CN112965883A - Network-based computer hardware monitoring system - Google Patents

Abstract

The invention discloses a network-based computer hardware monitoring system, which is used for solving the problems that the existing computer monitoring system can not analyze the temperature of computer hardware, clean dust and dirt and reasonably select corresponding personnel to maintain the hardware, so that the dust and dirt block heat dissipation holes of a computer and influence the heat dissipation and the service life of the computer; the hardware monitoring unit is used for acquiring hardware information of the computer hardware and sending the hardware information to the data analysis unit; according to the invention, the cleaning execution unit is used for cleaning dust and dirt of the heat dissipation holes of the side plate of the computer, so that the heat dissipation of the computer is prevented from being influenced by blocking the heat dissipation holes by the dust and dirt; corresponding personnel are reasonably selected to maintain the hardware through the optimal value, so that the computer hardware is convenient to maintain in time, and the long-time abnormal work of the hardware is avoided, and the service life of the computer is prevented from being influenced.

Description

Network-based computer hardware monitoring system

Technical Field

The invention relates to the technical field of computer hardware monitoring, in particular to a computer hardware monitoring system based on a network.

Background

The computer monitoring system, namely the computer monitoring control system, is a computer system with data, monitoring and control functions, and has the characteristics of real-time performance, reliability, maintainability, management function, automatic control and the like; with the continuous development of computer technology, computers have more and more gone into the work and life of people, currently, computers are widely used as an important tool, computer hardware is prone to failure in work and the work process is affected, and therefore a series of computer hardware monitoring systems appear;

the existing computer monitoring system can not analyze the temperature of computer hardware, clean dust and dirt and reasonably select corresponding personnel to maintain the hardware, so that the dust and the dirt block heat dissipation holes of the computer, and the heat dissipation and the service life of the computer are influenced;

in view of the above technical drawbacks, a solution is proposed.

Disclosure of Invention

The invention aims to provide a network-based computer hardware monitoring system in order to solve the problems that the existing computer monitoring system cannot analyze the temperature of computer hardware, clean dust and dirt, reasonably select corresponding personnel to maintain the hardware, and cause the dust and dirt to block heat dissipation holes of a computer, so that the heat dissipation and the service life of the computer are influenced.

The purpose of the invention can be realized by the following technical scheme: a computer hardware monitoring system based on network is used in a monitoring end and comprises a hardware monitoring unit, a data analysis unit and a cleaning execution unit;

the hardware monitoring unit is used for acquiring hardware information of the computer hardware and sending the hardware information to the data analysis unit; the computer hardware comprises a processor, a mainboard, a display card, a processor fan, input equipment and output equipment, wherein the hardware information comprises the name, the model, the position, the real-time temperature data, the real-time decibel data and the working parameters of the computer hardware;

the data analysis unit is used for sending the hardware information to the data receiving unit in the server and analyzing the hardware information, and the specific analysis process is as follows:

acquiring real-time temperature data of a processor and real-time decibel data of a fan of the processor, comparing all real-time temperatures of the processor with a preset temperature threshold, and marking the temperature greater than the preset temperature threshold as a calculated temperature; counting the number of all calculated temperatures and summing all the calculated temperatures to obtain a temperature mean value;

the number of the calculated temperatures and the temperature mean are respectively marked as CM1 and CM 2; normalizing the number and the temperature mean value and taking the numerical value;

the temperature actuation value CMQ is obtained using the formula CMQ = CM1 × b1+ CM2 × b 2; wherein b1 and b2 are preset weight coefficients, and the values are 0.47 and 0.58 respectively; when the temperature execution value is larger than the set execution threshold value, generating a cleaning execution instruction and sending the cleaning execution instruction to a cleaning execution unit; the temperature execution value is a numerical value used for evaluating the probability of generating a cleaning execution instruction;

