CN111928332A - Intelligent heating method and system - Google Patents
Intelligent heating method and system Download PDFInfo
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- CN111928332A CN111928332A CN202010737539.0A CN202010737539A CN111928332A CN 111928332 A CN111928332 A CN 111928332A CN 202010737539 A CN202010737539 A CN 202010737539A CN 111928332 A CN111928332 A CN 111928332A
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24D—DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
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- F24D19/10—Arrangement or mounting of control or safety devices
- F24D19/1006—Arrangement or mounting of control or safety devices for water heating systems
- F24D19/1009—Arrangement or mounting of control or safety devices for water heating systems for central heating
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Abstract
The application relates to an intelligent heating method, which comprises an input step for inputting control information; an identification step for acquiring control information, identifying the control information and generating output information; and a control step for obtaining the output information, receiving the output information and controlling the temperature change of the heating radiator; and a feedback step for feeding back the temperature of the heating radiator. The method and the device have the effect of enabling the householder to cook at a more appropriate temperature on the premise of reducing energy waste.
Description
Technical Field
The application relates to the field of heat supply, in particular to an intelligent heating method and an intelligent heating system.
Background
The heating is to supply heat to the building and keep a certain indoor temperature, and is social service for solving the basic life requirement of the heating of residents in northern China in winter. In the household life, radiators are generally adopted as main heating equipment.
As the heating system of the urban residents in China adopts a one-time payment and real-time heating mode in the heating period. However, if a heating radiator is installed in a room where people rarely go in or out or stay in the room except for a specific time, such as a kitchen, heating is still performed under the condition that no people exist in the kitchen, which not only wastes energy, but also causes food in the kitchen to rot. However, the weather is cold in winter in northern China, so that the temperature difference between a kitchen without a radiator and the outdoor temperature is not large, and a small number of households wearing the radiators in a warm environment are prone to catch a cold when entering the kitchen to cook.
Disclosure of Invention
In order to enable a resident to cook at a relatively proper temperature on the premise of reducing energy waste, the application provides an intelligent heating method and an intelligent heating system.
The intelligent heating method and the system thereof adopt the following technical scheme:
in a first aspect, the present application provides an intelligent heating method, which adopts the following technical scheme:
an intelligent heating method, comprising:
an input step for inputting control information; wherein the control information at least comprises three information of temperature rise, temperature setting and temperature reduction;
an identification step for acquiring control information, identifying the control information and generating output information; this step may select the following actions:
recognizing temperature rise information and generating temperature rise output information;
or identifying the constant temperature information to generate constant temperature output information;
or identifying the cooling information and generating cooling output information;
and
a control step for obtaining output information, receiving the output information and controlling the temperature change of the heating radiator; this step may select the following actions:
receiving the temperature rise output information, and controlling the water inlet and the water outlet of the heating radiator to be opened;
or receiving the constant temperature output information and controlling the water inlet and the water outlet of the heating radiator to be closed;
or receiving the cooling output information, and controlling the water inlet and the water outlet of the heating radiator to be closed and opened;
and
and a feedback step for feeding back the temperature of the heating radiator.
By adopting the technical scheme, when a resident enters a kitchen for cooking, the water inlet and the water outlet of the kitchen heating radiator can be controlled to be opened by inputting the temperature rise information, so that high-temperature water can flow through the kitchen heating radiator to heat the kitchen heating radiator, and the temperature in the kitchen is increased. When the temperature of the kitchen radiator reaches the appropriate temperature, the water inlet and the water outlet of the kitchen radiator can be controlled to be closed by inputting the temperature-setting information, so that the temperature of the kitchen radiator does not rise any more after reaching the appropriate temperature, and energy is saved. When a resident leaves a kitchen, the water inlet of a kitchen heating radiator can be controlled to be closed and the water outlet of the kitchen heating radiator can be controlled to be opened by inputting cooling information, so that the original high-temperature water of the kitchen heating radiator is emptied when high-temperature water is blocked to flow into the kitchen heating radiator, if the high-temperature water in the kitchen heating radiator is not emptied, the high-temperature water can be cooled to be low-temperature water, and the high-temperature water can be mixed with the low-temperature water when the high-temperature water is input next time, so that the heating efficiency of the kitchen heating radiator. Thereby realizing that the resident can cook at a more proper temperature on the premise of reducing the energy waste.
