CN217008266U - Intelligent four-class library - Google Patents

Abstract

The application relates to the field of service libraries, in particular to an intelligent four-class library which comprises a power supply module, a main control module, a conversion module, an electronic control lock module, an identification module and an alarm module, wherein the power supply module is used for supplying power to the main control module, the conversion module, the electronic control lock module, the identification module and the alarm module; the main control module is used for outputting a control signal, the identification module is used for identifying whether a door opening condition is met or not, the electronic control lock module is used for controlling a door lock, the alarm module is used for giving an alarm, and the conversion module is used for converting the signal; when the warehouse door needs to be opened, the identification module performs identification work, the identification module outputs a signal to the main control module, if the door opening condition is met, the main control module outputs a signal to the electric control lock module, and the electric control lock module controls the door lock to be opened; if the alarm condition is met, the main control module controls the alarm module to give an alarm; the method has the function of intelligently controlling the four types of libraries.

Description

Intelligent four-class library

Technical Field

The application relates to the field of service libraries, in particular to an intelligent four-class library.

Background

Banks are generally provided with banks for keeping cash, valuables, etc., and four types of banks are one type of bank, and the silhouettes of the four types of banks are often seen in the banks.

The four types of storehouses are used for storing valuables, and are in a closed locking state when being used at ordinary times; in the related technology, when a person who wants to open the four types of libraries asks for a door opening password from a person who keeps the password, the person who opens the door can open the four types of libraries after inputting the door opening password through a password lock; the steps of opening the four types of libraries are cumbersome and not practical enough.

SUMMERY OF THE UTILITY MODEL

In order to improve the practical degree of four types of storehouses, the application provides an intelligent four types of storehouses.

The application provides an intelligent four-class library adopts following technical scheme:

an intelligent four-class library comprises a power supply module, a main control module, an identification module and an electric control lock module;

the power supply module is used for supplying power to the main control module, the identification module and the electric control lock module;

the identification module is used for reading information of a worker who opens the door and outputting the read information to the main control module;

the main control module is used for outputting a corresponding signal to the electric control lock module according to the received information;

the electronic control lock module is used for controlling the door locks of the four types of storehouses;

the output end of the power supply module is respectively connected with the power supply input ends of the main control module, the identification module and the electric control lock module, the signal output end of the identification module is connected with the identification input end of the main control module, and the electric control output end of the main control module is connected with the signal input end of the electric control lock module.

By adopting the technical scheme, when the four-type library needs to be opened, the identification module reads the information of the staff who opens the door and outputs the read information to the main control module; if the information read by the identification module meets the door opening condition, the main control module outputs a signal to the electric control lock module, the electric control lock module outputs a signal for opening the door lock, the door lock of the four-class warehouse is opened, and a worker for opening the door can open the warehouse door of the four-class warehouse; the main control module, the identification module and the electric control lock module are matched to improve the convenience degree of opening the four types of libraries, and the effect of improving the practical degree of the four types of libraries is achieved.

Optionally, the intelligent four-class library comprises an alarm module, the alarm module is used for giving an alarm, and the input end of the alarm module is connected with the alarm output end of the main control module.

By adopting the technical scheme, when the behavior meeting the alarm condition is triggered, the main control module outputs a signal to the alarm module, and the alarm module gives an alarm; the alarm module is arranged, so that the working personnel can find the abnormal conditions of the four types of libraries in time.

Optionally, the intelligent four-class library includes an interaction module, the interaction module is used for transferring signals, and an input end of the interaction module is connected with an interaction output end of the main control module.

By adopting the technical scheme, the main control module is used for interacting and converting signals in the process of transmitting data to an external computer, a controller and the like, and the interaction module is used as a transfer station, so that the convenience degree of signal interaction is improved, and the main control module is convenient for data transmission.

Optionally, the main control module includes a main control chip and a debugging submodule, the main control chip is provided with a debugging end, and the debugging submodule is connected with the debugging end of the main control chip.

