CN103363624A - Air conditioner controller - Google Patents

Abstract

The invention provides an air conditioner controller. The air conditioner controller comprises a data storage device, a clock deice, an output device and a signal sending device, wherein the data storage device is used for storing running parameters, starting/stopping time and sending periods; the clock device is used for outputting a time signal and outputting a period signal according to the sending period; the output device is used for outputting a starting/stopping instruction according to the starting/stopping time and the time signal, or outputting the running parameter to the sending device according to the period signal; and the signal sending device is used for sending the starting/stopping instruction and/or the running parameters through a wireless way. According to the technical scheme, the output device outputs the starting/stopping instruction to the signal sending device according to the time signal and the period signal output by the clock device, or periodically outputs the running parameters according to the period signal; and the signal sending device sends out the starting/stopping instruction or the running parameters so as to intelligently control the air conditioner without wiring at project site, and the installation and debugging are relatively simple.

Description

A kind of air-conditioner controller

Technical field

The application relates to air-conditioning technical field, more particularly, relates to a kind of air-conditioner controller.

Background technology

Present air-conditioning remote control only has single remote control data function, can't realize the Based Intelligent Control to air-conditioning, and will realize that Based Intelligent Control can only use line control machine, but uses line control machine to connect up at engineering site, and installation and debugging are complicated.

Summary of the invention

In view of this, the application provides a kind of air-conditioning remote control, can carry out Based Intelligent Control to air-conditioning and need not again to connect up at engineering site.

To achieve these goals, the existing scheme that proposes is as follows:

A kind of air-conditioner controller, comprise data storage device, clock apparatus, output device and sender unit, wherein: described storage device is connected with described clock apparatus, described output device respectively, and described output device is connected with described clock apparatus, described sender unit respectively;

Described several storage device is used for the storage running parameter, opens/between the stopping time and the transmission cycle;

Described operational factor comprises temperature, wind speed;

Described clock apparatus is for the output time signal with according to described transmission cycle output periodic signal;

Described output device is used for opening/to stop order and described operational factor according to described opening/between the stopping time and described time signal to described dispensing device output, perhaps exports described operational factor according to described periodic signal to described dispensing device;

Described sender unit is used for sending described opening/stop order and/or described operational factor by wireless mode.

Preferably, described sender unit is the infrared signal dispensing device.

Preferably, described infrared signal dispensing device is to several different directions timesharing and/or send simultaneously described opening/stop order or described operational factor.

Preferably, also comprise the keyboard that is provided with one or more buttons;

Described keyboard is connected with the institute data storage device, is used for receiving described operational factor, described opening/between the stopping time and/or described transmission cycle.

Preferably, also comprise display unit;

Described display unit is connected with described data storage, is used for showing described operational factor, time, date and/or environment temperature.

Preferably, described display unit is liquid crystal display.

Preferably, also comprise temperature sensor;

Described temperature sensor is connected with described liquid crystal display, is used for measuring the environment temperature of described air-conditioner controller environment of living in, and described environment temperature is outputed to described liquid crystal display display unit;

Described liquid crystal display shows described environment temperature.

Preferably, described infrared signal emitter comprises control end, signal input part, the first input resistance, a NPN triode, the second input resistance, PNP triode, the first infrarede emitting diode, the second infrarede emitting diode, the 3rd infrarede emitting diode, the 3rd input resistance, the 4th input resistance and the 2nd NPN triode, wherein:

Described control end is connected with described processor, is used for receiving selecting signal, described selection signal to be used for described the first infraluminescence diode, the second infraluminescence diode and the 3rd infraluminescence diode are carried out selective conducting;

Described signal input part is connected with described processor, is used for receiving the carrier signal that includes described operational factor;

Described control end is connected with an end of described the first input resistance, the other end of described the first input resistance is connected with the base stage of a described NPN triode, the colelctor electrode of a described NPN triode is used for input offset voltage, the emitter stage of a described NPN triode is connected with the positive pole of described the first infrarede emitting diode, the positive pole of described the second infrarede emitting diode respectively, and the negative pole of described the first infrarede emitting diode is connected with the negative pole of described the second infrarede emitting diode;

