CN201594279U - RFID electronic boot system - Google Patents

Abstract

The utility model discloses an RFID electronic boot system which is characterized in that the RFID electronic boot system based on RFID technology structurally comprises a workstation, a shelf, a plurality of boot units, an access control system, a hand-held RFID reader and a plurality of hosts; and the using processes of the RFID electronic boot system are divided into an issuing process, an extraction process and a recycling process. The RFID electronic boot system can fast complete the issuing, the extraction and the recycling of boots by utilization of the RFID technology, reading of the information of an electronic tag through the reader, and united dispatching of the workstation, thus improving the working efficiency and the working accuracy.

Description

RFID electronics boot system

Technical field

The utility model relates to a kind of electronics boot system, relates in particular to a kind of RFID electronics boot system.

Background technology

At present, a lot of companies depositing from goods, this whole process of the extraction of goods and the recovery of goods all is by manually finishing, depositing at goods in addition, extract and removal process in relate to a lot of information input with read, also be to finish usually in the prior art by artificial computer input pattern, this artificial mode has a lot of drawbacks, it has not only increased the additional workload of company, also be easy to generate the error in the manually-operated, can cause incalculable damage to company, especially for large-scale company, for example for more bank storehouse center, circuit site, because it is pressed for time, the store management personnel carry out being easy to make mistakes when the money case is checked during the morning shipment, as the wrong or wrong chest by All other routes of money case point, and manually check the money case and extended time of outbound, reduced work efficiency.

The utility model content

The purpose of this utility model provides a kind of RFID electronics boot system and control method thereof, it comprises the granting of electronics boot information, the recovery of the extraction of electronics boot and electronics boot, whole process is that workstation is manually finished based on RFID technology control indication, improve work efficiency, reduced error rate.

In order to achieve the above object, the technical solution of the utility model is: RFID electronics boot system, be characterized in, and comprise workstation, shelf, a plurality of boots unit, gate control system, handhold RFID reader and a plurality of main frame;

Described workstation comprises central processing unit, be connected with central processing unit and the wireless receiving and dispatching base station of bi-directional transfer of data, is connected the also input equipment and the output device of bi-directional transfer of data with central processing unit respectively;

Described shelf comprise one group of overhead baggage rack unit, described every group of overhead baggage rack unit is used to place the boot unit, and described every group of overhead baggage rack unit all comprises shelf frame, is arranged on the shelf control module of a side of shelf frame, is arranged on a side of shelf frame and shelf display module that is connected with the shelf control module and the infrared detection module that is connected with the shelf display module;

Described each main frame and a corresponding shelf control module connection, a plurality of main frames are connected bi-directional transmission of information between described main frame and the central processing unit with the mode of central processing unit with bus;

Described each boot unit leaves in the shelf frame of each overhead baggage rack unit, the boot RFID writing module that described each boot unit all comprises casing, is arranged on the RFID electronic tag of outside, casing both sides, is arranged on the boot wireless receiving module on the casing and is connected with the boot wireless receiving module;

Described gate control system comprises gate inhibition's framework, is arranged on gate inhibition RFID read module, the gate inhibition's radio receiving transmitting module, a side that is arranged on gate inhibition's framework and the gate inhibition's control module that is connected with gate inhibition's radio receiving transmitting module that are connected with the gate inhibition RFID read module of gate inhibition's framework one side of inside, gate inhibition's framework both sides and is arranged on a side of gate inhibition's framework and the gate inhibition's display module that is connected with gate inhibition's control module;

The hand-hold wireless sending module that is provided with the handhold RFID read module in the described handhold RFID reader and is connected with the handhold RFID read module,

Two-way transmission of wireless transmission method or reception information are passed through with boot wireless receiving module, gate inhibition's radio receiving transmitting module and hand-hold wireless sending module respectively in described wireless receiving and dispatching base station;

Described gate inhibition RFID read module reads in the information of the RFID electronic tag of each boot unit by wireless transmission method.

Above-mentioned RFID electronics boot system wherein also comprises go-cart, and described go-cart is used to transport the boot unit

Above-mentioned RFID electronics boot system, wherein, described boot RFID writing module writes information by wireless mode the RFID electronic tag of outside, casing both sides.

Above-mentioned RFID electronics boot system, wherein, described overhead baggage rack unit also comprises the shelf RFID read module that is arranged on inside, shelf frame both sides and is arranged on the infrared detection module that shelf frame one side is connected with shelf RFID display module;

Above-mentioned RFID electronics boot system, wherein, when described boot unit was placed on the shelf, the RFID electronic tag of the casing both sides of each boot unit was corresponding respectively separately with the shelf RFID read module of the shelf frame both sides of each overhead baggage rack unit.

