CN105336151A - Infrared remote control device, infrared remote control signal learning method and infrared remote control method - Google Patents

Abstract

The invention discloses an infrared remote control device, an infrared remote control signal learning method and an infrared remote control method. The infrared control commands of external equipment are grouped according to the external equipment, each external equipment control command group contains various control commands aiming the corresponding external equipment. The device realizes the centralized management control of different types of infrared remote control equipment; the control terminals of the different types of infrared remote control equipment are set in a same equipment terminal to achieve unified scheduling, unified deployment and unified management and to avoid the inconvenience of control of a large number of infrared remote control equipment by using respective remote control. The invention can be widely used in scene, such as courtroom, which requires centralized control of a large number of remote control.

Description

Infrared remote-control device, infrared remote-controlled signal learning method and infrared remote control method

Technical field

The present invention relates to equipment remote-control technical field, particularly a kind of infrared remote-control device, infrared remote-controlled signal learning method and infrared remote control method.

Background technology

Adopt the various kinds of equipment of design of infrared remote control, such as the equipment such as TV, air-conditioning, light, automatically curtain, is widely used in all trades and professions.Adopt the various kinds of equipment of design of infrared remote control, be all utilize that Infrared remote controller is long-range to be controlled corresponding equipment, to realize corresponding functions of the equipments, the control for equipment brings great convenience.

In the occasion of concentrated use multiclass infrared remote control equipment, function of infrared remote control, for the control of these equipment, is more the reduction of manually operated workload, and controllers need not go to the manipulation that every platform equipment place carries out by platform equipment.

But in the occasion of concentrated use multiclass infrared remote control equipment, the infrared control for multiple equipment also has some problems.Because every platform equipment all needs an Infrared remote controller matched, therefore multiple telepilot controls each equipment respectively, when number of devices is more, the quantity of telepilot must be caused more, when a large amount of telepilot is placed in controllers hand, must cause telepilot management and the inconvenience to equipment control.

Summary of the invention

In view of this, the invention provides a kind of infrared remote-control device can be controlled by an infrared remote-control device by multiple infrared remote control equipment, and then reduce the difficulty of a large amount of infrared remote control equipment being carried out to infrared control.

The technical scheme of the application is achieved in that

A kind of infrared remote-control device, comprising:

At least 1 infrared output module, for mating the external unit of at least 1 infrared remote control, to send infrared remote control signal to mated external unit;

Infrared coding module, for the binary data coding received from administration module is become infrared remote control signal, and sends to the infrared output module corresponding with the control command group belonging to described binary data;

Infrared receiving module, for receiving the infrared remote control signal that described external unit uses a teleswitch;

MCU decoder module, the infrared remote control signal for being received by infrared receiving module is decoded into binary data and sends to administration module;

Memory module, for storing at least 1 peripheral equipment control command group;

GUI interactive module, for receiving from administration module and showing study and remote control option, external unit option and steering order option, and sends to administration module by study and remote control selection instruction, external unit selection instruction and steering order;

Administration module, for setting up at least 1 peripheral equipment control command group and being stored in described memory module, wherein each peripheral equipment control command group correspondence at least 1 external unit; Described administration module, also for study and remote control option, external unit option and steering order option are sent to described GUI interactive module, and according to the study received from GUI interactive module and remote control selection instruction, determine enter the learning process of steering order or enter the remote control process of external unit; In the learning process of described steering order, according to the external unit selection instruction received from GUI interactive module, determine the peripheral equipment control command group corresponding to infrared remote-controlled signal that will learn, afterwards, the binary data received from MCU decoder module and the steering order received from described GUI interactive module are carried out binding and be stored in determined peripheral equipment control command group; In the remote control process of described external unit, according to the external unit selection instruction received from GUI interactive module, determine peripheral equipment control command group, afterwards, according to the steering order received from GUI interactive module, from described peripheral equipment control command group, select the binary data bound mutually with this steering order, and described binary data is sent to described infrared coding module.

