CN112685254A - Intelligent case health network management method and system - Google Patents

Abstract

The invention discloses a method and a system for managing a health network of an intelligent case, wherein the method is applied to a health network management system of the intelligent case; the intelligent case health network management system comprises a management terminal, an embedded board card, a network management module and a sensor assembly; the embedded board card comprises a processor; the network management module comprises an SNMP unit, a serial port communication unit and a processing unit; the SNMP unit and the serial port communication unit are in communication connection with the processing unit; the serial port communication unit and the sensor assembly are in communication connection with the processor; in the intelligent case health network management method provided by the invention, the management terminal is a host capable of performing visual operation, such as a personal computer or an intelligent mobile phone, and preferably a personal computer in the embodiment; the embedded board card can be simply and visually managed in a health mode through the management terminal.

Description

Intelligent case health network management method and system

Technical Field

The invention relates to the technical field of case health management, in particular to an intelligent case health network management method and system.

Background

Along with the development of society and the progress of human beings, the application of computers is more and more photovoltaic, and people's daily life and work are more and more unable to leave the computer. With the acceleration of the industrialization process, the national development also experiences the change of the coverage, although the traditional computer can meet most requirements, the requirements of specific industries on hardware are also targeted, such as multiple display interfaces, double memories, function customization, low power consumption and high stability, and the embedded board card product can adapt to various severe working environments.

Firstly, the embedded board card has the primary characteristics of high stability and diversified customization. And the system can be flexibly designed aiming at specific projects, and can fully meet the requirements of enterprises on the characteristics based on own industry.

The health management of the embedded board card mainly comprises the real-time monitoring and response of the working voltage, the working current and the working temperature of the embedded board card so as to ensure the normal operation of the embedded board card; the existing embedded board card generally carries a linux operating system for the purpose of working stability; although the linux operating system is good in stability, the linux operating system is complex to operate, does not have a visual operating interface, and is not convenient for a network administrator to perform health management on the data stored in the embedded board card.

Disclosure of Invention

The invention mainly aims to provide a method and a system for managing a health network of an intelligent case, and aims to solve the problem that the existing embedded board card is inconvenient for management personnel to carry out health management due to the fact that the embedded board card carries a linux operating system, is complex to operate and does not have a visual operating interface.

The technical scheme provided by the invention is as follows:

a management method of intelligent case health network is applied to an intelligent case health network management system; the intelligent case health network management system comprises a management terminal, an embedded board card, a network management module and a sensor assembly; the embedded board card comprises a processor; the network management module comprises an SNMP unit, a serial port communication unit and a processing unit; the SNMP unit and the serial port communication unit are in communication connection with the processing unit; the serial port communication unit and the sensor assembly are in communication connection with the processor; the SNMP unit is in communication connection with the management terminal based on an SNMP protocol; the sensor assembly is arranged on the embedded board card; the intelligent case health network management method comprises the following steps:

sending a plurality of monitoring values of the embedded board card acquired by the sensor assembly to the processor;

marking the monitored value with abnormality as an abnormal value;

sending the abnormal value to the processing unit through the serial port communication unit;

and generating alarm information according to the abnormal value, and sending the alarm information to the management terminal through the SNMP unit.

Preferably, the sensor group comprises a voltage sensor, a current sensor and a temperature sensor; the monitoring values comprise voltage values, current values and temperature values; with sensor component gathers a plurality of monitoring value of embedded integrated circuit board send to the treater includes:

acquiring a voltage value acquired by the voltage sensor;

acquiring a current value acquired by the current sensor;

acquiring a temperature value acquired by the temperature sensor;

sending the voltage value, the current value, and the temperature value to the processor.

Preferably, said marking said monitored value for which an anomaly has occurred as an outlier comprises:

acquiring a normal voltage interval value, a normal current threshold value and a normal temperature interval value;

judging whether the voltage value does not fall into the voltage interval value;

if yes, marking the voltage value as an abnormal value;

judging whether the current value exceeds the normal current threshold value;

if yes, marking the current value as an abnormal value;

judging whether the temperature value does not fall into the normal temperature interval value;

if so, the temperature value is marked as an abnormal value.

