CN104964395A

CN104964395A - Control method and device of air conditioner and control equipment of air conditioner

Info

Publication number: CN104964395A
Application number: CN201510402211.2A
Authority: CN
Inventors: 王涛; 喻春平; 张辉; 梁博; 叶务占
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2015-07-08
Filing date: 2015-07-08
Publication date: 2015-10-07
Anticipated expiration: 2035-07-08
Also published as: CN104964395B

Abstract

The invention discloses a control method and device of an air conditioner and control equipment of the air conditioner. The method includes the steps that after an automatic running command is received, environmental information and default running information of the air conditioner are acquired; based on the environmental information and the default running information, the running mode of the air conditioner is determined, and load running information matched with the environmental information and the default running information is acquired; the air conditioner is controlled to work in the running mode, and loads of the air conditioner are controlled to run according to the load running information. According to the control method and device of the air conditioner and the control equipment of the air conditioner, the technical problem that because running is not accurate enough when the air conditioner selects an automatic running mode, energy consumption of the air conditioner is high is solved.

Description

The control method of air-conditioner, device and equipment

Technical field

The present invention relates to field of air conditioning, in particular to a kind of control method of air-conditioner, device and equipment.

Background technology

Air-conditioning temperature under operation, humidity, wind speed and pattern etc. generally need user to be regulated by air-conditioning remote control as shown in figure 15.User according to the factor such as actual environment, personal habits, can handle the operational factor of air-conditioning remote control to air-conditioning and adjusts or switch the operational mode of air-conditioning.Although this regulative mode is comparatively popularized but operated relatively loaded down with trivial details, and says for old man and children etc., use difficulty higher.

To this, there is a kind of automatic decision operational mode and made the regulative mode that air-conditioning runs under suitable pattern in field of air conditioning, and comparatively universal has " automatic mode " and " E enjoys pattern ".If user selects " automatic mode ", then under this regulative mode, air-conditioner judges the suitable operational mode of air-conditioning by air-conditioning interior environment temperature, and selects this suitable operational mode to run, and under this regulative mode, the operational mode of air-conditioning generally has refrigeration mode and heating mode two kinds.

If user selects " E enjoys pattern ", then under this regulative mode, air-conditioner judges the suitable operational mode of air-conditioning by air-conditioning interior environment temperature and air-conditioning ambient temperature, and runs under needing user to make air-conditioning switch to this operational mode by manipulation air-conditioning remote control.Under this regulative mode, air-conditioning generally has the operational modes such as cold, cool, warm, hot and comfortable.

Although above automatic decision operational mode the regulative mode making air-conditioning run under suitable pattern achieve the automatic operation of air-conditioning to a certain extent, but there is air-conditioning and select the not accurate enough problem causing air-conditioning power consumption higher of automatic operational mode, and user is when switching to this regulative mode by the running status of air-conditioning, the manipulation aspect of air-conditioning remote control still simplifies not.

For above-mentioned problem, at present effective solution is not yet proposed.

Summary of the invention

Embodiments provide a kind of control method of air-conditioner, device and equipment, select the not accurate enough technical problem causing air-conditioning power consumption higher of automatic operational mode at least to solve air-conditioning.

According to an aspect of the embodiment of the present invention, provide a kind of control method of air-conditioner, comprising: after receiving automatic action command, obtain the environmental information of above-mentioned air-conditioner and default operation information; Determine the operational mode of above-mentioned air-conditioner based on above-mentioned environmental information and above-mentioned default operation information, and obtain the load running information matched with above-mentioned environmental information and above-mentioned default operation information; Control above-mentioned air-conditioner and be operated in above-mentioned operational mode, and the load controlling above-mentioned air-conditioner runs according to above-mentioned load running information.

Further, the environmental information obtaining above-mentioned air-conditioner comprises: the outdoor environment temperature and the indoor environment temperature that gather above-mentioned air-conditioner; From database, read the temperature range belonging to above-mentioned outdoor environment temperature, read ambient humidity parameter corresponding to said temperature scope and indoor environment temperature compensating parameter; And from above-mentioned database, read the design temperature of above-mentioned air-conditioner; Wherein, above-mentioned environmental information comprises: the above-mentioned outdoor environment temperature of above-mentioned air-conditioner and above-mentioned indoor environment temperature, above-mentioned ambient humidity parameter and above-mentioned indoor environment temperature compensating parameter, above-mentioned default operation information comprises above-mentioned design temperature.

Further, determine that the operational mode of above-mentioned air-conditioner comprises based on above-mentioned environmental information and above-mentioned default operation information: if above-mentioned indoor environment temperature T _in, above-mentioned design temperature T _if, the first indoor environment temperature compensating parameter T ₁and first environment humidity parameter RH ₁meet first pre-conditioned, then determine that the operational mode of above-mentioned air-conditioner is for start heating mode, wherein, above-mentioned first is pre-conditionedly: T _in≤ T _if-T ₁+ RH ₁; If above-mentioned indoor environment temperature T _in, above-mentioned design temperature T _if, above-mentioned first indoor environment temperature compensating parameter T ₁and second environment humidity parameter RH ₂meet second pre-conditioned, then determine that the operational mode of above-mentioned air-conditioner is for start refrigeration shutdown mode, wherein, above-mentioned second is pre-conditionedly: T _if+ T ₁+ RH ₂>=T _in>=T _if; If above-mentioned indoor environment temperature T _in, above-mentioned design temperature T _if, the second indoor environment temperature compensating parameter T ₂and second environment humidity parameter RH ₂meet the 3rd pre-conditioned, then determine that the operational mode of above-mentioned air-conditioner is for start refrigeration shutdown mode, wherein, the above-mentioned 3rd is pre-conditionedly: T _in>=T _if+ T ₂+ RH ₂; Wherein, above-mentioned indoor environment temperature compensating parameter comprises: above-mentioned first indoor environment temperature compensating parameter and above-mentioned second indoor environment temperature compensating parameter, above-mentioned ambient humidity parameter comprises above-mentioned first environment humidity parameter and above-mentioned second environment humidity parameter.