Further, described infrared remote-control device also comprises mixed-media network modules mixed-media;

Described mixed-media network modules mixed-media, for receiving study and remote control option, external unit option and steering order option from administration module and being sent to remote management apparatus by internet and showing, and the study received from described remote management apparatus and remote control selection instruction, external unit selection instruction and steering order are sent to described administration module;

Described administration module, also for study and remote control option, external unit option and steering order option are sent to described mixed-media network modules mixed-media, and according to the study received from described mixed-media network modules mixed-media and remote control selection instruction, determine enter the learning process of steering order or enter the remote control process of external unit; In the learning process of described steering order, according to the external unit selection instruction received from described mixed-media network modules mixed-media, determine the peripheral equipment control command group corresponding to infrared remote-controlled signal that will learn, afterwards, the binary data received from MCU decoder module and the steering order received from described mixed-media network modules mixed-media are carried out binding and be stored in determined peripheral equipment control command group; In the remote control process of described external unit, according to the external unit selection instruction received from described mixed-media network modules mixed-media, determine peripheral equipment control command group, afterwards, according to the steering order received from described mixed-media network modules mixed-media, from described peripheral equipment control command group, select the binary data bound mutually with this steering order, and described binary data is sent to described infrared coding module.

Further, described remote management apparatus is computing machine.

Further, described external unit comprises: TV, air-conditioning, curtain, power amplifier, DVD player, light fixture.

A kind of infrared remote-controlled signal learning method, for the infrared remote-control device as above described in any one, it comprises:

Set up at least 1 peripheral equipment control command group, wherein each peripheral equipment control command group correspondence at least 1 external unit;

According to external unit selection instruction, determine the peripheral equipment control command group corresponding to infrared remote-controlled signal that will learn;

Receive described infrared remote control signal and be decoded into binary data;

Described binary data and steering order are carried out binding and is stored in determined peripheral equipment control command group.

A kind of infrared remote control method, for the infrared remote-control device as above described in any one, it comprises:

Set up at least 1 peripheral equipment control command group, wherein each peripheral equipment control command group correspondence at least 1 external unit;

According to external unit selection instruction, determine peripheral equipment control command group;

According to steering order, from described peripheral equipment control command group, select the binary data bound mutually with this steering order;

Described binary data coding is become infrared remote control signal and sends to external unit.

Further, the binary data that the infrared remote-controlled signal preserving the external unit corresponding with it in described peripheral equipment control command group is decoded into.

Further, the infrared remote-controlled signal of external unit is decoded into binary data and is stored in the peripheral equipment control command group corresponding with it, after being included in foundation at least 1 peripheral equipment control command group:

According to external unit selection instruction, determine the peripheral equipment control command group corresponding to infrared remote-controlled signal that will learn;

Receive described infrared remote control signal and be decoded into binary data;

Described binary data and steering order are carried out binding and is stored in determined peripheral equipment control command group.

As can be seen from such scheme, infrared remote-control device of the present invention, infrared remote-controlled signal learning method and infrared remote control method, by selecting the outer output module of Different Red, achieve and the centralized control of dissimilar equipment is operated, the control terminal of dissimilar remote control equipment is integrated in same equipment end, achieve United Dispatching, unified plan and unified management, avoid and use respective telepilot to control brought inconvenience respectively to a large amount of infrared remote control equipment.The present invention can be widely used in as court's trial scene etc. needs to carry out central controlled scene to a large amount of remote control equipment.

Accompanying drawing explanation

Fig. 1 is infrared remote-control device example structure schematic diagram of the present invention;

Fig. 2 is another example structure schematic diagram of infrared remote-control device of the present invention;

Fig. 3 is infrared remote-controlled signal learning method embodiment process flow diagram in the present invention;

Fig. 4 is infrared remote control method embodiment process flow diagram in the present invention;

Fig. 5 is the court's trial host computer system structural representation after the present invention is applied to court's trial main frame;

Fig. 6 is the learning manipulation process embodiments process flow diagram of infrared remote-controlled signal;

Fig. 7 is the centralized straighforward operation implementation procedure embodiment process flow diagram of infrared remote-controlled signal.

Embodiment

In order to make object of the present invention, technical scheme and advantage clearly understand, to develop simultaneously embodiment referring to accompanying drawing, the present invention is described in further detail.