Preferably, the inputting step further comprises:
a time setting step for extracting a time point in the time information in response to the time information set by the user;
and a timing temperature rise step for acquiring the time point in the time information and controlling the input of the temperature rise information according to the time point.
By adopting the technical scheme, the resident sets the time point to realize that the heating radiator in the kitchen is heated up at regular time according to the time point, so that different residents can set the heating up at regular time according to the cooking time of the resident, and the heating up information can be automatically input to heat up the heating radiator in the kitchen when the cooking time point is reached, thereby improving the intelligent automation degree.
Preferably, the time setting step further includes:
a temperature advance setting step for responding to the temperature advance information set by the user and extracting a temperature advance point in the temperature advance information;
a temperature rise writing step for acquiring time information, writing the temperature rise lead information into the time information and covering the original time information;
and the temperature advance step is used for acquiring the temperature increase advance point in the temperature increase advance information and controlling the input of the temperature increase information according to the temperature increase advance point.
By adopting the technical scheme, after the time point of cooking is set by the resident, the temperature rise advance point can be continuously set according to the time length when the kitchen heating radiator reaches the proper temperature, so that the temperature of the kitchen heating radiator is already raised to the proper temperature when the resident enters the kitchen to cook, and the experience of the resident is enhanced.
Preferably, the timed temperature rise step further comprises:
a plan setting step for extracting a time period in plan information in response to the plan information set by the user;
a superimposing step for acquiring the time information and the plan information, and superimposing the time period on the time point to form time superimposed information;
and a timing cooling step for acquiring the time superposition information and controlling the input of the cooling information.
By adopting the technical scheme, a resident can set a time period according to the cooking time of the resident and superpose the time period on the cooking time point, so that the heated kitchen heating radiator can automatically input cooling information to regularly cool the kitchen heating radiator after the time period, and the automation degree of cooling is improved.
Preferably, the step of superimposing further comprises:
an advance cooling setting step for responding the cooling advance information set by the user and extracting the cooling advance point in the cooling advance information;
a cooling writing step for obtaining the time superposition information, writing the cooling lead information into the time superposition information and covering the original time superposition information;
and the early cooling step is used for acquiring the cooling advance point in the cooling advance information and controlling the input of the cooling information according to the cooling advance point.
By adopting the technical scheme, after the resident sets the timing cooling, the cooling advance point can be continuously set according to the emptying time of the high-temperature water in the kitchen heater, so that the high-temperature water in the kitchen heater is emptied simultaneously when the resident leaves the kitchen, and the cooling speed of the kitchen is accelerated when no person exists in the kitchen.
Preferably, the inputting step further comprises:
a temperature setting step for extracting a temperature value in the temperature information in response to the temperature information set by the user;
a monitoring step for monitoring the room temperature value and forming room temperature information;
a comparison step for obtaining temperature information and room temperature information and comparing a room temperature value of the room temperature information with a temperature value of the temperature information; this step may select the following actions:
when the room temperature value reaches the temperature value, generating temperature control information;
the room temperature value does not reach the temperature value, and no information is generated;
and a temperature setting step for acquiring temperature control information and controlling the input of temperature setting information.
By adopting the technical scheme, a resident can set a proper temperature value, and by monitoring the kitchen room temperature value and comparing the kitchen room temperature value with the temperature value, the method can automatically input temperature setting information when the room temperature value of a kitchen reaches the temperature value, control the heating of a kitchen heating radiator to stop heating, and improve the automation degree of the kitchen heating radiator for setting the temperature.
In a second aspect, the present application provides an intelligent heating system, which adopts the following technical solution:
an intelligent heating system comprising:
the heating input module is used for inputting heating information;
the heating control module is used for acquiring heating information and controlling the opening of the water inlet and the water outlet of the heating radiator;
the cooling input module is used for inputting cooling information;
and the cooling control module is used for acquiring cooling information and controlling the water inlet and the water outlet of the heating radiator to be closed and opened.
By adopting the technical scheme, when a resident cooks, the temperature rise information is input through the temperature rise input module, and the temperature rise of the kitchen radiator is controlled through the temperature rise control module, so that the room temperature of the kitchen reaches the proper temperature; after a resident finishes cooking, the cooling information is input through the cooling input module, and the cooling control module controls the cooling of the kitchen heating radiator to save energy. Thereby reducing energy waste and ensuring that the householder can cook at a more proper temperature.