Described control end is connected with an end of described the second input resistance, the other end of described the second input resistance is connected with the base stage of described PNP triode, the emitter stage of described PNP triode is used for input offset voltage, the colelctor electrode of described PNP triode is connected with the positive pole of described the 3rd infrarede emitting diode, and the negative pole of described the 3rd infrarede emitting diode is connected with the negative pole of described the first infrarede emitting diode;

Described signal input part is connected with an end of described the 3rd input resistance, the other end of described the 3rd input resistance is by described the 4th input resistance ground connection, the other end of described the 3rd input resistance also is connected with the base stage of described the 2nd NPN triode, the colelctor electrode of described the 2nd NPN triode is connected with the negative pole of described the first infrarede emitting diode, the grounded emitter of described the 2nd NPN triode;

The different directions of the optical axis pointing space of described the first infrarede emitting diode, described the second infrarede emitting diode and described the 3rd infrarede emitting diode.

Can find out from above-mentioned technical scheme, the disclosed air-conditioner controller of present embodiment comprises data storage, clock apparatus, output device and sender unit, wherein: output device is according to time signal and the periodic signal of clock apparatus output, by opening of storing in relatively current time and the data storage/open/stop order to sender unit output between the stopping time, perhaps the periodic signal by time device output regularly reads operational factor and outputs to sender unit, sender unit will leave/stop order or operational factor sends to air-conditioner host, realize Based Intelligent Control to air-conditioning with this, and need not to connect up at engineering site, installation and debugging are comparatively simple.

Description of drawings

In order to be illustrated more clearly in the embodiment of the present application or technical scheme of the prior art, the below will do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art, apparently, accompanying drawing in the following describes only is some embodiment of the application, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the structure chart of the disclosed a kind of air-conditioner controller of the embodiment of the present application;

Fig. 2 is the structure chart of the disclosed another kind of air-conditioner controller of the embodiment of the present application;

Fig. 3 is the structure chart of the disclosed a kind of infrared signal dispensing device of the embodiment of the present application.

The specific embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present application, the technical scheme in the embodiment of the present application is clearly and completely described, obviously, described embodiment only is the application's part embodiment, rather than whole embodiment.Based on the embodiment among the application, those of ordinary skills are not making the every other embodiment that obtains under the creative work prerequisite, all belong to the scope of the application's protection.

Embodiment one

Fig. 1 is the structure chart of the disclosed a kind of air-conditioner controller of the embodiment of the present application.

Air-conditioner controller as shown in Figure 1 comprises data storage device 10, clock apparatus 20, output device 30, sender unit 40, keyboard 11, liquid crystal display 12 and temperature sensor 121, wherein: data storage 10 is connected with output device 30, clock apparatus 20, keyboard 11, liquid crystal display 12 respectively, clock apparatus 20 is connected with output device 30, output device 30 is connected with sender unit 40, and temperature sensor 121 is connected with liquid crystal display 12.

Data storage device 10 is used for the storage running parameter, opens/between the stopping time and the data such as transmission cycle.Operational factor comprises temperature and wind speed; Open/be between the stopping time start/downtime of default air-conditioner host, can store a week or a plurality of start/downtimes of the every day of long duration more in that data storage device 10 is interior, realize week programming or the more programming of long duration with this; The transmission cycle is that output device 30 is to the blanking time of sender unit 40 output operational factors.

Data storage 10 can be the general data memory, can also be EEPROM or flash memory, and both benefits are afterwards, during the short time outage, can keep data default in it not lose because change battery when this air-conditioner controller.

Clock apparatus 20 is used for sending time signal and periodic signal.Time signal comprises current date and time, and periodic signal is the default signal of duration output in every interval, and default duration was determined by the transmission cycle in the reading out data storage device 10.

