CN201764621U - Intelligent air conditioner remote controller - Google Patents

Intelligent air conditioner remote controller Download PDF

Info

Publication number
CN201764621U
CN201764621U CN2010202418635U CN201020241863U CN201764621U CN 201764621 U CN201764621 U CN 201764621U CN 2010202418635 U CN2010202418635 U CN 2010202418635U CN 201020241863 U CN201020241863 U CN 201020241863U CN 201764621 U CN201764621 U CN 201764621U
Authority
CN
China
Prior art keywords
module
air
air conditioner
temperature
microprocessor
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
CN2010202418635U
Other languages
Chinese (zh)
Inventor
朱永强
卢金蓉
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to CN2010202418635U priority Critical patent/CN201764621U/en
Application granted granted Critical
Publication of CN201764621U publication Critical patent/CN201764621U/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Abstract

The utility model relates to an intelligent air conditioner remote controller which comprises a microprocessor module, wherein the microprocessor module is connected with a key input module, a state display module, a remote control transmitting module and a power supply module and also connected with a temperature detection module; the temperature detection module comprises an environment temperature sensor used for detecting indoor temperature and an air inlet temperature sensor used for detecting the temperature of an air inlet of an air conditioner; a mode switching program model used for controlling the working mode of the air conditioner is preset in the microprocessor module; the mode switching program module is used for computing and analyzing the temperature data input from the temperature detection module to respectively obtain working times of a refrigerating mode and an air supplying mode of the air conditioner and the microprocessor module transmits a control signal used for switching the working mode of the air conditioner to an air conditioner switch through the remote control transmitting module. According to the utility model, the optimal compressor starting and stopping time according with the current environment and temperature requirement is found, thus the purpose of saving energy is achieved.

