CN113283221A

CN113283221A - Test report generation system, test report generation method, and storage medium

Info

Publication number: CN113283221A
Application number: CN202110594027.8A
Authority: CN
Inventors: 陈炳华; 刘海潮
Original assignee: Hitachi Building Technology Guangzhou Co Ltd
Current assignee: Hitachi Building Technology Guangzhou Co Ltd
Priority date: 2021-05-28
Filing date: 2021-05-28
Publication date: 2021-08-20

Abstract

The embodiment of the invention discloses a test report generating system, a test report generating method and a storage medium, wherein the test report generating system comprises a test sample, an upper computer and an LIMS system, and the upper computer is respectively connected with the test sample and the LIMS system; the test sample is used for generating sample test data and sending the sample test data to the upper computer during testing; the upper computer is used for receiving the sample test data, generating a test result and sending the sample test data and the test result to the LIMS; the LIMS system is used for generating a test report according to the sample test data and the test result. The automatic acquisition of the test data is realized, the test data is sent to the upper computer, the test result is generated by the upper computer and then is sent to the LIMS together with the test data to generate the test report, personnel are not needed to record the paper test data, the storage space of a large amount of manpower, paper and paper test data is saved, the problem that the manual record data is easy to make mistakes and is modified is avoided, and the accuracy and the authenticity of the test data are ensured.

Description

Test report generation system, test report generation method, and storage medium

Technical Field

The embodiment of the invention relates to the technical field of sample test data processing, in particular to a test report generation system, a test report generation method and a storage medium.

Background

The elevator is used as necessary equipment of high-rise buildings, the reliability of the elevator is very important, and a large number of elevator parts need to be tested in the design and manufacturing links of the elevator.

At present, in a testing link of elevator components, test data needs to be collected, recorded, edited, counted, collated and audited manually, for example, a tester records the test data on paper to form a paper record, and then records the paper record into a computer or a LIMS (Laboratory Information Management System) System for data processing, and then the proofreading and the auditing are performed, which has the following problems:

1. a large amount of labor time is needed in the test process, the work efficiency is limited to be improved, and the periodic schedule of an elevator project is prolonged;

2. test data are manually collected, recorded and input, so that data errors are easily caused;

3. test data are manually collected, recorded and input, the test data are easily modified manually, and the authenticity of the test data is poor;

4. making paper test data records consumes a large amount of paper, and also requires a large amount of paper report storage space.

Disclosure of Invention

The embodiment of the invention provides a test report generation system, a test report generation method and a storage medium, which are used for solving the problems that a large amount of manpower and paper are consumed for generating a test report by testing elevator parts at present, and the accuracy and the authenticity of test data cannot be ensured.

In a first aspect, an embodiment of the present invention provides a test report generation system, including: the device comprises a test sample, an upper computer and an LIMS system, wherein the upper computer is respectively connected with the test sample and the LIMS system;

the test sample is used for generating sample test data during testing and sending the sample test data to the upper computer;

the upper computer is used for receiving sample test data sent by the test sample, generating a test result according to the sample test data, and sending the sample test data and the test result to the LIMS;

the LIMS system is used for receiving the sample test data and the test result sent by the upper computer and generating a test report according to the sample test data and the test result.

In an optional embodiment, the system further comprises a test auxiliary device, wherein the test auxiliary device is connected with the upper computer;

the test auxiliary equipment is used for testing the test sample, generating auxiliary test data and sending the auxiliary test data to the upper computer;

the upper computer is also used for receiving the auxiliary test data, generating a test result according to the sample test data and the auxiliary test data, and sending the sample test data and the auxiliary test data to the upper computer.

In an optional embodiment, the system further comprises a data acquisition instrument, wherein the data acquisition instrument is connected with the upper computer;

the data acquisition instrument is used for acquiring sample test data generated by the test sample and auxiliary test data generated by the test auxiliary equipment and sending the sample test data and the auxiliary test data to the upper computer.

In an optional embodiment, the system further comprises a video monitoring module, wherein the video monitoring module is connected with the upper computer,

the video monitoring module is used for acquiring images of the test sample and the test auxiliary equipment and sending the images to the upper computer;

and the upper computer is also used for generating a test result according to the image and sending the image to the LIMS system.