Above-mentioned RFID electronics boot system, wherein, described shelf RFID read module reads in the information of the RFID electronic tag of each boot unit by wireless transmission method.

Above-mentioned RFID electronics boot system, wherein, when described boot unit was placed in the gate control system, the RFID electronic tag of the casing both sides of each boot unit was corresponding respectively separately with the gate inhibition RFID read module of gate inhibition's framework both sides respectively.

The utility model makes it compared with prior art owing to adopt technique scheme, has the following advantages and good effect:

1, the utility model is read the information of boot unit owing to passing through the RFID technology, and indicates manually-operated by the uniform dispatching distribution of workstation, and is convenient and swift, improved the efficient of working.

2, the utility model since by the reading of information, wireless transmission method sent-received message and central processing unit to the checking of information, reduced error rate.

Description of drawings

Fig. 1 is the one-piece construction block diagram of a kind of RFID electronics of the utility model boot system.

Fig. 2 is the inner structure block diagram of the overhead baggage rack unit of a kind of RFID electronics of the utility model boot system.

Fig. 3 is the distribution process synoptic diagram of a kind of RFID electronics of the utility model boot system.

Fig. 4 is placed on the overhead baggage rack unit relationship frame figure with workstation for the boot unit of a kind of RFID electronics of the utility model boot system.

When Fig. 5 is placed on the gate control system for the boot unit of a kind of RFID electronics of the utility model boot system and the relationship frame figure of workstation.

Fig. 6 is the use flow chart of steps of the boot unit of a kind of RFID electronics of the utility model boot system.

Embodiment

See also shown in accompanying drawing 1, the accompanying drawing 2, RFID electronics boot system comprises workstation1, shelf 2, a plurality of boots unit 3, gate control system 4, handhold RFID reader 5 and a plurality of main frame 6; Workstation1 comprises central processing unit 11, be connected with central processing unit 11 and the wireless receiving and dispatching base station 12 of bi-directional transfer of data, is connected the also input equipment 13 and the output device 14 of bi-directional transfer of data with central processing unit 11 respectively; Shelf 2 comprise one group of overhead baggage rack unit 20, described every group of overhead baggage rack unit 20 is used to place boot unit 3, and described every group of overhead baggage rack unit 20 all comprises shelf frame 25, is arranged on the shelf control module 23 of a side of shelf frame 25, is arranged on a side of shelf frame 25 and shelf display module 24 that is connected with shelf control module 23 and the infrared detection module 26 that is connected with shelf display module 24; Each main frame 6 and a corresponding shelf control module 23 connections, a plurality of main frames 6 are connected with the mode of central processing unit 11 with bus, bi-directional transmission of information between described main frame 6 and the central processing unit 11; Each boot unit 3 leaves in the shelf frame 25 of each overhead baggage rack unit 20, and described each boot unit 3 all comprises casing 34, is arranged on the RFID electronic tag 31 of outside, casing 34 both sides, is arranged on boot wireless receiving module 32 on the casing 34 and the boot RFID writing module 33 that is connected with boot wireless receiving module 32; Gate control system 4 comprises gate inhibition's framework 45, is arranged on gate inhibition RFID read module 41, the gate inhibition's radio receiving transmitting module 42, a side that is arranged on gate inhibition's framework 45 and the gate inhibition's control module 43 that is connected with gate inhibition's radio receiving transmitting module 42 that are connected with the gate inhibition RFID read module 41 of gate inhibition's framework 45 1 sides of inside, gate inhibition's framework 45 both sides and is arranged on a side of gate inhibition's framework 45 and the gate inhibition's display module 44 that is connected with gate inhibition's control module 43; The hand-hold wireless sending module 52 that is provided with handhold RFID read module 51 in the handhold RFID reader 5 and is connected with handhold RFID read module 51, wireless receiving and dispatching base station 12 pass through two-way transmission of wireless transmission method or reception information with boot wireless receiving module 32, gate inhibition's radio receiving transmitting module 42 and hand-hold wireless sending module 52 respectively; Gate inhibition RFID read module 41 reads in the information of the RFID electronic tag 31 of each boot unit 3 by wireless transmission method.Go-cart is used to transport boot unit 3.Boot RFID writing module 33 writes information by wireless mode the RFID electronic tag 31 of outside, casing 34 both sides.Overhead baggage rack unit 20 also comprises the shelf RFID read module 21 that is arranged on inside, shelf frame 25 both sides and is arranged on the infrared detection module 26 that shelf frame 25 1 sides are connected with shelf RFID display module 24; When boot unit 3 was placed on the shelf 2, the RFID electronic tag 31 of casing 34 both sides of each boot unit 3 was corresponding respectively separately with the shelf RFID read module 21 of shelf frame 25 both sides of each overhead baggage rack unit 20.Shelf RFID read module 21 reads in the information of the RFID electronic tag 31 of each boot unit 3 by wireless transmission method.When boot unit 20 was placed in the gate control system, the RFID electronic tag 31 of casing 34 both sides of each boot unit 20 was corresponding respectively separately with the gate inhibition RFID read module 41 of gate inhibition's framework 45 both sides respectively.

