CN203812390U - Intelligent control system - Google Patents
Intelligent control system Download PDFInfo
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- CN203812390U CN203812390U CN201420092413.2U CN201420092413U CN203812390U CN 203812390 U CN203812390 U CN 203812390U CN 201420092413 U CN201420092413 U CN 201420092413U CN 203812390 U CN203812390 U CN 203812390U
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Abstract
The embodiment of the utility model discloses an intelligent control system. The system comprises wireless access equipment and at least one set of control equipment, wherein the control equipment is in one-to-one correspondence connection with controlled equipment controlled by the control equipment; the wireless access equipment comprises a wireless module and a first power line module; the control equipment comprises a second power line module, a conversion module and a signal transmitting module; the wireless module receives a control instruction transmitted by a control terminal and analyzes the control instruction to acquire the control equipment corresponding to the control instruction; the first power line module modulates the control instruction into an analogue radio frequency signal; the second power line module demodulates the analogue radio frequency signal into Ethernet data; the conversion module converts the Ethernet data into a control signal; the signal transmitting module transmits the control signal to the controlled equipment corresponding to the control instruction, so that the controlled equipment executes the operation corresponding to the control signal. Intelligent household equipment at home can be managed by a user in a unified way by implementing the embodiment of the utility model, and the intelligent control system is easy to operate.
Description
Technical field
The utility model relates to communication technical field, is specifically related to a kind of intelligent control system.
Background technology
Along with the fast development of electronic science and technology, intelligent home device (as controlled plants such as air-conditioning, electric fan, curtain and garages) has also progressed into people's family life, and the use of intelligent home device is also more and more universal.Existing intelligent home device has respectively corresponding with it Infrared remote controller, user can realize the control to corresponding intelligent home device by different Infrared remote controller, but, intelligent home device and the Infrared remote controller one by one corresponding user of making cannot unify to control intelligent home device, complicated operation.
Utility model content
The utility model embodiment discloses a kind of intelligent control system, for solving the problem that prior art user cannot unified management intelligent home device.
The utility model embodiment provides a kind of intelligent control system, comprise radio reception device and at least one opertaing device, described radio reception device connects described opertaing device by line of electric force, described opertaing device connects one to one with the controlled plant of being controlled by described opertaing device, wherein:
Described radio reception device comprises wireless module and the first power line module, described opertaing device comprises the second power line module, modular converter and signal emission module, described wireless module connects described the first power line module by the first physical port, described the first power line module connects described the second power line module by line of electric force, described the second power line module connects described modular converter by the second physical port, described modular converter connects described signal emission module, described wireless module is for receiving the steering order of control terminal transmission and analyzing described steering order to obtain described opertaing device corresponding to described steering order, described the first power line module is for being modulated into described steering order analog radio-frequency signal and described analog radio-frequency signal is sent to described the second power line module, described the second power line module is for being demodulated to described analog radio-frequency signal Ethernet data and described Ethernet data is sent to described modular converter, described modular converter is for converting described Ethernet data control signal to and described control signal is sent to described signal emission module, described signal emission module is for being sent to the controlled plant corresponding with described steering order by described control signal, so that described controlled plant is carried out the operation corresponding with described control signal.
In the utility model embodiment, radio reception device receives after the steering order of control terminal transmission, analysis and Control instruction is to obtain opertaing device corresponding to steering order, afterwards, radio reception device is modulated into steering order analog radio-frequency signal and analog radio-frequency signal is sent to the opertaing device corresponding with steering order, opertaing device receives after analog radio-frequency signal, first analog radio-frequency signal is demodulated to Ethernet data, convert Ethernet data to control signal again, finally control signal is sent to controlled plant, so that controlled plant is carried out the operation corresponding with control signal, wherein, controlled plant and opertaing device connect one to one.Implement the utility model embodiment and can make the intelligent home device in user's unified management man, simple to operate.
Accompanying drawing explanation
In order to be illustrated more clearly in the technical scheme in the utility model embodiment, to the accompanying drawing of required use in embodiment be briefly described below, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.
Fig. 1 is the structural representation of the disclosed a kind of intelligent control system of the utility model embodiment;
Fig. 2 is the structural representation of the disclosed another kind of intelligent control system of the utility model embodiment;
Fig. 3 is the structural representation of disclosed another intelligent control system of the utility model embodiment.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, rather than whole embodiment.Embodiment based in the utility model, those of ordinary skills are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.
The utility model embodiment provides a kind of intelligent control system, can make the intelligent home device in user's unified management man, simple to operate.Below be elaborated respectively.