In an optional embodiment, the test system further comprises a fault processing module, wherein the fault processing module is respectively connected with the test sample, the test auxiliary equipment and the upper computer,

the fault processing module is used for monitoring the test sample and/or the test auxiliary equipment, and generating fault information and sending the fault information to an upper computer when the test sample and/or the test auxiliary equipment are monitored to be faulty;

the upper computer is used for sending the fault information to the LIMS system;

and the LIMS is used for receiving the fault information and generating a test report by adopting the fault information when the fault information represents the fault of the test sample.

In an optional embodiment, the fault handling module comprises:

the running state data monitoring submodule is used for monitoring the running state data of the test sample and/or the test auxiliary equipment, and the running state data comprises at least one of the running state data of the input voltage, the output voltage, the communication state and the running state of the test sample and/or the test auxiliary equipment;

and the fault information generation submodule is used for generating fault information and sending the fault information to the upper computer when the test sample and/or the test auxiliary equipment is identified to be in fault according to the running state data.

In an optional embodiment, the system further comprises an alarm module, wherein the alarm module is connected with the fault processing module;

the fault processing module is also used for generating alarm information and sending the alarm information to the alarm module when the test sample and/or the test auxiliary equipment are monitored to be in fault;

the alarm module is used for giving an alarm when the alarm information is received.

In an optional embodiment, the upper computer comprises:

the testing standard acquisition module is used for importing the testing standard of the testing sample from the LIMS system or receiving the testing standard of the testing sample input by a tester;

and the test result generation module is used for analyzing the test data according to the test standard to generate a test result.

In an alternative embodiment, the LIMS system comprises:

and the test report generating module is used for acquiring a test report template of the test sample and filling the test data and the test result into the test report template to generate a test report.

In a second aspect, an embodiment of the present invention provides a test report generation method, which is applied to the test report generation system in any one of the first aspects, and includes:

generating sample test data during testing of a test sample, and sending the sample test data to an upper computer;

the upper computer receives sample test data sent by the test sample, generates a test result according to the sample test data, and sends the sample test data and the test result to the LIMS system;

and the LIMS system receives the sample test data and the test result sent by the upper computer and generates a test report according to the sample test data and the test result.

In a third aspect, an embodiment of the present invention provides a storage medium, on which a computer program is stored, and when the program is executed by a processor, the program implements the test report generating method according to the second aspect of the present invention.

The test report generation system comprises a test sample, an upper computer and an LIMS system, wherein the upper computer is respectively connected with the test sample and the LIMS system, the test sample is used for generating sample test data during testing and sending the sample test data to the upper computer, the upper computer is used for receiving the sample test data sent by the test sample, generating a test result according to the sample test data and sending the sample test data and the test result to the LIMS system, and the LIMS system is used for receiving the sample test data and the test result sent by the upper computer and generating a test report according to the sample test data and the test result. The embodiment of the invention realizes that the test data is automatically acquired and sent to the upper computer, the test result is generated by the upper computer and then sent to the LIMS system together with the test data to generate the test report, and the personnel are not required to record the paper test data and input the paper test data into the LIMS system, so that the personnel are not required to record the paper test data, the storage space of a large amount of manpower, paper and paper test data is saved, the problem that the manual record data is easy to make mistakes and is modified is avoided, and the accuracy and the authenticity of the test data are ensured.

Drawings

FIG. 1 is a diagram of a test report generation system according to an embodiment of the present invention;

FIG. 2 is a diagram illustrating a test report generating system according to another embodiment of the present invention;

fig. 3 is a flowchart of a test report generation method according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Example one

Fig. 1 is a schematic structural diagram of a test report generating system according to an embodiment of the present invention, where the test report generating system according to the embodiment of the present invention is used for generating a test report of a test sample. As shown in fig. 1, the test report generating system according to the embodiment of the present invention includes a test sample 10, an upper computer 20, and a LIMS system 30, where the upper computer 20 is connected to the test sample 10 and the LIMS system 30, respectively.

In the embodiment of the present invention, the test sample 10 may be a component to be tested on an elevator, in one example, the test sample 10 may be an electronic board of the elevator, such as a control main board, a call board, and the like, and may also be a component of a motor, an encoder, and the like, and the embodiment of the present invention does not limit the test sample 10.