By adopting the technical scheme, in the process of debugging the operation logic of the main control chip, the main control chip is required to be connected with external debugging equipment, the debugging sub-module is used as a transfer socket, the external equipment is convenient to connect with the main control chip, and the convenience degree of debugging the chip is improved.

Optionally, the electrically controlled lock module comprises a state sub-module and a lock control sub-module, the state sub-module is used for detecting the states of the four types of warehouse doors, and the lock control sub-module is used for controlling the states of the four types of warehouse doors; the input end of the lock control submodule is connected with the lock control output end of the main control chip, and the output end of the state submodule is connected with the state input end of the main control chip.

By adopting the technical scheme, the status submodule outputs signals to the main control chip according to the status of the four types of warehouse doors, the main control chip outputs the signals to an external display according to the received status signals, and a worker judges the status of the four types of warehouse doors according to the prompt of the display; when the door is opened or closed, the main control chip outputs a corresponding signal to the lock control submodule, and the lock control submodule controls the door lock of the four-type storeroom to be opened or closed.

Optionally, the state sub-module includes a door state unit and a lock state unit, the door state unit is configured to detect that the four types of library doors are in an open/close state, and the lock state unit is configured to detect a state of a door lock of the four types of library doors; the output end of the gate state unit is connected with the gate state input sub-end of the main control chip, and the output end of the lock state unit is connected with the lock state input sub-end of the main control chip.

By adopting the technical scheme, the door state unit outputs signals to the main control chip according to the opening and closing states of the four types of warehouse doors, and the lock state unit outputs signals to the main control chip according to the states of the four types of warehouse door locks; the state of the four types of warehouse doors is subdivided by the door state unit and the lock state unit, so that a worker can know the states of the four types of warehouses more specifically.

Optionally, the identification module includes a fingerprint power supply module and a fingerprint identification sub-module, the fingerprint power supply module is configured to supply power to the fingerprint identification sub-module, and the fingerprint identification sub-module is configured to output a fingerprint identification signal; the output end of the fingerprint power supply sub-module is connected with the power supply input end of the fingerprint identification sub-module, and the output end of the fingerprint identification sub-module is connected with the fingerprint identification input end of the main control chip.

By adopting the technical scheme, when a worker opens the door, fingerprint information needs to be input, the fingerprint identification sub-module outputs a received fingerprint information signal to the main control chip, and the main control chip outputs a corresponding signal to the electric control lock module according to the received fingerprint information signal; the fingerprint power supply module supplies power to the fingerprint identification sub-module, so that the fingerprint identification sub-module can work normally.

Optionally, the fingerprint power supply module includes a fingerprint power-on display unit, the fingerprint power-on display unit includes an LED output end, and the fingerprint power-on display unit is configured to display a working state of the fingerprint identification module.

Through adopting above-mentioned technical scheme, when fingerprint power supply module supplied power to the fingerprint identification submodule piece, the LED lamp that fingerprint circular telegram display element connected lights, and the staff of being convenient for learns the operating condition of fingerprint identification submodule piece.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the four types of libraries need to be opened, the identification module reads information of workers who open the door and outputs the read information to the main control module; if the information read by the identification module meets the door opening condition, the main control module outputs a signal to the electric control lock module, the electric control lock module outputs a signal for opening the door lock, the door lock of the four-class warehouse is opened, and a worker for opening the door can open the warehouse door of the four-class warehouse; the main control module, the identification module and the electric control lock module are matched to improve the convenience degree of opening the four types of libraries, and the effect of improving the practical degree of the four types of libraries is achieved;

2. when a behavior meeting the alarm condition is triggered, the main control module outputs a signal to the alarm module, and the alarm module gives an alarm; the alarm module is arranged, so that the working personnel can find the abnormal conditions of the four types of libraries in time;

3. the main control module is used for exchanging and converting signals in the process of transmitting data to an external computer, a controller and the like, and the exchange module is used as a transfer station, so that the convenience degree of signal exchange is improved, and the main control module is convenient to transmit data.

