CN204258814U - Infrared communication module system and communication transferring system - Google Patents

Infrared communication module system and communication transferring system Download PDF

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Publication number
CN204258814U
CN204258814U CN201420359526.4U CN201420359526U CN204258814U CN 204258814 U CN204258814 U CN 204258814U CN 201420359526 U CN201420359526 U CN 201420359526U CN 204258814 U CN204258814 U CN 204258814U
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described
characterized
infrared
communication
system
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CN201420359526.4U
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李兴文
孙倩倩
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上海科斗电子科技有限公司
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P90/00Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
    • Y02P90/02Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]

Abstract

Infrared communication module system and communication transferring system relate to the communications field, are specifically related to infrared communication field.Infrared communication module system, comprises infrared communication module, and described infrared communication module is provided with at least two infrared light-emitting components; At least two infrared light-emitting components towards difference.So that make light signal can arrive the space of different directions, to control controlled plant more in space.

Description

Infrared communication module system and communication transferring system

The applying date of the original application of this divisional application is: on July 30th, 2013, application number is: 201320459241.3, and name is called: communication transferring system.

Technical field

The utility model relates to the communications field, is specifically related to infrared communication field.

Background technology

Smart Home is also known as intelligent dwelling, and conventional Smart Home represents abroad.What be similar to Smart Home implication has home automation (Home Automation), electronic family (Elecctronic Home, E-home), digital homeland (Digital Family), home network (Home Net/Networks for ome), network home (Network Home), wired home/building (Intelligent Home/Building), in the area such as Hong-Kong and Taiwan, digital family, digital code household etc. are also had to claim method.Smart Home take house as platform, utilize comprehensive wiring technology, the network communications technology, security precautions technology, automatic control technology, audio frequency and video technology by integrated for facility relevant for life staying idle at home, build the management system of efficient housing facilities and family's schedule affairs, promote house security, convenience, comfortableness, artistry, and realize the living environment of environmental protection and energy saving.

Smart Home can be defined as a target or a system.Utilize the technology such as advanced computer, network service, automatically control, the various application subsystems relevant with family life are organically combined, by integrated management, makes family life more comfortable, safe, effective and energy-conservation.Compared with common household, Smart Home not only has traditional inhabitation function, can also provide comfortable safe, energy-efficient, have height hommization living space; Change a collection of original passive static home equipment the instrument with " wisdom " into, omnibearing information exchange functions is provided, family is helped to keep information interchange unimpeded with outside, optimize the life style of people, people are helped effectively to arrange the time, strengthen the fail safe of family life, and be family's saving energy expenditure etc.

Based on above reason, Smart Home is subject to people's attention day by day.But existing Smart Home exists, and wiring is complicated, system cost is high, installation personnel competency profiling is high, engineering cost is high, the cycle is long, need to transform household electrical appliance, engineering complete after electrical equipment change the problems such as inconvenience.

Utility model content

The purpose of this utility model is, provides a kind of communication transferring system, to solve the problem.

The purpose of this utility model is, provides a kind of infrared communication module system, to solve the problem.

The technical problem that the utility model solves can realize by the following technical solutions:

Communication transferring system, is characterized in that, comprise a network communication module and an infrared communication module, and a signal processing system; Described network communication module is connected described signal processing system respectively with described infrared communication module.

Described signal processing system can be signal processing system network communication signal being converted into the Infrared communications signals meeting infrared communication protocol.The network communication signal that described network communication module receives, transfer to signal processing system, described signal processing system is converted into Infrared communications signals, and transfers to described infrared communication module, be converted into infrared signal by described infrared communication module, and be sent to the external world.Thus the network communication signal of automatic network communication module is converted into infrared signal in the future, and then realize the Overpassing Platform by Using of network communication platform and infrared communication platform.

Described network communication module, is preferably wireless communication module.Described wireless communication module, is preferably at least one wireless communication module in wireless network communication module, bluetooth communication, cell phone network communication module.

When reality uses, control terminal, communication transferring system, controlled plant can be formed an infrared transfer intelligent domestic system.To realize concrete function.Short and sweet in order to describe, the technology of communication transferring system is described intert in the technology of infrared transfer intelligent domestic system describes below.

Infrared transfer intelligent domestic system, comprises control system, it is characterized in that, described control system comprises a control terminal and to communicate with one transferring system;

Described communication transferring system comprises a network communication module and an infrared communication module, and a signal processing system; Described network communication module is connected described signal processing system respectively with described infrared communication module;

Described control terminal connects the described network communication module of described communication transferring system by network;

The control signal that described control terminal produces, is sent to described network communication module through network.

The control signal that described network communication module receives, is sent to described signal processing system, and described signal processing system is sent to infrared communication module after control signal being transformed, and outwardly sends infrared remote-controlled signal by described infrared communication module.

Control terminal described in the utility model can be software systems.These software systems, with existing intelligent terminal for carrier, run.Existing intelligent terminal can be desktop computer, notebook computer, panel computer, mobile phone, intelligent watch, intelligent glasses etc.When therefore selling the technology in this patent, only can be to provide software systems, and intelligent terminal itself is not provided.

Controlled plant is provided with infrared remote control receiving system, after described infrared remote control receiving system receives described infrared remote-controlled signal, performs controlled actuation, and then realizes the control to controlled plant.

In above-mentioned design, the control signal of Internet Transmission is converted to infrared remote-controlled signal, controlled plant is controlled.Because very major part is provided with function of infrared remote control in existing household electrical appliances, as long as the infrared remote-controlled signal therefore changed out, mate with the controlled plant with function of infrared remote control, can realize controlling.Need not transform controlled plant.Thus greatly reduce difficulty of construction, reduce engineering cost.

