CN112859664A - Seal check cabinet seal check control panel and seal check cabinet - Google Patents

Abstract

The embodiment of the disclosure discloses a seal case control panel of a seal case and the seal case. Wherein, check chapter cabinet chapter check control panel includes: the system comprises a processor, a dial switch circuit, a signal shaping and input indicating circuit, an interface circuit, a storage circuit, a reset circuit, a crystal oscillator circuit, a power supply circuit and a state indicating circuit; the dial switch circuit, the signal shaping and input indicating circuit, the interface circuit, the storage circuit, the reset circuit, the crystal oscillator circuit and the state indicating circuit are all electrically connected with the processor; the power supply circuit provides power for the seal control panel; the dial switch circuit is used for setting the identification address of the seal control panel; the interface circuit is used for receiving the detection information of whether the seal exists in the seal checking cabinet and sending a disinfection signal to a corresponding device of the seal checking cabinet. The purpose of adding functions and interfaces is achieved, and the intellectualization is improved.

Description

Seal check cabinet seal check control panel and seal check cabinet

Technical Field

The disclosure belongs to the technical field of seal checking management, and particularly relates to a seal check control panel of a seal checking cabinet and the seal checking cabinet.

Background

In the current border check port entry and exit service, the check stamp must be strictly and normatively managed, and cannot be illegally used. With the development of modern electronic information technology, the management of the checking stamp is more and more intelligent, and various checking stamp cabinets gradually appear. The seal case cabinet is internally provided with a plurality of seal case cabinets for storing seals, and each seal case cabinet is correspondingly provided with a seal case control panel, so that the automation control is convenient to realize. The existing checking stamp cabinet seal control panel has simpler functions and single interface, and the high intelligent management requirement of a user on the checking stamp cabinet can not be met more and more. For example, the existing chapter control panels are not provided with ultraviolet disinfection interfaces, and are inconvenient for the prevention and control of epidemic situations under the epidemic situation of the outbreak of new coronavirus at present. In addition, the existing seal check control panel also has no check seal detection sensor interface, whether there is a seal in the seal check all depends on manual inspection, and the intelligent degree is low.

Disclosure of Invention

In view of this, the embodiments of the present disclosure provide a seal case control board and a seal case, which at least solve the problems of simple function and single interface in the prior art.

In a first aspect, the disclosed embodiments provide a seal case control panel, including:

the system comprises a processor, a dial switch circuit, a signal shaping and input indicating circuit, an interface circuit, a storage circuit, a reset circuit, a crystal oscillator circuit, a power supply circuit and a state indicating circuit;

the dial switch circuit, the signal shaping and input indicating circuit, the interface circuit, the storage circuit, the reset circuit, the crystal oscillator circuit and the state indicating circuit are all electrically connected with the processor;

the power supply circuit provides power for the seal control panel;

the dial switch circuit is used for setting the identification address of the seal control panel;

the interface circuit is used for receiving the detection information of whether the seal exists in the seal checking cabinet and sending a disinfection signal to a corresponding device of the seal checking cabinet.

Optionally, the interface circuit includes an interface circuit of a detection stamp detection sensor, a CAN interface circuit, a serial communication interface circuit, a USB interface circuit, a JTAG interface circuit, a display screen driving interface circuit, a stamp gate electromagnetic lock driving interface circuit, a disinfection driving interface circuit, a stamp gate illuminating lamp driving interface circuit and an alarm driving interface circuit;

the serial communication interface circuit is used for downloading programs or carrying out data transmission with an upper computer;

the USB interface circuit is used for burning a word stock;

the JTAG interface circuit is used for debugging a program;

and the CAN interface circuit is used for receiving an unlocking badge gate electromagnetic lock instruction sent by the upper CAN host.

Optionally, the storage circuit includes an SPI FLASH circuit and an EEPROM circuit;

the SPI FLASH circuit is used for storing word bank data;

the EEPROM circuit is used for storing and storing the seal body identity information.

