stove was in sleep mode, the output temperature of the hanging stove of sleep curve control that corresponds according to target health state detector to guarantee that the hanging stove all can provide required temperature for the user according to user's real-time sleep stage, guaranteed user's heating demand on the one hand, the extravagant condition of the energy that the hanging stove continued to heat and lead to can not appear on the other hand.

Specifically, after a person falls asleep, sleep occurs in a biorhythm that is, over a period of 5 distinct phases in about 90 to 100 minutes, international sleep medicine divides the sleep phases into five phases: falling asleep, light sleep, sound sleep, deep sleep, and rapid eye movement. Because the requirement of the sleep cycle on the temperature is different, the ambient temperature provided by the wall-mounted stove during the sleep time of people can not meet the user requirement, and the wall-mounted stove is overheated sometimes, overcooled sometimes and has poor experience. According to the control method of the wall-mounted boiler, the output temperature of the wall-mounted boiler is controlled according to the sleep curve corresponding to the target body state detector, so that the output temperature of the wall-mounted boiler is ensured to be matched with the temperature required by a human body, the heating requirement of a user is ensured to the greatest extent, and the resource waste is avoided.

Specifically, the body state detector may be an intelligent bracelet, worn on the wrist of the user; or the health state detector still can be for intelligent neck ring, wear on user's neck, realize the real-time detection to user's rhythm of the heart data through intelligent bracelet or intelligent neck ring, and through data transmission module with rhythm of the heart data transmission to hanging stove on, the hanging stove is through carrying out the analysis to rhythm of the heart data, judge user's the state of falling asleep, start the sleep mode, intelligence carries out the adjustment of space heating, the intelligence of having realized hanging stove sleep mode is opened, and the best ambient temperature who guarantees to satisfy human sleep.

In addition, the method for controlling the wall-hanging stove in the technical scheme provided by the invention can also have the following additional technical characteristics:

in the above technical solution, preferably, the number of the body state detectors is plural, and the control method further includes: receiving a selection instruction of the physical state detector, determining a target physical state detector, and establishing data connection with the target physical state detector.

In this technical scheme, considering that each family has a plurality of members, including an old person, an adult, a child, and the like, and there is a certain individual difference in sleep among the child, the old person, and the adult, a body state detector is provided for each family member. Before the sleep mode of the wall-mounted furnace is started, a target body state detector (which can be an old person or a body state detector worn by any family member of a child or an adult) is determined through a selection instruction of the body state detector, and then data connection of the target body state detector is established, so that a sleep curve corresponding to the target body state detector can be obtained in real time, and the output power of the wall-mounted furnace is controlled according to the sleep curve of the target family member (namely, the selected family member).

Specifically, the selection of the target body state detector may be switched at any time.

In any of the above technical solutions, preferably, the method further includes: acquiring the heart rate data detected by each of the plurality of physical state detectors within a preset time and the duration of the variation value of the heart rate data within a preset range, and generating a sleep curve.

According to the technical scheme, the heart rate data detected by each body state detector within preset time (specifically, 24 hours) and the duration of the change value of the heart rate data within a preset range are obtained, a sleep curve of each family member is generated, so that the change of the sleep stage of each family member is obtained, the sleep stage of each family member can be accurately judged, then a selection instruction of the body state detector is received, a target body state detector is determined, and then the wall-hanging furnace is controlled to adjust the output power in real time, so that a comfortable temperature environment is provided for the target family member. It is worth noting that due to the generation of the sleep curve, the sleep stage change of the target family member in the preset time can be accurately known, and the real-time accurate control of the wall-mounted boiler is further ensured. Furthermore, the sleep stage where the user is currently located is judged by monitoring the real-time change condition of the heart rate data, the duration of the change value of the heart rate data is kept within a preset range, the duration of the current sleep stage is determined, and an exclusive sleep curve of each member in the family is drawn through the heart rate data and the duration, so that the requirement of any member in the family on the sleep temperature is met, and the use experience of the user is improved.

In any of the above technical solutions, preferably, the method further includes: and numbering the plurality of body state detectors, and storing the sleep curves corresponding to the body state detectors.

