JP2008145281A - Autoanalyzer - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an autoanalyzer that easily obtains information necessary for difficulty analysis. <P>SOLUTION: This autoanalyzer comprises an analysis body part equipped with an analysis part, a control part, a first storage part, and the like; and an operation part equipped with an input part, a display part, a printing part, a second storage part, and the like. This autoanalyzer is such that various data/information are stored in the first storage part, various data/information including data obtained through analysis made by an analysis part, image plane information displayed on the display part, and input data inputted at the input part; and difficulty-related information is selected from among the various data/information and stored in the second storage part, the difficulty-related information that includes analysis requests necessary for analyzing the difficulties generated to the autoanalyzer, an analyzer constitution, alarms, analysis results, and analyzer conditions. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an automatic analyzer, and more particularly to an automatic analyzer having a plurality of storage units as storage media.

  An automatic analyzer is disclosed in Patent Document 1, for example.

  In this automatic analyzer, when a failure occurs in the analysis unit or the control unit, the failure analysis of the device is performed based on the information displayed on the display unit or printed on the printing unit.

  In addition, there is a means for acquiring and analyzing information including an analysis request, device configuration, warning, analysis result, and device status for analysis of the cause of failure.

JP 2006-10363 A

  Since there is an upper limit on the information storage capacity, when a failure occurs, past information may be updated with new information by operation after the occurrence.

  In other words, since the device information stored in the storage unit of the automatic analyzer has a limited storage range, past information may be updated with the latest information.

  For this reason, it is difficult to confirm information at the time of failure of a device installed in a place where remote connection is impossible, and it may take time to acquire information necessary for failure analysis.

  In view of the above problems, an object of the present invention is to provide an automatic analyzer that can easily obtain information necessary for failure analysis.

  The present invention provides an automatic analyzer having an analysis main body unit provided with an analysis unit, a control unit, a first storage unit, and the like, and an operation unit provided with an input unit, a display unit, a printing unit, a second storage unit, and the like. Various data information including the data analyzed in step 1, the screen information displayed on the display unit, and the input data input on the input unit are stored in the first storage unit, and analysis necessary for analyzing a failure occurring in the automatic analyzer Failure related information including a request, a device configuration, a warning, an analysis result, and a device state is selected from the various data information and stored in the second storage unit.

  According to the present invention, the failure related information can be easily obtained from the second storage unit.

  Embodiments of the present invention will be described with reference to the drawings.

  First, it demonstrates along FIG. 1 showing the whole structure of an automatic analyzer.

  The automatic analyzer includes an analysis main unit including an analysis unit 1-1, a control unit 1-7, a first storage unit 1-2, an input unit 1-3, a display unit 1-4, a printing unit 1-5, It has an automatic analyzer having an operation unit equipped with a second storage unit 1-6 and the like.

  The user inputs a request for analysis from the input unit 1-5, and the input request is displayed on the display unit 1-3 and transmitted to the control unit 1-7.

  The control unit 1-7 assigns the request, stores information about the request in the first storage unit 1-2, and transmits the information to the analysis unit 1-1. The analysis unit 1-1 adds a reagent to the sample of the requested item, causes a chemical reaction, and calculates the concentration as a measurement result.

  The measurement result is transmitted to the control unit 1-7, stored in the first storage unit 1-2, and the result display on the display unit 1-3 and the result printing from the printing unit 1-4 are performed.

  Next, the operation flow will be described with reference to FIG.

  The operation starts when the user logs in to the apparatus from the input unit 1-5 (2-1). In accordance with the subsequent operation, the control unit 1-7 accumulates device information including an analysis request, device configuration, warning, analysis result, and device state in the first storage unit 1-2 (2-2).

  When a failure occurs in the analysis unit 1-1 or the control unit 1-7 (2-3), the control unit 1-7 outputs a warning according to the level of the failure and displays it on the display unit 1-3 (2 -4).

  The user informs the service representative that a failure has occurred (2-5), and if the service representative determines that analysis is necessary from the level of the failure (2-6), acquisition of device information for analysis The user is requested to perform the work (2-7).

  FIG. 3 shows an information collection function execution screen.

  Reference numeral 3-1 denotes a Data File BackUp button, 3-2 denotes a cancel button, and 3-3 denotes an OK button.

  The user opens the information collection function execution screen from the maintenance item of the input unit 1-5 (2-8), selects Data File BackUp by pressing 3-1 and presses 3-3 (2-9) Then, a data file selection screen is displayed (2-10). When the 3-2 button is pressed, the information collection function execution screen is closed.