Optionally, the signal shaping and input indicating circuit is configured to detect a signal of the cell gate detection sensor by collecting the signal, and the processor detects a state of the cell gate based on the received signal of the cell gate detection sensor.

Optionally, the signal shaping and input indicating circuit includes a shaping circuit and an input indicating circuit;

the shaping circuit comprises an inverter with a Schmitt trigger function;

the input indicating circuit comprises an indicating lamp, and the state of the badge gate is indicated through the state of the indicating lamp.

Optionally, the power circuit provides DC12V, DC5V, and DC3.3V power to the chapter control board.

Optionally, the status indicating circuit includes a plurality of status indicating lamps, and the operating status of each circuit of the chapter control panel is indicated by different status indicating lamps.

Optionally, the processor is an ARM processor.

Optionally, after the interface circuit receives the seal storage instruction, the processor controls the electromagnetic lock of the seal lattice door to unlock through the interface circuit, and drives the seal lattice illuminating lamp to turn on through the interface circuit;

when the processor receives a seal signal in the seal cabinet through the interface circuit, the processor controls the electromagnetic lock of the seal door to be locked through the interface circuit, drives the seal illuminating lamp to be turned off through the interface circuit, and drives the external display device to display the information of the seal depositor through the interface circuit;

the treater passes through interface circuit control degassing unit and disinfects the storage chapter in the chapter check, and after disinfection time reached the settlement time, the treater passes through interface circuit control degassing unit and closes.

In a second aspect, an embodiment of the present disclosure further provides an inspection stamp cabinet, including any one of the control boards in the first aspect.

According to the intelligent control device, the interface circuit is arranged, so that the compatibility and expandability of the control panel are enhanced, the corresponding interface circuit can be arranged as required, the purpose of increasing functions and interfaces is achieved, the interface circuit is used for receiving the detection information of whether a seal exists in the seal cabinet or not and sending a disinfection signal to the corresponding device of the seal cabinet, and the intelligence is improved.

Additional features and advantages of the disclosure will be set forth in the detailed description which follows.

Drawings

The above and other objects, features and advantages of the present disclosure will become more apparent by describing in greater detail exemplary embodiments thereof with reference to the attached drawings, in which like reference numerals generally represent like parts throughout.

FIG. 1 illustrates a block diagram of a check stamp case control board of one embodiment of the present disclosure;

FIG. 2 illustrates a flow diagram of a control of seal storage by a seal case control board according to an embodiment of the disclosure;

FIG. 3 illustrates a flow diagram for seal case control panel control sealing of one embodiment of the present disclosure.

Detailed Description

Preferred embodiments of the present disclosure will be described in more detail below. While the following describes preferred embodiments of the present disclosure, it should be understood that the present disclosure may be embodied in various forms and should not be limited by the embodiments set forth herein.

A seal case control panel for a seal cabinet, comprising:

the system comprises a processor, a dial switch circuit, a signal shaping and input indicating circuit, an interface circuit, a storage circuit, a reset circuit, a crystal oscillator circuit, a power supply circuit and a state indicating circuit;

the dial switch circuit, the signal shaping and input indicating circuit, the interface circuit, the storage circuit, the reset circuit, the crystal oscillator circuit and the state indicating circuit are all electrically connected with the processor;

the power supply circuit provides power for the seal control panel;

the dial switch circuit is used for setting the identification address of the seal control panel;

the interface circuit is used for receiving the detection information of whether the seal exists in the seal checking cabinet and sending a disinfection signal to a corresponding device of the seal checking cabinet.

Optionally, the interface circuit includes an interface circuit of a detection stamp detection sensor, a CAN interface circuit, a serial communication interface circuit, a USB interface circuit, a JTAG interface circuit, a display screen driving interface circuit, a stamp gate electromagnetic lock driving interface circuit, a disinfection driving interface circuit, a stamp gate illuminating lamp driving interface circuit and an alarm driving interface circuit;

the serial communication interface circuit is used for downloading programs or carrying out data transmission with an upper computer;

the USB interface circuit is used for burning a word stock;

the JTAG interface circuit is used for debugging a program;

and the CAN interface circuit is used for receiving an unlocking badge gate electromagnetic lock instruction sent by the upper CAN host.

