CN205139954U - Manual aviation data acquisition system based on RFID technique - Google Patents

Abstract

The utility model relates to a wireless radio frequency identification technology. A manual aviation data acquisition system based on RFID technique, includes an electronic tags scanning system and one and the supporting RFID label of electronic tags scanning system, and the RFID label includes a shell, is equipped with the RFID chip in the shell, and the RFID label includes a generate current's electrical energy conversion module, and the electric power storage component that is used for saving the electric energy is connected to the electrical energy conversion module, and the RFID chip is connected through a power management module to the electric power storage component, it fixes the fixing device on aircraft equipment with the RFID label still to be equipped with one on the shell. The utility model discloses a RFID label does not need to establish in addition the battery, therefore its design is extremely simple with the realization, and volume and size are minimum, and accessible fixing device fixes on aircraft equipment, simultaneously owing to out of work at ordinary times, consequently can not produce electromagnetic interference, therefore the application demand that aperiodicity gathered in the specially adapted aviation system. Can realize the passive form aviation data acquisition based on the passive chip of RFID.

Description

A kind of manual aeronautical data acquisition system based on RFID technique

Technical field

The utility model relates to the communications field, is specifically related to radio RF recognition technology.

Background technology

Radio frequency identification, i.e. RFID (RadioFrequencyIdentification), be a kind of contactless automatic identification technology, it automatically identifies destination object by radiofrequency signal and obtains related data, identification work need not manual intervention, can work in various rugged surroundings.RFID technique identifiable design high-speed moving object also can identify multiple electronic tag simultaneously, swift and convenient to operate.

In recent years, radio RF recognition technology obtains increasing application in each field.

Utility model content

The purpose of this utility model is to provide a kind of manual aeronautical data acquisition system based on RFID technique, thus is applied on air line by radio frequency identification, improves dirigibility and the convenience of air line data acquisition.

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

A kind of manual aeronautical data acquisition system based on RFID technique, comprise the RFID label tag that an e-tag scanning system and one and described e-tag scanning system are supporting, described RFID label tag comprises a shell, RFID chip is provided with in described shell, it is characterized in that, described RFID label tag comprises the electric energy conversion module of a generation current, and described electric energy conversion module connects the charge storage element being used for storage of electrical energy, and charge storage element connects RFID chip by a power management module;

Described shell is also provided with one and described RFID label tag is fixed on stationary installation on air equipment.

RFID label tag of the present utility model does not need separately to establish battery, therefore its Design and implementation is extremely simple, volume and size minimum, be fixed on air equipment by stationary installation, simultaneously owing to not working at ordinary times, therefore can not produce electromagnetic interference (EMI), therefore be specially adapted to the application demand that in air line, aperiodicity gathers.The passive type aeronautical data collection based on RFID passive chip can be realized.

Described RFID chip is preferably the chip of Chinese China second-generation identity card, Expo ticket admission ticket, social security card, medical card or mass transit card.Such as Huahong's RFID chip, this chip performance is safe and reliable.

Based on a manual aeronautical data acquisition system for RFID technique, also comprise a cloud platform, described e-tag scanning system communicates to connect described cloud platform.When procurator hold hand-hold scanning equipment near time, RFID will be read and be presented on scanning device, can realize the information check to all devices thus.After all devices has scanned, scanning device has been accessed large data platform by wired or wireless mode by operator, and all facility informations scanned are uploaded to large data cloud platform.

Consider security, the power of described e-tag scanning system is be limited to the RFID label tag within the scope of scanning 1-3 rice.

Described e-tag scanning system comprises a signal processing system, and described signal processing system connects a communicating wireless signals module.

Described signal processing system preferably adopts the signal processing system of android system.The preferred 3G module of described communicating wireless signals module, 4G module or WiFi module.Described e-tag scanning system can be connected directly to large data cloud platform by 3G/4G data network, also by WiFi model calling to router, and then be connected to large data cloud platform by router.

