CN104729010A - Control method, device and system of air conditioner - Google Patents

Abstract

The invention discloses a control method, device and system of an air conditioner. The control method includes steps of receiving air-conditioner control requests of users in which operating modes selected by the users are carried with; acquiring the operating parameters corresponding to the operating modes; controlling the air conditioner to operate in the operating modes by the operating parameters. By the control method, device and system, the problem that each parameter needs to be independently set and repeatedly adjusted, which is complicated in operation and costs energy when the users set the operating parameters of the air conditioner in the prior art is solved; by simply operating a control end of the users, the air conditioner can be accurately controlled without independently setting each parameter and repeatedly adjusting, thus, operation is simple and energy can be saved; once input can control operation of the air conditioner to operate in the operating state as required by the users.

Description

The control method of air-conditioner, Apparatus and system

Technical field

The present invention relates to airconditioning control field, in particular to a kind of control method, Apparatus and system of air-conditioner.

Background technology

Existing air-conditioning generally has refrigeration, heat, the plurality of operating modes such as air-supply, user can set the running parameter of above-mentioned various operational modes, as design temperature, wind speed setting, ventilation etc., but design temperature, wind speed setting, ventilation is all independent control, user wants to reach a home from home of good user's request, need oneself constantly to debug, and when environmental change needs adjustment setup parameter, user needs again to adjust, very flexible, not only bring experience property poor to user, and repeatedly adjust running parameter and also can waste a lot of energy, very not energy-conservation, user cannot preserve through repeatedly debugging the parameter set simultaneously, causes also will reset parameters whenever necessary next time, again debugs parameters, operate extremely inconvenient.

Need each parameter of setting separately when setting the running parameter of air-conditioning for user in prior art, repeatedly adjust, this complex operation and the problem wasted energy, not yet propose effective solution at present.

Summary of the invention

The each parameter of setting is separately needed when setting the running parameter of air-conditioning for user in correlation technique, repeatedly adjust, this complex operation and the problem wasted energy, at present effective solution is not yet proposed, for this reason, main purpose of the present invention is the control method, the Apparatus and system that provide a kind of air-conditioner, to solve the problem.

To achieve these goals, according to an aspect of the present invention, provide a kind of control method of air-conditioner, the method comprises: the airconditioning control request receiving user, wherein, carries the operational mode that user selects in airconditioning control request; Obtain the operational factor corresponding with operational mode; Control air-conditioner by operational factor and operate in operational mode.

Further, operational mode comprises the first operational mode, and operational factor comprises the first design temperature, and the step being operated in operational mode by operational factor control air-conditioner is comprised: the indoor environment temperature detecting the running environment of air-conditioner; Calculate the difference of indoor environment temperature and the first design temperature; According to machine capacity in difference adjustment air-conditioner and operation wind shelves, operate in the first operational mode to control air-conditioner.

Further, operational mode comprises the second operational mode, operational factor comprises the second design temperature, wherein, operate in operational mode by operational factor control air-conditioner to comprise: when airconditioning control request is refrigeration request and meets the first temperature range at the second design temperature, the current running temperature controlling air-conditioner in the first preset time range is increased to the first running temperature gradually, and maintain the first running temperature of air-conditioner in the second preset time range after, the first running temperature controlling air-conditioner drops to the second running temperature, maintain air-conditioner and operate in the second running temperature, when airconditioning control request is refrigeration request and meets the second temperature range at the second design temperature, maintain the current running temperature of air-conditioner in the 3rd preset time range after, control current running temperature and drop to the 3rd running temperature, maintain air-conditioner and operate in the 3rd running temperature, when airconditioning control request is asked for heating and meets the 3rd temperature range at the second design temperature, maintain air-conditioner and operate in current running temperature, when airconditioning control request is asked for heating and meets the 4th temperature range at the second design temperature, after the current running temperature controlling air-conditioner in the 4th preset time range is reduced to the 4th running temperature gradually, maintains air-conditioner and operate in the 4th running temperature.

