CN107576010B - Operation control method, system, computer device, readable storage medium and air conditioner - Google Patents

Abstract

The invention provides an operation control method, an operation control system, computer equipment, a readable storage medium and an air conditioner, wherein the operation control method is used for the air conditioner and comprises the following steps: detecting the temperature at the side of a stove and the indoor temperature in real time when the air conditioner operates according to preset parameters; determining the temperature difference of the temperature at the side of the stove minus the indoor temperature; adjusting the operation parameters of the air conditioner according to the temperature difference; and controlling the air conditioner to operate according to the operation parameters. According to the technical scheme, the operation capacity of the air conditioner is correspondingly adjusted by determining the heat radiation of the stove, so that the possibility that the heat radiated by stove fire when a kitchen is used for cooking is influenced by the small-range temperature rise of the stove is reduced, the fluctuation of the indoor temperature when the air conditioner is used in the kitchen is reduced, the indoor temperature is constant and comfortable, people feel more comfortable, and when the radiation temperature of the stove fire is reduced, the air volume can be automatically reduced, the comfort of a human body is improved, and the noise of the operation of the air conditioner is reduced.

Description

Operation control method, system, computer device, readable storage medium and air conditioner

Technical Field

The present invention relates to the field of air conditioners, and in particular, to an operation control method, an operation control system, a computer device, a computer-readable storage medium, and an air conditioner.

Background

Currently, some people start installing air conditioners in the kitchen in order to solve the problem of very hot cooking in summer. However, when people cook, the gas stove emits a large amount of heat, and the indoor refrigeration effect is affected. Aiming at the problems, in the related technology, the air conditioner is divided into a strong mode and a weak mode, the strong mode is used when a kitchen is opened for frying dishes, an air opening is arranged near a gas stove and blows towards a person on a cooking bench, and the person can feel cool quickly.

The above solutions have however some drawbacks: the user just needs powerful refrigeration when opening big fire fried dish, if only open the smoldering of small fire, then does not need powerful, still go to adjust again and be "weak", and adjustment many times can produce iterative mechanical operation, and is comparatively troublesome, does not adjust again and leads to the indoor temperature to fluctuate greatly, greatly influences user experience.

Disclosure of Invention

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

To this end, it is an object of the invention to propose an operation control method.

It is a further object of the present invention to provide an operation control system.

It is a further object of the invention to propose a computer device.

It is yet another object of the present invention to provide a computer-readable storage medium.

It is still another object of the present invention to provide an air conditioner.

In view of this, the technical solution of the first aspect of the present invention provides an operation control method for an air conditioner, including: detecting the temperature at the side of a stove and the indoor temperature in real time when the air conditioner operates according to preset parameters; determining the temperature difference of the temperature at the side of the stove minus the indoor temperature; adjusting the operation parameters of the air conditioner according to the temperature difference; and controlling the air conditioner to operate according to the operation parameters.

According to the technical scheme, when the air conditioner runs according to preset parameters, the indoor temperature and the temperature at the edge of the stove are collected in real time, the indoor temperature is used for sensing whether the room temperature reaches a target temperature set by the preset parameters, and the temperature at the edge of the stove is mainly used for knowing the heat dissipation condition of the stove; calculating the temperature difference through a processor to provide a basis for adjusting the operating parameters of the air conditioner; then confirm the adjustment of air conditioner operational parameter through the temperature difference, carry out the regulation of the amount of wind through adjustment air conditioner operational parameter to reduce the kitchen when cooking the possibility that the heat of stove fire radiation risees the influence to kitchen limit minizone temperature, reduce the fluctuation of indoor temperature when the kitchen uses the air conditioner, make indoor temperature invariable comfortable, make the people more comfortable, and when stove fire radiation temperature became, the amount of wind can reduce automatically, promote human comfort, reduce air conditioner operation energy consumption.

It should be noted that adjusting the air volume by adjusting the air conditioner operation parameters is achieved by adjusting the indoor unit and the outdoor unit of the air conditioner together.

In addition, the operation control method in the above technical solution provided by the present invention may further have the following additional technical features:

in the above technical solution, preferably, adjusting the operation parameter of the air conditioner according to the temperature difference specifically includes: determining a preset air volume when the air conditioner operates according to preset parameters; determining an air volume variable corresponding to the air conditioner according to the temperature difference; determining the sum of the preset air volume and the air volume variable as an adjusted air volume; and determining the operation parameters of the air conditioner corresponding to the adjusted air volume.

