CN111649380A - Control method and control device of heater, heater and readable storage medium - Google Patents

Abstract

The invention provides a control method and a control device of a heater, the heater and a readable storage medium, wherein the control method of the heater comprises the following steps: acquiring an environmental parameter; acquiring a biological induction signal; according to environmental parameter, biological sensing signal, the running state of control ultraviolet sterilization subassembly, through this scheme, can be according to whether acquire biological sensing signal and combine the running state of environmental parameter automatic control ultraviolet sterilization subassembly, remove the user from and learn the process of ultraviolet ray disinfection equipment use standard, improve the convenience that the user used ultraviolet sterilization subassembly, avoid causing the damage to the user.

Description

Control method and control device of heater, heater and readable storage medium

Technical Field

The invention belongs to the technical field of household appliances, and particularly relates to a control method of a heater, a control device of the heater, the heater and a computer readable storage medium.

Background

With the improvement of living standard, the heaters installed in the bathrooms all have the function of ultraviolet sterilization, however, for the new function of ultraviolet sterilization, users need to learn the using method and cautionary matters of the function of ultraviolet sterilization through guidelines and manuals, and the condition that ultraviolet rays damage human bodies or the sterilization effect is difficult to realize easily occurs when the heaters are improperly used.

Disclosure of Invention

The present invention is directed to solving one of the technical problems of the prior art or the related art.

In view of the above, the first aspect of the present invention provides a control method for a heater, the heater including an ultraviolet sterilization component, the control method for the heater including: acquiring an environmental parameter; acquiring a biological induction signal; and controlling the running state of the ultraviolet sterilization component according to the environmental parameters and the biological induction signals.

The control method provided by the invention obtains the environmental parameters and determines whether a biological sensing signal is received, and can be understood that if the biological sensing signal is received, the situation that a user moves in a preset range is shown, and at the moment, if the ultraviolet sterilization function is started, the user is easy to be damaged, and the invention considers that the environmental parameters can influence the ultraviolet sterilization effect, and when the biological sensing signal is not received, the situation that the user does not exist in the preset range is shown, then the running state of the ultraviolet sterilization component is controlled according to the environmental parameters, when the environmental parameters are in a better environmental parameter range, the better environmental parameters refer to the environmental parameters suitable for the ultraviolet sterilization component to realize the sterilization function, at the moment, the sterilization effect of the ultraviolet sterilization component is better, and the disinfection and sterilization functions are provided through the running of the ultraviolet sterilization component, so that the cleanness of the wet environment of a bathroom is ensured, moreover, the running state of the ultraviolet sterilization component can be automatically controlled according to whether the biological sensing signal is acquired or not and in combination with the environmental parameters, so that the process that a user learns the use specification of the ultraviolet sterilization equipment is omitted, the convenience for using the ultraviolet sterilization component by the user is improved, and the user is prevented from being damaged.

In addition, according to the control method of the warmer in the above technical solution provided by the present invention, the following additional technical features may also be provided:

in one possible design, the step of controlling the operation of the uv sterilization assembly according to the environmental parameters specifically includes: and determining that the environmental parameters are in the preset environmental parameter range and the biological induction signal is not received, and controlling the operation of the ultraviolet sterilization component.

In this design, when environmental parameter is in predetermineeing the environmental parameter within range, under current environmental parameter, the ultraviolet ray can play better bactericidal effect, and not received biological response signal, explain that there is not user's activity at predetermineeing the within range, control ultraviolet sterilization subassembly operation this moment, realize the disinfection function, through detecting environmental parameter and biological response signal automatic control ultraviolet sterilization subassembly operation, do not need the user to learn the service specification of ultraviolet sterilization subassembly, improve the convenience of use to the room heater.

In one possible design, the step of controlling the operation of the uv sterilization assembly according to the environmental parameters further comprises: and controlling the environmental parameter adjusting component to start working when the environmental parameter is determined not to be in the preset environmental parameter range.

In this design, when environmental parameter is not in predetermineeing the environmental parameter within range, even open the ultraviolet sterilization subassembly this moment, ultraviolet sterilizing effect is also relatively poor to need adjust environmental parameter earlier, adjust environmental parameter to when predetermineeing the environmental parameter within range, open the ultraviolet sterilization subassembly again, thereby can improve ultraviolet sterilizing effect, the mode of automatic adjustment environmental parameter can make the disinfection effect maximize that disinfects.

In a possible design, the step of determining that the environmental parameter is not within the preset environmental parameter range and controlling the environmental parameter adjustment assembly to start or stop working specifically includes: confirming that the ambient temperature is lower than a first preset temperature, and controlling the heating assembly to start working and the ventilation assembly to stop working; and confirming that the ambient temperature is greater than the second preset temperature, and controlling the heating assembly to stop working and the ventilation assembly to start working.

In the design, when the environment temperature is limited to be greater than or equal to a first preset temperature and less than or equal to a second preset temperature, the ultraviolet sterilization component is controlled to operate, when the environment temperature is less than the first preset temperature, the ultraviolet sterilization effect is poor at the environment temperature, the heating component is controlled to start to work, so that the environment temperature can be increased, in order to increase the temperature in the bathroom as soon as possible, the ventilation component is closed, so that high-temperature gas in the bathroom cannot be discharged, outdoor low-temperature gas cannot be discharged, and when the environment temperature is greater than or equal to the first preset temperature, the ultraviolet sterilization effect is good, so that the ultraviolet sterilization component can be opened.

