CN113051327A - Instrument data automatic acquisition multi-stage processing system - Google Patents
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Abstract
The invention discloses an instrument data automatic acquisition multistage processing system, and particularly relates to the technical field of instrument data processing. According to the invention, by arranging the time setting module, a worker can delete useless data at regular time, so that the situation that subsequent data is difficult to enter due to limited capacity of the database is reduced, the data can be cleared at regular time without manually deleting the useless data by a technician, and the situation that important information exists in the data deleted at regular time is reduced because the data compression backup module stores the useless data, so that the situation that an instrument fails or the data contrast is inaccurate due to data loss is greatly reduced.
Description
Technical Field
The invention relates to the technical field of instrument data processing, in particular to an instrument data automatic acquisition multistage processing system.
Background
At present, in the traditional laboratory management system, the result detected by the detecting instrument is generally input into the laboratory management system by adopting a manual input mode, or the data of the instrument is read by software provided by an instrument supplier and then is manually transferred into a laboratory management system, when the data is collected into the database by the collection system, the database will store the data in a classified manner, however, if the data size is huge, it is easy to cause data jam or even data loss during the storage process, and after long-term use, due to the limited capacity of the database, the subsequent data of the database are difficult to enter in the process of continuous storage, when the worker deletes the data manually, the important data is easy to delete, the important data is lost, or the running data of the instrument is lost, so that the data comparison is inaccurate or the instrument fails.
Disclosure of Invention
In order to overcome the defects in the prior art, the invention provides an instrument data automatic acquisition multistage processing system, and the technical problems to be solved by the invention are as follows: the data can be classified and stored by the database when the data is acquired into the database by the acquisition system, however, if the data volume is huge, data blockage or even data loss can be easily caused in the storage process of the data, and after the data is used for a long time, part of subsequent data in the continuous storage process of the data is difficult to enter due to the limited capacity of the database, when the data is deleted manually by a worker, the important data can be easily deleted, the important data is lost, or the running data of an instrument is lost, so that the problem of inaccurate data comparison or the failure of the instrument is caused.
In order to achieve the purpose, the invention provides the following technical scheme: an instrument data automatic acquisition multistage processing system comprises a user identity authentication unit, wherein the output end of the user identity authentication unit is electrically connected with the input end of a database, the output end of the database is respectively electrically connected with the input ends of a file automatic acquisition module, a display module and an external data acquisition module, the output end of the file automatic acquisition module is electrically connected with the input end of a data grading module, the output end of the data grading module is electrically connected with the input end of a data marking module, the output end of the data marking module is electrically connected with the input end of a data compression backup module, the output end of the data compression backup module is electrically connected with the input end of the database through the display module, the output end of the data compression backup module is electrically connected with the input end of a time setting module, and the output end of the time setting module is electrically connected with the input end of a data, the output end of the data deleting module is electrically connected with the input end of the data compression backup module, the output end of the external data acquisition module is electrically connected with the input end of the feedback module, the output end of the feedback module is electrically connected with the input end of the comparison module, the input end of the feedback module is electrically connected with the output end of the database, the output end of the comparison module is electrically connected with the input ends of the data compression backup module and the alarm module respectively, and the input end of the alarm module is electrically connected with the output end of the user identity verifying unit.
As a further scheme of the invention: the file automatic acquisition module comprises a trip data acquisition module and a video data processing unit.
As a further scheme of the invention: the external data acquisition module comprises a temperature acquisition module, a humidity acquisition module and a finish degree acquisition module.
As a further scheme of the invention: the automatic collection module of file can collect the index data when the instrument moves through instrument stroke collection module to data transmission to the data classification module when the instrument moves, thereby play the effect of monitoring to the stroke of instrument, video data processing unit is the operation flow to when the instrument moves to and the instruction that the technician assigned monitors, and collect and transmit the video data that the instrument was collected or was sent to in the data classification module.
As a further scheme of the invention: when the external data acquisition module runs, the temperature of the site where the instrument runs and the temperature inside the instrument can be detected through the temperature acquisition module, after the corresponding data are obtained through statistics, the temperature inside the instrument and the temperature of the site where the instrument is located are both transmitted into the feedback module, the humidity acquisition module is used for monitoring the humidity inside the instrument and the humidity of the site where the instrument is positioned in real time, after the corresponding data are obtained through statistics, the humidity inside the instrument and the humidity of the site where the instrument is located are both transmitted into the feedback module, the smooth finish acquisition module is used for detecting connecting devices such as internal parts of the instrument, such as gears and the like, when the smooth finish of the internal parts of the instrument is reduced, this indicates that the internal gear of the instrument is subject to corresponding wear and the external data acquisition module will send the acquired data into the feedback module.