In the technical scheme, the operating parameters of the air conditioner are adjusted through the temperature difference. Specifically, the air volume which is originally output by the machine when the stove fire heat compensation function is not started is obtained by determining the preset air volume when the air conditioner operates according to preset parameters; determining an air volume variable corresponding to the air conditioner according to the temperature difference, and obtaining the air volume which needs to be additionally increased after the stove fire heat compensation function is started; then, the sum of the preset air volume and the air volume variable is determined as the adjusted air volume, and the actual operation air volume of the air conditioner is obtained after the stove fire heat compensation function is started; and then determining corresponding operation parameters of the air conditioner by adjusting the air volume (namely the actual operation air volume of the air conditioner), and controlling the operation of the air conditioner according to the operation parameters.

It should be noted that, the above technical scheme can also be realized by obtaining the heating power of the stove and calculating the air volume to be compensated under the radiation of the stove fire by linking with the gas stove; the compensation can also be realized by compensating the running capacity of the computer unit instead of calculating the air volume.

In the above technical solution, preferably, the temperature at the side of the stove is determined by directly detecting the temperature at the side of the stove or calculating the heat radiation by detecting the operation power of the stove.

In the technical scheme, the basis is provided for the air conditioner to adjust the operation parameters by directly detecting the temperature at the side of the stove or calculating the heat radiation by detecting the operation power of the stove.

In the above technical solution, preferably, when the adjusted air volume is not less than the maximum air volume, a first operation parameter of the air conditioner corresponding to the maximum air volume is determined, and the air conditioner is controlled to operate at the first operation parameter; and when the adjusted air volume is smaller than the maximum air volume, determining a second operation parameter of the air conditioner corresponding to the adjusted air volume, and controlling the air conditioner to operate according to the second operation parameter.

In the technical scheme, the adjustment air volume (namely the actual operation air volume of the air conditioner) and the maximum air volume (namely the maximum air volume provided by the air conditioner) are compared, when the adjustment air volume is not smaller than the maximum air volume, the air conditioner cannot operate according to the calculated parameter corresponding to the adjustment air volume due to the limitation of the air volume provided by the air conditioner, so that the first operation parameter of the air conditioner corresponding to the maximum air volume is determined, the air conditioner is controlled to operate according to the first operation parameter, when the adjustment air volume is smaller than the maximum air volume, the second operation parameter of the air conditioner corresponding to the adjustment air volume is determined, and the air conditioner is controlled to operate according to the second operation parameter.

The maximum air volume is the maximum air volume that can be provided by the air conditioner. When the calculated adjusted air volume is not less than the maximum air volume provided by the air conditioner, the air conditioner operates at the maximum air volume, so that the reduction of the indoor temperature in the cooking process is ensured, and the user experience is improved; when the calculated adjusted air volume is smaller than the maximum air volume provided by the air conditioner, the air conditioner operates according to the calculated adjusted air volume, so that resource waste caused by the fact that the air conditioner still operates at the maximum air volume is reduced, and energy conservation and environmental protection are facilitated.

A second aspect of the present invention provides an operation control system, including: the temperature detection unit is used for detecting the temperature beside the stove and the indoor temperature in real time when the air conditioner operates according to preset parameters; the temperature difference determining unit is used for determining the temperature difference obtained by subtracting the indoor temperature from the temperature at the side of the stove; and the operation parameter adjusting unit is used for adjusting the operation parameters of the air conditioner according to the temperature difference.

According to the technical scheme, when the air conditioner runs according to preset parameters, the indoor temperature and the temperature at the edge of the stove are collected in real time through a temperature detection unit, the indoor temperature is used for sensing whether the room temperature reaches a target temperature set by the preset parameters, and the temperature at the edge of the stove is mainly used for knowing the heat dissipation condition of the stove; determining the temperature difference through a temperature difference determining unit to provide a basis for adjusting the operating parameters of the air conditioner; then, the adjustment of the operation parameters of the air conditioner is further determined according to the value of the temperature difference through the operation parameter adjustment unit, and the operation of the air conditioner is controlled according to the adjusted operation parameters, so that the influence of heat radiated by stove fire when a kitchen is used for cooking on the space cooling effect is compensated, the fluctuation of the indoor temperature when the air conditioner is used in the kitchen is reduced, the indoor temperature is constant and comfortable, and people feel more comfortable; and when the radiation temperature of the stove fire becomes lower, the air quantity can be automatically reduced, and the working noise of the kitchen air conditioner is reduced.

