CN204946322U - The system of asymmetric, low-consumption wireless radio frequency (RF) both-way communication - Google Patents
The system of asymmetric, low-consumption wireless radio frequency (RF) both-way communication Download PDFInfo
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- CN204946322U CN204946322U CN201520737550.1U CN201520737550U CN204946322U CN 204946322 U CN204946322 U CN 204946322U CN 201520737550 U CN201520737550 U CN 201520737550U CN 204946322 U CN204946322 U CN 204946322U
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Abstract
The utility model relates to system that is asymmetric, low-consumption wireless radio frequency (RF) both-way communication, include the smart machine (2) of battery powered smart machine (1) and mains-supplied, described battery powered smart machine (1) is provided with panel control module (11), central processing module (12), receives/send out module status processor (13), receiver module (14), sending module (15); Described panel control module (11) is connected to a receipts/module status processor (13) by central processing module (12), this receipts/send out module status processor (13) include dormancy scan control module (131), timing module (132), total power control module (133), described receiver module (14), sending module (15) are connected to receipts/module status processor (13).The utility model can reduce the power consumption of smart lock effectively, extends battery, more energy-conserving and environment-protective simultaneously.
Description
Technical field
The utility model relates to the communication control system of smart lock, is specifically related to the communicating control method and the system that join the smart machine such as server, web camera in smart lock and thing.
Background technology
In view of the battery powered smart machine of employing, when needing with WAN equipment communication, can by device talks such as the mode of double-direction radio radio-frequency communication and gateway of internet of things, transmit data.For battery powered smart machine, power consumption is a problem that needs overcome, at present, finding adopts battery powered smart machine product on the market, in double-direction radio radio-frequency communication, all there is power consumption high problem, result is that user needs often to change battery powered smart machine battery, use brings very big inconvenience, and simultaneously discarded battery is to environment.
Utility model content
The purpose of this utility model is, in order to the communication system solving existing smart lock has above-mentioned weak point, provides a kind of system of asymmetric, low-consumption wireless radio frequency (RF) both-way communication.
The utility model is asymmetric, the system of low-consumption wireless radio frequency (RF) both-way communication can be achieved through the following technical solutions:
The system of asymmetric, low-consumption wireless radio frequency (RF) both-way communication, include the smart machine of battery powered smart machine and mains-supplied, described battery powered smart machine is provided with panel control module, central processing module, receipts/send out module status processor, receiver module, sending module; Described panel control module is connected to a receipts/module status processor by central processing module, this receipts/send out module status processor include dormancy scan control module, timing module, total power control module, described receiver module, sending module are connected to receipts/module status processor.
Further, the smart machine of described mains-supplied is provided with full-time total power and sends data module and full-time total power reception data module, and described full-time total power sends data module can be connected to battery powered smart machine receiver module by less radio-frequency RF; Full-time total power receives data module can be connected to battery powered smart machine sending module by less radio-frequency RF.
Further, described battery powered smart machine is smart lock, intelligent Outdoor Air Quality monitor, Intelligent gas monitor, intelligent fan.
Further, the smart machine of described mains-supplied is gateway of internet of things, wireless router.
The beneficial effects of the utility model:
Battery powered smart machine of the present utility model is connected with the smart machine of mains-supplied by less radio-frequency RF.During use, communication system between battery powered smart machine and the smart machine of mains-supplied is divided into receive/send the usability of data and non-reception/send data by receiving/sending out module status processor, flat-out duty is formed when receiving and send data, full dormant state is formed with during non-sent data non-reception, effectively can reduce the power consumption of smart lock thus, the power consumption of 90% can be reduced, extend battery simultaneously, more energy-conserving and environment-protective.
Accompanying drawing explanation
Fig. 1 is functional-block diagram of the present utility model.
Embodiment
Below in conjunction with accompanying drawing, the utility model is described in further detail.
Method with reference to asymmetric, low-consumption wireless radio frequency (RF) both-way communication shown in Fig. 1: be provided with panel control module 11, central processing module 12 on battery powered smart machine 1, receive/send out module status processor 13, receiver module 14, sending module 15; Described receipts/send out a module status processor 13 include dormancy scan control module 131, timing module 132, total power control module 133; The smart machine 2 of mains-supplied is provided with full-time total power and sends data module 21, full-time total power reception data module 22; Between battery powered smart machine 1 and the smart machine 2 of mains-supplied, the dormancy of described battery powered receipts/send out module status processor 13 scan control module 131, receiver module 14 send data module 21 by the full-time total power of less radio-frequency RF and mains-supplied and connect; And battery powered total power control module 133, sending module 15 receive data module 22 by the full-time total power of less radio-frequency RF and mains-supplied connects; In battery powered smart machine 1, described receipts/send out receiver module 14 and sending module 15 that module status processor 13 controls battery powered smart machine 1 respectively; Time under normal conditions, receiver module 14 is in dormancy, the scanning mode of low-power consumption, and sending module 15 is in full dormant state; When needs receive or send data, receiver module 14 and sending module 15 can temporarily enter flat-out duty respectively; After the reception completing data or transmission, the mode of operation under the normality low-power consumption before receiver module 14 and sending module 15 can enter again respectively again, to keep the operation of low-loss and energy-saving.