When ambient temperature is greater than the second and predetermines the temperature, under this ambient temperature, ultraviolet germicidal effect is equally relatively poor, closes heating element this moment to reduce ambient temperature, the subassembly of taking a breath begins work, makes indoor high-temperature gas and outdoor low-temperature gas carry out the heat exchange, improves bathroom internal environment temperature's reduction rate, when ambient temperature is less than or equal to the second and predetermines the temperature, ultraviolet germicidal effect is better, thereby can open ultraviolet germicidal assembly.

In one possible design, the step of controlling the environmental parameter adjustment assembly to start or stop operating when the environmental parameter is determined not to be within the preset environmental parameter range further includes: confirming that the ambient humidity is less than a first preset humidity, and controlling the heating assembly to stop working, the ventilation assembly to stop working and the humidification assembly to start working; and confirming that the ambient humidity is greater than the second preset humidity, and controlling the heating component to start working, the ventilation component to start working and the humidification component to stop working.

In the design, the operation of the ultraviolet sterilization component is controlled when the environmental humidity is greater than or equal to a first preset humidity and less than or equal to a second preset humidity, when the environmental humidity is less than the first preset humidity, the ultraviolet sterilization effect is poor under the environmental humidity, the humidification component is controlled to start working, so that the environmental humidity can be improved, the environmental humidity is not required to be adjusted at the moment, the heating component is closed, in order to improve the humidity in the bathroom as soon as possible, the ventilation component is closed, the moisture in the bathroom is prevented from being discharged, the outdoor dry gas is also prevented from being discharged, when the environmental humidity is greater than or equal to the first preset humidity, the ultraviolet sterilization effect is good, and the ultraviolet sterilization component can be opened.

When humidity is predetermine to ambient humidity greater than the second, under this ambient humidity, the ultraviolet germicidal effect is equally relatively poor, close the humidification subassembly this moment, thereby reduce ambient humidity, the subassembly of taking a breath begins work, make indoor humid gas discharge and outdoor dry gas discharge into, improve the reducing rate of ambient humidity in the bathroom, can accelerate the evaporation of moisture through opening heating element, thereby further improve the reducing rate of ambient humidity, when humidity is less than or equal to the second and predetermines humidity, the ultraviolet germicidal effect is better, thereby can open the ultraviolet germicidal subassembly.

In one possible design, the control method of the heater further includes: and confirming that the biological sensing signal is received, and controlling the ultraviolet sterilization component to be closed.

In this design, when receiving biological sensing signal, explain that there is the user's activity in the ultraviolet irradiation scope, in order to avoid causing the injury to the user, need not open the ultraviolet sterilization subassembly this moment to need not adjust environmental parameter, need not adjust ambient temperature and ambient humidity this moment, thereby close heating element, close the subassembly of taking a breath and close humidification subassembly, energy saving consumed.

In a possible design, after the step of determining that the environmental parameter is within the preset environmental parameter range and the biosensing signal is not received, controlling the operation of the uv sterilization assembly, the method further comprises: and controlling the ultraviolet sterilization component to stop running after receiving the biological sensing signal or confirming that the environmental parameter is not in the preset environmental parameter range.

In this design, after controlling the operation of the ultraviolet sterilization component, if receiving the biological sensing signal or determining that the environmental parameter is not in the preset environmental parameter range, controlling the ultraviolet sterilization component to stop operating, that is, continuously determining whether receiving the biological sensing signal, and continuously detecting whether the environmental parameter is in the preset environmental parameter range, thereby ensuring that the ultraviolet rays can not cause damage to the user, and ensuring the sterilization effect of the ultraviolet sterilization component.

In one possible design, the control method of the heater further includes: acquiring a first operation time length of single operation of the ultraviolet sterilization component; and determining that the first operation time exceeds a first preset time, and controlling the ultraviolet sterilization component to stop operating.

In the design, when the first operation time of the single operation of the ultraviolet sterilization component exceeds the first preset time, the ultraviolet sterilization component is proved to have completed the single sterilization process, and the ultraviolet sterilization component is closed at the moment, so that the energy consumption is saved.

In one possible design, the control method of the heater further includes: acquiring a second operation time of the cumulative operation of the ultraviolet sterilization component; and determining that the second operation time exceeds a second preset time, and outputting prompt information for replacing the ultraviolet sterilization component.

In this design, the length of operation when the ultraviolet sterilization subassembly lasts the operation exceeds the length of second operation, explains that the ultraviolet sterilization subassembly lasts for a long time of work, and the user is reminded to maintain or change ultraviolet tube to the ultraviolet sterilization subassembly to output prompt message this moment, guarantees that the ultraviolet sterilization subassembly can keep better bactericidal effect.

In one possible design, the control method of the heater further includes: and responding to the ultraviolet sterilization component replacement completion instruction, and resetting the metering time lengths of the first operation time length and the second operation time length.

In the design, after the ultraviolet sterilization component is determined to be replaced, the first operation time length and the second operation time length are reset, so that the first operation time length and the second operation time length are counted again, energy waste is avoided, and the sterilization effect of the ultraviolet sterilization component is ensured.

