CN213605272U - RFID intelligent equipment cabinet - Google Patents

Abstract

The utility model provides a RFID intelligent equipment cabinet belongs to the intelligent management field of civil aviation equipment. This RFID intelligent equipment cabinet includes: the equipment storage cabinet and the operation cabinet are arranged below the equipment storage cabinet; a plurality of equipment are placed in the equipment storage cabinet, and each equipment is provided with an RFID label; an RFID antenna is arranged in the equipment storage cabinet; and a main controller and an RFID reader are arranged in the operation cabinet. The RFID intelligent equipment cabinet is deployed at a single airline station of an airline company, so that the intelligent level of equipment management is improved, the labor is reduced, the cost is reduced, the expense of the airline company can be saved, and the loss caused by equipment loss can be reduced.

Description

RFID intelligent equipment cabinet

Technical Field

The utility model belongs to the intelligent management field of civil aviation equipment, concretely relates to RFID intelligent equipment cabinet is the application of thing networking RFID technique in the management of civil aviation equipment.

Background

In the field of civil aviation maintenance, maintenance equipment (including aviation materials, chemical products, consumables and the like) is an essential maintenance element in the maintenance process, and the management efficiency of the maintenance equipment directly influences the availability rate and flight punctuality rate of an airline airplane. At present, each airline company still continues to use the traditional storehouse management mode in the management of airline maintenance equipment, sets up the aviation materials storehouse in the airline industry field, places maintenance equipment in the aviation materials storehouse, mainly still adopts the mode of manual management, and the manual work carries out the warehouse entry and exit management and the inventory of equipment, and intelligent level is not high, causes easily that people such as equipment acceptance error takes place for the mistake to the condition that equipment loses takes place occasionally. Due to the fact that airlines are numerous, the mode management equipment is adopted at each airline airport, the warehouse renting cost and the management personnel expenditure are high, and the management and operation cost of the airlines is increased. At present, no intelligent equipment cabinet is available at airline stations.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve the difficult problem that exists among the above-mentioned prior art, provide a RFID intelligent equipment cabinet, improve the intelligent level of equipment management, reduce the manual work, reduce cost.

The utility model discloses a realize through following technical scheme:

an RFID smart equipment cabinet, comprising: the equipment storage cabinet and the operation cabinet are arranged below the equipment storage cabinet;

a plurality of equipment are placed in the equipment storage cabinet, and each equipment is provided with an RFID label;

an RFID antenna is arranged in the equipment storage cabinet;

and a main controller and an RFID reader are arranged in the operation cabinet.

The utility model discloses a further improvement lies in, the operation cabinet adopts the drawer structure, can follow pull out behind the below of equipment storing compartment or push forward the below of equipment storing compartment.

The utility model has the further improvement that a power socket, an operation cabinet lock, an operation cabinet handle and a power switch are arranged on the panel of the operation cabinet;

the power socket can be connected with an external power supply through a wire, and the power switch is connected with the power socket.

The utility model discloses a further improvement lies in be provided with in the inner chamber of operation cabinet: the system comprises an electric control lock control panel, a deconcentrator, a temperature and humidity sensor, a switch, an electromagnetic lock control panel and an RFID reader;

the main controller, the electric control lock control panel, the temperature and humidity sensor, the switch, the electromagnetic lock control panel and the RFID reader are respectively connected with the deconcentrator;

the temperature and humidity sensor, the switch and the electric control lock control board are respectively connected with the main controller;

the switch is respectively connected with the electromagnetic lock control board and the RFID reader.

The utility model is further improved in that a wireless communication module, a switch power supply and a case power supply are arranged at the top of the equipment storage cabinet;

the wireless communication module is connected with the main controller;

the power switch controls the on-off of the switch power supply and the chassis power supply;

the deconcentrator is connected with the switching power supply;

and the case power supply is respectively connected with the electric control lock control panel and the electromagnetic lock control panel.

Preferably, insurance is respectively arranged among the main controller, the touch display screen, the RFID reader, the wireless communication module, the card reader and the total insurance;

and a safety is arranged among the electromagnetic lock control panel, the electric control lock control panel and the case power supply.

The utility model is further improved in that a front cabinet door is arranged at the front side of the equipment storage cabinet;

a back plate is arranged at the rear side of the equipment storage cabinet, and a rear cabinet door is arranged at the rear side of the back plate;

the RFID antenna is arranged on the rear side surface of the back plate and connected with the RFID reader.