See also shown in the accompanying drawing 6, the utility model RFID electronics boot system comprises following steps in use:

Please cooperate referring to shown in the accompanying drawing 3, step 1: central processing unit 11 generates the raw information inventory, this raw information comprises all information of each boot unit, as numbering, central processing unit 11 also passes through wireless receiving and dispatching base station one group of information of 12 transmissions to each boot unit 3, the boot wireless receiving module 32 of boot unit 3 sends information to boot RFID writing module 33, and boot RFID writing module 33 records the information in the RFID electronic tag 31 of boot unit 3;

Step 2: go-cart is pushed into boot unit 3 position of close shelf 2, handhold RFID read module 51 obtains the information of boot unit 3 by reading RFID electronic tag 31, and the information of boot unit 3 is sent to wireless receiving and dispatching base station 12 by hand-hold wireless sending module 52;

Step 3: after wireless receiving and dispatching base station 12 receives information, send information to central processing unit 11, central processing unit 11 specifies overhead baggage rack units 20 positions for the boot unit 3 that contains the information of receiving, and with this position command by bus transfer to the main frame 6 of correspondence;

Step 4: the order that main frame 6 will receive sends shelf control module 23 to, and the display lamp of shelf control module 23 control shelf display modules 24 starts;

Step 5: according to the prompting of shelf display module 24, boot unit 3 is placed on the suitable overhead baggage rack unit 20, after boot unit 3 is placed on the overhead baggage rack unit 20, thereby infrared detection module 26 detects the existence of boot unit 3 makes shelf display module 24 close display lamp, at this moment, boot unit 3 is dispensed on the corresponding overhead baggage rack unit 20; Also comprise audit process in the step 5, audit process may further comprise the steps:

Please cooperate referring to shown in the accompanying drawing 4, step 5.1: when boot unit 3 is placed on the overhead baggage rack unit 20, the shelf RFID read module 21 of each overhead baggage rack unit 20 reads in the information of the RFID electronic tag 31 of the boot unit of depositing separately 3, and information is sent to shelf control module 23, shelf control module 23 is given corresponding with it main frame 6 with information transmission, and main frame 6 is given central processing unit 11 by bus with information transmission;

Step 5.2: after central processing unit 11 receives information, this information and raw information are checked: if information is not inconsistent, central processing unit 11 sends order to corresponding shelf control module 23 by main frame 6, shelf control module 23 control shelf display modules 24, make the display lamp flicker, if information conforms, central processing unit 11 are given an order display lamp is extinguished, central processing unit 11 is preserved the corresponding relation of boot unit 3 and overhead baggage rack unit 20.

Step 6: then carry out the extraction of boot unit 3, by input equipment 13 central processing unit 11 is read in information extraction, preferred input equipment 13 is a bar-code scanner, the bar code of extracting voucher by scanning is read in central processing unit 11 with information extraction, central processing unit 11 generates and extracts inventory, and central processing unit 11 is given a plurality of main frames 6 with one group of information transmission of extracting inventory;

Step 7: each main frame 6 is given the shelf control module 23 corresponding with it with information transmission, shelf control module 23 starts shelf display module 24, shelf display module 24 is provided with pilot lamp, 3 residing overhead baggage rack units, 20 positions, boot unit of the required extraction of the bright prompting of pilot lamp;

Step 8: extract the people and take off boot unit 3 and gate control system 4 is sent in boot unit 3, it is main that infrared detection module 26 detects 3 removed backs, boot unit, closes the shelf display module 24 that has started;