Further, first temperature range comprises the first temperature subranges, the second temperature subranges and the 3rd temperature subranges, wherein, when airconditioning control request is refrigeration request and meets the first temperature subranges at the second design temperature, the current running temperature controlling air-conditioner raised 1 DEG C every one hour, the first running temperature is obtained after raising 3 DEG C, after maintenance first running temperature 7 hours, first running temperature is reduced by 1 DEG C to the second running temperature, maintain air-conditioner and operate in the second running temperature; When airconditioning control request is refrigeration request and meets the second temperature subranges at the second design temperature, the current running temperature controlling air-conditioner raised 1 DEG C every one hour, the first running temperature is obtained after raising 2 DEG C, after maintenance first running temperature 7 hours, first running temperature is reduced by 1 DEG C to the second running temperature, maintain air-conditioner and operate in the second running temperature; When airconditioning control request is refrigeration request and meets the 3rd temperature subranges at the second design temperature, the current running temperature controlling air-conditioner raised 1 DEG C every one hour, the first running temperature is obtained after raising 1 DEG C, after maintenance first running temperature 7 hours, first running temperature is reduced by 1 DEG C to the second running temperature, maintain air-conditioner and operate in the second running temperature; 4th temperature range comprises the 4th temperature subranges, the 5th temperature subranges and the 6th temperature subranges, wherein, when airconditioning control request is asked for heating and meets the 4th temperature subranges at the second design temperature, control air-conditioner and reduce by 1 DEG C every one hour, after reducing by 1 DEG C, current running temperature is reduced to the 4th running temperature, maintains air-conditioner and operate in the 4th running temperature; When airconditioning control request is asked for heating and meets the 5th temperature subranges at the second design temperature, control air-conditioner and reduce by 1 DEG C every one hour, after reducing by 2 DEG C, current running temperature is reduced to the 4th running temperature, maintains air-conditioner and operate in the 4th running temperature; When airconditioning control request is asked for heating and meets the 6th temperature subranges at the second design temperature, control air-conditioner and reduce by 1 DEG C every one hour, after reducing by 3 DEG C, current running temperature is reduced to the 4th running temperature, maintains air-conditioner and operate in the 4th running temperature.

Further, operational mode comprises the 3rd operational mode, and operational factor comprises the 3rd design temperature, and wherein, the step being operated in operational mode by operational factor control air-conditioner is comprised: the indoor environment temperature gathering the running environment of air-conditioner; When indoor environment temperature meets the 5th temperature range, the interior machine temperature controlling air-conditioner operates in the 3rd design temperature, and wind shelves operate in the first gear, operate in the 3rd operational mode to control air-conditioner; When indoor environment temperature meets the 6th temperature range, the interior machine temperature controlling air-conditioner operates in the 3rd design temperature, and wind shelves operate in the second gear, operate in the 3rd operational mode to control air-conditioner; When indoor environment temperature meets the 6th temperature range, the interior machine temperature controlling air-conditioner operates in the 3rd design temperature, and wind shelves operate in third gear, operate in the 3rd operational mode to control air-conditioner.

Further, operational mode comprises the 4th operational mode, and operational factor comprises default changes in temperature state, preset temperature change curve, presets wind shelves change curve and at least one data in the preset switches machine time.

Further, operational mode comprises the 5th operational mode, and operational factor comprises acquiescence operational factor, and the step being operated in operational mode by operational factor control air-conditioner is comprised: control air-conditioner and run according to acquiescence operational factor.

To achieve these goals, according to a further aspect in the invention, provide a kind of control device of air-conditioner, this device comprises: receiver module, for receiving the airconditioning control request of user, wherein, carries the operational mode that user selects in airconditioning control request; Operational factor acquisition module, for obtaining the operational factor corresponding with operational mode; Control module, operates in operational mode for controlling air-conditioner by operational factor.

Further, operational mode comprises the first operational mode, and operational factor comprises the first design temperature, and control module comprises: detection module, for detecting the indoor environment temperature of the running environment of air-conditioner; Difference calculating module, for calculating the difference of indoor environment temperature and the first design temperature; Adjusting module, for according to machine capacity in difference adjustment air-conditioner and operation wind shelves, operates in the first operational mode to control air-conditioner.

To achieve these goals, according to a further aspect in the invention, provide a kind of control system of air-conditioner, this system comprises: user's control end comprises: operational mode setting device and processor, wherein, operational mode setting device, for receiving the airconditioning control request of user, wherein, the operational mode that user selects is carried in airconditioning control request; Processor, is connected with operational mode setting device, for obtaining the operational factor corresponding with operational mode, and uses operational factor to send control signal; Load actuating station comprises: indoor set and off-premises station, and indoor set is connected with processor respectively with off-premises station, operates in operational mode for performing control signal to control air-conditioner.

Further, user's control end also comprises: memory, is connected with processor, for storing airconditioning control request and control signal; Display unit, is connected with processor, for showing the running status of airconditioning control request and air-conditioner; Temperature-detecting device, is connected with processor, for detecting the temperature of the running environment of air-conditioner.

Further, control system also comprises: communication device, is connected between user's control end and load actuating station, for the running status of transmission of control signals and air-conditioner.

Adopt the present invention, user is by the request of user's control end input airconditioning control, processor obtains the operational factor corresponding with the operational mode that user selects, control signal is generated according to this operational factor, load actuating station performs control signal and operates in operational mode to control air-conditioner, thus after user inputs airconditioning control request, user's control end just can generate control signal and control the operational mode that air-conditioner operates in user's request, simple to operate, do not need the independent setting of user's parameter one by one, also difference needs user ceaselessly to debug the parameter of air-conditioning to be the demand that the operation of air-conditioning meets user, thus solve when user in prior art sets the running parameter of air-conditioning and need set each parameter separately, repeatedly adjust, this complex operation and the problem wasted energy, by just can realize the accurate control of air-conditioning to the simple operations of user's control end, do not need to set each parameter separately, do not need repeatedly to adjust, simple to operate and can the energy be saved, once input just can control the effect of operation of air conditioner in the running status of user's request.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide a further understanding of the present invention, and form a application's part, schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is the structural representation of the control system of air-conditioner according to the embodiment of the present invention;

Fig. 2 is the flow chart of the control method of air-conditioner according to the embodiment of the present invention;

Fig. 3 is the flow chart of the control method of a kind of optional air-conditioner according to the embodiment of the present invention; And

Fig. 4 is the schematic diagram of the control device of air-conditioner according to the embodiment of the present invention.