When the test sample 10 is in a test state, the test sample 10 generates sample test data and sends the sample test data to the upper computer 20, specifically, the test sample 10 is provided with a data port, the test sample 10 generates sample test data during test operation, the test sample 10 CAN be connected with the upper computer 20 through ports such as RS485/SCL/CAN/USB, and therefore the generated sample test data CAN be sent to the upper computer 20 through ports such as RS 485/SCL/CAN/USB.

The upper computer 20 may be a terminal device with data processing capability, the upper computer 20 may be connected to the LIMS system 30 through a wired network or a wireless network, specifically, the upper computer 20 may be provided with a terminal processor, after the test sample 10 sends the generated sample test data to the upper computer 20 through ports such as RS485/SCL/CAN/USB, the upper computer 20 may receive the sample test data sent by the test sample 10, the terminal processor may generate a test result according to the received sample test data, and send the sample test data and the test result to the LIMS system 30 through the wired network or the wireless network.

The LIMS system 30 may be a system for information management of a laboratory in an enterprise, and the LIMS system 30 may receive sample test data and test results sent by the upper computer 20, generate a test report according to the sample test data and the test results, and store the test report in a storage medium so that a tester may query the report through the LIMS system 30.

The test report generation system comprises a test sample, an upper computer and an LIMS system, wherein the upper computer is respectively connected with the test sample and the LIMS system, the test sample is used for generating sample test data during testing and sending the sample test data to the upper computer, the upper computer is used for receiving the sample test data sent by the test sample, generating a test result according to the sample test data and sending the sample test data and the test result to the LIMS system, and the LIMS system is used for receiving the sample test data and the test result sent by the upper computer and generating a test report according to the sample test data and the test result. The automatic test data acquisition system has the advantages that the test data is automatically acquired and sent to the upper computer, the test result is generated by the upper computer and then sent to the LIMS together with the test data to generate the test report, and the test data of paper is not required to be recorded into the LIMS by personnel, so that the personnel are not required to record the test data of the paper, the storage space of a large amount of manpower, paper and paper test data is saved, the problem that the manual record data is easy to make mistakes and is modified is solved, and the accuracy and the authenticity of the test data are ensured.

Example two

Fig. 2 is a schematic structural diagram of a test report generating system according to a second embodiment of the present invention, which is optimized based on the first embodiment of the present invention, and as shown in fig. 2, the test report generating system according to the second embodiment of the present invention further includes a test auxiliary device 40, and the test auxiliary device 40 is connected to the upper computer 20.

Specifically, the test auxiliary device 40 may be a device used in a process of testing the test sample 10, in one example, the test sample 10 may be various electronic boards, a temperature and humidity test chamber used in an aging test of the electronic boards is the test auxiliary device 40, in another example, the test sample 10 may be a motor, and a vibration sensor used in a process of testing the motor is the test auxiliary device 40, in an embodiment of the present invention, different test samples 10 have different test auxiliary devices 40, and the test auxiliary device 40 is not limited in the embodiment of the present invention.

The test auxiliary device 40 CAN be connected with the upper computer 20 through ports such as an RS485/SCL/CAN/USB port, and in the test process of the test sample 10, the test auxiliary device 40 is configured to test the test sample 10 and generate auxiliary test data to be sent to the upper computer 20, and the upper computer 20 is further configured to receive the auxiliary test data, generate a test result according to the sample test data and the auxiliary test data, and send the sample test data and the auxiliary test data to the LIMS system 30 to generate a test report.

In an optional embodiment, the upper computer 20 may include a test standard obtaining module and a test result generating module, wherein the test standard obtaining module is configured to import a test standard of a test sample from the LIMS system, or receive the test standard of the test sample input by a tester, and the test result generating module is configured to analyze test data according to the test standard to generate a test result. In an example, a test sample 10 is tested as a test item, after a test scheme and a test determination requirement of the test item are written in advance, the test scheme and the test determination requirement of the test item are uploaded to the LIMS system 30 or directly input to the upper computer 20 for storage, during testing, after the upper computer 20 receives sample test data and auxiliary test data of the test sample 10, the test scheme and the test determination requirement of the test sample can be acquired from a storage medium of the LIMS system 30 or the upper computer 20, the sample test data and the auxiliary test data are analyzed through the test scheme and the test determination requirement to generate a test result, and the sample test data, the auxiliary test data and the test result are sent to the LIMS system 30.