Preferably, the temperature increase input module includes:
the time setting unit is used for responding to the time information set by the user and extracting the time point in the time information;
and the timing heating unit is used for acquiring the time point in the time information and controlling the input of the heating information according to the time point.
By adopting the technical scheme, the time setting unit is used for setting the cooking time point of the resident, and the timing heating unit is used for controlling the input of the heating information according to the cooking time point, so that the effect of automatically heating the kitchen heating radiator according to the setting of the resident is achieved.
Preferably, the time setting unit includes:
the advanced heating setting subunit is used for responding to the heating advance information set by the user and extracting a heating advance point in the heating advance information;
and the heating write-in subunit is used for acquiring the time information, writing the heating lead information into the time information, covering the original time information and forming new time information.
By adopting the technical scheme, the cooking time advance point is set through the advance heating setting subunit, and the time advance point is covered on the original time point through the heating writing subunit, so that the timing heating unit can heat the kitchen radiator in advance according to the time advance point, and the temperature of the kitchen is raised when a resident enters the kitchen to cook.
In summary, the present application includes at least one of the following beneficial technical effects:
1. the household can cook at a more proper temperature on the premise of reducing energy waste;
2. the heating device can achieve the effect that when a resident enters a kitchen to cook, the temperature of a kitchen heating radiator is already raised to a proper temperature, and the experience of the resident is enhanced.
Drawings
Fig. 1 is a flowchart of a method of an intelligent heating method according to an embodiment of the present application.
FIG. 2 is a flowchart of a method for highlighting the timed and advanced temperature increases according to an embodiment.
FIG. 3 is a flowchart of a method for highlighting a timed cool down and an early cool down according to an embodiment.
FIG. 4 is a flowchart of a method for highlighting auto-thermostat, according to an embodiment.
Fig. 5 is a block diagram of an intelligent heating system according to an embodiment of the present application.
Description of reference numerals: 1. an input step; 2. a step of identification; 3. a control step; 4. a feedback step; 51. a time setting step; 52. a step of raising the temperature at regular time; 53. setting temperature rise in advance; 54. a temperature-raising writing step; 55. a temperature raising step in advance; 61. a plan setting step; 62. a superposition step; 63. a step of cooling at regular time; 64. a step of setting temperature reduction in advance; 65. a cooling writing step; 66. cooling in advance; 71. a temperature setting step; 72. monitoring; 73. a comparison step; 74. a temperature setting step; 8. a temperature rise input module; 9. a temperature rise control module; 10. a cooling input module; 11. a cooling control module; 81. a time setting unit; 82. a timing temperature rise unit; 811. a temperature advance setting subunit; 812. and raising the temperature to write the subunit.
Detailed Description
The present application is described in further detail below with reference to figures 1-5.
A kitchen radiator for heating a kitchen is installed in the kitchen, and the kitchen radiator is matched with a main heating pipeline for use. The two sides of the kitchen radiator are respectively provided with a water inlet and a water outlet, and the water inlet and the water outlet are respectively provided with an electromagnetic valve for controlling the on-off of the water inlet and the water outlet.
The embodiment of the application discloses an intelligent heating method. Referring to fig. 1, the intelligent heating method includes:
and an input step 1 of inputting control information.
The control information at least comprises three information of temperature rise, temperature setting and temperature reduction, and the resident can select the input of the three information according to the requirement of the room temperature of the kitchen and the action judgment of the resident.
And 2, acquiring the control information, identifying specific information in the three information included in the control information, and generating corresponding output information according to the identified specific information.
Wherein, this step can select the following actions: generating temperature rise output information when the temperature rise information is identified; or when the constant temperature information is identified, generating constant temperature output information; or generating cooling output information when the cooling information is identified.
And 3, acquiring the output information, receiving the corresponding output information, and controlling the temperature of the heating radiator to perform corresponding conversion according to the corresponding output information.
Wherein, this step can select the following actions: and when receiving the temperature rise output information, controlling the water inlet and the water outlet of the kitchen radiator to be opened. Or when receiving the output information of the fixed temperature, controlling the water inlet and the water outlet of the kitchen radiator to be closed; or when the cooling output information is received, the water inlet of the kitchen radiator is controlled to be closed, and the water outlet of the kitchen radiator is controlled to be opened.