In the above technical solution, preferably, the operation parameter adjusting unit specifically includes: the air volume determining unit is used for determining the preset air volume when the air conditioner operates according to preset parameters; the air volume variable determining unit is used for determining the air volume variable corresponding to the air conditioner according to the temperature difference; the adjusting air volume determining unit is used for determining the sum of the preset air volume and the air volume variable as the adjusting air volume; the operation parameter determining unit is used for determining operation parameters of the air conditioner corresponding to the adjusted air volume; and the execution unit is used for controlling the air conditioner to operate according to the operation parameters.

In the technical scheme, the operating parameters of the air conditioner are adjusted through the temperature difference. Specifically, the preset air volume when the air conditioner operates according to preset parameters is determined through a preset air volume determining unit, and the air volume which is originally output by the machine when the stove fire heat compensation function is not started is obtained; then, determining an air volume variable corresponding to the air conditioner according to the temperature difference through an air volume variable determining unit, and obtaining the air volume which is additionally increased by the machine after the stove fire heat compensation function is started; then, determining the sum of the preset air volume and the air volume variable as an adjusted air volume through an adjusted air volume determining unit, and obtaining the actual operation air volume of the air conditioner after the stove fire heat compensation function is started; and then determining the operation parameters of the air conditioner corresponding to the adjusted air volume (namely the actual operation air volume of the air conditioner) through an operation parameter determining unit, and controlling the operation of the air conditioner according to the operation parameters through an executing unit.

It should be noted that, the above technical scheme can also be realized by obtaining the heating power of the stove and calculating the air volume to be compensated under the radiation of the stove fire by linking with the gas stove; the compensation can also be realized by compensating the running capacity of the computer unit instead of calculating the air volume.

In the above technical solution, preferably, the temperature at the side of the stove is determined by directly detecting the temperature at the side of the stove by a temperature determination unit at the side of the stove or calculating heat radiation by detecting the operation power of the stove by a heat radiation determination unit.

In the technical scheme, the oven side temperature is directly detected through the oven side temperature determining unit or the oven operation power is detected through the heat radiation determining unit to calculate the heat radiation so as to provide a basis for adjusting the operation parameters of the air conditioner.

In the above technical solution, preferably, the first operation parameter adjusting unit is configured to determine a first operation parameter of the air conditioner corresponding to the maximum air volume when the adjusted air volume is not less than the maximum air volume, and control the air conditioner to operate according to the first operation parameter; and the second operation parameter adjusting unit is used for determining a second operation parameter of the air conditioner corresponding to the adjusted air volume when the adjusted air volume is smaller than the maximum air volume, and controlling the air conditioner to operate according to the second operation parameter.

In the technical scheme, the adjustment air volume (namely the actual operation air volume of the air conditioner) and the maximum air volume (namely the maximum air volume provided by the air conditioner) are compared, when the adjustment air volume is not smaller than the maximum air volume, the air conditioner cannot operate according to the calculated parameter corresponding to the adjustment air volume due to the limitation of the air volume provided by the air conditioner, so that the first operation parameter of the air conditioner corresponding to the maximum air volume is determined through the first operation parameter adjustment unit, and the air conditioner is controlled to operate according to the first operation parameter; and when the adjusted air volume is smaller than the maximum air volume, determining a second operation parameter of the air conditioner corresponding to the adjusted air volume through a second operation parameter adjusting unit, and controlling the air conditioner to operate at the second operation parameter.

The maximum air volume is the maximum air volume that can be provided by the air conditioner. When the calculated adjusted air volume is not less than the maximum air volume provided by the air conditioner, the air conditioner operates at the maximum air volume, so that the reduction of the indoor temperature in the cooking process is ensured, and the user experience is improved; when the calculated adjusted air volume is smaller than the maximum air volume provided by the air conditioner, the air conditioner operates according to the calculated adjusted air volume, so that resource waste caused by the fact that the air conditioner still operates at the maximum air volume is reduced, and energy conservation and environmental protection are facilitated.

