CN106909131B

CN106909131B - Management system of experimental instrument

Info

Publication number: CN106909131B
Application number: CN201510974662.3A
Authority: CN
Inventors: 熊厚钰; 包章尧; 胡海生
Original assignee: Siemens Circuit Protection Systems Ltd
Current assignee: Siemens Circuit Protection Systems Ltd
Priority date: 2015-12-22
Filing date: 2015-12-22
Publication date: 2020-10-16
Anticipated expiration: 2035-12-22
Also published as: CN106909131A

Abstract

The management system of the experimental instrument comprises a database server, a client and a control platform. The database server comprises a first storage module and a second storage module. The client can be in signal connection with the database server and comprises a calling module, a selecting module and an equipment linking module. The calling module can obtain product information so as to obtain a corresponding test plan from the first storage module according to the product information and obtain a test item list corresponding to the test plan. According to the obtained test item list, one test item listed in the test item list can be selected from the second storage module through the selection module, so that the laboratory instrument type list corresponding to the test item is obtained. And the equipment linking module can output a test command according to the acquired experimental instrument type list. And after receiving the test command from the equipment linking module, the control platform can control the experimental instruments listed in the acquired experimental instrument type list to complete the experimental test.

Description

Management system of experimental instrument

Technical Field

The invention relates to a management system, in particular to a management system of an experimental instrument.

Background

In the existing laboratory, there are various general-purpose laboratory instruments and laboratory instruments required for special tests, these laboratory instruments cannot perform programmed tests according to the standard requirements for products, professional intervention is required, and information flows (such as detailed information of test samples, test plans, test items, etc.) cannot be shared among different laboratory instruments.

Disclosure of Invention

The invention aims to provide a management system of a laboratory instrument, which is based on the information physical technology of industrial 4.0 information internet of things and establishes the internet of things in a laboratory, so that the laboratory instrument can perform programmed tests according to respective standard requirements aiming at different products, the test efficiency is improved, and the labor is saved.

The invention provides a management system of experimental instruments, which can control a plurality of experimental instruments and can control the experimental instruments to complete experimental tests of different products according to different product information. The database server comprises a first storage module and a second storage module. The first storage module stores a plurality of test plans corresponding to different product information, and each test plan comprises a test item list. The second storage module stores a plurality of test items, and each test item comprises a laboratory instrument type list. The client can be in signal connection with the database server and comprises a calling module, a selecting module and a device linking module. The calling module can acquire product information and is in signal connection with the first storage module so as to acquire a corresponding test plan from the first storage module according to the product information and acquire a test item list corresponding to the test plan. The selection module is connected with the calling module through a trusted number, and can select one test item listed in the test item list from the second storage module through the selection module according to the acquired test item list so as to acquire the experimental instrument type list corresponding to the test item. The equipment linking module is connected with the selection module through a signal, and can output a test command according to the acquired experimental instrument type list. The control platform is connected with the equipment link module through a signal and can be in signal connection with the experimental instrument, and after the control platform receives the test command from the equipment link module, the control platform can control the experimental instruments listed in the acquired experimental instrument type list to complete experimental tests. The management system of the test instrument can flexibly combine the test instrument according to different product information to complete the test process of different products, and can effectively improve the utilization efficiency of test resources in the links of configuration, test design, effective operation and the like.

In an exemplary embodiment of the management system of the experimental instrument, the control platform is a Labview platform, and includes a logic control module, the logic control module can control the experimental instrument to complete the experimental test according to the test command, and the logic control module can monitor the test state and the test data of the experimental instrument and upload the test state and the test data to the database server. The device link module of the client comprises a query unit which is in signal connection with the selection module and can query the test state and the test data of the experimental instrument listed in the acquired experimental instrument type list through the database server according to the experimental instrument type list acquired from the selection module. By adopting the design, an operator can master the information of the test instrument in real time, the functions of data recording, monitoring and the like of the test instrument can be realized, power management and energy management in the test process can be realized, continuous optimization of energy conservation and emission reduction is achieved, and intelligent management of a laboratory is realized.

In an exemplary embodiment of the management system of the laboratory instrument, the device link module of the client further includes a reservation unit connected to the inquiry unit via a serial number, and capable of outputting a reservation command according to the test status of the laboratory instrument obtained from the inquiry unit. The control platform also comprises a verification module which is connected with the reservation unit through a trusted number and can acquire the product information of the product to be tested, and if the verification module verifies that the product information is matched with the reservation command received from the reservation unit, the logic control module is allowed to control the experimental instrument to complete the experimental test according to the test command. By adopting the design, the use safety of the experimental instrument can be ensured, and the experimental instrument can be reasonably and effectively utilized.