Further; obtain the load running information matched with above-mentioned environmental information and above-mentioned default operation information to comprise: if above-mentioned operational mode is start shooting refrigeration mode or the shutdown mode that freezes of starting shooting, then determine the indoor environment temperature T with above-mentioned operational mode, above-mentioned air-conditioner based on the first formula _inand above-mentioned design temperature T _ifcorresponding minimal compression unit frequency RPM; If above-mentioned operational mode is start heating mode, then determine the indoor environment temperature T with above-mentioned operational mode, above-mentioned air-conditioner based on the second formula _inand above-mentioned design temperature T _ifcorresponding minimal compression unit frequency RPM, wherein, above-mentioned first formula is: T _in-T _if=RPM+ Δ RPM, above-mentioned second formula is: T _in-T _if=RPM-Δ RPM, wherein, above-mentioned Δ RPM is the compressor regulating constant of above-mentioned air-conditioner, above-mentioned T _infor above-mentioned indoor environment temperature, above-mentioned T _iffor above-mentioned design temperature, above-mentioned RPM is above-mentioned minimal compression unit frequency; Wherein, above-mentioned load running information comprises: above-mentioned minimal compression unit frequency.

Further, the environmental information and the default operation information that obtain above-mentioned air-conditioner comprise: judge the command information whether carrying operational mode in above-mentioned automatic action command; If carry the command information of operational mode in above-mentioned automatic action command, then obtain the input gear information in the above-mentioned automatic action command received, and control above-mentioned air-conditioner and operate in above-mentioned operational mode according to above-mentioned input gear information; If do not carry the command information of operational mode in above-mentioned automatic action command, then obtain the above-mentioned environmental information of above-mentioned air-conditioner and above-mentioned default operation information.

Further, obtain the input gear information in the above-mentioned automatic action command that receives, and control above-mentioned air-conditioner and operate in above-mentioned operational mode according to above-mentioned input gear information and comprise: the touch potential inputted when user is inputted above-mentioned automatic action command by remote controller is as above-mentioned input gear information; Determine the gear that above-mentioned touch potential is corresponding; Control above-mentioned air-conditioner and operate in above-mentioned operational mode, and the load running of above-mentioned air-conditioner is on gear.

According to the another aspect of the embodiment of the present invention, additionally provide a kind of control device of air-conditioner, comprising: acquisition module, for after receiving automatic action command, obtain the environmental information of above-mentioned air-conditioner and default operation information; Processing module, for determining the operational mode of above-mentioned air-conditioner based on above-mentioned environmental information and above-mentioned default operation information, and obtains the load running information matched with above-mentioned environmental information and above-mentioned default operation information; Control module, is operated in above-mentioned operational mode for controlling above-mentioned air-conditioner, and the load controlling above-mentioned air-conditioner runs according to above-mentioned load running information.

Further, above-mentioned acquisition module comprises: gather submodule, for gathering outdoor environment temperature and the indoor environment temperature of above-mentioned air-conditioner; First reading submodule, for reading the temperature range belonging to above-mentioned outdoor environment temperature from database, reads ambient humidity parameter corresponding to said temperature scope and indoor environment temperature compensating parameter; And second reading submodule, for reading the design temperature of above-mentioned air-conditioner from above-mentioned database; Wherein, the environmental information of the above-mentioned air-conditioner that above-mentioned acquisition module obtains comprises: the above-mentioned outdoor environment temperature of above-mentioned air-conditioner and above-mentioned indoor environment temperature, above-mentioned ambient humidity parameter and above-mentioned indoor environment temperature compensating parameter, above-mentioned default operation information comprises above-mentioned design temperature.

Further, above-mentioned processing module comprises: first determines submodule, if for above-mentioned indoor environment temperature T _in, above-mentioned design temperature T _if, the first indoor environment temperature compensating parameter T ₁and first environment humidity parameter RH ₁meet first pre-conditioned, then determine that the operational mode of above-mentioned air-conditioner is for start heating mode, wherein, above-mentioned first is pre-conditionedly: T _in≤ T _if-T ₁+ RH ₁; Second determines submodule, if for above-mentioned indoor environment temperature T _in, above-mentioned design temperature T _if, above-mentioned first indoor environment temperature compensating parameter T ₁and second environment humidity parameter RH ₂meet second pre-conditioned, then determine that the operational mode of above-mentioned air-conditioner is for start refrigeration shutdown mode, wherein, above-mentioned second is pre-conditionedly: T _if+ T ₁+ RH ₂>=T _in>=T _if; 3rd determines submodule, if for above-mentioned indoor environment temperature T _in, above-mentioned design temperature T _if, the second indoor environment temperature compensating parameter T ₂and second environment humidity parameter RH ₂meet the 3rd pre-conditioned, then determine that the operational mode of above-mentioned air-conditioner is for start refrigeration shutdown mode, wherein, the above-mentioned 3rd is pre-conditionedly: T _in>=T _if+ T ₂+ RH ₂; Wherein, above-mentioned indoor environment temperature compensating parameter comprises: above-mentioned first indoor environment temperature compensating parameter and above-mentioned second indoor environment temperature compensating parameter, above-mentioned ambient humidity parameter comprises above-mentioned first environment humidity parameter and above-mentioned second environment humidity parameter.

Further, above-mentioned processing module also comprises: the 4th determines submodule, if be start refrigeration mode or start refrigeration shutdown mode for above-mentioned operational mode, then determines the indoor environment temperature T with above-mentioned operational mode, above-mentioned air-conditioner based on the first formula _inand above-mentioned design temperature T _ifcorresponding minimal compression unit frequency RPM; 5th determines submodule, if be start heating mode for above-mentioned operational mode, then determines the indoor environment temperature T with above-mentioned operational mode, above-mentioned air-conditioner based on the second formula _inand above-mentioned design temperature T _ifcorresponding minimal compression unit frequency RPM, wherein, above-mentioned first formula is: T _in-T _if=RPM+ Δ RPM, above-mentioned second formula is: T _in-T _if=RPM-Δ RPM, wherein, above-mentioned Δ RPM is the compressor regulating constant of above-mentioned air-conditioner, above-mentioned T _infor above-mentioned indoor environment temperature, above-mentioned T _iffor above-mentioned design temperature, above-mentioned RPM is above-mentioned minimal compression unit frequency; Wherein, above-mentioned load running information comprises: above-mentioned minimal compression unit frequency.

