CN112524756A - Intelligent temperature-regulating electric appliance and temperature-regulating control method thereof - Google Patents

Abstract

The invention discloses a temperature regulation control method of an intelligent temperature regulation electric appliance, which comprises the following steps: receiving a temperature-time curve and a wind speed-time curve for controlling the intelligent temperature-adjusting electric appliance, wherein the temperature-time curve and the wind speed-time curve are set by a user in a self-defined manner; and controlling the intelligent temperature-adjusting electric appliance to operate according to the temperature-time curve and the wind speed-time curve. In addition, the invention also discloses an intelligent temperature-regulating electric appliance. The invention can realize the problems of limited temperature adjusting effect and low intelligent degree of temperature adjusting electric appliances such as air conditioners, air fryer, blowing type electric heaters and the like.

Description

Intelligent temperature-regulating electric appliance and temperature-regulating control method thereof

Technical Field

The invention relates to the technical field of household appliances, in particular to an intelligent temperature-regulating electric appliance and a temperature-regulating control method thereof.

Background

As is well known, an air conditioner, an air fryer, a blowing electric heater, etc. are used as common temperature-regulating electric appliances in daily life, and the combined temperature regulation is mainly realized through the combined action of a plurality of functional components arranged on the electric appliances. Such as an air conditioner, a refrigeration module and a fan are arranged in the air conditioner; if the air fryer is used, a heating pipe and a fan are arranged in the air fryer, and the air fryer is matched with the fan through the change of the wind speed of the fan to achieve the refrigerating or heating effect on the basis of outputting the temperature by adopting the temperature adjusting module.

At present, the temperature and wind speed of the temperature-regulating electric appliance are regulated by operating the key on the electric appliance or the remote controller, and the gear switching realized by operating the key is generally fixed and unchangeable. Namely, each gear of the temperature-regulating electric appliance corresponds to the temperature output and the wind speed fixed by the system, so that the temperature regulating effect is limited; in addition, the temperature-adjusting electric appliance is used in the using process, when different temperature outputs and wind speeds are needed at different time points, a user needs to operate and adjust for multiple times correspondingly, the intelligent operation is not enough, time and labor are consumed, and the use experience is not good.

Disclosure of Invention

The invention mainly aims to provide an intelligent temperature-regulating electric appliance and a control method thereof, and aims to solve the problems that the temperature-regulating electric appliances such as an air conditioner, an air fryer and a blowing type electric heater have limited temperature-regulating effect and low intelligent degree.

In order to achieve the above object, the present invention provides a temperature adjustment control method for an intelligent temperature adjustment electric appliance, the temperature adjustment control method comprising:

receiving a temperature-time curve and a wind speed-time curve for controlling the intelligent temperature-adjusting electric appliance, wherein the temperature-time curve and the wind speed-time curve are set by a user in a self-defined manner;

and controlling the intelligent temperature-adjusting electric appliance to operate according to the temperature-time curve and the wind speed-time curve.

Preferably, the intelligent temperature-adjusting electric appliance is in communication connection with a mobile terminal Bluetooth BLE, and the temperature-time curve and the wind speed-time curve are sent through the mobile terminal.

Preferably, the intelligent temperature-adjusting electric appliance is in communication connection with a mobile terminal through a server, and the temperature-time curve and the wind speed-time curve are sent through the mobile terminal.

Preferably, after the step of controlling the intelligent temperature-regulating electrical appliance to operate according to the temperature-time curve and the wind speed-time curve, the temperature-regulating control method further includes:

storing the temperature-time curve and the wind speed-time curve;

receiving a first selection instruction and a second selection instruction, wherein the first selection instruction is to select one of the stored temperature-time curves, and the second selection instruction is to select one of the stored wind speed-time curves;

and selecting the temperature-time curve and the wind speed-time curve according to the first selection instruction and the second selection instruction, and controlling the intelligent temperature-regulating electric appliance to operate according to the selected temperature-time curve and the selected wind speed-time curve.