In an exemplary embodiment of the management system of the laboratory instrument, the management system further includes a scanning gun, which scans the product to be tested to obtain product information of the product and transmits the product information to the retrieving module.

In an exemplary embodiment of the management system of the laboratory instrument, the management system further comprises an application server and a web server, by means of which the control platform can be in signal connection with the database server. The web server can be in signal connection with the application server. The client can realize signal connection with the database server and the control platform through the webpage server and/or the application server. By adopting the design, the management system of the experimental instrument can realize not only field control, but also remote monitoring and management of the experimental instrument.

In an exemplary embodiment of the management system of the laboratory instrument, the client is a laptop, a desktop or a mobile phone.

In an exemplary embodiment of the management system of the laboratory instrument, the control platform can be in signal connection with the laboratory instrument via a PLC.

In an exemplary embodiment of the management system of the laboratory instrument, the database server is a SQL database server.

The above features, technical features, advantages and modes of realisation of the management system for laboratory instruments will be further explained in the following, in a clearly understandable manner, with reference to the accompanying drawings, which illustrate preferred embodiments.

Drawings

The following drawings are only schematic illustrations and explanations of the present invention, and do not limit the scope of the present invention.

FIG. 1 is a schematic diagram illustrating an exemplary embodiment of a management system for a laboratory instrument.

FIG. 2 is a schematic diagram illustrating another exemplary embodiment of a management system for a laboratory instrument.

FIG. 3 is a schematic diagram illustrating another exemplary embodiment of a laboratory instrument management system.

Description of the reference symbols

10 client

11 calling module

12 selection module

13 device linking module

132 query unit

134 reservation unit

20 database server

22 first memory module

24 second memory module

30 control platform

32 logic control module

34 authentication module

40 scanning gun

50 Web server

60 application server

100 management system

110 laboratory instrument

120 PLC。

Detailed Description

In order to more clearly understand the technical features, objects and effects of the present invention, embodiments of the present invention will now be described with reference to the accompanying drawings, in which the same reference numerals indicate the same or structurally similar but functionally identical elements.

"exemplary" means "serving as an example, instance, or illustration" herein, and any illustration, embodiment, or steps described as "exemplary" herein should not be construed as a preferred or advantageous alternative.

For the sake of simplicity, the drawings only schematically show the parts relevant to the present invention, and they do not represent the actual structure as a product. In addition, for simplicity and clarity of understanding, only one of the components having the same structure or function is schematically illustrated or labeled in some of the drawings.

FIG. 1 is a schematic diagram illustrating an exemplary embodiment of a management system for a laboratory instrument. As shown in fig. 1, the management system 100 of the laboratory instrument can be in signal connection with all controllable laboratory instruments 110 in a laboratory or a laboratory institution, the laboratory instruments 110 can be, for example, temperature sensors, humidity sensors, electronic gas valves, contactors, relays, etc., and according to a product to be tested, the management system 100 can control the laboratory instruments 110 required by the product to perform the test or the test according to product information of the product. The management system 100 includes a client terminal 10, a database server 20, and a control platform 30.

The database server 20 may be an SQL database server, which includes a first storage module 22 and a second storage module 24. The first storage module 22 stores a plurality of test plans corresponding to different product information, each test plan includes a test item list, and the test item list indicates test items required to be completed by the test plan. The second memory module 24 stores a plurality of test items, each of which includes a list of laboratory instrument types indicating which laboratory instruments 110 are to be used to complete the test item.

The client terminal 10 may be a notebook computer, a desktop computer, a mobile phone, or the like, and is capable of being connected to the database server 20 by signals, and the client terminal 10 includes a retrieving module 11, a selecting module 12, and a device linking module 13.

When a product needs to be tested, the retrieving module 11 can obtain product information of the product to be tested, for example, by using a user to input the product information of the product at the client 10 through a keyboard (not limited thereto), or in other embodiments, a scanning gun 40 (as shown in fig. 2) may be used to scan the product to obtain the product information, and transmit the product information to the retrieving module 11. The product information generally includes information such as a model number and a serial number of the product. The retrieving module 11 is in signal connection with the first storage module 22 of the database server 20 to obtain a test plan corresponding to the product information from the first storage module 22 according to the obtained product information, and obtain a test item list corresponding to the test plan.