As a further scheme of the invention: the feedback module is a module for receiving the file transmitted by the external data acquisition module, and after the data in the external data acquisition module is received, the data compared by the external data acquisition module can be extracted into the feedback module through the database, and at the moment, the feedback module can transmit the data information to be compared into the comparison module together.
The comparison module is a module for comparing the data information collected by the feedback module, when the comparison module finds that the deviation of the data and the standard value is large when comparing the data collected by the feedback module, the comparison module starts the alarm module, the alarm module can emergently stop the operation of the instrument and feed back the technician, and when the comparison module does not find that the deviation of the data and the standard value exists when comparing the data collected by the feedback module, the comparison module transmits the comparison data into the data compression backup module for backup storage.
The data compression backup module is a module for backing up and storing the data information which is collected by the data grading module and the comparison module and is compared and graded, and the data compression backup module can transmit the data to the database for secondary storage after the data compression backup module finishes collecting and storing the collected data.
The time setting module is set by a technician for a specified time interval, the data can be transmitted to the data deleting module after the data storage time reaches the specified time, and the data can be stored in the data compression backup module again in a compressed form because the data can enter the data compression backup module before being deleted.
The data grading module is used for grading the data collected by the file automatic acquisition module and transmitting the graded data to the data marking module.
The data marking module marks the data graded by the data grading module so as to ensure the accuracy and classification of the data, and after the marking is finished, the data marking module transmits the marked important files to the database for storage and transmits the unmarked secondary files to the data compression backup module for compression storage.
The invention has the beneficial effects that:
1. the invention sets the time setting module, because the time setting module is set by a technician for a specified time interval, the data can be transmitted to the data deleting module after the data storage time reaches the specified time, because the data enters the data compression backup module before being deleted, the data can be stored in the data compression backup module again in a compressed form, because the data deleting module is arranged, a worker can delete useless data at regular time, thereby reducing the situation that the subsequent data is difficult to enter due to limited capacity of a database, and the data can be cleaned at regular time without manually deleting the useless data by the technician, because the data compression backup module can store the useless data again after the data is deleted, the situation that important information exists in the data deleted at regular time is reduced, the condition that the instrument fails or the data contrast is inaccurate due to data loss is greatly reduced;
2. the invention arranges the data grading module and the data marking module, because the data marking module marks the data graded by the data grading module, further ensuring the accuracy and classification of the data, and after the marking is finished, the data marking module transmits the marked important files to the database for storage, and the unmarked secondary files are transmitted to the data compression backup module for compression storage, so that the processing system can classify the data files of different grades, thereby greatly reducing the burden of the database when storing data, ensuring the efficiency when processing data, because the data of different grades can be transmitted and processed at different time, the blocking condition during the transmission of important data is greatly reduced, the efficiency of the processing system in data processing is guaranteed, and the situations of blocking or data loss in data acquisition and data storage are reduced.
Drawings
FIG. 1 is a system framework diagram of the present invention.
In the figure: the system comprises a user identity authentication unit 1, a database 2, a file automatic acquisition module 3, a data grading module 4, a data marking module 5, a data compression backup module 6, a time setting module 7, a data deleting module 8, a display module 9, an external data acquisition module 10, a feedback module 11, a comparison module 12 and an alarm module 13.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
As shown in the figure, the invention provides an instrument data automatic acquisition multi-stage processing system, which comprises a user identity authentication unit 1, wherein the output end of the user identity authentication unit 1 is electrically connected with the input end of a database 2, the output end of the database 2 is respectively electrically connected with the input ends of a file automatic acquisition module 3, a display module 9 and an external data acquisition module 10, the output end of the file automatic acquisition module 3 is electrically connected with the input end of a data grading module 4, the output end of the data grading module 4 is electrically connected with the input end of a data marking module 5, the output end of the data marking module 5 is electrically connected with the input end of a data compression backup module 6, the output end of the data compression backup module 6 is electrically connected with the input end of the database 2 through the display module 9, the output end of the data compression backup module 6 is electrically connected with the, the output end of the time setting module 7 is electrically connected with the input end of the data deleting module 8, the output end of the data deleting module 8 is electrically connected with the input end of the data compression backup module 6, the output end of the external data acquisition module 10 is electrically connected with the input end of the feedback module 11, the output end of the feedback module 11 is electrically connected with the input end of the comparison module 12, the input end of the feedback module 11 is electrically connected with the output end of the database 2, the output end of the comparison module 12 is electrically connected with the input ends of the data compression backup module 6 and the alarm module 13, and the input end of the alarm module 13 is electrically connected with the output end of the user.
The file automatic acquisition module 3 comprises a trip data acquisition module and a video data processing unit.