Preferably, after the step of controlling the intelligent temperature-regulating electrical appliance to operate according to the temperature-time curve and the wind speed-time curve, the temperature-regulating control method further includes:

storing a set of tempering curves formed by the combination of the temperature-time curve and the wind speed-time curve;

receiving a third selection instruction, wherein the third selection instruction is to select one temperature regulation curve group from the stored temperature regulation curve groups;

and selecting the temperature regulation curve group according to the third selection instruction, and controlling the intelligent temperature regulation electric appliance to operate according to the selected temperature regulation curve group.

Preferably, intelligent temperature regulation uses electrical apparatus to include communication module and MCU singlechip, wherein:

the communication module is used for receiving a temperature-time curve and a wind speed-time curve for controlling the intelligent temperature-adjusting electric appliance, and the temperature-time curve and the wind speed-time curve are set by a user in a self-defining way;

and the MCU singlechip is used for controlling the intelligent temperature-adjusting electric appliance to operate according to the temperature-time curve and the wind speed-time curve.

Preferably, the intelligent temperature-adjusting electric appliance is in communication connection with a mobile terminal Bluetooth BLE, and the temperature-time curve and the wind speed-time curve are sent through the mobile terminal.

Preferably, the intelligent temperature-adjusting electric appliance is in communication connection with a mobile terminal through a server, and the temperature-time curve and the wind speed-time curve are sent through the mobile terminal.

Preferably, the MCU singlechip is also used for storing the temperature-time curve and the wind speed-time curve;

the communication module is further used for receiving a first selection instruction and a second selection instruction, wherein the first selection instruction is to select one of the stored temperature-time curves, and the second selection instruction is to select one of the stored wind speed-time curves;

the MCU singlechip is also used for selecting the temperature-time curve and the wind speed-time curve according to the first selection instruction and the second selection instruction, and controlling the intelligent temperature-adjusting electric appliance to operate according to the selected temperature-time curve and the selected wind speed-time curve.

Preferably, the MCU singlechip is also used for storing a temperature regulation curve group formed by combining the temperature-time curve and the wind speed-time curve;

the communication module is further used for receiving a third selection instruction, wherein the third selection instruction is used for selecting one temperature regulation curve group from the stored temperature regulation curve groups;

the MCU singlechip is also used for selecting the temperature regulation curve group according to the third selection instruction and controlling the intelligent temperature regulation electric appliance to operate according to the selected temperature regulation curve group.

Compared with the prior art, the technical scheme of the embodiment of the invention has the beneficial effects that: the intelligent temperature-regulating electric appliance is an air conditioner, a blowing electric heater, an air fryer and other household appliances, and particularly, the intelligent temperature-regulating electric appliance operates according to a received temperature-time curve and a received wind speed-time curve which are set by a user in a self-defining way, so that different temperatures can be automatically regulated in each time period, the actual temperature requirements of each time period which are required by the user can be adapted, and the temperature control intelligence is realized; and, through separately adjusting control with temperature and wind speed, can realize the combination collocation of different temperature and different wind speeds, the temperature regulation effect that its obtained presents the diversification, promotes user experience.

Drawings

FIG. 1 is a flowchart of an embodiment of a method for controlling temperature adjustment of an intelligent temperature-adjusting electric appliance according to the present invention;

FIG. 2 is a system architecture diagram of an embodiment of the smart thermostat electrical appliance of the present invention;

FIG. 3 is a flowchart of another embodiment of a method for controlling temperature adjustment of an intelligent temperature-adjusting electrical appliance according to the present invention;

FIG. 4 is a flowchart of another embodiment of a method for controlling temperature adjustment of an intelligent temperature-adjusting electric appliance according to the present invention;

FIG. 5 is a flowchart of a temperature adjustment control method for an intelligent temperature-adjusting electric appliance according to yet another embodiment of the present invention;

fig. 6 is a functional module schematic diagram of an embodiment of the intelligent temperature-regulating electric appliance according to the present invention.

Detailed Description

In the following, the embodiments of the present invention will be described in detail with reference to the drawings in the following, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a temperature regulation control method of an intelligent temperature regulation electric appliance, and with reference to fig. 1, the temperature regulation control method comprises the following steps:

step S10: receiving a temperature-time curve and a wind speed-time curve for controlling the intelligent temperature-adjusting electric appliance, wherein the temperature-time curve and the wind speed-time curve are set by a user in a self-defined manner;

step S20: and controlling the intelligent temperature-adjusting electric appliance to operate according to the temperature-time curve and the wind speed-time curve.

