CN103310588B - Low emissivity children lose resisting device - Google Patents
Low emissivity children lose resisting device Download PDFInfo
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- CN103310588B CN103310588B CN201310281960.5A CN201310281960A CN103310588B CN 103310588 B CN103310588 B CN 103310588B CN 201310281960 A CN201310281960 A CN 201310281960A CN 103310588 B CN103310588 B CN 103310588B
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- module
- steady arm
- telepilot
- power supply
- gsm
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Abstract
The invention discloses a kind of Low emissivity children lose resisting device, mainly be made up of Digiplex and steady arm, Digiplex and steady arm combine, steady arm is used for the anti-lost function of transmitter trigger and terminates anti-lost function signaling, and after the anti-lost function signaling of transmitter trigger, self-timing sends contact signaling to steady arm.Steady arm is in wireless monitor state always, after acquisition starts signaling, within the time of setting, the cue of Digiplex can not be obtained, then start GPRS/GSM communication module and GPS locating module, and send locating information to mobile phone or server by GPRS/GSM communication module.Thus realizing steady arm within the scope of normal wireless communication, itself does not produce any electromagnetic radiation, thus guarantees children not by strong radio radiation.It is anti-lost that this system is mainly used in children.Also can be applicable to the monitoring of other object, antitheft, report to the police, location and follow the tracks of.The feature such as system has signal stabilization, easy to operate, superior performance, cost performance are high, hommization, volume are little, easy to carry.
Description
Technical field
The present invention relates to a kind of Low emissivity children lose resisting device be made up of Digiplex and steady arm.
Background technology
At present, the report that online and TV has many children to lose, the generation majority of these situations is because the head of a family is thoughtless or general idea causes, and a lot of abducted children not only beg in the streets, and are often subject to treating of cruelty.Improving constantly along with people's living standard simultaneously, belongings are on the increase, as (mobile phone, wallet, luggage, parcel, vital document, laptop computer etc.), busy due to what work again, easily cause losing, leaving behind or stolen, thus cause a series of unnecessary loss and trouble.
The a series of anti-loss devices occurred for above-mentioned situation, make complicated, cost is high, and have radiation or distance limit, if the patent No. is the project of 200620028514.9, this electronic anti-theft apparatus is made up of transmitter and receiver two parts, transmitter during work on anti-lost thing sends stable radiowave, main body receiver is not reported to the police after receiving radio signal, distance between them exceedes after preset distance makes receiver not receive signal, sound the alarm immediately, user is reminded to note, but for finding anti-lost thing without fixing temporald eixis after super distance, fail to accomplish to locate accurately to remote anti-lost article, track and localization is accurately proceeded after cannot meeting super distance, and it is by anti-lost thing being installed the continuous wireless signal emission of transmitter to the receiver in main body, the radiation produced is larger.And for example product are called the L103 anti-loss device of Caring Star, can be used for old man, children, vehicle location is followed the trail of antitheft, volume is little, use simple, comparatively power saving, there is not buildings and weather cause influence, as long as there is the place of GSM and GPRS signal just can locate, but fail to accomplish that response is in time in short range, alarm sound is less, price is higher, this complete equipment will be made effectively to play anti-lost effect simultaneously, positioning function must could be started in the mode of note or phone, it is made constantly outwards to send current location information, closely in the mode of note, the current location of object is sent to user mobile phone by GSM, like this people is known from experience and produce very large radiation.
Summary of the invention
There is radiation to overcome existing anti-loss device, failing to take length distance to combine the defect of anti-lost mode, and make the problem complicated, cost is high, cost performance is not high and power consumption is larger, this patent provides a kind of Low emissivity children lose resisting device in conjunction with locating module, this children lose resisting device can effectively accomplish anti-lost while, outstanding is that locating module is in wireless remote control signal range of receiving, externally there is no radio radiation, and can continue to follow the trail of after super distance.