The LIMS system 30 may include a test report generating module, which may be configured to obtain a test report template of a test sample, and fill the test data and the test result into the test report template to generate a test report, where the test sample 10 is used as an electronic board, the test auxiliary device 40 is used as an example of a temperature and humidity test box, and the electronic board is placed in the temperature and humidity test box and then tested, so that the operating data may be sent to the upper computer 20 as sample test data during the operation of the electronic board, the temperature and humidity in the temperature and humidity test box may be sent to the upper computer 20 as auxiliary test data, and after the upper computer 20 introduces the test scheme and the determination requirement of the electronic board from the LIMS system 30, the upper computer 20 may determine whether the electronic board is qualified by combining the operating data, the temperature and the humidity of the electronic board, and determine the operating data of the electronic board, The temperature, humidity and the determination result are sent to the LIMS system 30, and the LIMS system 30 obtains the corresponding report template and fills the corresponding data into the report template to generate the test report.

The test report generating system of the embodiment of the present invention further includes a test auxiliary device 40, the test auxiliary device 40 is configured to test the test sample 10 and generate auxiliary test data to send the auxiliary test data to the upper computer 20, the upper computer 20 is further configured to receive the auxiliary test data, generate a test result according to the sample test data and the auxiliary test data, and send the sample test data and the auxiliary test data to the LIMS system 30 to generate a test report on the LIMS system 30, so that the test report generating system of the embodiment of the present invention is suitable for a scenario in which the test auxiliary device 40 is used to test the test sample 10.

Further, the upper computer 20 automatically acquires the pre-programmed test scheme and the judgment requirement, and automatically judges the test data through the judgment requirement to generate the test result, so that the test result is generated without manual judgment, and the objectivity of the test result is ensured.

As shown in fig. 2, in an alternative embodiment of the present invention, a data acquisition instrument 50 is further included, and the data acquisition instrument 50 is connected to the upper computer 20.

Specifically, when the test sample 10 and the test auxiliary device 40 cannot acquire the required test data, the data acquisition device 50 may also be used to acquire the test data, for example, in the vibration test, if neither the test sample 10 nor the vibration test bed itself can acquire the vibration frequency and amplitude, a vibration sensor and an oscilloscope may be used as the data acquisition device 50 to acquire the vibration frequency and amplitude in the vibration test, and of course, the data acquisition device 50 may also be other data acquisition devices, which is not limited in this embodiment of the present invention.

In an embodiment of the present invention, the data collector 50 may be configured to collect sample test data generated by the test sample 10 and auxiliary test data generated by the test auxiliary device 40, and send the sample test data and the auxiliary test data to the upper computer 20, and the upper computer 20 is configured to generate a test result according to the sample test data and the auxiliary test data, and send the sample test data, the auxiliary test data, and the test result to the LIMS system 30 to generate a test report.

The test report generation system of the embodiment of the invention further comprises a data acquisition instrument 50, wherein the data acquisition instrument 50 is used for acquiring sample test data generated by the test sample 10 and auxiliary test data generated by the test auxiliary equipment 40 and sending the sample test data and the auxiliary test data to the upper computer 20, and is suitable for a scene that the test sample 10 and the test auxiliary equipment 40 cannot acquire data or cannot transmit the data to the upper computer 20, and the data can be acquired by the data acquisition instrument 50 and sent to the upper computer 20 in the scene, so that the test data can be automatically acquired, the data is not required to be manually recorded, the problem that the manually recorded data is easy to make mistakes and is modified is avoided, and the accuracy and the authenticity of the test data are ensured.