Description

Intelligent air conditioner remote controller
Technical field
The utility model relates to a kind of control device of the apparatus of air conditioning, be specially a kind of can the air-supply time according to the refrigeration of environment, variation of temperature Automatic Optimal air-conditioning equipment under the situation that does not influence the compressor of air conditioner life-span, reduce the temperature fluctuation in the refrigeration space, reach the remote controller of energy-conservation purpose, be particularly suitable for the unattended equipment room of 24 continuous throughout the twenty-four hour24s.
Background technology
Air-conditioning equipment energy-saving controller in the market mostly adopts the fixing mode of power saving rate of being provided with to control the start and stop of compressor, but this mode can not reflect the situation of change of Current Temperatures in real time, so can't satisfy the requirement of human comfort.And along with the development of microprocessor technology, people are also more and more higher to the requirement of air conditioner energy saving device, and requirement can either real-time intelligent be regulated temperature also have fine energy-saving effect.
In the prior art, because general air-conditioner temperature controller is for fear of compressor of air conditioner frequent starting too, therefore can be provided with one when dispatching from the factory in control program protects back stagnant temperature, and common air-conditioning all has the protection about 4~5 ℃ to return stagnant temperature.For example, it is 22 ℃ that the temperature that stagnates is returned in the protection that is provided with in the air-conditioning, generally can just shut down when indoor temperature reaches 24 ℃ during air-conditioning work, and it is too fast to avoid air-conditioning temperature when the work of little space to descend like this, thereby avoids causing the too fast shutdown of compressor.Again owing to air-conditioning shutdown back indoor temperature can rise; when detector detects that temperature rises and when needing to start refrigeration once more; the actual temperature difference is that the detected temperature difference adds the value of protecting back stagnant temperature; can cause the indoor temperature difference very big like this; bring uncomfortable feeling to the people; and will from the higher environment of temperature, lower the temperature behind the compressor start, energy consumption must strengthen.This shows that too big time stagnant protection temperature can cause a large amount of energy wastes.
Some air conditioner energy saving controllers are also arranged at present.Provide a kind of " energy-saving controller of air-conditioner " as application number for 96239783.0 Chinese patent, it is released infrared circuit that electric transducer circuit and amplifier constitute and is connected by the temperature sensing circuit AND circuit that temperature sensor device, amplifier constitute by infrared, and comprises timer circuit, monostable time base circuit, delay circuit, relay circuit etc.But whether sort circuit must and have people's activity to control the air-conditioning start and stop according to indoor temperature, if then can't normally effectively work in unattended place.And for example application number provides a kind of " Simple air conditioner energy-saving controller " for 200720011909.2 Chinese patent, and this controller comprises the contactor of dual technology detector, Switching Power Supply, control circuit board and control fan coil on/off; Control circuit board is provided with delay circuit and air conditioner fresh air unit fan coil on/off circuit, contactor, the Switching Power Supply of dual technology detector, control fan coil on/off all are connected on the delay circuit, and its dual technology detector is microwave-passive infrared dual technology detector.Sort controller remains by detection and has or not the personnel activity to control the Kai Heguan of air-conditioning, and is not suitable for unattended equipment room, does not also consider people's comfortableness problem simultaneously.
The utility model content
At air-conditioner controller of the prior art open at real-time control air conditioner refrigerating, the stopping time, cause temperature difference fluctuation bigger owing to send the time point hysteresis of signal, cause the deficiency of waste of energy, it is a kind of under the temperature environment that the user sets that the purpose of this utility model is to provide, can control opening, stopping of air conditioner refrigerating in real time at the time point of the best, make temperature fluctuation minimum in the space, finally reach energy-conservation and make the intelligent air conditioner remote controller of the more comfortable purpose of human body sensory.
The technical solution of the utility model: intelligent air conditioner remote controller, comprise microprocessor module, on microprocessor module, be connected with keyboard input module, state display module, remote control transmitter module and power module; It is characterized in that, also be connected with temperature detecting module on microprocessor module, described temperature detecting module comprises the environment temperature sensor and the draught temperature sensor that is used to detect the air-conditioner air outlet temperature that are used to detect indoor temperature; In microprocessor module, be preset with the pattern conversion program model that is used to control the air-conditioning work pattern; After described microprocessor module calculates, analyzes the real time temperature data of temperature detecting module input according to pattern conversion program model, draw the working time of air conditioner refrigerating mode of operation, air-supply mode of operation, the control signal that will be used for the switching air conditioner mode of operation by the remote control transmitter module sends to air-conditioning switch again, and air-conditioning is changed between refrigeration work pattern, air-supply mode of operation.
Further, energy-saving remote controller of the present utility model also comprises the communication module that adopts the MAX232 chip; The wherein a pair of coffret of described communication module connects microprocessor module, and another links to each other with host computer to coffret.