The technical solution of the third aspect of the present invention provides a computer device, including a memory, a processor, and a computer program stored in the memory and executable on the processor, where the processor executes any one of the operation control methods when executing the computer program.

In this technical solution, a computer program for executing the operation control method according to any one of the above-mentioned embodiments is stored in a memory, and when the processor executes the computer program, the operation control method according to any one of the above-mentioned embodiments can be implemented.

An aspect of the fourth aspect of the present invention provides a computer-readable storage medium on which a computer program is stored, where the computer program is executed by a processor to implement any one of the operation control methods described above.

In this embodiment, the processor needs to implement the operation control method through a computer program, and such a computer program needs to be stored in a computer readable medium. The computer readable medium ensures that the computer program can be executed by the processor, thereby implementing the operation control method in any of the above technical solutions, and therefore, the operation control method in any of the above technical solutions has all the beneficial effects, which are not described herein again.

The technical scheme of the fifth aspect of the invention provides an air conditioner, which comprises any one operation control system in the technical scheme of the second aspect of the invention.

In this technical solution, the air conditioner includes the operation control system in any embodiment, thereby implementing the operation control method in any technical solution described above, and therefore, all the beneficial effects of the operation control method in any technical solution described above are achieved, and no further description is given here.

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 diagram of an operational control method according to an embodiment of the invention;

FIG. 2 illustrates a flow diagram of an operational control method according to one embodiment of the present disclosure;

FIG. 3 illustrates a schematic structural diagram of an operation control system according to an embodiment of the present invention;

FIG. 4 shows a schematic structural diagram of a computer device according to an embodiment of the invention;

fig. 5 illustrates a schematic configuration of an air conditioner according to an embodiment of the present invention.

Detailed Description

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

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

The following description specifically describes an operation control method and a control system according to an embodiment of the present invention with reference to fig. 1 to 5.

Example 1:

as shown in fig. 1, a flowchart of an operation control method according to an embodiment of the present invention includes:

step S102, detecting the temperature beside a stove and the indoor temperature in real time when the air conditioner runs according to preset parameters;

step S104, subtracting the temperature difference of the indoor temperature from the temperature of the fixed stove;

step S106, adjusting the operation parameters of the air conditioner according to the temperature difference;

and step S108, controlling the air conditioner to operate according to the operation parameters.

In this embodiment, when the air conditioner operates with preset parameters, the temperature around the stove and the indoor temperature are detected in real time through step S102, so as to measure the indoor temperature T1 and the temperature around the stove T2, where the indoor temperature T1 is used to sense whether the room temperature reaches a target temperature set by the preset parameters, and the temperature around the stove T2 is mainly used to know the heat dissipation condition of the stove; determining the temperature difference obtained by subtracting the indoor temperature from the temperature at the stove side through step S104, specifically, calculating the temperature difference delta T (T2-T1) through a processor, and providing a basis for adjusting the operation parameters of the air conditioner; then, the operation parameters of the air conditioner are adjusted according to the temperature difference through the step S106, and the adjustment of the operation parameters of the air conditioner is determined according to the temperature difference; then through step S108 control air conditioner with the operation parameter operation, carry out the regulation of the amount of wind through adjusting the operation parameter to reduce the kitchen when cooking the possibility that the heat that the stove fire radiates risees the influence to the little scope temperature in kitchen limit, reduce the fluctuation of indoor temperature when the kitchen uses the air conditioner, make indoor temperature invariable comfortable, make people more comfortable, and when stove fire radiation temperature diminishes, the amount of wind can reduce automatically, promote human comfort, reduce air conditioner operation energy consumption.

It should be noted that adjusting the air volume by adjusting the air conditioner operation parameters is achieved by adjusting the indoor unit and the outdoor unit of the air conditioner together.

Example 2:

as shown in fig. 2, a flow chart of an operation control method according to still another embodiment of the present invention includes: step S202, detecting the temperature beside a stove and the indoor temperature in real time when the air conditioner runs according to preset parameters; step S204, determining the temperature difference of the temperature at the side of the stove minus the indoor temperature; step S206, determining the preset air volume when the air conditioner operates according to preset parameters; step S208, determining an air volume variable corresponding to the air conditioner according to the temperature difference; step S210, determining the sum of a preset air volume and an air volume variable as an adjusted air volume; step S212, when the air quantity is adjusted to be not less than the maximum air quantity, determining a first operation parameter of the air conditioner corresponding to the maximum air quantity, and controlling the air conditioner to operate according to the first operation parameter; and step S214, when the adjusted air volume is smaller than the maximum air volume, determining a second operation parameter of the air conditioner corresponding to the adjusted air volume, and controlling the air conditioner to operate according to the second operation parameter.