The external data acquisition module 10 includes a temperature acquisition module, a humidity acquisition module, and a finish acquisition module.
The automatic collection module of file 3 can collect the index data when the instrument moves through instrument stroke collection module to data transmission to the data classification module 4 when the instrument moves, thereby play the effect of monitoring to the stroke of instrument, the operation flow when the video data processing unit is to the instrument moves, and the instruction that the technician assigned monitors, and collect the video data that the instrument was collected or was sent and transmit to the data classification module 4 in.
When the external data acquisition module 10 is operated, the temperature of the site where the instrument operates and the temperature inside the instrument can be detected by the temperature acquisition module, after the corresponding data are obtained through statistics, the temperature inside the instrument and the temperature of the site where the instrument is located are both transmitted to the feedback module 11, the humidity acquisition module is used for monitoring the humidity inside the instrument and the humidity of the site where the instrument is located in real time, after the corresponding data is obtained through statistics, the humidity inside the instrument and the humidity of the site where the instrument is located are transmitted to the feedback module 11, the finish degree acquisition module detects the connecting devices such as the internal part gear of the instrument, when the finish degree of the internal part of the instrument is reduced, it is indicated that the internal gear of the instrument is subject to corresponding wear and the external data acquisition module 10 will send the acquired data to the feedback module 11.
The feedback module 11 is a module for receiving the file transmitted by the external data acquisition module 10, and after the data in the external data acquisition module 10 is received, the data compared by the external data acquisition module 10 is extracted into the feedback module 11 through the database 2, and at this time, the feedback module 11 will transmit the data information to be compared to the comparison module 12.
The comparison module 12 is a module for comparing the data information collected by the feedback module 11, when the comparison module 12 finds that the deviation between the data and the standard value is large when comparing the data collected by the feedback module 11, the comparison module 12 starts the alarm module 13, at this time, the alarm module 13 will emergently stop the operation of the instrument and feed back the technician, and when the comparison module 12 does not find that the deviation between the data and the standard value exists when comparing the data collected by the feedback module 11, the comparison data is transmitted to the data compression backup module 6 for backup storage.
The data compression backup module 6 is a module for backing up and storing the data information which is collected and compared and graded by the data grading module 4 and the comparison module 12, and after the data compression backup module 6 finishes collecting and storing the collected data, the data is transmitted to the database 2 for secondary storage.
The time setting module 7 is set by a technician for a specified time interval, and when the data storage time reaches the specified time, the data will be transmitted to the data deleting module 8, and since the data will enter the data compression backup module 6 before being deleted, the data will be stored in the data compression backup module 6 again in a compressed form.
The data grading module 4 is used for grading the data collected by the file automatic acquisition module 3 and transmitting the graded data to the data marking module 5.
The data marking module 5 marks the data graded by the data grading module 4 to ensure the accuracy and classification of the data, and after the marking is finished, the data marking module 5 transmits the marked important files to the database 2 for storage, and transmits the unmarked secondary files to the data compression backup module 6 for compression storage.
By arranging the time setting module 7, because the time setting module 7 is set by a technician for a specified time interval, after the data storage time reaches the specified time, the data can be transmitted to the data deleting module 8, because the data enters the data compression backup module 6 before being deleted, the data can be stored in the data compression backup module 6 again in a compressed form, because the data deleting module 8 is arranged, a worker can delete useless data at regular time, the situation that the subsequent data is difficult to record due to limited capacity of the database 2 is reduced, the data can be cleared at regular time without manually deleting the useless data by the technician, because the data compression backup module 6 can store the useless data again after the data is deleted, the situation that important information exists in the regularly deleted data is reduced, the condition that the instrument fails or the data contrast is inaccurate due to data loss is greatly reduced.
By arranging the data grading module 4 and the data marking module 5, because the data marking module 5 marks the data graded by the data grading module 4, further ensuring the accuracy and classification of the data, and after the marking is finished, the data marking module 5 will transmit the marked important file to the database 2 for storage, and the unmarked secondary files are transmitted to the data compression backup module 6 for compression storage, so that the processing system can classify the data files of different grades, thereby greatly reducing the burden of the database 2 when storing data, and ensuring the efficiency when processing data, because the data of different grades can be transmitted and processed at different time, the blocking condition during the transmission of important data is greatly reduced, the efficiency of the processing system in data processing is guaranteed, and the situations of blocking or data loss in data acquisition and data storage are reduced.
The points to be finally explained are: although the present invention has been described in detail with reference to the general description and the specific embodiments, on the basis of the present invention, the above embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.