In the technical scheme, each body state detector is numbered firstly, so that a one-to-one correspondence relationship is formed between each body state detector and family members, the family members corresponding to each body state detector can be distinguished, a sleep curve of each family member can be formed, and each sleep curve corresponding to each body state detector is stored, so that the change of the sleep stage of a target family member can be accurately known when the family members sleep, and the wall-mounted furnace can be accurately controlled.

In any of the above technical solutions, preferably, the preset sleep condition is a preset heart rate data range corresponding to each physical status detector.

In the technical scheme, the human body can be in different stages when in a sleep state, the heartbeat frequency in each stage is different, and the falling asleep heart rate data of each individual is also different, so that the preset heart rate data range of each member is different, for example, the heartbeat frequency of the human body in the falling asleep state is lower than that in the shallow asleep state, so that the preset heart rate data range of each member is matched with the body state detector worn by the member, the preset heart rate data range corresponding to each body state detector is judged, and whether the target member enters the sleep state or not is judged, when the preset sleep condition is met, the wall-hanging stove is controlled to start the sleep state, and a suitable temperature environment is provided for the user.

A second aspect of the present invention provides a control system for a wall-mounted stove, where the wall-mounted stove and a body state detector can perform data transmission, the control system including: a memory for storing a computer program; a processor for executing a computer program to: acquiring heart rate data detected by a target body state detector; and when the heart rate data meets the preset sleep condition, starting a sleep mode, and controlling the output temperature of the wall-mounted furnace according to the sleep curve corresponding to the target body state detector.

The control system of the wall-mounted furnace comprises a memory and a processor which are matched with each other, wherein the memory is stored with a computer program, and the processor is used for executing the computer program to realize corresponding functions. Specifically, the method comprises the following steps: the target health state detector can detect user's rhythm of the heart data, acquire user's rhythm of the heart data in real time, treat that the application acquires the rhythm of the heart data that target health state detector detected after, judge the rhythm of the heart data, when the rhythm of the heart data satisfies preset sleep condition, prove that the user has got into the sleep state, control hanging stove this moment and start the sleep mode, realized opening the automation of hanging stove sleep mode, adopted manual control to open the sleep mode among the prior art, influence user's use and experience, the intelligent level of hanging stove heating has been promoted. Further, the user can have a plurality of stages under the sleep state, and each stage is different to the requirement of temperature, and when the hanging stove was in sleep mode, the output temperature of the hanging stove of sleep curve control that corresponds according to target health state detector to guarantee that the hanging stove all can provide required temperature for the user according to user's real-time sleep stage, guaranteed user's heating demand on the one hand, the extravagant condition of the energy that the hanging stove continued to heat and lead to can not appear on the other hand.

Specifically, after a person falls asleep, sleep occurs in a biorhythm that is, over a period of 5 distinct phases in about 90 to 100 minutes, international sleep medicine divides the sleep phases into five phases: falling asleep, light sleep, sound sleep, deep sleep, and rapid eye movement. Because the requirement of the sleep cycle on the temperature is different, the ambient temperature provided by the wall-mounted stove during the sleep time of people can not meet the user requirement, and the wall-mounted stove is overheated sometimes, overcooled sometimes and has poor experience. The control system of the wall-mounted furnace provided by the invention controls the output temperature of the wall-mounted furnace according to the sleep curve corresponding to the target body state detector so as to ensure that the output temperature of the wall-mounted furnace is matched with the temperature required by a human body, ensure the heating requirement of a user to the maximum extent and avoid resource waste.

Specifically, the body state detector may be an intelligent bracelet, worn on the wrist of the user; or the health state detector still can be for intelligent bracelet, wear on user's neck, realize the real-time detection to user's rhythm of the heart data through intelligent bracelet or intelligent bracelet, and through data transmission module with rhythm of the heart data transmission to hanging stove on, hanging stove is through carrying out the analysis to rhythm of the heart data, judge user's state of falling asleep, start sleep mode, intelligence carries out the adjustment of space heating, the intelligence of having realized hanging stove sleep mode is opened, and guarantee to satisfy the best ambient temperature of human sleep.