The selection module 12 is connected with the retrieval module 11 and the second storage module 24 of the database server 20 by a trusted number, and according to the test item list acquired by the retrieval module 11, an operator can select a test item required by the test from the test item list as needed, and can select one test item listed in the test item list from the second storage module 24 through the selection module 12 to acquire an experimental instrument type list corresponding to the test item.

The device link module 13 is connected to the selection module 12 by a signal, and can output a test command according to the list of the types of the laboratory instruments acquired by the selection module 12.

The control platform 30 is connected to the device link module 13 via a signal, and can be in signal connection with all the experimental instruments 110, and after receiving the test command from the device link module 13, the control platform 30 can control the experimental instruments 110 listed in the acquired experimental instrument type list to complete the experimental test. Those skilled in the art will appreciate that control platform 30 may also be in signal communication with laboratory instrument 110 via other means, such as via PLC120, see fig. 3, or via other logic function blocks.

The management system adopting the experimental instrument can establish the Internet of things in a laboratory so as to flexibly combine the experimental instrument according to different product information to complete the test process of different products, and can effectively improve the utilization efficiency of test resources in the links of configuration, test design, effective operation and the like.

The control platform 30 may adopt a Labview platform, and a diversified virtual instrument technology may be established on the Labview platform to implement different test items of different products, so as to achieve different test purposes. As shown in fig. 2, the control platform 30 may further include a logic control module 32, the logic control module 32 is in signal connection with each of the experiment apparatuses 110, and is capable of controlling the experiment apparatuses 110 to complete experiment tests according to the test commands, and the logic control module 32 may further monitor the test states and test data of the experiment apparatuses 110, and upload the test states and test data to the database server 20. The test status includes, for example, a test procedure progress status, a usage status of the laboratory instrument 110, and the like, and the test data includes, for example, test parameters, test records, test reports, and the like. Correspondingly, the device link module 13 of the client 10 may further include an inquiry unit 132, the inquiry unit 132 may be connected to the selection module 12 and the database server 20 by a serial number, and according to the experimental instrument type list acquired from the selection module 12, the inquiry unit 132 may inquire, through the database server 20, the test state and the test data of the experimental instrument 110 listed in the acquired experimental instrument type list, so as to know the test state and the test data of the experimental instrument 110 in real time, implement functions such as data recording and monitoring of the experimental instrument, and implement power management and energy management in the test process, thereby achieving continuous optimization of energy saving and emission reduction, and thereby implementing intelligent management of a laboratory.

Further, in the embodiment shown in fig. 2, the device link module 13 of the client 10 may further include a reservation unit 134 connected to the query unit 132 by a signal, and capable of outputting a reservation command according to the test status of the laboratory instrument 110 obtained from the query unit 132. Specifically, it is known from the test status obtained by the query unit 132 whether the laboratory instrument 110 is available, for example, whether the laboratory instrument 110 is under inspection and is reserved, and when it is known that the laboratory instrument 110 is available, an appointment command is output through the appointment unit 134, so that the operator can make an appointment with the laboratory instrument through the appointment unit 134 before the test is started. Correspondingly, the control platform 30 may further include a verification module 34 connected to the reservation unit 134 by a trusted number, where the verification module 34 is capable of obtaining product information of the product to be tested, for example, before the product is formally tested by using the experimental apparatus 110, an operator may input the product information of the product to the verification module 34, for example, the verification module 34 may obtain the product information by scanning a two-dimensional code of the product to be tested, and if the verification module 34 verifies that the product information matches the reservation command received from the reservation unit, that is, the product information obtained by the verification module 34 and the product information obtained by the calling module are the same product information, the logic control module 32 is allowed to control the experimental apparatus 110 to complete the experimental test according to the test command. If not, indicating that the product actually being tested by the operator is not the product ordered for testing, logic control module 32 will not activate laboratory instruments 110. By adopting the design, the use safety of the experimental instrument can be ensured, and the experimental instrument can be reasonably and effectively utilized.