Detailed description of the invention

It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the present invention in detail in conjunction with the embodiments.

Fig. 1 is the structural representation of the control system of air-conditioner according to the embodiment of the present invention.As shown in Figure 1, this system can comprise: user's control end 10 comprises: operational mode setting device 11 and processor 13, wherein, and operational mode setting device 11, for receiving the airconditioning control request of user, in airconditioning control request, carry the operational mode that user selects; Processor 13, is connected with operational mode setting device 11, for obtaining the operational factor corresponding with operational mode, and uses operational factor to send control signal; Load actuating station 30 comprises: indoor set 31 and off-premises station 33, and indoor set 31 is connected with processor 13 respectively with off-premises station 33, operates in operational mode for performing control signal to control air-conditioner.

Adopt the present invention, user is by the request of user's control end input airconditioning control, processor obtains the operational factor corresponding with the operational mode that user selects, control signal is generated according to this operational factor, load actuating station performs control signal and operates in operational mode to control air-conditioner, thus after user inputs airconditioning control request, user's control end just can generate control signal and control the operational mode that air-conditioner operates in user's request, simple to operate, do not need the independent setting of user's parameter one by one, also difference needs user ceaselessly to debug the parameter of air-conditioning to be the demand that the operation of air-conditioning meets user, thus solve when user in prior art sets the running parameter of air-conditioning and need set each parameter separately, repeatedly adjust, this complex operation and the problem wasted energy, by just can realize the accurate control of air-conditioning to the simple operations of user's control end, do not need to set each parameter separately, do not need repeatedly to adjust, simple to operate and can the energy be saved, once input just can control the effect of operation of air conditioner in the running status of user's request.

Wherein, user can use the operational mode setting device of user's control end to select different operational modes (can be presented as different contextual models in the above-described embodiments according to the demand of user, as, mode standard, quick mode, sleep pattern, outer exit pattern and self-defined pattern), this is carried the button input user control end of airconditioning control request by operational mode setting device of operational mode, user's control end carries out self-regulation by airconditioning control request, ensure amenity and energy-saving run, lower operating cost.

In the above embodiment of the present invention, user's control end can also comprise: memory 15, is connected with processor, for storing airconditioning control request and control signal; Display unit 17, is connected with processor, for showing the running status of airconditioning control request and air-conditioner; Temperature-detecting device 19, is connected with processor, for detecting the temperature of the running environment of air-conditioner.

Further, load actuating station also comprises: communication device 35, is connected between user's control end and load actuating station, for the running status of transmission of control signals and air-conditioner.

Wherein, the display unit in above-described embodiment can be a display.

Particularly, user's control end is used for the terminal control of user, display unit is used for the display of user interface, operational mode setting device (namely sight arranges module) is for sight page operation, memory is used for the storage of the user operations such as sight definition, the environment temperature that temperature-detecting device runs for collecting air-conditioner; Load actuating station comprises indoor set and off-premises station, and off-premises station is for performing the action of off-premises station, and used for indoor machine in the action performing indoor set, communication device is used for data interaction mutual between user's control end and load actuating station.

The above embodiment of the present invention comprises user's control end (as line control machine) and load actuating station (as air-conditioner), user's control end carries out sight definition, switch and algorithm realization, and control signal (this control signal comprises needs the action of air-conditioner) is delivered to the execution of load actuating station, the running status of load (as air-conditioner) is collected simultaneously and feed back to user's control end, thus when generating control signal, not only according to the airconditioning control request of user, and can according to the running status of air-conditioner, the control signal of air-conditioning is generated and has more specific aim, thus the instruction of user can be performed better, and then more save the operating cost of air-conditioner.

Pass through above-described embodiment, user can pass through the request of operational mode setting device one-touch input airconditioning control, processor exports control signal according to airconditioning control request and controls air-conditioner, control in this embodiment is pained have good handling, and memory can preserve as sight using user's use habit, avoid repeatedly setting, the time of user can be saved; And air-conditioner set can run according to the sight (operational mode namely in above-described embodiment) of user's setting, realizes comfortable experience, energy-saving run.

Fig. 2 is the flow chart of the control method of air-conditioner according to the embodiment of the present invention.As shown in Figure 2, the method can realize as follows:

Step S202, receives the airconditioning control request of user, wherein, carries the operational mode that user selects in airconditioning control request.

Step S204, obtains the operational factor corresponding with operational mode.

Step S206, controls air-conditioner by operational factor and operates in operational mode.