Specifically, the related intelligent temperature-adjusting electric appliances are air conditioners, blowing type electric heaters, air fryer and other household appliances, and all the appliances adopt a temperature adjusting mode combining a temperature output module (for example, the air conditioner is a refrigerating module, the blowing type electric heaters and the air fryer are heating modules) and a fan. The communication module preferably selects a wifi module, a zigbee module and/or a bluetooth module, and the received temperature-time curve and wind speed-time curve are sent through the mobile terminal, that is, the intelligent temperature-regulating electric appliance is connected with the mobile terminal such as a mobile phone and a tablet personal computer through the communication module, and the control of the intelligent temperature-regulating electric appliance is realized through an APP or a small program on the mobile terminal. The temperature-time curve and the wind speed-time curve are set by a user on a mobile terminal in a self-defining way, an initial temperature-time curve is displayed on a setting interface of the mobile terminal, the abscissa of the initial temperature-time curve is a time coordinate, the ordinate of the initial temperature-time curve is a temperature coordinate, the temperature of the initial temperature-time curve is a constant value, and the user can click any point on the temperature-time curve or any time period to move up and down along the ordinate during setting so as to adjust the temperature of the corresponding moment or time period. Similarly, a wind speed-time curve is displayed on a setting interface of the mobile terminal, the abscissa of the wind speed-time curve is a time coordinate, the ordinate of the wind speed-time curve is a wind speed coordinate, and the wind speed of the initial wind speed-time curve is a constant value. When the wind speed-time curve is set, a user can click any point on the wind speed-time curve or any time period to move up and down along the ordinate so as to adjust the wind speed at the corresponding moment or time period. The temperature-time curve and the wind speed-time curve may be displayed and set on the same setting interface or different setting interfaces of the mobile terminal, and may also be displayed in the same coordinate graph or different coordinate graphs when the temperature-time curve and the wind speed-time curve are on the same setting interface, which is not limited herein.

Secondly, an MCU singlechip is arranged in the intelligent temperature-adjusting electric appliance, after the intelligent temperature-adjusting electric appliance receives the temperature-time curve and the wind speed-time curve through a communication module, the MCU singlechip adjusts the output power of a temperature output module of the intelligent temperature-adjusting electric appliance according to the temperature-time curve to realize the control of the temperature, and controls the rotating speed of a fan through a speed regulator arranged in the intelligent temperature-adjusting electric appliance according to the wind speed-time curve to realize the control of the wind speed. Wherein, optional stm32 low-power consumption singlechip of MCU singlechip, temperature output module with respectively with MCU singlechip and power connection, fan motor is connected with MCU singlechip and power respectively through the speed regulator, other functional module in the intelligent temperature adjustment electrical apparatus are also supplied power by the power equally. When the AC power supply is adopted, the speed regulator can select a silicon controlled speed regulation mode, and when the DC power supply is adopted, the speed regulator can select a triode or an MOS tube and other speed regulation modes. In practical application, no matter the alternating current or direct current power supply is adopted for driving, the effects of energy saving and power saving can be achieved.

The intelligent temperature-adjusting electric appliance operates according to the received temperature-time curve and the received wind speed-time curve which are set by the user in a self-defined way, so that different temperatures can be automatically adjusted in each time period, the actual temperature requirements of each time period which are required by the user can be adapted, and the temperature control intelligence is realized; and, through separately adjusting control with temperature and wind speed, can realize the combination collocation of different temperature and different wind speeds, the temperature regulation effect that its obtained presents the diversification, promotes user experience.

Referring to fig. 2, the intelligent temperature-regulating electric appliance is in communication connection with the mobile terminal Bluetooth BLE, and the temperature-time curve and the wind speed-time curve are sent through the mobile terminal. The mobile terminal adopts a Bluetooth BLE communication mode to be directly connected with the intelligent temperature-adjusting electric appliance, so that a temperature-time curve and a wind speed-time curve can be set and sent through an APP or a small program on the mobile terminal.