The utility model is further improved in that a mechanical lock is arranged at the front side of the upper end of the equipment storage cabinet;

the front cabinet door is provided with a touch display screen, a card reader and a cabinet door handle;

the card reader and the touch display screen are respectively connected with the main controller.

The utility model is further improved in that the front side of the upper end of the equipment storage cabinet is provided with an electric control lock and an electromagnetic lock, and the front side of the lower end of the equipment storage cabinet is provided with the electromagnetic lock; the electric control lock is connected with the electric control lock control panel, and the electromagnetic lock is connected with the electromagnetic lock control panel.

Preferably, the front cabinet door and the rear cabinet door are both double-opened doors;

preferably, a rear cabinet door lock is arranged on the rear cabinet door;

preferably, a plurality of trays are arranged in the inner cavity of the equipment storage cabinet; each tray is a push-pull tray, and sponge is arranged on each layer of tray;

preferably, a roller is installed at the bottom of the RFID intelligent equipment cabinet.

Compared with the prior art, the beneficial effects of the utility model are that: the RFID intelligent equipment cabinet is deployed at a single airline station of an airline company, so that the intelligent level of equipment management is improved, the labor is reduced, the cost is reduced, the expense of the airline company can be saved, and the loss caused by equipment loss can be reduced.

Drawings

FIG. 1 is a schematic view of the RFID intelligent equipment cabinet of the present invention;

FIG. 2 is a schematic view of the RFID intelligent equipment cabinet of the present invention;

FIG. 3 is a schematic view of the front view of the RFID intelligent equipment cabinet of the present invention;

FIG. 4 is a schematic diagram of a rear view structure of the RFID intelligent equipment cabinet of the present invention;

FIG. 5 is a schematic diagram of the rear internal structure of the RFID intelligent equipment cabinet of the present invention;

fig. 6 is a schematic view of the top structure of the RFID intelligent equipment cabinet.

Fig. 7 is a schematic structural diagram of the operation cabinet of the RFID intelligent equipment cabinet.

FIG. 8 is a schematic diagram of the RFID intelligent equipment cabinet of the present invention;

fig. 9 is a power supply diagram of the RFID intelligent equipment cabinet.

Wherein the content of the first and second substances,

1. mechanical lock

2. Touch display screen

3. Card reader

4. Cabinet door handle

5. Front cabinet door

6. Roller wheel

7. Electric control lock

8. Electromagnetic lock

9. Tray

10. Rear cabinet door

11. Back cabinet door lock

12. Operation cabinet

13. Power socket

14. Operation cabinet lock

15. Handle of operation cabinet

16. Power switch

RFID antenna

18. Wireless communication module

19. Switching power supply

20. Cabinet power supply

21. Main controller

22. Control panel of electromagnetic lock

23. Wire distributor

24. Temperature and humidity sensor

25. Total insurance

26. Air switch

27. Switch

28. Electric control lock control panel

RFID reader 29

Detailed Description

The invention is described in further detail below with reference to the accompanying drawings:

the utility model discloses RFID intelligent equipment cabinet mainly is the pain point of solving the airline company at present in the management of line aircraft material, and RFID intelligent equipment cabinet is the aeronautical materials storehouse of "reducing the version", pastes the RFID label on equipment packing (or body), installs the fixed card reader of RFID in the equipment cabinet, utilizes the RFID internet of things to realize the intelligent management to the equipment, realizes promptly that automatic equipment goes out to put in storage, equipment is checked, the in time management of stock controlling part and data real-time transmission etc.. An airline company places an RFID intelligent equipment cabinet at an airline station, and supplements the equipment periodically/irregularly according to the use condition of the equipment. According to the working requirement, the maintenance worker of the air route directly goes to the intelligent equipment cabinet to take out the required equipment after finishing the identity recognition, and the intelligent equipment cabinet automatically records the personnel identity information of the equipment and the information of the adopted aviation materials. For a leading out unused equipment (RFID tag intact), the maintenance personnel can return it to the equipment cabinet. Each operation record of the equipment cabinet is transmitted to a server (such as an airline aviation material management system) in real time by using a communication module (such as Wi-Fi/4G) of the equipment cabinet. The equipment cabinet can receive the regular/irregular checking instruction of the management system, check the equipment in real time through the RFID fixed card reader, and feed back the checking result to the server. The server can analyze big data according to the acquired acceptance data of the equipment in the air route equipment cabinet, optimize the equipment storage scheme (storage quantity and replenishment period) of the equipment cabinet and realize the intelligent management of the air route equipment.