A second aspect of the present invention provides a control device for a warmer, comprising: a memory, a processor, and a computer program stored on the memory and executable on the processor; the computer program, when executed by the processor, implements the control method of the warmer as in any of the possible designs described above.

The control device of the warmer comprises the memory and the processor, wherein the memory stores the computer program which can be run on the processor, and when the processor runs the computer program, the control method of the warmer in any possible design can be realized, so that the control device of the warmer has all the beneficial technical effects of the control method of the warmer in any possible design, and redundant description is omitted.

A third aspect of the present invention provides a warmer, comprising: the ultraviolet sterilization component can output ultraviolet rays; the environment parameter detection component can acquire environment parameters; the biological information detection component can acquire biological induction signals; the environment parameter adjusting component can adjust the environment parameter.

In the design, the warmer comprises an environmental parameter detection component, a biological information detection component and an environmental parameter adjustment component, and acquires environmental parameters and determines whether a biological sensing signal is received, it can be understood that if the province information detection component receives the biological sensing signal, it indicates that a user moves within a preset range, and at this time, if the ultraviolet sterilization function is started, the user is easily damaged, and in view of the fact that the environmental parameters can affect the ultraviolet sterilization effect, if it is determined that the biological sensing signal is not received, it indicates that no user is within the preset range, and then controls the operation state of the ultraviolet sterilization component according to the environmental parameters detected by the environmental parameter detection component, and when the environmental parameters are within a preferable environmental parameter range, the environmental parameters preferably refer to the environmental parameters suitable for the ultraviolet sterilization component to realize the sterilization function, the bactericidal effect of ultraviolet sterilization subassembly this moment is better, when environmental parameter is not in the preferred environmental parameter within range, can adjust environmental parameter through environmental parameter adjusting part, through the operation of ultraviolet sterilization subassembly, provide disinfection's function, guarantee the cleanness of bathroom moist environment like this, moreover, can be according to whether acquire the running state of biological response signal and combine environmental parameter automatic control ultraviolet sterilization subassembly, remove the process that the user learnt ultraviolet disinfection equipment use standard from, improve the convenience that the user used the ultraviolet sterilization subassembly, avoid causing the damage to the user.

In one possible design, the environmental parameter detection component includes: the temperature sensor can acquire temperature parameters; and the humidity sensor can acquire a humidity parameter.

In this design, environmental parameter detection subassembly includes temperature sensor and humidity transducer, temperature sensor can acquire temperature parameter, thereby can confirm whether ambient temperature is in predetermineeing temperature range, and then when confirming that ambient temperature is not in predetermineeing temperature range, can make environmental parameter adjusting part in time adjust ambient temperature, humidity transducer can acquire humidity parameter, thereby can confirm whether ambient humidity is in predetermineeing humidity range, and then when confirming that ambient humidity is not in predetermineeing humidity range, can make environmental parameter adjusting part in time adjust ambient humidity, make ultraviolet sterilization effect maximize through adjusting ambient temperature and ambient humidity.

In one possible design, the biological information detection component is one of: infrared ray detection component, radar detection component or microwave detection component.

In the design, whether a user exists in a preset range can be detected through the infrared detection assembly, the radar detection assembly and the microwave detection assembly, so that whether the ultraviolet sterilization function is started or not is determined under the condition that no user exists in the preset range, and the user is prevented from being damaged due to ultraviolet irradiation to the user.

A fourth aspect of the present invention proposes a computer-readable storage medium, on which a computer program is stored, which, when executed by a processor, implements the control method of a warmer as in any one of the possible designs described above, thus having all the advantageous technical effects of the control method of a warmer as in any one of the possible designs described above.

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 shows a flow chart diagram of a control method of a warmer of one embodiment of the present invention;

fig. 2 shows a flow chart of a control method of a warmer of another embodiment of the present invention;

fig. 3 shows a flow chart of a control method of a warmer of yet another embodiment of the present invention;

fig. 4 shows a flow chart of a control method of a warmer of yet another embodiment of the present invention;

fig. 5 shows a flow chart of a control method of a warmer of yet another embodiment of the present invention;

fig. 6 shows a flow chart of a control method of a warmer of yet another embodiment of the present invention;

fig. 7 shows a flow chart of a control method of a warmer of yet another embodiment of the present invention;

fig. 8 shows a flow chart of a control method of a warmer of yet another embodiment of the present invention;

fig. 9 shows a flow chart of a control method of a warmer of yet another embodiment of the present invention;

fig. 10 shows a flow chart of a control method of a warmer of yet another embodiment of the present invention;

FIG. 11 shows a schematic block diagram of a control device of the warmer of one embodiment of the present invention;

FIG. 12 shows a schematic block diagram of a warmer of one 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 of the present invention and features of the embodiments 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.

Control methods provided according to some embodiments of the present invention are described below with reference to fig. 1-10.

The first embodiment is as follows:

as shown in fig. 1, an embodiment of a first aspect of the present invention provides a control method of a warmer, where the warmer includes an ultraviolet sterilization component, and the control method of the warmer includes:

step S102, obtaining environmental parameters;

step S104, acquiring a biological induction signal;

and S106, controlling the running state of the ultraviolet sterilization assembly according to the environmental parameters and the biological induction signals.