Further, energy-saving remote controller of the present utility model also comprises remote control receiver module and parameter memory module, comprise a waveform receiver in the described remote control receiver module, the output of remote control receiver module is connected with the I/O port of microprocessor module, described parameter memory module links to each other with FLASH unit in the microprocessor module, can reduce the peripheral circuit of equipment like this, improve the reliability of equipment; Described remote control receiver module stores the Wave data that receives in the parameter memory module into by microprocessor module.
Operation principle of the present utility model:
The main purpose of the utility model energy-saving remote controller is the cooling time of Automatic Optimal air-conditioning equipment; promptly ensureing that indoor temperature reaches under the prerequisite of setting value; reduce the time of air conditioner refrigerating work as far as possible, turn when shutdown space-time and be changed to the air-supply duty, therefore realize purpose of energy saving.During work; earlier by the real-time testing environment temperature of multiple spot (environment temperature sensor and draught temperature sensor are worked simultaneously); to temperature data input microprocessor module more accurately; and set up calculated with mathematical model by pattern conversion program model and go out more accurately that air conditioner refrigerating opens; stopping time point (need to prove especially; startup described in the utility model and shutdown are meant the starting of air conditioner refrigeration and stop refrigeration and become air-supply); to shut down by the remote control transmitter module then or enabling signal sends to the air-conditioning receiving key; control its duty; so just can improve the minimum operating temperature of air-conditioning; shorten the protection of air-conditioning and returned stagnant temperature; reality is exactly to have reduced indoor temperature fluctuation, reaches energy-conservation purpose.
Through test; protection of the present utility model is returned the temperature that stagnates and can be controlled at about 1 ℃; good more big more room Use Limitation fruit; under the situation of common air-conditioning not being carried out any repacking, just can reach energy-conservation 10~30% effect like this, be particularly suitable for using at the unattended equipment room of work in 24 hours.
With respect to prior art, the utlity model has following advantage:
The utility model utilizes temperature detecting module to detect the temperature of indoor environment temperature and air-conditioner air outlet in real time, the mode of this detection aggregation of data with two positions make the variation of environment temperature is judged more accurate, by the monobus communications protocol with after the data in real time transmission, utilize the pattern conversion program model in the microprocessor module to set up Mathematical Modeling again, thereby can calculate the time that comparatively accurate air conditioner refrigerating and air supply pattern need work respectively, so just can draw best air-conditioning opens, stop time point, promptly can be on the basis that does not influence the compressor of air conditioner life-span, sending air-conditioning at the start-stop time of the best point opens, stop control signal, the fluctuations in indoor temperature scope is reduced, thereby make human body sensory more comfortable, and the time of air conditioner refrigerating work shortened significantly, reached energy-conservation purpose.Owing to also be provided with the state display module on remote controller, the user can also more directly perceived and easily adjust various control parameters.
Owing to all is unattended duty (as communication transfer base station) usually at some main equipment scene, therefore need monitor in real time, and when breaking down, in time report to the police the duty of air-conditioning system, prevent from that equipment Yin Wendu is too high to be burnt out.Therefore the utility model has been set up communication module, when microprocessor module is judged the detected temperature data of temperature detecting module and is exceeded the temperature value scope of setting, to send alarm signal to host computer by communication module, the monitor staff just can judge on the backstage whether air-conditioning equipment breaks down like this, thereby sends someone timely to keep in repair or maintain.
In order to improve the compatibility of remote controller, the utility model has also been set up remote control receiver module and parameter memory module, can receive and remember the control signal waveform that other remote controllers send by the remote control receiver module, store by the FLASH unit in the microprocessor module by parameter memory module again, reach the effect of function study, the function that heats, freezes, blows and shut down of the original remote controller of air-conditioning just can be copied in the remote controller of the present utility model like this.For example, when the utility model remote controller is learning state, the infrared emission end of original air-conditioning remote control is aimed at the receiving terminal of the utility model remote controller, press the function button (as switch, refrigeration etc.) of original remote controller, at this moment the utility model remote controller is learnt after detecting infrared signal automatically, just its waveform signal can be stored after pressing acknowledgement key again, the signal waveform that original like this remote controller sends has just been remembered by remote controller of the present utility model, just can directly call later.The function of this study can solve the air-conditioning equipment of different brands and cause the incompatible problem of remote controller owing to send the signal in band difference, therefore remote controller of the present utility model is all applicable for the air-conditioning equipment of any brand and model, and make original air-conditioning equipment increase the automatic transformation working pattern function of (being equivalent to frequency conversion), for the air-conditioning that purchase has frequency conversion function, result of use of the present utility model can reach or be better than the result of use of convertible frequency air-conditioner, thus the purchase cost of greatly reducing.
Description of drawings
Fig. 1 is the theory structure block diagram of the utility model energy-saving remote controller;
Fig. 2 is the circuit theory diagrams of the utility model temperature detecting module;
Fig. 3 is the circuit theory diagrams of the utility model state display module;
Fig. 4 is the circuit theory diagrams of the utility model remote control transmitter module;
Fig. 5 is the circuit theory diagrams of the utility model remote control receiver module;