Drawings

Fig. 1 is a diagram of an overall circuit configuration according to an embodiment of the present application.

Fig. 2 is a schematic diagram of a power supply module according to an embodiment of the present application.

Fig. 3 is a schematic diagram of a main control module according to an embodiment of the present application.

Fig. 4 is a schematic diagram of an interaction module according to an embodiment of the present application.

Fig. 5 is a schematic view of an electronic control lock module according to an embodiment of the present application.

Fig. 6 is a schematic diagram of an identification module according to an embodiment of the present application.

Fig. 7 is a schematic diagram of an anti-prying alarm sub-module according to an embodiment of the application.

Fig. 8 is a schematic diagram of a small door control module according to an embodiment of the present application.

Description of reference numerals:

1. a power supply module; 11. a power supply introduction unit; 12. a power supply reset unit; 13. a power supply impurity removal unit; 2. a main control module; 21. a main control chip; 22. debugging a submodule; 221. debugging the socket unit; 222. debugging a reset unit; 3. an identification module; 31. a fingerprint power supply module; 311. a fingerprint power-on display unit; 312. a fingerprint power supply conversion unit; 32. a fingerprint identification sub-module; 4. an electronic control lock module; 41. a status submodule; 411. a gate status unit; 412. a lock status unit; 42. a lock control sub-module; 421. a switch control unit; 422. a latching electromagnet control unit; 5. an interaction module; 51. an interactive signal conversion submodule; 52. an interactive connection sub-module; 53. a UART socket unit; 54. a display connection unit; 6. a prying-resistant alarm submodule; 7. a small door control module; 71. a portlet display sub-module; 711. a small door display trigger unit; 712. a small door display execution unit; 72. a small door lock submodule; 721. a small door state monitoring unit; 722. little door lock control unit.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses an intelligent four-class library.

Referring to fig. 1, the intelligent four-type library comprises a power supply module 1, a master control module 2, an identification module 3, an electric control lock module 4 and an alarm module, wherein the power supply module 1, the master control module 2, the identification module 3, the electric control lock module 4 and the alarm module are all installed on an integrated circuit board, and the integrated circuit board is installed inside the intelligent four-type library. The power supply module 1 supplies power to the main control module 2, the identification module 3, the electric control lock module 4 and the alarm module, so that the main control module 2, the identification module 3, the electric control lock module 4 and the alarm module can work normally. The identification module 3 reads information of a worker who opens the door and outputs the read information signal to the main control module 2, the main control module 2 outputs a control signal to the electric control lock module 4 according to the received information signal, and the electric control lock controls the opening or closing of the warehouse door of the four-type warehouse; when an alarm condition is triggered, the main control module 2 outputs a signal to the alarm module, and the alarm module gives an alarm to prompt the staff that abnormal conditions occur at the four types of libraries.

Referring to fig. 2, the power supply module 1 includes a power supply leading-in unit 11, a power supply resetting unit 12 and a power supply impurity removing unit 13, in this embodiment, the power supply leading-in unit 11 includes a socket CN3 and a socket CN4, the socket CN3 and the socket CN4 are connected with an external power supply, the external power supply is led into the integrated circuit board, and the led-in power supply is used for supplying power to the main control module 2, the identification module 3, the electric control lock module 4 and the alarm module. Specifically, the power supply leading-in unit 11 is connected in series with the power supply resetting unit 12, and the power supply resetting unit 12 is respectively connected in series with the main control module 2, the identification module 3, the electric control lock module 4, the alarm module and the power supply impurity removing unit 13; the power supply reset unit 12 comprises a reset button SW2, the reset button SW2 is pressed, the reset button SW2 is disconnected, the power supply reset unit 12 is disconnected, and the power supply module 1 stops supplying power; when the reset button SW2 is released, the reset button SW2 is turned on, the power supply reset unit 12 is restored to the on state, and the power supply module 1 restarts power supply, thereby performing a voltage reset function. The power supply impurity removal unit 13 comprises a plurality of impurity removal capacitors which are connected in parallel, one end of each impurity removal capacitor is connected with the output end of the power supply reset unit 12, and the other end of each impurity removal capacitor is grounded; the power supply impurity removing unit 13 grounds the interference generated in the power supply process through a capacitor, thereby reducing the noise in the whole circuit.