In this embodiment, the control method provided in this embodiment obtains the environmental parameter and determines whether the bio-sensing signal is received, it can be understood that, if the bio-sensing signal is received, it indicates that the user moves within the preset range, at this time, if the ultraviolet sterilization function is turned on, the user is easily damaged, and in addition, the present invention considers that the environmental parameter can affect the ultraviolet sterilization effect, and when it is determined that the bio-sensing signal is not received, it indicates that the user does not exist within the preset range, then controls the operation state of the ultraviolet sterilization component according to the environmental parameter, when the environmental parameter is within the preferable environmental parameter range, the environmental parameter preferably refers to the environmental parameter suitable for the ultraviolet sterilization component to realize the sterilization function, at this time, the sterilization effect of the ultraviolet sterilization component is better, and the sterilization function is provided by the operation of the ultraviolet sterilization component, guarantee the clean of bathroom moist environment like this, moreover, can be according to whether acquire biological sensing signal and combine the running state of environmental parameter automatic control ultraviolet sterilization subassembly, remove the process that the user learnt ultraviolet disinfection equipment use standard from, improve the convenience that the user used the ultraviolet sterilization subassembly, avoid causing the damage to the user.

Example two:

as shown in fig. 2, on the basis of the first embodiment, the step of controlling the operation of the uv sterilization assembly according to the environmental parameter specifically includes: and determining that the environmental parameters are in the preset environmental parameter range and the biological induction signal is not received, and controlling the operation of the ultraviolet sterilization component.

The control method of the warmer comprises the following steps:

step S202, obtaining environmental parameters;

step S204, determining that the environmental parameters are in a preset environmental parameter range;

step S206, determining that the biological induction signal is not received;

and step S208, controlling the operation of the ultraviolet sterilization component.

When environmental parameter is in predetermineeing the environmental parameter within range, under current environmental parameter, the ultraviolet ray can play better bactericidal effect, and not received biological response signal, explain there is not user's activity at predetermineeing the within range, control ultraviolet sterilization subassembly operation this moment, realize the disinfection function, through detecting environmental parameter and biological response signal automatic control ultraviolet sterilization subassembly operation, do not need the user to learn the application standard of ultraviolet sterilization subassembly, improve the convenience in utilization to the room heater.

Further, the step of controlling the operation of the uv sterilization assembly according to the environmental parameters further comprises: and controlling the environmental parameter adjusting component to start working when the environmental parameter is determined not to be in the preset environmental parameter range.

As shown in fig. 3, the control method of the warmer includes:

step S302, obtaining environmental parameters;

step S304, determining that the environmental parameter is in a preset environmental parameter range, if the judgment result is yes, executing step S306, and if the judgment result is not, executing step S308;

step S306, determining that the biological induction signal is not received;

step S308, controlling the environmental parameter adjusting component to start working, and returning to execute the step S302;

and step S310, controlling the operation of the ultraviolet sterilization component.

When environmental parameter is not in predetermineeing environmental parameter within range, even open the ultraviolet sterilization subassembly this moment, ultraviolet sterilizing effect is also relatively poor to need adjust environmental parameter earlier, adjust environmental parameter to when predetermineeing environmental parameter within range, open the ultraviolet sterilization subassembly again, thereby can improve ultraviolet sterilizing effect, the mode of automatic adjustment environmental parameter can make the disinfection effect maximize of disinfecting.

Further, the step of determining that the environmental parameter is not within the preset environmental parameter range and controlling the environmental parameter adjusting component to start working specifically includes: confirming that the ambient temperature is lower than a first preset temperature, and controlling the heating assembly to start working and the ventilation assembly to stop working; and confirming that the ambient temperature is greater than the second preset temperature, and controlling the heating assembly to stop working and the ventilation assembly to start working.

As shown in fig. 4, the control method of the warmer includes:

step S402, acquiring environmental parameters;

step S404, confirming that the ambient temperature is less than a first preset temperature, if so, executing step S406, otherwise, executing step S408;

step S406, determining that the ambient temperature is greater than the second preset temperature, if so, performing step S410, otherwise, performing step S412;

step S408, controlling the heating component to start working and the ventilation component to stop working, and returning to execute the step S402;

step S410, determining that no biological induction signal is received;

step S412, controlling the heating component to stop working and the ventilation component to start working, and returning to execute the step S402;

and step S414, controlling the operation of the ultraviolet sterilization component.

The invention is limited in that when the ambient temperature is greater than or equal to a first preset temperature and less than or equal to a second preset temperature, the operation of the ultraviolet sterilization component is controlled, when the ambient temperature is less than the first preset temperature, the ultraviolet sterilization effect is poor at the ambient temperature, and the heating component is controlled to start working, so that the ambient temperature can be increased.

When ambient temperature is greater than the second and predetermines the temperature, under this ambient temperature, ultraviolet germicidal effect is equally relatively poor, closes heating element this moment to reduce ambient temperature, the subassembly of taking a breath begins work, makes indoor high-temperature gas and outdoor low-temperature gas carry out the heat exchange, improves bathroom internal environment temperature's reduction rate, when ambient temperature is less than or equal to the second and predetermines the temperature, ultraviolet germicidal effect is better, thereby can open ultraviolet germicidal assembly.

Since no adjustment to ambient humidity is required at this point, the humidification assembly is kept off.