In the above technical solution, preferably, the number of the body state detectors is multiple, and the processor is further configured to: receiving a selection instruction of the physical state detector, determining a target physical state detector, and establishing data connection with the target physical state detector.

In this technical scheme, considering that each family has a plurality of members, including an old person, an adult, a child, and the like, and there is a certain individual difference in sleep among the child, the old person, and the adult, a body state detector is provided for each family member. Before the sleep mode of the wall-mounted furnace is started, the processor receives a selection instruction of the physical state detector to determine a target physical state detector (which can be an old person or a physical state detector worn by any family member of a child or an adult), then establishes data connection of the target physical state detector, and can acquire a sleep curve corresponding to the target physical state detector in real time so as to control the output power of the wall-mounted furnace according to the sleep curve of the target family member (namely, the selected family member).

Specifically, the selection of the target body state detector may be switched at any time.

In any of the above technical solutions, preferably, the processor is further configured to: acquiring the heart rate data detected by each of the plurality of physical state detectors within a preset time and the duration of the variation value of the heart rate data within a preset range, and generating a sleep curve.

In the technical scheme, the processor acquires the heart rate data detected by each body state detector within a preset time (specifically, 24 hours) and the duration of the change value of the heart rate data within a preset range, generates a sleep curve of each family member, so as to acquire the change of the sleep stage of each family member, and ensure that the sleep stage of each family member can be accurately judged, and then the processor receives a selection instruction of the body state detector, determines a target body state detector, and further controls the wall-hanging furnace to adjust the output power in real time, so as to provide a comfortable temperature environment for the target family member. It is worth noting that due to the generation of the sleep curve, the sleep stage change of the target family member in the preset time can be accurately known, and the real-time accurate control of the wall-mounted boiler is further ensured. Furthermore, the sleep stage where the user is currently located is judged by monitoring the real-time change condition of the heart rate data, the duration of the change value of the heart rate data is kept within a preset range, the duration of the current sleep stage is determined, and an exclusive sleep curve of each member in the family is drawn through the heart rate data and the duration, so that the requirement of any member in the family on the sleep temperature is met, and the use experience of the user is improved.

In any of the above technical solutions, preferably, the processor is further configured to: and numbering the plurality of body state detectors, and storing the sleep curves corresponding to the body state detectors.

In the technical scheme, the processor firstly numbers each body state detector, so that a one-to-one correspondence relationship is formed between each body state detector and family members, the family members corresponding to each body state detector can be distinguished, a sleep curve of each family member can be formed, and then each sleep curve corresponding to each body state detector is stored, so that the change of the sleep stage of a target family member can be accurately known when the family members sleep, and the accurate control of the wall-mounted furnace is ensured.

In any of the above technical solutions, preferably, the preset sleep condition is a preset heart rate data range corresponding to each physical status detector.

In the technical scheme, the human body can be in different stages when in a sleep state, the heartbeat frequency in each stage is different, and the falling asleep heart rate data of each individual is also different, so that the preset heart rate data range of each member is different, for example, the heartbeat frequency of the human body in the falling asleep state is lower than that in the shallow asleep state, so that the preset heart rate data range of each member is matched with the body state detector worn by the member, the preset heart rate data range corresponding to each body state detector is judged, and whether the target member enters the sleep state or not is judged, when the preset sleep condition is met, the wall-hanging stove is controlled to start the sleep state, and a suitable temperature environment is provided for the user.

A third aspect of the present invention provides a wall-hanging stove including the control system of any one of the above-described technical solutions.

The wall-mounted furnace provided by the invention comprises the control system of any technical scheme, so that the wall-mounted furnace has all the beneficial effects of the control system, and is not repeated herein.

A fourth aspect of the present invention provides a computer-readable storage medium having a computer program stored thereon, the computer program, when executed by a processor, implementing the method of controlling a wall-hanging stove according to any one of the above aspects. Therefore, the wall-hanging stove control method has all the beneficial effects of any one of the technical schemes.