As shown in fig. 2, in an optional embodiment of the present invention, the test report generating system further includes a video monitoring module 60, the video monitoring module 60 is connected to the upper computer 20, optionally, the video monitoring module 60 may be connected to the upper computer 20 through a communication port such as RS485/SCL/CAN/USB, the video monitoring module 60 is configured to collect an image of the test sample 10 and/or the test auxiliary device 40, and send the image to the upper computer 20, the upper computer 20 is further configured to generate a test result according to the image, and send the image to the LIMS system, and the LIMS system may store the image for tracing. In an example, a camera may be disposed in a test area where the test sample 10 is located, an image of the test sample 10 or the test auxiliary device 40 is acquired through the camera, and the upper computer 20 may analyze the image to obtain a test result, for example, when a vibration test is performed on the test sample 10, after the image in the test of the test sample 10 is acquired and uploaded to the upper computer 20, the upper computer 20 analyzes the image to determine whether the test sample 10 cracks, deforms, breaks, or the like, of course, the image of the test auxiliary device 40 may also be analyzed to determine whether the test auxiliary device 40 is abnormal, for example, the test auxiliary device 40 is a vibration table, and whether the vibration table abnormally stops vibrating, and whether the vibration frequency and the vibration amplitude are normal or not may be determined through image analysis on the vibration table.

The test report generation system of the embodiment of the invention comprises a video monitoring module 60, the video monitoring module 60 is used for collecting images of the test sample 10 and the test auxiliary equipment 40 and sending the images to the upper computer 20, the upper computer 20 can analyze the images to obtain the test result of the test sample 10 or determine whether the test auxiliary equipment 40 has faults or not, on one hand, the test result of the test sample does not need to be judged manually, the accuracy and the authenticity of test data are ensured, on the other hand, the test auxiliary equipment can be monitored, and the faults of the test auxiliary equipment can be found in time.

As shown in fig. 2, in a further alternative embodiment of the present invention, the test report generating system further includes a fault handling module 70 and an alarm module 80, the fault handling module 70 is connected to the test sample 10, the test auxiliary device 40 and the upper computer 20, respectively, and the alarm module 80 is connected to the fault handling module 70.

The fault processing module 70 is configured to monitor the test sample 10 and/or the test auxiliary device 40, generate fault information and send the fault information to the upper computer 20 when the test sample 10 and/or the test auxiliary device 40 is monitored to be faulty, generate alarm information and send the alarm information to the alarm module 80, the alarm module 80 is configured to alarm when the alarm information is received, the upper computer 20 is configured to send the fault information to the LIMS system 30, the LIMS system 30 is configured to receive the fault information, and generate a test report by using the fault information when the fault information indicates that the test sample 10 is faulty.

Specifically, the fault processing module 70 may include an operation state data monitoring sub-module and a fault information generating sub-module, wherein the operation state data monitoring sub-module is configured to monitor operation state data of the test sample 10 and/or the test auxiliary device 40, and the operation state data includes at least one of an input voltage, an output voltage, a communication state, and an operation state of the test sample 10 and/or the test auxiliary device 40. The fault information generation submodule is used for generating fault information and sending the fault information to the upper computer 20 when the fault of the test sample and/or the test auxiliary equipment is identified according to the running state data.

As shown in fig. 2, in one example, the fault handling module 70 may be divided into two parallel circuits connected to the test sample 10 and the test auxiliary device 40 to perform fault monitoring on the test sample 10 and the test auxiliary device 40, and the test sample 10 and the test auxiliary device 40 may be monitored by the fault handling module 70 to distinguish whether the test sample 10 fails or the test auxiliary device 40 fails.

Specifically, the operation state data of the test sample 10 and the test auxiliary device 40 may be monitored, for example, faults such as a dead halt, an abnormal operation, a communication failure, an overload, a start failure, and a device power failure of the test sample 10 or the test auxiliary device 40 are monitored, in an example, whether a fault occurs is determined by identifying parameters such as input/output voltages and currents of the test sample 10 and the test auxiliary device 40, for example, when the test sample 10 is dead halted, the output voltage and the output current are 0, the voltage is deemed to be 0 potential after the communication failure, the current is increased when the overload occurs, and the time when the fault occurs may be recorded after the fault is identified, fault information is generated and uploaded to the upper computer 20, and the upper computer 20 transmits the fault information to the LIMS system 30 and embodies the fault information in a test report.