In this embodiment, when the air conditioner operates with preset parameters, the temperature around the oven and the indoor temperature are detected in real time through the step S202, so as to measure the indoor temperature T1 and the temperature around the oven T2, the indoor temperature T1 is used for sensing whether the room temperature reaches a target temperature set by the preset parameters, and the temperature around the oven T2 is mainly used for knowing the heat dissipation condition of the oven; determining the temperature difference obtained by subtracting the indoor temperature from the temperature at the stove side through step S204, specifically, calculating the temperature difference delta T (T2-T1) through a processor, and providing a basis for adjusting the operation parameters of the air conditioner; then, determining a preset air volume when the air conditioner operates according to preset parameters through the step S206, and obtaining the air volume WS which is originally output by the machine when the stove fire heat compensation function is not started; then, determining an air volume variable corresponding to the air conditioner according to the temperature difference through the step S208, and obtaining the air volume WSC which is additionally added to the machine after the stove fire heat compensation function is started; then, determining the sum of the preset air volume and the air volume variable as an adjusted air volume through step S210, and obtaining the actual operation air volume S of the air conditioner after the stove fire heat compensation function is started; then, when the adjusted air volume is not less than the maximum air volume through step S212, the air conditioner cannot operate with the calculated parameter corresponding to the adjusted air volume due to the limitation of the air volume that the air conditioner can provide, so that the first operation parameter of the air conditioner corresponding to the maximum air volume is determined, the air conditioner is controlled to operate with the first operation parameter, when the adjusted air volume is not less than the maximum air volume (i.e., S ═ WS + WSC ≧ Smax), the first operation parameter of the air conditioner corresponding to the maximum air volume is determined, and the air conditioner is controlled to operate with the first operation parameter, i.e., S ═ Smax; and then, when the adjusted air volume is smaller than the maximum air volume, determining a second operation parameter of the air conditioner corresponding to the adjusted air volume, and controlling the air conditioner to operate according to the second operation parameter in step S214, so that when the adjusted air volume is smaller than the maximum air volume (i.e., S ═ WS + WSC < Smax), determining the second operation parameter of the air conditioner corresponding to the adjusted air volume, and controlling the air conditioner to operate according to the second operation parameter, i.e., S ═ WS + WSC.

It should be noted that the variable value of the air volume determined according to the temperature difference (i.e., the WSC value of the air volume that needs to be additionally added to the machine) is set according to the actual experimental result and the actual installation condition of the temperature sensor at the oven side. The appropriate WSC value can ensure that the appropriate indoor temperature is obtained to improve the user experience and meanwhile achieve energy conservation and environmental protection.

In addition, it should be noted that the above embodiment can also be implemented by obtaining the heating power of the stove and calculating the air volume to be compensated under the radiation of the stove fire by linking with the gas stove; the compensation can also be realized by compensating the running capacity of the computer unit instead of calculating the air volume.

Further, Smax is the maximum air volume that can be provided by the air conditioner. When the calculated adjusted air volume is not less than the maximum air volume provided by the air conditioner, the air conditioner operates at the maximum air volume, so that the reduction of the indoor temperature in the cooking process is ensured, and the user experience is improved; when the calculated adjusted air volume is smaller than the maximum air volume provided by the air conditioner, the air conditioner operates according to the calculated adjusted air volume, so that resource waste caused by the fact that the air conditioner still operates at the maximum air volume is reduced, and energy conservation and environmental protection are facilitated.

In the above embodiments, preferably, the hob-side temperature is determined by directly detecting the hob-side temperature or calculating the thermal radiation by detecting the hob operating power.

In the embodiment, the basis is provided for the air conditioner to adjust the operation parameters by directly detecting the temperature at the side of the stove or calculating the heat radiation by detecting the operation power of the stove.

The first embodiment is as follows:

the air conditioner comprises a kitchen side temperature sensor, an indoor temperature sensor, a processor, a command transmitter and a command receiver.

