CN114742529A

CN114742529A - Laboratory equipment maintenance management system

Info

Publication number: CN114742529A
Application number: CN202210382560.2A
Authority: CN
Inventors: 张学亮; 盖丽丽; 刘良; 于海宁; 郝德成; 宋晨雨
Original assignee: Qingdao Wobers Intelligent Experimental Technology Co ltd
Current assignee: Qingdao Wobers Intelligent Experimental Technology Co ltd
Priority date: 2022-04-12
Filing date: 2022-04-12
Publication date: 2022-07-12
Anticipated expiration: 2042-04-12
Also published as: CN114742529B

Abstract

The invention provides a laboratory equipment maintenance management system, which comprises: the device confirmation module is used for acquiring target failure devices and calling device two-dimensional codes of the target failure devices; the equipment information acquisition module is used for scanning the two-dimensional code of the equipment, determining the equipment information of the target fault equipment and carrying out self-checking on the fault equipment based on the equipment information; and the analysis module is used for distributing the equipment information to a target terminal of a target maintenance worker when the self-checking can not be solved, and synchronizing the maintenance progress of the maintenance worker to the user terminal in real time based on the Internet. Confirm the equipment information of target failure equipment through scanning equipment two-dimensional code, and then realize the self-checking to target failure equipment, when the self-checking can't solve, through with equipment information transfer to target terminal, maintain through the professional to at user terminal real time monitoring maintenance progress, improved the guarantee efficiency of maintaining laboratory paraphernalia greatly.

Description

Laboratory equipment maintenance management system

Technical Field

The invention relates to the technical field of Internet equipment maintenance management, in particular to a laboratory equipment maintenance management system.

Background

At present, laboratory facilities are indispensable devices in experiments, and along with the development of technology, advanced equipment is continuously updated, and the variety is many, and is in large quantity, and the guarantee requirement to equipment is higher and higher.

However, the traditional equipment fault needs a laboratory to be reported by a laboratory, and is maintained by an organizer, some equipment units are difficult to repair, and need to be handled by a manufacturer, so that the maintenance period is long, the maintenance price is high, the flow is complicated, and the experimental task is delayed; in the conventional maintenance management system, an experimenter reports the name and the problem of the fault equipment through a simple platform, and the personnel for maintaining the equipment of the unit see information on the platform and organize related personnel for maintenance.

Therefore, the laboratory equipment maintenance management system provided by the invention can be used for realizing self-checking of the target failure equipment by determining the target failure equipment and determining the equipment information of the target failure equipment through scanning the two-dimensional code of the equipment, and when the self-checking cannot be solved, the equipment information is transmitted to the target terminal, maintenance is carried out through a professional, and the maintenance progress is monitored in real time at the user terminal, so that the guarantee efficiency of maintaining the laboratory equipment is greatly improved.

Disclosure of Invention

The invention provides a laboratory equipment maintenance management system which is used for determining target failure equipment and determining equipment information of the target failure equipment through a scanning equipment two-dimensional code so as to realize self-checking of the target failure equipment.

A laboratory equipment maintenance management system comprising:

the device confirmation module is used for acquiring target failure devices and calling device two-dimensional codes of the target failure devices;

the equipment information acquisition module is used for scanning the equipment two-dimensional code, determining the equipment information of the target fault equipment and carrying out self-inspection on the target fault equipment based on the equipment information;

and the analysis module is used for distributing the equipment information to a target terminal of a target maintenance worker when the self-checking can not be solved, and synchronizing the maintenance progress of the maintenance worker to the user terminal in real time based on the Internet.

Preferably, the laboratory equipment maintenance management system, the equipment information obtaining module includes:

the device information of the target failure device includes: the service instruction of the target failure equipment, the service condition of the target failure equipment, the failure suggestion of the target failure equipment, the information that the target failure equipment is maintained and the current maintenance state.

Preferably, the laboratory equipment maintenance management system further comprises the analysis module

The history record acquisition unit is used for determining a maintenance record of the target fault equipment based on the target terminal when the equipment information is sent to the target terminal through the Internet;

a feedback unit for generating a repair recommendation about the target faulty device based on the repair record of the target faulty device;

the feedback unit is further used for sending the maintenance suggestion of the target fault equipment to the user terminal based on the internet.