Adopt the present invention, user is by the request of user's control end input airconditioning control, processor obtains the operational factor corresponding with the operational mode that user selects, control signal is generated according to this operational factor, load actuating station performs control signal and operates in operational mode to control air-conditioner, thus after user inputs airconditioning control request, user's control end just can generate control signal and control the operational mode that air-conditioner operates in user's request, simple to operate, do not need the independent setting of user's parameter one by one, also difference needs user ceaselessly to debug the parameter of air-conditioning to be the demand that the operation of air-conditioning meets user, thus solve when user in prior art sets the running parameter of air-conditioning and need set each parameter separately, repeatedly adjust, this complex operation and the problem wasted energy, by just can realize the accurate control of air-conditioning to the simple operations of user's control end, do not need to set each parameter separately, do not need repeatedly to adjust, simple to operate and can the energy be saved, once input just can control the effect of operation of air conditioner in the running status of user's request.

In the above embodiment of the present invention, after the control system of air-conditioner brings into operation, running status judgement is carried out to the operation of air-conditioner, detect under control that whether air-conditioner be in user's control end and enter operational mode (as sight mode of operation).

As shown in Figure 3, first can judge whether user's control end enters the mode of operation of contextual model, if not, then directly enter the process of normal switch machine; If so, then user's selection/handover situations.

Particularly, user's control end is provided with the button entering contextual model, the mode of operation whether entering contextual model can by the condition adjudgement of this contextual model button.As, button is pressed, and enter the mode of operation of contextual model, button is not pressed, and does not enter the mode of operation of contextual model; And for example, be connected indicator lamp with button, whether the different colours indicating user control end of indicator lamp enters the mode of operation of contextual model.

Contextual model in above-described embodiment, being user can by the mode of operation of operational mode setting device running mode switching.A corresponding contextual model of operational mode.

When entering the mode of operation of contextual model, user can be selected or switching contextual model by operational mode setting device.

In the above embodiment of the present invention, operational mode comprises the first operational mode, and operational factor comprises the first design temperature, and the step being operated in operational mode by operational factor control air-conditioner is comprised: the indoor environment temperature detecting the running environment of air-conditioner; Calculate the difference of indoor environment temperature and the first design temperature; According to machine capacity in difference adjustment air-conditioner and operation wind shelves, operate in the first operational mode to control air-conditioner.

Particularly, first operational mode can corresponding quick mode, under this situation, user can input a first design temperature T2 by operational mode setting device, then the difference △ T of user's control end indoor environment temperature T1 that can automatically detect according to temperature-detecting device and the first design temperature T2 carries out interior machine calculation of capacity, and generate the first control signal according to calculation of capacity result, this first control signal comprises the interior machine capacity of adjustment air-conditioner and runs the information of wind shelves, particularly, machine capacity and wind shelves in air-conditioner are controlled by above-mentioned difference, the volume transport that can improve interior machine is distributed, and internally the operation wind shelves of machine adjust, changes in temperature effect is entered fast to reach, thus can process time be shortened.

According to the abovementioned embodiments of the present invention, operational mode comprises the second operational mode, operational factor comprises the second design temperature, wherein, operate in operational mode by operational factor control air-conditioner to comprise: when airconditioning control request is refrigeration request and meets the first temperature range at the second design temperature, the current running temperature controlling air-conditioner in the first preset time range is increased to the first running temperature gradually, and maintain the first running temperature of air-conditioner in the second preset time range after, the first running temperature controlling air-conditioner drops to the second running temperature, maintain air-conditioner and operate in the second running temperature, when airconditioning control request is refrigeration request and meets the second temperature range at the second design temperature, maintain the current running temperature of air-conditioner in the 3rd preset time range after, control current running temperature and drop to the 3rd running temperature, maintain air-conditioner and operate in the 3rd running temperature, when airconditioning control request is asked for heating and meets the 3rd temperature range at the second design temperature, maintain air-conditioner and operate in current running temperature, when airconditioning control request is asked for heating and meets the 4th temperature range at the second design temperature, after the current running temperature controlling air-conditioner in the 4th preset time range is reduced to the 4th running temperature gradually, maintains air-conditioner and operate in the 4th running temperature.