Further, the step of determining that the environmental parameter is not within the preset environmental parameter range and controlling the environmental parameter adjustment assembly to start working further includes: confirming that the ambient humidity is less than a first preset humidity, and controlling the heating assembly to stop working, the ventilation assembly to stop working and the humidification assembly to start working; and confirming that the ambient humidity is greater than the second preset humidity, and controlling the heating component to start working, the ventilation component to start working and the humidification component to stop working.

As shown in fig. 5, the control method of the warmer includes:

step S502, obtaining environmental parameters;

step S504, determining that the ambient humidity is less than the first preset humidity, if so, performing step S506, otherwise, performing step S508;

step S506, determining that the ambient humidity is greater than the second preset humidity, if so, performing step S510, otherwise, performing step S512;

step S508, controlling the heating component to stop working, the ventilation component to stop working and the humidification component to start working, and returning to execute the step S502;

step S510, determining that the biological induction signal is not received;

step S512, controlling the heating component to start working, the ventilation component to start working and the humidification component to stop working, and returning to execute the step S502;

and step S514, controlling the operation of the ultraviolet sterilization component.

The invention is limited in that when the environment humidity is greater than or equal to a first preset humidity and less than or equal to a second preset humidity, the operation of the ultraviolet sterilization component is controlled, when the environment humidity is less than the first preset humidity, the ultraviolet sterilization effect is poor under the environment humidity, the humidification component is controlled to start working, so that the environment humidity can be improved, at the moment, the environment humidity is not required to be adjusted, so that the heating component is closed, in order to improve the humidity in the bathroom as soon as possible, the ventilation component is closed, the moisture in the bathroom is prevented from being discharged, the outdoor dry gas is also prevented from being discharged, when the environment humidity is greater than or equal to the first preset humidity, the ultraviolet sterilization effect is good, so that the ultraviolet sterilization component can be opened.

When humidity is predetermine to ambient humidity greater than the second, under this ambient humidity, the ultraviolet germicidal effect is equally relatively poor, close the humidification subassembly this moment, thereby reduce ambient humidity, the subassembly of taking a breath begins work, make indoor humid gas discharge and outdoor dry gas discharge into, improve the reducing rate of ambient humidity in the bathroom, can accelerate the evaporation of moisture through opening heating element, thereby further improve the reducing rate of ambient humidity, when humidity is less than or equal to the second and predetermines humidity, the ultraviolet germicidal effect is better, thereby can open the ultraviolet germicidal subassembly.

Example three:

as shown in fig. 6, in the above-described embodiment, the control method of the warmer includes:

step S602, obtaining environmental parameters;

step S604, determining that the ambient temperature is lower than a first preset temperature, if so, performing step S606, otherwise, performing step S608;

step S606, determining that the ambient temperature is greater than the second preset temperature, if so, performing step S610, otherwise, performing step S612;

step S608, controlling the heating component to start working and the ventilation component to stop working, and returning to execute the step S602;

step S610, determining that the ambient humidity is less than the first preset humidity, if so, performing step S614, otherwise, performing step S616;

step S612, controlling the heating assembly to stop working and the ventilation assembly to start working, and returning to execute the step S602;

step S614, determining that the ambient humidity is greater than the second preset humidity, if so, performing step S618, otherwise, performing step S620;

step S616, controlling the heating component to stop working, the ventilation component to stop working and the humidification component to start working, and returning to execute the step S602;

step S618, confirming that the bio-sensing signal is received, if yes, performing step S622, otherwise, performing step S624;

step S620, controlling the heating component to start working, the ventilation component to start working and the humidification component to stop working, and returning to execute the step S602;

step S622, controlling the ultraviolet sterilization component to be closed, and returning to execute the step S602;

and step S624, controlling the ultraviolet sterilization component to operate.

In this embodiment, when receiving biological sensing signal, explain that there is user's activity in the ultraviolet irradiation scope, in order to avoid causing the injury to the user, need not open the ultraviolet sterilization subassembly this moment to need not adjust environmental parameter, need not adjust ambient temperature and ambient humidity this moment, thereby close heating element, close the subassembly of taking a breath and close humidification subassembly, energy saving consumed.

Example four:

in the above embodiment, after the step of determining that the environmental parameter is within the preset environmental parameter range and the biological sensing signal is not received, and controlling the operation of the uv sterilization assembly, the method further includes: and controlling the ultraviolet sterilization component to stop running after receiving the biological sensing signal or confirming that the environmental parameter is not in the preset environmental parameter range.

In this embodiment, after controlling the operation of the uv sterilization assembly, if the biological sensing signal is received or the environmental parameter is determined not to be within the preset environmental parameter range, the uv sterilization assembly is controlled to stop operating, that is, it is necessary to continuously determine whether the biological sensing signal is received and continuously detect whether the environmental parameter is within the preset environmental parameter range, so as to ensure that the uv light does not damage the user and ensure the sterilization effect of the uv sterilization assembly.

Example five:

as shown in fig. 7, in the above embodiment, the control method of the warmer includes:

step S702, controlling the operation of the ultraviolet sterilization component;

step S704, acquiring a first operation time length of the single operation of the ultraviolet sterilization component;

step S706, determining that the first operation time length exceeds a first preset time length, if so, executing step S708, otherwise, executing step S706;

and S708, controlling the ultraviolet sterilization component to stop running.

In this embodiment, when the first operation duration of the single operation of the uv sterilization assembly exceeds the first preset duration, it indicates that the uv sterilization assembly has completed the single sterilization process, and at this time, the uv sterilization assembly is turned off, so as to save energy consumption.