As shown in Figure 1, an embodiment of infrared remote-control device of the present invention comprises at least 1 infrared output module 1, infrared coding module 2, infrared receiving module 3, MCU (MicroControlUnit, micro-control unit) decoder module 4, memory module 5, GUI (GraphicalUserInterface, graphic user interface) interactive module 6 and administration module 7.

Wherein, described at least 1 infrared output module 1, for mating the external unit 10 of at least 1 infrared remote control, to send infrared remote control signal to mated external unit 10; Described infrared coding module 2, for the binary data coding received from administration module 7 is become infrared remote control signal, and sends to the infrared output module 1 corresponding with the control command group belonging to described binary data; Described infrared receiving module 3, for receive described external unit 10 use a teleswitch 101 infrared remote control signal; Described MCU decoder module 4, the infrared remote control signal for being received by infrared receiving module 3 is decoded into binary data and sends to administration module 7; Described memory module 5, for storing at least 1 peripheral equipment control command group; Described GUI interactive module 6, for receiving from administration module 7 and showing study and remote control option, external unit option and steering order option, and sends to administration module 7 by study and remote control selection instruction, external unit selection instruction and steering order.

Described administration module 7, for setting up at least 1 peripheral equipment control command group and being stored in described memory module 5, wherein each peripheral equipment control command group correspondence at least 1 external unit 10, such as, when external unit 10 is a DVD, one of them peripheral equipment control command group is to should a DVD, and when external unit 10 is multiple light fixture, one of them peripheral equipment control command group can corresponding multiple light fixture etc.; Described administration module 7, also for study and remote control option, external unit option and steering order option are sent to described GUI interactive module 6, and according to the study received from GUI interactive module 6 and remote control selection instruction, determine enter the learning process of steering order or enter the remote control process of external unit; In the learning process of described steering order, according to the external unit selection instruction received from GUI interactive module 6, determine the peripheral equipment control command group corresponding to infrared remote-controlled signal that will learn, afterwards, the binary data received from MCU decoder module 4 and the steering order received from described GUI interactive module 6 are carried out binding and be stored in determined peripheral equipment control command group; In the remote control process of described external unit 10, according to the external unit selection instruction received from GUI interactive module 6, determine peripheral equipment control command group, afterwards, according to the steering order received from GUI interactive module 6, from described peripheral equipment control command group, select the binary data bound mutually with this steering order, and described binary data is sent to described infrared coding module 2.

As another embodiment, as shown in Figure 2, infrared remote-control device of the present invention also comprises mixed-media network modules mixed-media 8 further.

Described mixed-media network modules mixed-media 8, for receiving study and remote control option, external unit option and steering order option from administration module 7 and being sent to remote management apparatus 9 by internet and showing, and the study received from described remote management apparatus 9 and remote control selection instruction, external unit selection instruction and steering order are sent to described administration module 7.

Accordingly, described administration module 7, also for study and remote control option, external unit option and steering order option are sent to described mixed-media network modules mixed-media 8, and according to the study received from described mixed-media network modules mixed-media 8 and remote control selection instruction, determine enter the learning process of steering order or enter the remote control process of external unit; In the learning process of described steering order, according to the external unit selection instruction received from described mixed-media network modules mixed-media 8, determine the peripheral equipment control command group corresponding to infrared remote-controlled signal that will learn, afterwards, the binary data received from MCU decoder module 4 and the steering order received from described mixed-media network modules mixed-media 8 are carried out binding and be stored in determined peripheral equipment control command group; In the remote control process of described external unit 10, according to the external unit selection instruction received from described mixed-media network modules mixed-media 8, determine peripheral equipment control command group, afterwards, according to the steering order received from described mixed-media network modules mixed-media 8, from described peripheral equipment control command group, select the binary data bound mutually with this steering order, and described binary data is sent to described infrared coding module 2.Preferably, remote management apparatus 9 is computing machine.

The embodiment of the present invention can be used for the equipment of multiple infrared control, includes but not limited to TV, air-conditioning, curtain, power amplifier, DVD player (as CD, DVD), light fixture etc.