Particularly, first temperature range comprises the first temperature subranges, the second temperature subranges and the 3rd temperature subranges, wherein, when airconditioning control request is refrigeration request and meets the first temperature subranges at the second design temperature, the current running temperature controlling air-conditioner raised 1 DEG C every one hour, the first running temperature is obtained after raising 3 DEG C, after maintenance first running temperature 7 hours, first running temperature is reduced by 1 DEG C to the second running temperature, maintain air-conditioner and operate in the second running temperature; When airconditioning control request is refrigeration request and meets the second temperature subranges at the second design temperature, the current running temperature controlling air-conditioner raised 1 DEG C every one hour, the first running temperature is obtained after raising 2 DEG C, after maintenance first running temperature 7 hours, first running temperature is reduced by 1 DEG C to the second running temperature, maintain air-conditioner and operate in the second running temperature; When airconditioning control request is refrigeration request and meets the 3rd temperature subranges at the second design temperature, the current running temperature controlling air-conditioner raised 1 DEG C every one hour, the first running temperature is obtained after raising 1 DEG C, after maintenance first running temperature 7 hours, first running temperature is reduced by 1 DEG C to the second running temperature, maintain air-conditioner and operate in the second running temperature; 4th temperature range comprises the 4th temperature subranges, the 5th temperature subranges and the 6th temperature subranges, wherein, when airconditioning control request is asked for heating and meets the 4th temperature subranges at the second design temperature, control air-conditioner and reduce by 1 DEG C every one hour, after reducing by 1 DEG C, current running temperature is reduced to the 4th running temperature, maintains air-conditioner and operate in the 4th running temperature; When airconditioning control request is asked for heating and meets the 5th temperature subranges at the second design temperature, control air-conditioner and reduce by 1 DEG C every one hour, after reducing by 2 DEG C, current running temperature is reduced to the 4th running temperature, maintains air-conditioner and operate in the 4th running temperature; When airconditioning control request is asked for heating and meets the 6th temperature subranges at the second design temperature, control air-conditioner and reduce by 1 DEG C every one hour, after reducing by 3 DEG C, current running temperature is reduced to the 4th running temperature, maintains air-conditioner and operate in the 4th running temperature.

Wherein, second operational mode can corresponding sleep pattern, particularly, the first temperature range can for meeting [16,29] interval temperature range, second temperature range can for meeting (29,30] temperature range, the 3rd temperature range can for meeting [16,17) interval temperature range, 4th temperature range can for meeting the temperature range of [17,30].

Particularly, the first temperature subranges is 16 ~ 23 DEG C, the second temperature subranges 24 ~ 27 DEG C, the 3rd temperature subranges 28 ~ 29 DEG C.

Such as, during refrigeration: 1. when 16 DEG C≤T establish≤23 DEG C time, open temperature per hour after sleep function and raise 1 DEG C, maintain this temperature after raising 3 DEG C, when operation is after 7 hours, temperature reduces by 1 DEG C, runs at this temperature ever since; 2. when 24 DEG C≤T establish≤27 DEG C time, open temperature per hour after sleep function and raise 1 DEG C, maintain this temperature after raising 2 DEG C, when operation is after 7 hours, temperature reduces by 1 DEG C, runs at this temperature ever since; 3. when 28 DEG C≤T establish≤29 DEG C time, open temperature per hour after sleep function and raise 1 DEG C, maintain this temperature after raising 1 DEG C, when operation is after 7 hours, temperature reduces by 1 DEG C, runs at this temperature ever since; 4. when T sets initial value as 30 DEG C, run at this temperature, when operation is after 7 hours, temperature reduces by 1 DEG C, runs at this temperature ever since.

Particularly, the 4th temperature subranges is 17 ~ 20 DEG C, the 5th temperature subranges 21 ~ 27 DEG C, the 6th temperature subranges 28 ~ 29 DEG C.

Such as, when heating: 1. when T is set to 16 DEG C, run at this temperature always; 2. when 17 DEG C≤T establish≤20 DEG C time, open temperature per hour after sleep function and reduce by 1 DEG C, after reducing by 1 DEG C, maintain this temperature; 3. when 21 DEG C≤T establish≤27 DEG C time, open temperature per hour after sleep function and reduce by 1 DEG C, after reducing by 2 DEG C, maintain this temperature; 4. when 28 DEG C≤T establish≤30 DEG C time, open temperature per hour after sleep function and reduce by 1 DEG C, after reducing by 3 DEG C, maintain this temperature.

T in above-described embodiment is set to the second design temperature.

In the above embodiment of the present invention, operational mode comprises the 3rd operational mode, operational factor comprises the 3rd design temperature, and wherein, the step being operated in operational mode by operational factor control air-conditioner is comprised: the indoor environment temperature gathering the running environment of air-conditioner; When indoor environment temperature meets the 5th temperature range, the interior machine temperature controlling air-conditioner operates in the 3rd design temperature, and wind shelves operate in the first gear, operate in the 3rd operational mode to control air-conditioner; When indoor environment temperature meets the 6th temperature range, the interior machine temperature controlling air-conditioner operates in the 3rd design temperature, and wind shelves operate in the second gear, operate in the 3rd operational mode to control air-conditioner; When indoor environment temperature meets the 6th temperature range, the interior machine temperature controlling air-conditioner operates in the 3rd design temperature, and wind shelves operate in third gear, operate in the 3rd operational mode to control air-conditioner.

Wherein, the 3rd operational mode correspondence in above-described embodiment is gone out sight, and after running sight of going out, air-conditioner can carry out following action to reach heat insulation effect: the interior machine arranging air-conditioner runs on the 3rd design temperature of insulation, carries out the adjustment of automatic wind shelves.

Wherein, the 5th temperature range for meet interval (∞, 8] temperature range, the 6th temperature range for meet interval [9,10) temperature range, the 7th temperature range for meet interval [10, ∞) temperature range.First gear is high-grade, and the second gear is middle-grade, and third gear is low-grade.

