CN111062566A - Management platform for supervising quality specifications of experimental instrument - Google Patents

Abstract

The invention provides a management platform for supervising quality specifications of experimental instruments, which comprises a login module for logging in by a user, a data module, a spot check module and a fault module, wherein the data module is connected with the login module and used for uploading experimental data and experimental results of each experimental instrument by the user; the spot check module is connected with the data module to calculate the use frequency of each experimental instrument according to the experimental data of each experimental instrument and randomly select one experimental instrument with low use frequency; the fault module is connected with the data module to judge whether the experimental results corresponding to the same experimental data of the same experimental instrument have differences or not and mark the experimental instrument with the larger difference in the experimental results. The invention solves the problems of low quality inspection efficiency and missed inspection of laboratory instruments.

Description

Management platform for supervising quality specifications of experimental instrument

Technical Field

The invention relates to the technical field of laboratory instrument management, in particular to a management platform for supervising the quality specification of a laboratory instrument.

Background

Laboratory staff is to the use of laboratory instruments, generally makes the experimental result more accurate through many experiments, and because laboratory instruments need register when taking, the flow is comparatively complicated, and reasons such as laboratory instruments preparation are insufficient, general laboratory staff can not verify the experimental result through comparing different laboratory instruments, often only carry out many times the same experiment through same laboratory instruments and ensure that the experimental result is accurate, but the laboratory instruments that have the fault so can't investigate, cause used repeatedly trouble instrument and time wasting's problem. The main reason is also due to the simple mode of spot check of the experimental instrument during quality inspection, which results in high possibility of missing inspection of the fault experimental instrument and low efficiency of troubleshooting. Moreover, because laboratory instruments are generally used by people at random, the laboratory instruments are also loosely managed, and the troubleshooting efficiency of the fault laboratory instruments is low. Therefore, in order to reduce the risk that a faulty laboratory instrument cannot be checked and improve the efficiency of the experiment and quality inspection, a management platform for supervising the quality specifications of the laboratory instrument is also needed.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a management platform for supervising the quality specification of an experimental instrument, which can spot-check the instrument with low use frequency through experimental data and experimental results and judge whether the experimental instrument with high use frequency has faults or not, thereby solving the problems of low quality inspection efficiency and missed inspection and meeting the requirements of quality inspectors and experimenters.

In order to achieve the purpose, the invention adopts the following technical scheme:

a management platform for supervising quality specifications of experimental instruments comprises a login module for logging in by a user, a data module connected with the login module and used for uploading experimental data and experimental results of each experimental instrument by the user, a spot check module for spot checking the experimental instruments and a fault module for marking faults of the experimental instruments; the spot check module is connected with the data module to calculate the use frequency of each experimental instrument according to the experimental data of each experimental instrument and randomly select one experimental instrument with low use frequency; the fault module is connected with the data module to judge whether the experimental results corresponding to the same experimental data of the same experimental instrument have differences or not and mark the experimental instrument with the larger difference in the experimental results.

Compared with the prior art, the invention has the following beneficial effects: the experimental data and the experimental results of the experimental instruments are uploaded by the data module, and the use frequency of the experimental instruments is counted by the spot check module, so that the experimental instruments with low use frequency are randomly selected, and the problems of missing detection and improper management of the experimental instruments with low use frequency are solved; whether the experimental instruments have faults or not is judged by judging whether the experimental results of multiple experiments of each experimental instrument are different under the condition of the same experimental data, so that the problem of omission of the experimental instruments with high use frequency in quality inspection is solved; therefore, the quality supervision of the experimental instrument is enhanced, and the efficiency of experiment and quality inspection is improved.

Drawings

FIG. 1 is a schematic view of the flow principle of the management platform for supervising the quality specifications of the laboratory instruments according to the present invention.

Detailed Description

The technical solution of the present invention is further explained with reference to the drawings and the embodiments.

As shown in fig. 1, the present invention provides a management platform for monitoring quality specifications of laboratory instruments and a management method for applications, including a login module for user login, a data module connected to the login module for a user to upload experimental data and experimental results of each laboratory instrument, a spot check module for spot check of the laboratory instruments, and a failure module for marking failures of the laboratory instruments; the spot check module is connected with the data module to calculate the use frequency of each experimental instrument according to the experimental data of each experimental instrument and randomly select one experimental instrument with low use frequency; the fault module is connected with the data module to judge whether the experimental results corresponding to the same experimental data of the same experimental instrument have differences or not and mark the experimental instrument with the larger difference in the experimental results.