Certainly, also can by the USB scheme adopting the simple and easy chip of USB interface to build low cost, usual selection is based on the ARM7/ARM9/Cortex chip of NorFlash, because its code directly can run on the NorFlash of enclosed inside, therefore its peripheral circuit is extremely simple, add cheap chip price, therefore overall plan is 1/tens of Android.

Described e-tag scanning system also comprises a display, the preferred LCD display of described display.Described signal processing system preferably carries the signal processing system of LCD driver module.

High-end scheme adopts the Android scheme based on MTK or high pass chip platform, and built-in 3G/4G/WiFi/USB interface, can be connected directly to large data cloud Platform Server, is also indirectly connected to large data cloud Platform Server by airborne computer.Display interface adopts high-resolution LCD, Android chip to carry LCD driver module.

Low side scheme adopts the scheme based on the ARM7/ARM9/Cortex chip of NorFlash, the form of internal USB interface or external WiFi module, large data cloud Platform Server can be connected directly to, also indirectly be connected to large data cloud Platform Server by airborne computer.Display interface adopts the LCD of low resolution, and LCD carries driver module, and is communicated with master chip by SPI interface.

Described e-tag scanning system also comprises the portable enclosure that is convenient to movement, and described signal processing system, described communicating wireless signals module are positioned at described shell.Move to facilitate e-tag scanning system.

Accompanying drawing explanation

Fig. 1 is the partial circuit block diagram of RFID label tag;

Fig. 2 is the partial circuit block diagram of e-tag scanning system.

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.

See Fig. 1 and Fig. 2, a kind of manual aeronautical data acquisition system based on RFID technique, comprise the RFID label tag that an e-tag scanning system and one and e-tag scanning system are supporting, RFID label tag comprises a shell, RFID chip 1 is provided with in shell, RFID label tag comprises the electric energy conversion module 2 of a generation current, and electric energy conversion module 2 connects the charge storage element 3 being used for storage of electrical energy, and charge storage element 3 connects RFID chip 1 by a power management module; Shell is also provided with one and RFID label tag is fixed on stationary installation on air equipment.

RFID label tag of the present utility model does not need separately to establish battery, therefore its Design and implementation is extremely simple, volume and size minimum, be fixed on air equipment by stationary installation, simultaneously owing to not working at ordinary times, therefore can not produce electromagnetic interference (EMI), therefore be specially adapted to the application demand that in air line, aperiodicity gathers.The passive type aeronautical data collection based on RFID passive chip can be realized.

RFID chip 1 is preferably the chip of Chinese China second-generation identity card, Expo ticket admission ticket, social security card, medical card or mass transit card.Such as Huahong's RFID chip 1, this chip performance is safe and reliable.

Based on a manual aeronautical data acquisition system for RFID technique, also comprise a cloud platform, e-tag scanning system communication connection cloud platform.When procurator hold hand-hold scanning equipment near time, RFID will be read and be presented on scanning device, can realize the information check to all devices thus.After all devices has scanned, scanning device has been accessed large data platform by wired or wireless mode by operator, and all facility informations scanned are uploaded to large data cloud platform.Consider security, the power of e-tag scanning system is be limited to the RFID label tag within the scope of scanning 1-3 rice.

E-tag scanning system comprises a signal processing system 5, and signal processing system 5 connects a communicating wireless signals module 6.Signal processing system 5 preferably adopts the signal processing system of android system.The preferred 3G module of communicating wireless signals module, 4G module or WiFi module.E-tag scanning system can be connected directly to large data cloud platform by 3G/4G data network, also by WiFi model calling to router, and then be connected to large data cloud platform by router.

Certainly, also can by the USB scheme adopting the simple and easy chip of USB interface to build low cost, usual selection is based on the ARM7/ARM9/Cortex chip of NorFlash, because its code directly can run on the NorFlash of enclosed inside, therefore its peripheral circuit is extremely simple, add cheap chip price, therefore overall plan is 1/tens of Android.