In one example, when the information received by the upper computer 20 indicates that the test auxiliary device 40 has a fault, the upper computer 20 may send the fault information to the LIMS system 30, but the fault information of the test auxiliary device 40 is not reflected in the test report, and the LIMS system 30 may store and query the fault information of the test auxiliary device 40. Meanwhile, when the test sample 10 or the test auxiliary device fails, the fault processing module 70 generates alarm information and sends the alarm module 80, and the alarm module 80 may generate a prompt tone, prompt light information, or send the prompt information to the tester to prompt the tester to check and process the fault in time, so as to avoid secondary failure or fault.

The test report generation reminding of the embodiment of the invention realizes that the test data is automatically acquired and sent to the upper computer, the test result is generated by the upper computer and then sent to the LIMS system together with the test data to generate the test report, and personnel are not required to record the paper test data and input the paper test data into the LIMS system, so that the personnel are not required to record the paper test data, the storage space of a large amount of manpower, paper and paper test data is saved, the problem that the manually recorded data is easy to make mistakes and is modified is avoided, and the accuracy and the authenticity of the test data are ensured.

Further, the test report generating system of the embodiment of the present invention further includes a test auxiliary device, so that the test report generating system of the embodiment of the present invention is suitable for a scenario in which a test sample is tested using the test auxiliary device.

Furthermore, the test report generation system of the embodiment of the invention further comprises a data acquisition instrument, which is suitable for a scene that the test sample and the test auxiliary equipment cannot acquire data or cannot transmit the data to the upper computer, and the data acquired by the data acquisition instrument is sent to the upper computer, so that the automatic acquisition of the test data is ensured, the manual data recording is not needed, the problems that the manual data recording is easy to make mistakes and is modified are avoided, and the accuracy and the authenticity of the test data are ensured.

Furthermore, the test report generation system of the embodiment of the invention further comprises a video monitoring module, the video monitoring module is used for collecting the images of the test sample and the test auxiliary equipment and sending the images to the upper computer, the upper computer can analyze the images to obtain the test result of the test sample or determine whether the test auxiliary equipment fails, on one hand, the test result of the test sample does not need to be judged manually, the accuracy and the authenticity of the test data are ensured, on the other hand, the test auxiliary equipment can be monitored, and the failure of the test auxiliary equipment can be found in time.

Furthermore, the test report generation system also comprises a fault processing module and an alarm module, the fault processing module can prompt testers of faults of test samples or faults of test auxiliary equipment, and the testers can check and process the faults in time so as to avoid secondary failure or faults.

EXAMPLE III

Fig. 3 is a flowchart of a test report generation method provided in the third embodiment of the present invention, where the test report generation method according to the third embodiment of the present invention is suitable for a case of generating a test report of a test sample, and the method may be executed by the test report generation system according to the first embodiment or the second embodiment, as shown in fig. 3, the test report generation method according to the third embodiment of the present invention specifically includes the following steps:

s101, generating sample test data during test of a test sample, and sending the sample test data to an upper computer.

In an optional embodiment, the test report generating system further includes a test auxiliary device, the test auxiliary device is connected to the upper computer, and the test auxiliary device is configured to test the test sample, generate auxiliary test data, and send the auxiliary test data to the upper computer.

In another optional embodiment, the test report generating system further comprises a data collector connected to the upper computer, and the data collector is configured to collect sample test data generated by the test sample and auxiliary test data generated by the test auxiliary device, and send the sample test data and the auxiliary test data to the upper computer.

S102, the upper computer receives the sample test data sent by the test sample, generates a test result according to the sample test data, and sends the sample test data and the test result to the LIMS.

In an optional embodiment, the upper computer is further configured to receive the auxiliary test data, generate a test result according to the sample test data and the auxiliary test data, and send the sample test data and the auxiliary test data to the LIMS system.

In another embodiment, the test report generating system further comprises a video monitoring module, the video monitoring module is connected with the upper computer, the video monitoring module is used for collecting images of the test sample and the test auxiliary equipment and sending the images to the upper computer, and the upper computer is further used for generating the test result according to the images.

In an optional embodiment of the present invention, the upper computer includes a test standard obtaining module and a test result generating module, wherein the test standard obtaining module is configured to import a test standard of a test sample from the LIMS system, or receive the test standard of the test sample input by a tester, and the test result generating module is configured to analyze sample test data according to the test standard to generate a test result.

