CN101996476A - Remote control system, control method thereof and remote control lamp using system - Google Patents

Abstract

The invention discloses a remote control system, a remote control lamp using the system and a control method of the remote control system. The remote control system comprises a wireless signal emission module and a reception control module which comprises a central processing unit, a mode selecting unit, a signal reception unit and an output control unit. In the invention, a received wireless signal can be stored, and a wireless signal received the next time is compared with the stored signal; and if the received wireless signal is the same as the stored signal, an instruction is transmitted and a terminal device is turned on. The remote control lamp adopts the remote control system and the control method of the remote control system is used for controlling the remote control system. The invention achieves the purpose of controlling a special terminal device by using any remote controller, thereby having very high practical and commercial values.

Description

A kind of telechirics and control method thereof, and the remote controlled lantern that uses this system

Technical field

The remote controlled lantern and the control method thereof that the present invention relates to a kind of telechirics and use this telechirics, especially relate to a kind of telechirics that can utilize any wireless launcher control apparatus switch, use the remote controlled lantern of this telechirics, and the control method of this telechirics.

Background technology

Raising along with development of science and technology and people's living standard, household electrical appliance are more and more, and very major part is to control by telepilot, existing remote control electrical appliance all is point-to-point control, and each part electrical equipment all is to control by the telepilot of special use, its principle is the telepilot button operation different according to the user, by infrared or wireless sending module, send different coded datas, be located at receiver on the electrical equipment after receiving data, activate corresponding circuit according to different coded datas, carry out such as corresponding actions such as switch or adjustings.Because this remote control mode is point-to-point, different electrical equipment can only be operated by the telepilot of special use, with regard to causing people need remove to control different electrical equipment by a lot of telepilots, has brought the inconvenience of using and taking in virtually like this.

Simultaneously, solve and control a plurality of electrical equipment or electrical equipment with a telepilot and can control and have many technical limitations, all not have a product really to realize this function so far on the market by any telepilot.

Summary of the invention

The objective of the invention is to:

A kind of telechirics is provided, can generally be suitable for the duty that existing home used remote controler is controlled the terminal device that is provided with this telechirics;

A kind of remote controlled lantern that uses above-mentioned telechirics is provided, does not need to use special-purpose telepilot, only need to use the switch that existing home used remote controler just can be controlled lamp;

A kind of telechirics control method is provided, uses above-mentioned telechirics and utilize this method to come the duty of control terminal.

The object of the present invention is achieved like this:

A kind of telechirics, it comprises: wireless signal transmitting module and reception control module, described reception control module comprises:

CPU (central processing unit): this CPU (central processing unit) further comprises: input control end, MCU processor, storer and instruction output end;

Mode selecting unit: be used to select the mode of operation of CPU (central processing unit), have at least mode of learning and mode of operation available;

Signal receiving unit: receive signal, and be sent to the input control end of CPU (central processing unit) from wireless signal transmitting module;

Output control unit: send the duty that control signal is come control terminal according to the instruction of CPU (central processing unit);

When mode selecting unit is set at mode of learning, what described signal receiving unit will receive is sent to CPU (central processing unit) from the signal of the wireless signal transmitting module input control end by CPU (central processing unit), through the MCU processor decodes, store in the storer then;

When mode selecting unit is set at mode of operation, CPU (central processing unit) receives the signal from signal receiving unit, the MCU processor then accesses the data of storing in the storer and compares one by one, if the signal of signal that receives and storage is identical, then the MCU processor sends instruction and the instruction output end by CPU (central processing unit) is sent to output control unit, and output control unit sends the duty that control signal is come control terminal according to the instruction that receives.

Above-mentioned storer is an eeprom chip.

A kind of remote controlled lantern, it comprises: wireless signal transmitting module, reception control module and switch control module;

This reception control module also comprises:

CPU (central processing unit): this CPU (central processing unit) further comprises: input control end, MCU processor, storer and instruction output end;

Mode selecting unit: be used to select the mode of operation of CPU (central processing unit), have at least mode of learning and mode of operation available;

Signal receiving unit: receive signal, and be sent to the input control end of CPU (central processing unit) from wireless signal transmitting module;

Output control unit: send control signal and be transferred to switch control module according to the instruction of CPU (central processing unit), this switch control module is according to the conducting and the disconnection of the load circuit of the control signal control lamp that receives;

When mode selecting unit is set at mode of learning, what described signal receiving unit will receive is sent to CPU (central processing unit) from the signal of the wireless signal transmitting module input control end by CPU (central processing unit), through the MCU processor decodes, store in the storer then;

When mode selecting unit is set at mode of operation, CPU (central processing unit) receives the signal from signal receiving unit, the MCU processor then accesses the data of storing in the storer and compares one by one, if the signal of signal that receives and storage is identical, then the MCU processor sends instruction and the instruction output end by CPU (central processing unit) is sent to output control unit, output control unit sends control signal and is transferred to switch control module according to the instruction that receives, and this switch control module is according to the conducting and the disconnection of the load circuit of the control signal control lamp that receives.