Fig. 6 is the circuit theory diagrams of the utility model communication module;
Fig. 7 is the workflow diagram of the utility model remote controller;
Fig. 8 is the workflow diagram of the utility model microprocessor module.
The specific embodiment
The utility model is described in further detail below in conjunction with the drawings and specific embodiments.
As depicted in figs. 1 and 2, a kind of intelligent air conditioner remote controller comprises microprocessor module 1, is connected with keyboard input module 2, state display module 3, remote control transmitter module 4 and power module 9 on microprocessor module 1; Also be connected with temperature detecting module 5 on microprocessor module 1, described temperature detecting module 5 comprises the environment temperature sensor and the draught temperature sensor that is used to detect the air-conditioner air outlet temperature that are used to detect indoor environment temperature; The output of described environment temperature sensor and draught temperature sensor is connected with a DS18B20 chip separately, and the DQ of described two DS18B20 chips end links to each other with I/O port on the microprocessor module 1 respectively.In microprocessor module 1, be preset with the pattern conversion program model that is used to control the air-conditioning work pattern; After described microprocessor module 1 calculates, analyzes the real time temperature data of temperature detecting module 5 inputs according to pattern conversion program model, draw the working time of air conditioner refrigerating mode of operation, air-supply mode of operation, the control signal that will be used for the switching air conditioner mode of operation by remote control transmitter module 4 sends to air-conditioning switch again, and air-conditioning is changed between refrigeration work pattern, air-supply mode of operation.
Referring to Fig. 8, the operation principle of the utility model pattern conversion program model is as follows:
In model, three variablees have been preset earlier: sampling time T, cooling time T (cold), air-supply time T (wind).Wherein, sampling time T represents each blanking time that the indoor temperature data are sampled, and cooling time T (cold) expression air-conditioning is the working time when refrigeration mode at every turn, and air-supply time T (wind) expression air-conditioning is the working time when air supply pattern at every turn; And set T=T (cold)+T (wind), also be set with a sampling increase time t in addition 0The sampling time T (just) of initial setting during with start, t 0And T (just) is fixed value.The purpose of this model is exactly to obtain the value of the T of each stage correspondence, T (cold) and T (wind), and microprocessor module transmits control signal at the time corresponding point then, the mode of operation of switching air conditioner.
During work, at first read in the temperature detection data of acquisition, utilize the pid algorithm that is provided with in the model to calculate time error value ε again, described pid algorithm is PID error account form commonly used.If ε<0 illustrates that then cooling time is long, need to reduce cooling time; Module detection inside is in to increase sampling or reduce the sampling work temporal mode and (indicates with 1 and 0 here then, 1 expression increases the sampling work temporal mode, 0 expression reduces the sampling work temporal mode), if the sign of sampling work time is not 1 then it is changed to 1 and the time-preserving of this sampling; If be masked as 1 then increase a sampling increase time t for sampling time T 0, i.e. T N+1=T n+ t 0, when starting for the first time, n=0, T 1=T (just)+t 0, later on by that analogy, thereby can draw the value of corresponding sampling time T; Then with time error value ε and cooling time T (cold) addition, i.e. T (cold) (n+1)=T (cold) n+ ε, when starting for the first time, T (cold) 1=T (just)+ε; In order to protect compressor to be unlikely to frequent starting, also be provided with a restrictive condition here, if i.e. T (cold) (n+1)>T (guarantor), then T (cold) (n+1)=T (cold) nIf+ε is T (cold) (n+1)≤ T (guarantor), then T (cold) (n+1)=T (cold) n, described T (guarantor) returns the time of stagnating for the protection of compressor, is an intrinsic normal value of air-conditioning inside.After drawing T and T (cold) value, utilize formula T=T (cold)+T (wind), can obtain the value of corresponding T (wind).
When pid algorithm calculates,, need to increase cooling time if ε 〉=0 illustrates that then cooling time is too short; Whether the same sign of judging sampling time T again is 0, if not just it is changed to 0 and time of this sampling constant; If 0 just reduce sampling time T a sampling increase time t 0, i.e. T N+1=T n-t 0, when starting for the first time, n=0, i.e. T 1=T (just)-t 0Then with error value epsilon and cooling time T (cold) addition, i.e. T (cold) (n+1)=T (cold) n+ ε, when starting for the first time, T (cold) 1=T (just)+ε; Same in order to protect compressor to be unlikely to frequent starting, also added a restrictive condition here, if i.e. T (cold) (n+1)>T (guarantor), then T (cold) (n+1)=T (cold) nIf+ε is T (cold) (n+1)≤ T (guarantor), then T (cold) (n+1)=T (cold) n, can also obtain the time T (wind) of blowing equally (n+1)=T-T (cold) (n+1)
During work, microprocessor module will be according to T that draws (cold) and T (wind) value, at time corresponding point (promptly at T (cold), T (wind) when having moved) emissioning controling signal, thus the mode of operation of switching air conditioner.Before transmitting, procedural model will judge that also compressor protection returns stagnant time T (guarantor) time to denying, if be less than, then return and continue to wait for interruption and read in the temperature detection data, up to T (guarantor) time to after judge that again air-conditioning is in refrigeration mode or air supply pattern at this moment, if refrigeration mode is just checked cooling time T (cold) to not,, then continue the testing environment temperature and keep refrigeration if cooling time T (cold) does not arrive; If cooling time then, then transmitting transfers air-conditioning to air supply pattern.Same, when air supply pattern, the time that also will judge air-supply whether then, if then then do not continue detected temperatures and keep air supply pattern; If the air-supply time then, then transmitting transfers air-conditioning to refrigeration mode.When the each translative mode of air-conditioning, pattern conversion program model is the refrigeration/air-supply time of also output correspondence simultaneously, and air-conditioning promptly carries out work according to refrigeration/air-supply time of setting, and repeats with this.