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.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic flow chart illustrating a method for controlling a wall-hanging stove according to an embodiment of the present invention;

fig. 2 is a schematic flow chart illustrating a method for controlling a wall-hanging stove according to still another embodiment of the present invention;

fig. 3 is a schematic flow chart illustrating a method for controlling a wall-hanging stove according to an embodiment of the present invention;

fig. 4 is a block diagram showing a control system of the wall-hanging stove according to an embodiment of the present invention.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

A control method of a wall-hanging stove, a control system of a wall-hanging stove, and a computer-readable storage medium according to some embodiments of the present invention are described below with reference to fig. 1 to 4.

In an embodiment of the first aspect of the present invention, a method for controlling a wall-hanging stove is provided.

Fig. 1 shows a control method of a wall-hanging stove according to a first embodiment of the present invention. As shown in fig. 1, the control method includes:

102, acquiring heart rate data detected by a target body state detector;

and step 104, when the heart rate data meet a preset sleep condition, starting a sleep mode, and controlling the output temperature of the wall-mounted furnace according to a sleep curve corresponding to the target body state detector.

According to the control method of the wall-mounted furnace, the wall-mounted furnace and the body state detector can perform data transmission, wherein the target body state detector can detect heart rate data of a user, the heart rate data of the user is acquired in real time, the heart rate data is judged after the heart rate data detected by the target body state detector is acquired, when the heart rate data meets preset sleep conditions, the user is proved to be in a sleep state, the wall-mounted furnace is controlled to start the sleep mode at the moment, the automatic start of the sleep mode of the wall-mounted furnace is realized, the phenomenon that the sleep mode is started by manual control in the prior art, the use experience of the user is influenced is avoided, and the intelligent level of heating of the wall-mounted furnace is improved. Further, the user can have a plurality of stages under the sleep state, and each stage is different to the requirement of temperature, and when the hanging stove was in sleep mode, the output temperature of the hanging stove of sleep curve control that corresponds according to target health state detector to guarantee that the hanging stove all can provide required temperature for the user according to user's real-time sleep stage, guaranteed user's heating demand on the one hand, the extravagant condition of the energy that the hanging stove continued to heat and lead to can not appear on the other hand.

Specifically, after a person falls asleep, sleep occurs in a biorhythm that is, over a period of about 90 to 100 minutes, a cycle of 5 distinct phases, as shown in table 1, international sleep medicine divides the sleep phases into five phases: falling asleep, light sleep, sound sleep, deep sleep, and rapid eye movement. Due to different requirements of the sleep cycle on the temperature, the ambient temperature provided by the wall-mounted stove during the sleep time of people cannot meet the requirements of users. For example: in the sleep stage, the sleep is just started, the human body is in the sleepy stage, the temperature of the human body is reduced at the moment, the requirement on the temperature is high, the wall-mounted furnace is required to be properly raised for heating supply, and the room temperature is increased; in a light sleep period, the sleep formally starts, belongs to a light sleep stage, and needs the wall-hanging stove to keep the room temperature constant to help a user fall asleep; in the deep sleep period and the deep sleep period, the human body is not easy to wake up when entering the deep sleep stage, and the temperature is increased due to the heat dissipation of the human body, so that the heating supply needs to be properly reduced by the wall-mounted boiler; in the rapid eye movement period, the human body belongs to the reviving stage, and at the moment, the wall-mounted furnace is needed to improve the heating supply and the room temperature. According to the control method of the wall-mounted boiler, the output temperature of the wall-mounted boiler is controlled according to the sleep curve corresponding to the target body state detector, so that the output temperature of the wall-mounted boiler is ensured to be matched with the temperature required by a human body, the heating requirement of a user is ensured to the greatest extent, and the resource waste is avoided.

TABLE 1

Specifically, the body state detector may be an intelligent bracelet, worn on the wrist of the user; or the health state detector still can be for intelligent neck ring, wear on user's neck, realize the real-time detection to user's rhythm of the heart data through intelligent bracelet or intelligent neck ring, and through data transmission module with rhythm of the heart data transmission to hanging stove on, the hanging stove is through carrying out the analysis to rhythm of the heart data, judge user's the state of falling asleep, start the sleep mode, intelligence carries out the adjustment of space heating, the intelligence of having realized hanging stove sleep mode is opened, and the best ambient temperature who guarantees to satisfy human sleep.