Based on above-mentioned infrared remote-control device embodiment, invention also provides a kind of infrared remote-controlled signal learning method and infrared remote control method.

Wherein, as shown in Figure 3, described infrared remote-controlled signal learning method embodiment comprises:

Step a1, foundation at least 1 peripheral equipment control command group, wherein each peripheral equipment control command group correspondence at least 1 external unit;

Step a2, according to external unit selection instruction, determine the peripheral equipment control command group corresponding to infrared remote-controlled signal that will learn;

Step a3, receive described infrared remote control signal and be decoded into binary data;

Step a4, described binary data and steering order carried out binding and is stored in determined peripheral equipment control command group.

As shown in Figure 4, described infrared remote control method embodiment comprises:

Step b1, foundation at least 1 peripheral equipment control command group, wherein each peripheral equipment control command group correspondence at least 1 external unit;

Step b2, according to external unit selection instruction, determine peripheral equipment control command group;

Step b3, according to steering order, to select from described peripheral equipment control command group and the binary data bound mutually of this steering order;

Step b4, described binary data coding become infrared remote control signal and sends to external unit.

Wherein, the binary data that the infrared remote-controlled signal preserving the external unit corresponding with it in described peripheral equipment control command group is decoded into.

In described infrared remote control method embodiment, the infrared remote-controlled signal of external unit is decoded into binary data and is stored in the peripheral equipment control command group corresponding with it, realize by aforesaid infrared remote-controlled signal learning method, such as, after being included in foundation at least 1 peripheral equipment control command group:

Step a2, according to external unit selection instruction, determine the peripheral equipment control command group corresponding to infrared remote-controlled signal that will learn;

Step a3, receive described infrared remote control signal and be decoded into binary data;

Step a4, described binary data and steering order carried out binding and is stored in determined peripheral equipment control command group.

In infrared remote-control device embodiment of the present invention, administration module 7 and administration module 7 can be integrated in an ARM control system with the port of other various piece, ARM control system is connected to other outside each module by each interface, such as infrared output module 1, infrared receiving module 3, MCU decoder module 4, memory module 5, GUI interactive module 6, mixed-media network modules mixed-media 8 connects ARM control system by the corresponding interface, also can adopt the mixed-media network modules mixed-media (such as network interface card) etc. in ARM control system.

Infrared remote-control device provided by the present invention, infrared remote-controlled signal learning method and infrared remote control method can be applicable to carry out central controlled occasion to a large amount of infrared remote control equipment, such as, can be used among the court's trial main frame in court.

Growing along with science and technology, court have employed a large amount of high-tech court's trial means, be equipped with high-tech electronic equipment, such as automatic curtain, airconditioning control, power amplifier adjustment, lamp effect etc., but these numerous electronic equipments substantially all need telepilot to control, need to hold corresponding telepilot when opening a court session to prepare and regulate successively.At present, telepilot style is on the market numerous, and coded system has multiple especially, and telepilot learning functionality is more single, only can support the control to single class of electronic devices, the hierarchy of control huge when cannot meet court's trial.

And infrared remote-control device of the present invention, infrared remote-controlled signal learning method and infrared remote control method, provide centralized study and the operation of Infrared remote controller, a kind of centralized control means are provided to a large amount of electronic equipments.

The court's trial main frame adopted among court is a main process equipment trying case process for court of record, the whole process of court's trial can be recorded, comprise the VGA/HDMI signal such as access defendant computer, plaintiff's computer, card platform, clerk's computer, DVD, the access all monitoring cameras of court (HDSDI camera or POE camera etc.), access and long-rangely bring a prisoner before the court IPC, access multichannel Phantom Power microphone, stereo, realize picture-in-picture function simultaneously, and sound mixing function, provide multipath VGA/HDMI to export.Infrared remote-control device of the present invention is attached in court's trial main frame, and then realize infrared remote-controlled signal learning method of the present invention and infrared remote control method by expansion corresponding software, the control ability of court's trial main frame can be strengthened further, court's trial scene is managed more efficiently.Embodiment as shown in Figure 5, after the present invention, court's trial main frame can realize the control of microphone, power amplifier, DVD, recording, light, multimedia, air-conditioning, curtain.