In order to realize above-mentioned technical purpose, technical scheme of the present invention is, a kind of Low emissivity children lose resisting device, comprise Digiplex and steady arm, described Digiplex is got in touch with by transmitting wireless connections signal and steady arm, described Digiplex comprises telepilot central processing unit, wireless transmitter module, button, power supply of remote controller administrative unit and power supply of remote controller, described telepilot central processing unit and wireless transmitter module communicate to connect, power supply of remote controller administrative unit connects power supply of remote controller and powers for telepilot central processing unit and wireless transmitter module, power supply of remote controller also connects telepilot central processing unit for telepilot central processing unit by button and powers, telepilot central processing unit connects the control end of Power Management Unit, described steady arm comprises wireless receiving module, steady arm Power Management Unit, steady arm power supply, retainer central processor, GSM/GPRS module and GPS module, described retainer central processor communicates to connect steady arm Power Management Unit respectively, wireless receiving module, GSM/GPRS module and GPS module, steady arm Power Management Unit connecting positioner power supply is also retainer central processor, wireless receiving module, GSM/GPRS module and GPS module are powered.
Described a kind of Low emissivity children lose resisting device, described power supply of remote controller and steady arm power supply are battery.
Described a kind of Low emissivity children lose resisting device, described wireless transmitter module is ISM band wireless transmitter module, and described wireless receiving module is ISM band wireless receiving module.
Described a kind of Low emissivity children lose resisting device, the course of work comprises:
1) telepilot initial state is off-position, and steady arm initial state is that retainer central processor, wireless receiving module and steady arm Power Management Unit are in running order, and GSM/GPRS module and GPS module are in off-position;
2) button of telepilot is pressed, telepilot central processing unit by power supply directly electric, then telepilot central processing unit controls power supply of remote controller administrative unit for telepilot central processing unit and wireless transmitter module and powers, after button unclamps, power supply of remote controller administrative unit still continued power under the control of telepilot central processing unit, telepilot central processing unit outwards launches positioned radio cue by wireless transmitter module with specified emissive power timing;
3), after the wireless receiving module of steady arm receives the positioned radio cue that telepilot launches, retainer central processor enters station-keeping mode, and GSM/GPRS module and GPS module are held in off-position;
4) after steady arm enters station-keeping mode and the duration not receiving positioned radio cue exceedes the break period preset, retainer central processor connects GSM/GPRS module and GPS module power supply by steady arm Power Management Unit, and positioned by GPS module reception gps satellite signal, then locating information is sent to specified mobile phone number or monitor supervision platform by GSM/GPRS module with note form;
5) after steady arm receives the positioned radio cue that telepilot launches again, steady arm cuts off GSM/GPRS module and GPS module power supply;
6) when the button again pressing telepilot, after telepilot central processing unit detects that button is pressed, location end signal is sent to steady arm by wireless transmitter module, then cut off the electricity supply by control power supply of remote controller administrative unit and enter off-position, steady arm receives location end signal backed off after random station-keeping mode, no longer carries out timing to the interruption duration of positioned radio cue.
Described a kind of Low emissivity children lose resisting device, in step 4), when GPS module still can not receive within the GPS positioning time preset gps satellite signal position time, then GSM/GPRS module is positioned by communication mobile network, and locating information is sent to designated mobile phone or monitor supervision platform with note form.
Described a kind of Low emissivity children lose resisting device, in step 4), after GSM/GPRS module switches on power, dials default telephone number to remind by by the time interval of presetting.
Described a kind of Low emissivity children lose resisting device, when steady arm Power Management Unit monitor cell voltage be in under-voltage condition time, retainer central processor will by GSM/GPRS module send note to specified mobile phone number to remind charging.
Technique effect of the present invention is, realizes closely monitoring by ISM band communication, after exceeding monitoring distance, and timely alarm localizing objects positional parameter, and carry out dialing alarm.While effectively accomplishing that child is anti-lost, more can be outstanding accomplish setting anti-lost scope in, locating module is in the passive receive mode of signal of super long standby time, does not produce radio radiation, and energy-efficient, and volume is little.