When the air conditioner runs with preset parameters, detecting the temperature at the side of the stove and the indoor temperature in real time through a temperature sensor at the side of the stove and an indoor temperature sensor, determining the temperature T1 at the side of the stove and the indoor temperature T2, and determining the temperature difference delta T of subtracting the indoor temperature T2 from the temperature T1 at the side of the stove; determining a preset air volume WS of the air conditioner running according to preset parameters through a processor, determining an air volume variable WSC corresponding to the air conditioner according to a temperature difference delta T, inquiring a data table corresponding to the temperature difference delta T and the air volume variable WSC in a self-contained database of the air conditioner or a cloud database networked with the air conditioner, wherein as shown in table 1, when the temperature difference delta T is less than or equal to a minimum temperature difference Nmin, the corresponding WSC value is the minimum value Mmin of the air volume variable, and when the temperature difference delta T is greater than the minimum temperature difference Nmin and less than a maximum temperature difference Nmax, the corresponding WSC value is determined in the range of the temperature difference, for example, when Nmin is less than the delta T and less than N1, the corresponding WSC value is M1, and when Nmax-1 is less than the delta T and less than the Nmax, the corresponding WSC value is Mmax; then, calculating and adjusting air volume according to the WSC value, wherein the adjusted air volume S is equal to a preset air volume WS + an air volume variable WSC; and then the processor calculates the air conditioner operation parameters corresponding to the adjusted air volume S, the command transmitter sends corresponding operation parameter adjustment commands, and the command receiver receives the operation parameter adjustment commands and controls the air conditioner to operate according to the adjusted operation parameters.

It should be noted that the range of Δ T values and the corresponding WSC value can be determined by a combination of a large amount of experimental data and the actual operation capability of the air conditioner.

△ T range of values	Value of corresponding WSC
		△ T is less than or equal to Nmin	Mmin
When Nmin is less than △ T and less than or equal to N1	M1
		When N1 is more than △ T and less than or equal to N2	M2
···	···
		When Nmax-1 is more than △ T and less than or equal to Nmax	Mmax

TABLE 1

Example 3:

as shown in fig. 3, a schematic structural diagram of an operation control system 30 according to another embodiment of the present invention includes: the temperature detection unit 32 is used for detecting the temperature beside the stove and the indoor temperature in real time when the air conditioner operates according to preset parameters; a temperature difference determination unit 34 for determining a temperature difference obtained by subtracting the indoor temperature from the temperature at the side of the oven; and an operation parameter adjusting unit 36 for adjusting an operation parameter of the air conditioner according to the temperature difference.

In this embodiment, when the air conditioner operates with preset parameters, the temperature detection unit 32 collects the indoor temperature T1 and the temperature T2 around the stove in real time, the indoor temperature T1 is used for sensing whether the room temperature reaches a target temperature set by the preset parameters, and the temperature T2 around the stove is mainly used for knowing the heat dissipation condition of the stove; then, the temperature difference delta T (T2-T1) is determined through the temperature difference determining unit 34, and a basis is provided for adjusting the air conditioner operation parameters; then, the operation parameter adjusting unit 36 determines the adjustment of the operation parameter of the air conditioner according to the value of the temperature difference Δ T, and adjusts the operation parameter to adjust the air volume.

In the above embodiment, preferably, the operation parameter adjusting unit 36 specifically includes: a preset air volume determining unit 360 for determining a preset air volume when the air conditioner operates at preset parameters; an air volume variable determining unit 362, configured to determine an air volume variable corresponding to the air conditioner according to the temperature difference; an adjusted air volume determining unit 364, configured to determine that the sum of the preset air volume and the air volume variable is an adjusted air volume; an operation parameter determining unit 366, configured to determine an operation parameter of the air conditioner corresponding to the adjusted air volume; and an execution unit 368 for controlling the air conditioner to operate with the operation parameters.

In this embodiment, the operating parameters of the air conditioner are adjusted by the temperature difference Δ T. Specifically, the preset air volume when the air conditioner operates with the preset parameters is determined by the preset air volume determining unit 360, and the air volume WS which is originally output by the machine when the stove fire heat compensation function is not started is obtained; then, an air quantity variable determining unit 362 determines an air quantity variable corresponding to the air conditioner according to the temperature difference, and after the stove fire heat compensation function is started, an additionally increased air quantity WSC required by the machine is obtained; then, the sum of the preset air volume and the air volume variable is determined as the adjusted air volume through the adjusted air volume determining unit 364, and the actual operation air volume S of the air conditioner is obtained after the stove fire heat compensation function is started; then, the operation parameter determining unit 366 determines the operation parameter of the air conditioner corresponding to the adjusted air volume (i.e., the actual operation air volume S of the air conditioner), and the execution unit 368 controls the operation of the air conditioner according to the operation parameter.