acquiring real-time decibel data of a processor fan, comparing the real-time decibel with a preset decibel threshold value, marking the real-time decibel larger than the preset decibel threshold value as an abnormal decibel, summing all the abnormal decibels, taking the average value to obtain a decibel average value, and marking the decibel average value as CM 3; normalizing the decibel mean value and the temperature execution value and taking the numerical value; obtaining a score QL by using a formula QL = CM3 × b3+ CMQ × b 4; wherein b3 and b4 are preset weight coefficients, and the values are 0.6 and 0.4 respectively; when the score clearing value is larger than the set score clearing threshold value, generating a score clearing instruction, and sending the score clearing instruction, the model and the position of the processor fan to a data receiving unit in the server; the score value is a numerical value used for evaluating the probability of generating a score command;

the cleaning execution unit is used for receiving the cleaning execution instruction and executing the operation of cleaning the heat dissipation hole of the computer side board.

As a preferred embodiment of the invention, the cleaning execution unit comprises two parallel limiting rods which are arranged on the computer case and are positioned at two sides of the heat dissipation hole of the computer case, sliding grooves are respectively formed in the two limiting rods, two sides of a baffle are respectively and slidably arranged in the two sliding grooves, gear grooves which are uniformly and respectively arranged are symmetrically formed in two sides of the baffle, a miniature dust collector is arranged on the baffle, two ends of each limiting rod are correspondingly provided with a motor, an output shaft end of each motor penetrates through the limiting rods and is positioned in the sliding grooves and is fixedly connected with a gear arranged in the sliding grooves, and a plurality of teeth which are matched with the gear grooves for use are arranged on the gear.

As a preferred embodiment of the present invention, the server includes a registration login unit and a database, the registration login unit is used for the hardware cleaning maintenance personnel to submit the personnel information through the mobile phone terminal for registration and send the personnel information that is successfully registered to the database; marking the hardware cleaning maintenance personnel which are successfully registered as registration personnel; the personnel information comprises the name, the mobile phone number, the working duration and the age of a registered person and the name of cleaning and maintaining hardware;

as a preferred embodiment of the present invention, the server further includes an information encryption unit and a hardware clearing unit;

the data receiving unit receives the hardware information and then sends the hardware information to the information encryption unit, and after receiving the sorting command and the type and position of the processor fan, the data receiving unit sends the hardware information to the hardware sorting unit;

the information encryption unit encrypts the hardware information and sends the encrypted hardware information to a database;

the hardware sorting unit analyzes the sorting command and the type and position of the processor fan, sends the sorting command and the type and position of the processor fan and the cleaning time period to a mobile phone terminal of a selected registrant, marks the time for sending the sorting command as an initial sending time, the selected registrant reaches the position corresponding to the processor fan after receiving the sorting command and the type and position of the processor fan through the mobile phone terminal, verifies the sorting command and the type and position of the processor fan through the mobile phone terminal, marks the time for successful verification as the time of arrival, and increases the total cleaning times of the selected registrant once;

as a preferred embodiment of the present invention, the server further includes an effect clearing analysis unit, where the effect clearing analysis unit is configured to perform effect clearing analysis on the selected registrant, and specifically includes: comparing the arrival time of the selected registered person with the starting time of the cleaning time period, and calculating the time difference between the arrival time and the starting time of the cleaning time period to obtain the advanced time length when the arrival time is before the starting time of the cleaning time period; summing all the advanced time lengths of the selected registrars, averaging to obtain an advanced average value, and marking the average value as QM 1; marking the total cleaning times of the selected registrars as QM 2; then carrying out normalization processing on the advanced average value and the total cleaning times and taking the numerical values of the advanced average value and the total cleaning times; obtaining a clearing value DB1 of the selected registered personnel by using a formula DB1= d5/QM1+ QM2 multiplied by d 6; wherein d5/d6 are preset weight coefficients, and the values are 0.65 and 0.35 respectively; the clearing value analysis unit sends the clearing value of the selected registered person to the database; the clearing value is a value used for evaluating the clearing performance value by carrying out numerical value calculation according to the corresponding parameter of the registered personnel;