Refer to Fig. 1, Fig. 1 is the structural representation of the disclosed a kind of intelligent control system of the utility model embodiment.As shown in Figure 1, this intelligent control system can comprise that the opertaing device in radio reception device 10 and opertaing device 11(the utility model embodiment can have one or more, and opertaing device and controlled plant connect one to one, because the principle of work of each opertaing device is the same, therefore take one of them opertaing device in the utility model embodiment is elaborated as example), radio reception device 10 connects opertaing device 11 by line of electric force, and the corresponding connection of controlled plant that opertaing device 11 is controlled with a unique controlled device 11, wherein:
Radio reception device 10 comprises wireless module 101 and the first power line module 102, opertaing device 11 comprises the second power line module 111, modular converter 112 and signal emission module 113, wireless module 101 connects the first power line module 102 by the first physical port, the first power line module 102 connects the second power line module 111 by line of electric force, the second power line module 111 connects modular converter 112 by the second physical port, modular converter 112 connects signal emission module 113, wireless module 101 for the steering order that receives control terminal and send analysis and Control instruction to obtain opertaing device corresponding to steering order (as the opertaing device 11 of Fig. 1), the first power line module 102 is for being modulated into steering order analog radio-frequency signal and analog radio-frequency signal being sent to the second power line module 111, the second power line module 111 is for being demodulated to analog radio-frequency signal Ethernet data and Ethernet data being sent to modular converter 112, modular converter 112 is for converting Ethernet data to control signal and control signal being sent to signal emission module 113, signal emission module 113 is for being sent to control signal the controlled plant corresponding with steering order, so that controlled plant is carried out the operation corresponding with control signal.
Optionally, the controlled plant that opertaing device 11 and controlled device 11 are controlled can the signal emission module 113 by opertaing device 11 in preset mode of learning set up and connect one to one.For example, the signal emission module 113 of opertaing device 11 is by only sending the control signal of fixed frequency after learning, and the controlled plant that controlled device 11 is controlled receives only the control signal of this fixed frequency, thereby realize connecting one to one between opertaing device 11 and the controlled plant of controlled device 11 controls.
Optionally, the MAC Address that wireless module 101 can fictionalize according to modular converter 112 is obtained opertaing device corresponding to steering order 11, and wherein, the MAC Address that the modular converter of each opertaing device fictionalizes is unique.
Optionally, control signal can be infrared signal.
Radio reception device 10 in the utility model embodiment can be the radio reception devices such as line of electric force WAP or router, and the utility model embodiment does not limit.
Opertaing device 11 in the utility model embodiment can be line of electric force infrared equipment, and the utility model embodiment does not limit.
Control terminal in the utility model embodiment can be can interconnection network mobile phone (Android mobile phone, iOS mobile phone etc.), panel computer, palm PC and mobile internet device (Mobile Internet Devices, the equipment such as MID), controlled plant in the utility model embodiment can be the intelligent home devices such as water heater, air-conditioning, refrigerator, and the utility model embodiment does not limit.
In the utility model embodiment, control terminal is provided with the client of radio reception device, user utilizes mobile data services after opening client, by cloud server, steering order is sent to radio reception device, the wireless module of radio reception device receives steering order post analysis steering order to obtain opertaing device corresponding to steering order, afterwards, the first power line module of radio reception device is modulated into analog radio-frequency signal by steering order and analog radio-frequency signal is sent to the second power line module of opertaing device, the second power line module of opertaing device is demodulated to Ethernet data by analog radio-frequency signal and Ethernet data is sent to the modular converter of opertaing device, the modular converter of opertaing device converts Ethernet data to control signal and is sent to the signal emission module of opertaing device, the signal emission module of opertaing device is sent to the controlled plant corresponding with steering order by control signal, so that controlled plant is carried out the operation corresponding with control signal.Implement that the utility model embodiment can make user closely or long-range unified management man in intelligent home device, simple to operate.