Specifically, as shown in fig. 1 to 9, the utility model discloses RFID intelligent equipment cabinet includes: the equipment storing compartment and the operation cabinet of setting in equipment storing compartment below. The equipment storing cabinet is used for storing equipment, and the operation cabinet is used for installing a plurality of electrical modules.

As shown in fig. 2, a front cabinet door 5 is arranged at the front side of the equipment storage cabinet, and the front cabinet door 5 is hinged with the equipment storage cabinet. The upper end of the equipment storage cabinet is provided with a mechanical lock 1. A touch display screen 2, a card reader 3 and a cabinet door handle 4 are arranged on a front cabinet door 5, and rollers 6 are mounted at the bottom of the RFID intelligent equipment cabinet.

The touch display screen 2 adopts various existing touch display screens, can provide a visual operation interface, and realizes the interaction function of man-machine data through the operation interface. The user can operate the borrowing and returning operations of the equipment through the touch display screen, and the equipment information can be displayed at the same time.

The card reader 3 can adopt various existing card readers, and login authority management can be achieved by identifying an ID card. Touch display screen, the ware of punching the card are all mature technology, and no longer repeated here.

As shown in fig. 3, an electric control lock 7 and an electromagnetic lock 8 are arranged at the upper end of the equipment storage cabinet, and an electromagnetic lock 8 is arranged at the lower end of the equipment storage cabinet. A plurality of trays 9 are arranged in the inner cavity of the equipment storage cabinet, a plurality of equipment can be placed on each tray 9, an RFID label is pasted on the surface of each equipment, and the RFID label contains equipment information of the equipment.

As shown in fig. 4, a back plate is arranged at the rear side of the equipment storage cabinet, a rear cabinet door 10 is arranged at the rear side of the back plate, and the rear cabinet door 10 is hinged to the equipment storage cabinet. A rear cabinet door lock 11 is arranged on the rear cabinet door 10.

The operation cabinet 12 is of a drawer structure and can be pulled out from the lower side of the equipment storage cabinet or pushed into the lower side of the equipment storage cabinet, and a user can maintain all components in the operation cabinet conveniently. The panel of the operation cabinet 12 is provided with a power socket 13, an operation cabinet lock 14, an operation cabinet handle 15 and a power switch 16. The power switch 16 controls the power-on and power-off of the whole intelligent equipment cabinet. The power outlet 13 can communicate with an external power source by connecting a wire between the external power source and the power outlet 13. The operation cabinet lock 15 can be any of various existing locks. The power switch 16 is connected with the power socket 13 to control the on-off of the power supply.

As shown in fig. 5, a plurality of RFID antennas 17 are installed on the rear side surface of the back plate of the equipment storage cabinet, and 4 RFID antennas 17 are installed in the embodiment shown in fig. 5, so that in order to ensure that the equipment is not missed, 4 antennas are simultaneously operated, and the equipment in the whole equipment storage cabinet can be scanned.

The rear cabinet door 10 has a protective effect on the RFID antenna 17, and when the RFID antenna 17 needs to be replaced or maintained, the rear cabinet door 10 is opened to perform related operations.

As shown in fig. 6, a wireless communication module 18, a switching power supply 19 and a chassis power supply 20 are disposed on the top of the equipment storage cabinet, and a power switch 16 disposed on the panel of the operation cabinet controls on/off of the switching power supply 19 and the chassis power supply. The wireless communication module 18 may employ an existing WIFI/4G module or the like.