Output device 30 is opening in the reading out data storage device 10/between the stopping time and the time signal of clock apparatus 20 outputs at any time, and both are compared, when open/when consistent with the current time between the stopping time, export to sender unit 40 and to open/to stop order; When clock device 20 whenever sends the one-period signal, the operational factor in the reading out data storage device 10, and operational factor outputed to sender unit 40.

What sender unit 40 was used for receiving output device 30 outputs opens/stops order and/or operational factor, and send to air-conditioner host by infrared mode, a plurality of different directions send the infrared signal dispensing device to the space, to guarantee that air-conditioner host can well receive infrared signal when this air-conditioning remote control is fixedly installed.

Keyboard 11 is used for receiving the user to the setting of operational factor, be provided with one or more button at keyboard 11, can receive the signals such as the opening of user input/between the stopping time or operational factor, and opening of will receiving/between the stopping time, temperature and/or output to data storage device 10.

Liquid crystal display 12 is used for showing the data such as operational factor, current time, current environmental temperature, liquid crystal display 12 also is provided with the backlight regulation apparatus (not shown), be used for the backlight illumination of liquid crystal display is regulated, the user can select brightness according to custom.Liquid crystal display also can replace with LED display unit or charactron.

Temperature sensor 121 is used for the temperature of the residing environment of this air-conditioner controller is measured, and measurement result is outputed to liquid crystal display 12 shows.Because the installation site of air-conditioner controller or placement location generally are in the place that user's tentacle can reach, so carry out temperature survey by air-conditioner controller, its measurement result is more accurate, so that the user can grasp the temperature in the space more accurately, and then according to the temperature in the space to setting operational factor, so that space temperature is more comfortable.

This air-conditioner controller also is provided with the voltage sensor (not shown), voltage for the power supply that air-conditioning is controlled is monitored, and the optional battery of using of power supply is when the voltage of power supply is lower than preset value, report to the police by buzzer or light, in time change battery with reminding user.

Fig. 3 is the structure chart of the disclosed a kind of infrared signal dispensing device of the embodiment of the present application.

Infrared signal dispensing device as shown in Figure 3 comprises control end RC, signal input part RE, the first input resistance R1, a NPN triode K1, the second input resistance R2, PNP triode K2, the first infrarede emitting diode D1, the second infrarede emitting diode D2, the 3rd infrarede emitting diode D3, the 3rd input resistance R3, the 4th input resistance R4 and the 2nd NPN triode K3, wherein:

Control end RC is connected with the processor of air-conditioner controller, be used for receiving the selection signal, select signal to comprise high level and low level, be used for described the first infraluminescence diode, the second infraluminescence diode and the 3rd infraluminescence diode are carried out selective conducting.

Signal input part RE is connected with processor, is used for receiving the carrier signal that includes operational factor.

Control end RC is connected with the end of the first input resistance R1, the other end of the first input resistance R1 is connected with the base stage of a NPN triode K1, the colelctor electrode of the one NPN triode K1 is used for input offset voltage Vcc, the emitter stage of the one NPN triode K1 is connected with the positive pole of the first infrarede emitting diode D1, the positive pole of the second infrarede emitting diode D2 respectively, and the negative pole of the first infrarede emitting diode D1 is connected with the negative pole of the second infrarede emitting diode D2.

Control end RC is connected with the end of the second input resistance R2, the other end of the second input resistance R2 is connected with the base stage of PNP triode K2, the emitter stage of PNP triode K2 is used for input offset voltage Vcc, the colelctor electrode of PNP triode K2 is connected with the positive pole of the 3rd infrarede emitting diode D3, and the negative pole of the 3rd infrarede emitting diode D3 is connected with the negative pole of the first infrarede emitting diode D1.

Signal input part RE is connected with the end of the 3rd input resistance R3, the other end of the 3rd input resistance R3 is by the 4th input resistance R4 ground connection, the other end of the 3rd input resistance R3 also is connected with the base stage of the 2nd NPN triode K3, the colelctor electrode of the 2nd NPN triode K3 is connected with the negative pole of the first infrarede emitting diode D1, the grounded emitter of the 2nd NPN triode K3.