Please cooperate referring to shown in the accompanying drawing 5, step 9: gate inhibition RFID read module 41 reads in the information of the RFID electronic tag 31 of each boot unit 3, and the information of RFID electronic tag 31 is sent to gate inhibition's radio receiving transmitting module 42, gate inhibition's radio receiving transmitting module 42 sends to wireless receiving and dispatching base station 12 with the information of RFID electronic tag 31 by wireless transmission method;

Step 10: wireless receiving and dispatching base station 12 sends the information of RFID electronic tag 31 to central processing unit 11, and central processing unit 11 is checked the information of RFID electronic tag 31 with the information of extracting inventory;

When the information of RFID electronic tag 31 is consistent with the information of extracting inventory, central processing unit 11 sends instruction to wireless receiving and dispatching base station 12, wireless receiving and dispatching base station 12 will be instructed and be sent to gate inhibition's radio receiving transmitting module 42 with Wireless transmission mode, gate inhibition's radio receiving transmitting module 42 sends instruction to gate inhibition's control module 43, gate inhibition's control module 43 starts gate inhibition's display module 44, and gate inhibition's display module 44 shows that permission is to 3 clearances of boot unit;

When the information of electronic tag 31 when extracting the information inconsistency of inventory, central processing unit 11 sends instruction to wireless receiving and dispatching base station 12, wireless receiving and dispatching base station 12 will be instructed and be sent to gate inhibition's radio receiving transmitting module 42 by wireless transmission method, gate inhibition's radio receiving transmitting module 42 sends instruction to gate inhibition's control module 43, gate inhibition's control module 43 starts gate inhibition's display module 44,44 promptings of gate inhibition's display module are reported to the police, and stop boot unit 3 current, thereby have finished the leaching process of boot unit 3;

Step 11; Central processing unit 11 is printed by output device 14 and is extracted inventory;

Step 12: system receives the recovery of boot unit 3 afterwards, the sender imports central processing unit 11 by input equipment 13 with recovery information, preferably, input equipment 13 is a bar-code scanner, by the scanning of bar-code scanner, with the information input central processing unit 11 that reclaims to the bar code of recovery voucher;

Step 13: the sender sends boot unit 3 into gate control system 4, gate inhibition RFID read module 41 reads in the RFID electronic tag 31 of boot unit 3, and send the information of RFID electronic tag 31 to gate inhibition's radio receiving transmitting module 42, gate inhibition's radio receiving transmitting module 42 sends to wireless receiving and dispatching base station 12 by wireless transmission method with information, and wireless receiving and dispatching base station 12 sends information to central processing unit 11;

Step 14: central processing unit 11 is checked the information of receiving with the recovery inventory information;

When the information unanimity, central processing unit 11 sends instruction to wireless receiving and dispatching base station 12, wireless receiving and dispatching base station 12 will be instructed and be sent to gate inhibition's radio receiving transmitting module 42 by Wireless transmission mode, gate inhibition's radio receiving transmitting module 42 sends instruction to gate inhibition's control module 43, gate inhibition's control module 43 starts gate inhibition's display module 44, display module 44 promptings are reclaimed and are let pass, the information of receiving when central processing unit 11 is with to reclaim inventory information inconsistent, wireless receiving and dispatching base station 12 is given in central processing unit 11 move instructions, wireless receiving and dispatching base station 12 sends to gate inhibition's radio receiving transmitting module 42 with wireless transmission method with instruction, gate inhibition's radio receiving transmitting module 42 sends instruction to gate inhibition's control module 43, gate inhibition's control module 43 starts gate inhibition's display module 44, gate inhibition's display module 44 gives a warning, and forbids that boot unit 3 reclaims;

Step 15: after checking correctly, central processing unit 11 prints the recovery inventory by output device, related personnel's signature.

Wherein, the process of step 1-5 is placed on distribution and the indication of boot unit according to central processing unit on the suitable overhead baggage rack unit, the process of step 6-11 is also passed through the distribution of central processing unit and is indicated the boot unit that extracts on the overhead baggage rack unit by the extraction voucher that extracts the people, and the boot unit passed through gate control system, accurately take out, the process of step 12-15 is that the boot unit that needs reclaim is checked by the information with in the central processing unit of gate control system, accurately warehouse-in.The utility model RFID electronics boot system and control method thereof, workstation is manually finished based on RFID technology control indication, has improved work efficiency, reduces error rate.

Certainly, must recognize that above-mentioned introduction is the explanation of relevant the utility model preferred embodiment, only otherwise depart from the shown spirit and scope of claims subsequently, the utility model also exists many modifications.