Further the learning manipulation implementation procedure of infrared remote-controlled signal adopting the present invention to carry out and centralized infrared remote-control operation implementation procedure are described below in conjunction with reality.

The core of the embodiment of the present invention sets up respective control command group respectively for each external unit, and then the grouping realized infrared command, often organize infrared control order respectively for different external units, wherein comprise the various control commands to external unit, and then realization is to the centralized management of multiple external unit and control.

In actual use, after infrared remote-control device creates, in infrared remote-control device, multiple peripheral equipment control command group is set up for each external unit, wherein each peripheral equipment control command group correspondence at least 1 external unit.This process can have been come by administration module, and peripheral equipment control command group is stored in memory module.Realize the function of administration module according to programmable systems such as ARM control system, then this process is by writing corresponding program and/or creation database has come.

1, the learning manipulation process embodiments of infrared remote-controlled signal, as shown in Figure 6, comprises following process.

Study and remote control option are sent to GUI interactive module by step c1, administration module, and study and remote control option show by GUI interactive module, select, enter step c2 afterwards for operator.

GUI interactive module display study and remote control option, object selects study for operator or selects remote control, and then as required to enter learning state or remote state.When operator have selected study option by touching, then enter learning process.

After step c2, operator select study option, selection learn command is sent to administration module by GUI interactive module, enters step c3 afterwards.

External unit option sends to GUI interactive module to show, selects, enter step c4 afterwards for operator after receiving the selection learn command that GUI interactive module sends by step c3, administration module.

As a specific embodiment, have 8 external units, be respectively microphone, power amplifier, DVD, recording, light, multimedia, air-conditioning, curtain, 8 infrared output modules (can expand according to actual) are provided for 8 external units, engage in the dialogue the control of cylinder, power amplifier, DVD, recording, light, multimedia, air-conditioning, curtain respectively, each infrared output module comprises 32 can study control button (steering order option can be named).8 provided external unit options are provided in the window shown by GUI interactive module, respectively for 8 infrared output modules, any external unit wherein can be selected to carry out the study of its steering order by GUI interactive module.

After step c4, GUI interactive module receive the external unit selected by operator, the external unit selection instruction of correspondence is sent to administration module, enters step c5 afterwards.

Such as, the DVD selection instruction of correspondence is sent to administration module after receiving the DVD of operator's selection by GUI interactive module, after and for example GUI interactive module receives the light of operator's selection, the light selection instruction of correspondence is sent to administration module.

After step c5, administration module receive external unit selection instruction, from memory module, the peripheral equipment control command group corresponding with external unit selection instruction is read according to the external unit selection instruction received, and by the steering order option in peripheral equipment control command group, GUI interactive module is sent to show, select for operator, enter step c6 afterwards.

Such as, after administration module receives DVD selection instruction, from memory module, the DVD control command group corresponding with DVD selection instruction is read according to the DVD selection instruction received, and by the steering order option in DVD control command group, send to GUI interactive module to show, select for operator.

After step c6, GUI interactive module receive the steering order selected by operator, send it to administration module, enter step c7 afterwards.

Such as, for the study of the play instruction of DVD, this steering order is sent to administration module after receiving a certain steering order selected by operator by GUI interactive module.

After step c7, administration module receive the steering order selected by operator that GUI interactive module sends, administration module sends to GUI interactive module the prompting that prompting operator presses Infrared remote controller order button, shown by GUI interactive module, enter step c8 afterwards.

Such as, for the study of the play instruction of DVD, after GUI interactive module receives a certain steering order selected by operator, this steering order is sent to administration module, and then administration module sends to GUI interactive module the prompting that prompting operator presses the Infrared remote controller order button of DVD, is shown by GUI interactive module.

Step c8, operator, according to prompting, press a certain instruction of Infrared remote controller, and then Infrared remote controller send the infrared remote control signal of this instruction, and infrared receiving module receives this infrared remote control signal and sends to MCU decoder module, enters step c9 afterwards.