Described network communication module can be the one in wired network communication module, wireless network communication module, bluetooth communication, cell phone network communication module.

Described cell phone network communication module can be the one in 3G communication module, bluetooth communication.

Described controlled plant can be at least one in DVD, electric light, TV, ceiling light, desk lamp, fan, air-conditioning, curtain, door, window, Set Top Box, washing machine, microwave oven, projecting apparatus, electric heater, electronic aquarium, sweeping robot, water dispenser etc.

Described control terminal can be at least one in the intelligent terminals such as desktop computer, notebook computer, panel computer, mobile phone, intelligent watch, intelligent glasses.Be preferably panel computer, mobile phone, intelligent watch, at least one of intelligent glasses in interior portable Portable intelligent terminal device.

Described communication transferring system is provided with a shell, and described network communication module and described infrared communication module are arranged in described shell.

Described shell is provided with printing opacity mouth, and the infrared light-emitting component of described infrared communication module is arranged on described printing opacity mouth rear.

Described printing opacity mouth is provided with infrared filtering mechanism.

Or be designed to, described shell comprises pedestal and diffuser two parts, described network communication module and described infrared communication module are arranged on described pedestal, described diffuser covers on described pedestal, and then cover described network communication module and described infrared communication module, using described diffuser as printing opacity mouth.Described diffuser is infrared filtering diffuser.

Described pedestal back is provided with fixed structure.Described fixed structure can be fixing hole.

Described infrared communication module is provided with at least two infrared light-emitting components.So that enhancing signal strength signal intensity.

At least two infrared light-emitting components towards difference.So that make light signal can arrive the space of different directions, to control controlled plant more in space.

Be preferably, described infrared communication module is provided with five infrared light-emitting components, and five infrared light-emitting components surround annular.

Described communication transferring system is fixed on more than 2.3m, less than 10 meters height.The middle top of wall can be fixed on, or on ceiling.Interference is caused to avoid the propagation of surrounding objects to light signal.

Described printing opacity mouth is provided with diffuser.Frosted inside described diffuser, so that make to disperse around light picture, makes each corner in space all can receive light.

Described printing opacity mouth adopts the printing opacity mouth of a ring-type.So that send light signal towards periphery.

Or described printing opacity mouth adopts a sphere cover body.So that picture below all directions utilizing emitted light signal.

The printing opacity mouth of described communication transferring system can be set to down.Communication transferring system utilizing emitted light signal from the top down.

Or described communication transferring system is provided with a printing opacity mouth upward.The light of described printing opacity mouth injection can shine directly into controlled plant.Also can be described communication transferring system utilizing emitted light signal from bottom to top, top be provided with ceiling, and light signal, after ceiling reflection, sends to controlled plant.This design can make the installation of communication transferring system and power easier.

Described printing opacity mouth is provided with a plus lens, so that strengthen the intensity of the hot spot of stroke on the ceiling.

Can be that the described infrared communication module of described communication transferring system is provided with at least two infrared light-emitting components, an infrared light-emitting component be positioned at a room, and infrared light-emitting component described in another is positioned at another room.So that by a communication transferring system, the electrical equipment in the unified room controlling two or more.

A battery system is also comprised in the power-supply system of described communication transferring system.Because native system energy consumption is lower, so can be described communication transferring system continued power by described battery system.Also can be redundant unit by described battery system, when there is fault, maintenance a period of time be normally run, so that user carries out corresponding preparation.

Also comprise one infrared signal strengthen system, it is characterized in that, comprise an IR signal reception module and an infrared signal transmitter module, and one have signal increase powerful signal strengthen module; Signal described in described IR signal reception model calling strengthens the signal input part of module, and described infrared signal transmitter module connects the signal output part that described signal strengthens module.

Described signal strengthens module and is provided with a frequency-selecting module, for selecting the signal in band needing to strengthen, carries out signal enhancing.

Described infrared signal strengthens system and is provided with a shell, and described IR signal reception module, infrared signal transmitter module and signal strengthen module and be arranged in described shell.

Layout in room may be relatively mixed and disorderly, can cause blocking infrared remote-controlled signal, affect control effects.Time too large in room, also can cause the problem that infrared signal weakens.Strengthening system enhancing infrared signal intensity by increasing infrared signal, ensureing Mass Control.

Described infrared signal strengthen system and described communication transferring system separated, and distance is within 15 meters.So that optimize signal layout effect.

The infrared receiving terminal that described infrared signal strengthens the IR signal reception module of system is positioned at a room, and the infrared emission head of described infrared signal transmitter module is positioned at another room.Thus can make infrared signal can across room transmission.So that unify to control to the electrical equipment in multiple room by a communication transferring system.

Described communication transferring system is also connected with a camera system, and the signal output part of described camera system connects described network communication module.By described network communication module, the image in space, place is sent to control terminal, with formation control state feedback.

A controlled plant is had at least in the image pickup scope of described camera system.Controllers is made to pass through to know controlled device state.

Described communication transferring system also comprises an infrared receiving module, described infrared receiving module connects described signal processing system, and the infrared signal that described infrared receiving module receives is converted to network signal and is sent to described control terminal by described network communication module by described signal processing system.So that provide feedback signal.

Can be that the described infrared receiving module of described communication transferring system is provided with at least two infrared receiver components, an infrared receiver component be positioned at a room, and infrared receiver component described in another is positioned at another room.So that by a communication transferring system, provide the feedback signal in two or more rooms.