Above-mentioned switch control module is by the conducting and the disconnection of controlling the load circuit of lamp with conducting that end of triode, this output control unit is connected to the base stage of triode, end and the conducting of triode is subjected to the instruction control of this output control unit, and described lamp is located on the load circuit.

Above-mentioned storer is an eeprom chip.

A kind of telechirics control method, this control method have been used above-mentioned a kind of telechirics, and this method comprises the steps:

A, by the button of being located on the mode selecting unit mode selecting unit is made as mode of learning, at this moment, CPU (central processing unit) is in the mode of learning state;

B, any telepilot of use are pressed any button to send a wireless signal, signal receiving unit will receive this moment is sent to CPU (central processing unit) from the wireless signal of the telepilot input control end by CPU (central processing unit), through the MCU processor decodes, store in the storer then;

C, by the button of being located on the mode selecting unit mode selecting unit is made as mode of operation, at this moment, CPU (central processing unit) is in operational mode state;

D, press the same button of step b on the telepilot, this moment, CPU (central processing unit) received the wireless signal from signal receiving unit, the MCU processor then accesses the data of storing in the storer and compares one by one, if the signal of signal that receives and storage is identical, then the MCU processor sends instruction and the instruction output end by CPU (central processing unit) is sent to output control unit, output control unit is according to the conducting and the disconnection of the instruction control terminal device load circuit that receives, thus the opening or closing of control terminal.

Above-mentioned terminal device is a lamp.

The invention has the beneficial effects as follows: realized utilizing existing telepilot just can control the electrical equipment that this telechirics is housed, and need not increase special-purpose telepilot, realized a telepilot multiple use.

Description of drawings

Fig. 1 is the circuit theory diagrams that the present invention receives control module;

Fig. 2 be the present invention with lamp as the switch control module of embodiment and the circuit theory diagrams of load circuit;

Fig. 3 is a workflow diagram of the present invention.

Embodiment

Below in conjunction with accompanying drawing the present invention is done detailed explanation:

Fig. 1 is the circuit theory diagrams that this present invention receives control module, as can be seen from the figure: reception control module of the present invention comprises: signal receiving unit 11, CPU (central processing unit) 12, output control unit 13 and mode selecting unit 14, CPU (central processing unit) 2 further comprises: input control end, MCU processor, storer and instruction output end, mode selecting unit 14 have mode of learning and two kinds of patterns of mode of operation can supply to be provided with.

The signal receiving unit 11 of present embodiment adopts two wireless signal receivers, these two wireless signal receptacles are respectively by passing the signal to the input control end of CPU (central processing unit) 12 behind two groups of RC circuit filterings, wherein the kind of wireless signal receiver is selected according to the kind of wireless signal transmitter, can be electromagnetic wave receiver, infrared signal receiver or Bluetooth signal receiver.

Mode selecting unit 14 is made up of a switch S 1 and a light emitting diode D1, switch S 1 can be cut off or the particular electrical circuit of conducting CPU (central processing unit) 12, to realize the working mode change of CPU (central processing unit) 12, light emitting diode D1 is used to indicate the duty of CPU (central processing unit) 12.

Output control unit 13 mainly is made up of two triode Q3 and Q4, the base stage of triode Q3 and Q4 all is connected to the instruction output end of CPU (central processing unit) 12, the collector of Q4 connects the control signal of one+5V, emitter is connected to collector and the port port of triode Q3, the grounded emitter of triode Q3 by resistance R 6.

Switch control module 15 mainly is made up of two triode Q1 and Q2, wherein the emitter of triode Q1 is connected to the collector of triode Q2, the emitter of the collector of triode Q1 and triode Q2 inserts load circuit, the base stage of triode Q2 is connected to the port port by the control port, like this, the control signal that spreads out of from the port port just can be controlled ending and conducting of triode Q1 and Q2.