When the water inlet and the water outlet of the kitchen radiator are both opened, high-temperature water in the main heating pipeline flows into the kitchen radiator through the water inlet and then flows back to the main heating pipeline through the water outlet, so that high-temperature water flows in the kitchen radiator, the temperature of the kitchen radiator is raised, and the room temperature of the kitchen is further raised. When the water inlet and the water outlet of the kitchen radiator are both closed, high-temperature water is filled in the kitchen radiator at the moment, and the inflow and the outflow of the high-temperature water are blocked, so that the temperature of the kitchen radiator is not increased any more, and the kitchen radiator is stabilized at a proper temperature value. When the water inlet of the kitchen radiator is closed and the water outlet is opened, high-temperature water in the kitchen radiator can flow back to the main heating pipeline through the water outlet until the high-temperature water in the kitchen radiator is exhausted, and the kitchen radiator is cooled in the water discharging process so that the room temperature of a kitchen is reduced.
And 4, feeding back the temperature of the heating radiator. Wherein, the resident family feels the comfort level through the radiator temperature that feeds back and self and makes correspondingly to be convenient for the resident family knows suitable self kitchen room temperature.
In conclusion, when a resident enters a kitchen to cook, the water inlet and the water outlet of the kitchen radiator can be controlled to be opened by inputting the temperature rise information, so that high-temperature water can flow through the kitchen radiator to raise the temperature of the kitchen radiator, and the temperature in the kitchen is raised. When the temperature of the kitchen radiator reaches the temperature suitable for residents, the water inlet and the water outlet of the kitchen radiator can be controlled to be closed by inputting the temperature-setting information, so that the temperature of the kitchen radiator does not rise any more after reaching the suitable temperature, and energy conservation is realized. When a resident leaves a kitchen, the water inlet of a kitchen radiator can be controlled to be closed and the water outlet of the kitchen radiator can be controlled to be opened by inputting cooling information, when high-temperature water is prevented from flowing into the kitchen radiator, the original high-temperature water of the kitchen radiator is emptied, and the effect of reducing the room temperature of the kitchen is realized (wherein if the high-temperature water in the kitchen radiator is not emptied, the high-temperature water can be cooled to be low-temperature water, and can be mixed with the low-temperature water when the high-temperature water is input next time, the heating efficiency of the kitchen radiator is reduced, and energy is wasted), so that the resident can cook at a more appropriate temperature on the premise of reducing energy waste.
Referring to fig. 2, before inputting step 1, the method further includes:
a time setting step 51, in response to the time information set by the user, extracts a time point in the time information. Wherein, the time information is set according to the time point when the resident starts to cook the rice on the day or the habit.
And a timed heating step 52, which is used for acquiring the time point in the time information and controlling the input of the heating information according to the time point. The heating device comprises a heating device, a heating control module and a heating control module, wherein the heating device is used for heating the heating device, and the heating device is used for heating the heating device.
The time setting step 51 further includes:
and an advance heating setting step 53 of extracting a heating advance point in the heating advance information in response to the heating advance information set by the user. After the time point of cooking is set by the resident, the advance point of temperature rise is continuously set according to the time length of the kitchen radiator reaching the appropriate temperature.
And a temperature rise writing step 54 of acquiring the time information, writing the temperature rise advance information into the time information and overwriting the original time information. The time information written with the temperature rise lead information covers the original time information, so that the new time information retains the temperature rise lead point.
And an advance heating step 55 of acquiring a heating advance point in the heating advance information and controlling the input of the heating information according to the heating advance point. The heating of the kitchen radiator is advanced before the resident cooks according to the advance heating point, so that the kitchen radiator is heated to a proper temperature when the resident cooks in the kitchen, and the experience of the resident is enhanced.
Referring to fig. 3, the timed temperature increase step 52 further includes:
a schedule setting step 61 of extracting a time slot in the schedule information in response to the schedule information set by the user, and a schedule setting step 61 of setting the schedule. Wherein, the resident can set the time quantum according to the time length of cooking by oneself.
And a superimposing step 62 of acquiring the time information and the plan information, and superimposing the time period in the plan information on the time point in the time information to form time superimposed information. And the new time point in the superimposed information is the original time point in the time information plus the time period in the planning information.
And a step 63 of cooling regularly, acquiring time superposition information and controlling cooling information input. Wherein, after the kitchen radiator after the intensification is through the time quantum that the resident family set for, can automatic input cooling information messenger kitchen radiator regularly cools down to promote the degree of automation of cooling.