Described controlled plant is provided with an infrared launcher, and described infrared launcher is provided with a slave mode monitoring client, for the operating state of watch-dog, and operating state is converted into infrared signal transmission by described infrared launcher; The infrared signal sent sends to control terminal by described communication transferring system after being received by described infrared receiving module, so that control terminal obtains the state information of controlled plant.

Described slave mode monitoring client connects the signal output part of the infrared remote control receiving system on described controlled plant, the output signal of monitoring infrared remote control receiving system, and then realizes monitoring.

Described control terminal is provided with a microprocessor system, remote control code is stored in the memory module of described microprocessor system, when controlling described controlled plant, described microprocessor system calls the remote control code stored in described memory module, and be converted into infrared remote-controlled signal by described communication transferring system, realize controlling.

Above-mentioned design, is stored in remote control code in control terminal, is conducive to the versatility of enhancing equipment.Such as carry control terminal to be equipped with infrared transfer intelligent domestic system other other act as a guest time, after networking with the transferring system that communicates, for relatively general TV, air-conditioning or other equipment, can realize controlling.

In addition, remote control code is stored in control terminal, the hardware requirement to communication transferring system can be reduced.When carrying out software adaptation or other adjustment, as long as the software in adjustment control terminal, need not adjust communication transferring system.Make easy to use, and each communication transferring system differentiation can be allowed very little, even without differences, make communication transferring system versatility strengthen.

The mode be stored in by remote control code in control terminal can be, obtaining the remote control code of the described infrared remote control receiving system of controlled plant, then described remote control code being stored into described memory module, in order to calling.

A microprocessor system is also provided with in described communication transferring system, described microprocessor system is provided with memory, store remote control code in described memory and launch information, remote control code is launched information feed back to described control terminal by described microprocessor system, so that described control terminal obtains the operating state of controlled plant.

Will a different authentication code be set in the remote control code of different controlled plant, in described memory, stores the remote control code within 20 groups with same authentication code, formed with history remote control code storehouse.So that pursue history control action.

Remote control code in described history remote control code storehouse carries out time order and function sequence identification.So that accurate analysis.

Information feed back in the described history remote control code storehouse that stores in described memory is given described control terminal by described microprocessor system, is analyzed the current operating state of controlled plant by described control terminal.To reduce the job requirement to described communication transferring system.

Described controlled plant also comprises the laser remote-controlled receiving system that has laser remote-controlled function, and described laser remote-controlled receiving system comprises an astigmatism plate, signal processing mechanism and infrared receiver component, and the photosurface of described infrared receiver component is towards described astigmatism plate.For receiving the light signal of laser spot after scattering in described astigmatism plate.

The moving situation of the laser spot that described astigmatism plate is formed, reaction is that the light signal of change is received by described infrared receiver component, after described infrared receiver component transforms out the corresponding signal of telecommunication, send to described signal processing mechanism, described signal processing mechanism exports control command according to the signal of telecommunication received, and controls the controlled plant connected.

Described laser remote-controlled receiving system is provided with an infrared receiver component, described signal processing mechanism passes through with the Strength Changes of the light signal received by described infrared receiver component, as light signal enhancing or light signal weaken, as control signal, and the control command corresponding according to described control signal, export control command.

Described laser remote-controlled receiving system is provided with at least two infrared receiver components, the presence or absence of intensity difference or light signal that described signal processing mechanism passes through the light signal received by more at least two described infrared receiver components is as control signal, and the control command corresponding according to described control signal, export control command.

Accompanying drawing explanation

Fig. 1 is infrared transfer intelligent domestic system part-structure schematic diagram;

Fig. 2 is communication transferring system anatomical connectivity relation schematic diagram;

Fig. 3 is a kind of external structure schematic diagram of communication transferring system;

Fig. 4 is that infrared signal strengthens system configuration schematic diagram.

Embodiment

The technological means realized to make the utility model, creation characteristic, reaching object and effect is easy to understand, setting forth the utility model further below in conjunction with concrete diagram.

With reference to Fig. 1, Fig. 2, communication transferring system 3, comprises network communication module 33 and an infrared communication module 31, and a signal processing system 32; Network communication module 33 and infrared communication module 31 connection signal treatment system 32 respectively.

Signal processing system 32 can be a signal processing system 32 network communication signal being converted into the Infrared communications signals meeting infrared communication protocol.The network communication signal that network communication module 33 receives, transfers to signal processing system 32, and signal processing system 32 is converted into Infrared communications signals, and transfers to infrared communication module 31, is converted into infrared signal, and is sent to the external world by infrared communication module 31.Thus the network communication signal of automatic network communication module 33 is converted into infrared signal in the future, and then realize the Overpassing Platform by Using of network communication platform and infrared communication platform.Network communication module 33, is preferably wireless communication module.Wireless communication module, is preferably at least one wireless communication module in wireless network communication module, bluetooth communication, cell phone network communication module.When reality uses, control terminal, communication transferring system 3, controlled plant can be formed an infrared transfer intelligent domestic system.To realize concrete function.

Short and sweet in order to describe, the technology of communication transferring system 3 is described intert in the technology of infrared transfer intelligent domestic system describes below.