Optionally, the storage circuit includes an SPI FLASH circuit and an EEPROM circuit;

the SPI FLASH circuit is used for storing word bank data;

the EEPROM circuit is used for storing and storing the seal body identity information.

Optionally, the signal shaping and input indicating circuit is configured to detect a signal of the cell gate detection sensor by collecting the signal, and the processor detects a state of the cell gate based on the received signal of the cell gate detection sensor.

Optionally, the signal shaping and input indicating circuit includes a shaping circuit and an input indicating circuit;

the shaping circuit comprises an inverter with a Schmitt trigger function;

the input indicating circuit comprises an indicating lamp, and the state of the badge gate is indicated through the state of the indicating lamp.

Optionally, the power circuit provides DC12V, DC5V, and DC3.3V power to the chapter control board.

Optionally, the status indicating circuit includes a plurality of status indicating lamps, and the operating status of each circuit of the chapter control panel is indicated by different status indicating lamps.

If in a specific application scene, the state indicating circuit is connected with the processor and used for indicating the running states of the processor and the power supply circuit, the state indicating circuit is provided with a green LED lamp and a red LED lamp, when the program of the processor runs normally, the green LED lamp regularly carries out flashing display of turning on and off, and when the program of the processor runs abnormally, the green LED lamp can be turned on and off. Similarly, when the power supply circuit works normally, the red LED lamp is on for display, and when the power supply circuit works abnormally, the red LED lamp is turned off, so that debugging and overhauling are facilitated. The state indicating circuit can display the working states of other circuits such as a dial switch circuit, a signal shaping and input indicating circuit, an interface circuit, a storage circuit and the like according to needs.

Optionally, the processor is an ARM processor.

Optionally, after the interface circuit receives the seal storage instruction, the processor controls the electromagnetic lock of the seal lattice door to unlock through the interface circuit, and drives the seal lattice illuminating lamp to turn on through the interface circuit;

when the processor receives a seal signal in the seal cabinet through the interface circuit, the processor controls the electromagnetic lock of the seal door to be locked through the interface circuit, drives the seal illuminating lamp to be turned off through the interface circuit, and drives the external display device to display the information of the seal depositor through the interface circuit;

the treater passes through interface circuit control degassing unit and disinfects the storage chapter in the chapter check, and after disinfection time reached the settlement time, the treater passes through interface circuit control degassing unit and closes.

In one particular application scenario, as shown in figure 1,

the control panel includes: ARM processor 1, detection stamp detection sensor interface circuit 2, signal shaping and input indicating circuit 3, dial switch circuit 4, CAN interface circuit 5, RS-232/RS-485 interface circuit 6, USB interface circuit 7, JTAG interface circuit 8, reset circuit 9, crystal oscillator circuit 10, power supply circuit 11, SPI FLASH circuit 12, EEPROM circuit 13, OLED display screen driving interface circuit 14, seal gate electromagnetic lock driving interface circuit 15, ultraviolet disinfection lamp driving interface circuit 16, seal lighting lamp driving interface circuit 17, alarm driving interface circuit 18 and state indicating circuit 19.

The seal checking detection sensor interface circuit 2 is connected to the seal checking detection sensor, the signal shaping and input indicating circuit 3 is connected to the seal gate detection sensor, the CAN interface circuit 5 is connected to the CAN host, the OLED display screen driving interface circuit 14 is connected to the OLED display screen, the seal gate electromagnetic lock driving interface circuit 15 is connected to the seal gate electromagnetic lock, the ultraviolet disinfection lamp driving interface circuit 16 is connected to the ultraviolet disinfection lamp, the seal gate illuminating lamp driving interface circuit 17 is connected to the seal gate illuminating lamp, and the alarm driving interface circuit 18 is connected to the seal gate alarm lamp.