Remote controller of the present utility model when mounted, normally directly hang on the indoor fixed position, temperature detecting module 5 wherein can be divided into 2 parts when mounted, be about to environment temperature sensor and be installed in indoor center, the draught temperature sensor is installed in the air-conditioner air outlet place, and environment temperature sensor and draught temperature sensor are connected with DS18B20 chip in the remote controller by monobus respectively.
Described keyboard input module 2 is provided with model selection button, increment (+) button, decrement (-) button, cursor left (←) button, cursor right (→) button, confirms button and emission button etc.Can revise the various parameters and the pattern of air-conditioning work by keyboard input module 2.
Referring to Fig. 3, described state display module 3 is to be constituted and by 16 I/O port driver on the microprocessor module 1, simplified the peripheral circuit of state display module like this by 8 charactrons, has also improved the reliability of equipment simultaneously.Wherein, corresponding DS3, DS6 window display working condition, DS1, DS4, DS8 window display environment temperature, DS2, DS5, DS7 window show draught temperature (or the corresponding parameter of state).
Referring to Fig. 4, the input of described remote control transmitter module 4 is provided with coding input port and carrier wave input port, and described coding input port and carrier wave input port are connected with I/O port on the microprocessor module 1 respectively.Wherein, the coding input port receives the remote control coding that microprocessor module 1 sends, and the carrier wave input port receives the carrier wave of 38KHz, described remote control coding and carrier wave and rear drive remote control transmitter module 4 firing orders control air-conditioning work.Also can receive the equipment outside to the infrared transmitting tube on the module simultaneously, can not control air-conditioning work in the time of can avoiding remote controller to be blocked like this by jumper wire device.
Power module 9 of the present utility model is by power supply adaptor low-voltage dc power supply to be offered each module.
Referring to Fig. 6, also comprise the communication module 7 that adopts the MAX232 chip in the remote controller of the present utility model; The wherein a pair of coffret of described communication module 7 connects the I/O port of microprocessor module 1, and another directly links to each other with the RS232 serial ports of host computer to coffret, and described every pair of coffret is formed by Rx and Tx interface.Communication module 7 can be used for from the host computer directly download and upgrade program and upload test data, also can report to the police to host computer when air-conditioning equipment breaks down.
Referring to Fig. 1 and Fig. 5, also comprise remote control receiver module 6 and parameter memory module 8 in the remote controller of the present utility model, comprise a waveform receiver in the described remote control receiver module 6, the waveform receiver is used to receive the waveform that other remote controllers send instruction; The output of remote control receiver module 6 is connected with the I/O port of microprocessor module 1, and the FLASH unit in described parameter memory module 8 and the microprocessor module 1 links to each other; Described remote control receiver module 6 stores the waveform that receives in the parameter memory module 8 into by microprocessor module 1.By remote control receiver module 6 and parameter memory module 8, can be used for finishing the learning functionality of the utility model remote controller, promptly receive the firing order waveform of other remote controllers, store by parameter memory module 8 then, just can directly call so later on by remote control receiver module 6.The parameter memory module 8 of the utility model remote controller utilizes the FLASH unit of microprocessor module 1 to store, and can reduce the peripheral circuit of equipment like this.
Referring to Fig. 7, when remote controller of the present utility model brings into operation, at first the system variable in the equipment is established initial value, the interruption of waiting timer then is according to the demonstration of interrupt control state display module 3; Simultaneously carry out other subprograms according to rationally arranging break period, because system adopts the multi-process programming mode, the time of implementation that makes each subprogram like this is all less than break period of timer.Mainly contain following subprogram in the microprocessor module 1 of the present utility model: environment temperature sensor reads the temperature subprogram, the draught temperature sensor reads temperature subprogram, temperature signal control counting subroutine, air-conditioning instruction emission subprogram, historical temperature access subprogram, parameter modification subprogram, parameter access subprogram and communicator program.Its working contents is: when keyboard input module 2 had input, the key value according to input entered different subprograms, and state display module 3 shows corresponding change content simultaneously; After pressing the affirmation button, program enters storage subroutine, will change content and deposit in the FLASH unit; When system enters automatic mode; equipment can be according to the real time temperature of temperature detecting module 5 acquisitions; calculate best available machine time of compressor and unused time by pattern conversion program model; (must consider the guard time of compressor) is then by remote control transmitter module 4 emission control instruction control air-conditioning work.
After using remote controller control air-conditioning of the present utility model, the fluctuation of temperature obviously diminishes in the room, and maximum temperature and minimum temperature all are compressed, and have so just reduced scattering and disappearing of cold air, have reached purpose of energy saving, have improved the comfort level of human body simultaneously.
Need to prove at last, above embodiment is only in order to illustrate the technical solution of the utility model but not the restriction technologies scheme, although the applicant has been described in detail the utility model with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, those are made amendment to the technical solution of the utility model or are equal to replacement, and do not break away from the aim and the scope of the technical program, all should be encompassed in the middle of the claim scope of the present utility model.