With reference to Fig. 1, Fig. 2, infrared transfer intelligent domestic system, comprises controlled plant 1 and control system, and control system comprises a control terminal 2 and to communicate with one transferring system 3.Communication transferring system 3 comprises network communication module 33 and an infrared communication module 31, and a signal processing system 32; Network communication module 33 and infrared communication module 31 connection signal treatment system 32 respectively; Control terminal 2 connects the network communication module 33 of communication transferring system 3 by network; The control signal that control terminal 2 produces, network communication module 33 is sent to through network, the control signal that network communication module 33 receives, be sent to signal processing system 32, after control signal transforms by signal processing system 32, be sent to infrared communication module 31, outwardly send infrared remote-controlled signal by infrared communication module 31; Controlled plant 1 is provided with infrared remote control receiving system, after infrared remote control receiving system receives infrared remote-controlled signal, performs controlled actuation, and then realizes the control to controlled plant 1.The control signal that network communication module 3 receives, is sent to signal processing system 32, after control signal transforms by signal processing system 32, is sent to infrared communication module 31, outwardly sends infrared remote-controlled signal by described infrared communication module 31.

Control terminal 2 in the utility model can be software systems.These software systems, with existing intelligent terminal for carrier, run.Existing intelligent terminal can be desktop computer, notebook computer, panel computer, mobile phone, intelligent watch, intelligent glasses etc.When therefore selling the technology in this patent, only can be to provide software systems, and intelligent terminal itself is not provided.

In above-mentioned design, the control signal of Internet Transmission is converted to infrared remote-controlled signal, controlled plant 1 is controlled.Because very major part is provided with function of infrared remote control in existing household electrical appliances, as long as the infrared remote-controlled signal therefore changed out, mate with the controlled plant 1 with function of infrared remote control, can realize controlling.Need not transform controlled plant 1.Thus greatly reduce difficulty of construction, reduce engineering cost.Network communication module 33 can be the one in wired network communication module, wireless network communication module, bluetooth communication, cell phone network communication module.

Controlled plant 1 can be at least one in DVD, electric light, TV, ceiling light, desk lamp, fan, air-conditioning, curtain, door, window, Set Top Box, washing machine, microwave oven, projecting apparatus, electric heater, electronic aquarium, sweeping robot, water dispenser etc.Control terminal 2 can be at least one in the intelligent terminals such as desktop computer, notebook computer, panel computer, mobile phone, intelligent watch, intelligent glasses.Be preferably panel computer, mobile phone, intelligent watch, at least one of intelligent glasses in interior portable Portable intelligent terminal device.

Communication transferring system 3 is provided with a shell 34, and network communication module 33 and infrared communication module 31 are arranged in shell 34.Shell 34 is provided with printing opacity mouth 35, and the infrared light-emitting component of infrared communication module 31 is arranged on printing opacity mouth 35 rear.Printing opacity mouth 35 is provided with infrared filtering mechanism.Infrared filtering mechanism can be infrared fileter or infrared absorption filter light shield.

Or be designed to, shell 34 comprises pedestal and diffuser two parts, and network communication module 33 and infrared communication module 31 are arranged on pedestal, and diffuser covers on pedestal, and then cover network communication module 33 and infrared communication module 31, using diffuser as printing opacity mouth 35.Diffuser is infrared filtering diffuser.Pedestal back is provided with fixed structure.Fixed structure can be fixing hole.

Infrared communication module 31 is provided with at least two infrared light-emitting components.So that enhancing signal strength signal intensity.At least two infrared light-emitting components towards difference.So that make light signal can arrive the space of different directions, to control controlled plant more in space.Be preferably, infrared communication module 31 is provided with five infrared light-emitting components, and five infrared light-emitting components surround annular.Communication transferring system is fixed on more than 2.3m, less than 10 meters height.The middle top of wall can be fixed on, or on ceiling.Interference is caused to avoid the propagation of surrounding objects to light signal.

Printing opacity mouth 35 is provided with diffuser, frosted inside diffuser, so that make to disperse around light picture, makes each corner in space all can receive light.Printing opacity mouth 35 adopts the printing opacity mouth of a ring-type.So that send light signal towards periphery.Or printing opacity mouth adopts a sphere cover body.So that picture below all directions utilizing emitted light signal.The printing opacity mouth of communication transferring system 3 can be set to down.Communication transferring system 3 utilizing emitted light signal from the top down.

Or with reference to Fig. 3, communication transferring system 3 is provided with a printing opacity 35 upward.Communication transferring system 3 utilizing emitted light signal from bottom to top, top is provided with ceiling, and light signal, after ceiling reflection, sends to controlled plant 1.This design can make the installation of communication transferring system 3 and power easier.Printing opacity mouth can be provided with a plus lens, so that strengthen the intensity of the hot spot of stroke on the ceiling.

Can be that the infrared communication module 31 of communication transferring system 3 is provided with at least two infrared light-emitting components, and an infrared light-emitting component is positioned at a room, and another infrared light-emitting component is positioned at another room.So that by a communication transferring system 3, the electrical equipment in the unified room controlling two or more.

A battery system is also comprised in the power-supply system of communication transferring system 3.Because native system energy consumption is lower, so can be communication transferring system 3 continued power by battery system.Also can be redundant unit by battery system, when there is fault, maintenance a period of time be normally run, so that user carries out corresponding preparation.

With reference to Fig. 4, in system, also comprise an infrared signal and strengthen system, comprise IR signal reception module 41 and an infrared signal transmitter module 42, and one has signal and increases powerful signal and strengthen module 43; IR signal reception module 41 connection signal strengthens the signal input part of module 43, and infrared signal transmitter module 42 connection signal strengthens the signal output part of module 43.Signal strengthens module 43 and is provided with a frequency-selecting module, for selecting the signal in band needing to strengthen, carries out signal enhancing.Infrared signal strengthens system and is provided with a shell, and IR signal reception module 41, infrared signal transmitter module 42 and signal strengthen module 43 and arrange in the enclosure.