Or the intelligent temperature-adjusting electric appliance is in communication connection with the mobile terminal through the server, and the temperature-time curve and the wind speed-time curve are sent through the mobile terminal. The intelligent temperature-adjusting electric appliance is wirelessly connected with the server through Wifi, and the mobile terminal communicated with the server is connected with the intelligent temperature-adjusting electric appliance in a mode that a WIFI network or a Bluetooth BLE network is distributed, so that a temperature-time curve and a wind speed-time curve can be set and sent through an APP or a small program on the mobile terminal.

Referring to fig. 3, after step S20, the temperature adjustment control method further includes:

step S30: storing the temperature-time curve and the wind speed-time curve;

step S40: receiving a first selection instruction and a second selection instruction, wherein the first selection instruction is to select one of the stored temperature-time curves, and the second selection instruction is to select one of the stored wind speed-time curves;

step S50: and selecting a temperature-time curve and a wind speed-time curve according to the first selection instruction and the second selection instruction, and controlling the intelligent temperature-adjusting electric appliance to operate according to the selected temperature-time curve and the selected wind speed-time curve.

In the implementation step, a user can store the set temperature-time curve and the set wind speed-time curve on a setting interface of the mobile terminal so as to store the temperature-time curve and the wind speed-time curve into a storage chip of the MCU singlechip, namely, a plurality of temperature-time curves and wind speed-time curves can be stored; the user performs selection operation on a setting interface of the mobile terminal to respectively select a temperature-time curve and a wind speed-time curve from a plurality of temperature-time curves and a plurality of wind speed-time curves, the mobile terminal correspondingly sends a first selection instruction and a second selection instruction to the intelligent temperature-adjusting electric appliance, the intelligent temperature-adjusting electric appliance receives the first selection instruction and the second selection instruction through the communication module, the MCU singlechip correspondingly retrieves the temperature-time curve and the wind speed-time curve from a storage chip of the MCU singlechip according to the first selection instruction and the second selection instruction, and the output power of the temperature output module of the intelligent temperature-regulating electric appliance is regulated according to the selected temperature-time curve to realize the temperature control, and controlling the rotating speed of the fan by a speed regulator built in the intelligent temperature-regulating electric appliance according to the selected wind speed-time curve to realize the control of the wind speed. The set temperature-time curve and the set wind speed-time curve can be stored in the intelligent temperature-adjusting electric appliance by the user, so that the user can directly obtain the required temperature from the stored temperature-time curve and the stored wind speed-time curve in the subsequent use, the user can conveniently select the proper temperature-time curve and the proper wind speed-time curve according to habits or actual requirements to call at any time, the user is prevented from resetting the temperature-time curve and the wind speed-time curve every time the user uses the intelligent temperature-adjusting electric appliance, the time and the energy of the user are saved, and the experience of the user is further improved.

Referring to fig. 4, after step S20, the temperature adjustment control method further includes:

step S60: storing a temperature adjustment curve group formed by combining a temperature-time curve and a wind speed-time curve;

step S70: receiving a third selection instruction, wherein the third selection instruction is to select one of the stored temperature regulation curve groups;

step S80: and selecting the temperature regulation curve group according to the third selection instruction, and controlling the intelligent temperature regulation electric appliance to operate according to the selected temperature regulation curve group.

In the implementation step, a user can store the set temperature-time curve and the set wind speed-time curve on a setting interface of the mobile terminal, so that the temperature-time curve and the wind speed-time curve are combined to form a temperature regulation curve group to be stored in a storage chip of the MCU singlechip, namely a plurality of groups of temperature regulation curve groups can be stored; the method comprises the steps that a user conducts selection operation on a setting interface of a mobile terminal to select a set of temperature regulation curve groups from a plurality of sets of temperature regulation curve groups, the mobile terminal correspondingly sends a third selection instruction to an intelligent temperature regulation electric appliance, the intelligent temperature regulation electric appliance receives the third selection instruction through a communication module, the MCU single chip microcomputer correspondingly retrieves the temperature regulation curve groups from a storage chip according to the third selection instruction, the output power of a temperature output module of the intelligent temperature regulation electric appliance is adjusted according to the temperature-time curves in the selected temperature regulation curve groups to achieve temperature control, and the rotating speed of a fan is controlled through a speed regulator built in the intelligent temperature regulation electric appliance according to the wind speed-time curves in the selected temperature regulation curve groups to achieve wind speed control. The set temperature-time curve and the set wind speed-time curve can be stored in the intelligent temperature-adjusting electric appliance in the form of the temperature-adjusting curve group by the user, so that the user can directly obtain the self-needed temperature from the stored temperature-adjusting curve group in the subsequent use, the user can conveniently select the proper temperature-adjusting curve group to call at any time according to habits or actual requirements, the user is prevented from resetting the temperature-time curve and the wind speed-time curve every time the user uses the intelligent temperature-adjusting electric appliance, and the time and energy of the user are saved; in addition, the temperature-time curve and the wind speed-time curve of the temperature adjusting curve group are fixedly matched, the temperature adjusting effect achieved at each time point or time period is adaptive to the requirements of the user, namely, the situation that the user needs to combine, match and adjust the temperature and the wind speed when using the intelligent temperature adjusting electric appliance every time is avoided, and time and energy are further saved so as to improve the experience of the user.