When the management platform for supervising the quality specification of the experimental instrument is applied to the electronic computer, the data module is connected with the keyboard input end and the display screen output end of the electronic computer and used for inputting and displaying the instrument number of each experimental instrument, and experimental data and experimental results of each experiment corresponding to the instrument number. The spot check module comprises a frequency unit and a low-frequency unit, wherein the frequency unit is connected with the data module to acquire experimental data of each experimental instrument and calculate the use times of each experimental instrument according to the experimental data, the low-frequency unit is connected with the frequency unit to acquire the use times of each experimental instrument and select the instrument number of which the use times is lower than the preset times, the low-frequency unit randomly selects one instrument number of which the use frequency is low from the instrument numbers of which the use times is lower than the preset times, and the instrument numbers are connected with the input end of a display screen of the electronic computer through the low-frequency unit and provided for a user to check so as to provide for spot check of corresponding quality. The login module and the spot check module are also connected with the keyboard output end of the electronic computer, so that a user can input instructions after logging in to control the low-frequency unit to randomly select the experimental instrument. The fault module comprises a difference unit which is connected with the data module to obtain the same experimental data and the corresponding experimental results of the same experimental instrument, judges whether the experimental results with the same experimental data have differences or not and selects the experimental instrument with larger difference from the experimental results, and a marking unit which is connected with the difference unit to mark the instrument number of the experimental instrument with larger difference, wherein the marking unit is connected with the input end of a display screen of the electronic computer to display the marked instrument number for a user to check.

Furthermore, the data module is also used for uploading the experiment time of each experimental instrument by a user; and the fault module makes a curve graph according to the experimental result and the experimental time corresponding to the same experimental data of the same experimental instrument so as to judge whether the experimental result of each experimental instrument has larger difference.

Specifically, the data module uploads the experimental data corresponding to each experimental instrument and the experimental time corresponding to the experimental result, the difference unit of the fault module makes the Y axis of the curve graph of the experimental result corresponding to the same experimental data of the same experimental instrument, and the corresponding time is used as the X axis to display whether the experimental results obtained by experimenters through experiments using the same experimental data are the same or not and judge whether the difference is large or not according to the comparison between the difference of the experimental results and the preset value, so that the problem that the experimental instrument has faults is solved. Preferably, in order to avoid the situation that experimental results are different due to the operation of experimenters, the difference unit judges whether the experimental results are different according to the closest time and the most obtained experimental results, so that the accuracy of finding out the experimental instrument with the fault is improved.

Furthermore, the management platform for supervising the quality specification of the experimental instrument also comprises a verification module for comparing the experimental results of different experimental instruments; the verification module is connected with the data module so as to judge whether the experimental results corresponding to the same experimental data between different experimental instruments are different and mark each experimental instrument with the different experimental results.

Specifically, the verification module compares the experimental results by searching the instrument numbers of the same experimental instrument with the same experimental data, judges whether the experimental results have differences, and marks the corresponding instrument numbers when the differences exceed a preset difference value.

Furthermore, the management platform for supervising the quality specifications of the experimental instruments also comprises a quality inspection module for uploading quality inspection contents of quality inspection personnel on each experimental instrument; and the spot check module is connected with the quality inspection module to acquire the quality inspection content of the randomly selected experimental instrument.

The quality inspection module is used for recording quality inspection contents, so that the quality inspection contents are displayed in the experimental instrument randomly screened by the screening module, the quality inspection condition of the instrument can be rapidly known, the repeated quality inspection of the same experimental instrument is avoided, and the quality inspection efficiency is improved.

Furthermore, the quality inspection content comprises a plurality of quality inspection items and a plurality of quality inspection results which respectively correspond to the plurality of quality inspection items one by one.

Furthermore, the management platform for supervising the quality specifications of the experimental instruments further comprises a self-checking module for uploading self-checking contents of the user on each experimental instrument; and the quality inspection module is connected with the self-inspection module to acquire self-inspection contents of randomly selected experimental instruments.