Preferably, the alarm information includes an abnormal value, an alarm time and an alarm address; the alarm time is the time point of generating alarm information, and the alarm address is the IP address of the embedded board card with the abnormal value; the management terminal comprises a display interface; generating alarm information according to the abnormal value, and sending the alarm information to the management terminal through the SNMP unit, and then:

and displaying the alarm information on the display interface.

Preferably, the intelligent chassis health network management method further includes:

acquiring an input configuration instruction;

sending the configuration instruction to the processing unit through the SNMP unit;

generating a serial port configuration instruction according to the configuration instruction;

sending the serial port configuration instruction to the processor through the serial port communication unit;

executing the serial port configuration instruction and acquiring first execution result information;

sending the first execution result information to the processing unit through the serial port communication unit;

and sending the first execution result information to the management terminal through the SNMP unit.

Preferably, the intelligent chassis health network management method further includes:

acquiring an input switching instruction;

sending the switch command to the processing unit through the SNMP unit;

generating a serial port switching instruction according to the switching instruction;

sending the switch serial port instruction to the processor through the serial port communication unit;

executing the serial port switching instruction and acquiring second execution result information;

sending the second execution result information to the processing unit through the serial port communication unit;

and sending the second execution result information to the management terminal through the SNMP unit.

Preferably, the intelligent chassis health network management method further includes:

acquiring an input query instruction;

sending the query instruction to the processing unit through the SNMP unit;

generating an inquiry serial port instruction according to the inquiry instruction;

sending the serial port inquiring instruction to the processor through the serial port communication unit;

executing the serial port inquiring instruction and acquiring third execution result information;

sending the third execution result information to the processing unit through the serial port communication unit;

and sending the third execution result information to the management terminal through the SNMP unit.

Preferably, the embedded board card is provided with a fan and a power supply; the fan is used for radiating the embedded board card; the power supply is used for supplying power to the embedded board card; the embedded board card also comprises a plurality of equipment modules; the query instruction comprises a fan information query instruction, a power supply information query instruction and an equipment FRU information query instruction.

Preferably, the intelligent chassis health network management method further includes:

and generating a log record according to all the operation actions.

The invention also provides an intelligent case health network management system, which is applied to the intelligent case health network management method; the intelligent case health network management system comprises a management terminal, an embedded board card, a network management module and a sensor assembly; the embedded board card comprises a processor; the network management module comprises an SNMP unit, a serial port communication unit and a processing unit; the SNMP unit and the serial port communication unit are in communication connection with the processing unit; the serial port communication unit and the sensor assembly are in communication connection with the processor; the SNMP unit is in communication connection with the management terminal based on an SNMP protocol; the sensor assembly is arranged on the embedded board card.

Through above-mentioned technical scheme, can realize following beneficial effect:

in the intelligent case health network management method provided by the invention, the management terminal is a host capable of performing visual operation, such as a personal computer or an intelligent mobile phone, and preferably a personal computer in the embodiment; the embedded board card can be simply and visually managed in a health mode through the management terminal.

Health management judges through the monitoring value (like the electric current of embedded integrated circuit board, voltage and temperature) that sets up the sensor group collection that the embedding integrated circuit board, when the abnormal value appears, generates alarm information through network management module to with alarm information transmission to management terminal, the health condition of embedded integrated circuit board can be known to the direct operation management terminal of managers, and is very convenient fast directly perceived.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a flowchart of a first embodiment of a method for managing a health network of an intelligent chassis according to the present invention.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The invention provides a method and a system for managing a health network of an intelligent case.