Claims (6)
1. The utility model provides an instrument data automated acquisition multistage processing system, includes user authentication unit (1), its characterized in that: the output end of the user identity verification unit (1) is electrically connected with the input end of a database (2), the output end of the database (2) is respectively electrically connected with the input ends of a file automatic acquisition module (3), a display module (9) and an external data acquisition module (10), the output end of the file automatic acquisition module (3) is electrically connected with the input end of a data grading module (4), the output end of the data grading module (4) is electrically connected with the input end of a data marking module (5), the output end of the data marking module (5) is electrically connected with the input end of a data compression backup module (6), the output end of the data compression backup module (6) is electrically connected with the input end of the database (2) through the display module (9), and the output end of the data compression backup module (6) is electrically connected with the input end of a time setting module (7), the output of time setting module (7) is connected with the input electricity of data deletion module (8), the output of data deletion module (8) is connected with the input electricity of data compression backup module (6), the output of outside data acquisition module (10) is connected with the input electricity of feedback module (11), the output of feedback module (11) is connected with the input electricity of comparison module (12), the input of feedback module (11) is connected with the output electricity of database (2), the output of comparison module (12) is connected with the input electricity of data compression backup module (6) and alarm module (13) respectively, the input of alarm module (13) is connected with the output electricity of user identity verification unit (1).
2. The automated instrument data collection multi-stage processing system of claim 1, wherein: the file automatic acquisition module (3) comprises a trip data acquisition module and a video data processing unit.
3. The automated instrument data collection multi-stage processing system of claim 1, wherein: the external data acquisition module (10) comprises a temperature acquisition module, a humidity acquisition module and a finish degree acquisition module.
4. The automated instrument data collection multi-stage processing system of claim 2, wherein: when the automatic file acquisition module (3) operates, index data during the operation of the instrument can be collected through the instrument stroke acquisition module, and data transmission during the operation of the instrument is transmitted into the data classification module (4), so that the monitoring effect is achieved on the stroke of the instrument, the video data processing unit is an operation flow during the operation of the instrument and monitors an instruction issued by a technician, and video data collected or sent by the instrument is collected and transmitted into the data classification module (4).
5. The automated instrument data collection multi-stage processing system of claim 3, wherein: when the external data acquisition module (10) runs, the temperature of the site where the instrument runs and the temperature inside the instrument can be detected through the temperature acquisition module, after the corresponding data are obtained through statistics, the temperature inside the instrument and the temperature of the site where the instrument is located are both transmitted to the feedback module (11), the humidity acquisition module is used for monitoring the humidity inside the instrument and the humidity of the site where the instrument is positioned in real time, after the corresponding data are obtained through statistics, the humidity inside the instrument and the humidity of the site where the instrument is located are both transmitted to the feedback module (11), the smooth finish acquisition module is used for detecting connecting devices such as internal parts of the instrument, such as gears and the like, when the smooth finish of the internal parts of the instrument is reduced, it indicates that the internal gear of the instrument is correspondingly worn and the external data acquisition module (10) transmits the acquired data to the feedback module (11).
6. The automated instrument data collection multi-stage processing system of claim 1, wherein: the feedback module (11) is a module for receiving the file transmitted by the external data acquisition module (10), and after the data in the external data acquisition module (10) is received, the data compared by the external data acquisition module (10) is extracted into the feedback module (11) through the database (2), and at the moment, the feedback module (11) transmits the data information to be compared into the comparison module (12);
the comparison module (12) is a module for comparing data information collected by the feedback module (11), when the comparison module (12) finds that the data collected by the feedback module (11) has a large deviation from a standard value, the comparison module (12) starts the alarm module (13), at the moment, the alarm module (13) can emergently stop the operation of an instrument and feed back the instrument to a technician, and when the comparison module (12) does not find that the data collected by the feedback module (11) has a deviation from the standard value, the comparison module (12) transmits the comparison data to the data compression backup module (6) for backup storage;
the data compression backup module (6) is a module for backing up and storing the data information which is collected by the data grading module (4) and the comparison module (12) and is compared and graded, and after the data compression backup module (6) finishes collecting and storing the collected data, the data is transmitted to the database (2) for secondary storage;
the time setting module (7) is used for setting a specified time interval by a technician, the data can be transmitted to the data deleting module (8) after the data storage time reaches the specified time, and the data can be stored in the data compression backup module (6) again in a compressed form because the data can enter the data compression backup module (6) before being deleted;
the data grading module (4) is used for grading the data collected by the file automatic acquisition module (3) and transmitting the graded data to the data marking module (5);
the data marking module (5) marks the data graded by the data grading module (4) so as to ensure the accuracy and classification of the data, and after the marking is finished, the data marking module (5) transmits the marked important files to the database (2) for storage, and transmits the unmarked secondary files to the data compression backup module (6) for compression storage.
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