When mode selecting unit 14 is set to mode of learning, this moment, CPU (central processing unit) 12 was in the mode of learning state, signal receiving unit 11 receives the wireless signal coding that sends from the wireless signal transmitting module (not shown), and be sent to CPU (central processing unit) 12, the input control end of CPU (central processing unit) 12 receives the signal encoding from signal receiving unit, through storing in the storer the preferred EEPROM of the storer of present embodiment into after the MCU processor decodes.

When mode selecting unit 14 is set to mode of operation, press the same button of wireless signal transmitting module once more, launch a same signal encoding to signal receiving unit 11, and be sent to CPU (central processing unit) 12, the input control end of CPU (central processing unit) 12 receives the signal encoding from signal receiving unit, after the MCU processor decodes, CPU (central processing unit) 12 is compared decoded signal with the signal in the storer, if signal data unanimity, whether then CPU (central processing unit) 12 detects output control unit 13 signal output, if do not have, then CPU (central processing unit) 12 is sent one by instruction output end and is instructed output control unit 13, with the triode conducting in the output control unit 13, produce an output signal to the port port; If detect output control unit 13 signal output is arranged, then close the signal output of output control unit 13, with the disconnecting consumers loop.

Port port output square-wave signal is input to the base stage of the triode in the switch control module 15 through the control port of switch control module 15, thereby make the triode conducting, form load circuit, make lamp work, in like manner, if lamp itself is just in running order then close, so just realized using the switch of normal remote control control lamp.

The method of operating of this telechirics comprises the steps:

A, by the button of being located on the mode selecting unit mode selecting unit is made as mode of learning, at this moment, CPU (central processing unit) is in the mode of learning state;

B, any telepilot of use are pressed any button to send a wireless signal, signal receiving unit will receive this moment is sent to CPU (central processing unit) from the wireless signal of the telepilot input control end by CPU (central processing unit), through the MCU processor decodes, store in the storer then;

C, by the button of being located on the mode selecting unit mode selecting unit is made as mode of operation, at this moment, CPU (central processing unit) is in operational mode state;

D, press the same button of step b on the telepilot, this moment, CPU (central processing unit) received the wireless signal from signal receiving unit, the MCU processor then accesses the data of storing in the storer and compares one by one, if the signal of signal that receives and storage is identical, then the MCU processor sends instruction and the instruction output end by CPU (central processing unit) is sent to output control unit, output control unit is according to the conducting and the disconnection of the instruction control terminal device load circuit that receives, thus the opening or closing of control terminal.

Wherein the workflow of system below elaborates as shown in Figure 3:

At first need mode selecting unit 14 is set, be set at mode of learning earlier, receive the wireless signal that sends from wireless signal transmitting module when signal receiving unit 11, the signal of this moment is a coded signal, CPU (central processing unit) 12 at first will be decoded to signal, then decoded signal data is stored among the EEPROM;

Then mode selecting unit 14 is set at mode of operation, wireless signal transmitting module is sent wireless signal once more, CPU (central processing unit) 12 is decoded again, then the data of storing among decoded signal data and the EEPROM are compared, if the signal data difference, CPU (central processing unit) 12 is not sent any instruction;

If signal data is identical, whether then CPU (central processing unit) 12 detects output control terminal 13 signal output, if do not have, then CPU (central processing unit) 12 sends a pumping signal to output control terminal 13 by instruction output end, make the triode conducting of signal output control terminal 13, the port port is exported a square-wave signal, is input to the base stage of the triode in the switch control module 15 by the control port of switch control module 15, thereby make the load circuit conducting, lamp enters duty; If CPU (central processing unit) 12 detects output control terminal 13 signal output is arranged, illustrate that then load circuit itself just is in conducting state, be that lamp is in running order, at this moment, CPU (central processing unit) 12 is by the transistor base of control output control terminal 13, triode is ended, and then load circuit disconnects, and lamp extinguishes.

So, just finished the whole process of utilizing existing telepilot control lamp switch, if control a plurality of be equipped with this telechirics etc. method too, it is just passable only to need different grades that different remote controller keys is set.

The present invention is unrestricted for the type of wireless signal, no matter is infrared signal, electromagnetic wave signal or Bluetooth signal, only needs to use corresponding signal receiver just passable, for the not influence of work of The whole control system.

Be a kind of embodiment that provides in conjunction with particular content as mentioned above, can not assert that concrete enforcement of the present invention is confined to these explanations.All and structure of the present invention, device etc. are approximate, identical, or conceive for the present invention and to make some technology deduction or replace under the prerequisite, all should be considered as protection scope of the present invention.