Such as, when T ring≤8 DEG C, inner blower top grade runs, as 9 DEG C≤T ring < 10 DEG C, and the middle-grade operation of inner blower, when T ring >=10 DEG C, inner blower underdrive operating, thus make air-conditioning carry out energy-conservation, insulation operation.

In above-described embodiment, T ring is indoor environment temperature.

In the above embodiment of the present invention, operational mode also comprises the 4th operational mode, and operational factor comprises default changes in temperature state, preset temperature change curve, presets wind shelves change curve and at least one data in the preset switches machine time.

Wherein, the corresponding self-defined contextual model of the 4th operational mode.

Particularly, under self-defining contextual model, user can carry out combination setting sight according to the needs of self, operational factor can be set, under this situation, operational factor can comprise default changes in temperature state, preset temperature change curve, preset wind shelves change curve, the parameters such as preset function and preset switches machine time, user can be self-defined and store by carrying out sight to the use habit of oneself, after user have selected this sight, can from before setting self-defined pattern select, also can reset again simultaneously, thus make unit according to the running preset, avoid the comfortableness operating and ensure that use frequently.

Further, operational mode can also comprise the 5th operational mode, and operational factor comprises acquiescence operational factor, and the step being operated in operational mode by operational factor control air-conditioner is comprised: control air-conditioner and run according to acquiescence operational factor.

Wherein, the 5th operational mode can corresponding acquiescence sight.In this kind of contextual model, air-conditioner runs according to acquiescence operational factor, and does not carry out the algorithm optimization of function combination, and farthest ensure changes in temperature setting effect, user can regulate each function voluntarily, and system does not automatically adjust.

In the above embodiment of the present invention, by increasing the function of sight condition selecting in conditioner terminal air controller (as line control machine), realize air-conditioning to run under different sights, also possess self-defined sight simultaneously and can establish the use habit defining self for user, reach simplify the operation, energy-saving run and build the effect of a home from home.

As shown in Figure 3, the method can comprise the steps:

Step S301: judge whether user's control end enters contextual model mode of operation.

Wherein, in a case of no, step S302 is performed; In a case of yes, step S303 is performed.

Step S302: enter the process of normal switch machine.

Step S303: selection/switching contextual model.

Particularly, user can input by line control machine the contextual model that user selects/switch, and after user selects different contextual models, enters five kinds of different contextual models respectively: step S304: mode standard; Step S305: quick mode; Step S306: sleep pattern; Step S307: outer exit pattern; Step S308: self-defined pattern.

After entering step S304 as shown in Figure 3, step S305, step S306, step S307 or step S308, the data genaration such as the contextual model that processor is selected according to user, the design temperature of user's input enter the control signal of different contextual models.

Particularly, can realize by performing step S309, step S310, step S311, step S312 or the step S313 shown in Fig. 3.

Step S309: the control signal generating Engage of standard sight.

Step S310: generate the control signal entering quick sight.

Step S311: generate the control signal entering sleep sight.

Step S312: generate the control signal entering sight of going out.

Step S313: generate the control signal entering self-defined sight.

In the above embodiment of the present invention, after performing step S313, perform step S314: judge whether user arranges operational factor.

Wherein, when user arranges operational factor, perform step S315; When user does not arrange operational factor, perform step S316.

Step S316: obtain self-defining operational factor.Wherein, this self-defining operational factor comprises: preset changes in temperature state, preset temperature change curve, preset wind shelves change curve and at least one data in the preset switches machine time.

In the embodiment show in figure 3, after entering the control signal generation of self-defined sight, collect user and operational factor is set, the operational factor using user to arrange enters self-defined contextual model, the operational factor that load actuating station is arranged according to user performs control signal, enters the automatic operation of self-defined contextual model.

Step S315: load actuating station performs control signal.

Particularly, after load actuating station receives this control signal, perform this control signal, thus achieve the control of user's control end to air-conditioner.

To achieve these goals, according to a further aspect in the invention, a kind of control device of air-conditioner is provided, this device comprises as shown in Figure 4: receiver module 1, for receiving the airconditioning control request of user, wherein, the operational mode that user selects is carried in airconditioning control request; Operational factor acquisition module 3, for obtaining the operational factor corresponding with operational mode; Control module 5, operates in operational mode for controlling air-conditioner by operational factor.

Adopt the present invention, user is by the request of user's control end input airconditioning control, processor obtains the operational factor corresponding with the operational mode that user selects, control signal is generated according to this operational factor, load actuating station performs control signal and operates in operational mode to control air-conditioner, thus after user inputs airconditioning control request, user's control end just can generate control signal and control the operational mode that air-conditioner operates in user's request, simple to operate, do not need the independent setting of user's parameter one by one, also difference needs user ceaselessly to debug the parameter of air-conditioning to be the demand that the operation of air-conditioning meets user, thus solve when user in prior art sets the running parameter of air-conditioning and need set each parameter separately, repeatedly adjust, this complex operation and the problem wasted energy, by just can realize the accurate control of air-conditioning to the simple operations of user's control end, do not need to set each parameter separately, do not need repeatedly to adjust, simple to operate and can the energy be saved, once input just can control the effect of operation of air conditioner in the running status of user's request.