The superimposing step 62 is followed by:
and an advance cooling setting step 64, which is used for responding to the cooling advance information set by the user and extracting the cooling advance point in the cooling advance information. After the time point of cooling the kitchen heating radiator is set by the resident, the temperature-reducing advance point is set according to the time length of the complete evacuation of the high-temperature water in the kitchen heating radiator.
And a cooling writing step 65, configured to obtain the time superposition information, write the cooling lead information into the time superposition information, and cover the original time superposition information. The time superposition information written with the cooling lead information covers the original time superposition information, so that the new time superposition information retains the cooling lead.
And an advance cooling step 66, configured to obtain a cooling advance point in the cooling advance information, and control input of the cooling information according to the cooling advance point. According to the advance point of temperature reduction, when a resident leaves the kitchen, high-temperature water in the kitchen heating sheet is simultaneously drained, and therefore when no person exists in the kitchen, the speed of temperature reduction of the kitchen is accelerated.
Referring to fig. 4, before inputting step 1, the method further includes:
a temperature setting step 71, which is to extract a temperature value from the temperature information in response to the temperature information set by the user. Wherein, the temperature value in the temperature information is set by the resident according to the proper temperature.
And a monitoring step 72, monitoring the room temperature value to form room temperature information.
And a comparison step 73, acquiring the temperature information and the room temperature information, and comparing the room temperature value of the room temperature information with the temperature value of the temperature information.
Wherein, this step can select the following actions: when the room temperature value reaches a temperature value, generating temperature control information; when the room temperature value does not reach the temperature value, no information is generated.
And a temperature setting step 74, acquiring temperature control information and controlling the input of the temperature setting information.
By monitoring the kitchen room temperature value and comparing the kitchen room temperature value with the temperature value, when the room temperature value of the kitchen reaches the temperature value, the constant temperature information can be automatically input, the heating of the kitchen heating radiator is controlled to stop heating, and the automation degree of the constant temperature of the kitchen heating radiator is improved.
The implementation principle of the intelligent heating system method in the embodiment of the application is as follows: when a resident enters the kitchen to cook, the temperature of the kitchen radiator can be raised by inputting the temperature-raising information, so that the temperature in the kitchen is raised. When the temperature of the kitchen radiator reaches the temperature suitable for residents, the temperature of the kitchen radiator can not rise any more after reaching the suitable temperature by inputting the temperature-setting information, and energy conservation is realized. When the householder leaves the kitchen, the effect of lowering the room temperature of the kitchen can be realized by the method of inputting the cooling information, thereby realizing that the householder can cook at a more appropriate temperature on the premise of reducing energy waste.
The embodiment of the application also discloses an intelligent heating system. Referring to fig. 5, the intelligent heating system includes:
and the heating input module 8 is used for inputting heating information.
And the heating control module 9 is used for acquiring heating information and controlling the opening of the water inlet and the water outlet of the heating radiator.
And the cooling input module 10 is used for inputting cooling information.
And the cooling control module 11 is used for acquiring cooling information and controlling the water inlet and the water outlet of the heating radiator to be closed and opened.
When a resident cooks, the heating input module 8 inputs heating information, and the heating control module 9 controls the heating of the kitchen radiator to make the room temperature of the kitchen reach a proper temperature; after a resident finishes cooking, the cooling input module 10 inputs cooling information, and the cooling control module 11 controls the cooling of the kitchen radiator to save energy. Thereby reducing energy waste and ensuring that the householder can cook at a more proper temperature.
The temperature increase input module 8 includes:
the time setting unit 81 is configured to extract a time point in the time information in response to the time information set by the user.
And a timing heating unit 82 for acquiring a time point in the time information and controlling the input of the heating information according to the time point.
The time setting unit 81 is used for setting the cooking time point of the resident, and the timing heating unit 82 is used for controlling the input of the heating information according to the cooking time point, so that the effect of automatically heating the radiator in the kitchen according to the setting of the resident is achieved.
The time setting unit 81 includes:
an advance heating setting subunit 811, configured to respond to the heating advance information set by the user, and extract a heating advance point in the heating advance information;
and a temperature-raising writing subunit 812, configured to obtain the time information, write the temperature-raising advance information into the time information, overwrite the original time information, and form new time information.