The ARM processor 1 is a control core of the control panel, adopts a 32-bit ARM processor, has excellent real-time performance, high response speed and rich peripheral interfaces, is connected with each peripheral interface circuit shown in fig. 1, and has the following functions, but not limited to: the CAN interface circuit 5 is used for communicating with a CAN host, receiving an instruction sent by the CAN host and executing corresponding actions, such as unlocking a badge case door, starting ultraviolet disinfection, starting badge case illumination, displaying name information and the like, and meanwhile, detecting the current opening and closing state of the badge case door and whether a check badge exists in the badge case or not and feeding corresponding information back to the CAN host.

One end of the seal checking detection sensor interface circuit 2 is connected with the ARM processor 1, and the other end of the seal checking detection sensor interface circuit is connected with the seal checking detection sensor and used for detecting whether a seal exists in the seal case cabinet or not, and particularly, the seal checking detection sensor interface circuit 2 can be connected with an ultrasonic sensor or an infrared sensor.

One end of the signal shaping and input indicating circuit 3 is connected with the ARM processor 1, the other end of the signal shaping and input indicating circuit is connected to the badge gate detection sensor, and the signal shaping and input indicating circuit 3 inputs a signal of the badge gate detection sensor into the ARM processor 1 for processing and is used for detecting the current state of opening or closing of the badge gate. Particularly, the signal shaping and input indicating circuit 3 adopts a phase inverter with a Schmitt trigger function to carry out signal shaping, so that the signal quality and the anti-interference performance are improved, meanwhile, an LED signal lamp is adopted to indicate corresponding signal input, when the badge door is in an opening state, the LED signal lamp is turned on, and when the badge door is in a closing state, the LED signal lamp is turned on and off.

One end of the CAN interface circuit 5 is connected with the ARM processor 1, the other end of the CAN interface circuit is connected with the CAN host, the dial switch circuit 4 is connected with the ARM processor 1, a plurality of seal grids are generally arranged in the checking seal cabinet, the upper host and each seal grid are generally communicated through a CAN bus or an RS485 bus for networking communication, the seal grid control panel provides the CAN interface circuit 5, the seal grid control panel is used as a slave and is communicated with the upper CAN host, and the dial switch circuit 4 is used for setting the identification address of the seal grid control panel as the slave.

The RS-232/RS-485 interface circuit 6, the USB interface circuit 7 and the JTAG interface circuit 8 are respectively connected with the ARM processor 1, wherein the RS-232/RS-485 interface circuit 6 is mainly used for downloading programs and can also be used for carrying out data transmission with an upper computer, the USB interface circuit 7 is used for burning a word library, and the JTAG interface circuit 8 is used for debugging the programs.

The control board further comprises a reset circuit 9, a crystal oscillator circuit 10 and a power supply circuit 11, wherein the reset circuit 9 is used for providing a reset signal for the ARM processor 1, the crystal oscillator circuit 10 is used for providing a clock signal for the ARM processor 1, and the power supply circuit 11 is used for providing power supply required by operation for the whole chapter control board, and comprises a DC12V power supply, a DC5V power supply and a DC3.3V power supply.

The SPI FLASH circuit 12 is connected with the ARM processor 1 and used for storing word bank data.

The EEPROM circuit 13 is connected with the ARM processor 1 and used for storing name data of the signer, and the data can be stored permanently. When the seal storage operation person successfully stores the seal, the ARM processor 1 writes the name data of the current seal storage person into the EEPROM to prevent the name data of the seal storage person from being lost after the equipment is powered off unexpectedly.

One end of the OLED display screen driving interface circuit 14 is connected with the ARM processor 1, the other end of the OLED display screen driving interface circuit is connected with the OLED display screen, the OLED display screen driving interface circuit is mainly used for driving the OLED display screen to display the name of a seal storage person, each seal lattice corresponds to one OLED display screen, and when a check seal is taken away, the OLED display screen is cleaned and does not display any information.