Refer to Fig. 2, Fig. 2 is the structural representation of the disclosed another kind of intelligent control system of the utility model embodiment.As shown in Figure 2, this intelligent control system can comprise that the opertaing device in radio reception device 20 and opertaing device 21(the utility model embodiment can have one or more, and opertaing device and controlled plant connect one to one, because the principle of work of each opertaing device is the same, therefore take one of them opertaing device in the utility model embodiment is elaborated as example), radio reception device 20 connects opertaing device 21 by line of electric force, and the corresponding connection of controlled plant that opertaing device 21 is controlled with a unique controlled device 21, wherein:
Radio reception device 20 comprises wireless module 201 and the first power line module 202, opertaing device 21 comprises the second power line module 211, modular converter 212 and signal emission module 213, wireless module 201 connects the first power line module 202 by the first physical port, the first power line module 202 connects the second power line module 211 by line of electric force, the second power line module 211 connects modular converter 212 by the second physical port, modular converter 212 connects signal emission module 213, wireless module 201 for the steering order that receives control terminal and send analysis and Control instruction to obtain opertaing device corresponding to steering order (as the opertaing device 21 of Fig. 2), the first power line module 202 is for being modulated into steering order analog radio-frequency signal and analog radio-frequency signal being sent to the second power line module 211, the second power line module 211 is for being demodulated to analog radio-frequency signal Ethernet data and Ethernet data being sent to modular converter 212, modular converter 212 is for converting Ethernet data to control signal and control signal being sent to signal emission module 213, signal emission module 213 is for being sent to control signal the controlled plant corresponding with steering order, so that controlled plant is carried out the operation corresponding with control signal.
As a kind of optional embodiment, as shown in Figure 2, wireless module 201 can comprise WAP 2011, switch 2012 and central processing unit 2013, switch 2012 connects central processing unit 2013, switch 2012 connects the first power line module 202 by the first physical port, wherein:
WAP 2011 is for connecting wireless network, switch 2012 is for receiving the steering order of control terminal transmission and steering order being sent to central processing unit 2013 by wireless network, central processing unit 2013 is for analysis and Control instruction to obtain opertaing device corresponding to steering order and steering order is sent to switch 2012, and switch 2012 is also for being sent to the first power line module 202 by the first physical port by steering order.
As a kind of optional embodiment, as shown in Figure 2, switch 2012 can comprise Wide Area Network interface module 20121 and lan interface module 20122, Wide Area Network interface module 20121 connects the input end of central processing unit 2013, the output terminal of central processing unit 2013 connects lan interface module 20122, wherein:
Wide Area Network interface module 20121 is for receive control terminal by the wireless network steering order sending the input end that steering order is sent to central processing unit 2013, central processing unit 2013 is for analysis and Control instruction to obtain opertaing device corresponding to steering order (as the opertaing device 21 of Fig. 2) and steering order is sent to lan interface module 20122, and lan interface module 20122 is for being sent to steering order the first power line module 202.
As a kind of optional embodiment, as shown in Figure 2, the first power line module 202 can comprise the first physical chip 2021, modulator 2022 and first signal transmitter 2023, the output terminal of the first physical chip 2021 connects the input end 2022 of modulator, the output terminal of modulator 2022 connects the input end of first signal transmitter 2023, the output terminal of first signal transmitter 2023 connects the second power line module 211, the input end of the first physical chip 2021 connects lan interface module 20122, wherein:
The first physical chip 2021 is for receive lan interface module 20122 steering order sending the input end that steering order is sent to modulator 2022, modulator 2022 is for being modulated into steering order analog radio-frequency signal and analog radio-frequency signal being sent to the input end of first signal transmitter 2023, and first signal transmitter 2023 is for being sent to the second power line module 211 by line of electric force by analog radio-frequency signal.
As a kind of optional embodiment, as shown in Figure 2, the second power line module 211 can comprise signal receiver 2111, detuner 2112 and the second physical chip 2113, the output terminal of signal receiver 2111 connects the input end of detuner 2112, the output terminal of detuner 2112 connects the input end of the second physical chip 2113, the output terminal of the second physical chip 2113 connects modular converter 212, the input end of signal receiver 2111 connects the output terminal of first signal transmitter 2023, wherein:
Signal receiver 2111 is for receive first signal transmitter 2023 analog radio-frequency signal sending the input end that analog radio-frequency signal is sent to detuner 2112, detuner 2112 is for being demodulated to analog radio-frequency signal Ethernet data and Ethernet data being sent to the input end of the second physical chip 2113, and the second physical chip 2113 is for being sent to Ethernet data modular converter 212.
As a kind of optional embodiment, as shown in Figure 2, modular converter 212 can comprise the 3rd physical chip 2121, signal converter 2122 and secondary signal transmitter 2123, the output terminal of the 3rd physical chip 2121 connects the input end of signal converter 2122, the output terminal of signal converter 2122 connects the input end of secondary signal transmitter 2123, the output terminal of secondary signal transmitter 2123 connects signal emission module 213, the input end of the 3rd physical chip 2121 connects the output terminal of the second physical chip 2113, wherein:
The 3rd physical chip 2121 is for receive the second physical chip 2113 Ethernet data sending the input end that Ethernet data is sent to signal converter 2122, signal converter 2122 is for converting Ethernet data to control signal and control signal being sent to the input end of secondary signal transmitter 2123, and secondary signal transmitter 2123 is for being sent to control signal signal emission module 213.