Preferably, the laboratory equipment maintenance management system further includes: an information management platform;

the information management platform comprises: the system comprises a personnel management unit, an equipment management unit and a fault equipment information management unit;

the personnel management unit is used for inputting information of user personnel and equipment fault maintenance personnel;

the equipment management unit is used for acquiring equipment information of a laboratory, and the equipment information comprises: the method comprises the following steps that a manufacturer of equipment, an instruction for use, a notice, purchasing time and equipment increase and decrease management are carried out, and meanwhile, an equipment two-dimensional code is generated according to equipment information of a laboratory and is pasted in target equipment of the laboratory;

and the fault equipment information management unit is used for determining target fault equipment when equipment in the laboratory breaks down, performing data analysis on the target fault equipment, determining the reason of the fault equipment based on the analysis result, and matching corresponding equipment fault maintenance personnel based on the reason of the fault equipment.

Preferably, the laboratory equipment maintenance management system further includes:

the coding subunit is used for naming and coding each device in the laboratory based on the device information of the laboratory;

the equipment data determining subunit is used for carrying out data structure normalization on the equipment entity of each equipment in the laboratory based on the naming coding result and determining equipment data;

the data description subunit is used for carrying out data description on the equipment entity of each equipment in the laboratory based on the equipment data and storing the data;

a database construction subunit configured to construct an equipment database of the laboratory based on the storage result;

the label determining subunit is used for determining a two-dimension code label of the two-dimension code of the equipment according to the naming code of each equipment in the laboratory;

and the association subunit is used for associating the two-dimension code label with the equipment database and acquiring the working state of the equipment in the laboratory in real time based on an association result.

an address confirmation subunit, configured to determine a terminal address for managing the device information, and determine address information of the terminal address;

the request generating unit is used for generating an information link according to the address information of the terminal address and determining a two-dimensional code generating request based on the information link;

the verification subunit is configured to input the two-dimensional code generation request into a preset verification model for validity verification, and determine a verification result, where the verification result includes: 0 or 1;

when the verification result is 0, judging that the two-dimensional code generation request is illegal;

when the verification result is 1, judging that the two-dimensional code generation request is legal;

and the two-dimension code generation subunit is used for generating the equipment two-dimension code based on the information link and according to the two-dimension code generation request when the two-dimension code generation request is legal.

Preferably, the laboratory equipment maintenance management system further comprises an analysis module, wherein the analysis module comprises:

the information reading unit is used for reading the equipment information of the target fault equipment and determining first fault data of the target fault equipment;

the normalization processing unit is used for acquiring a data field of the first fault data, performing normalization processing on the data field according to a preset data format and acquiring second fault data based on a processing result;

the data calling unit is used for calling the running data of the target fault equipment in normal work;

the data crawling unit is used for crawling third fault data related to the target fault equipment in a network and constructing a fault clustering model based on the third fault data and operation data of the target fault equipment in normal work;

the classification evaluation unit is used for inputting the second fault data into the fault clustering model for classification and evaluation, and acquiring output data;

the fault reason confirming unit is used for analyzing the output data and determining the fault type of the target fault equipment and fault position estimation data of the target fault equipment;

the fault cause confirming unit is further configured to perform comprehensive evaluation on the fault type of the target faulty device and the fault location estimation data of the target faulty device, and generate a device fault report of the target faulty device;

and the data transmission unit is used for storing the fault report into a target block chain node, simultaneously linking the target block chain node with the target terminal based on the Internet, and uploading the equipment fault report to the target terminal after the link is successful.

Preferably, the laboratory equipment maintenance management system, the data transmission unit, further includes:

the encryption subunit is used for acquiring the equipment model of the target fault equipment and setting a report key based on the equipment model of the target fault equipment;

the encrypted report generating subunit is used for carrying out report encryption on the equipment fault report based on the report key and determining an equipment fault encrypted report;

the verification code acquisition subunit is used for determining a report verification code based on the report secret key after the equipment fault encryption report is uploaded to the target terminal;

and the verification subunit is used for automatically reading the equipment fault encryption report when the report verification code is accurately input by the target terminal.