One end of the chaplet gate electromagnetic lock driving interface circuit 15 is connected with the ARM processor 1, and the other end of the chaplet gate electromagnetic lock driving interface circuit is used for being connected with the chaplet gate electromagnetic lock and driving the chaplet gate electromagnetic lock to be locked and unlocked.

One end of the ultraviolet disinfection lamp driving interface circuit 16 is connected with the ARM processor 1, the other end of the ultraviolet disinfection lamp driving interface circuit is used for being connected with the ultraviolet disinfection lamp and driving the ultraviolet disinfection lamp to be turned on and turned off so as to carry out ultraviolet disinfection on the check stamp, virus transmission is reduced, and disinfection time can be set through a program.

The chapter lattice illuminating lamp driving interface circuit 17 is connected with the ARM processor 1 at one end, and is used for connecting the chapter lattice illuminating lamp at the other end and driving the chapter lattice illuminating lamp to be turned on and turned off.

Alarm drive interface circuit 18 one end links to each other with ARM treater 1, and the other end is used for connecting the chapter check alarm lamp to the drive chapter check alarm lamp opens and closes. When the operation of the access seal is abnormal, for example, the seal cabinet door is forgotten to be closed or the control circuit is in fault, the corresponding seal alarm lamp is turned on to warn and remind.

The state indicating circuit 19 is connected with the ARM processor 1 and used for indicating the running states of the ARM processor 1 and the power circuit 11, the state indicating circuit 19 is provided with a green LED lamp and a red LED lamp, when the running of the ARM processor 1 program is normal, the green LED lamp regularly conducts flashing display of turning on and off, and when the running of the ARM processor 1 program is abnormal, the green LED lamp can be normally turned on for display or turned off. Similarly, when the power supply circuit 11 works normally, the red LED lamp is on for display, and when the power supply circuit 11 works abnormally, the red LED lamp is off, so as to facilitate debugging and maintenance.

As shown in fig. 2, the chapter storing process provided with the control board of this embodiment includes the following specific steps:

step S1: the ARM processor receives the name information of the seal storage person and the instruction for unlocking the electromagnetic lock of the seal gate sent by the upper CAN host through the CAN interface circuit, and controls the electromagnetic lock of the seal gate to unlock;

step S2: the ARM processor drives the interface circuit to drive the chapter lighting lamp to turn on through the chapter lighting lamp;

step S3: the seal storage person opens the seal grid cabinet door, places the seal and closes the seal grid cabinet door;

step S4: the ARM processor detects that a seal is arranged in the seal grid cabinet through the seal detection sensor interface circuit, and controls the locking of the seal grid door electromagnetic lock;

step S5: the ARM processor drives the interface circuit to drive the seal illuminating lamp to be turned off through the seal illuminating lamp;

step S6: the ARM processor calls a word library from the SPI FLASH circuit according to name information of the seal depositor sent by the CAN host, and drives the OLED display screen to display the name of the seal depositor through the OLED display screen driving interface circuit;

step S7: the ARM processor drives the ultraviolet disinfection lamp to be started through the ultraviolet disinfection lamp driving interface circuit;

step S8: after the disinfection time reaches the set time, the ARM processor turns off the ultraviolet disinfection lamp;

step S9: and finishing the seal storage flow, and waiting for the CAN host to send the instruction.

As shown in fig. 3, the chapter taking process with the control board of this embodiment includes the following specific steps:

step S21: the ARM processor receives an unlocking badge gate electromagnetic lock instruction sent by an upper CAN host through a CAN interface circuit, and controls the badge gate electromagnetic lock to unlock;

step S22: the ARM processor drives the interface circuit to drive the chapter lighting lamp to turn on through the chapter lighting lamp;

step S23: the seal taking person opens the seal grid cabinet door, takes the seal and closes the seal grid cabinet door;

step S24: the ARM processor detects that no seal is arranged in the seal grid cabinet through the seal detection sensor interface circuit, and controls the locking of the seal grid door electromagnetic lock;

step S25: the ARM processor drives the interface circuit to drive the seal illuminating lamp to be turned off through the seal illuminating lamp;

step S26: the ARM processor drives the OLED display screen to be cleared through the OLED display screen driving interface circuit, and the screen does not display any information;

step S27: and finishing the seal taking process, and waiting for the CAN host to send the instruction.