Referring to fig. 3, master control module 2 includes master control chip 21 and debugging submodule 22, in this embodiment, master control chip 21 chooses for use the STM32F103 chip, the PA1 pin of STM32F103 chip is connected with power module 1's output, and the PA1 pin of STM32F103 chip, it has the LED lamp to establish ties between the power module 1, when power module 1 successfully supplied power to the STM32F103 chip, the LED lamp switched on and lights, suggestion relevant staff STM32F103 chip is in normal power supply state. The debugging sub-module 22 includes a debugging socket unit 221 and a debugging reset unit 222, and both the debugging socket unit 221 and the debugging reset unit 222 are powered by the power supply module 1. The SWCLK pin of the debug socket unit 221 is connected to the PA14 pin of the STM32F103 chip, and the SWDIO pin of the debug socket unit 221 is connected to the PA13 pin of the STM32F103 chip. When the running program of the main control chip 21 is debugged, the debugging socket unit 221 is connected with external debugging equipment, and the debugging equipment can be selected but not limited to a touch screen, a computer and other equipment. The debugging reset unit 222 is connected with the NRST pin of the STM32F103 chip, and when the STM32F103 chip needs to be reset, the debugging reset unit 222 is turned on, so that the NRST pin of the STM32F103 chip is in a low level state, and the STM32F103 chip is reset. Specifically, in the present embodiment, the debug socket unit 221 is provided with an NRST pin, the NRST pin of the debug socket unit 221 is also connected to the NRST pin of the STM32F103 chip, and the NRST pin of the debug socket unit 221 is connected in parallel to the debug reset unit 222; the debug socket unit 221 resets the STM32F103 chip in the same manner as the debug reset unit 222, and is not described herein again.

Referring to fig. 3 and 4, the intelligent four-class library further includes an interaction module 5, the interaction module 5 includes an interaction signal conversion sub-module 51 and an interaction connection sub-module 52, the interaction signal conversion sub-module 51 selects a CAN transceiver, and the model of the CAN transceiver is selectable but not limited to PCA2C250, 82C250, and the like; a pin D of the CAN transceiver is connected with a CAN TX pin of the STM32F103 chip, and a pin R of the CAN transceiver is connected with a CAN RX pin of the STM32F103 chip; a CAN _ H pin and a CAN _ L pin of the CAN transceiver are respectively connected with corresponding pins of the interactive connection submodule 52, the interactive connection submodule 52 is a socket CN7, the socket CN7 is connected with an external master control end through a data line, and the external master control end CAN be selected but not limited to a computer of a background worker; the bank using the four types of banks can control the four types of banks in a remote operation mode and remotely know the running condition information of the four types of banks, and in the process, the interaction of signals is needed, and the interaction signal conversion submodule 51 converts the interaction signals, so that an external master control end is convenient to read the signals from the master control chip 21 and output control signals to the master control chip 21.

Referring to fig. 3 and 4, specifically, the interaction module 5 further includes a UART socket unit 53, an RX pin of the UART socket unit 53 is connected to an RX pin of the STM32F103 chip, and a TX pin of the UART socket unit 53 is connected to a TX pin of the STM32F103 chip; the UART socket unit 53 is used for being connected with external displays such as a display screen and a touch screen, and the UART socket unit 53 is arranged to enable the state of the STM32F103 chip to be displayed in front of workers more intuitively, so that the workers can read information of the STM32F103 chip and perform instant operation on the STM32F103 chip conveniently; the interaction module 5 further comprises a display connection unit 54, the display connection unit 54 comprises an FPC connector and a display transmission socket CN1, the FPC connector is connected to external displays such as a display screen and a touch screen, and the FPC connector is connected to the display transmission socket CN1, that is, the FPC connector is a transfer terminal between the display and the display transmission socket CN 1. The CAN _ H pin and the CAN _ L pin of the display transmission socket CN1 are connected to the external master control end, and the principle and effect thereof are substantially the same as those of the CAN transceiver, and are not described herein again.