Further, referring to fig. 5, the temperature adjustment control method may further include:

step S90: and voice prompt is carried out when the intelligent temperature-regulating electric appliance finishes the temperature-regulating work in each time period.

In this implementation step, intelligent temperature regulation still includes the voice prompt module who is connected with the MCU singlechip with electrical apparatus, and this voice prompt module can include speaker etc.. For example, when the first time period is finished and refrigeration of the second time period is started, the refrigeration time (such as 19 to 21 points), the refrigeration temperature (such as 24 ℃) and the wind speed of the second time period are automatically broadcasted through the loudspeaker, so that a user can conveniently know the temperature regulation condition of the intelligent temperature regulation electric appliance in real time.

The invention also provides an intelligent temperature-regulating electric appliance, referring to fig. 6, the intelligent temperature-regulating electric appliance comprises a communication module 10 and an MCU single chip 20, wherein:

the communication module 10 is used for receiving a temperature-time curve and a wind speed-time curve for controlling the intelligent temperature-adjusting electric appliance, and the temperature-time curve and the wind speed-time curve are set by a user in a self-defining way;

the MCU singlechip 20 is used for controlling the intelligent temperature-adjusting electric appliance to operate according to the temperature-time curve and the wind speed-time curve.

The intelligent temperature-regulating electric appliance related to the embodiment is an air conditioner, a blowing electric heater, an air fryer and other household appliances, and the adopted mode is a temperature regulation mode combining a temperature output module 30 (for example, the air conditioner is a refrigerating module, and the blowing electric heater and the air fryer are heating modules) and a fan 40. The communication module 10 preferably selects a wifi module, a zigbee module and/or a bluetooth module, and the received temperature-time curve and wind speed-time curve are sent through the mobile terminal 50, that is, the intelligent temperature-regulating electric appliance is connected with the mobile terminal 50 such as a mobile phone and a tablet computer through the communication module 10, and the control of the intelligent temperature-regulating electric appliance is realized through an APP or a small program on the mobile terminal 50. The temperature-time curve and the wind speed-time curve are set by a user on the mobile terminal 50 in a user-defined manner, an initial temperature-time curve is displayed on a setting interface of the mobile terminal 50, the abscissa of the initial temperature-time curve is a time coordinate, the ordinate of the initial temperature-time curve is a temperature coordinate, the temperature of the initial temperature-time curve is a constant value, and the user can click any point or any time period on the temperature-time curve to move up and down along the ordinate during setting so as to adjust the temperature of the corresponding moment or time period. Similarly, a wind speed-time curve is displayed on the setting interface of the mobile terminal 50, the abscissa of the wind speed-time curve is a time coordinate, the ordinate of the wind speed-time curve is a wind speed coordinate, and the wind speed of the initial wind speed-time curve is a constant value. When the wind speed-time curve is set, a user can click any point on the wind speed-time curve or any time period to move up and down along the ordinate so as to adjust the wind speed at the corresponding moment or time period. The temperature-time curve and the wind speed-time curve may be displayed and set on the same setting interface or different setting interfaces of the mobile terminal 50, and may also be displayed on the same coordinate graph or different coordinate graphs when the temperature-time curve and the wind speed-time curve are on the same setting interface, which is not limited herein.