Layout in room may be relatively mixed and disorderly, can cause blocking infrared remote-controlled signal, affect control effects.Time too large in room, also can cause the problem that infrared signal weakens.Strengthening system enhancing infrared signal intensity by increasing infrared signal, ensureing Mass Control.It is separated that infrared signal strengthens system and communication transferring system 3, and distance is within 15 meters.So that optimize signal layout effect.

The infrared receiving terminal that infrared signal strengthens the IR signal reception module 41 of system is positioned at a room, and the infrared emission head of infrared signal transmitter module 42 is positioned at another room.Thus can make infrared signal can across room transmission.So that unify to control to the electrical equipment in multiple room by a communication transferring system 3.

Communication transferring system 3 is also connected with a camera system, the signal output part interconnection network communication module 33 of camera system.A controlled plant is had at least in the image pickup scope of camera system.Controllers is made to pass through to know controlled device state.By network communication module 33, the image in space, place is sent to control terminal 2, with formation control state feedback.Controllers is made to pass through to know controlled plant 1 state.

Communication transferring system 3 also comprises an infrared receiving module, infrared receiving module connection signal treatment system 32, and the infrared signal that infrared receiving module receives is converted to network signal and is sent to control terminal 2 by network communication module 33 by signal processing system 32.So that provide feedback signal.

Can be that the infrared receiving module of communication transferring system 3 is provided with at least two infrared receiver components, and an infrared receiver component is positioned at a room, and another infrared receiver component is positioned at another room.So that by a communication transferring system 3, provide the feedback signal in two or more rooms.

Controlled plant 1 is provided with an infrared launcher, and infrared launcher is provided with a slave mode monitoring client, for the operating state of watch-dog, and operating state is converted into infrared signal transmission by infrared launcher; After the infrared signal sent is received by infrared receiving module, send to control terminal 2, so that control terminal 2 obtains the state information of controlled plant 1 by communication transferring system 3.Slave mode monitoring client connects the signal output part of the infrared remote control receiving system on controlled plant 1, the output signal of monitoring infrared remote control receiving system, and then realizes monitoring.

Control terminal 2 is provided with a microprocessor system, remote control code is stored in the memory module of microprocessor system, when controlling controlled plant 1, microprocessor system calls the remote control code stored in memory module, and be converted into infrared remote-controlled signal by communication transferring system 3, realize controlling.

Above-mentioned design, is stored in remote control code in control terminal 2, is conducive to the versatility of enhancing equipment.Such as carry control terminal 2 to be equipped with infrared transfer intelligent domestic system other other act as a guest time, after networking with the transferring system 3 that communicates, for relatively general TV, air-conditioning or other equipment, can realize controlling.

In addition, remote control code is stored in control terminal 2, the hardware requirement to communication transferring system 3 can be reduced.When carrying out software adaptation or other adjustment, as long as the software in adjustment control terminal 2, need not adjust communication transferring system 3.Make easy to use, and each communication transferring system 3 differentiation can be allowed very little, even without differences, make communication transferring system 3 versatility strengthen.The mode be stored in by remote control code in control terminal 2 can be, obtaining the remote control code of the infrared remote control receiving system of controlled plant 1, then remote control code being stored into memory module, in order to calling.

A microprocessor system is also provided with in communication transferring system 3, microprocessor system is provided with memory, store remote control code in memory and launch information, remote control code is launched information feed back to control terminal 2 by microprocessor system, so that control terminal 2 obtains the operating state of controlled plant 1.

A different authentication code is set by the remote control code of different controlled plant 1, in memory, stores the remote control code within 20 groups with same authentication code, formed with history remote control code storehouse.So that pursue history control action.Remote control code in history remote control code storehouse carries out time order and function sequence identification.So that accurate analysis.

Information feed back in the history remote control code storehouse that stores in memory to control terminal 2, is analyzed the current operating state of controlled plant 1 by microprocessor system by control terminal 2.To reduce the job requirement to communication transferring system 3.

Controlled plant 1 also comprises the laser remote-controlled receiving system that has laser remote-controlled function, and laser remote-controlled receiving system comprises an astigmatism plate, signal processing mechanism and infrared receiver component, and the photosurface of infrared receiver component is towards astigmatism plate.For receiving the light signal of laser spot after scattering in astigmatism plate.

The moving situation of the laser spot that astigmatism plate is formed, reaction is that the light signal of change is received by infrared receiver component, after infrared receiver component transforms out the corresponding signal of telecommunication, send to signal processing mechanism, signal processing mechanism exports control command according to the signal of telecommunication received, and controls the controlled plant 1 connected.

Laser remote-controlled receiving system is provided with an infrared receiver component, signal processing mechanism passes through with the Strength Changes of the light signal received by infrared receiver component, as light signal enhancing or light signal weaken, as control signal, and the control command corresponding according to control signal, export control command.

Laser remote-controlled receiving system is provided with at least two infrared receiver components, the presence or absence of intensity difference or light signal that signal processing mechanism passes through the light signal received by more at least two infrared receiver components is as control signal, and the control command corresponding according to control signal, export control command.