The advance heating time setting subunit 811 is used for setting the advance heating time, and the advance heating time writing subunit 812 is used for covering the original time, so that the timing heating unit 82 can heat the radiator in the kitchen in advance according to the advance heating time, and the temperature in the kitchen is raised when a resident enters the kitchen for cooking.
The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.
Claims (9)
1. An intelligent heating method, comprising:
an input step for inputting control information; wherein the control information at least comprises three information of temperature rise, temperature setting and temperature reduction;
an identification step for acquiring control information, identifying the control information and generating output information; this step may select the following actions:
recognizing temperature rise information and generating temperature rise output information;
or identifying the constant temperature information to generate constant temperature output information;
or identifying the cooling information and generating cooling output information;
and
a control step for obtaining output information, receiving the output information and controlling the temperature change of the heating radiator; this step may select the following actions:
receiving the temperature rise output information, and controlling the water inlet and the water outlet of the heating radiator to be opened;
or receiving the constant temperature output information and controlling the water inlet and the water outlet of the heating radiator to be closed;
or receiving the cooling output information, and controlling the water inlet and the water outlet of the heating radiator to be closed and opened;
and
and a feedback step for feeding back the temperature of the heating radiator.
2. The intelligent heating method according to claim 1, wherein the inputting step further comprises:
a time setting step for extracting a time point in the time information in response to the time information set by the user;
and a timing temperature rise step for acquiring the time point in the time information and controlling the input of the temperature rise information according to the time point.
3. The intelligent heating method according to claim 2, wherein the time setting step further includes:
a temperature advance setting step for responding to the temperature advance information set by the user and extracting a temperature advance point in the temperature advance information;
a temperature rise writing step for acquiring time information, writing the temperature rise lead information into the time information and covering the original time information;
and the temperature advance step is used for acquiring the temperature increase advance point in the temperature increase advance information and controlling the input of the temperature increase information according to the temperature increase advance point.
4. The intelligent heating method according to claim 2, wherein the timed heating step further comprises:
a plan setting step for extracting a time period in plan information in response to the plan information set by the user;
a superimposing step for acquiring the time information and the plan information, and superimposing the time period on the time point to form time superimposed information;
and a timing cooling step for acquiring the time superposition information and controlling the input of the cooling information.
5. The intelligent heating method according to claim 4, wherein the superimposing step is followed by further comprising:
an advance cooling setting step for responding the cooling advance information set by the user and extracting the cooling advance point in the cooling advance information;
a cooling writing step for obtaining the time superposition information, writing the cooling lead information into the time superposition information and covering the original time superposition information;
and the early cooling step is used for acquiring the cooling advance point in the cooling advance information and controlling the input of the cooling information according to the cooling advance point.
6. The intelligent heating method according to claim 1, wherein the inputting step further comprises:
a temperature setting step for extracting a temperature value in the temperature information in response to the temperature information set by the user;
a monitoring step for monitoring the room temperature value and forming room temperature information;
a comparison step for obtaining temperature information and room temperature information and comparing a room temperature value of the room temperature information with a temperature value of the temperature information; this step may select the following actions:
when the room temperature value reaches the temperature value, generating temperature control information;
the room temperature value does not reach the temperature value, and no information is generated;
and a temperature setting step for acquiring temperature control information and controlling the input of temperature setting information.
7. An intelligent heating system, comprising:
the temperature rise input module (8) is used for inputting temperature rise information;
the heating control module (9) is used for acquiring heating information and controlling the opening of the water inlet and the water outlet of the heating radiator;
the cooling input module (10) is used for inputting cooling information;
and the cooling control module (11) is used for acquiring cooling information and controlling the water inlet and the water outlet of the heating radiator to be closed and opened.
8. The intelligent heating system according to claim 7, wherein the warming input module (8) comprises:
a time setting unit (81) for extracting a time point in the time information in response to the time information set by the user;
and the timing heating unit (82) is used for acquiring the time point in the time information and controlling the input of the heating information according to the time point.
9. The intelligent heating system according to claim 8, wherein the time setting unit (81) includes:
a temperature advance setting subunit (811) for responding to the temperature advance information set by the user and extracting the temperature advance point in the temperature advance information;
and the heating and writing subunit (812) is used for acquiring the time information, writing the heating advance information into the time information, covering the original time information and forming new time information.
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Application publication date: 20201113 |