Secondly, the intelligent temperature-adjusting electric appliance is internally provided with an MCU (microprogrammed control Unit) single chip microcomputer 20, and the temperature output module 30 and the fan 40 are both connected with the MCU single chip microcomputer 20. Wherein, the optional stm32 low-power consumption singlechip of MCU singlechip 20. After the intelligent temperature-adjusting electric appliance receives the temperature-time curve and the wind speed-time curve through the communication module 10, the MCU singlechip 20 converts the temperature-time curve and the wind speed-time curve into corresponding control commands, i.e., a time-temperature output power command and a time-fan 40 motor power command, respectively, i.e., the temperature output power of the temperature output module 30 and the output power of the fan 40 are controlled according to the time axis. The speed regulator 60 connected to the MCU monolithic processor 20 can control the magnitude of the load current loaded on the motor of the fan 40 to control the rotation speed of the motor of the fan 40 in a corresponding time to achieve the function of controlling the wind speed of the smart fan 40, and specifically, the motor of the fan 40 in the smart temperature-adjusting electrical appliance is connected to a power supply 70 (an AC power supply or a DC power supply) through the speed regulator 60 and powered by the power supply 70. Other functional modules in the intelligent temperature-regulating appliance are also powered by the power supply 70. When an alternating current power supply is adopted, the speed regulator 60 can select a silicon controlled speed regulation mode; when a dc power supply is used, the speed controller 60 may select a speed control mode such as a triode or an MOS transistor. In practical application, no matter the alternating current or direct current power supply is adopted for driving, the effects of energy saving and power saving can be achieved.

The intelligent temperature-adjusting electric appliance is in communication connection with the mobile terminal Bluetooth BLE, and the temperature-time curve and the wind speed-time curve are sent through the mobile terminal. The mobile terminal adopts a Bluetooth BLE communication mode to be directly connected with the intelligent temperature-adjusting electric appliance, so that a temperature-time curve and a wind speed-time curve can be set and sent through an APP or a small program on the mobile terminal.

Or the intelligent temperature-adjusting electric appliance is in communication connection with the mobile terminal through the server, and the temperature-time curve and the wind speed-time curve are sent through the mobile terminal. The intelligent temperature-adjusting electric appliance is wirelessly connected with the server through Wifi, and the mobile terminal communicated with the server is connected with the intelligent temperature-adjusting electric appliance in a mode that a WIFI network or a Bluetooth BLE network is distributed, so that a temperature-time curve and a wind speed-time curve can be set and sent through an APP or a small program on the mobile terminal.

Further, the MCU singlechip 20 is also used for storing a temperature-time curve and a wind speed-time curve;

the communication module 10 is further configured to receive a first selection instruction and a second selection instruction, where the first selection instruction is to select one of the stored temperature-time curves, and the second selection instruction is to select one of the stored wind speed-time curves;

the MCU singlechip 20 is further used for selecting a temperature-time curve and a wind speed-time curve according to the first selection instruction and the second selection instruction, and controlling the intelligent temperature-regulating electric appliance to operate according to the selected temperature-time curve and the selected wind speed-time curve.

In this embodiment, the user may perform a saving operation on the set temperature-time curve and the set wind speed-time curve on the setting interface of the mobile terminal 50, so as to store the temperature-time curve and the wind speed-time curve into the storage chip of the MCU singlechip 20, i.e., store a plurality of temperature-time curves and wind speed-time curves; the user performs selection operation on a setting interface of the mobile terminal 50 to select a temperature-time curve and a wind speed-time curve from a plurality of temperature-time curves and a plurality of wind speed-time curves respectively, the mobile terminal 50 correspondingly sends a first selection instruction and a second selection instruction to the intelligent temperature-adjusting electric appliance, the intelligent temperature-adjusting electric appliance receives the first selection instruction and the second selection instruction through the communication module 10, the MCU singlechip 20 correspondingly retrieves the temperature-time curve and the wind speed-time curve from a storage chip thereof according to the first selection instruction and the second selection instruction and converts the temperature-time curve and the wind speed-time curve into corresponding control instructions, namely the output power of the temperature output module 30 of the intelligent temperature-adjusting electric appliance is adjusted according to the selected temperature-time curve to realize temperature control, and the rotating speed of the fan 40 is controlled through the speed regulator 60 built in the intelligent temperature-adjusting electric appliance to realize wind speed control according to the selected wind speed-time . The set temperature-time curve and the set wind speed-time curve can be stored in the intelligent temperature-adjusting electric appliance by the user, so that the user can directly obtain the required temperature from the stored temperature-time curve and the stored wind speed-time curve in the subsequent use, the user can conveniently select the proper temperature-time curve and the proper wind speed-time curve according to habits or actual requirements to call at any time, the user is prevented from resetting the temperature-time curve and the wind speed-time curve every time the user uses the intelligent temperature-adjusting electric appliance, the time and the energy of the user are saved, and the experience of the user is further improved.