S103, the LIMS receives the sample test data and the test result sent by the upper computer, and generates a test report according to the sample test data and the test result.

In an optional embodiment of the present invention, the LIMS system includes a test report generating module, and the test report generating module is configured to obtain a test report template of the test sample, and populate the test data and the test result into the test report template to generate the test report.

In another optional embodiment of the present invention, the test report generating system further includes a fault handling module, and the fault handling module is respectively connected to the test sample, the test auxiliary device, and the upper computer, and the test report generating method further includes:

s104, the fault processing module monitors the test sample and/or the test auxiliary equipment, and generates fault information to send to an upper computer when monitoring that the test sample and/or the test auxiliary equipment have faults.

Specifically, the fault processing module may include an operation state data monitoring submodule and a fault information generating submodule, where the operation state data monitoring submodule monitors operation state data of the test sample and/or the test auxiliary device, and the operation state data includes at least one operation state data of input voltage, output voltage, communication state, and operation state of the test sample and/or the test auxiliary device; and the fault information generation submodule is used for generating fault information and sending the fault information to the upper computer when the fault of the test sample and/or the test auxiliary equipment is identified according to the running state data.

And S105, the upper computer sends the fault information to an LIMS system.

And S106, the LIMS system receives the fault information, and when the fault information represents the fault of the test sample, a test report is generated by adopting the fault information.

In another optional embodiment of the present invention, the test report generating system further includes an alarm module, the alarm module is connected to the fault handling module, and the test report generating method further includes:

s107, the fault processing module generates alarm information and sends the alarm information to the alarm module when monitoring that the test sample and/or the test auxiliary equipment have faults;

and S108, the alarm module gives an alarm when receiving the alarm information.

It should be noted that, as for the method embodiment, since it is basically similar to the system embodiment, the description is relatively simple, and for the relevant points, reference may be made to partial description of the method embodiment.

The test report generation method provided by the embodiment of the invention is applied to the test report generation system provided by the first embodiment or the second embodiment of the invention, so that the test report generation method has corresponding beneficial effects.

The embodiment of the present invention further provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, implements the test report generating method described in the third embodiment of the present invention.

From the above description of the embodiments, it is obvious for those skilled in the art that the present invention can be implemented by software and necessary general hardware, and certainly, can also be implemented by hardware, but the former is a better embodiment in many cases. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which may be stored in a computer-readable storage medium, such as a floppy disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a FLASH Memory (FLASH), a hard disk or an optical disk of a computer, and includes several instructions to enable a computer device (which may be a personal computer, a server, or a network device) to execute the test report generating method according to the embodiments of the present invention.

It should be noted that, in the embodiment of the test report generating system, the included units and modules are only divided according to functional logic, but are not limited to the above division as long as the corresponding functions can be implemented; in addition, specific names of the functional units are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the present invention.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims

1. A test report generation system, comprising: the device comprises a test sample, an upper computer and an LIMS system, wherein the upper computer is respectively connected with the test sample and the LIMS system;

2. The test report generation system according to claim 1, further comprising a test auxiliary device connected to the upper computer;

the upper computer is further used for receiving the auxiliary test data, generating a test result according to the sample test data and the auxiliary test data, and sending the sample test data and the auxiliary test data to the LIMS.

3. The test report generation system according to claim 2, further comprising a data acquisition instrument connected to the upper computer;

4. The test report generation system according to claim 2, further comprising a video monitoring module connected to the upper computer,

5. The test report generating system according to any one of claims 2 to 4, further comprising a failure processing module connected to the test specimen, the test auxiliary device, and the upper computer, respectively,

6. The test report generation system of claim 5, wherein the fault handling module comprises:

7. The test report generation system of claim 5, further comprising an alarm module, said alarm module being connected to said fault handling module;

8. The test report generation system according to any one of claims 1 to 4, wherein the upper computer includes:

and the test result generation module is used for analyzing the sample test data according to the test standard to generate a test result.

9. The test report generating system according to any of claims 1 to 4, wherein the LIMS system comprises:

10. A test report generation method applied to the test report generation system according to any one of claims 1 to 9, comprising:

11. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the test report generation method of claim 10.