As shown in fig. 7, in the inner cavity of the operation cabinet 12 are disposed: the system comprises a main controller 21, an electromagnetic lock control board 22, a deconcentrator 23, a temperature and humidity sensor 24, a master fuse 25, an air switch 26, a switch 27, an electric control lock control board 28 and an RFID reader 29. The positions of the various elements can be set according to the actual needs and the size of the operation cabinet. The electromagnetic lock control panel 22 controls the electromagnetic lock 8, and the electric control lock control panel controls the electric control lock 7. The deconcentrator is connected with a switching power supply and a main fuse, and simultaneously, the deconcentrator is respectively connected with the main controller, the RFID reader and other components in the operation cabinet 12 to supply power to the components. Considering that the network port of the main controller 21 may not be enough, the switch 27 is added in this embodiment, one end of the switch 27 is connected to the main controller 21, the other end is connected to the electromagnetic lock control board and the RFID reader, respectively, and the electromagnetic lock control board is connected to the electromagnetic lock. The deconcentrator 23, the temperature and humidity sensor 24, the switch 27 and the electric control lock control board 28 are respectively electrically connected with the main controller 21. These components are all existing components and are not described herein.

The air switch 26 and the total fuse 25 are used to protect the personal safety of the user and the normal use of the electrical module inside the device. And the RFID antenna 17 positioned on the back plate of the equipment storage cabinet is connected with an RFID reader arranged in the operation cabinet through a feeder line.

Preferably, fuses are further arranged between the main controller, the touch display screen, the RFID reader, the wireless communication module, the card reader and the main fuse respectively, fuses are further arranged between the air switch and the case power supply, and the case power supply is connected with the electromagnetic lock control panel 22 and the electric control lock respectively. The electric control lock is provided with a mechanical linkage device, the mechanical lock 1 is connected with the electric control lock through the mechanical linkage device, and when a key is inserted into a socket of the mechanical lock 1 to open the mechanical lock, the mechanical lock transmits the motion to the mechanical linkage device of the electric control lock through the linkage device to open the cabinet door.

As shown in fig. 8, the electromagnetic lock control board communicates with the main controller 21 through the internet access via the switch, the main controller 21 sends an instruction to the electromagnetic lock control board, and the electromagnetic lock control board controls the opening and closing of the electromagnetic lock 8 and returns an open or closed state signal of the electromagnetic lock 8 to the main controller 21.

Electromagnetic lock 8 is controlled to electromagnetic lock control panel 22, and automatically controlled lock 7 is controlled to automatically controlled lock control panel 28, is existing equipment, and no longer repeated here, only to the theory of operation brief introduction as follows: when the door is opened, the card reader transmits information to the main controller 21, the main controller 21 sends an unlocking signal to the electromagnetic lock control panel 22, and after the electromagnetic lock control panel 22 receives the door opening signal, the electromagnetic lock 8 is controlled to be opened, and meanwhile, the unlocking signal is fed back to the main controller 21; after receiving the feedback signal that the electromagnetic lock has been unlocked, the main controller 21 sends an unlocking signal to the electric control lock control board 28, and after receiving the unlocking signal, the electric control lock control board 28 controls the electric control lock 7 to open. When the door is closed, the electric control lock 7 can be automatically locked, then the electric control lock control panel 28 feeds back a locking signal to the main controller 21, the main controller 21 sends the locking signal to the electromagnetic lock control panel 22, and the electromagnetic lock control panel 22 controls the electromagnetic lock 8 to be closed. When power is unexpectedly cut off, the electromagnetic lock 8 in the closed state can lose the function, but at the moment, the electric control lock 7 still keeps the closed state, namely the door cannot be opened. If the cabinet door is to be opened in the power-off state, the electric control lock can be opened through inserting the key into the socket of the mechanical lock and the transmission device of the mechanical lock and the electric control lock, and then the cabinet door can be opened.

Specifically, the main controller 21 may be implemented by various existing industrial computers, such as a GZ-1037 type industrial computer.

Meanwhile, the main controller 21 is respectively connected with the card reader 3, the wireless communication module 18 and the touch display screen 2 (these modules are respectively connected with a communication interface of the main controller through data lines). The card reader 3 recognizes the ID card information and returns a judgment result to the main controller 21, and the main controller executes a corresponding operation according to the judgment result.

The RFID reader 29 is used for detecting the equipment in the equipment cabinet, the RFID reader 29 emits electromagnetic wave signals outwards through the RFID antenna 17, the electromagnetic wave signals activate the RFID label attached to the equipment, then the RFID label returns the equipment information, and the RFID reader 29 collects the equipment information returned by the label through the RFID antenna 17.

The wireless communication module 18 is used for wireless transmission of data, and the main controller 21 performs data interaction with the server through the wireless communication module 18, transmits equipment data and receives instructions.