Further, the MCU singlechip 20 is also used for storing a temperature regulation curve group formed by combining a temperature-time curve and a wind speed-time curve;

the communication module 10 is further configured to receive a third selection instruction, where the third selection instruction is to select one of the stored temperature adjustment curve groups;

the MCU single chip microcomputer 20 is further used for selecting the temperature regulation curve group according to the third selection instruction and controlling the intelligent temperature regulation electric appliance to operate according to the selected temperature regulation curve group.

In this embodiment, a user may perform a saving operation on the set temperature-time curve and the set wind speed-time curve on the setting interface of the mobile terminal 50, so as to combine the temperature-time curve and the wind speed-time curve to form a temperature adjustment curve group, and store the temperature adjustment curve group into the storage chip of the MCU singlechip 20, that is, store a plurality of temperature adjustment curve groups; the user performs selection operation on a setting interface of the mobile terminal 50 to select a group of temperature regulation curve groups from the plurality of groups of temperature regulation curve groups, the mobile terminal 50 correspondingly sends a third selection instruction to the intelligent temperature regulation electric appliance, the intelligent temperature regulation electric appliance receives the third selection instruction through the communication module 10, the MCU singlechip 20 correspondingly retrieves the temperature regulation curve groups from a storage chip thereof according to the third selection instruction and converts the temperature regulation curve groups into corresponding control instructions, namely the output power of the temperature output module 30 of the intelligent temperature regulation electric appliance is adjusted according to the temperature-time curves in the selected temperature regulation curve groups to realize temperature control, and the rotating speed of the fan 40 is controlled through the speed regulator 60 built in the intelligent temperature regulation electric appliance according to the wind speed-time curves in the selected temperature regulation curve groups to realize wind speed control. The set temperature-time curve and the set wind speed-time curve can be stored in the intelligent temperature-adjusting electric appliance in the form of the temperature-adjusting curve group by the user, so that the user can directly obtain the self-needed temperature from the stored temperature-adjusting curve group in the subsequent use, the user can conveniently select the proper temperature-adjusting curve group to call at any time according to habits or actual requirements, the user is prevented from resetting the temperature-time curve and the wind speed-time curve every time the user uses the intelligent temperature-adjusting electric appliance, and the time and energy of the user are saved; in addition, the temperature-time curve and the wind speed-time curve of the temperature adjusting curve group are fixedly matched, the temperature adjusting effect achieved at each time point or time period is adaptive to the requirements of the user, namely, the situation that the user needs to combine, match and adjust the temperature and the wind speed when using the intelligent temperature adjusting electric appliance every time is avoided, and time and energy are further saved so as to improve the experience of the user.

Furthermore, the intelligent temperature-regulating electric appliance can further comprise a voice prompt module 80, and the voice prompt module 80 is used for carrying out voice prompt when the intelligent temperature-regulating electric appliance finishes the temperature regulation work in each time period. The voice prompt module 80 may include a speaker, etc. For example, when the first time period is finished and refrigeration of the second time period is started, the refrigeration time (such as 19 to 21 points), the refrigeration temperature (such as 24 ℃) and the wind speed of the second time period are automatically broadcasted through the loudspeaker, so that a user can conveniently know the temperature regulation condition of the intelligent temperature regulation electric appliance in real time.

The above description is only a part of or preferred embodiments of the present invention, and neither the text nor the drawings should be construed as limiting the scope of the present invention, and all equivalent structural changes, which are made by using the contents of the present specification and the drawings, or any other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A temperature regulation control method for intelligent temperature regulation electric appliance is characterized by comprising the following steps:

receiving a temperature-time curve and a wind speed-time curve for controlling the intelligent temperature-adjusting electric appliance, wherein the temperature-time curve and the wind speed-time curve are set by a user in a self-defined manner;

and controlling the intelligent temperature-adjusting electric appliance to operate according to the temperature-time curve and the wind speed-time curve.