As shown in fig. 8, further, the control method of the warmer includes:

step S802, controlling the operation of the ultraviolet sterilization component;

step S804, acquiring a second operation time of the cumulative operation of the ultraviolet sterilization component;

step S806, determining that the second operation time length exceeds a second preset time length, if so, executing step S808, otherwise, executing step S806;

and step S808, outputting prompt information for replacing the ultraviolet sterilization component.

When the ultraviolet sterilization component continuously operates, the operation time length exceeds the second operation time length, which shows that the ultraviolet sterilization component continuously operates for a longer time length, at the moment, prompt information is output to remind a user to maintain the ultraviolet sterilization component or replace an ultraviolet lamp tube, and the ultraviolet sterilization component can be ensured to keep a better sterilization effect.

Further, the control method of the warmer further comprises the following steps: and responding to the ultraviolet sterilization component replacement completion instruction, and resetting the metering time lengths of the first operation time length and the second operation time length.

As shown in fig. 9, the control method of the warmer includes:

step S902, controlling the operation of the ultraviolet sterilization component;

step S904, acquiring a second operation time of the cumulative operation of the ultraviolet sterilization component;

step S906, determining that the second running time length exceeds a second preset time length, if so, executing step S910, otherwise, executing step S908;

step S908, acquiring a first operation time length of single operation of the ultraviolet sterilization component;

step S910, outputting prompt information for replacing the ultraviolet sterilization component;

step S912, confirming that the uv sterilization module replacement completion instruction is received, and executing step S908;

step S914, determining that the first running duration exceeds a first preset duration, if yes, performing step S916, otherwise, performing step S914;

and S916, controlling the ultraviolet sterilization component to stop running.

After the ultraviolet sterilization component starts to operate, the first operation time length and the second operation time length are started to be timed, the first operation time length and the second operation time length are cleared firstly after the ultraviolet sterilization component replacement completion instruction is received, and therefore the first operation time length and the second operation time length are timed again, energy waste is avoided, and the sterilization effect of the ultraviolet sterilization component is guaranteed.

Example six:

as shown in fig. 10, the control method of the warmer includes:

step S1002, acquiring environmental parameters;

step S1004, determining that the biological induction signal is not received;

step S1006, confirming that the ambient temperature is less than a first preset temperature, if so, executing step S1008, otherwise, executing step S1010;

step S1008, determining that the ambient temperature is greater than the second preset temperature, if so, performing step S1012, otherwise, performing step S1014;

step S1010, controlling the heating assembly to start working and the ventilation assembly to stop working, and returning to execute the step S1044;

step S1012, determining that the ambient humidity is less than the first preset humidity, if so, performing step S1016, otherwise, performing step S1018;

step S1014, controlling the heating component to stop working and the ventilation component to start working, and returning to execute the step S1044;

step S1016, determining that the ambient humidity is greater than the second preset humidity, if so, performing step S1020, otherwise, performing step S1022;

step S1018, controlling the heating component to stop working, the ventilation component to stop working and the humidification component to start working, and returning to execute the step S1044;

step S1020, confirming that the bio-sensing signal is received, if yes, performing step S1026, otherwise, performing step S1024;

step S1022, controlling the heating component to start working, the ventilation component to start working and the humidification component to stop working, and returning to execute the step S1044;

step S1024, controlling the operation of the ultraviolet sterilization component;

step S1026, controlling the heating component to stop working, the ventilation component to stop working and the humidification component to stop working, and returning to execute the step S1044;

step S1028, outputting a prompt message of 'sterilization in progress';

step S1030, acquiring a second operation time of the cumulative operation of the ultraviolet sterilization component;

step S1032, determining that the second operation time length exceeds a second preset time length, if so, executing step S1034, otherwise, executing step S1038;

step S1034, outputting prompt information for replacing the ultraviolet sterilization component;

step S1036, confirming that the ultraviolet sterilization component replacement completion instruction is received, and executing step S1038;

step S1038, acquiring a first operation time length of single operation of the ultraviolet sterilization component;

step S1040, determining that the first operation duration exceeds a first preset duration, if so, performing step S1042, otherwise, performing step S1040;

s1042, controlling the ultraviolet sterilization component to stop running;

s1044, outputting prompt information of 'sterilization is accurate', and returning to execute the step S1002.

As shown in fig. 11, a second aspect of the invention proposes a control device 1100 of a warmer, comprising: memory 1102, processor 1104, and computer programs stored on memory 1102 and executable on processor 1104; the computer program when executed by the processor 1104 implements the control method of the warmer as in any of the embodiments described above.

The control device 1100 of the warmer provided by the present invention includes a memory 1102 and a processor 1104, wherein the memory 1102 stores a computer program that can be executed on the processor 1104, and when the processor 1104 executes the computer program, the control method of the warmer in any of the above embodiments can be implemented.

As shown in fig. 12, a third aspect of the present invention proposes a warmer 1200, the warmer 1200 comprising: an ultraviolet sterilization assembly 1210, the ultraviolet sterilization assembly 1210 being capable of outputting ultraviolet rays; an environmental parameter detection component 1220, the environmental parameter detection component 1220 being capable of obtaining an environmental parameter; a biological information detecting component 1230, the biological information detecting component 1230 is capable of acquiring a biological sensing signal; an environmental parameter adjustment component 1240, the environmental parameter adjustment component 1240 being capable of adjusting an environmental parameter.