Optionally, the controlled plant that opertaing device 21 and controlled device 21 are controlled can the signal emission module 213 by opertaing device 21 in preset mode of learning set up and connect one to one.For example, the signal emission module 213 of opertaing device 21 is by only sending the control signal of fixed frequency after learning, and the controlled plant that controlled device 21 is controlled receives only the control signal of this fixed frequency, thereby realize connecting one to one between opertaing device 21 and the controlled plant of controlled device 21 controls.
Optionally, the MAC Address that wireless module 201 can fictionalize according to modular converter 212 is obtained opertaing device corresponding to steering order 21, and wherein, the MAC Address that the modular converter of each opertaing device fictionalizes is unique.
Optionally, control signal can be infrared signal.
Implement that the utility model embodiment can make user closely or long-range unified management man in intelligent home device, simple to operate.
Refer to Fig. 3, Fig. 3 is the structural representation of disclosed another intelligent control system of the utility model embodiment.As shown in Figure 3, this intelligent control system can comprise that the opertaing device in control terminal 301, radio reception device 302, opertaing device 303(the utility model embodiment can have one or more, and opertaing device and controlled plant connect one to one, because the principle of work of each opertaing device is the same, therefore take one of them opertaing device and the controlled plant corresponding with opertaing device in the utility model embodiment is elaborated as example) and the controlled plant 304 controlled of a unique controlled device 303, wherein:
Radio reception device 302 in the utility model embodiment can be the radio reception device in above-described embodiment, and its principle is identical, in the utility model embodiment, introduces no longer in detail.
Opertaing device 303 in the utility model embodiment can be the opertaing device in above-described embodiment, and its principle is identical, and the utility model embodiment introduces no longer in detail.
Control terminal 301 in the utility model embodiment can be can interconnection network mobile phone (Android mobile phone, iOS mobile phone etc.), panel computer, palm PC and mobile internet device (Mobile Internet Devices, the equipment such as MID), controlled plant 304 in the utility model embodiment can be the intelligent home devices such as water heater, air-conditioning, refrigerator, and the utility model embodiment does not limit.
In the utility model embodiment, control terminal is provided with the client of radio reception device, user utilizes mobile data services after opening client, by cloud server, steering order is sent to radio reception device, radio reception device receives steering order post analysis steering order to obtain opertaing device corresponding to steering order, afterwards, radio reception device is modulated into steering order analog radio-frequency signal and analog radio-frequency signal is sent to opertaing device, opertaing device is demodulated to analog radio-frequency signal Ethernet data and converts Ethernet data to control signal after receiving analog radio-frequency signal, afterwards, opertaing device is sent to the controlled plant corresponding with steering order by control signal, so that controlled plant is carried out the operation corresponding with control signal.Implement that the utility model embodiment can make user closely or long-range unified management man in intelligent home device, simple to operate.
A kind of intelligent control system above the utility model embodiment being provided is described in detail, applied instantiation herein principle of the present utility model and embodiment are set forth, the explanation of above embodiment is just for helping to understand method of the present utility model and core concept thereof; , for one of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, in sum, this description should not be construed as restriction of the present utility model meanwhile.
Claims (9)
1. an intelligent control system, it is characterized in that, comprise radio reception device and at least one opertaing device, described radio reception device connects described opertaing device by line of electric force, described opertaing device connects one to one with the controlled plant of being controlled by described opertaing device, wherein:
Described radio reception device comprises wireless module and the first power line module, described opertaing device comprises the second power line module, modular converter and signal emission module, described wireless module connects described the first power line module by the first physical port, described the first power line module connects described the second power line module by line of electric force, described the second power line module connects described modular converter by the second physical port, described modular converter connects described signal emission module, described wireless module is for receiving the steering order of control terminal transmission and analyzing described steering order to obtain described opertaing device corresponding to described steering order, described the first power line module is for being modulated into described steering order analog radio-frequency signal and described analog radio-frequency signal is sent to described the second power line module, described the second power line module is for being demodulated to described analog radio-frequency signal Ethernet data and described Ethernet data is sent to described modular converter, described modular converter is for converting described Ethernet data control signal to and described control signal is sent to described signal emission module, described signal emission module is for being sent to the controlled plant corresponding with described steering order by described control signal, so that described controlled plant is carried out the operation corresponding with described control signal.