Claims (6)

1. intelligent air conditioner remote controller comprises microprocessor module (1), is connected with keyboard input module (2), state display module (3), remote control transmitter module (4) and power module (9) on microprocessor module (1); It is characterized in that, also be connected with temperature detecting module (5) on microprocessor module (1), described temperature detecting module (5) comprises the environment temperature sensor and the draught temperature sensor that is used to detect the air-conditioner air outlet temperature that are used to detect indoor temperature; In microprocessor module (1), be preset with the pattern conversion program model that is used to control the air-conditioning work pattern; After described microprocessor module (1) calculates, analyzes the real time temperature data of temperature detecting module (5) input according to pattern conversion program model, draw the working time of air conditioner refrigerating mode of operation, air-supply mode of operation, the control signal that will be used for the switching air conditioner mode of operation by remote control transmitter module (4) sends to air-conditioning switch again, and air-conditioning is changed between refrigeration work pattern, air-supply mode of operation.
2. intelligent air conditioner remote controller according to claim 1 is characterized in that, also comprises the communication module (7) that adopts the MAX232 chip; The wherein a pair of coffret of described communication module (7) connects microprocessor module (1), and another links to each other with host computer to coffret.
3. intelligent air conditioner remote controller according to claim 1, it is characterized in that, also comprise remote control receiver module (6) and parameter memory module (8), comprise a waveform receiver in the described remote control receiver module (6), the output of remote control receiver module (6) is connected with the I/O port of microprocessor module (1), and the FLASH unit in described parameter memory module (8) and the microprocessor module (1) links to each other; Described remote control receiver module (6) stores the Wave data that receives in the parameter memory module (8) into by microprocessor module (1).
4. intelligent air conditioner remote controller according to claim 1 is characterized in that, described state display module (3) is to be made of 8 charactrons, and described state display module (3) is by 16 I/O port driver on the microprocessor module (1).
5. intelligent air conditioner remote controller according to claim 1, it is characterized in that, the input of described remote control transmitter module (4) is provided with coding input port and carrier wave input port, and described coding input port and carrier wave input port are connected with I/O port on the microprocessor module (1) respectively.
6. intelligent air conditioner remote controller according to claim 1, it is characterized in that, the output of described environment temperature sensor and draught temperature sensor is connected with a DS18B20 chip separately, and the DQ of described two DS18B20 chips end links to each other with I/O port on the microprocessor module (1) respectively.
CN2010202418635U 2010-06-29 2010-06-29 Intelligent air conditioner remote controller Expired - Lifetime CN201764621U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2010202418635U CN201764621U (en) 2010-06-29 2010-06-29 Intelligent air conditioner remote controller