FIG. 3 is a schematic diagram illustrating another exemplary embodiment of a laboratory instrument management system. As shown in fig. 3, the management system 100 of the experimental apparatus may further include an application server 60 and a web server 50, the control platform 30 can be in signal connection with the database server 20 through the application server 60, the web server 50 can be in signal connection with the application server 60, and the client 10 can be in signal connection with the database server 20 and the control platform 30 through the web server 50 and the application server 60 to implement remote control. The client 10 can also be connected to the database server 20 and the control platform 30 via the application server 60 for signal connection to realize field control.

It should be understood that although the present description has been described in terms of various embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and those skilled in the art will recognize that the embodiments described herein may be combined as suitable to form other embodiments, as will be appreciated by those skilled in the art.

The above-listed detailed description is only a specific description of a possible embodiment of the present invention, and they are not intended to limit the scope of the present invention, and equivalent embodiments or modifications such as combinations, divisions or repetitions of features, which do not depart from the technical spirit of the present invention, should be included in the scope of the present invention.

Claims

1. The management system of laboratory glassware, management system (100) establish the thing networking based on the information physics technique of information thing allies oneself with, can control a plurality of laboratory glassware (110) to can accomplish the experimental test of different products according to different product information combination laboratory glassware (110), management system (100) include:

a database server (20) comprising:

a first storage module (22) storing a plurality of test plans corresponding to different product information, each of said test plans including a list of test items, an

A second storage module (24) storing a plurality of test items, each of said test items including a list of laboratory instrument categories;

a client (10) capable of signaling said database server (20), said client (10) comprising:

a calling module (11) capable of obtaining a product information, which is connected with the first storage module (22) by signals, so as to obtain the corresponding test plan from the first storage module (22) according to the product information and obtain the test item list corresponding to the test plan,

a selection module (12) connected with the calling module (11) by a signal, and capable of selecting a test item listed in the test item list from the second storage module (24) through the selection module (12) according to the acquired test item list to acquire a laboratory instrument type list corresponding to the test item, an

A device linking module (13) which is connected with the selection module (12) by a signal and can output a test command according to the acquired experimental instrument type list; the device link module (13) comprises:

a query unit (132) signally connected to said selection module (12), and

a reservation unit (134) connected to said enquiring unit (132) by a credit; and

a control platform (30) connected with the equipment link module (13) by a signal, wherein the control platform can be in signal connection with all the experimental instruments (110), and the control platform (30) can control the experimental instruments (110) listed in the acquired experimental instrument type list to complete experimental tests after receiving the test command from the equipment link module (13); the control platform (30) comprises:

the logic control module (32) can control the experimental instrument (110) to complete experimental tests according to the test commands, and the logic control module (32) can monitor the test state of the experimental instrument (110) and upload the test state to the database server (20); the query unit (132) is capable of querying the test status of the experimental instrument (110) listed in the acquired experimental instrument category list through the database server (20) according to the experimental instrument category list acquired from the selection module (12); the reservation unit (134) is capable of outputting a reservation command based on the test status of the laboratory instrument (110) obtained from the inquiry unit (132); and

and the verification module (34) is connected with the reservation unit (134) by a signal and can acquire the product information of the product to be tested, and if the verification module (34) verifies that the product information is matched with the reservation command received from the reservation unit, the logic control module (32) is allowed to control the experimental instrument (110) to complete the experimental test according to the test command.

2. The laboratory instrument management system according to claim 1,

the control platform (30) is a Labview platform, and the logic control module (32) can monitor the test data of the experimental instrument (110) and upload the test data to the database server (20);

the query unit (132) is capable of querying the test data of the laboratory instruments (110) listed in the acquired laboratory instrument category list through the database server (20) according to the laboratory instrument category list acquired from the selection module (12).

3. The laboratory instrument management system according to claim 1, wherein said management system further comprises a scanning gun (40) for scanning a product to be tested to obtain product information of the product and transmitting the product information to said retrieving module (11).

4. The laboratory instrument management system of claim 1, wherein the management system further comprises:

an application server (60), by means of which application server (60) said control platform (30) is capable of signal connection with said database server (20); and

a web server (50), said web server (50) capable of signaling with said application server (60), said client (10) capable of signaling with said database server (20) and said control platform (30) via said web server (50) and/or said application server (60).

5. The laboratory instrument management system according to claim 1, wherein the client (10) is a laptop, a desktop or a mobile phone.

6. The laboratory instrument management system according to claim 1, wherein the control platform (30) is signally connectable to the laboratory instrument (110) via the PLC (120).

7. The laboratory instrument management system according to claim 1, wherein the database server (20) is a SQL database server.