as a preferred embodiment of the present invention, the specific analysis steps of the hardware inventory unit are as follows:

the method comprises the following steps: comparing the received model of the processor fan with the name of cleaning and maintenance hardware of a registered person, marking the registered person containing the model of the processor fan in the name of the cleaning and maintenance hardware as a third person, sending a position acquisition instruction to a mobile phone terminal of the third person and acquiring the real-time position of the third person, calculating the distance difference between the position of the third person and the position of the processor fan to obtain a cleaning and separating distance, and marking the third person with the cleaning and separating distance smaller than a set distance threshold value as a second person;

step two: sending a time period confirmation instruction to a mobile phone terminal of a computer owner corresponding to the processor fan, sending a cleaning time period to a mobile phone terminal of a second person by the hardware sorting unit when the processor fan corresponds to the computer owner and sends the cleaning time period to the hardware sorting unit through the mobile phone terminal, and marking the second person sending the confirmation instruction as a first person when the second person sends the confirmation instruction to the hardware sorting unit through the mobile phone terminal;

step three: acquiring clear effective values of a first person, and respectively marking the clear effective values, the working duration, the age and the clearing distance of the first person as DB1, DB2, DB3 and DB 4; then carrying out normalization processing on the clearing value, the working duration, the age and the clearing interval and taking the numerical values;

step four: using formulas

Obtaining the clear figure of merit DF of the first person; wherein d1, d2, d3 and d4 are all preset weight coefficients with values of 1.9, 2.6, 32 and 0.17 respectively; mu is a correction factor, and the value is 0.94; the cleaning merit value is a numerical value used for evaluating the hardware cleaning probability of the first person, which is obtained by numerical calculation according to the corresponding parameter of the first person;

step five: and marking the first person with the maximum clear figure as the selected registered person.

Compared with the prior art, the invention has the beneficial effects that:

1. the data analysis unit sends hardware information to a data receiving unit in a server, analyzes the hardware information at the same time, obtains real-time temperature data of a processor and real-time decibel data of a processor fan, analyzes the real-time temperature data and the real-time decibel data of the processor fan to obtain a temperature execution value, generates a cleaning execution instruction and sends the cleaning execution instruction to the cleaning execution unit when the temperature execution value is larger than a set execution threshold value, and cleans dust and dirt in heat dissipation holes of a side plate of the computer through the cleaning execution unit to prevent the dust and dirt from blocking the heat dissipation holes and influencing the heat dissipation of the computer;

2. the method comprises the steps of obtaining real-time decibel data of a processor fan, analyzing the real-time decibel data to obtain a score value, generating a score command when the score value is larger than a set score threshold value, sending the score command and the model and the position of the processor fan to a data receiving unit in a server, sending the score command and the model and the position of the processor fan to a hardware score unit after the data receiving unit receives the score command and the model and the position of the processor fan, obtaining a preferred value by the hardware score unit according to the valid value, working duration, age and score interval, reasonably selecting corresponding personnel to maintain the hardware through the preferred value, facilitating timely maintenance of computer hardware, and avoiding long-time abnormal work of the hardware and influence on the service life of the computer.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings;

FIG. 1 is a functional block diagram of the present invention;