Fig. 2 shows a control method of a wall-hanging stove according to a second embodiment of the present invention. As shown in fig. 2, the control method includes:

step 202, receiving a selection instruction of the physical state detector, determining a target physical state detector, and establishing data connection with the target physical state detector;

step 204, acquiring heart rate data detected by a target body state detector;

and step 206, when the heart rate data meet the preset sleep condition, starting a sleep mode, and controlling the output temperature of the wall-hanging stove according to the sleep curve corresponding to the target body state detector.

In this embodiment, each family member is provided with a physical status detector in consideration that each family has a plurality of members, including an old person, an adult, a child, and the like, and there is a certain individual difference in sleep between the child, the old person, and the adult. Before the sleep mode of the wall-mounted furnace is started, the processor receives a selection instruction of the physical state detector to determine a target physical state detector (which can be an old person or a physical state detector worn by any family member of a child or an adult), then establishes data connection of the target physical state detector, and can acquire a sleep curve corresponding to the target physical state detector in real time so as to control the output power of the wall-mounted furnace according to the sleep curve of the target family member (namely, the selected family member).

In a specific embodiment, the selection of the target body state detector can be switched at any time.

In one embodiment of the present invention, preferably, the method further includes: acquiring the heart rate data detected by each of the plurality of physical state detectors within a preset time and the duration of the variation value of the heart rate data within a preset range, and generating a sleep curve.

In this embodiment, the heart rate data detected by each physical state detector within a preset time (specifically, 24 hours) and the duration of the change value of the heart rate data within a preset range are obtained, a sleep curve of each family member is generated, so that the change of the sleep stage of each family member is obtained, the sleep stage of each family member can be accurately determined, then a selection instruction of the physical state detector is received, a target physical state detector is determined, and then the wall-hanging furnace is controlled to adjust the output power of the target physical state detector in real time, so that a comfortable temperature environment is provided for the target family member. It is worth noting that due to the generation of the sleep curve, the sleep stage change of the target family member in the preset time can be accurately known, and the real-time accurate control of the wall-mounted boiler is further ensured. Furthermore, the sleep stage where the user is currently located is judged by monitoring the real-time change condition of the heart rate data, the duration of the change value of the heart rate data is kept within a preset range, the duration of the current sleep stage is determined, and an exclusive sleep curve of each member in the family is drawn through the heart rate data and the duration, so that the requirement of any member in the family on the sleep temperature is met, and the use experience of the user is improved.

In one embodiment of the present invention, preferably, the method further includes: and numbering the plurality of body state detectors, and storing the sleep curves corresponding to the body state detectors.

In this embodiment, each physical state detector is numbered first, so that a one-to-one correspondence relationship is formed between each physical state detector and a family member, and then the family member corresponding to each physical state detector can be distinguished, and a sleep curve of each family member can be formed, and then each sleep curve corresponding to the physical state detector is stored, so that when the family member is in a sleep state, the change of the sleep stage of the target family member is accurately known, and further, the accurate control of the wall-mounted furnace is ensured.

In one embodiment of the present invention, preferably, the preset sleep condition is a preset heart rate data range corresponding to each physical state detector.

In this embodiment, the human body is in different stages in the sleep state, and the heartbeat frequency in each stage is different, and the falling asleep heart rate data of each individual is also different, so the preset heart rate data range of each member is different, for example, the heartbeat frequency of the human body in the deep sleep state is lower than that in the shallow sleep state, so the preset heart rate data range of each member is matched with the body state detector worn by the member, the judgment of the preset heart rate data range corresponding to each body state detector is realized, and further, whether the target member enters the sleep state is judged, when the preset sleep condition is met, the wall-hanging stove is controlled to start the sleep state, so that a suitable temperature environment is provided for the user.

Fig. 3 shows a control method of the wall-hanging stove according to an embodiment of the present invention. As shown in fig. 3, the control method includes:

step 302, the sleep bracelet acquires user sleep information;

step 304, transmitting sleep information through a ZigBee module;

step 306, the wall-mounted boiler acquires user sleep information;

step 308, calculating the wall-mounted boiler according to the sleep time;

step 310, calculating a heating temperature according to the sleep time;

in step 312, heating output is adjusted based on the calculation result.