Preferably, the laboratory equipment maintenance management system, the analysis module further includes:

an information reading unit, configured to read the device information, and determine a use condition of the target faulty device and fault information of the target faulty device in the device information;

a grade evaluation unit for evaluating the use condition of the target failure device and the failure information of the target failure device and determining the maintenance grade of the target failure device based on the evaluation result,

the matching unit is used for matching the maintenance grade of the target fault equipment with a preset personnel maintenance database and determining a target fault maintenance personnel for maintaining the target fault equipment based on a matching result;

and the sending unit is used for calling the communication mode of the target fault maintenance personnel and sending the equipment information to the target terminal through the Internet based on the communication mode.

the analysis result reading unit is used for determining the equipment service time of the target fault equipment and the aging degree of the target fault equipment after the target terminal receives the equipment information;

a maintenance scheme generating unit, configured to determine a first maintenance scheme for maintaining the target faulty device based on a device usage duration of the target faulty device and an aging degree of the target faulty device;

the maintenance scheme generation unit is further configured to acquire a failure degree of the target failure device and maintenance times of the target failure device, and determine a second maintenance scheme for maintaining the target failure device based on the failure degree of the target failure device and the maintenance times of the target failure device;

the maintenance scheme generating unit is further configured to combine the first maintenance scheme and the second maintenance scheme to generate a third maintenance scheme;

the task setting unit is used for building an equipment maintenance simulation scene based on the third maintenance scheme, acquiring a fault maintenance point of the target fault equipment, and setting different maintenance tasks in the equipment maintenance simulation scene based on the fault maintenance point;

the data acquisition unit is used for acquiring multiple groups of quantitative evaluation data under different maintenance tasks and determining evaluation indexes under different maintenance test tasks, wherein the evaluation indexes comprise a maintenance efficiency index, a maintenance time index and an energy consumption index of each maintenance task;

the executable grade confirmation unit is used for evaluating the third repair scheme based on the multiple groups of quantitative evaluation data and the evaluation indexes and determining the executable grade of the third repair scheme;

the comparison unit is used for comparing the executable grade with a preset target grade and determining whether the third repair scheme is selected for equipment maintenance;

when the executable grade is smaller than the preset target grade, judging that the third maintenance scheme is not selected for equipment maintenance;

when the executable grade is equal to or greater than the preset target grade, judging that the third maintenance scheme is selected for equipment maintenance;

the execution step confirmation unit is used for determining a maintenance execution step according to the third maintenance scheme when the third maintenance scheme is selected for equipment maintenance;

the equipment maintenance unit is used for maintaining the target fault equipment based on the maintenance execution step and according to the third maintenance scheme;

and the maintenance progress monitoring and evaluating unit is used for sending the maintenance execution step and the equipment maintenance progress to a user equipment terminal through the Internet, monitoring the maintenance progress of the target fault equipment in real time based on the user equipment terminal, and evaluating the maintenance of the target fault equipment based on the user equipment terminal.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a diagram of a laboratory equipment maintenance management system according to an embodiment of the present invention;

FIG. 2 is a flow chart of a method for maintaining and managing laboratory equipment according to an embodiment of the present invention;

FIG. 3 is a diagram of an information management platform according to an embodiment of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example 1:

the present embodiment provides a laboratory equipment maintenance management system, as shown in fig. 1-2, including:

the equipment information acquisition module is used for scanning the two-dimensional code of the equipment, determining the equipment information of the target fault equipment and carrying out self-checking on the target fault equipment based on the equipment information;

In this embodiment, the device two-dimensional codes correspond to the target failure devices one to one, and each target failure device has a dedicated device two-dimensional code.

In this embodiment, the device information includes: the service instruction of the target failure equipment, the service condition of the target failure equipment, the failure suggestion of the target failure equipment, the information that the target failure equipment is maintained and the current maintenance state.

In this embodiment, the target terminal may be a mobile phone of the target maintenance person to send a short message, an email, or a phone call to contact the maintenance person.

In this embodiment, the target maintenance person may be a professional maintenance person assigned according to the degree of fault severity of the target faulty equipment.

In this embodiment, the user terminal may be a computer, a mobile phone, or other terminal used by the user.