FIG. 2 is a schematic diagram of an overall cleaning execution unit according to the present invention;

fig. 3 is a sectional view showing the structure of the vacuum cleaner of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a network-based computer hardware monitoring system includes a monitoring end and a server; the monitoring end is in communication connection with the server;

the monitoring end comprises a hardware monitoring unit, a data analysis unit and a cleaning execution unit; the hardware monitoring unit is used for acquiring hardware information of the computer hardware and sending the hardware information to the data analysis unit; the computer hardware comprises a processor, a mainboard, a display card, a processor fan, input equipment and output equipment, wherein the hardware information comprises the name, the model, the position, the real-time temperature data, the real-time decibel data and the working parameters of the computer hardware;

the data analysis unit is used for sending the hardware information to the data receiving unit in the server and analyzing the hardware information, and the specific analysis process is as follows:

acquiring real-time temperature data of a processor and real-time decibel data of a fan of the processor, comparing all real-time temperatures of the processor with a preset temperature threshold, and marking the temperature greater than the preset temperature threshold as a calculated temperature; counting the number of all calculated temperatures and summing all the calculated temperatures to obtain a temperature mean value;

the number of the calculated temperatures and the temperature mean are respectively marked as CM1 and CM 2; normalizing the number and the temperature mean value and taking the numerical value;

the temperature actuation value CMQ is obtained using the formula CMQ = CM1 × b1+ CM2 × b 2; wherein b1 and b2 are preset weight coefficients, and the values are 0.47 and 0.58 respectively; when the temperature execution value is larger than the set execution threshold value, generating a cleaning execution instruction and sending the cleaning execution instruction to a cleaning execution unit;

acquiring real-time decibel data of a processor fan, comparing the real-time decibel with a preset decibel threshold value, marking the real-time decibel larger than the preset decibel threshold value as an abnormal decibel, summing all the abnormal decibels, taking the average value to obtain a decibel average value, and marking the decibel average value as CM 3; normalizing the decibel mean value and the temperature execution value and taking the numerical value; obtaining a score QL by using a formula QL = CM3 × b3+ CMQ × b 4; wherein b3 and b4 are preset weight coefficients, and the values are 0.6 and 0.4 respectively; when the score clearing value is larger than the set score clearing threshold value, generating a score clearing instruction, and sending the score clearing instruction, the model and the position of the processor fan to a data receiving unit in the server;

referring to fig. 2-3, the cleaning execution unit is used for receiving a cleaning execution instruction and executing an operation of cleaning a heat dissipation hole of a side plate of a computer, the cleaning execution unit is installed on a computer case 1, the heat dissipation hole 2 is arranged on the computer case 1, the cleaning execution unit includes two parallel limiting rods 31 installed on two sides of the heat dissipation hole 2 and a baffle 36 installed in the two limiting rods, sliding grooves 32 are symmetrically formed on the two limiting rods 31, two sides of the baffle 36 are slidably inserted into the two sliding grooves 32, and the side walls of the two sides of the baffle are uniformly provided with a plurality of gear grooves 361, one end of each of the two limiting rods is provided with a motor 34, the axis of the output shaft of the motor 34 and the center of a gear 35 arranged in the chute 32 are on the same axis, the end of the output shaft of the motor 34 is welded and fixed with the gear 35, and a plurality of teeth (not shown) matched with the gear groove 361 are integrally formed on the gear 35; a micro dust collector 37 is arranged on the baffle 36; the mini-type vacuum cleaner 37 comprises a shell 371 arranged on a baffle 36, the shell 371 is communicated with a suction inlet 373 through a pipeline 372, a dust filtering bag 374 is arranged inside the shell 371, one side of a dust filtering belt 371 is provided with an air draft assembly 375, and the air draft assembly 375 consists of a motor and a fan impeller arranged on the motor; an air outlet 376 is formed in the side wall of one side of the shell 371, and a filter screen 377 is arranged in the air outlet 376; during cleaning, the two motors 34 drive the gears 35 to rotate, and meanwhile, the rotation directions of the two gears 35 are opposite, taking the visual angle of fig. 2 as an example, the motor 34 positioned on the left side of the heat dissipation hole 2 drives the gears 35 to rotate clockwise, the motor 34 positioned on the right side of the heat dissipation hole 2 drives the gears 35 to rotate anticlockwise, teeth on the gears 35 are meshed with gear grooves 361 on two sides of the baffle 36, the baffle 36 moves downwards, the air draft assembly 375 is started simultaneously, dust and dirt on the heat dissipation hole 2 are sucked into the dust filter bag through the air draft assembly 375, and the phenomenon that the heat dissipation hole 2 is blocked by the dust and dirt is avoided, so that the heat dissipation; the cleaning execution unit also monitors the power-on state of the computer, when the computer is powered off, the cleaning execution unit controls the baffle 36 to block the heat dissipation hole 2, and dust or floating objects are prevented from entering the computer when the computer does not work;