The different directions of the optical axis pointing space of the first infrarede emitting diode D1, the second infrarede emitting diode D2 and the 3rd infrarede emitting diode D3.

When processor is exported high level to control end RC, the one NPN triode conducting K1, the the first infrarede emitting diode D1 that is connected with the emitter stage of a NPN triode K1 and the second infraluminescence two utmost point D2 pipe are in running order, and the carrier signal that includes operational factor of inputting by signal input part RE sends to air-conditioner host by the first infrarede emitting diode D1 and the second infrarede emitting diode D2; When processor during to control end RC output low level, PNP triode K2 is in conducting state, in running order with the 3rd infrarede emitting diode D3 that the colelctor electrode of PNP triode K2 is connected, this moment, the carrier signal that includes operational factor by signal input part RE input sent to air-conditioner host by the 3rd infrarede emitting diode D2.By alternate conduction the one NPN triode K1 or PNP triode K2, make the first infrarede emitting diode D1 and the second infrarede emitting diode D2 and the 3rd infrarede emitting diode D3 alternately send operational factor, can reduce the impact to power supply.

The optical axis of other the first infrarede emitting diode D1, the second infrarede emitting diode D2 and the 3rd infrarede emitting diode D3 is towards different directions, evenly the distributing at the space different directions as far as possible of infrared signal that namely comprises operational factor, reduced directionality, reduced the restriction of installation site and angle, even in the situation as hand-held controller, also need not strictly aim at air-conditioner host, use also more convenient.

Can find out from above-mentioned technical scheme, the disclosed air-conditioner controller of present embodiment comprises data storage, clock apparatus, output device and sender unit, wherein: output device is according to time signal and the periodic signal of clock apparatus output, by opening of storing in relatively current time and the data storage/open/stop order to sender unit output between the stopping time, perhaps the periodic signal by time device output regularly reads operational factor and outputs to sender unit, sender unit will leave/stop order or operational factor sends to air-conditioner host, realize Based Intelligent Control to air-conditioning with this, and need not to connect up at engineering site, installation and debugging are comparatively simple.

Embodiment two

Fig. 2 is the structure chart of the disclosed another kind of air-conditioner controller of the embodiment of the present application.

Air-conditioner controller bag as shown in Figure 2 is integrated into a detachable unit 50 with keyboard 11 and the liquid crystal display 12 of the air-conditioner controller among the embodiment one, and detachable unit 50 is connected with temperature sensor with data storage device by inserting mode.

When being used for the central air-conditioning on the ground such as control dining room, meeting-place when the air-conditioner controller in the present embodiment, because the mobility of people in these places is larger, may go optionally to change the setting of air-conditioner controller.For fear of there being the people arbitrarily to change setting, can after by keyboard air-conditioner controller being set operational factor, detachable unit be pulled out, when needs reset operational factor to air-conditioner controller, only need detachable unit 50 reinstalled and get final product.

At last, also need to prove, in this article, relational terms such as the first and second grades only is used for an entity or operation are made a distinction with another entity or operation, and not necessarily requires or hint and have the relation of any this reality or sequentially between these entities or the operation.And, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thereby not only comprise those key elements so that comprise process, method, article or the equipment of a series of key elements, but also comprise other key elements of clearly not listing, or also be included as the intrinsic key element of this process, method, article or equipment.Do not having in the situation of more restrictions, the key element that is limited by statement " comprising ... ", and be not precluded within process, method, article or the equipment that comprises described key element and also have other identical element.

Each embodiment adopts the mode of going forward one by one to describe in this specification, and what each embodiment stressed is and the difference of other embodiment that identical similar part is mutually referring to getting final product between each embodiment.