In the embodiment, a user can look up the use specification, the use condition and the fault suggestion of the equipment through the two-dimensional code of the scanning equipment, can try to perform self-checking at first, and if the problem cannot be solved, then the fault is reported, the system background sends a short message or an email or an electric connection to a maintenance staff in real time after being analyzed, and the maintenance staff comprises maintenance in the unit and manufacturer maintenance and carries out allocation according to the weight of the fault condition. The maintenance personnel can check the history record (the information of the previous maintenance and the current maintenance state) of the equipment, and report the maintenance progress and the fault reason investigation and feedback suggestion according to the actual maintenance condition. The user can also pay attention to the maintenance dynamics in real time and evaluate the maintenance result.

The beneficial effects of the above technical scheme are: through confirming target failure equipment to confirm target failure equipment's equipment information through scanning equipment two-dimensional code, and then realize the self-checking to target failure equipment, when the self-checking can't solve, through conveying equipment information to target terminal, maintain through the professional, and at user terminal real time monitoring maintenance progress, improved the guarantee efficiency of carrying out the maintenance to laboratory equipment greatly.

Example 2:

on the basis of embodiment 1, this embodiment provides a laboratory equipment maintenance management system, and the analysis module further includes

In this embodiment, the service record may be information that the target malfunctioning device has been serviced and the target service status.

In this embodiment, the repair recommendation may be a repair recommendation for a target repair person to repair the target malfunctioning device.

The beneficial effects of the above technical scheme are: by determining the maintenance record of the target fault equipment, the fault reason and the maintenance suggestion are determined and fed back to the user terminal, so that the target fault equipment can be clearly known, and the maintenance is accurately monitored.

Example 3:

on the basis of embodiment 1, this embodiment provides a laboratory equipment maintenance management system, as shown in fig. 3, the equipment confirming module further includes: an information management platform;

The beneficial effects of the above technical scheme are: through the information management platform, realize the accurate management to user, laboratory paraphernalia and the maintenance personal in laboratory to improved the guarantee efficiency of carrying out the maintenance to laboratory paraphernalia, simultaneously, improved laboratory paraphernalia's the management comprehensiveness.

Example 4:

on the basis of embodiment 3, this embodiment provides a laboratory equipment maintenance management system, and the equipment management unit further includes:

In this embodiment, the naming codes may be unique codes according to manufacturers, instructions, notes, purchase time, and device models in the laboratory device information, for example, so as to realize precise distinction of each device.

In this embodiment, the data structure normalization may be, for example, to implement data normalization operation on each device entity through naming codes, so as to facilitate accurate management and control of the devices, and further determine device data of each device.

In this embodiment, the device database contains device data for all devices in the laboratory.

The beneficial effects of the above technical scheme are: the data description and the storage are carried out on each device in the laboratory by the entity through the device data, so that the accurate management and control of the laboratory devices are facilitated, the two-dimension codes of the devices can be determined, the two-dimension code tags are associated with the device database, and the dynamic tracking of the devices and the dynamic updating of the device data are achieved.

Example 5:

In this embodiment, the information link may be determined based on address information of the terminal address.

In this embodiment, the two-dimensional code generation request is used to generate the device two-dimensional code.

In this embodiment, the preset verification model may be set in advance, and is used to verify the validity of the two-dimensional code generation request, thereby being beneficial to ensuring the security of the user data.

The beneficial effects of the above technical scheme are: by determining the two-dimension code generation request and performing security verification on the two-dimension code generation request, the security of the two-dimension code of the equipment is improved, and the data security of a user is guaranteed.

Example 6:

on the basis of embodiment 1, this embodiment provides a laboratory equipment maintenance management system, where the analysis module includes:

the normalization processing unit is used for acquiring a data field of the first fault data, performing normalization processing on the data field according to a preset data format, and acquiring second fault data based on a processing result;

and the data transmission unit is used for storing the fault report into a target block link node, simultaneously linking the target block link node with the target terminal based on the Internet, and uploading the equipment fault report to the target terminal after the link is successful.

In this embodiment, the first fault data may be initial fault data of the target faulty device.

In this embodiment, the data field may be in the form of data existing in the first failure data, wherein the first failure data includes a plurality of data fields therein.