As shown in fig. 1, in a first embodiment of the method for managing a health network of an intelligent chassis according to the present invention, the method is applied to a health network management system of an intelligent chassis; the intelligent case health network management system comprises a management terminal, an embedded board card, a network management module and a sensor assembly; the embedded board card comprises a processor, wherein the type of the processor is Loongson 2K 1000; the network management module comprises an SNMP unit, a serial port communication unit and a processing unit; the SNMP unit and the serial port communication unit are in communication connection with the processing unit; the serial port communication unit and the sensor assembly are in communication connection with the processor; the SNMP unit is in communication connection with the management terminal based on an SNMP protocol, wherein the SNMP protocol refers to a simple network management protocol, is a standard protocol specially designed for managing network nodes (servers, workstations, routers, switches and the like) in an IP network, and is an application layer protocol; the sensor assembly is arranged on the embedded board card; the embodiment comprises the following steps:

step S110: and sending a plurality of monitoring values of the embedded board card acquired by the sensor component to the processor.

Specifically, the processor acquires a plurality of monitoring values of the embedded board card acquired by the sensor assembly.

Step S120: the monitored values for which an anomaly has occurred are marked as outliers.

Specifically, the processor marks the monitored value for which an exception occurs as an outlier.

Step S130: and sending the abnormal value to the processing unit through the serial port communication unit.

Specifically, the processor sends the abnormal value to the processing unit through the serial port communication unit.

The serial communication unit is connected with the communication unit between the processor and the Loongson 2K1000 and the network management module, and the serial communication unit acquires/sets a network management function through serial port interaction. The serial port communication unit adopts an RS232 standard serial port protocol, the Baud rate is 115200, and the data length unit is BYTE.

The RS232 serial port standard is a communication protocol developed by the American EIA (electronic industry Association), and is suitable for communication with a data transmission rate in the range of 0-20000 bits/s.

Step S140: and generating alarm information according to the abnormal value, and sending the alarm information to the management terminal through the SNMP unit.

Specifically, the processing unit generates alarm information according to the abnormal value and sends the alarm information to the management terminal through the SNMP unit.

In the intelligent case health network management method provided by the invention, the management terminal is a host capable of performing visual operation, such as a personal computer or an intelligent mobile phone, and preferably a personal computer in the embodiment; the embedded board card can be simply and visually managed in a health mode through the management terminal.

In this embodiment, health management is through judging the monitoring value (like the electric current of embedded integrated circuit board, voltage and temperature) that sets up the sensor group collection that the embedding integrated circuit board, thereby the health condition of monitoring embedded integrated circuit board, when the abnormal value appears, generate alarm information through network management module, and send alarm information to management terminal, managers direct operation management terminal, can be fast audio-visual know the health condition of embedded integrated circuit board (show alarm information through management terminal's display interface), it is very convenient, no longer need the manual work to watch on in the work computer lab of embedded integrated circuit board and come to carry out health management to embedded integrated circuit board.

In a second embodiment of the intelligent chassis health network management method provided by the invention, based on the first embodiment, the sensor group comprises a voltage sensor, a current sensor and a temperature sensor; the monitoring values comprise voltage values, current values and temperature values; step S110, including the steps of:

step S210: and acquiring the voltage value acquired by the voltage sensor.

Step S220: and acquiring a current value acquired by the current sensor.

Step S230: and acquiring the temperature value acquired by the temperature sensor.

Step S240: sending the voltage value, the current value, and the temperature value to the processor.

Specifically, the processor obtains a voltage value acquired by the voltage sensor, a current value acquired by the current sensor, and a temperature value acquired by the temperature sensor. Through this embodiment, perfect the concrete type of sensor group, perfect the kind of monitoring value that carries out health management to embedded integrated circuit board promptly and gathered, operating voltage value, operating current value and the operating temperature value of embedded integrated circuit board.

In a third embodiment of the method for managing a health network of an intelligent chassis provided by the present invention, based on the second embodiment, step S120 includes the following steps:

step S310: and acquiring a normal voltage interval value, a normal current threshold value and a normal temperature interval value.

Specifically, the processor obtains a normal voltage interval value, a normal current threshold value, and a normal temperature interval value.