In method:
When battery powered smart machine data receiver:
At ordinary times, receive/send out module status processor 13 by dormancy scan control module 131 allow receiver module 14 be in dormancy, scanning mode, and allow receiver module 14 perform a data scanning at interval of a period of time by timing module 132, to check whether the data of the smart machine 2 from mains-supplied, this state power consumption is extremely low;
When the smart machine 2 of mains-supplied needs to send data by the full-time total power transmission data module 21 of itself to battery powered smart machine 1, the full-time total power transmission data module 21 of the smart machine 2 of mains-supplied can send in advance wakes password (this wakes password up is enabled instruction) up, the receiver module 14 of battery powered smart machine 1 will scan and wake password up, then module status processor 13 is received/sent out to battery powered smart machine according to waking password and timing module 132 associated working up, notice total power control module 133, make receiver module 14 from dormancy, scanning mode wakes up and proceeds to flat-out data receiving state, simultaneously, total power control module 133 can according to the content waking password up, determine the duration that receiver module 14 works under full power state,
After receiver module 14 receives data in the operating time of specifying, receive/send out module status processor 13 again by dormancy scan control module 131 allow receiver module 14 again proceed to dormancy, the scanning mode of low-power consumption.
When battery powered smart machine 1 data send:
At ordinary times, receive/send out module status processor 13 and allow sending module 15 be in full dormant state by Xiu Mian scan control module 131, this state power consumption is extremely low;
When the panel control module 11 of battery powered smart machine end 1 has action, central processing module 12 can be notified, central processing module 12 is transferred to a receipts/module status processor 13 action command, receive/send out the operating time that module status processor 13 requires according to central processing module 12, sending module 15 is made to proceed to flat-out transmission state by total power control module 133, then sending module 15 can according to the notice of timing module 132, in the operating time of specifying, director data is sent and receive data module 22 to the full-time total power of the smart machine 2 of mains-supplied.
After battery powered smart machine 1 data are sent completely, receive/send out module status processor 13 and allow sending module 15 again proceed to the full dormant state of low-power consumption by Xiu Mian scan control module 131 again.
One realizes the system of above-mentioned asymmetric, low-consumption wireless radio frequency (RF) both-way communication method, include the smart machine 2 of battery powered smart machine 1 and mains-supplied, described battery powered smart machine 1 is provided with panel control module 11, central processing module 12, receives/send out module status processor 13, receiver module 14, sending module 15; Described panel control module 11 is connected to a receipts/module status processor 13 by central processing module 12, this receipts/send out module status processor 13 include dormancy scan control module 131, timing module 132, total power control module 133, described receiver module 14, sending module 15 are connected to receipts/module status processor 13.
In system, the smart machine 2 of described mains-supplied is provided with full-time total power and sends data module 21 and full-time total power reception data module 22, and described full-time total power sends data module 21 can be connected to battery powered smart machine 1 receiver module 14 by less radio-frequency RF; Full-time total power receives data module 22 can be connected to battery powered smart machine 1 sending module 15 by less radio-frequency RF.Described battery powered smart machine 1 is smart lock, intelligent Outdoor Air Quality monitor, Intelligent gas monitor, intelligent fan.The smart machine 2 of described mains-supplied is gateway of internet of things, wireless router.
During the utility model application:
1, the smart machine of battery powered smart machine and mains-supplied is different powering modes due to what adopt, so adopt asymmetric method for managing power supply.The smart machine of mains-supplied, adopts general full-time flat-out method for managing power supply, battery powered smart machine, adopts power management of the present utility model, and the center of gravity reducing energy consumption is placed on battery powered smart machine one end;
2, the smart machine of battery powered smart machine and mains-supplied need carry out ID pairing in advance, guarantees that the powered battery smart machine of specifying can only carry out data sending and receiving communication with the smart machine of the mains-supplied of specifying.And do not disturbed by extraneous less radio-frequency (RF).
3, the utility model is provided with at battery powered smart machine end receiver module 14 and the sending module 15 that a receipts/module status processor 13 controls battery powered smart machine respectively, to realize under normal conditions, receiver module 14 is in dormancy, the scanning mode of low-power consumption, sending module 15 is in full dormant state, only when needs receive or send receipt, receiver module 14 and sending module 15 just can temporarily enter flat-out duty respectively, complete reception or the transmission of data.Afterwards, receiver module 14 and sending module 15 can again enter respectively again before normality low-power consumption under mode of operation.