The utility model only is confined to shown details of above-mentioned explanation or accompanying drawing and method anything but.The utility model can have other embodiment, and can adopt multiple mode to be implemented.In addition, everybody must recognize that also employed wording and term and digest be the purpose in order to realize introducing just, only is confined to this anything but here.

Just because of this, one skilled in the art will appreciate that the utility model based on viewpoint can be used as at any time and implement several targets of the present utility model and design other structure, method and system.So, it is essential that appended claim will be regarded as the construction that comprised that all these are of equal value, as long as they do not depart from spirit and scope of the present utility model.

Claims (7)

1.RFID electronics boot system is characterized in that, comprises workstation (1), shelf (2), a plurality of boots unit (3), gate control system (4), handhold RFID reader (5) and a plurality of main frame (6);

Described workstation (1) comprises central processing unit (11), be connected with central processing unit (11) and the wireless receiving and dispatching base station (12) of bi-directional transfer of data, is connected the also input equipment (13) and the output device (14) of bi-directional transfer of data with central processing unit (11) respectively;

Described shelf (2) comprise one group of overhead baggage rack unit (20), described every group of overhead baggage rack unit (20) is used to place boot unit (3), and described every group of overhead baggage rack unit (20) all comprises shelf frame (25), is arranged on the shelf control module (23) of a side of shelf frame (25), is arranged on a side of shelf frame (25) and shelf display module (24) that is connected with shelf control module (23) and the infrared detection module (26) that is connected with shelf display module (24);

Described each main frame (6) and a corresponding shelf control module (23) connection, a plurality of main frames (6) are connected with the mode of central processing unit (11) with bus, bi-directional transmission of information between described main frame (6) and the central processing unit (11);

Described each boot unit (3) leaves in the shelf frame (25) of each overhead baggage rack unit (20), the boot RFID writing module (33) that described each boot unit (3) all comprises casing (34), is arranged on the RFID electronic tag (31) of casing (34) outside, both sides, is arranged on the boot wireless receiving module (32) on the casing (34) and is connected with boot wireless receiving module (32);

Described gate control system (4) comprises gate inhibition's framework (45), the gate inhibition's display module (44) that is arranged on the gate inhibition RFID read module (41) of gate inhibition's framework (45) inside, both sides, the gate inhibition's radio receiving transmitting module (42), a side that is arranged on gate inhibition's framework (45) and the gate inhibition's control module (43) that is connected with gate inhibition's radio receiving transmitting module (42) that are connected with the gate inhibition RFID read module (41) of gate inhibition's framework (45) one sides and a side that is arranged on gate inhibition's framework (45) and is connected with gate inhibition's control module (43);

The hand-hold wireless sending module (52) that is provided with handhold RFID read module (51) in the described handhold RFID reader (5) and is connected with handhold RFID read module (51);

Two-way transmission of wireless transmission method or reception information are passed through with boot wireless receiving module (32), gate inhibition's radio receiving transmitting module (42) and hand-hold wireless sending module (52) respectively in described wireless receiving and dispatching base station (12);

Described gate inhibition RFID read module (41) reads in the information of the RFID electronic tag (31) of each boot unit (3) by wireless transmission method.

2. RFID electronics boot according to claim 1 system is characterized in that also comprising go-cart, and described go-cart is used to transport boot unit (3).

3. RFID electronics boot according to claim 1 system is characterized in that described boot RFID writing module (33) writes information by wireless mode the RFID electronic tag (31) of casing (34) outside, both sides.

4. RFID electronics boot according to claim 1 system, it is characterized in that described overhead baggage rack unit (20) also comprises the shelf RFID read module (21) that is arranged on shelf frame (25) inside, both sides and is arranged on the infrared detection module (26) that shelf frame (25) one sides are connected with shelf RFID display module (24).

5. RFID electronics boot according to claim 4 system, it is characterized in that, when described boot unit (3) placement shelf (2) were gone up, the RFID electronic tag (31) of casing (34) both sides of each boot unit (3) was corresponding respectively separately with the shelf RFID read module (21) of shelf frame (25) both sides of each overhead baggage rack unit (20).

6. RFID electronics boot according to claim 5 system is characterized in that described shelf RFID read module (21) reads in the information of the RFID electronic tag (31) of each boot unit (3) by wireless transmission method.

7. RFID electronics boot according to claim 1 system, it is characterized in that, when described boot unit (20) was placed in the gate control system, the RFID electronic tag (31) of casing (34) both sides of each boot unit (20) was corresponding respectively separately with the gate inhibition RFID read module (41) of gate inhibition's framework (45) both sides respectively.

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