Step S320: and judging whether the voltage value does not fall into the voltage interval value.

Specifically, the processor determines whether the voltage value does not fall within the voltage interval value.

If yes, go to step S330: the voltage value is marked as an outlier.

Specifically, if the voltage value is higher than the voltage interval value, it indicates that the operating voltage of the embedded board card is overloaded, so the processor marks the voltage value as an abnormal value, so as to facilitate subsequent management operations.

Step S340: and judging whether the current value exceeds the normal current threshold value.

Specifically, the processor determines whether the current value exceeds the normal current threshold.

If yes, go to step S350: the current value is marked as an outlier.

Specifically, if the current value is higher than the normal current threshold value, it indicates that the working current of the embedded board card is overloaded, so the processor marks the current value as an abnormal value, so as to perform subsequent management operations.

Step S360: and judging whether the temperature value does not fall into the normal temperature interval value.

Specifically, the processor determines whether the temperature value does not fall within the normal temperature interval value.

If yes, go to step S370: the temperature value is marked as an outlier.

Specifically, if the temperature value is higher than the normal temperature range, it indicates that the operating temperature of the embedded board card is too high, so the processor marks the temperature value as an abnormal value, so as to facilitate subsequent management operations. So as to avoid damaging the embedded board card.

In a fourth embodiment of the method for managing an intelligent chassis health network according to the present invention, based on the third embodiment, the alarm information includes an abnormal value, an alarm time, and an alarm address; the alarm time is the time point of generating alarm information, and the alarm address is the IP address of the embedded board card with the abnormal value; the management terminal comprises a display interface; step S140, the following steps are also included thereafter:

step S410: and displaying the alarm information on the display interface.

Specifically, the alarm information is displayed on the display interface, so that managers operating the management terminal can visually know the health information and the alarm information of the embedded board card, and can timely make response operation.

In a fifth embodiment of the method for managing a health network of an intelligent chassis according to the present invention, based on any of the above embodiments, the method further includes the following steps:

step S510: and acquiring the input configuration instruction.

Specifically, the management terminal obtains the input configuration instruction. That is, the management terminal obtains the configuration command input by the administrator, and here, the configuration command may be input through an input device provided in the management terminal, such as a keyboard and a mouse.

Step S520: and sending the configuration instruction to the processing unit through the SNMP unit.

Specifically, the management terminal sends the configuration instruction to the processing unit through the SNMP unit.

Step S530: and generating a serial port configuration instruction according to the configuration instruction.

Specifically, the processing unit generates a serial port configuration instruction according to the configuration instruction.

Step S540: and sending the serial port configuration instruction to the processor through the serial port communication unit.

Specifically, the processing unit sends the serial port configuration instruction to the processor through the serial port communication unit.

Step S550: and executing the serial port configuration instruction and acquiring first execution result information.

Specifically, the processor executes the serial port configuration instruction and acquires first execution result information.

Step S560: and sending the first execution result information to the processing unit through the serial port communication unit.

Specifically, the processor sends the first execution result information to the processing unit through the serial port communication unit.

Step S570: and sending the first execution result information to the management terminal through the SNMP unit.

Specifically, the processing unit sends the first execution result information to the management terminal through the SNMP unit. The first execution result here is whether the configuration is successful or not.

The embodiment is a specific method for configuring an embedded board card through a management terminal, where the configuration instruction may be to perform IP configuration on the embedded board card, or may also be to configure a communication interface, time configuration, or version information. Through the embodiment, managers can conveniently carry out visual and rapid configuration management on the embedded board card.

In a sixth embodiment of the method for managing a health network of an intelligent chassis according to the present invention, based on any of the above embodiments, the method further includes the following steps:

step S610: and acquiring an input switching command.

Specifically, the management terminal acquires an input switching instruction.

Step S620: and sending the switch command to the processing unit through the SNMP unit.

Specifically, the management terminal sends the switch command to the processing unit through the SNMP unit.