As shown in FIG. 9, the present invention uses a 220VAC/50Hz power supply depending on the environment in which the device is operating and the user's needs. The voltage signals used in the equipment are two voltages, namely 220VAC voltage and 12VDC voltage (220V is used for supplying power to a case power supply and a switch power supply, 12V is used for supplying power to other electrical modules), and in order to improve the running stability of the equipment, the equipment is provided with a power supply for supplying power to the equipment, so that the stability of the power supply is ensured. In order to ensure the security of equipment, prevent to cause the injury to other equipment because of an equipment short circuit, the utility model designs an independent overcurrent protection circuit. The case power supply is used for supplying power for the electromagnetic lock control panel and the electric control lock control panel, and stable operation of the electromagnetic lock and the electric control lock is guaranteed. The power supply voltage selected by other electrical modules in the equipment cabinet is 12VDC, and the voltage of 220VAC provided by the outside is converted by the switch power supply and the case power supply to obtain the voltage of 12VDC to meet the power supply of the electrical modules. The switching power supply plays a role in reducing voltage.

The switching power supply provides electric power support for internal equipment, and normal operation of the equipment cabinet system is guaranteed. A 220VAC power supply, a switching power supply outputting 12 VDC.

The main controller 21 sends an instruction to the electromagnetic lock control board 22 and then receives data information returned by the electromagnetic lock control board 22, and when the data information returned by the electromagnetic lock control board 22 is a door closed state, the main controller 21 sends a scanning instruction to the RFID reader 29 and receives data transmitted by the RFID reader 29.

The cabinet power supply 20 provides power to the electromagnetic lock control board 22 and the electrically controlled lock control board 28. The 220VAC power supply supplies power for the switching power supply and the case power supply, and the switching power supply and the case power supply output 12VDC voltage to supply power for the electrical modules of the equipment cabinet.

The embodiment of the utility model is as follows:

[ EXAMPLES one ]

The front cabinet door and the rear cabinet door of the equipment storage cabinet are both composed of double doors.

[ example two ]

In the embodiment shown in fig. 3, four layers of trays are arranged, each tray is push-pull type, and sponge is arranged on each layer of tray to hold the equipment.

[ EXAMPLE III ]

The utility model discloses outstanding edges and corners part all adopts cornerite design and designs dedicated equipment case ground terminal and prevents to cause the injury to the human body.

[ EXAMPLE IV ]

The relevant parameters in this example are as follows:

a) the size of the tray is as follows: length x depth is about 750mm x 350 mm;

b) the total number of layers of the equipment cabinet: the equipment cabinet is internally provided with 4 layers of trays for containing the equipment;

c) weight that each layer can bear: each layer of tray of the equipment cabinet bears about 50 kg;

d) stability: the equipment cabinet has good coordination and stability;

e) mobility: the moving wheels are installed at the bottom of the equipment cabinet, so that a user can move the equipment cabinet conveniently.

Utilize the utility model discloses RFID intelligent equipment cabinet can realize following function:

1. appliance adding function

And adding new equipment, updating the equipment information in the total database of the equipment cabinet, and managing the new equipment in the equipment cabinet. Specifically, when adding equipment, the main controller 19 requests an equipment list from the server through the network, and selects corresponding equipment from the equipment list to bind with the equipment cabinet, thereby realizing equipment addition. The information binding can be realized by adopting the prior art, and is not described again here.

2. Appliance deletion function

And deleting damaged or unnecessary equipment, updating equipment information in a total database of the equipment cabinet, and managing the equipment in the equipment cabinet. Specifically, when the equipment is deleted, the main controller lists the equipment list bound with the equipment cabinet, selects the equipment to be deleted from the equipment list, removes the binding relationship with the equipment cabinet, realizes the deletion of the equipment, and transmits the result to the server through the network. The information unbinding can be realized by adopting the prior art, and is not described again here.

3, automatic detection function of equipment

When the intelligent equipment cabinet closes the cabinet door each time, the in-place state of the equipment can be automatically detected by the RFID system in the cabinet. Specifically, the equipment cabinet is closing the cabinet door after, and after the electric control lock locked the cabinet door, the electric control lock control panel sent cabinet door locking signal for main control unit through the electromagnetic lock control panel, and after the industrial computer received this signal, read ware send instruction for RFID and carry out label scanning, RFID reads the ware and carries out label scanning through the RFID antenna, feeds back scanning result to main control unit, and main control unit judges the equipment state in place according to scanning structure to the state that will be in place shows on touch display screen. The implementation by using the existing RFID technology is not described herein.