  FIG. 4 shows a data file selection screen.

  Reference numeral 4-1 is an All Data File button, 4-2 is a Select Data File button, 4-3 is a data file selection button, 4-4 is a cancel button, and 4-5 is an OK button.

  The user selects either collecting all files by 4-1 or selecting information to be collected by 4-2 (2-11), and when selecting 4-2, check 4-3 Information to be collected is selected from the box (2-12), and 4-5 is pressed (2-13).

  When 4-4 is pressed, the data file selection screen is closed.

  If it is determined that the information collection can be executed because the device status is standby (2-14), an execution confirmation screen is displayed (2-15).

  The execution confirmation screen will be described with reference to FIG.

  7-1 is a No button for avoiding execution, and 7-2 is a Yes button for continuing execution.

  By pressing 5-2, collection of device information is started (2-16). A message indicating that the data file is being collected is displayed on the display unit 1-3.

  The control unit 1-7 collects device information from the first storage unit 1-2 according to the selection on the data file selection screen, and copies it to the second storage unit 1-6 (2-17). After copying is completed, a data file collection completion message is displayed on the display unit 1-3 (2-18).

  The person in charge of service analyzes the data collected in the second storage unit 1-6 (2-19).

  The difference between the first storage unit 1-2 and the second storage unit 1-6 will be described in more detail.

  The first storage unit 1-2 stores various data information including data analyzed by the analysis unit, screen information displayed on the display unit, and input data input by the input unit.

  On the other hand, the second storage unit 1-6 stores failure-related information including analysis requests, device configurations, warnings, analysis results, and device states necessary for analyzing failures occurring in the automatic analyzer. That is, only failure related information selected from various data information is accumulated.

  For this reason, information necessary for failure analysis can be obtained from the records stored in the second storage unit 1-6.

  In addition, the first storage unit 1-2 that stores various data information has a limited storage capacity. When it is full, past information is not updated with the latest information by overwriting. For this reason, it becomes difficult to obtain information necessary for failure analysis.

  Since only the selected failure-related information is squeezed and accumulated in the second storage unit 1-6, a series including past information can be obtained from the second storage unit 1-6, and information necessary for failure analysis Can be secured easily.

  Next, collection of information regarding the failure shown in FIG. 5 will be described.

  The user starts operation by logging into the apparatus from the input screen of the input unit (5-1). In accordance with the subsequent operation, the apparatus accumulates apparatus information including an analysis request, apparatus configuration, warning, analysis result, and apparatus state in the first storage unit 1-2 (5-2).

  When a failure occurs in the analysis unit 1-1 or the control unit 1-7 (5-3), the control unit 1-7 outputs a warning according to the level of the failure and displays it on the display unit 1-3 (5). -4).

  The control unit 1-7 determines the generation source of the warning (5-5), and determines whether to acquire all information according to the generation site (5-6) or to select the information to be collected.

  The generation source subdivides the information collected by the control unit 1-7 and the alarm code (5-7). When collecting information, if it is determined that information collection can be executed because the device status is standby (5-8), a message to start collecting information is displayed.

  When the device state is other than standby, a message is displayed to prompt the transition to the standby state. In this case, automatic acquisition is not performed.

  At the time of information acquisition, the control unit 1-7 collects device information from the first storage unit 1-2 according to selection based on all information or alarm code identification, and copies it to the second storage unit 1-6 (5-9). .

  After the copying is completed, a data file collection completion message is displayed on the display unit 1-3 (5-10). The person in charge of service analyzes the data collected in the second storage unit 1-6 (5-11).

  As described above, starting from the warning when a failure occurs, information useful for the failure analysis at that time is automatically determined, information in the first storage unit is collected, and stored in the second storage unit. In this way, since information necessary for failure analysis is automatically collected, the burden of collecting information on the user can be reduced.

  Another embodiment shown in FIG. 6 will be described.

  This embodiment is characterized in that a backup first storage unit 6-8 is added to the embodiment shown in FIG.

  Various data information is stored in the backup first storage unit 6-8 in the same manner as the first storage unit 6-2. The second storage unit stores failure-related information selected from various data information.

  The storage of the fault related information in the second storage unit is performed together with the first storage unit 6-2 and the backup first storage unit 6-8.