Below in conjunction with accompanying drawing, the invention will be further described.
Accompanying drawing explanation
Fig. 1 is structural representation of the present invention.
Embodiment
See Fig. 1, the present invention includes Digiplex and steady arm, Digiplex is got in touch with by transmitting wireless connections signal and steady arm, and Digiplex comprises telepilot central processing unit, wireless transmitter module, button, power supply of remote controller administrative unit and power supply of remote controller, telepilot central processing unit and wireless transmitter module communicate to connect, power supply of remote controller administrative unit connects power supply of remote controller and powers for telepilot central processing unit and wireless transmitter module, power supply of remote controller also connects telepilot central processing unit for telepilot central processing unit by button and powers, telepilot central processing unit connects the control end of Power Management Unit, and steady arm comprises wireless receiving module, steady arm Power Management Unit, steady arm power supply, retainer central processor, GSM/GPRS module and GPS module, retainer central processor communicates to connect steady arm Power Management Unit respectively, wireless receiving module, GSM/GPRS module and GPS module, steady arm Power Management Unit connecting positioner power supply is also retainer central processor, wireless receiving module, GSM/GPRS module and GPS module are powered.
Power supply of remote controller and steady arm power supply are battery.
Wireless transmitter module is ISM band wireless transmitter module, and wireless receiving module is ISM band wireless receiving module.
Its course of work comprises:
1) telepilot initial state is off-position, and steady arm initial state is that retainer central processor, wireless receiving module and steady arm Power Management Unit are in running order, and GSM/GPRS module and GPS module are in off-position;
2) button of telepilot is pressed, telepilot central processing unit by power supply directly electric, then telepilot central processing unit controls power supply of remote controller administrative unit for telepilot central processing unit and wireless transmitter module and powers, after button unclamps, power supply of remote controller administrative unit still continued power under the control of telepilot central processing unit, telepilot central processing unit outwards launches positioned radio cue by wireless transmitter module with specified emissive power timing;
3), after the wireless receiving module of steady arm receives the positioned radio cue that telepilot launches, retainer central processor enters station-keeping mode, and GSM/GPRS module and GPS module are held in off-position;
4) after steady arm enters station-keeping mode and the duration not receiving positioned radio cue exceedes the break period preset, retainer central processor connects GSM/GPRS module and GPS module power supply by steady arm Power Management Unit, and positioned by GPS module reception gps satellite signal, then locating information is sent to specified mobile phone number or monitor supervision platform by GSM/GPRS module with note form;
5) after steady arm receives the positioned radio cue that telepilot launches again, steady arm cuts off GSM/GPRS module and GPS module power supply;
6) when the button again pressing telepilot, after telepilot central processing unit detects that button is pressed, location end signal is sent to steady arm by wireless transmitter module, then cut off the electricity supply by control power supply of remote controller administrative unit and enter off-position, steady arm receives location end signal backed off after random station-keeping mode, no longer carries out timing to the interruption duration of positioned radio cue.
In step 4), when GPS module still can not receive within the GPS positioning time preset gps satellite signal position time, then GSM/GPRS module is positioned by communication mobile network, and locating information is sent to designated mobile phone or monitor supervision platform with note form.
In step 4), after GSM/GPRS module switches on power, dial default telephone number to remind by by the time interval of presetting.
When steady arm Power Management Unit monitor cell voltage be in under-voltage condition time, retainer central processor will by GSM/GPRS module send note to specified mobile phone number to remind charging.
Steady arm is communicated with wireless receiving module by wireless transmitter module with Digiplex.
Wireless transmitter module and wireless receiving module are for having the adjustable ISM band radio-frequency (RF) receiving and transmission module of emissive power, and this example adopts NRF24L012.4G radio receiving transmitting module as communication module, realizes the transmitting-receiving of data.
Under two Power Management Unit are distributed in the control of two central processing units, realize controlling the break-make of outside module for power supply, and battery electric quantity is monitored, export low electric quantity signal to CPU module.