the server comprises a registration login unit, a clearing and efficiency analyzing unit, a database, an information encryption unit and a hardware clearing unit;

the registration login unit is used for submitting personnel information to register by hardware cleaning maintenance personnel through a mobile phone terminal and sending the personnel information which is successfully registered to the database; marking the hardware cleaning maintenance personnel which are successfully registered as registration personnel; the personnel information comprises the name, the mobile phone number, the working duration and the age of a registered person and the name of cleaning and maintaining hardware;

the data receiving unit receives the hardware information and then sends the hardware information to the information encryption unit, and after receiving the sorting command and the type and position of the processor fan, the data receiving unit sends the hardware information to the hardware sorting unit;

the information encryption unit encrypts the hardware information and sends the encrypted hardware information to a database;

the hardware sorting unit analyzes the sorting command and the type and position of the processor fan, sends the sorting command and the type and position of the processor fan and the cleaning time period to a mobile phone terminal of a selected registrant, marks the time for sending the sorting command as an initial sending time, the selected registrant reaches the position corresponding to the processor fan after receiving the sorting command and the type and position of the processor fan through the mobile phone terminal, verifies the sorting command and the type and position of the processor fan through the mobile phone terminal, marks the time for successful verification as the time of arrival, and increases the total cleaning times of the selected registrant once;

the effect clearing analysis unit is used for carrying out effect clearing analysis on the selected registrant, and specifically comprises the following steps: comparing the arrival time of the selected registered person with the starting time of the cleaning time period, and calculating the time difference between the arrival time and the starting time of the cleaning time period to obtain the advanced time length when the arrival time is before the starting time of the cleaning time period; summing all the advanced time lengths of the selected registrars, averaging to obtain an advanced average value, and marking the average value as QM 1; marking the total cleaning times of the selected registrars as QM 2; then carrying out normalization processing on the advanced average value and the total cleaning times and taking the numerical values of the advanced average value and the total cleaning times; obtaining a clearing value DB1 of the selected registered personnel by using a formula DB1= d5/QM1+ QM2 multiplied by d 6; wherein d5/d6 are preset weight coefficients, and the values are 0.65 and 0.35 respectively; the clearing value analysis unit sends the clearing value of the selected registered person to the database;

the specific analysis steps of the hardware sorting unit are as follows:

the method comprises the following steps: comparing the received model of the processor fan with the name of cleaning and maintenance hardware of a registered person, marking the registered person containing the model of the processor fan in the name of the cleaning and maintenance hardware as a third person, sending a position acquisition instruction to a mobile phone terminal of the third person and acquiring the real-time position of the third person, calculating the distance difference between the position of the third person and the position of the processor fan to obtain a cleaning and separating distance, and marking the third person with the cleaning and separating distance smaller than a set distance threshold value as a second person;

step two: sending a time period confirmation instruction to a mobile phone terminal of a computer owner corresponding to the processor fan, sending a cleaning time period to a mobile phone terminal of a second person by the hardware sorting unit when the processor fan corresponds to the computer owner and sends the cleaning time period to the hardware sorting unit through the mobile phone terminal, and marking the second person sending the confirmation instruction as a first person when the second person sends the confirmation instruction to the hardware sorting unit through the mobile phone terminal;

step three: acquiring clear effective values of a first person, and respectively marking the clear effective values, the working duration, the age and the clearing distance of the first person as DB1, DB2, DB3 and DB 4; then carrying out normalization processing on the clearing value, the working duration, the age and the clearing interval and taking the numerical values;