In this embodiment, the body state detector is a sleep bracelet. Before the user has a rest and sleeps, the user wears the sleep bracelet to the wrist, the sleep bracelet can acquire the sleep information of the user, specifically, acquire the heart rate data of the user, then the user sleep information that acquires through the zigBee module sends to the hanging stove, the hanging stove receives and calculates behind the sleep information of user, the sleep curve of human body is formulated by the built-in sleep algorithm of hanging stove, it is in what kind of sleep cycle to analyze out the human body, specifically, confirm the sleep stage that the user is located according to the sleep information received, then calculate the supply temperature according to the sleep stage of user, and then according to the output temperature of supply temperature adjustment hanging stove, guarantee user's sleep quality, avoid the waste of energy when providing suitable temperature environment.

In a specific embodiment, each family has a plurality of members, including the elderly, adults, children, etc., and there is a certain individual difference in sleep between children, the elderly, and adults, so that each family member is equipped with a sleep bracelet. Before the sleep mode of the wall-hanging stove is started, firstly, a target sleep bracelet (which can be an old man or a child or an adult) is determined through a selection instruction of the body state detector, then, the data connection of the target sleep bracelet is established, and the wall-hanging stove is internally pre-stored with a sleep curve corresponding to each sleep bracelet. Specifically, the sleep curve is generated by detecting heart rate data of each user when the user enters sleep according to a sleep bracelet within a preset time (specifically, 24 hours), and confirming the duration of each sleep stage according to the change of the heart rate data. Therefore, after the human body enters the sleep stage, treat the rhythm of the heart data of the target family member through the target sleep bracelet, then judge whether the rhythm of the heart data satisfies and predetermine the sleep condition, when the rhythm of the heart data that the target sleep bracelet detected satisfies and predetermine the sleep condition, control hanging stove starts the sleep mode, the output temperature of hanging stove is controlled according to the sleep curve that the target sleep bracelet corresponds this moment, guarantee that hanging stove all can provide required temperature for the user according to user's real-time sleep stage, user's heating demand has been guaranteed on the one hand, the extravagant condition of the energy that hanging stove continuous heating leads to can not appear on the other hand.

In a second aspect of the present invention, a control system 400 for a wall-hanging stove is provided, where the wall-hanging stove and a body state detector can perform data transmission, and as shown in fig. 4, the control system 400 for the wall-hanging stove includes: a memory 402 for storing a computer program; a processor 404 for executing a computer program to: acquiring heart rate data detected by a target body state detector; and when the heart rate data meets the preset sleep condition, starting a sleep mode, and controlling the output temperature of the wall-mounted furnace according to the sleep curve corresponding to the target body state detector.

The control system 400 of the wall-hanging stove provided by the invention comprises a memory 402 and a processor 404 which are matched with each other, wherein the memory 402 stores a computer program, and the processor 404 is used for executing the computer program to realize the corresponding functions. Specifically, the method comprises the following steps: the target body state detector can detect heart rate data of a user and acquire the heart rate data of the user in real time; after the application program acquires the heart rate data detected by the target body state detector, the heart rate data is judged, when the heart rate data meets preset sleep conditions, the fact that the user enters a sleep state is proved, the wall-hanging stove is controlled to start the sleep mode at the moment, automatic opening of the sleep mode of the wall-hanging stove is achieved, the situation that the sleep mode is opened by manual control in the prior art is avoided, the user experience is influenced, and the intelligent level of wall-hanging stove heating is improved. Further, the user can have a plurality of stages under the sleep state, and each stage is different to the requirement of temperature, and when the hanging stove was in sleep mode, the output temperature of the hanging stove of sleep curve control that corresponds according to target health state detector to guarantee that the hanging stove all can provide required temperature for the user according to user's real-time sleep stage, guaranteed user's heating demand on the one hand, the extravagant condition of the energy that the hanging stove continued to heat and lead to can not appear on the other hand.