E-tag scanning system also comprises a display, the preferred LCD display of display.Signal processing system preferably carries the signal processing system of LCD driver module.

High-end scheme adopts the Android scheme based on MTK or high pass chip platform, and built-in 3G/4G/WiFi/USB interface, can be connected directly to large data cloud Platform Server, is also indirectly connected to large data cloud Platform Server by airborne computer.Display interface adopts high-resolution LCD, Android chip to carry LCD driver module.

Low side scheme adopts the scheme based on the ARM7/ARM9/Cortex chip of NorFlash, the form of internal USB interface or external WiFi module, large data cloud Platform Server can be connected directly to, also indirectly be connected to large data cloud Platform Server by airborne computer.Display interface adopts the LCD of low resolution, and LCD carries driver module, and is communicated with master chip by SPI interface.

E-tag scanning system also comprises the portable enclosure that is convenient to movement, and signal processing system, communicating wireless signals module are positioned at shell.Move to facilitate e-tag scanning system.

E-tag scanning system also comprises a wireless signal transmission antenna, and wireless signal transmission antenna connects communicating wireless signals module, and wireless signal transmission antenna has 3 at least, 3 wireless signal transmission antennas towards difference.With by 3 transmit antennas, adopt the mode of timesharing recurrence to launch interrogation signal, improve the accuracy of RFID label tag data back and the anti-interference of signal transmitting.

E-tag scanning system also comprises a power module, power module connection signal disposal system, communicating wireless signals module, and power module is a solar powered module, and solar powered module is provided with a solar panel, and solar panel is positioned at shell.Because of in the process gathering the signal on air equipment, how to carry out in outdoor, therefore can charge by solar panel while collection.

RFID label tag is provided with an information writing module 4, and information writing module 4 connects RFID chip 1, and information writing module 4 is provided with a data-interface, and data-interface is positioned on shell.The utility model is by data-interface connecting sensor, and the data collected by sensor write in RFID chip 1.

Data-interface connects a sensor element.To be obtained the data on air equipment by sensor.

Electric energy conversion module 2 can adopt telefault, also can adopt electric capacity.

When adopting telefault, telefault is outwards coiled in the shape of a spiral by the middle part of shell.

When adopting electric capacity, the preferred flaky electric capacity of electric capacity, flaky electric capacity comprises two pole plates, and pole plate embeds in shell.Thus the volume do not taken in shell, meanwhile, be conducive to the improvement of shell performance.

More than show and describe ultimate principle of the present utility model and principal character and advantage of the present utility model.The technician of the industry should understand; the utility model is not restricted to the described embodiments; what describe in above-described embodiment and instructions 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 (3)

1. the manual aeronautical data acquisition system based on RFID technique, comprise the RFID label tag that an e-tag scanning system and one and described e-tag scanning system are supporting, described RFID label tag comprises a shell, RFID chip is provided with in described shell, it is characterized in that, described RFID label tag comprises the electric energy conversion module of a generation current, and described electric energy conversion module connects the charge storage element being used for storage of electrical energy, and charge storage element connects RFID chip by a power management module;

Described shell is also provided with one and described RFID label tag is fixed on stationary installation on air equipment.

2. a kind of manual aeronautical data acquisition system based on RFID technique according to claim 1, it is characterized in that: described e-tag scanning system comprises a signal processing system, described signal processing system connects a communicating wireless signals module;

Described e-tag scanning system also comprises the portable enclosure that is convenient to movement, and described signal processing system, described communicating wireless signals module are positioned at described shell.

3. a kind of manual aeronautical data acquisition system based on RFID technique according to claim 2, it is characterized in that: described RFID label tag is provided with an information writing module, described information writing module connects described RFID chip, described information writing module is provided with a data-interface, and described data-interface is positioned on described shell.