Power supply is battery, preferred rechargeable battery.
Be described for case study on implementation so that child is anti-lost below:
The anti-lost process in location when child is within the scope of radiolocation:
Steady arm is placed on it child, and Digiplex is placed on it adult.When needs carry out anti-lost operation, adult pushes button, switch on power and to power to telepilot central processing unit, telepilot central processing unit makes power supply of remote controller administrative unit telepilot central processing unit and wireless transmitter module after button unclamps still obtain lasting electric energy.Now, the transmission wireless connections signaling of telepilot central processing unit operate wireless transmitter module timing.
Retainer central processor, wireless receiving module obtains the power supply continued through steady arm Power Management Unit, retainer central processor controls steady arm Power Management Unit to GPS module, the power supply of GPRS/GSM module, after retainer central processor obtains the anti-lost function signaling of startup by wireless receiving module, this wireless signaling of continuous reception, and cut off GPS module by steady arm Power Management Unit, the power supply of GPRS/GSM module, while guaranteeing system low-power consumption, make steady arm body without any radio radiation, if wireless receiving module can continue to obtain start anti-lost function signaling, then be in above-mentioned Low emissivity listening state always.
When steady arm is within the scope of setting-up time, wireless receiving module does not receive the radio contact signal of corresponding Digiplex, retainer central processor controls steady arm Power Management Unit and connects GPS module and GPRS/GSM modular power source, GPS module positions monitoring, effective GPS positioning signal is not also captured predetermined positioning time when exceeding, then start GPRS/GSM positioning function, obtain current position determination data, otherwise directly adopt GPS locator data, and upload to remote subscriber mobile phone and monitor supervision platform by GPRS/GSM, realize the real-time location of child's current location, and interval dialing prompting is carried out to setting user, until the anti-lost command function of the releasing receiving Digiplex.
When steady arm Power Management Unit detects that cell voltage is in under-voltage condition, retainer central processor sends note to setting user by GPRS/GSM module, and reminding user charges timely.
When user operation button carries out terminating anti-lost function, after Digiplex central processing unit controls the anti-lost measuring ability signaling of wireless sending module transmission and reception, automatic cut-out power supply of remote controller administrative unit to the power supply of telepilot central processing unit self, thus realizes zero stand-by power consumption.
Claims (1)
1. a Low emissivity children lose resisting device, it is characterized in that, comprise Digiplex and steady arm, described Digiplex is got in touch with by transmitting wireless connections signal and steady arm, described Digiplex comprises telepilot central processing unit, wireless transmitter module, button, power supply of remote controller administrative unit and power supply of remote controller, described telepilot central processing unit and wireless transmitter module communicate to connect, power supply of remote controller administrative unit connects power supply of remote controller and powers for telepilot central processing unit and wireless transmitter module, power supply of remote controller also connects telepilot central processing unit for telepilot central processing unit by button and powers, telepilot central processing unit connects the control end of Power Management Unit, described steady arm comprises wireless receiving module, steady arm Power Management Unit, steady arm power supply, retainer central processor, GSM/GPRS module and GPS module, described retainer central processor communicates to connect steady arm Power Management Unit respectively, wireless receiving module, GSM/GPRS module and GPS module, steady arm Power Management Unit connecting positioner power supply is also retainer central processor, wireless receiving module, GSM/GPRS module and GPS module are powered,
Described power supply of remote controller and steady arm power supply are battery;
Described wireless transmitter module is ISM band wireless transmitter module, and described wireless receiving module is ISM band wireless receiving module;
Described a kind of Low emissivity children lose resisting device course of work comprises:
1) telepilot initial state is off-position, and steady arm initial state is that retainer central processor, wireless receiving module and steady arm Power Management Unit are in running order, and GSM/GPRS module and GPS module are in off-position;