Specifically, after a person falls asleep, sleep occurs in a biorhythm that is, over a period of 5 distinct phases in about 90 to 100 minutes, international sleep medicine divides the sleep phases into five phases: falling asleep, light sleep, sound sleep, deep sleep, and rapid eye movement. Because the requirement of the sleep cycle on the temperature is different, the ambient temperature provided by the wall-mounted stove during the sleep time of people can not meet the user requirement, and the wall-mounted stove is overheated sometimes, overcooled sometimes and has poor experience. The control system 400 of the wall-mounted furnace provided by the invention controls the output temperature of the wall-mounted furnace according to the sleep curve corresponding to the target body state detector, so that the output temperature of the wall-mounted furnace is ensured to be identical to the temperature required by a human body, the heating requirement of a user is ensured to the greatest extent, and the resource waste is avoided.

Specifically, the body state detector may be an intelligent bracelet, worn on the wrist of the user; or the health state detector still can be for intelligent neck ring, wear on user's neck, realize the real-time detection to user's rhythm of the heart data through intelligent bracelet or intelligent neck ring, and through data transmission module with rhythm of the heart data transmission to hanging stove on, the hanging stove is through carrying out the analysis to rhythm of the heart data, judge user's the state of falling asleep, start the sleep mode, intelligence carries out the adjustment of space heating, the intelligence of having realized hanging stove sleep mode is opened, and the best ambient temperature who guarantees to satisfy human sleep.

In an embodiment of the present invention, preferably, the number of the body state detectors is multiple, and the processor 404 is further configured to: receiving a selection instruction of the physical state detector, determining a target physical state detector, and establishing data connection with the target physical state detector.

In this embodiment, each family member is provided with a physical status detector in consideration that each family has a plurality of members, including an old person, an adult, a child, and the like, and there is a certain individual difference in sleep between the child, the old person, and the adult. Before the sleep mode of the wall-hanging stove is started, the processor 404 receives a selection instruction of the physical state detector to determine a target physical state detector (which may be an old person, or a physical state detector worn by any family member of a child or an adult), and then establishes data connection of the target physical state detector, so that a sleep curve corresponding to the target physical state detector can be obtained in real time, and the output power of the wall-hanging stove is controlled according to the sleep curve of the target family member (i.e., the selected family member).

In a specific embodiment, the selection of the target body state detector can be switched at any time.

In one embodiment of the present invention, preferably, the processor 404 is further configured to: acquiring the heart rate data detected by each of the plurality of physical state detectors within a preset time and the duration of the variation value of the heart rate data within a preset range, and generating a sleep curve.

In this embodiment, the processor 404 obtains the heart rate data detected by each physical status detector within a preset time (specifically, 24 hours) and the duration of the change value of the heart rate data within a preset range, generates a sleep curve of each family member, so as to obtain the change of the sleep stage of each family member, so as to ensure that the sleep stage of each family member can be accurately determined, and then the processor 404 receives a selection instruction of the physical status detector, determines a target physical status detector, and further controls the wall-hanging stove to adjust the output power in real time, so as to provide a comfortable temperature environment for the target family member. It is worth noting that due to the generation of the sleep curve, the sleep stage change of the target family member in the preset time can be accurately known, and the real-time accurate control of the wall-mounted boiler is further ensured. Furthermore, the sleep stage where the user is currently located is judged by monitoring the real-time change condition of the heart rate data, the duration of the change value of the heart rate data is kept within a preset range, the duration of the current sleep stage is determined, and an exclusive sleep curve of each member in the family is drawn through the heart rate data and the duration, so that the requirement of any member in the family on the sleep temperature is met, and the use experience of the user is improved.

In one embodiment of the present invention, preferably, the processor 404 is further configured to: and numbering the plurality of body state detectors, and storing the sleep curves corresponding to the body state detectors.

In this embodiment, the processor 404 first numbers each physical state detector, so that each physical state detector and a family member form a one-to-one correspondence relationship, and then can distinguish the family member corresponding to each physical state detector, and can form a sleep curve of each family member, and then stores each sleep curve corresponding to each physical state detector, so as to ensure that when the family member is in a sleep state, the change of the sleep stage of the target family member is accurately known, and further ensure accurate control over the wall-hanging stove.

In one embodiment of the present invention, preferably, the preset sleep condition is a preset heart rate data range corresponding to each physical state detector.