Referring to fig. 3 and 5, the electric control lock module 4 includes a status sub-module 41, the status sub-module 41 includes a door status unit 411 and a lock status unit 412, the door status unit 411 is used for displaying the opening and closing status of the four kinds of library doors, and the output terminal of the door status unit 411 is connected with an ANALOG IN1 pin of the STM32F103 chip; the lock state unit 412 is used for displaying the state of the door lock of the four-type library gate, and the output end of the lock state unit 412 is connected with an ANALOG IN2 pin of the STM32F103 chip. The gate state unit 411 and the lock state unit 412 receive signals from an external sensor, convert the signals, output the converted signals to the STM32F103 chip, and process the received state signals by the STM32F103 chip. For example, in the present embodiment, the STM32F103 chip outputs the received status signal to the display, so that the staff can read the status of the four types of library gates and door locks. Specifically, the input ends of the door state unit 411 and the lock state unit 412 are both connected to the socket CN5, and the signal of the external sensor is transmitted to the door state unit 411 and the lock state unit 412 through the socket CN 5.

Referring to fig. 3 and 5, the electric control lock module 4 further includes a lock control submodule 42, the lock control submodule 42 includes a switch control unit 421 and a latching electromagnet control unit 422, an input end of the switch control unit 421 is connected with an ANALOG OUT1 pin of the STM32F103 chip, and an input end of the latching electromagnet control unit 422 is connected with a Coil OUT1 pin of the STM32F103 chip; when the four types of storehouses are opened or closed, the STM32F103 chip outputs signals to the switch control unit 421 and the latching electromagnet control unit 422, and the switch control unit 421 and the latching electromagnet control unit 422 control opening or locking of door locks of doors of the four types of storehouses. Specifically, the output ends of the switch control unit 421 and the latching electromagnet control unit 422 are both connected to the socket CN5, and the switch control unit 421 and the latching electromagnet control unit 422 control the door lock of the gate of the four-type storeroom to open and close through the socket CN 5.

Referring to fig. 3 and 6, the identification module 3 includes a fingerprint power supply module 31 and a fingerprint identification submodule 32, the fingerprint identification submodule 32 includes a socket CN10 and a socket CN9, an input terminal of the socket CN9 is connected with an external fingerprint identifier, an output terminal of the socket CN9 is connected with a socket CN10, and a TOUCH _ OUT pin of the socket CN10 is connected with a TOUCH _ OUT pin of an STM32F103 chip. When opening four types of storehouse gates, the staff that opens the door utilizes fingerprint identification ware to enter the fingerprint, and fingerprint identification ware exports information signal to socket CN9, and socket CN9 exports signal to socket CN10, and socket CN10 exports signal to STM32F103 chip, and STM32F103 chip is handled the signal, judges whether accord with the condition of opening the door. The fingerprint power supply module 31 includes a fingerprint power supply conversion unit 312 and a fingerprint power-on display unit 311, the input end of the fingerprint power supply conversion unit 312 is connected to the TOUCH _ VCC pin of the STM32F103 chip, the output end of the fingerprint power supply conversion unit 312 is connected to the socket CN10, and the fingerprint power supply conversion unit 312 is used for converting the voltage output by the TOUCH _ VCC pin of the STM32F103 chip into the power supply of the fingerprint identification sub-module 32. The output end of the fingerprint power supply conversion unit 312 is further connected with the input end of the fingerprint power-on display unit 311, the output end of the fingerprint power-on display unit 311, namely the LED output end, is connected with an external LED lamp, and when the fingerprint power supply module 31 supplies power to the fingerprint identification module 32, the LED lamp connected to the fingerprint power-on display unit 311 is turned on, so that the working state of the fingerprint identification module 32 can be known by the staff conveniently.