More than show and describe general principle of the present utility model and principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; what describe in above-described embodiment and specification just illustrates principle of the present utility model; under the prerequisite not departing from the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (100)

1. infrared communication module system, comprises infrared communication module, it is characterized in that, described infrared communication module is provided with at least two infrared light-emitting components; At least two infrared light-emitting components towards difference.
2. infrared communication module system according to claim 1, is characterized in that, described infrared communication module is provided with five infrared light-emitting components, and five infrared light-emitting components surround annular.
3. infrared communication module system according to claim 1 and 2, is characterized in that, is provided with a shell, and network communication module and described infrared communication module are arranged in described shell.
4. infrared communication module system according to claim 3, is characterized in that, described shell is provided with printing opacity mouth, and described infrared light-emitting component is arranged on described printing opacity mouth rear.
5. infrared communication module system according to claim 4, is characterized in that, described printing opacity mouth is provided with infrared filtering mechanism.
6. infrared communication module system according to claim 1 and 2, is characterized in that, is provided with a shell, and network communication module and described infrared communication module are arranged in described shell; Described shell comprises pedestal and diffuser two parts.
7. infrared communication module system according to claim 2, is characterized in that, described shell comprises pedestal and diffuser two parts, and described network communication module and described infrared communication module are arranged on described pedestal, and described diffuser covers on described pedestal.
8. infrared communication module system according to claim 6, is characterized in that, described diffuser is infrared filtering diffuser.
9. infrared communication module system according to claim 6, is characterized in that, described pedestal back is provided with fixed structure.
10. infrared communication module system according to claim 9, is characterized in that, described fixed structure is fixing hole.
11. infrared communication module systems according to claim 7, is characterized in that, using described diffuser as printing opacity mouth.
12. infrared communication module systems according to claim 11, is characterized in that, described printing opacity mouth is provided with diffuser.
13. infrared communication module systems according to claim 12, is characterized in that, frosted inside described diffuser.
14. infrared communication module systems according to claim 11, is characterized in that, described printing opacity mouth adopts the printing opacity mouth of a ring-type.
15. infrared communication module systems according to claim 11, is characterized in that, described printing opacity mouth adopts a sphere cover body.
16. communication transferring systems, is characterized in that, comprise a network communication module and an infrared communication module, and a signal processing system; Described network communication module is connected described signal processing system respectively with described infrared communication module.
17. communication transferring systems according to claim 16, is characterized in that, described network communication module is wireless network communication module.
18. communication transferring systems according to claim 16, is characterized in that, described signal processing system is signal processing system network communication signal being converted into the Infrared communications signals meeting infrared communication protocol.
19. communication transferring systems according to claim 16, it is characterized in that, the network communication signal that described network communication module receives, transfer to signal processing system, described signal processing system is converted into Infrared communications signals, and transfer to described infrared communication module, be converted into infrared signal by described infrared communication module, and be sent to the external world.
20. communication transferring systems according to claim 16, is characterized in that, described network communication module is wireless communication module.
21. communication transferring systems according to claim 20, is characterized in that, described wireless communication module is wireless network communication module.
22. communication transferring systems according to claim 20, is characterized in that, described wireless communication module is bluetooth communication.
23. communication transferring systems according to claim 20, is characterized in that, described wireless communication module is cell phone network communication module.
24. communication transferring systems according to claim 16, is characterized in that, control terminal, described communication transferring system, controlled plant form an infrared transfer intelligent domestic system.
25. communication transferring systems according to claim 24, is characterized in that, infrared transfer intelligent domestic system, comprises control system, and described control system comprises a control terminal and to communicate with one transferring system.
26. communication transferring systems according to claim 16, is characterized in that, described communication transferring system comprises a network communication module and an infrared communication module, and a signal processing system.
27. communication transferring systems according to claim 26, it is characterized in that, described network communication module is connected described signal processing system respectively with described infrared communication module.
28. communication transferring systems according to claim 24, is characterized in that, described control terminal connects the described network communication module of described communication transferring system by network.
29. communication transferring systems according to claim 24, is characterized in that, the control signal that described control terminal produces, and are sent to described network communication module through network.
30. communication transferring systems according to claim 16, it is characterized in that, the control signal that described network communication module receives, be sent to described signal processing system, after control signal transforms by described signal processing system, be sent to infrared communication module, outwardly send infrared remote-controlled signal by described infrared communication module.
31. communication transferring systems according to claim 24, is characterized in that, described control terminal is software systems.
32. communication transferring systems according to claim 31, is characterized in that, described software systems take intelligent terminal as carrier.
33. communication transferring systems according to claim 32, is characterized in that, described intelligent terminal is desktop computer.
34. communication transferring systems according to claim 32, is characterized in that, described intelligent terminal is notebook computer.
35. communication transferring systems according to claim 32, is characterized in that, described intelligent terminal is panel computer.
36. communication transferring systems according to claim 32, is characterized in that, described intelligent terminal is mobile phone.
37. communication transferring systems according to claim 32, is characterized in that, described intelligent terminal is intelligent watch.
38. communication transferring systems according to claim 32, is characterized in that, described intelligent terminal is intelligent glasses.
39. communication transferring systems according to claim 24, it is characterized in that, described controlled plant is provided with infrared remote control receiving system, after described infrared remote control receiving system receives described infrared remote-controlled signal, perform controlled actuation, and then realize the control to controlled plant.