Further, above-mentioned acquisition module comprises: judge module, for judging the command information whether carrying operational mode in above-mentioned automatic action command; Process submodule, if for the command information carrying operational mode in above-mentioned automatic action command, then obtain the input gear information in the above-mentioned automatic action command received, and control above-mentioned air-conditioner and operate in above-mentioned operational mode according to above-mentioned input gear information; Obtaining submodule, if the command information for not carrying operational mode in above-mentioned automatic action command, then obtaining the above-mentioned environmental information of above-mentioned air-conditioner and above-mentioned default operation information.

Further, above-mentioned process submodule comprises: the 6th determines submodule, and the touch potential inputted during for user is inputted above-mentioned automatic action command by remote controller is as above-mentioned input gear information; 7th determines submodule, for determining the gear that above-mentioned touch potential is corresponding; Operation control module, operate in above-mentioned operational mode, and the load running of above-mentioned air-conditioner is on gear for controlling above-mentioned air-conditioner.

According to the another aspect of the embodiment of the present invention, additionally provide a kind of control appliance of air-conditioner, comprising: signal receiving unit, for receiving automatic action command; Message handler, be connected with above-mentioned signal receiving unit, for after receiving above-mentioned automatic action command, obtain the environmental information of above-mentioned air-conditioner and default operation information, and determine the operational mode of above-mentioned air-conditioner based on above-mentioned environmental information and above-mentioned default operation information, and obtain the load running information matched with above-mentioned environmental information and above-mentioned default operation information; Load controller, is connected with above-mentioned message handler, is operated in above-mentioned operational mode for controlling above-mentioned air-conditioner, and the load controlling above-mentioned air-conditioner runs according to above-mentioned load running information.

Further, the said equipment also comprises: sensor, is connected with above-mentioned processor, for gathering outdoor environment temperature and the indoor environment temperature of above-mentioned air-conditioner; Above-mentioned processor, also for reading the temperature range belonging to above-mentioned outdoor environment temperature from database, reads ambient humidity parameter corresponding to said temperature scope and indoor environment temperature compensating parameter; And from above-mentioned database, read the design temperature of above-mentioned air-conditioner; Wherein, above-mentioned environmental information comprises: the above-mentioned outdoor environment temperature of above-mentioned air-conditioner and above-mentioned indoor environment temperature, above-mentioned ambient humidity parameter and above-mentioned indoor environment temperature compensating parameter, above-mentioned default operation information comprises above-mentioned design temperature.

Further, the said equipment also comprises: remote controller, is connected with above-mentioned receiving element, for generating and sending above-mentioned automatic action command.

Further, above-mentioned remote controller comprises: display, for the operational mode of the temperature and/or above-mentioned air-conditioner that show environment residing for above-mentioned remote controller; Button, comprising: refrigeration button, heat button, dehumidifying button, automatic keying, wind speed button and shut down button, user is by the above-mentioned automatic action command of above-mentioned key-press input; Above-mentioned button also comprises: design temperature increases key and design temperature reduces key, and above-mentioned user increases key by above-mentioned design temperature and above-mentioned design temperature reduces key input design temperature.

In embodiments of the present invention, adopt and obtain the environmental information of air-conditioner and default operation information and with the operational mode of above-mentioned information determination air-conditioner and obtain and the mode of load running information of above-mentioned information match; The load that control air-conditioner is operated in operational mode and control air-conditioner runs according to load running information, reach the object that air-conditioning runs automatically, thus achieve the technique effect that automatic operational mode accurately selected by air-conditioning, and then solve air-conditioning and select the not accurate enough air-conditioning that causes of automatic operational mode to consume energy higher technical problem.

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 flow chart of the control method of a kind of optional air-conditioner according to the embodiment of the present invention;

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

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

Fig. 4 is the flow chart of the control method of the 4th kind of optional air-conditioner according to the embodiment of the present invention;

Fig. 5 is the schematic diagram of the control device of a kind of optional air-conditioner according to the embodiment of the present invention;

Fig. 6 is the schematic diagram of the control device according to the optional air-conditioner of the another kind of the embodiment of the present invention;

Fig. 7 is the schematic diagram of the control device of the third optional air-conditioner according to the embodiment of the present invention;

Fig. 8 is the schematic diagram of the control device of the 4th kind of optional air-conditioner according to the embodiment of the present invention;

Fig. 9 is the schematic diagram of the control device of the 5th kind of optional air-conditioner according to the embodiment of the present invention;

Figure 10 is the schematic diagram of the control device of the 6th kind of optional air-conditioner according to the embodiment of the present invention;

Figure 11 is the schematic diagram of the control appliance of a kind of optional air-conditioner according to the embodiment of the present invention;

Figure 12 is the schematic diagram of the control appliance according to the optional air-conditioner of the another kind of the embodiment of the present invention;

Figure 13 is the schematic diagram of the control appliance of the third optional air-conditioner according to the embodiment of the present invention;

Figure 14 is the schematic diagram of the control appliance of the 4th kind of optional air-conditioner according to the embodiment of the present invention;

Figure 15 is the schematic diagram of the remote controller of a kind of optional air-conditioner according to prior art;

Figure 16 is the schematic diagram of the remote controller of a kind of optional air-conditioner according to the embodiment of the present invention.

Detailed description of the invention

The present invention program is understood better in order to make those skilled in the art person, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the embodiment of a part of the present invention, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, should belong to the scope of protection of the invention.

It should be noted that, term " first ", " second " etc. in description of the present invention and claims and above-mentioned accompanying drawing are for distinguishing similar object, and need not be used for describing specific order or precedence.Should be appreciated that the data used like this can be exchanged in the appropriate case, so as embodiments of the invention described herein can with except here diagram or describe those except order implement.In addition, term " comprises " and " having " and their any distortion, intention is to cover not exclusive comprising, such as, contain those steps or unit that the process of series of steps or unit, method, system, product or equipment is not necessarily limited to clearly list, but can comprise clearly do not list or for intrinsic other step of these processes, method, product or equipment or unit.

Embodiment 1

According to the embodiment of the present invention, provide a kind of embodiment of control method of 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, in some cases, can be different from the step shown or described by order execution herein.