Further, operational mode comprises the first operational mode, and operational factor comprises the first design temperature, and control module comprises: detection module, for detecting the indoor environment temperature of the running environment of air-conditioner; Difference calculating module, for calculating the difference of indoor environment temperature and the first design temperature; Adjusting module, for according to machine capacity in difference adjustment air-conditioner and operation wind shelves, operates in the first operational mode to control air-conditioner.

It should be noted that, can perform in the computer system of such as one group of computer executable instructions in the step shown in the flow chart of accompanying drawing, and, although show logical order in flow charts, but in some cases, can be different from the step shown or described by order execution herein.

From above description, can find out, present invention achieves following technique effect: adopt the present invention, user is by the request of user's control end input airconditioning control, processor obtains the operational factor corresponding with the operational mode that user selects, control signal is generated according to this operational factor, load actuating station performs control signal and operates in operational mode to control air-conditioner, thus after user inputs airconditioning control request, user's control end just can generate control signal and control the operational mode that air-conditioner operates in user's request, simple to operate, do not need the independent setting of user's parameter one by one, also difference needs user ceaselessly to debug the parameter of air-conditioning to be the demand that the operation of air-conditioning meets user, thus solve when user in prior art sets the running parameter of air-conditioning and need set each parameter separately, repeatedly adjust, this complex operation and the problem wasted energy, by just can realize the accurate control of air-conditioning to the simple operations of user's control end, do not need to set each parameter separately, do not need repeatedly to adjust, simple to operate and can the energy be saved, once input just can control the effect of operation of air conditioner in the running status of user's request.

Obviously, those skilled in the art should be understood that, above-mentioned of the present invention each module or each step can realize with general calculation element, they can concentrate on single calculation element, or be distributed on network that multiple calculation element forms, alternatively, they can realize with the executable program code of calculation element, thus, they can be stored and be performed by calculation element in the storage device, or they are made into each integrated circuit modules respectively, or the multiple module in them or step are made into single integrated circuit module to realize.Like this, the present invention is not restricted to any specific hardware and software combination.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (12)

1. a control method for air-conditioner, is characterized in that, comprising:

Receive the airconditioning control request of user, wherein, in described airconditioning control request, carry the operational mode that user selects;

Obtain the operational factor corresponding with described operational mode;

Control air-conditioner by described operational factor and operate in described operational mode.

2. control method according to claim 1, is characterized in that, described operational mode comprises the first operational mode, and described operational factor comprises the first design temperature, and the step operating in described operational mode by described operational factor control air-conditioner comprises:

Detect the indoor environment temperature of the running environment of described air-conditioner;

Calculate the difference of described indoor environment temperature and described first design temperature;

Adjust machine capacity and operation wind shelves in described air-conditioner according to described difference, operate in described first operational mode to control described air-conditioner.

3. control method according to claim 1, is characterized in that, described operational mode comprises the second operational mode, and described operational factor comprises the second design temperature, wherein, operates in described operational mode comprise by described operational factor control air-conditioner:

When described airconditioning control request is refrigeration request and meets the first temperature range at described second design temperature, the current running temperature controlling described air-conditioner in the first preset time range is increased to the first running temperature gradually, and maintain described first running temperature of described air-conditioner in the second preset time range after, described first running temperature controlling described air-conditioner drops to the second running temperature, maintains described air-conditioner and operates in described second running temperature;

When described airconditioning control request is refrigeration request and meets the second temperature range at described second design temperature, maintain the described current running temperature of described air-conditioner in the 3rd preset time range after, control described current running temperature and drop to the 3rd running temperature, maintain described air-conditioner and operate in described 3rd running temperature;

When described airconditioning control request is asked for heating and meets the 3rd temperature range at described second design temperature, maintain described air-conditioner and operate in described current running temperature;

When described airconditioning control request is asked for heating and meets the 4th temperature range at described second design temperature, the described current running temperature controlling described air-conditioner in the 4th preset time range maintains described air-conditioner and operates in described 4th running temperature after being reduced to the 4th running temperature gradually.