4. Function of equipment reception

The equipment is received, and corresponding receiving information is recorded. Specifically, the equipment cabinet is opened through the mode of punching the card or logging in to the person of claiming, and the identity information of the person of claiming is taken away to the person of claiming, and after taking away the equipment and closing the cabinet door, the equipment cabinet automated inspection equipment is the state in place, compares with the state before opening the door, and few equipment are exactly the equipment that is being sought.

5, return function of equipment

And realizing the return of the equipment (the unused equipment is led out, the RFID label is intact), and recording corresponding return information. Specifically, the returning person opens the equipment cabinet by swiping a card or logging in, the equipment cabinet records the identity information of the returning person, after the returning person returns the equipment and closes the cabinet door, the equipment cabinet automatically detects the on-site state of the equipment, and the on-site state of the equipment is compared with the state before the door is opened, so that more equipment is returned equipment. The comparison of the appliance receiving and returning functions is realized by the existing method, for example, the condition of the appliance can be determined by establishing a table, comparing the retrieved result with each item in the table.

6. Equipment periodic inspection reminding function

To the time controlling part, the intelligent equipment cabinet can set the detection time and the detection period of the equipment, the user can be reminded to process the equipment needing periodic inspection after the equipment is detected to be expired, and the equipment cabinet manager can take out the equipment to carry out periodic inspection. Specifically, if the equipment is a time control, the time control has an effective date, the equipment cabinet compares the effective date of the time control in the equipment cabinet with the date of the day at a set time (such as zero point of each day), and if the comparison result is less than a set alarm value (for example, 5 days), the equipment cabinet displays the equipment which is about to expire on the touch display screen and sends the result to the server through the network. This comparison can be achieved by the existing method, and is not described herein again.

7. One-keyboard point function of equipment

All the equipment in the equipment cabinet can be checked by one key in the intelligent equipment cabinet, and the in-place state information of all the equipment can be displayed on the touch display screen. The intelligent equipment cabinet can also receive the inventory instruction sent by the server to perform equipment inventory in real time and upload the inventory result in real time. Specifically, when equipment is required to be checked, an operator does not need to perform the checking operation on the site of the equipment cabinet (certainly, the checking function on the touch display screen can be clicked on the site of the equipment cabinet), the equipment cabinet required to be checked is selected to be clicked at the rear end of the server, the command is transmitted to the designated equipment cabinet through the network, and after the main controller of the equipment cabinet receives the checking command, the checking task is executed and the checking result is transmitted to the server. The checking is realized by adopting the prior art, for example, a table is established, and the retrieved result is compared with each item in the table to determine whether the items are complete or missing.

8. System login function

The intelligent equipment cabinet can log in the system in a card swiping mode or by inputting a user name and a password through a touch display screen (in the case of failure of the card swiping system), and the system stores at least 100 pieces of account information. The login authority can be divided into a plurality of levels, namely, two levels of administrator authority and user authority. These are prior art and will not be described further herein.

9. Touch operation main interface function

The intelligent equipment cabinet is operated by using the touch display screen, and a user can operate the intelligent equipment cabinet by using the touch display screen. These are prior art and will not be described further herein.

10. Data recording function

The intelligent equipment cabinet establishes a database, and the database can record not only all equipment information, but also equipment information and user information when the equipment is received and returned.

11. Function of opening cabinet in case of power failure

Under the condition of uncontrollable power failure, the intelligent equipment cabinet can open the cabinet door of the equipment cabinet by other methods. Specifically, the cabinet door is still in the closed condition (electromagnetic lock can be in the open mode) under the outage circumstances to automatically controlled lock, and automatically controlled lock itself has mechanical aggregate unit, and this mechanical aggregate unit is connected with the mechanical lock, inserts the key when opening the mechanical lock in the socket of mechanical lock 1, and the mechanical lock passes through aggregate unit and will move the mechanical aggregate unit who transmits the electrically controlled lock and open the cabinet door. These are well-established technologies and will not be described herein.