Step S630: and generating a serial port switching instruction according to the switching instruction.

Specifically, the processing unit generates a serial port switching instruction according to the switching instruction.

Step S640: and sending the switch serial port instruction to the processor through the serial port communication unit.

Specifically, the processing unit sends the switch serial port instruction to the processor through the serial port communication unit.

Step S650: and executing the serial port switching instruction and acquiring second execution result information.

Specifically, the processor executes the switch serial port instruction and acquires second execution result information.

Step S660: and sending the second execution result information to the processing unit through the serial port communication unit.

Specifically, the processor sends the second execution result information to the processing unit through the serial port communication unit. The second execution result here is whether the switching was successful.

Step S670: and sending the second execution result information to the management terminal through the SNMP unit.

Specifically, the processing unit sends the second execution result information to the management terminal through the SNMP unit.

The embodiment is a specific method for remotely powering on and powering off the embedded board card through the management terminal, and through the embodiment, managers can conveniently remotely power on and power off the embedded board card.

In a seventh embodiment of the method for managing a health network of an intelligent chassis according to the present invention, based on any of the above embodiments, the method further includes the following steps:

step S710: and acquiring the input query instruction.

Specifically, the management terminal obtains an input query instruction.

Step S720: and sending the query instruction to the processing unit through the SNMP unit.

Specifically, the management terminal sends the query instruction to the processing unit through the SNMP unit.

Step S730: and generating a serial port inquiry instruction according to the inquiry instruction.

Specifically, the processing unit generates a serial port query instruction according to the query instruction.

Step S740: and sending the serial port inquiring instruction to the processor through the serial port communication unit.

Specifically, the processing unit sends the serial port query instruction to the processor through the serial port communication unit.

Step S750: and executing the serial port inquiry instruction and acquiring third execution result information.

Specifically, the processor executes the serial port query instruction and obtains third execution result information.

Step S760: and sending the third execution result information to the processing unit through the serial port communication unit.

Specifically, the processor sends the third execution result information to the processing unit through the serial port communication unit.

Step S770: and sending the third execution result information to the management terminal through the SNMP unit.

Specifically, the processor sends the third execution result information to the management terminal through the SNMP unit. The third execution result is feedback information corresponding to the query instruction. The management terminal displays the feedback information through the display interface so that a manager can visually know the feedback information, the embodiment is a specific method for performing remote query operation on the embedded board card through the management terminal, and the query instruction can be an instruction for performing various information queries on the embedded board card.

In an eighth embodiment of the intelligent chassis health network management method provided by the invention, based on the seventh embodiment, the embedded board card is provided with a fan and a power supply; the fan is used for radiating the embedded board card; the power supply is used for supplying power to the embedded board card; the embedded board card also comprises a plurality of equipment modules; the query instruction comprises a fan information query instruction, a power supply information query instruction and an equipment FRU information query instruction.

Namely, the fan information, the power supply information and the equipment FRU information of the embedded board card can be remotely inquired through the embodiment; the fan information here includes: the fan comprises a fan device model, a fan rotating speed, a fan working current and a fan working voltage; the power supply information here includes the manufacturer, model, serial number, hardware version number, FW version, input grid, and operation mode of the power supply.

The equipment modules include but are not limited to an IO module (input output module) and a processor module; the device FRU information refers to FRU (Field replaceable unit) information of each device module, where the FRU information includes information such as manufacturer, version number, model, and serial number of each device module.

By looking up the fan information, the power supply information and the equipment FRU information of the embedded board card, managers can know the running condition of the embedded board card in time, so that the normal running of the embedded board card is ensured.

In a ninth embodiment of the method for managing a health network of an intelligent chassis provided by the present invention, based on the first embodiment, the present embodiment further includes the following steps:

step S910: and generating a log record according to all the operation actions.

Specifically, the processing unit generates a log record according to all the operation actions so as to facilitate subsequent reference of a manager.