Such as, for the study of the play instruction of DVD, operator is according to prompting, press the play instruction of DVD Infrared remote controller, DVD Infrared remote controller sends the infrared remote control signal of this play instruction and received by infrared receiving module, afterwards, this infrared remote control signal is sent to MCU decoder module by infrared receiving module.

The infrared remote control signal received from infrared receiving module is decoded into binary data and sends to administration module by step c9, MCU decoder module, enters step c10 afterwards.

Such as, for the study of the play instruction of DVD, the infrared remote control signal received from infrared receiving module (play instruction corresponding to DVD Infrared remote controller sends) is decoded into binary data (play instruction corresponding to DVD Infrared remote controller sends) and sends to administration module by MCU decoder module.

Steering order selected by the binary data received from MCU decoder module and operator is bound by step c10, administration module, enters step c11 afterwards.

Such as, for the study of the play instruction of DVD, the binary data received from MCU decoder module (play instruction corresponding to DVD Infrared remote controller sends) and the steering order selected by operator are bound by administration module.

Selected steering order is carried out rename by GUI interactive module prompting operator by step c11, administration module, enters step c12 afterwards.

Such as, for the study of the play instruction of DVD, selected steering order is carried out rename by GUI interactive module prompting operator by administration module.Because selected steering order is corresponded to the play instruction that DVD Infrared remote controller sends by operator, therefore, operator can by selected steering order RNTO " broadcasting ".

Step c12, operator are by GUI interactive module input rename, and rename is sent to administration module, enters step c13 afterwards after receiving the rename of operator's input by GUI interactive module.

Such as, for the study of the play instruction of DVD, operator is by GUI interactive module input rename " broadcasting ", and rename " broadcasting " is sent to administration module after receiving the rename " broadcasting " of operator's input by GUI interactive module.

Rename is given the steering order selected by operator, is entered step c14 afterwards after receiving rename from GUI interactive module by step c13, administration module.

Such as, for the study of the play instruction of DVD, after administration module receives rename " broadcasting " from GUI interactive module, the steering order selected by operator is given by rename " broadcasting ", like this, operator just can be corresponding with " broadcasting " steering order in infrared remote-control device at the play instruction that DVD Infrared remote controller sends, and then send play instruction by infrared remote-control device to DVD after being convenient to.

Step c14, administration module by the steering order after rename and with the binary data storage of its binding in the peripheral equipment control command group corresponding with described external unit selection instruction.

Such as, for the study of the play instruction of DVD, have selected DVD control command group before, in this step, administration module is by the steering order after rename, i.e. " broadcasting " steering order and the binary data with its binding, is stored in DVD control command group.

Through the process of above step c1 to step c14, just complete the study of an infrared remote-controlled signal.

In practice, determining step can be set, and then when going wrong in the process of step c8 to step c14 and cause learning failed, operator learns failure, to re-start the study of infrared remote-controlled signal by the prompting of GUI interactive module.

2, the centralized infrared remote-control operation implementation procedure embodiment of infrared remote-controlled signal, as shown in Figure 7, comprises following process.Wherein, the prerequisite that the centralized infrared remote-control operation of infrared remote-controlled signal realizes is, want the signal data (binary data) having saved corresponding operating in the peripheral equipment control command group corresponding to the external unit of remote control, these data are obtained by the learning manipulation process of aforesaid infrared remote-controlled signal.

Study and remote control option are sent to GUI interactive module by steps d 1, administration module, and study and remote control option show by GUI interactive module, select for operator, enter steps d 2 afterwards.

After steps d 2, operator select remote control option, selection telecommand is sent to administration module by GUI interactive module, enters step c3 afterwards.

External unit option sends to GUI interactive module to show, selects for operator, enter steps d 4 afterwards after receiving the selection telecommand that GUI interactive module sends by steps d 3, administration module.

After steps d 4, GUI interactive module receive the external unit selected by operator, the external unit selection instruction of correspondence is sent to administration module, enters steps d 5 afterwards.

To carry out infrared remote-control operation to the broadcasting of DVD, in this step, DVD selection instruction, after GUI interactive module selects DVD, GUI interactive module to receive the DVD selected by operator, is sent to administration module by operator.