step four: using formulas

Obtaining the clear figure of merit DF of the first person; wherein d1, d2, d3 and d4 are all preset weight coefficients with values of 1.9, 2.6, 32 and 0.17 respectively; mu is a correction factor, and the value is 0.94;

step five: marking the first person with the maximum clear figure value as the selected registered person; selecting a position where a registered person arrives at the hardware and maintaining the hardware; the method comprises the steps of replacing a processor fan and cleaning dust in the processor fan;

the formulas are obtained by acquiring a large amount of data and performing software simulation, and the coefficients in the formulas are set by the technicians in the field according to actual conditions;

when the computer cooling device is used, the data analysis unit sends hardware information to the data receiving unit in the server, meanwhile, the hardware information is analyzed, processor real-time temperature data and processor fan real-time decibel data are obtained, the temperature execution value is obtained through analysis, when the temperature execution value is larger than a set execution threshold value, a cleaning execution instruction is generated and sent to the cleaning execution unit, dust and dirt of the cooling hole 2 of the side plate of the computer are cleaned through the cleaning execution unit, and the phenomenon that the cooling hole 2 is blocked by the dust and dirt to influence the cooling of the computer is avoided; the method comprises the steps of obtaining real-time decibel data of a processor fan, analyzing the real-time decibel data to obtain a score value, generating a score command and sending the score command and the model and the position of the processor fan to a data receiving unit inside a server when the score value is larger than a set score threshold value, receiving the score command by the data receiving unit, sending the score command to a hardware score unit after the model and the position of the processor fan are detected, obtaining a preferred value by the hardware score unit according to the valid value, the duration of a practitioner, the age and the score interval, reasonably selecting corresponding personnel to maintain the hardware through the preferred value, facilitating timely maintenance of computer hardware, and avoiding long-time abnormal work of the hardware and influencing the service life of the computer.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. A network-based computer hardware monitoring system is used in a monitoring terminal and is characterized in that,

the system comprises a hardware monitoring unit, a data analysis unit and a cleaning execution unit;

the hardware monitoring unit is used for acquiring hardware information of the computer hardware and sending the hardware information to the data analysis unit;

the data analysis unit is used for sending the hardware information to the data receiving unit in the server and analyzing the hardware information, and the specific analysis process is as follows:

acquiring real-time temperature data of a processor and real-time decibel data of a fan of the processor, comparing all real-time temperatures of the processor with a preset temperature threshold, and marking the temperature greater than the preset temperature threshold as a calculated temperature; counting the number of all calculated temperatures and summing all the calculated temperatures to obtain a temperature mean value; normalizing the number of the calculated temperatures and the temperature mean value and taking the numerical values; analyzing the numerical value to obtain a temperature execution value; when the temperature execution value is larger than the set execution threshold value, generating a cleaning execution instruction and sending the cleaning execution instruction to a cleaning execution unit;

acquiring real-time decibel data of a processor fan, comparing the real-time decibel with a preset decibel threshold value, marking the real-time decibel larger than the preset decibel threshold value as abnormal decibels, summing all the abnormal decibels and taking the average value to obtain a decibel average value; normalizing the decibel mean value and the temperature execution value and taking the numerical value; analyzing the numerical value to obtain a score value, generating a score clearing instruction and sending the score clearing instruction, the model and the position of the processor fan to a data receiving unit in the server when the score clearing value is larger than a set score clearing threshold value;

the cleaning execution unit is used for receiving the cleaning execution instruction and executing the operation of cleaning the heat dissipation hole of the computer side board.