2) button of telepilot is pressed, telepilot central processing unit by power supply directly electric, then telepilot central processing unit controls power supply of remote controller administrative unit for telepilot central processing unit and wireless transmitter module and powers, after button unclamps, power supply of remote controller administrative unit still continued power under the control of telepilot central processing unit, telepilot central processing unit outwards launches positioned radio cue by wireless transmitter module with specified emissive power timing;
3), after the wireless receiving module of steady arm receives the positioned radio cue that telepilot launches, retainer central processor enters station-keeping mode, and GSM/GPRS module and GPS module are held in off-position;
4) after steady arm enters station-keeping mode and the duration not receiving positioned radio cue exceedes the break period preset, retainer central processor connects GSM/GPRS module and GPS module power supply by steady arm Power Management Unit, and positioned by GPS module reception gps satellite signal, then locating information is sent to specified mobile phone number or monitor supervision platform by GSM/GPRS module with note form;
5) after steady arm receives the positioned radio cue that telepilot launches again, steady arm cuts off GSM/GPRS module and GPS module power supply;
6) when the button again pressing telepilot, telepilot central processing unit sends location end signal by wireless transmitter module to steady arm, then cut off the electricity supply by control power supply of remote controller administrative unit and enter off-position, steady arm receives location end signal backed off after random station-keeping mode, no longer carries out timing to the interruption duration of positioned radio cue;
In step 4), when GPS module still can not receive within the GPS positioning time preset gps satellite signal position time, then GSM/GPRS module is positioned by communication mobile network, and locating information is sent to designated mobile phone or monitor supervision platform with note form;
In step 4), after GSM/GPRS module switches on power, dial default telephone number to remind by by the time interval of presetting;
When steady arm Power Management Unit monitor cell voltage be in under-voltage condition time, retainer central processor will by GSM/GPRS module send note to specified mobile phone number to remind charging.
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CN201310281960.5A CN103310588B (en) | 2013-07-05 | 2013-07-05 | Low emissivity children lose resisting device |
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CN201310281960.5A CN103310588B (en) | 2013-07-05 | 2013-07-05 | Low emissivity children lose resisting device |
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CN103310588B true CN103310588B (en) | 2016-04-13 |
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CN103679991B (en) * | 2013-12-06 | 2016-04-20 | 余姚市友威电器有限公司 | The domestic electric appliance of built-in GPS anti-theft device |
CN104738912A (en) * | 2013-12-31 | 2015-07-01 | 芯讯通无线科技(上海)有限公司 | Badge and badge communication system and method |
WO2015180674A1 (en) * | 2014-05-28 | 2015-12-03 | 李杨 | Carry-on device for anti-lost system, and anti-lost system |
CN105809885A (en) * | 2014-12-31 | 2016-07-27 | 环达电脑(上海)有限公司 | Hunting danger prompt device and method |
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CN201910118U (en) * | 2010-03-12 | 2011-07-27 | 刘志军 | Concealed dynamic positioning and monitoring device based on voice recognition |
CN202453506U (en) * | 2012-02-09 | 2012-09-26 | 郑州大学 | Mobile phone-based system for preventing losing of children |
CN203338524U (en) * | 2013-07-05 | 2013-12-11 | 湖南农业大学 | Low-radiation children anti-losing device |
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US20120235860A1 (en) * | 2006-04-25 | 2012-09-20 | Ghazarian Ohanes D | Automatic GPS tracking system with passive or active battery circuitry |
CN202196453U (en) * | 2011-06-28 | 2012-04-18 | 刘跃忠 | Intelligent system for attendance and positioning of students and warning |
CN203012750U (en) * | 2012-09-27 | 2013-06-19 | 深圳市万擎电子技术有限公司 | Children positioning and recognizing system |
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Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN201910118U (en) * | 2010-03-12 | 2011-07-27 | 刘志军 | Concealed dynamic positioning and monitoring device based on voice recognition |
CN202453506U (en) * | 2012-02-09 | 2012-09-26 | 郑州大学 | Mobile phone-based system for preventing losing of children |
CN203338524U (en) * | 2013-07-05 | 2013-12-11 | 湖南农业大学 | Low-radiation children anti-losing device |
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