The warmer 1200 includes an environmental parameter detecting unit 1220, a biological information detecting unit 1230, and an environmental parameter adjusting unit 1240, which obtains environmental parameters and determines whether a biological sensing signal is received, it can be understood that if the province information detecting unit receives the biological sensing signal, it indicates that a user is moving within a preset range, and at this time, if the uv sterilization function is turned on, it is easy to cause damage to the user, and in view of the fact that environmental parameters can affect the uv sterilization effect, if it is determined that the biological sensing signal is not received, it indicates that no user is within the preset range, and then controls the operation state of the uv sterilization unit 1210 according to the environmental parameters detected by the environmental parameter detecting unit 1220, and when the environmental parameters are within a preferable environmental parameter range, it is preferable that the environmental parameters refer to environmental parameters suitable for the uv sterilization unit 1210 to perform the sterilization function, ultraviolet sterilization subassembly 1210's bactericidal effect is better this moment, when environmental parameter is not in the preferred environmental parameter within range, can adjust environmental parameter through environmental parameter adjusting part 1240, through ultraviolet sterilization subassembly 1210 operation, provide disinfection's function, guarantee the cleanness of bathroom moist environment like this, moreover, can be according to whether acquire biological sensing signal and combine environmental parameter automatic control ultraviolet sterilization subassembly 1210's running state, remove the process that the user learnt ultraviolet disinfection equipment specification of use from, improve the convenience that the user used ultraviolet sterilization subassembly 1210, avoid causing the damage to the user.

Further, the environmental parameter detection component 1220 includes: the temperature sensor 1221, the temperature sensor 1221 can acquire temperature parameters; humidity sensor 1222, humidity sensor 1222 can obtain humidity parameters.

The environment parameter detecting assembly 1220 includes a temperature sensor 1221 and a humidity sensor 1222, the temperature sensor 1221 can acquire a temperature parameter, so that whether the environment temperature is within a preset temperature range can be determined, and further when it is determined that the environment temperature is not within the preset temperature range, the environment temperature can be timely adjusted by the environment parameter adjusting assembly 1240, the humidity sensor 1222 can acquire a humidity parameter, so that whether the environment humidity is within the preset humidity range can be determined, and further when it is determined that the environment humidity is not within the preset humidity range, the environment humidity can be timely adjusted by the environment parameter adjusting assembly 1240, and the ultraviolet sterilization effect is maximized by adjusting the environment temperature and the environment humidity.

Further, the environment parameter adjusting assembly 1240 includes a heating assembly 1241, a humidifying assembly 1242 and a ventilation assembly 1243, the heating assembly 1241 can output heat to increase the temperature in the bathroom, the humidifying assembly 1242 can output humidified gas to increase the humidity in the bathroom, and the ventilation assembly 1243 can drive the gas to flow to increase the gas flow speed.

Further, the biological information detecting component 1230 is one of the following: infrared ray detection component, radar detection component or microwave detection component.

Whether a user exists in a preset range can be detected through the infrared detection assembly, the radar detection assembly and the microwave detection assembly, so that whether the ultraviolet sterilization function is started or not is determined under the condition that the user does not exist in the preset range, and the user is prevented from being damaged due to ultraviolet irradiation to the user.

Specifically, the infrared detection assembly is used for detecting human body signals in the bathroom, the temperature and humidity detection assembly is used for detecting temperature and humidity parameters in the bathroom, the main controller circuit is used for receiving data collected by the infrared detection assembly and the temperature and humidity detection assembly, analyzing and processing are carried out on the data, and the working states of the ultraviolet sterilization assembly 1210, the heating assembly 1241, the ventilation assembly 1243 and the humidification assembly 1242 are controlled according to an analysis result.

The warmer 1200 further comprises a display component, and the display component is used for displaying information such as the working state of the warmer 1200 and the working state of the ultraviolet sterilization component 1210.

Warmer 1200 further includes a power-down nonvolatile device that records the cumulative operating time of UV sterilization assembly 1210.

The environment is monitored before the uv sterilization assembly 1210 is activated, and the uv sterilization assembly 1210 can be activated only when the following conditions are met: firstly, in an unmanned state; secondly, controlling the indoor temperature to be 20-40 ℃; and thirdly, the indoor humidity is 40-60% RH.

Before the uv sterilizing module 1210 is operated, if the environmental condition does not satisfy the above condition: firstly, waiting for the human body to leave; secondly, the environment can reach the working condition of the ultraviolet sterilization component 1210 by turning on/off the heater 1200 and the ventilation component 1243.

When the uv sterilization assembly 1210 is operated, if the environmental condition does not satisfy the above condition: turning off the ultraviolet sterilization assembly 1210; secondly, waiting for the human body to leave; thirdly, the environment can reach the working condition of the ultraviolet sterilization component 1210 by turning on/off the heater 1200 and the ventilation component 1243.

The operating time of the uv sterilization assembly 1210 is accumulated and the usage time is written into a power-down nonvolatile device (e.g., flash). When the accumulated use time exceeds Ta, prompting a user to maintain/replace the ultraviolet lamp tube; after the lamp tube is replaced, the lamp tube can be cleared through one or more devices such as a button, a wired controller, a wireless remote controller and a mobile terminal.