It should be noted that the variable value of the air volume determined according to the temperature difference (i.e., the WSC value of the air volume that needs to be additionally added to the machine) is set according to the actual experimental result and the actual installation condition of the temperature sensor at the oven side. The appropriate WSC value can ensure that the appropriate indoor temperature is obtained to improve the user experience and meanwhile achieve energy conservation and environmental protection.

In addition, it should be noted that the above embodiment can also be implemented by obtaining the heating power of the stove and calculating the air volume to be compensated under the radiation of the stove fire by linking with the gas stove; the compensation can also be realized by compensating the running capacity of the computer unit instead of calculating the air volume.

In the above-described embodiment, it is preferable that the hob-side temperature is determined by directly detecting the hob-side temperature by the hob-side temperature determination unit 320 or calculating the thermal radiation by detecting the hob operating power by the thermal radiation determination unit.

In this embodiment, the direct detection of the range-side temperature by the range-side temperature determination unit 320 or the provision of a basis for the air conditioner to adjust the operation parameters through heat radiation.

In the above embodiment, preferably, the first operation parameter adjusting unit 3660 is configured to determine a first operation parameter of the air conditioner corresponding to the maximum air volume when the adjusted air volume is not less than the maximum air volume, and control the air conditioner to operate according to the first operation parameter; and a second operation parameter adjusting unit 3662, configured to determine a second operation parameter of the air conditioner corresponding to the adjusted air volume when the adjusted air volume is smaller than the maximum air volume, and control the air conditioner to operate according to the second operation parameter.

In this embodiment, by comparing the adjusted air volume (i.e., the actual operating air volume S of the air conditioner) with the maximum air volume (i.e., the maximum air volume Smax that can be provided by the air conditioner), when the adjusted air volume is not less than the maximum air volume (i.e., S ═ WS + WSC ≧ Smax), the air conditioner cannot be operated with the parameter corresponding to the calculated adjusted air volume due to the limitation of the air volume that the air conditioner can provide, and therefore the first operating parameter of the air conditioner corresponding to the maximum air volume is determined by first operating parameter adjusting unit 3660, and the air conditioner is controlled to operate with the first operating parameter, i.e., S ═ Smax; when the adjusted air volume is smaller than the maximum air volume (i.e., S ═ WS + WSC < Smax), the second operation parameter of the air conditioner corresponding to the adjusted air volume is determined by the second operation parameter adjustment unit 3662, and the air conditioner is controlled to operate at the second operation parameter, i.e., S ═ WS + WSC.

Smax is the maximum air volume that the air conditioner can provide. When the calculated adjusted air volume is not less than the maximum air volume provided by the air conditioner, the air conditioner operates at the maximum air volume, so that the reduction of the indoor temperature in the cooking process is ensured, and the user experience is improved; when the calculated adjusted air volume is smaller than the maximum air volume provided by the air conditioner, the air conditioner operates according to the calculated adjusted air volume, so that resource waste caused by the fact that the air conditioner still operates at the maximum air volume is reduced, and energy conservation and environmental protection are facilitated.

Example 4:

as shown in fig. 4, a schematic structural diagram of a computer device 40 according to a further embodiment of the present invention includes a memory 42, a processor 44, and a computer program stored on the memory and capable of running on the processor 44, and the processor 44 executes the computer program to perform any one of the operation control methods described above.

In this embodiment, a computer program for executing the operation control method according to any one of the above embodiments is stored in the memory 42, and when the processor 44 executes the computer program, the operation control method according to any one of the above embodiments can be implemented.

Example 5:

yet another embodiment of the present invention provides a computer-readable storage medium having a computer program stored thereon, the computer program, when executed by a processor, implementing any of the operation control methods described above.

In this embodiment, the processor needs to implement the operation control method by a computer program, and such a computer program needs to be stored in a computer-readable medium. The computer readable medium ensures that the computer program can be executed by the processor, thereby implementing the operation control method in any of the above embodiments, and therefore, the operation control method in any of the above embodiments has all the advantages, which are not described herein again.