Furthermore, the identification mode of the identification module 3 can be selected but not limited to a fingerprint identification mode, and can also include identification modes such as face identification, password identification and the like; when identification modes such as face identification, password identification and the like are added, corresponding power supply modules and identification sub-modules need to be added, and the connection mode and the working principle of the power supply modules are substantially the same as those of the fingerprint power supply module 31 and the fingerprint identification sub-module 32, which are not described again.

Referring to fig. 3 and 7, the Alarm module comprises a prying-resistant Alarm submodule 6, the prying-resistant Alarm submodule 6 comprises a prying-resistant button SW1, and the output end of the prying-resistant Alarm submodule 6 is connected with an Alarm pin of an STM32F103 chip; when the gate of the four-type library is pried, the prying-resistant button SW1 is disconnected, the Alarm pin of the STM32F103 chip receives a signal, the STM32F103 chip outputs an Alarm signal to an external Alarm, and the Alarm can be selected but not limited to a vibration Alarm, an audible and visual Alarm and the like. Specifically, in the actual use process, if abnormal conditions such as illegal opening of four types of library doors, continuous verification errors, unlocking of doors and the like occur, the STM32F103 chip can also output alarm signals to an external alarm, and the operation logic of the STM32F103 chip can be edited by using the interaction module 5 in the alarm scenes, so that the use of the STM32F103 chip is closer to the actual condition.

Referring to fig. 3 and 8, specifically, in this embodiment, three storage spaces for storing valuables are further provided inside the four types of libraries, each storage space is provided with a small door, each small door corresponds to one group of small door control modules 7, the control modes and principles of the three small doors are substantially the same, and each small door control module 7 includes a small door display sub-module 71 and a small door lock sub-module 72. The small door lock submodule 72 comprises small door state monitoring units 721 and small door lock control units 722, wherein the output end of one of the small door state monitoring units 721 is connected with an ANALOG IN3 pin of the STM32F103 chip, and the input end of the small door state monitoring unit 721 is connected with a socket CN 14; the external small gate sensor outputs a signal to a socket CN14, a socket CN14 outputs a signal to a small gate state monitoring unit 721, and the small gate state monitoring unit 721 outputs the signal to an STM32F103 chip. The input end of the small door lock control unit 722 is connected with an ANALOG OUT2 pin of the STM32F103 chip, the output end of the small door lock control unit 722 is connected with a socket CN15, the socket CN15 outputs a control signal to the small door lock, and the small door lock control unit 722 controls the small door lock to be opened or closed according to the received signal.

Referring to fig. 3 and 8, the small gate display submodule 71 includes a small gate display trigger unit 711 and a small gate display execution unit 712, an input terminal of the small gate display trigger unit 711 is connected to an Open _ Door pin of the STM32F103 chip, an output terminal of the small gate display trigger unit 711, that is, a Key _ LED pin of the small gate display trigger unit 711 is connected to a collector terminal of a transistor Q7 of the small gate display execution unit 712, and a base terminal of a transistor Q7 of the small gate display execution unit 712 is connected to a Key _ LED IN pin of the STM32F103 chip. When the STM32F103 chip controls the wicket to be opened, the Open _ Door pin output signal of the STM32F103 chip is sent to the input end of the wicket display trigger unit 711, and the Key _ LED IN pin of the STM32F103 chip enables the base of the triode Q7 of the wicket display execution unit 712 to be at a high level, the triode Q7 is conducted, the circuit where the LED lamp of the wicket is located is conducted, the LED lamp of the wicket is lighted, and the worker can observe the state of the wicket conveniently.