When the uv sterilizing module 1210 is turned on, a timer is simultaneously turned on. The uv sterilization assembly 1210 is automatically turned off after the uv sterilization assembly has been in operation for Tb.

After the ultraviolet sterilization assembly 1210 is started, but the environmental state does not satisfy the above conditions, a prompt message is sent through the display assembly.

The Ta time can be set according to the service life of the UV sterilization assembly 1210, and is generally 1000-3000 h.

Tb time can be set by manufacturer/user, and is recommended to be 30-60 min.

The infrared detection assembly may be replaced with a radar detection assembly/microwave detection assembly.

The Ta/Tb time can be set through one or more devices such as a wired controller, a wireless remote controller and a mobile terminal.

A fourth aspect of the present invention provides a computer-readable storage medium, on which a computer program is stored, wherein the computer program, when being executed by a processor, implements the control method of the warmer according to any one of the above embodiments, thereby having all the advantages of the control method of the warmer according to any one of the above embodiments.

In the present invention, the term "plurality" means two or more unless explicitly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable 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.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (16)

1. A control method of a warmer, which comprises an ultraviolet sterilization component, is characterized by comprising the following steps:

acquiring an environmental parameter;

acquiring a biological induction signal;

and controlling the running state of the ultraviolet sterilization component according to the environmental parameters and the biological sensing signals.

2. The control method of the warmer according to claim 1, wherein the step of controlling the operation of the uv sterilization component according to the environmental parameter specifically comprises:

and determining that the environmental parameters are within a preset environmental parameter range and the biological sensing signals are not received, and controlling the operation of the ultraviolet sterilization component.

3. The control method of the warmer according to claim 2, wherein the step of controlling the operation of the uv sterilizing assembly according to the environmental parameter further comprises:

and controlling the environmental parameter adjusting component to start working when the environmental parameter is determined not to be in the preset environmental parameter range.

4. The control method of the warmer according to claim 2, wherein the step of determining that the environmental parameter is not within the preset environmental parameter range and controlling the environmental parameter adjustment component to start operating specifically comprises:

confirming that the ambient temperature is lower than a first preset temperature, and controlling the heating assembly to start working and the ventilation assembly to stop working;

and confirming that the ambient temperature is greater than a second preset temperature, and controlling the heating assembly to stop working and the ventilation assembly to start working.

5. The control method of the warmer according to claim 2, wherein the step of determining that the environmental parameter is not within the preset environmental parameter range and controlling the environmental parameter adjustment assembly to start operating further comprises:

confirming that the environmental humidity is smaller than a first preset humidity, and controlling the heating assembly to stop working, the ventilation assembly to stop working and the humidification assembly to start working;

and confirming that the environment humidity is greater than a second preset humidity, and controlling the heating assembly to start working, the ventilation assembly to start working and the humidification assembly to stop working.

6. The control method of a warmer of claim 4 or 5, characterized in that the control method of a warmer further comprises:

and confirming that the biological sensing signal is received, and controlling the ultraviolet sterilization component to be closed.

7. The control method of the warmer according to claim 2, wherein after the step of determining that the environmental parameter is within a preset environmental parameter range and the biosensing signal is not received, controlling the operation of the uv sterilization assembly, the method further comprises:

and controlling the ultraviolet sterilization component to stop running when the biological sensing signal is received or the environmental parameter is confirmed not to be in the preset environmental parameter range.

8. The control method of a warmer of claim 2, further comprising:

acquiring a first operation time length of single operation of the ultraviolet sterilization component;

and determining that the first operation time exceeds a first preset time, and controlling the ultraviolet sterilization component to stop operating.

9. The control method of a warmer of claim 8, further comprising:

acquiring a second operation time of the accumulated operation of the ultraviolet sterilization component;

and determining that the second operation time length exceeds a second preset time length, and outputting prompt information for replacing the ultraviolet sterilization component.

10. The control method of a warmer of claim 9, further comprising:

and responding to the ultraviolet sterilization component replacement completion instruction, and clearing the metering time lengths of the first operation time length and the second operation time length.

11. A control device of a warmer, characterized by comprising:

a memory, a processor, and a computer program stored on the memory and executable on the processor;

the computer program, when executed by the processor, implements the steps of a control method of a warmer as claimed in any one of claims 1 to 10.

12. A warmer, comprising:

an ultraviolet sterilization assembly capable of outputting ultraviolet rays;

an environmental parameter detection component capable of obtaining an environmental parameter;

a biological information detection component capable of acquiring a biological sensing signal;

an environmental parameter adjustment component capable of adjusting an environmental parameter.

13. The warmer of claim 12, wherein the environmental parameter sensing assembly comprises:

a temperature sensor capable of acquiring a temperature parameter;

a humidity sensor capable of acquiring a humidity parameter.

14. The warmer of claim 12, wherein the environmental parameter adjustment assembly comprises:

a heating assembly capable of outputting heat;

a humidification component capable of outputting humidified gas;

a breather assembly capable of driving a flow of gas.

15. The warmer of claim 12, wherein the biological information detection component is one of: infrared ray detection component, radar detection component or microwave detection component.

16. A computer-readable storage medium, characterized in that the computer-readable storage medium has stored thereon a control program of a warmer, which when executed by a processor implements the steps of the control method of the warmer of any one of claims 1 to 10.

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