2. system according to claim 1, it is characterized in that, described wireless module comprises WAP, switch and central processing unit, and described switch connects described central processing unit, described switch connects described the first power line module by described the first physical port, wherein:
Described WAP is for connecting wireless network, described switch is for receiving the described steering order of control terminal transmission and described steering order being sent to described central processing unit by described wireless network, described central processing unit is for analyzing described steering order to obtain described opertaing device corresponding to described steering order and described steering order is sent to described switch, and described switch is also for being sent to described the first power line module by described the first physical port by described steering order.
3. system according to claim 2, it is characterized in that, described switch comprises Wide Area Network interface module and lan interface module, described Wide Area Network interface module connects the input end of described central processing unit, the output terminal of described central processing unit connects described lan interface module, wherein:
Described Wide Area Network interface module is for the described steering order sending by described wireless network reception control terminal the input end that described steering order is sent to described central processing unit, described central processing unit is for analyzing described steering order to obtain described opertaing device corresponding to described steering order and described steering order is sent to described lan interface module, and described lan interface module is for being sent to described the first power line module by described steering order.
4. system according to claim 3, it is characterized in that, described the first power line module comprises the first physical chip, modulator and first signal transmitter, the output terminal of described the first physical chip connects the input end of described modulator, the output terminal of described modulator connects the input end of described first signal transmitter, the output terminal of described first signal transmitter connects described the second power line module, the input end of described the first physical chip connects described lan interface module, wherein:
The input end that described the first physical chip is used for receiving the described steering order of described lan interface module transmission and described steering order is sent to described modulator, described modulator is used for the input end that described steering order is modulated into described analog radio-frequency signal and described analog radio-frequency signal is sent to described first signal transmitter, and described first signal transmitter is for being sent to described the second power line module by line of electric force by described analog radio-frequency signal.
5. system according to claim 4, it is characterized in that, described the second power line module comprises signal receiver, detuner and the second physical chip, the output terminal of described signal receiver connects the input end of described detuner, the output terminal of described detuner connects the input end of described the second physical chip, the output terminal of described the second physical chip connects described modular converter, and the input end of described signal receiver connects the output terminal of described first signal transmitter, wherein:
The input end that described signal receiver is used for receiving the described analog radio-frequency signal of described first signal transmitter transmission and described analog radio-frequency signal is sent to described detuner, described detuner is used for the input end that described analog radio-frequency signal is demodulated to described Ethernet data and described Ethernet data is sent to described the second physical chip, and described the second physical chip is for being sent to described modular converter by described Ethernet data.
6. system according to claim 5, it is characterized in that, described modular converter comprises the 3rd physical chip, signal converter and secondary signal transmitter, the output terminal of described the 3rd physical chip connects the input end of described signal converter, the output terminal of described signal converter connects the input end of described secondary signal transmitter, the output terminal of described secondary signal transmitter connects described signal emission module, the input end of described the 3rd physical chip connects the output terminal of described the second physical chip, wherein:
The input end that described the 3rd physical chip is used for receiving the described Ethernet data of described the second physical chip transmission and described Ethernet data is sent to described signal converter, described signal converter is used for the input end that converts described Ethernet data to described control signal and described control signal is sent to described secondary signal transmitter, and described secondary signal transmitter is for being sent to described signal emission module by described control signal.
7. according to the system described in claim 1~6 any one, it is characterized in that, described opertaing device with the described controlled plant controlled by described opertaing device in the signal emission module by described opertaing device preset mode of learning set up and connect one to one.
8. according to the system described in claim 1~6 any one, it is characterized in that, the MAC Address that described wireless module fictionalizes according to described modular converter is obtained described opertaing device corresponding to described steering order.
9. according to the system described in claim 1~6 any one, it is characterized in that, described control signal is infrared signal.
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CN201420092413.2U CN203812390U (en) | 2014-02-28 | 2014-02-28 | Intelligent control system |
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CN201420092413.2U CN203812390U (en) | 2014-02-28 | 2014-02-28 | Intelligent control system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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WO2019084798A1 (en) * | 2017-10-31 | 2019-05-09 | 深圳市智美达科技股份有限公司 | Radio signal enhancement device, method and system, and storage medium |
WO2024078241A1 (en) * | 2022-10-12 | 2024-04-18 | 华为技术有限公司 | Device control method and apparatus |
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2014
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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WO2019084798A1 (en) * | 2017-10-31 | 2019-05-09 | 深圳市智美达科技股份有限公司 | Radio signal enhancement device, method and system, and storage medium |
WO2024078241A1 (en) * | 2022-10-12 | 2024-04-18 | 华为技术有限公司 | Device control method and apparatus |
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