In this embodiment, the preset data format is set in advance, and is used for performing format change processing on the data field.

In this embodiment, the second failure data may be data of the same content or different formats obtained by performing format conversion on the first failure data.

In this embodiment, the third fault data may be fault data associated with the target faulty device fault type queried on the network.

In this embodiment, the fault location estimate data may be an approximate range used to represent the occurrence of a fault in the target faulty device.

In this embodiment, the target block link point may be a region for storing data, and the region may be used to enable maintenance personnel and users to share the fault condition.

In this embodiment, the target terminal may be an intelligent terminal of a serviceman, and may be an intelligent device with a communication function, such as a mobile phone.

The beneficial effects of the above technical scheme are: the fault data of the target fault equipment is analyzed, so that the fault type of the target fault equipment and the fault position range of the target fault equipment can be conveniently determined, and meanwhile, a corresponding equipment fault report generated by an analysis result is transmitted to the target terminal, so that maintenance personnel can timely maintain the target fault equipment according to the equipment fault report, and the maintenance accuracy and efficiency are improved.

Example 7:

on the basis of embodiment 6, this embodiment provides a laboratory equipment maintenance management system, where the data transmission unit further includes:

In this embodiment, the device model may be a machine type used to characterize the target faulty device, and corresponding operating parameters of each period.

In this embodiment, the report key may be an encryption tool or encryption rule required to encrypt the device failure report.

In this embodiment, the device failure encryption report may be a report obtained by encrypting the obtained target failure report, so as to ensure that the operation data and the like of the device are not leaked.

In this embodiment, the report verification code refers to data, that is, a decryption key, that the target terminal needs to decrypt after receiving the encryption failure report.

The beneficial effects of the above technical scheme are: by encrypting the obtained target equipment fault report, the method is convenient for ensuring that the operation data of the target equipment fault is not leaked, and improves the safety and reliability coefficient of equipment maintenance.

Example 8:

on the basis of embodiment 1, this embodiment provides a laboratory equipment maintenance management system, and the analysis module further includes:

In this embodiment, the use condition may be whether the current target failure device is completely paralyzed or in a half paralyzed state.

In this embodiment, the maintenance level may be determined according to the degree of damage of the target malfunctioning device, with the greater the degree of damage, the higher the maintenance level.

In this embodiment, the preset staff maintenance database is set in advance for matching the maintenance staff having the relative maintenance experience according to the maintenance level.

The beneficial effects of the above technical scheme are: thereby realize the affirmation to the maintenance level through confirming the trouble level of target trouble equipment, be convenient for match the maintenance personal that corresponds according to the maintenance level, be convenient for carry out accurate effectual maintenance to target trouble equipment, improved the maintenance efficiency and the rate of accuracy of equipment.

Example 9:

In this embodiment, the equipment maintenance unit further includes:

when the target failure equipment is maintained, determining a maintenance component of the target failure equipment;

calculating a repair cost for repairing the target failure device based on a repair part of the target failure device;

wherein M represents a repair cost for repairing the target malfunctioning device; i represents the current repair part in the target failure equipment; g represents the total number of maintenance parts of the target fault equipment; n is_iIndicating the number of times of maintenance of the ith maintenance part; c (i) represents the repair cost of the ith repaired component; delta₀A loss coefficient representing the downtime of the target fault equipment, and the value range of the loss coefficient is (0.98, 1.01); t is t_maxRepresenting a maximum total time to repair the target failed device; a. the_tRepresenting a system availability of the target failed device; c. C₁(i) RepresentA replacement cost of an ith repair component in the target failed device;

comparing the maintenance cost of the target fault equipment for maintenance with the target maintenance cost, and judging whether the maintenance cost of the target fault equipment is optimized;

when the maintenance cost of the target failure equipment for maintenance is equal to or more than the target maintenance cost, judging that the maintenance cost of the target failure equipment does not need to be optimized;

otherwise, judging that the maintenance cost of the target fault equipment needs to be optimized;

the cost optimization model is constructed based on the maintenance cost of the target failure equipment for maintenance and the target maintenance cost when the maintenance cost of the target failure equipment needs to be optimized;

M_min＝A₀*lim_M→H(M-H)+H；

wherein M is_minRepresenting the cost optimization model; a. the₀Representing a minimum availability of the target faulty equipment system; h represents a target maintenance cost of the target failure equipment;

calculating the maintenance cost of the target fault equipment based on the cost optimization model, and determining the optimized maintenance cost;

and uploading the optimized maintenance cost to the user equipment terminal, and determining whether to continue to maintain the target fault equipment according to user selection when the optimized maintenance cost is equal to or greater than the target maintenance cost.