Fig. 1 is the flow chart of the control method of a kind of optional air-conditioner according to the embodiment of the present invention, and as shown in Figure 1, the method comprises the steps:

Step S102, after receiving automatic action command, obtains the environmental information of air-conditioner and default operation information;

Step S104, based on the operational mode of environmental information and default operation information determination air-conditioner, and obtains the load running information matched with environmental information and default operation information;

Step S106, controls air-conditioner and be operated in operational mode, and the load controlling air-conditioner runs according to load running information.

Alternatively, this automatic action command can by air-conditioner identification, storage and execution, the environmental information of this air-conditioner can be the environmental information of effective working region of air-conditioner, the particular functionality information of air-conditioner can be implanted in the information of artificial setting that the default operation information of this air-conditioner can store for air-conditioner, the Default Value information of air-conditioner or Smart Home field by application software, the application does not limit at this.

Alternatively, the operational mode of air-conditioner can be, but not limited to as one of following: be heating mode, refrigeration mode and dehumidification mode etc., and the load of air-conditioner can be, but not limited to as one of following: the mechanical, electrical sub-expansion valve of inner blower, exogenous wind and compressor etc.

Alternatively, control air-conditioner be operated in operational mode and control air-conditioner load according to load running information run can be performed by the controller in air-conditioner.

Alternatively, Fig. 2 is the flow chart of the control method according to the optional air-conditioner of the another kind of the embodiment of the present invention, and as shown in Figure 2, the method comprises the steps:

Step S202, gathers outdoor environment temperature and the indoor environment temperature of air-conditioner;

Step S204, reads the temperature range belonging to outdoor environment temperature from database, reads ambient humidity parameter corresponding to temperature range and indoor environment temperature compensating parameter;

Step S206, reads the design temperature of air-conditioner from database.

Alternatively, the outdoor environment temperature of air-conditioner can be the temperature based on outside air temperature, solar radiation and long _ wave radiation comprehensive function, outdoor environment temperature mentioned by the application do not segment to above-mentioned reason distinguish corresponding independence operative temperature, based on same reasons, the indoor temperature mentioned by the application is the equalization temperature under indoor airflow acting in conjunction too.

Alternatively, the temperature range belonging to outdoor environment temperature is read from database, this database functionally has the functions such as data storage, exchanges data, data deletion and data can be read, and this database can be chip etc. in physical medium aspect, such as single-chip microcomputer memory.Under smart home environment, if the air-conditioner belonging to this database connects into network, the data in this database can based on automatically downloading after software analysis and upgrading.

Alternatively, the constant gradient temperature range that this temperature range can divide in units of a certain fixed temperature difference for the temperature range that can normally be worked by air-conditioner, such as, the temperature range that air-conditioner can normally work is-5 DEG C to 45 DEG C, with 10 DEG C for the temperature range that air-conditioner can normally work can be divided into 5 constant gradient temperature ranges by temperature gap, 5 constant gradient temperature ranges called after " Range1 " respectively, " Range2 ", " Range3 ", " Range4 " and " Range5 ", wherein, the temperature range of temperature range " Range1 " by name correspondence is "-5 DEG C to 5 DEG C ", the temperature range of temperature range " Range2 " by name correspondence is " 5 DEG C to 15 DEG C ", the temperature range of temperature range " Range3 " by name correspondence is " 15 DEG C to 25 DEG C ", the temperature range of temperature range " Range4 " by name correspondence is " 25 DEG C to 35 DEG C ", and the temperature range of temperature range " Range5 " by name correspondence is " 35 DEG C to 45 DEG C ".In a database, which temperature range the corresponding one group of ambient humidity parameter of each temperature range and indoor environment temperature compensating parameter, can belong to based on outdoor environment temperature and extract ambient humidity parameter corresponding to this temperature range and indoor environment temperature compensating parameter.

Alternatively, the operational mode based on environmental information and default operation information determination air-conditioner comprises: if indoor environment temperature T _in, design temperature T _if, the first indoor environment temperature compensating parameter T ₁and first environment humidity parameter RH ₁meet first pre-conditioned, then determine that the operational mode of air-conditioner is for start heating mode, wherein, first is pre-conditionedly: T _in≤ T _if-T ₁+ RH ₁; If indoor environment temperature T _in, design temperature T _if, the first indoor environment temperature compensating parameter T ₁and second environment humidity parameter RH ₂meet second pre-conditioned, then determine that the operational mode of air-conditioner is for start refrigeration shutdown mode, wherein, second is pre-conditionedly: T _if+ T ₁+ RH ₂>=T _in>=T _if; If indoor environment temperature T _in, design temperature T _if, the second indoor environment temperature compensating parameter T ₂and second environment humidity parameter RH ₂meet the 3rd pre-conditioned, then determine that the operational mode of air-conditioner is for start refrigeration shutdown mode, wherein, the 3rd is pre-conditionedly: T _in>=T _if+ T ₂+ RH ₂; Wherein, indoor environment temperature compensating parameter comprises: the first indoor environment temperature compensating parameter and the second indoor environment temperature compensating parameter, ambient humidity parameter comprises first environment humidity parameter and second environment humidity parameter.

Alternatively, obtain the load running information matched with environmental information and default operation information to comprise: if operational mode is start shooting refrigeration mode or the shutdown mode that freezes of starting shooting, then determine the indoor environment temperature T with operational mode, air-conditioner based on the first formula _inand design temperature T _ifcorresponding minimal compression unit frequency RPM; If operational mode is start heating mode, then determine the indoor environment temperature T with operational mode, air-conditioner based on the second formula _inand design temperature T _ifcorresponding minimal compression unit frequency RPM, wherein, the first formula is: T _in-T _if=RPM+ Δ RPM, the second formula is: T _in-T _if=RPM-Δ RPM, wherein, Δ RPM is the compressor regulating constant of air-conditioner, T _infor indoor environment temperature, T _iffor design temperature, RPM is minimal compression unit frequency; Wherein, load running information comprises: minimal compression unit frequency.

Alternatively, Fig. 3 is the flow chart of the control method of the third optional air-conditioner according to the embodiment of the present invention, and as shown in Figure 3, the method comprises the steps:

Step S302, judges the command information whether carrying operational mode in automatic action command;

Step S304, if the command information automatically carrying operational mode in action command, then obtains the input gear information in the automatic action command received, and controls air-conditioner and operate in operational mode according to input gear information;

Step S306, if the command information carrying operational mode in automatic action command, then obtains the environmental information of air-conditioner and default operation information.