In a tenth embodiment of the method for managing a health network of an intelligent chassis according to the present invention, based on the fourth embodiment, the step of displaying the alarm information on the display interface further includes the following steps:

step S1010: and judging whether the input feedback instruction is acquired within a preset time period after the alarm information is displayed on the display interface.

Specifically, the management terminal determines whether the input feedback instruction is acquired within a preset time period (for example, 30S) after the alarm information is displayed on the display interface. Namely, whether the manager timely feeds back after receiving the alarm information is judged.

If not, go to step S1020: and judging whether the abnormal value in the alarm information is a voltage value or a current value.

Specifically, when the administrator does not perform feedback in time, the management terminal determines whether an abnormal value in the alarm information is a voltage value or a current value. Due to the fact that the problems of voltage overload and current overload are serious, management personnel need to timely respond.

Step S1030: and when the abnormal value in the alarm information is a voltage value or a current value, generating a power-off instruction, and taking the power-off instruction as the feedback instruction.

Specifically, when the abnormal value in the alarm information is a voltage value or a current value, the management terminal generates a power-off instruction, and the power-off instruction is used as the feedback instruction. Namely, the management host generates a power-off command by itself to replace a manager to respond.

Step S1040: and sending the feedback instruction to the processing unit through the SNMP unit.

Specifically, the management terminal sends the feedback instruction to the processing unit through the SNMP unit.

Step S1050: and generating a feedback serial port instruction according to the feedback instruction.

Specifically, the processing unit generates a feedback serial port instruction according to the feedback instruction.

Step S1060: and sending the feedback serial port instruction to the processor through the serial port communication unit.

Specifically, the processing unit sends the feedback serial port instruction to the processor through the serial port communication unit.

Step S1070: and executing the serial port feedback instruction and acquiring fourth execution result information.

Specifically, the processor executes the feedback serial port instruction and acquires fourth execution result information. Namely, the processor powers off the embedded board card, and the power-off result is used as the fourth execution result information.

Step S1080: and returning the fourth execution result information to the management terminal.

Specifically, the processor sends the fourth execution result information to the management terminal through the network management module, and feeds back the execution result of the power-off instruction in time.

Through this embodiment, can be when managers do not in time make feedback action to warning message, the quick response of proper motion (promptly when embedded integrated circuit board current overload or voltage overload, the outage by proper motion) to avoid embedded integrated circuit board damage, guarantee its normal steady operation.

The invention also provides an intelligent case health network management system, which is applied to the intelligent case health network management method; the intelligent case health network management system comprises a management terminal, an embedded board card, a network management module and a sensor assembly; the embedded board card comprises a processor; the network management module comprises an SNMP unit, a serial port communication unit and a processing unit; the SNMP unit and the serial port communication unit are in communication connection with the processing unit; the serial port communication unit and the sensor assembly are in communication connection with the processor; the SNMP unit is in communication connection with the management terminal based on an SNMP protocol; the sensor assembly is arranged on the embedded board card.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, wherein the software product is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk), and includes instructions for enabling a terminal (such as a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. A method for managing an intelligent case health network is characterized by being applied to an intelligent case health network management system; the intelligent case health network management system comprises a management terminal, an embedded board card, a network management module and a sensor assembly; the embedded board card comprises a processor; the network management module comprises an SNMP unit, a serial port communication unit and a processing unit; the SNMP unit and the serial port communication unit are in communication connection with the processing unit; the serial port communication unit and the sensor assembly are in communication connection with the processor; the SNMP unit is in communication connection with the management terminal based on an SNMP protocol; the sensor assembly is arranged on the embedded board card; the intelligent case health network management method comprises the following steps:

sending a plurality of monitoring values of the embedded board card acquired by the sensor assembly to the processor;

marking the monitored value with abnormality as an abnormal value;

sending the abnormal value to the processing unit through the serial port communication unit;

and generating alarm information according to the abnormal value, and sending the alarm information to the management terminal through the SNMP unit.