Further, the self-checking content includes a plurality of self-checking items and a plurality of self-checking results respectively corresponding to the plurality of self-checking items one to one.

Furthermore, the self-checking content also comprises self-checking personnel, instrument numbers and authentication videos corresponding to the self-checking items. Through recording the self-checking personnel and the authentication video of the self-checking items of each instrument number, the quality testing personnel can conveniently and quickly know and verify whether the experimental instrument passes the test or not.

Furthermore, the management platform for supervising the quality specification of the experimental instrument further comprises an authority module which is connected with the user login module to judge the authority of the user, and the authority module judges whether the user is an experimental person or a quality inspection person according to the input user information; the authority module is connected with the data module to allow the user to upload experimental data and experimental results of each experimental instrument only when the user is judged as an experimenter; the authority module is connected with the spot check module so as to allow the user to spot check the experimental instrument to be checked through the spot check module only when the user is judged as an experimental person or a quality inspection person.

Further, the laboratory instruments are marked in such a way that the text is highlighted by color.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.

Claims (10)

1. A management platform for supervising quality specifications of experimental instruments is characterized in that: the system comprises a login module for logging in by a user, a data module which is connected with the login module and used for uploading experimental data and experimental results of each experimental instrument by the user, a spot check module for spot checking the experimental instruments and a fault module for marking faults of the experimental instruments; the spot check module is connected with the data module to calculate the use frequency of each experimental instrument according to the experimental data of each experimental instrument and randomly select one experimental instrument with low use frequency; the fault module is connected with the data module to judge whether the experimental results corresponding to the same experimental data of the same experimental instrument have differences or not and mark the experimental instrument with the larger difference in the experimental results.

2. A management platform for supervising laboratory instrument quality specifications as set forth in claim 1, wherein: the data module is also used for uploading the experiment time of each experimental instrument by a user; and the fault module makes a curve graph according to the experimental result and the experimental time corresponding to the same experimental data of the same experimental instrument so as to judge whether the experimental result of each experimental instrument has larger difference.

3. A management platform for supervising laboratory instrument quality specifications as set forth in claim 1, wherein: the device also comprises a verification module used for comparing the experimental results of different experimental instruments; the verification module is connected with the data module so as to judge whether the experimental results corresponding to the same experimental data between different experimental instruments are different and mark each experimental instrument with the different experimental results.

4. A management platform for supervising laboratory instrument quality specifications as set forth in claim 1, wherein: the quality inspection system also comprises a quality inspection module used for uploading the quality inspection contents of the quality inspection personnel to each experimental instrument; and the spot check module is connected with the quality inspection module to acquire the quality inspection content of the randomly selected experimental instrument.

5. A management platform for supervising laboratory instrument quality specifications as set forth in claim 4, wherein: the quality inspection content comprises a plurality of quality inspection items and a plurality of quality inspection results which respectively correspond to the quality inspection items one by one.

6. A management platform for supervising laboratory instrument quality specifications as set forth in claim 4, wherein: the system also comprises a self-checking module used for uploading self-checking contents of the user to each experimental instrument; and the quality inspection module is connected with the self-inspection module to acquire self-inspection contents of randomly selected experimental instruments.

7. A management platform for supervising laboratory instrument quality specifications as set forth in claim 6, wherein: the self-checking content comprises a plurality of self-checking items and a plurality of self-checking results which are respectively in one-to-one correspondence with the self-checking items.

8. A management platform for supervising laboratory instrument quality specifications as set forth in claim 7, wherein: the self-checking content also comprises self-checking personnel, instrument numbers and authentication videos corresponding to the self-checking items.

9. A management platform for supervising laboratory instrument quality specifications as set forth in claim 1, wherein: the system also comprises an authority module which is connected with the user login module to judge the authority of the user, wherein the authority module judges whether the user is an experimenter or a quality testing person according to the input user information; the authority module is connected with the data module to allow the user to upload experimental data and experimental results of each experimental instrument only when the user is judged as an experimenter; the authority module is connected with the spot check module to allow a user to spot check the experimental instrument only when the user is judged as an experimental person or a quality inspection person.

10. A management platform for supervising laboratory instrument quality specifications as set forth in claim 1 or 3, wherein: the laboratory instrument is marked in such a way that the text is highlighted by color.

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