Alternatively, judge the command information whether carrying operational mode in automatic action command, the command information of this operational mode can be read by the controller of air-conditioner and control air-conditioner with mode operation corresponding to the command information of this operational mode.

Alternatively, if automatically carry the command information of operational mode in action command, then obtain the input gear information in the automatic action command received, this gear information can be temperature information, wind speed information and wind direction information etc., and this gear information pattern corresponding with the command information of this operational mode acts in the lump under the duty of air-conditioner.

Alternatively, Fig. 4 is the flow chart of the control method of the 4th kind of optional air-conditioner according to the embodiment of the present invention, and as shown in Figure 4, the method comprises the steps:

Step S402, the touch potential inputted when user is inputted automatic action command by remote controller is as input gear information;

Step S404, determines the gear that touch potential is corresponding;

Step S406, controls air-conditioner and operate in operational mode, and the load running of air-conditioner is on gear.

Alternatively, the touch potential inputted when user is inputted automatic action command by remote controller is as input gear information, and the corresponding relation of this touch potential and gear information can be pre-set by user or producer.Such as, " refrigeration button " on air-conditioning remote control when being pressed 1 time by user, corresponding gear information is " fast-refrigerating "; " refrigeration button " on air-conditioning remote control, when being pressed 2 times by user, corresponding gear information is " conventional refrigerant "; " refrigeration button " on air-conditioning remote control, when being pressed 3 times by user, corresponding gear information is " cool breeze refrigeration "." heating button " on air-conditioning remote control, when being pressed 1 time by user, corresponding gear information is " heating fast "; " heating button " on air-conditioning remote control, when being pressed 2 times by user, corresponding gear information is " routine heats "; " heating button " on air-conditioning remote control, when being pressed 3 times by user, corresponding gear information is " insulation heats "." dehumidifying button " on air-conditioning remote control, when being pressed 1 time by user, corresponding gear information is " automatic dehumidifying "; " dehumidifying button " on air-conditioning remote control, when being pressed 2 times by user, corresponding gear information is " constant temperature dehumidification "; " dehumidifying button " on air-conditioning remote control, when being pressed 3 times by user, corresponding gear information is " clothes-drying dehumidifying ".

Alternatively, determine the gear that touch potential is corresponding, this touch potential characterizes once complete gear information input process, and this complete gear information input process can be preset as set time section, and such as, this complete gear information input process was preset as 5 seconds.The timing node then pressing remote controller key first user starts, and within 5 seconds, air-conditioner does not stop present mode of operation; After 5 seconds, air-conditioner switches to the operational mode indicated by gear information corresponding to the touch potential of user.That is, user need complete the operation of intention touch potential within 5 seconds, and after 5 seconds, the operation of this touch potential will not be applied in next operation.It should be noted that, the gear information of the touch potential proposed in the embodiment of the present application and its correspondence, concrete operations form and symbolical meanings can do other forms of change, such as, user's actual key 2 times when being intended to button 1 time, when user recognize this maloperation and air-conditioning not yet with the mode operation indicated by gear information corresponding to the actual key number of times received, then user can eliminate this operational order by long by former button.

Embodiment 2

According to another aspect of the embodiment of the present invention, additionally provide a kind of control device of air-conditioner, as shown in Figure 5, comprising:

Acquisition module 501, for after receiving automatic action command, obtains the environmental information of air-conditioner and default operation information;

Processing module 502, for the operational mode based on environmental information and default operation information determination air-conditioner, and obtains the load running information matched with environmental information and default operation information;

Control module 503, is operated in operational mode for controlling air-conditioner, and the load controlling air-conditioner runs according to load running information.

Alternatively, control air-conditioner be operated in operational mode and control air-conditioner load according to load running information run can be performed by the control module 503 in air-conditioner.

Alternatively, as shown in Figure 6, acquisition module 501 comprises:

Gather submodule 601, for gathering outdoor environment temperature and the indoor environment temperature of air-conditioner;

First reading submodule 602, for reading the temperature range belonging to outdoor environment temperature from database, reads ambient humidity parameter corresponding to temperature range and indoor environment temperature compensating parameter; And

Second reading submodule 603, for reading the design temperature of air-conditioner from database;

Wherein, the environmental information of the air-conditioner of acquisition module 501 acquisition comprises: the outdoor environment temperature of air-conditioner and indoor environment temperature, ambient humidity parameter and indoor environment temperature compensating parameter, default operation information comprises design temperature.

Alternatively, first reading submodule 602 reads the temperature range belonging to outdoor environment temperature from database, this database functionally has the functions such as data storage, exchanges data, data deletion and data can be read, this database can be chip etc. in physical medium aspect, such as single-chip microcomputer memory.Under smart home environment, if the air-conditioner belonging to this database connects into network, the data in this database can based on automatically downloading after software analysis and upgrading.

Alternatively, as shown in Figure 7, processing module 502 comprises:

First determines submodule 701, if for indoor environment temperature T _in, design temperature T _if, the first indoor environment temperature compensating parameter T ₁and first environment humidity parameter RH ₁meet first pre-conditioned, then determine that the operational mode of air-conditioner is for start heating mode, wherein, first is pre-conditionedly: T _in≤ T _if-T ₁+ RH ₁;

Second determines submodule 702, if for indoor environment temperature T _in, design temperature T _if, the first indoor environment temperature compensating parameter T ₁and second environment humidity parameter RH ₂meet second pre-conditioned, then determine that the operational mode of air-conditioner is for start refrigeration shutdown mode, wherein, second is pre-conditionedly: T _if+ T ₁+ RH ₂>=T _in>=T _if;

3rd determines submodule 703, if for indoor environment temperature T _in, design temperature T _if, the second indoor environment temperature compensating parameter T ₂and second environment humidity parameter RH ₂meet the 3rd pre-conditioned, then determine that the operational mode of air-conditioner is for start refrigeration shutdown mode, wherein, the 3rd is pre-conditionedly: T _in>=T _if+ T ₂+ RH ₂;

Wherein, indoor environment temperature compensating parameter comprises: the first indoor environment temperature compensating parameter and the second indoor environment temperature compensating parameter, ambient humidity parameter comprises first environment humidity parameter and second environment humidity parameter.