40. communication transferring systems according to claim 16, is characterized in that, described network communication module is wired network communication module.
41. communication transferring systems according to claim 16, it is characterized in that, described network communication module is wireless network communication module.
42. communication transferring systems according to claim 16, it is characterized in that, described network communication module is bluetooth communication.
43. communication transferring systems according to claim 22, is characterized in that, described cell phone network communication module is 3G communication module.
44. communication transferring systems according to claim 22, is characterized in that, described cell phone network communication module is bluetooth communication.
45. communication transferring systems according to claim 24, it is characterized in that, described controlled plant is DVD.
46. communication transferring systems according to claim 24, it is characterized in that, described controlled plant is electric light.
47. communication transferring systems according to claim 24, it is characterized in that, described controlled plant is TV.
48. communication transferring systems according to claim 24, it is characterized in that, described controlled plant is ceiling light.
49. communication transferring systems according to claim 24, it is characterized in that, described controlled plant is desk lamp.
50. communication transferring systems according to claim 24, it is characterized in that, described controlled plant is fan.
51. communication transferring systems according to claim 24, it is characterized in that, described controlled plant is air-conditioning.
52. communication transferring systems according to claim 24, it is characterized in that, described controlled plant is curtain.
53. communication transferring systems according to claim 24, it is characterized in that, described controlled plant is door.
54. communication transferring systems according to claim 24, it is characterized in that, described controlled plant is window.
55. communication transferring systems according to claim 24, it is characterized in that, described controlled plant is Set Top Box.
56. communication transferring systems according to claim 24, it is characterized in that, described controlled plant is washing machine.
57. communication transferring systems according to claim 24, it is characterized in that, described controlled plant washes microwave oven.
58. communication transferring systems according to claim 24, it is characterized in that, described controlled plant is projecting apparatus.
59. communication transferring systems according to claim 24, it is characterized in that, described controlled plant is electric heater.
60. communication transferring systems according to claim 24, it is characterized in that, described controlled plant is electronic aquarium.
61. communication transferring systems according to claim 24, it is characterized in that, described controlled plant is sweeping robot.
62. communication transferring systems according to claim 24, it is characterized in that, described controlled plant is water dispenser.
63. communication transferring systems according to claim 24, it is characterized in that, described control terminal is desktop computer.
64. communication transferring systems according to claim 24, it is characterized in that, described control terminal is notebook computer.
65. communication transferring systems according to claim 24, it is characterized in that, described control terminal is panel computer.
66. communication transferring systems according to claim 24, it is characterized in that, described control terminal is mobile phone.
67. communication transferring systems according to claim 24, it is characterized in that, described control terminal is intelligent watch.
68. communication transferring systems according to claim 24, it is characterized in that, described control terminal is intelligent glasses.
69. communication transferring systems according to claim 16, is characterized in that, described communication transferring system is provided with a printing opacity mouth down.
70. communication transferring systems according to claim 16, is characterized in that, described communication transferring system utilizing emitted light signal from the top down.
71. communication transferring systems according to claim 16, is characterized in that, described communication transferring system is provided with a printing opacity mouth upward.
72. communication transferring systems according to claim 24, is characterized in that, the light of described printing opacity mouth injection shines directly into described controlled plant.
73. communication transferring systems according to claim 24, is characterized in that, described communication transferring system utilizing emitted light signal from bottom to top, and top is provided with ceiling, and light signal, after ceiling reflection, sends to described controlled plant.
74., according to the communication transferring system described in claim 71, is characterized in that, described printing opacity mouth is provided with a plus lens, so that strengthen the intensity of the hot spot of stroke on the ceiling.
75. communication transferring systems according to claim 16, it is characterized in that, the described infrared communication module of described communication transferring system is provided with at least two infrared light-emitting components, and an infrared light-emitting component is positioned at a room, and infrared light-emitting component described in another is positioned at another room.
76. communication transferring systems according to claim 16, is characterized in that, also comprise a battery system in the power-supply system of described communication transferring system.
77. communication transferring systems according to claim 16, it is characterized in that, described communication transferring system also comprise one infrared signal strengthen system, comprise an IR signal reception module and an infrared signal transmitter module, and one have signal increase powerful signal strengthen module; Signal described in described IR signal reception model calling strengthens the signal input part of module, and described infrared signal transmitter module connects the signal output part that described signal strengthens module.
78., according to the communication transferring system described in claim 77, is characterized in that, described signal strengthens module and is provided with a frequency-selecting module, for selecting the signal in band needing to strengthen, carry out signal enhancing.
79., according to the communication transferring system described in claim 77, is characterized in that, described infrared signal strengthens system and is provided with a shell, and described IR signal reception module, infrared signal transmitter module and signal strengthen module and be arranged in described shell.
80., according to the communication transferring system described in claim 77, is characterized in that, described infrared signal strengthen system and described communication transferring system separated, and distance is within 15 meters.
81., according to the communication transferring system described in claim 77, is characterized in that, the infrared receiving terminal that described infrared signal strengthens the IR signal reception module of system is positioned at a room, and the infrared emission head of described infrared signal transmitter module is positioned at another room.
82. communication transferring systems according to claim 16, it is characterized in that, described communication transferring system is also connected with a camera system, the signal output part of described camera system connects described network communication module.
83. communication transferring systems according to Claim 8 described in 2, is characterized in that having a controlled plant in the image pickup scope of described camera system at least.
84. communication transferring systems according to claim 16, it is characterized in that, described communication transferring system also comprises an infrared receiving module, described infrared receiving module connects described signal processing system, and the infrared signal that described infrared receiving module receives is converted to network signal and is sent to described control terminal by described network communication module by described signal processing system.