In this embodiment, the human body is in different stages in the sleep state, and the heartbeat frequency in each stage is different, and the falling asleep heart rate data of each individual is also different, so the preset heart rate data range of each member is different, for example, the heartbeat frequency of the human body in the deep sleep state is lower than that in the shallow sleep state, so the preset heart rate data range of each member is matched with the body state detector worn by the member, the judgment of the preset heart rate data range corresponding to each body state detector is realized, and further, whether the target member enters the sleep state is judged, when the preset sleep condition is met, the wall-hanging stove is controlled to start the sleep state, so that a suitable temperature environment is provided for the user.

A third aspect of the present invention provides a wall-hanging stove including the control system 400 of the wall-hanging stove according to any one of the above embodiments.

The wall-hanging stove provided by the invention comprises the control system of any one of the embodiments, so that all the beneficial effects of the control system 400 of the wall-hanging stove are achieved, and the details are not repeated herein.

A fourth aspect of the present invention provides a computer-readable storage medium on which a computer program is stored, the computer program, when executed by the processor 404, implementing the method for controlling a wall-hanging stove according to any one of the above embodiments. Therefore, the method for controlling a wall-hanging stove according to any one of the embodiments described above has all the advantageous effects.

In the present invention, the terms "mounting," "connecting," "fixing," and the like are used in a broad sense, for example, "connecting" may be a fixed connection, a detachable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," 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 invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Claims (12)

1. A control method of a wall-mounted stove capable of data transmission with a body state detector is characterized by comprising the following steps:

acquiring heart rate data detected by a target body state detector;

and when the heart rate data meets a preset sleep condition, starting a sleep mode, and controlling the output temperature of the wall-hanging stove according to a sleep curve corresponding to the target body state detector.

2. The method for controlling a wall-hanging stove according to claim 1, wherein the number of the body state detectors is plural, and the method further comprises:

receiving a selection instruction of the physical state detector, determining the target physical state detector, and establishing data connection with the target physical state detector.

3. The method for controlling a wall-hanging stove according to claim 2, further comprising:

acquiring the heart rate data detected by each of the plurality of body state detectors within a preset time and the duration of the variation value of the heart rate data within a preset range, and generating the sleep curve.

4. The method for controlling a wall-hanging stove according to claim 3, further comprising:

and numbering the plurality of body state detectors, and storing the sleep curves corresponding to the body state detectors.

5. The wall hanging stove control method according to any one of claims 2 to 4, characterized in that:

the preset sleep condition is a preset heart rate data range corresponding to each physical state detector.

6. A control system of a wall-hanging stove, the wall-hanging stove can carry out data transmission with health status detector, its characterized in that, control system includes:

a memory for storing a computer program;

a processor for executing the computer program to implement:

acquiring heart rate data detected by a target body state detector;

and when the heart rate data meets a preset sleep condition, starting a sleep mode, and controlling the output temperature of the wall-hanging stove according to a sleep curve corresponding to the target body state detector.

7. The control system of the wall-hanging stove according to claim 6, wherein the number of the body state detectors is plural, and the processor is further configured to execute the computer program to realize:

receiving a selection instruction of the physical state detector, determining the target physical state detector, and establishing data connection with the target physical state detector.

8. The control system of the wall hanging stove of claim 7, wherein the processor is further configured to execute the computer program to:

acquiring the heart rate data detected by each of the plurality of body state detectors within a preset time and the duration of the variation value of the heart rate data within a preset range, and generating the sleep curve.

9. The control system of the wall hanging stove of claim 8, wherein the processor is further configured to execute the computer program to: and numbering the plurality of body state detectors, and storing the sleep curves corresponding to the body state detectors.

10. The control system of the wall hanging stove according to any one of claims 6 to 9, wherein the preset sleep condition is a preset heart rate data range corresponding to each of the body state detectors.

11. A wall-hanging stove comprising a control system for a wall-hanging stove as claimed in any one of claims 6 to 10.

12. A computer-readable storage medium on which a computer program is stored, the computer program, when being executed by a processor, implementing the method of controlling a wall-hanging stove according to any one of claims 1 to 5.

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