2. The intelligent chassis health network management method of claim 1, wherein the sensor group comprises a voltage sensor, a current sensor and a temperature sensor; the monitoring values comprise voltage values, current values and temperature values; with sensor component gathers a plurality of monitoring value of embedded integrated circuit board send to the treater includes:

acquiring a voltage value acquired by the voltage sensor;

acquiring a current value acquired by the current sensor;

acquiring a temperature value acquired by the temperature sensor;

sending the voltage value, the current value, and the temperature value to the processor.

3. The intelligent cabinet health network management method according to claim 2, wherein the marking of the monitored value with an abnormality as an abnormal value comprises:

acquiring a normal voltage interval value, a normal current threshold value and a normal temperature interval value;

judging whether the voltage value does not fall into the voltage interval value;

if yes, marking the voltage value as an abnormal value;

judging whether the current value exceeds the normal current threshold value;

if yes, marking the current value as an abnormal value;

judging whether the temperature value does not fall into the normal temperature interval value;

if so, the temperature value is marked as an abnormal value.

4. The intelligent cabinet health network management method of claim 3, wherein the alarm information comprises an abnormal value, an alarm time and an alarm address; the alarm time is the time point of generating alarm information, and the alarm address is the IP address of the embedded board card with the abnormal value; the management terminal comprises a display interface; generating alarm information according to the abnormal value, and sending the alarm information to the management terminal through the SNMP unit, and then:

and displaying the alarm information on the display interface.

5. The intelligent chassis health network management method according to any one of claims 1-4, further comprising:

acquiring an input configuration instruction;

sending the configuration instruction to the processing unit through the SNMP unit;

generating a serial port configuration instruction according to the configuration instruction;

sending the serial port configuration instruction to the processor through the serial port communication unit;

executing the serial port configuration instruction and acquiring first execution result information;

sending the first execution result information to the processing unit through the serial port communication unit;

and sending the first execution result information to the management terminal through the SNMP unit.

6. The intelligent chassis health network management method according to any one of claims 1-4, further comprising:

acquiring an input switching instruction;

sending the switch command to the processing unit through the SNMP unit;

generating a serial port switching instruction according to the switching instruction;

sending the switch serial port instruction to the processor through the serial port communication unit;

executing the serial port switching instruction and acquiring second execution result information;

sending the second execution result information to the processing unit through the serial port communication unit;

and sending the second execution result information to the management terminal through the SNMP unit.

7. The intelligent chassis health network management method according to any one of claims 1-4, further comprising:

acquiring an input query instruction;

sending the query instruction to the processing unit through the SNMP unit;

generating an inquiry serial port instruction according to the inquiry instruction;

sending the serial port inquiring instruction to the processor through the serial port communication unit;

executing the serial port inquiring instruction and acquiring third execution result information;

sending the third execution result information to the processing unit through the serial port communication unit;

and sending the third execution result information to the management terminal through the SNMP unit.

8. The intelligent case health network management method of claim 7, wherein the embedded board card is provided with a fan and a power supply; the fan is used for radiating the embedded board card; the power supply is used for supplying power to the embedded board card; the embedded board card also comprises a plurality of equipment modules; the query instruction comprises a fan information query instruction, a power supply information query instruction and an equipment FRU information query instruction.

9. The intelligent chassis health network management method of claim 1, further comprising:

and generating a log record according to all the operation actions.

10. An intelligent case health network management system, which is applied to the intelligent case health network management method according to any one of claims 1 to 9; the intelligent case health network management system comprises a management terminal, an embedded board card, a network management module and a sensor assembly; the embedded board card comprises a processor; the network management module comprises an SNMP unit, a serial port communication unit and a processing unit; the SNMP unit and the serial port communication unit are in communication connection with the processing unit; the serial port communication unit and the sensor assembly are in communication connection with the processor; the SNMP unit is in communication connection with the management terminal based on an SNMP protocol; the sensor assembly is arranged on the embedded board card.

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