4. control method according to claim 3, is characterized in that,

Described first temperature range comprises the first temperature subranges, the second temperature subranges and the 3rd temperature subranges,

Wherein, when described airconditioning control request is refrigeration request and meets the first temperature subranges at described second design temperature, the described current running temperature controlling described air-conditioner raised 1 DEG C every one hour, described first running temperature is obtained after raising 3 DEG C, after described first running temperature of maintenance 7 hours, described first running temperature is reduced by 1 DEG C to described second running temperature, maintain described air-conditioner and operate in described second running temperature;

When described airconditioning control request is refrigeration request and meets the second temperature subranges at described second design temperature, the described current running temperature controlling described air-conditioner raised 1 DEG C every one hour, described first running temperature is obtained after raising 2 DEG C, after described first running temperature of maintenance 7 hours, described first running temperature is reduced by 1 DEG C to described second running temperature, maintain described air-conditioner and operate in described second running temperature;

When described airconditioning control request is refrigeration request and meets the 3rd temperature subranges at described second design temperature, the described current running temperature controlling described air-conditioner raised 1 DEG C every one hour, described first running temperature is obtained after raising 1 DEG C, after described first running temperature of maintenance 7 hours, described first running temperature is reduced by 1 DEG C to described second running temperature, maintain described air-conditioner and operate in described second running temperature;

Described 4th temperature range comprises the 4th temperature subranges, the 5th temperature subranges and the 6th temperature subranges,

Wherein, when described airconditioning control request is asked for heating and meets the 4th temperature subranges at described second design temperature, control described air-conditioner and reduce by 1 DEG C every one hour, after reducing by 1 DEG C, described current running temperature is reduced to described 4th running temperature, maintains described air-conditioner and operate in described 4th running temperature;

When described airconditioning control request is asked for heating and meets the 5th temperature subranges at described second design temperature, control described air-conditioner and reduce by 1 DEG C every one hour, after reducing by 2 DEG C, described current running temperature is reduced to described 4th running temperature, maintains described air-conditioner and operate in described 4th running temperature;

When described airconditioning control request is asked for heating and meets the 6th temperature subranges at described second design temperature, control described air-conditioner and reduce by 1 DEG C every one hour, after reducing by 3 DEG C, described current running temperature is reduced to described 4th running temperature, maintains described air-conditioner and operate in described 4th running temperature.

5. control method according to claim 1, it is characterized in that, described operational mode comprises the 3rd operational mode, and described operational factor comprises the 3rd design temperature, wherein, the step operating in described operational mode by described operational factor control air-conditioner comprises:

Gather the indoor environment temperature of the running environment of described air-conditioner;

When described indoor environment temperature meets the 5th temperature range, the interior machine temperature controlling described air-conditioner operates in described 3rd design temperature, and wind shelves operate in the first gear, operates in described 3rd operational mode to control described air-conditioner;

When described indoor environment temperature meets the 6th temperature range, the interior machine temperature controlling described air-conditioner operates in described 3rd design temperature, and wind shelves operate in the second gear, operates in described 3rd operational mode to control described air-conditioner;

When described indoor environment temperature meets the 6th temperature range, the interior machine temperature controlling described air-conditioner operates in described 3rd design temperature, and wind shelves operate in third gear, operates in described 3rd operational mode to control described air-conditioner.

6. control method according to claim 1, it is characterized in that, described operational mode comprises the 4th operational mode, and described operational factor comprises default changes in temperature state, preset temperature change curve, presets wind shelves change curve and at least one data in the preset switches machine time.

7. control method according to claim 1, it is characterized in that, described operational mode comprises the 5th operational mode, described operational factor comprises acquiescence operational factor, and the step operating in described operational mode by described operational factor control air-conditioner comprises: control described air-conditioner and run according to acquiescence operational factor.

8. a control device for air-conditioner, is characterized in that, comprising:

Receiver module, for receiving the airconditioning control request of user, wherein, carries the operational mode that user selects in described airconditioning control request;

Operational factor acquisition module, for obtaining the operational factor corresponding with described operational mode;

Control module, operates in described operational mode for controlling air-conditioner by described operational factor.

9. control device according to claim 8, is characterized in that, described operational mode comprises the first operational mode, and described operational factor comprises the first design temperature, and described control module comprises:

Detection module, for detecting the indoor environment temperature of the running environment of described air-conditioner;

Difference calculating module, for calculating the difference of described indoor environment temperature and described first design temperature;

Adjusting module, for adjusting machine capacity and operation wind shelves in described air-conditioner according to described difference, operates in described first operational mode to control described air-conditioner.

10. a control system for air-conditioner, is characterized in that, comprising:

User's control end comprises: operational mode setting device and processor, wherein,

Described operational mode setting device, for receiving the airconditioning control request of described user, wherein, carries the operational mode that user selects in described airconditioning control request;

Described processor, is connected with described operational mode setting device, for obtaining the operational factor corresponding with described operational mode, and uses described operational factor to send control signal;

Load actuating station comprises: indoor set and off-premises station, and described indoor set and off-premises station are connected with described processor respectively, operates in described operational mode for performing described control signal to control described air-conditioner.

11. control systems according to claim 10, is characterized in that, described user's control end also comprises:

Memory, is connected with described processor, for storing described airconditioning control request and described control signal;

Display unit, is connected with described processor, for showing the running status of described airconditioning control request and described air-conditioner;

Temperature-detecting device, is connected with described processor, for detecting the temperature of the running environment of described air-conditioner.

12. control systems according to claim 11, is characterized in that, described control system also comprises:

Communication device, is connected between described user's control end and described load actuating station, for transmitting the running status of described control signal and described air-conditioner.