The implementation principle of the embodiment of the application is as follows: the power supply module 1 supplies power to the main control module 2, the identification module 3, the electric control lock module 4 and the alarm module, so that the main control module 2, the identification module 3, the electric control lock module 4 and the alarm module can work normally. The identification module 3 reads information of workers who open the door and outputs the read information signals to the main control module 2, the main control module 2 outputs control signals to the electric control lock module 4 according to the received information signals, and the electric control lock controls the opening or closing of the warehouse doors of the four-type warehouse; when an alarm condition is triggered, the main control module 2 outputs a signal to the alarm module, and the alarm module gives an alarm to prompt the staff that abnormal conditions occur at the four types of libraries.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An intelligent four-class library, comprising: the lock comprises a power supply module (1), a main control module (2), an identification module (3) and an electric control lock module (4);

the power supply module (1) is used for supplying power to the main control module (2), the identification module (3) and the electronic control lock module (4);

the identification module (3) is used for reading information of a worker who opens the door and outputting the read information to the main control module (2);

the main control module (2) is used for outputting a corresponding signal to the electric control lock module (4) according to the received information;

the electronic control lock module (4) is used for controlling the door locks of the four types of storehouses;

the output end of the power supply module (1) is connected with the power supply input ends of the main control module (2), the identification module (3) and the electric control lock module (4) respectively, the signal output end of the identification module (3) is connected with the identification input end of the main control module (2), and the electric control output end of the main control module (2) is connected with the signal input end of the electric control lock module (4).

2. An intelligent four-class library according to claim 1, wherein: the alarm device comprises an alarm module, wherein the alarm module is used for giving an alarm, and the input end of the alarm module is connected with the alarm output end of the main control module (2).

3. An intelligent four-class library according to claim 1, wherein: the intelligent terminal comprises an interaction module (5), wherein the interaction module (5) is used for transferring signals, and the input end of the interaction module (5) is connected with the interaction output end of a main control module (2).

4. An intelligent four-class library according to claim 1, wherein: the main control module (2) comprises a main control chip (21) and a debugging submodule (22), the main control chip (21) is provided with a debugging end, and the debugging submodule (22) is connected with the debugging end of the main control chip (21).

5. An intelligent four-class library according to claim 4, wherein: the electronic control lock module (4) comprises a state submodule (41) and a lock control submodule (42), wherein the state submodule (41) is used for detecting the states of four types of warehouse doors, and the lock control submodule (42) is used for controlling the states of the four types of warehouse doors; the input end of the lock control sub-module (42) is connected with the lock control output end of the main control chip (21), and the output end of the state sub-module (41) is connected with the state input end of the main control chip (21).

6. An intelligent four-class library according to claim 5, wherein: the state sub-module (41) comprises a door state unit (411) and a lock state unit (412), wherein the door state unit (411) is used for detecting the opening or closing state of the four types of library doors, and the lock state unit (412) is used for detecting the state of door locks of the four types of library doors; the output end of the door state unit (411) is connected with the door state input sub-end of the main control chip (21), and the output end of the lock state unit (412) is connected with the lock state input sub-end of the main control chip (21).

7. An intelligent four-class library according to claim 4, wherein: the identification module (3) comprises a fingerprint power supply module (31) and a fingerprint identification sub-module (32), wherein the fingerprint power supply module (31) is used for supplying power to the fingerprint identification sub-module (32), and the fingerprint identification sub-module (32) is used for outputting a fingerprint identification signal; the output end of the fingerprint power supply sub-module (31) is connected with the power supply input end of the fingerprint identification sub-module (32), and the output end of the fingerprint identification sub-module (32) is connected with the fingerprint identification input end of the main control chip (21).

8. An intelligent four-class library according to claim 7, wherein: the fingerprint power supply module (31) comprises a fingerprint power-on display unit (311), the fingerprint power-on display unit (311) comprises an LED output end, and the fingerprint power-on display unit (311) is used for displaying the working state of the fingerprint identification sub-module (32).

Images