When battery powered smart machine data receiver:
At ordinary times, receive/send out module status processor 13 by dormancy scan control module 131 allow receiver module 14 be in dormancy, scanning mode, and allow receiver module 14 perform a data scanning at interval of a period of time by timing module 132, to check whether the data of the smart machine 2 from mains-supplied, this state power consumption is extremely low.
When the smart machine 2 of mains-supplied needs to send data by full-time total power transmission data module 21 to battery powered smart machine 1, the full-time total power of the smart machine 2 of mains-supplied sends data module 21, can send in advance and wake password up, namely enabled instruction is sent, the receiver module 14 of battery powered smart machine 1 will scan and wake password (enabled instruction) up, then receive/send out module status processor 13 according to waking password (enabled instruction) and timing module 132 associated working up, notice total power control module 133, make receiver module 14 from dormancy, scanning mode wakes up and proceeds to flat-out data receiving state, simultaneously, total power control module 133 can according to the content waking password up, determine the time span that receiver module 14 works under full power state.After receiver module 14 receives data in the working time length of specifying, receive/send out module status processor 13 and allow receiver module 14 again proceed to dormancy, the scanning mode of low-power consumption by Xiu Mian scan control module 131 again.
When battery powered smart machine data send:
At ordinary times, receive/send out module status processor 13 and allow sending module 15 be in full dormant state by Xiu Mian scan control module 131, this state power consumption is extremely low.
When the panel control module 11 of battery powered smart machine end 1 has action, central processing module 12 can be notified, central processing module 12 is transferred to a receipts/module status processor 13 action command, receive/send out the working time length that module status processor 13 requires according to central processing module 12, sending module 15 is made to proceed to flat-out transmission state by total power control module 133, then sending module 15 can according to the notice of timing module 132, in the working time length of specifying, director data is sent to the smart machine 2 of mains-supplied full-time, total power receives data module 22.
After battery powered smart machine data are sent completely, receive/send out module status processor 13 and allow sending module 15 again proceed to the full dormant state of low-power consumption by Xiu Mian scan control module 131 again.
Claims (4)
1. the system of asymmetric, low-consumption wireless radio frequency (RF) both-way communication, it is characterized in that: the smart machine (2) including battery powered smart machine (1) and mains-supplied, described battery powered smart machine (1) is provided with panel control module (11), central processing module (12), receives/send out module status processor (13), receiver module (14), sending module (15); Described panel control module (11) is connected to a receipts/module status processor (13) by central processing module (12), this receipts/send out module status processor (13) include dormancy scan control module (131), timing module (132), total power control module (133), described receiver module (14), sending module (15) are connected to receipts/module status processor (13).
2. the system of asymmetric, low-consumption wireless radio frequency (RF) both-way communication according to claim 1, it is characterized in that: the smart machine (2) of described mains-supplied is provided with full-time total power and sends data module (21) and full-time total power reception data module (22), and described full-time total power sends data module (21) can be connected to battery powered smart machine (1) receiver module (14) by less radio-frequency RF; Full-time total power receives data module (22) can be connected to battery powered smart machine (1) sending module (15) by less radio-frequency RF.
3. the system of asymmetric, low-consumption wireless radio frequency (RF) both-way communication according to claim 1, is characterized in that: described battery powered smart machine (1) is smart lock, intelligent Outdoor Air Quality monitor, Intelligent gas monitor, intelligent fan.
4. the system of asymmetric, low-consumption wireless radio frequency (RF) both-way communication according to claim 1, is characterized in that: the smart machine (2) of described mains-supplied is gateway of internet of things, wireless router.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520737550.1U CN204946322U (en) | 2015-09-22 | 2015-09-22 | The system of asymmetric, low-consumption wireless radio frequency (RF) both-way communication |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520737550.1U CN204946322U (en) | 2015-09-22 | 2015-09-22 | The system of asymmetric, low-consumption wireless radio frequency (RF) both-way communication |
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| CN204946322U true CN204946322U (en) | 2016-01-06 |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105185084A (en) * | 2015-09-22 | 2015-12-23 | 劳海鹏 | Asymmetrical and low-power-consumption radio frequency (RF) both-way communication method and system |
| CN105516352A (en) * | 2016-01-11 | 2016-04-20 | 山西黑龙科技有限公司 | Intelligent lock monitoring system based on WeChat public platform and monitoring method of intelligent lock monitoring system |
-
2015
- 2015-09-22 CN CN201520737550.1U patent/CN204946322U/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105185084A (en) * | 2015-09-22 | 2015-12-23 | 劳海鹏 | Asymmetrical and low-power-consumption radio frequency (RF) both-way communication method and system |
| CN105516352A (en) * | 2016-01-11 | 2016-04-20 | 山西黑龙科技有限公司 | Intelligent lock monitoring system based on WeChat public platform and monitoring method of intelligent lock monitoring system |
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| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160106 Termination date: 20180922 |