85. communication transferring systems according to Claim 8 described in 4, it is characterized in that, the described infrared receiving module of described communication transferring system is provided with at least two infrared receiver components, and an infrared receiver component is positioned at a room, and infrared receiver component described in another is positioned at another room.
86. communication transferring systems according to claim 24, it is characterized in that, described controlled plant is provided with an infrared launcher, described infrared launcher is provided with a slave mode monitoring client, for the operating state of watch-dog, and operating state is converted into infrared signal transmission by described infrared launcher.
87. communication transferring systems according to Claim 8 described in 6, it is characterized in that, the infrared signal sent sends to control terminal by described communication transferring system after being received by described infrared receiving module, so that control terminal obtains the state information of controlled plant.
88. communication transferring systems according to Claim 8 described in 6, it is characterized in that, described slave mode monitoring client connects the signal output part of the infrared remote control receiving system on described controlled plant, the output signal of monitoring infrared remote control receiving system, and then realizes monitoring.
89. communication transferring systems according to Claim 8 described in 6, it is characterized in that, described control terminal is provided with a microprocessor system, remote control code is stored in the memory module of described microprocessor system, when controlling described controlled plant, described microprocessor system calls the remote control code stored in described memory module, and is converted into infrared remote-controlled signal by described communication transferring system, realizes controlling.
90. communication transferring systems according to claim 24, it is characterized in that, described control terminal stores remote control code, is conducive to the versatility of enhancing equipment.
91. communication transferring systems according to claim 24, is characterized in that, store remote control code in described control terminal, can reduce the hardware requirement to communication transferring system.
92. according to the communication transferring system described in claim 90, it is characterized in that, by remote control code, the mode be stored in described control terminal is, obtains the remote control code of the described infrared remote control receiving system of controlled plant, then described remote control code is stored into described memory module, in order to calling.
93. communication transferring systems according to claim 16, it is characterized in that, a microprocessor system is also provided with in described communication transferring system, described microprocessor system is provided with memory, store remote control code in described memory and launch information, remote control code is launched information feed back to described control terminal by described microprocessor system, so that described control terminal obtains the operating state of controlled plant.
94. according to the communication transferring system described in claim 93, it is characterized in that, will a different authentication code be set in the remote control code of different controlled plant, in described memory, stores the remote control code within 20 groups with same authentication code, formed with history remote control code storehouse.
95., according to the communication transferring system described in claim 94, is characterized in that, the remote control code in described history remote control code storehouse carries out time order and function sequence identification.
96. according to the communication transferring system described in claim 93, it is characterized in that, information feed back in the described history remote control code storehouse that stores in described memory is given described control terminal by described microprocessor system, is analyzed the current operating state of controlled plant by described control terminal.
97. want the communication transferring system described in 24 according to right, it is characterized in that, described controlled plant also comprises the laser remote-controlled receiving system that has laser remote-controlled function, described laser remote-controlled receiving system comprises an astigmatism plate, signal processing mechanism and infrared receiver component, and the photosurface of described infrared receiver component is towards described astigmatism plate.
98. want the communication transferring system described in 97 according to right, it is characterized in that, the moving situation of the laser spot that described astigmatism plate is formed, reaction is that the light signal of change is received by described infrared receiver component, after described infrared receiver component transforms out the corresponding signal of telecommunication, send to described signal processing mechanism, described signal processing mechanism exports control command according to the signal of telecommunication received, and controls the controlled plant connected.
99. want the communication transferring system described in 97 according to right, it is characterized in that, described laser remote-controlled receiving system is provided with an infrared receiver component, described signal processing mechanism passes through with the Strength Changes of the light signal received by described infrared receiver component, as light signal enhancing or light signal weaken, as control signal, and the control command corresponding according to described control signal, export control command.
100. want the communication transferring system described in 97 according to right, it is characterized in that, described laser remote-controlled receiving system is provided with at least two infrared receiver components, the presence or absence of intensity difference or light signal that described signal processing mechanism passes through the light signal received by more at least two described infrared receiver components is as control signal, and the control command corresponding according to described control signal, export control command.
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CN201420359514.1U CN204143230U (en) 2013-01-21 2013-07-30 Communication transferring system and infrared communication enclosure system
CN201310330561.3A CN103944790A (en) 2013-01-21 2013-07-31 Simulation intelligent household software system
CN201310557178.1A CN103942944A (en) 2013-01-21 2013-11-11 Infrared signal-control smart home and subsidiary systems thereof
CN201320708348.7U CN203827369U (en) 2013-01-21 2013-11-11 Infrared signal transfer system and intelligent household system employing same
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CN201420667015.9U CN204331418U (en) 2013-01-21 2014-01-20 Be provided with controlled plant and the remote signal transferring system of duty feedback function
CN201520049560.6U CN204633758U (en) 2013-01-21 2014-01-20 A kind of infrared transmitting set shell
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CN201310557178.1A CN103942944A (en) 2013-01-21 2013-11-11 Infrared signal-control smart home and subsidiary systems thereof
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CN201520049560.6U CN204633758U (en) 2013-01-21 2014-01-20 A kind of infrared transmitting set shell
CN201420033774.XU CN204215179U (en) 2013-01-21 2014-01-20 Household network control system and remote signal transferring system
CN201520049584.1U CN204695011U (en) 2013-01-21 2014-01-20 Household network control system
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CN201520049586.0U CN204808577U (en) 2013-01-21 2014-01-20 Remote control signal transfer system
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CN205486765U (en) 2016-08-17
CN204808577U (en) 2015-11-25
CN203812047U (en) 2014-09-03
CN203827369U (en) 2014-09-10
CN204143230U (en) 2015-02-04
CN204331418U (en) 2015-05-13
CN204695549U (en) 2015-10-07
CN203340098U (en) 2013-12-11
CN204695011U (en) 2015-10-07
CN204215538U (en) 2015-03-18
CN204633758U (en) 2015-09-09

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