Each component of intelligent equipment cabinet in this embodiment coordinates unified, and the outward appearance is succinct generous, and overall structure stability is good, and overall dimension accords with human use custom. The man-machine interaction interface is simple and attractive, and the operation performance is good. The intelligent equipment cabinet has accurate interface definition and is convenient to interconnect.

Found through the experiment, utilize the utility model discloses can practice thrift airline's expense 80 ten thousand yuan, the loss that the equipment lost and brought has reduced 20 ten thousand yuan.

The above technical solution is only an implementation manner of the present invention, and for those skilled in the art, based on the principle disclosed in the present invention, various modifications or variations can be easily made, and not limited to the structure described in the above specific embodiments of the present invention, so that the foregoing description is only preferred, and not restrictive.

Claims (10)

1. An RFID intelligent equipment cabinet which characterized in that: the RFID smart equipment cabinet includes: the equipment storage cabinet and the operation cabinet are arranged below the equipment storage cabinet;

a plurality of equipment are placed in the equipment storage cabinet, and each equipment is provided with an RFID label;

an RFID antenna is arranged in the equipment storage cabinet;

and a main controller and an RFID reader are arranged in the operation cabinet.

2. The RFID smart fixture cabinet of claim 1, wherein: the operation cabinet adopts a drawer structure.

3. The RFID smart fixture cabinet of claim 2, wherein: a power socket, an operation cabinet lock, an operation cabinet handle and a power switch are arranged on the panel of the operation cabinet;

the power socket can be connected with an external power supply through a wire, and the power switch is connected with the power socket.

4. The RFID smart equipment cabinet of claim 3, wherein: the inner cavity of the operation cabinet is provided with: the system comprises an electric control lock control panel, a deconcentrator, a temperature and humidity sensor, a switch, an electromagnetic lock control panel and an RFID reader;

the main controller, the electric control lock control panel, the temperature and humidity sensor, the switch, the electromagnetic lock control panel and the RFID reader are respectively connected with the deconcentrator;

the temperature and humidity sensor, the switch and the electric control lock control board are respectively connected with the main controller;

the switch is respectively connected with the electromagnetic lock control board and the RFID reader.

5. The RFID smart equipment cabinet of claim 4, wherein: the top of the equipment storage cabinet is provided with a wireless communication module, a switching power supply and a case power supply;

the wireless communication module is connected with the main controller;

the power switch controls the on-off of the switch power supply and the chassis power supply;

the deconcentrator is connected with the switching power supply;

and the case power supply is respectively connected with the electric control lock control panel and the electromagnetic lock control panel.

6. The RFID smart equipment cabinet of claim 5, wherein: fuses are respectively arranged among the main controller, the touch display screen, the RFID reader, the wireless communication module, the card reader and the total fuse;

and a safety is arranged among the electromagnetic lock control panel, the electric control lock control panel and the case power supply.

7. The RFID smart equipment cabinet of claim 6, wherein: a front cabinet door is arranged on the front side of the equipment storage cabinet;

a back plate is arranged at the rear side of the equipment storage cabinet, and a rear cabinet door is arranged at the rear side of the back plate;

the RFID antenna is arranged on the rear side surface of the back plate and connected with the RFID reader.

8. The RFID smart fixture cabinet of claim 7, wherein: a mechanical lock is arranged on the front side of the upper end of the equipment storage cabinet;

the front cabinet door is provided with a touch display screen, a card reader and a cabinet door handle;

the card reader and the touch display screen are respectively connected with the main controller.

9. The RFID smart equipment cabinet of claim 8, wherein: an electric control lock and an electromagnetic lock are arranged on the front side of the upper end of the equipment storage cabinet, and an electromagnetic lock is arranged on the front side of the lower end of the equipment storage cabinet; the electric control lock is connected with the electric control lock control panel, and the electromagnetic lock is connected with the electromagnetic lock control panel.

10. The RFID smart equipment cabinet of claim 9, wherein: the front cabinet door and the rear cabinet door are both double-opened;

a rear cabinet door lock is arranged on the rear cabinet door;

a plurality of trays are arranged in the inner cavity of the equipment storage cabinet; each tray is a push-pull tray, and sponge is arranged on each layer of tray;

and rollers are installed at the bottom of the RFID intelligent equipment cabinet.

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