2. The temperature-regulating control method for the intelligent temperature-regulating electric appliance according to claim 1, wherein the intelligent temperature-regulating electric appliance is in communication connection with a mobile terminal Bluetooth BLE, and the temperature-time curve and the wind speed-time curve are transmitted through the mobile terminal.

3. The temperature-regulating control method for the intelligent temperature-regulating electric appliance according to claim 1, wherein the intelligent temperature-regulating electric appliance is in communication connection with a mobile terminal through a server, and the temperature-time curve and the wind speed-time curve are sent through the mobile terminal.

4. The method for controlling the temperature of a smart attemperating appliance according to claim 1, wherein after the step of controlling the operation of the smart attemperating appliance according to the temperature-time curve and the wind speed-time curve, the method further comprises:

storing the temperature-time curve and the wind speed-time curve;

receiving a first selection instruction and a second selection instruction, wherein the first selection instruction is to select one of the stored temperature-time curves, and the second selection instruction is to select one of the stored wind speed-time curves;

and selecting the temperature-time curve and the wind speed-time curve according to the first selection instruction and the second selection instruction, and controlling the intelligent temperature-regulating electric appliance to operate according to the selected temperature-time curve and the selected wind speed-time curve.

5. The method for controlling the temperature of a smart attemperating appliance according to claim 1, wherein after the step of controlling the operation of the smart attemperating appliance according to the temperature-time curve and the wind speed-time curve, the method further comprises:

storing a set of tempering curves formed by the combination of the temperature-time curve and the wind speed-time curve;

receiving a third selection instruction, wherein the third selection instruction is to select one temperature regulation curve group from the stored temperature regulation curve groups;

and selecting the temperature regulation curve group according to the third selection instruction, and controlling the intelligent temperature regulation electric appliance to operate according to the selected temperature regulation curve group.

6. The utility model provides an electric appliance for intelligent temperature regulation, its characterized in that, electric appliance for intelligent temperature regulation includes communication module and MCU singlechip, wherein:

the communication module is used for receiving a temperature-time curve and a wind speed-time curve for controlling the intelligent temperature-adjusting electric appliance, and the temperature-time curve and the wind speed-time curve are set by a user in a self-defining way;

and the MCU singlechip is used for controlling the intelligent temperature-adjusting electric appliance to operate according to the temperature-time curve and the wind speed-time curve.

7. The intelligent temperature-regulating electric appliance according to claim 6, wherein the intelligent temperature-regulating electric appliance is in communication connection with a mobile terminal Bluetooth (BLE), and the temperature-time curve and the wind speed-time curve are transmitted through the mobile terminal.

8. The intelligent temperature-regulating electrical appliance according to claim 6, wherein the intelligent temperature-regulating electrical appliance is in communication connection with a mobile terminal through a server, and the temperature-time curve and the wind speed-time curve are transmitted through the mobile terminal.

9. The intelligent temperature-regulating electric appliance according to claim 6, wherein the MCU singlechip is further configured to store the temperature-time curve and the wind speed-time curve;

the communication module is further used for receiving a first selection instruction and a second selection instruction, wherein the first selection instruction is to select one of the stored temperature-time curves, and the second selection instruction is to select one of the stored wind speed-time curves;

the MCU singlechip is also used for selecting the temperature-time curve and the wind speed-time curve according to the first selection instruction and the second selection instruction, and controlling the intelligent temperature-adjusting electric appliance to operate according to the selected temperature-time curve and the selected wind speed-time curve.

10. The intelligent temperature-regulating electric appliance according to claim 6, wherein the MCU singlechip is further configured to store a temperature-regulating curve group formed by combining the temperature-time curve and the wind speed-time curve;

the communication module is further used for receiving a third selection instruction, wherein the third selection instruction is used for selecting one temperature regulation curve group from the stored temperature regulation curve groups;

the MCU singlechip is also used for selecting the temperature regulation curve group according to the third selection instruction and controlling the intelligent temperature regulation electric appliance to operate according to the selected temperature regulation curve group.

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