Alternatively, as shown in Figure 8, processing module 502 also comprises:

4th determines submodule 801, if be start refrigeration mode or start refrigeration shutdown mode for operational mode, then determines the indoor environment temperature T with operational mode, air-conditioner based on the first formula _inand design temperature T _ifcorresponding minimal compression unit frequency RPM;

5th determines submodule 802, if be start heating mode for operational mode, then determines the indoor environment temperature T with operational mode, air-conditioner based on the second formula _inand design temperature T _ifcorresponding minimal compression unit frequency RPM,

Wherein, the first formula is: T _in-T _if=RPM+ Δ RPM, the second formula is: T _in-T _if=RPM-Δ RPM, wherein, Δ RPM is the compressor regulating constant of air-conditioner, T _infor indoor environment temperature, T _iffor design temperature, RPM is minimal compression unit frequency;

Wherein, load running information comprises: minimal compression unit frequency.

Alternatively, as shown in Figure 9, acquisition module 501 comprises:

Judge module 901, for judging the command information whether carrying operational mode in automatic action command;

Process submodule 902, if the command information for carrying operational mode in automatic action command, then obtains the input gear information in the automatic action command received, and controls air-conditioner and operate in operational mode according to input gear information;

Obtaining submodule 903, if the command information for not carrying operational mode in automatic action command, then obtaining the environmental information of air-conditioner and default operation information.

Alternatively, judge module 901 judges the command information whether carrying operational mode in automatic action command, and the command information of this operational mode submodule 902 that can be processed reads and controls air-conditioner with mode operation corresponding to the command information of this operational mode.

Alternatively, if automatically carry the command information of operational mode in action command, then process submodule 902 obtains the input gear information in the automatic action command received, this gear information can be temperature information, wind speed information and wind direction information etc., and this gear information pattern corresponding with the command information of this operational mode acts in the lump under the duty of air-conditioner.

Alternatively, as shown in Figure 10, process submodule 902 to comprise:

6th determines submodule 1001, and the touch potential inputted during for user is inputted automatic action command by remote controller is as input gear information;

7th determines submodule 1002, for determining the gear that touch potential is corresponding;

Operation control module 1003, operate in operational mode, and the load running of air-conditioner is on gear for controlling air-conditioner.

Alternatively, the 6th determines that touch potential that submodule 1001 inputs when user is inputted automatic action command by remote controller is as input gear information, and the corresponding relation of this touch potential and gear information can be pre-set by user or producer.Such as, " refrigeration button " on air-conditioning remote control when being pressed 1 time by user, corresponding gear information is " fast-refrigerating "; " refrigeration button " on air-conditioning remote control, when being pressed 2 times by user, corresponding gear information is " conventional refrigerant "; " refrigeration button " on air-conditioning remote control, when being pressed 3 times by user, corresponding gear information is " cool breeze refrigeration "." heating button " on air-conditioning remote control, when being pressed 1 time by user, corresponding gear information is " heating fast "; " heating button " on air-conditioning remote control, when being pressed 2 times by user, corresponding gear information is " routine heats "; " heating button " on air-conditioning remote control, when being pressed 3 times by user, corresponding gear information is " insulation heats "." dehumidifying button " on air-conditioning remote control, when being pressed 1 time by user, corresponding gear information is " automatic dehumidifying "; " dehumidifying button " on air-conditioning remote control, when being pressed 2 times by user, corresponding gear information is " constant temperature dehumidification "; " dehumidifying button " on air-conditioning remote control, when being pressed 3 times by user, corresponding gear information is " clothes-drying dehumidifying ".

Alternatively, 7th determines that submodule 1002 determines the gear that touch potential is corresponding, and this touch potential characterizes once complete gear information input process, and this complete gear information input process can be preset as set time section, such as, this complete gear information input process was preset as 5 seconds.The timing node then pressing remote controller key first user starts, and within 5 seconds, air-conditioner does not stop present mode of operation; After 5 seconds, air-conditioner switches to the operational mode indicated by gear information corresponding to the touch potential of user.That is, user need complete the operation of intention touch potential within 5 seconds, and after 5 seconds, the operation of this touch potential will not be applied in next operation.It should be noted that, the gear information of the touch potential proposed in the embodiment of the present application and its correspondence, concrete operations form and symbolical meanings can do other forms of change, such as, user's actual key 2 times when being intended to button 1 time, when user recognize this maloperation and air-conditioning not yet with the mode operation indicated by gear information corresponding to the actual key number of times received, then user can eliminate this operational order by long by former button.

Embodiment 3

According to another aspect of the embodiment of the present invention, additionally provide a kind of control appliance of air-conditioner, as shown in figure 11, comprising:

Signal receiving unit 1101, for receiving automatic action command;

Message handler 1102, be connected with signal receiving unit, for after receiving automatic action command, obtain the environmental information of air-conditioner and default operation information, and based on the operational mode of environmental information and default operation information determination air-conditioner, and obtain the load running information matched with environmental information and default operation information;

Load controller 1103, is connected with message handler, is operated in operational mode for controlling air-conditioner, and the load controlling air-conditioner runs according to load running information.

Alternatively, as shown in figure 12, equipment also comprises:

Sensor 1201, is connected with processor 1102, for gathering outdoor environment temperature and the indoor environment temperature of air-conditioner;

Alternatively, sensor 1201 can be wet temperature sensor, and sensor 1201 can comprise temperature-sensitive element, dew cell, conversion element and basic change-over circuit, and environmental information can be sent to message handler 1102 in the mode of the signal of telecommunication by sensor 1201.

Processor 1102, also for reading the temperature range belonging to outdoor environment temperature from database, reads ambient humidity parameter corresponding to temperature range and indoor environment temperature compensating parameter; And from database, read the design temperature of air-conditioner;

Wherein, environmental information comprises: the outdoor environment temperature of air-conditioner and indoor environment temperature, ambient humidity parameter and indoor environment temperature compensating parameter, default operation information comprises design temperature.

Alternatively, as shown in figure 13, equipment also comprises:

Remote controller 1301, is connected with receiving element 1101, for generating and sending automatic action command.