To the above-mentioned explanation of the disclosed embodiments, make this area professional and technical personnel can realize or use the application.Multiple modification to these embodiment will be apparent concerning those skilled in the art, and General Principle as defined herein can in the situation of the spirit or scope that do not break away from the application, realize in other embodiments.Therefore, the application will can not be restricted to these embodiment shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (8)

1. air-conditioner controller, it is characterized in that, comprise data storage device, clock apparatus, output device and sender unit, wherein: described storage device is connected with described clock apparatus, described output device respectively, and described output device is connected with described clock apparatus, described sender unit respectively;

Described several storage device is used for the storage running parameter, opens/between the stopping time and the transmission cycle;

Described operational factor comprises temperature, wind speed;

Described clock apparatus is for the output time signal with according to described transmission cycle output periodic signal;

Described output device is used for opening/to stop order and described operational factor according to described opening/between the stopping time and described time signal to described dispensing device output, perhaps exports described operational factor according to described periodic signal to described dispensing device;

Described sender unit is used for sending described opening/stop order and/or described operational factor by wireless mode.

2. air-conditioner controller as claimed in claim 1 is characterized in that, described sender unit is the infrared signal dispensing device.

3. air-conditioner controller as claimed in claim 2 is characterized in that, described infrared signal dispensing device is to several different directions timesharing and/or send simultaneously described opening/stop order or described operational factor.

4. air-conditioner controller as claimed in claim 2 or claim 3 is characterized in that, also comprises the keyboard that is provided with one or more buttons;

Described keyboard is connected with the institute data storage device, is used for receiving described operational factor, described opening/between the stopping time and/or described transmission cycle.

5. air-conditioner controller as claimed in claim 4 is characterized in that, also comprises display unit;

Described display unit is connected with described data storage, is used for showing described operational factor, time, date and/or environment temperature.

6. air-conditioner controller as claimed in claim 5 is characterized in that, described display unit is liquid crystal display.

7. air-conditioner controller as claimed in claim 6 is characterized in that, also comprises temperature sensor;

Described temperature sensor is connected with described liquid crystal display, is used for measuring the environment temperature of described air-conditioner controller environment of living in, and described environment temperature is outputed to described liquid crystal display display unit;

Described liquid crystal display shows described environment temperature.

8. such as claim 2,3,5,6 or 7 described air-conditioner controllers, it is characterized in that, described infrared signal emitter comprises control end, signal input part, the first input resistance, a NPN triode, the second input resistance, PNP triode, the first infrarede emitting diode, the second infrarede emitting diode, the 3rd infrarede emitting diode, the 3rd input resistance, the 4th input resistance and the 2nd NPN triode, wherein:

Described control end is connected with described processor, is used for receiving selecting signal, described selection signal to be used for described the first infraluminescence diode, the second infraluminescence diode and the 3rd infraluminescence diode are carried out selective conducting;

Described signal input part is connected with described processor, is used for receiving the carrier signal that includes described operational factor;

Described control end is connected with an end of described the first input resistance, the other end of described the first input resistance is connected with the base stage of a described NPN triode, the colelctor electrode of a described NPN triode is used for input offset voltage, the emitter stage of a described NPN triode is connected with the positive pole of described the first infrarede emitting diode, the positive pole of described the second infrarede emitting diode respectively, and the negative pole of described the first infrarede emitting diode is connected with the negative pole of described the second infrarede emitting diode;

Described control end is connected with an end of described the second input resistance, the other end of described the second input resistance is connected with the base stage of described PNP triode, the emitter stage of described PNP triode is used for input offset voltage, the colelctor electrode of described PNP triode is connected with the positive pole of described the 3rd infrarede emitting diode, and the negative pole of described the 3rd infrarede emitting diode is connected with the negative pole of described the first infrarede emitting diode;

Described signal input part is connected with an end of described the 3rd input resistance, the other end of described the 3rd input resistance is by described the 4th input resistance ground connection, the other end of described the 3rd input resistance also is connected with the base stage of described the 2nd NPN triode, the colelctor electrode of described the 2nd NPN triode is connected with the negative pole of described the first infrarede emitting diode, the grounded emitter of described the 2nd NPN triode;

The different directions of the optical axis pointing space of described the first infrarede emitting diode, described the second infrarede emitting diode and described the 3rd infrarede emitting diode.

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