Example 6:

as shown in fig. 5, a schematic configuration diagram of an air conditioner 50 according to still another embodiment of the present invention includes the operation control system 30 in embodiment 3 described above.

In this embodiment, the air conditioner 50 includes the operation control system 30 according to any one of the above embodiments 3, so as to implement the operation control method according to any one of the above embodiments, and therefore, all the beneficial effects of the operation control method according to any one of the above embodiments are achieved, and are not described herein again.

The technical scheme of the invention is described in detail in the above with the help of the attached drawings, and the invention provides an operation control method, a system, computer equipment, a readable storage medium and an air conditioner, and by the technical scheme of the invention, the operation capacity of the air conditioner is correspondingly adjusted by determining the heat radiation at the side of a kitchen, so that the influence of the heat radiated by the stove fire on the space cooling effect when the kitchen is used for cooking is compensated, the fluctuation of the indoor temperature when the air conditioner is used in the kitchen is reduced, the indoor temperature is constant and comfortable, and people feel more comfortable; and when the radiation temperature of the stove fire becomes lower, the air quantity can be automatically reduced, and the working noise of the kitchen air conditioner is reduced.

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 is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to 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 (5)

1. An operation control method for an air conditioner, comprising:

detecting the temperature at the side of a stove and the indoor temperature in real time when the air conditioner operates according to preset parameters;

determining a temperature difference of the temperature at the side of the stove minus the indoor temperature;

adjusting the operation parameters of the air conditioner according to the temperature difference;

controlling the air conditioner to operate according to the operation parameters;

the temperature at the side of the stove is determined by detecting the running power of the stove and calculating the heat radiation;

adjusting the operating parameters of the air conditioner according to the temperature difference specifically comprises:

determining the preset air volume when the air conditioner operates according to the preset parameters;

determining an air volume variable corresponding to the air conditioner according to the temperature difference;

determining the sum of the preset air volume and the air volume variable as an adjusted air volume;

determining the operation parameters of the air conditioner corresponding to the adjusted air volume;

when the adjusted air volume is not less than the maximum air volume, determining a first operation parameter of the air conditioner corresponding to the maximum air volume, and controlling the air conditioner to operate at the first operation parameter;

and when the adjusted air volume is not larger than the minimum air volume, determining a second operation parameter of the air conditioner corresponding to the minimum air volume, and controlling the air conditioner to operate according to the second operation parameter.

2. An operation control system characterized by comprising:

the temperature detection unit is used for detecting the temperature beside the stove and the indoor temperature in real time when the air conditioner operates according to preset parameters;

the temperature difference determining unit is used for determining the temperature difference obtained by subtracting the indoor temperature from the temperature of the stove;

the operation parameter adjusting unit is used for adjusting the operation parameters of the air conditioner according to the temperature difference;

the temperature at the side of the stove is determined by detecting the running power of the stove and calculating heat radiation through a heat radiation determination unit;

the operation parameter adjusting unit specifically includes:

the preset air volume determining unit is used for determining the preset air volume when the air conditioner operates according to the preset parameters;

the air volume variable determining unit is used for determining the air volume variable corresponding to the air conditioner according to the temperature difference;

the adjusted air volume determining unit is used for determining the sum of the preset air volume and the air volume variable as an adjusted air volume;

the operation parameter determining unit is used for determining the operation parameters of the air conditioner corresponding to the adjusted air volume;

the execution unit is used for controlling the air conditioner to operate according to the operation parameters;

the first operation parameter adjusting unit is used for determining a first operation parameter of the air conditioner corresponding to the maximum air volume when the adjusted air volume is not less than the maximum air volume, and controlling the air conditioner to operate according to the first operation parameter; and

and the second operation parameter adjusting unit is used for determining a second operation parameter of the air conditioner corresponding to the adjusted air volume when the adjusted air volume is smaller than the maximum air volume, and controlling the air conditioner to operate according to the second operation parameter.

3. A computer device comprising a memory, a processor, and a computer program stored on the memory and executable on the processor, wherein the processor executes the computer program to perform the operation control method according to claim 1.

4. A computer-readable storage medium on which a computer program is stored, the computer program, when being executed by a processor, implementing the operation control method according to claim 1.

5. An air conditioner characterized by comprising the operation control system according to claim 2.

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