Alternatively, as shown in figure 14, remote controller 1301 comprises:

Display 1401, for the temperature of environment and/or the operational mode of air-conditioner residing for display remote controller;

Button 1402, comprising:

Refrigeration button, heat button, dehumidifying button, automatic keying, wind speed button and shut down button, user is by the automatic action command of key-press input;

Button also comprises: design temperature increases key and design temperature reduces key, and user increases key by design temperature and design temperature reduces key input design temperature.

Alternatively, as shown in figure 16, provide a kind of front view of front of remote controller 1301, compared to a kind of air-conditioning remote control conventional at present that Figure 15 provides, remote controller 1301 decreases button on the whole, at user option operational mode is sorted out, and has set up automatic keying, thus reduce the difficulty of user's selection.Achieve the simple and convenient operation that air-conditioning runs automatically.

In embodiments of the present invention, adopt and obtain the environmental information of described air-conditioner and default operation information and determine the operational mode of described air-conditioner with above-mentioned information and obtain and the mode of load running information of above-mentioned information match; Control the load that described air-conditioner is operated in described operational mode and controls described air-conditioner to run according to described load running information, reach the object that air-conditioning runs automatically, thus achieve the technique effect that automatic operational mode accurately selected by air-conditioning, and then solve air-conditioning and select the not accurate enough air-conditioning that causes of automatic operational mode to consume energy higher technical problem.

The invention described above embodiment sequence number, just to describing, does not represent the quality of embodiment.

In the above embodiment of the present invention, the description of each embodiment is all emphasized particularly on different fields, in certain embodiment, there is no the part described in detail, can see the associated description of other embodiments.

In several embodiments that the application provides, should be understood that, disclosed technology contents, the mode by other realizes.Wherein, device embodiment described above is only schematic, the such as division of described unit, can be that a kind of logic function divides, actual can have other dividing mode when realizing, such as multiple unit or assembly can in conjunction with or another system can be integrated into, or some features can be ignored, or do not perform.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be by some interfaces, and the INDIRECT COUPLING of unit or module or communication connection can be electrical or other form.

The described unit illustrated as separating component or can may not be and physically separates, and the parts as unit display can be or may not be physical location, namely can be positioned at a place, or also can be distributed on multiple unit.Some or all of unit wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.

In addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, also can be that the independent physics of unit exists, also can two or more unit in a unit integrated.Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form of SFU software functional unit also can be adopted to realize.

If described integrated unit using the form of SFU software functional unit realize and as independently production marketing or use time, can be stored in a computer read/write memory medium.Based on such understanding, the part that technical scheme of the present invention contributes to prior art in essence in other words or all or part of of this technical scheme can embody with the form of software product, this computer software product is stored in a storage medium, comprises all or part of step of some instructions in order to make a computer equipment (can be personal computer, server or the network equipment etc.) perform method described in each embodiment of the present invention.And aforesaid storage medium comprises: USB flash disk, read-only storage (ROM, Read-OnlyMemory), random access memory (RAM, Random Access Memory), portable hard drive, magnetic disc or CD etc. various can be program code stored medium.

The above is only the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the premise without departing from the principles of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims

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

After receiving automatic action command, obtain the environmental information of described air-conditioner and default operation information;

Determine the operational mode of described air-conditioner based on described environmental information and described default operation information, and obtain the load running information matched with described environmental information and described default operation information;

Control described air-conditioner and be operated in described operational mode, and the load controlling described air-conditioner runs according to described load running information.

2. method according to claim 1, is characterized in that, the environmental information obtaining described air-conditioner comprises:

Gather outdoor environment temperature and the indoor environment temperature of described air-conditioner;

From database, read the temperature range belonging to described outdoor environment temperature, read ambient humidity parameter corresponding to described temperature range and indoor environment temperature compensating parameter; And

The design temperature of described air-conditioner is read from described database;

Wherein, described environmental information comprises: the described outdoor environment temperature of described air-conditioner and described indoor environment temperature, described ambient humidity parameter and described indoor environment temperature compensating parameter, described default operation information comprises described design temperature.

3. method according to claim 2, is characterized in that, determines that the operational mode of described air-conditioner comprises based on described environmental information and described default operation information:

If described indoor environment temperature T _in, described design temperature T _if, the first indoor environment temperature compensating parameter T ₁and first environment humidity parameter RH ₁meet first pre-conditioned, then determine that the operational mode of described air-conditioner is for start heating mode, wherein, described first is pre-conditionedly: T _in≤ T _if-T ₁+ RH ₁;

If described indoor environment temperature T _in, described design temperature T _if, described first indoor environment temperature compensating parameter T ₁and second environment humidity parameter RH ₂meet second pre-conditioned, then determine that the operational mode of described air-conditioner is for start refrigeration shutdown mode, wherein, described second is pre-conditionedly: T _if+ T ₁+ RH ₂>=T _in>=T _if;

If described indoor environment temperature T _in, described design temperature T _if, the second indoor environment temperature compensating parameter T ₂and second environment humidity parameter RH ₂meet the 3rd pre-conditioned, then determine that the operational mode of described air-conditioner is for start refrigeration shutdown mode, wherein, the described 3rd is pre-conditionedly: T _in>=T _if+ T ₂+ RH ₂;

Wherein, described indoor environment temperature compensating parameter comprises: described first indoor environment temperature compensating parameter and described second indoor environment temperature compensating parameter, described ambient humidity parameter comprises described first environment humidity parameter and described second environment humidity parameter.

4. method according to claim 2, is characterized in that, obtains the load running information matched with described environmental information and described default operation information and comprises:

If described operational mode is start refrigeration mode or start refrigeration shutdown mode, then determine the indoor environment temperature T with described operational mode, described air-conditioner based on the first formula _inand described design temperature T _ifcorresponding minimal compression unit frequency RPM;

If described operational mode is start heating mode, then determine the indoor environment temperature T with described operational mode, described air-conditioner based on the second formula _inand described design temperature T _ifcorresponding minimal compression unit frequency RPM,

Wherein, described first formula is: T _in-T _if=RPM+ Δ RPM, described second formula is: T _in-T _if=RPM-Δ RPM, wherein, described Δ RPM is the compressor regulating constant of described air-conditioner, described T _infor described indoor environment temperature, described T _iffor described design temperature, described RPM is described minimal compression unit frequency;

Wherein, described load running information comprises: described minimal compression unit frequency.