After steps d 5, administration module receive external unit selection instruction, from memory module, the peripheral equipment control command group corresponding with external unit selection instruction is read according to the external unit selection instruction received, and by the steering order option in peripheral equipment control command group, GUI interactive module is sent to show, select for operator, enter steps d 6 afterwards.

To carry out infrared remote-control operation to the broadcasting of DVD, after administration module receives DVD selection instruction, from memory module, the DVD control command group corresponding with DVD selection instruction is read according to the DVD selection instruction received, and by the steering order option (such as play, suspend, stop, F.F., rewind etc.) in DVD control command group, send to GUI interactive module to show, select for operator.

After steps d 6, GUI interactive module receive the steering order selected by operator, send it to administration module, enter step c7 afterwards.

To carry out infrared remote-control operation to the broadcasting of DVD, play instruction is sent to administration module after receiving the play instruction selected by operator by GUI interactive module.

Steps d 7, administration module according to this steering order, are selected the binary data bound mutually with this steering order, are entered steps d 8 afterwards after receiving the steering order that GUI interactive module sends from described peripheral equipment control command group.

To carry out infrared remote-control operation to the broadcasting of DVD, administration module according to this play instruction, selects the binary data bound mutually with play instruction after receiving the play instruction that GUI interactive module sends from DVD control command group.

Steps d 8, administration module by selected go out binary data send to infrared coding module, enter steps d 9 afterwards.

To carry out infrared remote-control operation to the broadcasting of DVD, administration module by selected go out binary data (binding mutually with the play instruction in DVD control command group) send to infrared coding module.

After steps d 9, infrared coding module receive the binary data that administration module sends, send to the infrared output module corresponding with the control command group belonging to described binary data after described binary data coding is become infrared remote control signal, enter steps d 10 afterwards.

To carry out infrared remote-control operation to the broadcasting of DVD, infrared coding module sends to the infrared output module corresponding with the DVD control command group belonging to described binary data after described binary data coding being become the infrared remote control signal of DVD (play command signal) after receiving the binary data (binding mutually with the play instruction in DVD control command group) that administration module sends.

Steps d 10, infrared output module send it to the external unit corresponding with it after receiving the infrared remote control signal that infrared coding module sends.

To carry out infrared remote-control operation to the broadcasting of DVD, after the infrared output module corresponding with DVD control command group receives the DVD infrared remote control signal (play command signal) that infrared coding module sends, send it to the DVD corresponding with it, and then realize the Play Control to DVD.

Infrared remote-control device provided by the present invention, infrared remote-controlled signal learning method and infrared remote control method, the infrared control order of external unit is divided into groups according to external unit, the various control commands for counterpart external device are comprised in each peripheral equipment control command group, and then achieve the centralized management of dissimilar infrared remote control equipment is controlled, the control terminal of dissimilar infrared remote control equipment is integrated into same equipment end, achieve United Dispatching, unified plan and unified management, avoid and use respective telepilot to control brought inconvenience respectively to a large amount of infrared remote control equipment.The present invention can be widely used in as court's trial scene etc. needs to carry out central controlled scene to a large amount of remote control equipment.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment made, equivalent replacement, improvement etc., all should be included within the scope of protection of the invention.

Claims (8)

1. an infrared remote-control device, is characterized in that, comprising:

At least 1 infrared output module, for mating the external unit of at least 1 infrared remote control, to send infrared remote control signal to mated external unit;

Infrared coding module, for the binary data coding received from administration module is become infrared remote control signal, and sends to the infrared output module corresponding with the control command group belonging to described binary data;

Infrared receiving module, for receiving the infrared remote control signal that described external unit uses a teleswitch;

MCU decoder module, the infrared remote control signal for being received by infrared receiving module is decoded into binary data and sends to administration module;

Memory module, for storing at least 1 peripheral equipment control command group;

GUI interactive module, for receiving from administration module and showing study and remote control option, external unit option and steering order option, and sends to administration module by study and remote control selection instruction, external unit selection instruction and steering order;