2. The network-based computer hardware monitoring system of claim 1, wherein the cleaning execution unit comprises two parallel limiting rods installed on the computer case and located at two sides of the heat dissipation hole of the computer case, sliding grooves are formed in the two limiting rods, two sides of a baffle are respectively installed in the two sliding grooves in a sliding mode, gear grooves which are evenly distributed are symmetrically formed in two sides of the baffle, a micro dust collector is installed on the baffle, motors are correspondingly installed at two ends of the limiting rods, output shaft ends of the motors penetrate through the limiting rods and located in the sliding grooves and fixedly connected with gears installed in the sliding grooves, and a plurality of teeth matched with the gear grooves are arranged on the gears.

3. The network-based computer hardware monitoring system of claim 1, wherein the server comprises a registration login unit and a database, the registration login unit is used for hardware cleaning maintenance personnel to submit personnel information through a mobile phone terminal for registration and send the personnel information which is successfully registered to the database; and marking the hardware cleaning maintenance personnel successfully registered as registered personnel.

4. A network-based computer hardware monitoring system according to claim 3, wherein said server further comprises an information encryption unit and a hardware inventory unit;

the data receiving unit receives the hardware information and then sends the hardware information to the information encryption unit, and after receiving the sorting command and the type and position of the processor fan, the data receiving unit sends the hardware information to the hardware sorting unit;

the information encryption unit encrypts the hardware information and sends the encrypted hardware information to a database;

the hardware sorting unit analyzes the sorting command and the type and position of the processor fan, sends the sorting command and the type and position of the processor fan and the cleaning time period to a mobile phone terminal of a selected registrant, simultaneously marks the time for sending the sorting command as an initial sending time, the selected registrant reaches the position corresponding to the processor fan after receiving the sorting command and the type and position of the processor fan through the mobile phone terminal, verifies through the mobile phone terminal and the hardware sorting unit, marks the time when the verification is successful as the reaching time, and simultaneously increases the total cleaning times of the selected registrant once.

5. The network-based computer hardware monitoring system of claim 4, wherein the server further comprises a cleaning analysis unit, and the cleaning analysis unit is configured to perform cleaning analysis on the selected registrant, specifically: comparing the arrival time of the selected registered person with the starting time of the cleaning time period, and calculating the time difference between the arrival time and the starting time of the cleaning time period to obtain the advanced time length when the arrival time is before the starting time of the cleaning time period; summing all the advanced time lengths of the selected registrars and taking the average value to obtain an advanced average value; then carrying out normalization processing on the advanced average value and the total cleaning times and taking the numerical values of the advanced average value and the total cleaning times; and analyzing the numerical value to obtain the clear effective value of the selected registrant, and sending the clear effective value of the selected registrant to the database by the clear effective analysis unit.

6. A network-based computer hardware monitoring system as claimed in claim 5, wherein the specific analysis steps of the hardware inventory unit are:

the method comprises the following steps: comparing the received model of the processor fan with the name of cleaning and maintenance hardware of a registered person, marking the registered person containing the model of the processor fan in the name of the cleaning and maintenance hardware as a third person, sending a position acquisition instruction to a mobile phone terminal of the third person and acquiring the real-time position of the third person, calculating the distance difference between the position of the third person and the position of the processor fan to obtain a cleaning and separating distance, and marking the third person with the cleaning and separating distance smaller than a set distance threshold value as a second person;

step two: sending a time period confirmation instruction to a mobile phone terminal of a computer owner corresponding to the processor fan, sending a cleaning time period to a mobile phone terminal of a second person by the hardware sorting unit when the processor fan corresponds to the computer owner and sends the cleaning time period to the hardware sorting unit through the mobile phone terminal, and marking the second person sending the confirmation instruction as a first person when the second person sends the confirmation instruction to the hardware sorting unit through the mobile phone terminal;

step three: acquiring an effective clearing value of a first person, carrying out normalization processing on the effective clearing value, the working duration, the age and the clearing interval and taking the numerical values; analyzing the numerical value to obtain the optimal value of the first person; and marking the first person with the maximum clear figure as the selected registered person.

Images