  In addition, the storage of the failure-related information in the second storage unit is stored in the backup first storage unit 6-8, and then a copy is made from the backup first storage unit 6-8 by manual operation of the input unit 6-5. It is also possible to make it.

1 is a schematic view of an automatic analyzer according to an embodiment of the present invention. The operation | movement flow which concerns on the Example of this invention and collects fault related information. An information collection function execution screen according to an embodiment of the present invention. A data file selection screen according to an embodiment of the present invention. The other operation | movement flow which concerns on the Example of this invention and collects failure related information. The schematic diagram of an automatic analyzer concerning the other Example of this invention. The execution confirmation screen figure concerning the Example of this invention.

Explanation of symbols

  1-1 ... analysis unit, 1-2 ... first storage unit, 1-3 ... display unit, 1-4 ... printing unit, 1-5 ... input unit, 1-6 ... second storage unit, 3-1 ... Data File BackUp button, 3-2 ... Cancel button, 3-3 ... OK button, 4-1 ... All Data File button, 4-2 ... Select Data File button, 4-3 ... Data file selection button, 4-4 ... Cancel button, 4-5 ... OK button, 6-8 ... backup first storage unit, 1-7 ... control unit.

Claims (9)

In an automatic analyzer having an analysis unit, an analysis main unit provided with a control unit, an operation unit provided with an input unit, a display unit, a printing unit, a second storage unit, etc., and a first storage unit,
Various data information including data analyzed by the analysis unit, screen information displayed on the display unit, and input data input by the input unit is stored in the first storage unit,
Failure related information including an analysis request, device configuration, warning, analysis result, and device status necessary for analyzing a failure occurring in the automatic analyzer is selected from the various data information and stored in the second storage unit. An automatic analyzer.
In an automatic analyzer having an analysis main body unit provided with an analysis unit, a control unit, a first storage unit, etc., and an operation unit provided with an input unit, a display unit, a printing unit, a second storage unit, etc.
Various data information including data analyzed by the analysis unit, screen information displayed on the display unit, and input data input by the input unit is stored in the first storage unit,
Failure related information including an analysis request, device configuration, warning, analysis result, and device status necessary for analyzing a failure occurring in the automatic analyzer is selected from the various data information and stored in the second storage unit. An automatic analyzer.
In an automatic analyzer having an analysis main body unit provided with an analysis unit, a control unit, a first storage unit, etc., and an operation unit provided with an input unit, a display unit, a printing unit, a second storage unit, etc.
A backup first storage unit corresponding to the first storage unit is provided in the operation unit,
Various data information including data analyzed by the analysis unit, screen information displayed on the display unit, input data input by the input unit is stored in the first storage unit and the backup first storage unit,
Failure related information including an analysis request, device configuration, warning, analysis result, and device status necessary for analyzing a failure occurring in the automatic analyzer is selected from the various data information and stored in the second storage unit. An automatic analyzer. The automatic analyzer according to claim 1 or 2,
An automatic analyzer, wherein the failure-related information is selected from various data information stored in the first storage unit and stored in the second storage unit. In the automatic analyzer according to claim 3,
An automatic analyzer, wherein the failure-related information is selected from various data information stored in the backup first storage unit and stored in the second storage unit.
In the automatic analyzer according to any one of claims 1 to 5,
The automatic analyzer is characterized in that an instruction to select the failure-related information and store it in the second storage unit is an input operation from the input unit.
A chemical reaction of the component concentration of the liquid sample by addition of reagents, and measurement and analysis of the concentration;
A display unit that displays the response to the input items such as parameters, analysis operations, quality control, maintenance, etc. necessary for analysis and the results of the analysis;
A print section for printing measurement results and device information;
An input part for inputting screen selection and input items on the screen,
In an automatic analyzer having a first storage unit for storing various data information including data analyzed by the analysis unit and screen information displayed on the display unit and input data input by the input unit,
Provided in a second storage unit for storing failure-related information including analysis requests and device configurations, warnings, analysis results, and device states necessary for analysis of failures occurring in the automatic analyzer selected from the various data information Automatic analyzer characterized by In the automatic analyzer according to any one of claims 1 to 5 and claim 7,
When a failure occurs in the analysis unit or the control unit, an automatic analysis apparatus is characterized in that failure related information is stored in the second storage unit, starting from a warning at the time of failure occurrence. In the automatic analyzer as described in any one of Claims 1-6,
An automatic analyzer that includes an information selection screen for selecting data information to be stored when the failure-related information is stored in the second storage unit as one of display screens displayed on the display unit .

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