Administration module, for setting up at least 1 peripheral equipment control command group and being stored in described memory module, wherein each peripheral equipment control command group correspondence at least 1 external unit; Described administration module, also for study and remote control option, external unit option and steering order option are sent to described GUI interactive module, and according to the study received from GUI interactive module and remote control selection instruction, determine enter the learning process of steering order or enter the remote control process of external unit; In the learning process of described steering order, according to the external unit selection instruction received from GUI interactive module, determine the peripheral equipment control command group corresponding to infrared remote-controlled signal that will learn, afterwards, the binary data received from MCU decoder module and the steering order received from described GUI interactive module are carried out binding and be stored in determined peripheral equipment control command group; In the remote control process of described external unit, according to the external unit selection instruction received from GUI interactive module, determine peripheral equipment control command group, afterwards, according to the steering order received from GUI interactive module, from described peripheral equipment control command group, select the binary data bound mutually with this steering order, and described binary data is sent to described infrared coding module.

2. infrared remote-control device according to claim 1, is characterized in that:

Described infrared remote-control device also comprises mixed-media network modules mixed-media;

Described mixed-media network modules mixed-media, for receiving study and remote control option, external unit option and steering order option from administration module and being sent to remote management apparatus by internet and showing, and the study received from described remote management apparatus and remote control selection instruction, external unit selection instruction and steering order are sent to described administration module;

Described administration module, also for study and remote control option, external unit option and steering order option are sent to described mixed-media network modules mixed-media, and according to the study received from described mixed-media network modules mixed-media and remote control selection instruction, determine enter the learning process of steering order or enter the remote control process of external unit; In the learning process of described steering order, according to the external unit selection instruction received from described mixed-media network modules mixed-media, determine the peripheral equipment control command group corresponding to infrared remote-controlled signal that will learn, afterwards, the binary data received from MCU decoder module and the steering order received from described mixed-media network modules mixed-media are carried out binding and be stored in determined peripheral equipment control command group; In the remote control process of described external unit, according to the external unit selection instruction received from described mixed-media network modules mixed-media, determine peripheral equipment control command group, afterwards, according to the steering order received from described mixed-media network modules mixed-media, from described peripheral equipment control command group, select the binary data bound mutually with this steering order, and described binary data is sent to described infrared coding module.

3. infrared remote-control device according to claim 2, is characterized in that: described remote management apparatus is computing machine.

4. infrared remote-control device according to claim 1, is characterized in that, described external unit comprises: TV, air-conditioning, curtain, power amplifier, DVD player, light fixture.

5. an infrared remote-controlled signal learning method, for the infrared remote-control device described in any one of Claims 1-4, it comprises:

Set up at least 1 peripheral equipment control command group, wherein each peripheral equipment control command group correspondence at least 1 external unit;

According to external unit selection instruction, determine the peripheral equipment control command group corresponding to infrared remote-controlled signal that will learn;

Receive described infrared remote control signal and be decoded into binary data;

Described binary data and steering order are carried out binding and is stored in determined peripheral equipment control command group.

6. an infrared remote control method, for the infrared remote-control device described in any one of Claims 1-4, it comprises:

Set up at least 1 peripheral equipment control command group, wherein each peripheral equipment control command group correspondence at least 1 external unit;

According to external unit selection instruction, determine peripheral equipment control command group;

According to steering order, from described peripheral equipment control command group, select the binary data bound mutually with this steering order;

Described binary data coding is become infrared remote control signal and sends to external unit.

7. infrared remote control method according to claim 6, is characterized in that, the binary data that the infrared remote-controlled signal preserving the external unit corresponding with it in described peripheral equipment control command group is decoded into.

8. infrared remote control method according to claim 7, it is characterized in that, the infrared remote-controlled signal of external unit is decoded into binary data and is stored in the peripheral equipment control command group corresponding with it, after being included in foundation at least 1 peripheral equipment control command group:

According to external unit selection instruction, determine the peripheral equipment control command group corresponding to infrared remote-controlled signal that will learn;

Receive described infrared remote control signal and be decoded into binary data;

Described binary data and steering order are carried out binding and is stored in determined peripheral equipment control command group.