Claims (7)

1. telechirics, it comprises: wireless signal transmitting module and receive control module, it is characterized in that: described reception control module comprises:

CPU (central processing unit): this CPU (central processing unit) further comprises: input control end, MCU processor, storer and instruction output end;

Mode selecting unit: be used to select the mode of operation of CPU (central processing unit), have at least mode of learning and mode of operation available;

Signal receiving unit: receive signal, and be sent to the input control end of CPU (central processing unit) from wireless signal transmitting module;

Output control unit: send the duty that control signal is come control terminal according to the instruction of CPU (central processing unit);

When mode selecting unit is set at mode of learning, what described signal receiving unit will receive is sent to CPU (central processing unit) from the signal of the wireless signal transmitting module input control end by CPU (central processing unit), through the MCU processor decodes, store in the storer then;

When mode selecting unit is set at mode of operation, CPU (central processing unit) receives the signal from signal receiving unit, the MCU processor then accesses the data of storing in the storer and compares one by one, if the signal of signal that receives and storage is identical, then the MCU processor sends instruction and the instruction output end by CPU (central processing unit) is sent to output control unit, and output control unit sends the duty that control signal is come control terminal according to the instruction that receives.

2. a kind of telechirics according to claim 1 is characterized in that: described storer is an eeprom chip.

3. remote controlled lantern, it comprises: wireless signal transmitting module, receive control module and switch control module; It is characterized in that:

This reception control module also comprises:

CPU (central processing unit): this CPU (central processing unit) further comprises: input control end, MCU processor, storer and instruction output end;

Mode selecting unit: be used to select the mode of operation of CPU (central processing unit), have at least mode of learning and mode of operation available;

Signal receiving unit: receive signal, and be sent to the input control end of CPU (central processing unit) from wireless signal transmitting module;

Output control unit: send control signal and be transferred to switch control module according to the instruction of CPU (central processing unit), this switch control module is according to the conducting and the disconnection of the load circuit of the control signal control lamp that receives;

When mode selecting unit is set at mode of learning, what described signal receiving unit will receive is sent to CPU (central processing unit) from the signal of the wireless signal transmitting module input control end by CPU (central processing unit), through the MCU processor decodes, store in the storer then;

When mode selecting unit is set at mode of operation, CPU (central processing unit) receives the signal from signal receiving unit, the MCU processor then accesses the data of storing in the storer and compares one by one, if the signal of signal that receives and storage is identical, then the MCU processor sends instruction and the instruction output end by CPU (central processing unit) is sent to output control unit, output control unit sends control signal and is transferred to switch control module according to the instruction that receives, and this switch control module is according to the conducting and the disconnection of the load circuit of the control signal control lamp that receives.

4. a kind of remote controlled lantern according to claim 3, it is characterized in that: described switch control module is by the conducting and the disconnection of controlling the load circuit of lamp with conducting that end of triode, this output control unit is connected to the base stage of triode, end and the conducting of triode is subjected to the instruction control of this output control unit, and described lamp is located on the load circuit.

5. according to claim 3 or 4 each described a kind of remote controlled lanterns, it is characterized in that: described storer is an eeprom chip.

6. telechirics control method, this control method has been used a kind of telechirics as claimed in claim 1, it is characterized in that, and this method comprises the steps:

A, by the button of being located on the mode selecting unit mode selecting unit is made as mode of learning, at this moment, CPU (central processing unit) is in the mode of learning state;

B, any telepilot of use are pressed any button to send a wireless signal, signal receiving unit will receive this moment is sent to CPU (central processing unit) from the wireless signal of the telepilot input control end by CPU (central processing unit), through the MCU processor decodes, store in the storer then;

C, by the button of being located on the mode selecting unit mode selecting unit is made as mode of operation, at this moment, CPU (central processing unit) is in operational mode state;

D, press the same button of step b on the telepilot, this moment, CPU (central processing unit) received the wireless signal from signal receiving unit, the MCU processor then accesses the data of storing in the storer and compares one by one, if the signal of signal that receives and storage is identical, then the MCU processor sends instruction and the instruction output end by CPU (central processing unit) is sent to output control unit, output control unit is according to the conducting and the disconnection of the instruction control terminal device load circuit that receives, thus the opening or closing of control terminal.

7. require 6 described a kind of telechirics control methods as requested, it is characterized in that: described terminal device is a lamp.

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