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2010202418635U CN201764621U (en) 2010-06-29 2010-06-29 Intelligent air conditioner remote controller

Publications (1)

Publication Number Publication Date
CN201764621U true CN201764621U (en) 2011-03-16

Family

ID=43717229

Family Applications (1)

Application Number Title Priority Date Filing Date
CN2010202418635U Expired - Lifetime CN201764621U (en) 2010-06-29 2010-06-29 Intelligent air conditioner remote controller

Country Status (1)

Country Link
CN (1) CN201764621U (en)

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101865514A (en) * 2010-06-29 2010-10-20 朱永强 Energy-saving remote controller of air conditioner
CN105135606A (en) * 2015-08-17 2015-12-09 Tcl空调器(中山)有限公司 Method and device for controlling air conditioner
CN106662352A (en) * 2014-09-19 2017-05-10 谷歌公司 Conditioning an indoor environment
WO2017197843A1 (en) * 2016-05-20 2017-11-23 广东百事泰电子商务股份有限公司 Air conditioner control system capable of regulating temperature automatically and intelligently
CN110822628A (en) * 2019-11-12 2020-02-21 福建和盛高科技产业有限公司 Intelligent air conditioner controller and control method thereof
CN113692189A (en) * 2021-08-18 2021-11-23 珠海格力电器股份有限公司 Machine room air conditioner, control method and device thereof, storage medium and processor
CN114264048A (en) * 2021-12-14 2022-04-01 珠海格力电器股份有限公司 Air conditioning unit control method and device and air conditioner

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101865514A (en) * 2010-06-29 2010-10-20 朱永强 Energy-saving remote controller of air conditioner
CN101865514B (en) * 2010-06-29 2012-08-08 朱永强 Energy-saving remote controller of air conditioner
CN106662352A (en) * 2014-09-19 2017-05-10 谷歌公司 Conditioning an indoor environment
CN105135606A (en) * 2015-08-17 2015-12-09 Tcl空调器(中山)有限公司 Method and device for controlling air conditioner
CN105135606B (en) * 2015-08-17 2017-11-03 Tcl空调器(中山)有限公司 The method and apparatus for controlling air-conditioning
WO2017197843A1 (en) * 2016-05-20 2017-11-23 广东百事泰电子商务股份有限公司 Air conditioner control system capable of regulating temperature automatically and intelligently
CN110822628A (en) * 2019-11-12 2020-02-21 福建和盛高科技产业有限公司 Intelligent air conditioner controller and control method thereof
CN110822628B (en) * 2019-11-12 2021-07-06 福建和盛高科技产业有限公司 Intelligent air conditioner controller and control method thereof
CN113692189A (en) * 2021-08-18 2021-11-23 珠海格力电器股份有限公司 Machine room air conditioner, control method and device thereof, storage medium and processor
CN113692189B (en) * 2021-08-18 2022-08-16 珠海格力电器股份有限公司 Machine room air conditioner, control method and device thereof, and storage medium
CN114264048A (en) * 2021-12-14 2022-04-01 珠海格力电器股份有限公司 Air conditioning unit control method and device and air conditioner

Similar Documents

Publication Publication Date Title
CN101865514B (en) Energy-saving remote controller of air conditioner
CN201764621U (en) Intelligent air conditioner remote controller
CN103312827B (en) Based on home cloud control method and the system of mobile network
CN102901186B (en) Control device, method and system for air conditioner
CN204856135U (en) Indoor environment intelligent monitoring system
EP2884194B1 (en) Household electrical appliance and household electrical system
CN101581933A (en) Multi-heat dissipation device intelligent linkage machine room energy-saving control system
CN205081314U (en) Intelligence air conditioner socket and air conditioner device
CN103162373A (en) Controller, control system and control method
CN203857615U (en) On-demand energy-saving controller of air conditioner
CN203274124U (en) Fan coil intelligent controller
CN104729010A (en) Control method, device and system of air conditioner
CN109901407A (en) A kind of energy-efficient smart home system
CN110686393A (en) Monitoring method and system based on air conditioner and computer readable storage medium
CN201589371U (en) Temperature-adjusting device based on physical activity level detection and system thereof
CN101691944B (en) Electricity-saving control method and electricity-saving control device of air conditioner
CN201589373U (en) Electricity-saving control device for air conditioner
CN205299840U (en) Air conditioner intelligence control system
CN105909541A (en) Intelligent wireless remote control fan
CN208124559U (en) A kind of air-conditioner controller
CN103423840A (en) System and method for controlling central air conditioner
CN104216309A (en) Intelligent standby powering on and off device and method
CN206637792U (en) A kind of novel intelligent hotel air conditioning system controller
JP2013024463A (en) Air conditioner
CN102393059A (en) Automatic temperature/humidity regulating control device

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
AV01 Patent right actively abandoned

Granted publication date: 20110316

Effective date of abandoning: 20120808