5. method as claimed in any of claims 1 to 4, is characterized in that, the environmental information and the default operation information that obtain described air-conditioner comprise:

Judge the command information whether carrying operational mode in described automatic action command;

If carry the command information of operational mode in described automatic action command, then obtain the input gear information in the described automatic action command received, and control described air-conditioner and operate in described operational mode according to described input gear information;

If do not carry the command information of operational mode in described automatic action command, then obtain the described environmental information of described air-conditioner and described default operation information.

6. method according to claim 5, is characterized in that, obtains the input gear information in the described automatic action command that receives, and controls described air-conditioner and operate in described operational mode according to described input gear information and comprise:

The touch potential inputted when user is inputted described automatic action command by remote controller is as described input gear information;

Determine the gear that described touch potential is corresponding;

Control described air-conditioner and operate in described operational mode, and the load running of described air-conditioner is on gear.

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

Acquisition module, for after receiving automatic action command, obtains the environmental information of described air-conditioner and default operation information;

Processing module, for determining the operational mode of described air-conditioner based on described environmental information and described default operation information, and obtains the load running information matched with described environmental information and described default operation information;

Control module, is operated in described operational mode for controlling described air-conditioner, and the load controlling described air-conditioner runs according to described load running information.

8. device according to claim 7, is characterized in that, described acquisition module comprises:

Gather submodule, for gathering outdoor environment temperature and the indoor environment temperature of described air-conditioner;

First reading submodule, for reading the temperature range belonging to described outdoor environment temperature from database, reads ambient humidity parameter corresponding to described temperature range and indoor environment temperature compensating parameter; And

Second reading submodule, for reading the design temperature of described air-conditioner from described database;

Wherein, the environmental information of the described air-conditioner that described acquisition module obtains comprises: the described outdoor environment temperature of described air-conditioner and described indoor environment temperature, described ambient humidity parameter and described indoor environment temperature compensating parameter, described default operation information comprises described design temperature.

9. device according to claim 8, is characterized in that, described processing module comprises:

First determines submodule, if for described indoor environment temperature T _in, described design temperature T _if, the first indoor environment temperature compensating parameter T ₁and first environment humidity parameter RH ₁meet first pre-conditioned, then determine that the operational mode of described air-conditioner is for start heating mode, wherein, described first is pre-conditionedly: T _in≤ T _if-T ₁+ RH ₁;

Second determines submodule, if for described indoor environment temperature T _in, described design temperature T _if, described first indoor environment temperature compensating parameter T ₁and second environment humidity parameter RH ₂meet second pre-conditioned, then determine that the operational mode of described air-conditioner is for start refrigeration shutdown mode, wherein, described second is pre-conditionedly: T _if+ T ₁+ RH ₂>=T _in>=T _if;

3rd determines submodule, if for described indoor environment temperature T _in, described design temperature T _if, the second indoor environment temperature compensating parameter T ₂and second environment humidity parameter RH ₂meet the 3rd pre-conditioned, then determine that the operational mode of described air-conditioner is for start refrigeration shutdown mode, wherein, the described 3rd is pre-conditionedly: T _in>=T _if+ T ₂+ RH ₂;

10. device according to claim 8, is characterized in that, described processing module also comprises:

4th determines submodule, if be start refrigeration mode or start refrigeration shutdown mode for described operational mode, then determines the indoor environment temperature T with described operational mode, described air-conditioner based on the first formula _inand described design temperature T _ifcorresponding minimal compression unit frequency RPM;

5th determines submodule, if be start heating mode for described operational mode, then determines the indoor environment temperature T with described operational mode, described air-conditioner based on the second formula _inand described design temperature T _ifcorresponding minimal compression unit frequency RPM,

11., according to the device in claim 7 to 10 described in any one, is characterized in that, described acquisition module comprises:

Judge module, for judging the command information whether carrying operational mode in described automatic action command;

Process submodule, if for the command information carrying operational mode in described automatic action command, then obtain the input gear information in the described automatic action command received, and control described air-conditioner and operate in described operational mode according to described input gear information;

Obtaining submodule, if the command information for not carrying operational mode in described automatic action command, then obtaining the described environmental information of described air-conditioner and described default operation information.

12. devices according to claim 11, is characterized in that, described process submodule comprises:

6th determines submodule, and the touch potential inputted during for user is inputted described automatic action command by remote controller is as described input gear information;

7th determines submodule, for determining the gear that described touch potential is corresponding;

Operation control module, operate in described operational mode, and the load running of described air-conditioner is on gear for controlling described air-conditioner.

The control appliance of 13. 1 kinds of air-conditioners, is characterized in that, comprising:

Signal receiving unit, for receiving automatic action command;

Message handler, be connected with described signal receiving unit, for after receiving described automatic action command, obtain the environmental information of described air-conditioner and default operation information, and determine the operational mode of described air-conditioner based on described environmental information and described default operation information, and obtain the load running information matched with described environmental information and described default operation information;

Load controller, is connected with described message handler, is operated in described operational mode for controlling described air-conditioner, and the load controlling described air-conditioner runs according to described load running information.

14. equipment according to claim 13, is characterized in that, described equipment also comprises:

Sensor, is connected with described processor, for gathering outdoor environment temperature and the indoor environment temperature of described air-conditioner;

Described processor, also for reading the temperature range belonging to described outdoor environment temperature from database, reads ambient humidity parameter corresponding to described temperature range and indoor environment temperature compensating parameter; And from described database, read the design temperature of described air-conditioner;

15. equipment according to claim 13 or 14, it is characterized in that, described equipment also comprises:

Remote controller, is connected with described receiving element, for generating and sending described automatic action command.

16. equipment according to claim 15, is characterized in that, described remote controller comprises:

Display, for the operational mode of the temperature and/or described air-conditioner that show environment residing for described remote controller;

Button, comprising:

Refrigeration button, heat button, dehumidifying button, automatic keying, wind speed button and shut down button, user is by action command automatic described in described key-press input;

Described button also comprises: design temperature increases key and design temperature reduces key, and described user increases key by described design temperature and described design temperature reduces key input design temperature.