The embodiment also discloses a seal cabinet, and the seal cabinet is controlled by using the control panel disclosed by the embodiment.

Having described embodiments of the present disclosure, the foregoing description is intended to be exemplary, not exhaustive, and not limited to the disclosed embodiments. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the described embodiments.

Claims (10)

1. A seal case control panel of a seal cabinet, comprising:

the system comprises a processor, a dial switch circuit, a signal shaping and input indicating circuit, an interface circuit, a storage circuit, a reset circuit, a crystal oscillator circuit, a power supply circuit and a state indicating circuit;

the dial switch circuit, the signal shaping and input indicating circuit, the interface circuit, the storage circuit, the reset circuit, the crystal oscillator circuit and the state indicating circuit are all electrically connected with the processor;

the power supply circuit provides power for the seal control panel;

the dial switch circuit is used for setting the identification address of the seal control panel;

the interface circuit is used for receiving the detection information of whether the seal exists in the seal checking cabinet and sending a disinfection signal to a corresponding device of the seal checking cabinet.

2. The proof-stamp case control board according to claim 1, wherein the interface circuit comprises a proof-stamp detection sensor interface circuit, a CAN interface circuit, a serial communication interface circuit, a USB interface circuit, a JTAG interface circuit, a display screen driving interface circuit, a stamp gate electromagnetic lock driving interface circuit, a disinfection driving interface circuit, a stamp gate illuminating lamp driving interface circuit and an alarm driving interface circuit;

the serial communication interface circuit is used for downloading programs or carrying out data transmission with an upper computer;

the USB interface circuit is used for burning a word stock;

the JTAG interface circuit is used for debugging a program;

and the CAN interface circuit is used for receiving an unlocking badge gate electromagnetic lock instruction sent by the upper CAN host.

3. The seal case control board of claim 1, wherein the memory circuit comprises an SPI FLASH circuit and an EEPROM circuit;

the SPIFLASH circuit is used for storing word stock data;

the EEPROM circuit is used for storing and storing the seal body identity information.

4. The check-stamp case control board of claim 1, wherein the signal shaping and input indicating circuit detects the state of the chapter gate based on the received signal of the chapter gate detection sensor by collecting the signal of the chapter gate detection sensor.

5. The seal case control board of claim 4, wherein the signal shaping and input indicating circuit comprises a shaping circuit and an input indicating circuit;

the shaping circuit comprises an inverter with a Schmitt trigger function;

the input indicating circuit comprises an indicating lamp, and the state of the badge gate is indicated through the state of the indicating lamp.

6. The seal case control board of claim 1, wherein the power circuit provides DC12V, DC5V, and DC3.3V power to the seal case control board.

7. The seal case control panel of claim 1, wherein the status indication circuit comprises a plurality of status indicators, and the status indicators indicate the operational status of each circuit of the seal case control panel.

8. The seal case control board of claim 1, wherein the processor is an ARM processor.

9. The seal case seal control board according to claim 1, wherein when the interface circuit receives a seal storage instruction, the processor controls the seal case door electromagnetic lock to unlock through the interface circuit and drives the seal case illuminating lamp to turn on through the interface circuit;

when the processor receives a seal signal in the seal cabinet through the interface circuit, the processor controls the electromagnetic lock of the seal door to be locked through the interface circuit, drives the seal illuminating lamp to be turned off through the interface circuit, and drives the external display device to display the information of the seal depositor through the interface circuit;

the treater passes through interface circuit control degassing unit and disinfects the storage chapter in the chapter check, and after disinfection time reached the settlement time, the treater passes through interface circuit control degassing unit and closes.

10. A sealed cabinet comprising a control panel according to any one of claims 1 to 9.

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