The target repair cost may be a maximum repair cost set by a user.

The user selection can be that whether the target fault equipment is continuously maintained or not is selected according to the will of the client when the optimized maintenance cost for maintaining the target equipment is larger than the target maintenance cost, and the method is favorable for accurately evaluating the maintenance cost of the target fault equipment and monitoring the maintenance cost for maintaining the target fault equipment by the user.

In this embodiment, the degree of aging may be determined based on an aging factor of the target malfunctioning device, a device age, and the like.

In this embodiment, the first maintenance plan may be a maintenance plan determined based on the device usage time of the target malfunctioning device and the degree of aging of the target malfunctioning device.

In this embodiment, the second repair plan is a repair plan determined based on the degree of failure of the target failed device and the degree of repair of the target failed device.

In this embodiment, the third maintenance scheme is a maintenance scheme determined after the first maintenance scheme and the second maintenance scheme are synthesized, and through the synthesis, the objectivity and comprehensiveness of the maintenance scheme are favorably realized, so that the precision of maintaining the target fault equipment is improved.

In this embodiment, the equipment maintenance simulation scene may be a scene that is constructed by a third maintenance plan and used to simulate equipment maintenance.

In this embodiment, the failed repair site may be a repaired component of the target failed device.

In this embodiment, the repair task may be a repair task determined according to the difference of the failed repair point because the repair task corresponding to each repaired component is different.

In this embodiment, one maintenance task corresponds to a set of quantitative evaluation data, which may be evaluation data determined according to a maintenance node of the maintenance task.

In this embodiment, the evaluation index may be a maintenance efficiency index, a maintenance time index, and an energy consumption index for each maintenance task.

In this embodiment, the executable level may be an execution level that determines the third repair solution, where the higher the executable level is, the higher the selection of the third repair solution is.

In this embodiment, the target level may be a predetermined measure for determining whether the third maintenance plan is selected.

In this embodiment, the user equipment terminal evaluates the maintenance of the target faulty device, for example, the user may evaluate the maintenance of the target faulty device this time by scoring through the user equipment terminal, and the higher the score is, the higher the satisfaction of the user is.

The beneficial effects of the above technical scheme are: the first maintenance scheme and the second maintenance scheme for maintaining the target fault equipment are determined in different aspects, and the third maintenance scheme is determined by comprehensively combining the first maintenance scheme and the second maintenance scheme, so that the objectivity and comprehensiveness of the maintenance scheme are facilitated, and the precision of maintaining the target fault equipment is improved; the executable grade of the third maintenance scheme is determined, so that whether the third maintenance scheme is selected or not is determined, the accuracy of the maintenance scheme is improved, and the maintenance efficiency of laboratory equipment is improved.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. A laboratory equipment maintenance management system, comprising:

2. The laboratory equipment maintenance management system according to claim 1, wherein said equipment information acquisition module comprises:

3. The laboratory equipment repair management system of claim 1, wherein the analysis module further comprises

4. The laboratory equipment service management system of claim 1, wherein said equipment validation module further comprises: an information management platform;

5. The laboratory equipment service management system according to claim 4, wherein said equipment management unit further comprises:

6. The laboratory equipment service management system according to claim 4, wherein said equipment management unit further comprises:

7. The laboratory equipment service management system according to claim 1, wherein said analysis module comprises:

the fault cause confirmation unit is further configured to perform comprehensive evaluation on the fault type of the target faulty device and the fault location estimation data of the target faulty device, and generate a device fault report of the target faulty device;

8. The laboratory equipment repair management system according to claim 7, wherein said data transmission unit further comprises:

9. The laboratory equipment service management system of claim 1, wherein the analysis module further comprises:

10. The laboratory equipment service management system according to claim 1, wherein said analysis module further comprises: