JPH09211003A - Automatic analyzer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable proper maintenance and control by newly setting the maintenance item corresponding to the content of maintenance and control by using a display part and an input part. SOLUTION: A user provides a screen 2-23 for setting maintenance items of nevel registration and uses an input device 2-25 to set the screen 2-23 to store the names of maintenance stems, an alarm generating time, a time counting method, the presence or absence of comment input and the designation of maintenance operation in a memory device 2-24. The inputted maintenance items are read from the memory device 2-24 and the inputted names of the novel maintenance items are outputted by a maintenance and control screen. By this constitution, the user can freely determine the alarm generating time on the basis of the alarm generating time and time counting method set at the time of registration. Further, since maintenance operation can be executed at a time of the execution of maintenance, maintenance work can be simply performed.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to an automatic analyzer for analyzing a test item in a liquid sample.

[0002]

2. Description of the Related Art Although conventional automatic analyzers can perform maintenance management, they can manage only maintenance items registered in advance. Also, the alarm occurrence time for maintenance items was fixed and could not be changed. Also, the alarm that reports the maintenance execution time could not be seen unless the screen dedicated to maintenance was moved.

[0003]

In the maintenance management of the automatic analyzer in the above-mentioned prior art, the replacement time of the parts such as the reaction cell and the lamp necessary for the analysis is managed at fixed times, and the replacement time comes. And the alarm was only output next to the parts such as the reaction cell and lamp. Also,
When the maintenance item was executed, the execution date was only recorded in the storage device. Therefore, when the user tried to carry out regular maintenance independently, he had to separately perform maintenance. I could not see the alarm unless I moved to the maintenance screen, and I could not immediately know when the maintenance time came. Also, if there are special notes when executing maintenance items,
It was very inconvenient because there was no way to manage it.

An object of the present invention is to automatically register a maintenance item according to the maintenance environment of a user, to view an alarm indicating a maintenance time from any screen, and to input a comment when the maintenance item is executed. It is to provide an analyzer.

[0005]

To achieve the above object, the following functions are newly provided.

(1) A screen is provided for the user to set maintenance items for new registration, and the screen is set using an input device, and the maintenance item name, alarm occurrence time, time counting method, and comment input With or without, the function that can specify the maintenance operation in the storage device.

(2) A function of reading out the maintenance item name input in the above item 1 from the storage device and outputting the input new maintenance item name on the maintenance management screen.

(3) A function of periodically accumulating time according to the time counting method.

(4) A function of reading the alarm occurrence time input in (1) from the storage device and generating an alarm with the accumulated time by the function of (3).

(5) A function capable of outputting the alarm generated in (4) on all screens.

(6) A function of reading the presence / absence of the comment input in (1), inputting the comment when there is a comment during maintenance, and storing the input comment in the storage device.

The operation of the present invention will be described. A new maintenance item can be added by specifying the maintenance item name, alarm occurrence time, time counting method, comment input, and maintenance operation with a screen for setting maintenance items. As a result, the user can freely decide the alarm occurrence time by the alarm occurrence time set at the time of registration and the time counting method. Further, since the maintenance operation can be executed when the maintenance is executed, the maintenance work can be easily performed.

The alarm generated by the setting at the time of registration is
It is displayed at a specific position on the screen so that the user can check it at any time. This keeps the user always aware of the alarm whenever it occurs and reduces analysis beyond the maintenance period.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described with reference to FIGS.

FIG. 2 is a block diagram of the principle of the automatic analyzer. In FIG. 2, 2-1 is a reaction disk,
A reaction container 2-2 is provided on the outer circumference of the reaction disk 2-1. The whole reaction disk 2-1 is kept at a predetermined temperature by the heat retaining layer 2-3. 2-5 is a sample disk mechanism, and a large number of sample cups 2-6 are installed in the sample disk mechanism 2-5. 2-2
Reference numeral 6 is a bar code reader for the sample cup, which decodes the bar code attached to the sample cup 2-6. The sample in the sample cup 2-6 is appropriately extracted by the nozzle 2-8 of the sample pipetting mechanism 2-7 and injected into the reaction container at the sample dispensing position. A liquid level sensor is provided at the tip of the nozzle 2-8 so that the remaining amount of the sample can be measured. 2-9 is a reagent disk mechanism in which a reagent installment is installed. Reagent pipetting mechanisms 2-10A and 2-10B in each reagent disk mechanism 2-9 are barcode bottle readers for decoding the barcode attached to the reagent cup. Reagent pipetting mechanism 2-10A and 2-10B nozzles 2-28A and 2-
28B, a reagent required for analysis is appropriately extracted and injected into the reaction container 2-2. Nozzles 2-28A and 2-28B
A liquid level sensor is provided at the tip of the so that the remaining amount of the reagent can be measured. 2-11 is a stirring mechanism. 2-12 is a multi-wavelength photometer, 2-13 is a light source, and the multi-wavelength photometer 2-12
Between the light source 2-13 and the light source 2-13, the reaction container 2-2 for accommodating the object of photometry is arranged. 2-14 is a cleaning mechanism.
Regarding the controller and the signal processing system, 2-15 is a microcomputer, 2-16 is an interface, 2-17 is a logarithmic converter, 2-18 is an A / D converter, 2-19 is a reagent dispensing mechanism, 2- 20 is a washing pump and 2-21 is a sample dispensing mechanism. Further, 2-22 is a printer for printing a report, 2-23 is a CRT for display, 2-24 is a hard disk as a storage device, and 2-25 is an operation panel (keyboard) for inputting.

The analysis principle of such an automatic analyzer will be described. According to the analysis parameters stored in the memory in the microcomputer 2-15,
A predetermined amount of each sample is dispensed into the reaction container 2-2 using the nozzle 2-8 of the sample pipetting mechanism 2-7. Next, the reaction container 2-2 in which the reagent is dispensed is set to the reaction disk 1
Is rotated once and transferred to the reagent dispensing position. Then, the sample is dispensed using the nozzles 2-18A and 2-28B of the reagent pipetting mechanisms 2-10A and 2-10B according to the analysis parameters stored in the memory in the microcomputer 2-15. Reaction vessel 2-
Dispense a predetermined amount of reagent into 2. Then, the stirring mechanism 2-1
In 1, the sample and the reagent are stirred and mixed. When this reaction vessel 2-2 crosses the photometric position, a multi-wavelength photometer 2-
At 12, the absorbance is measured. The photometric absorbance is passed through a logarithmic converter 2-17, an A / D converter 2-18 and an interface 2-16 to a microcomputer 2-
Taken in 15. This absorbance is measured by an analytical method designated in advance for each item and converted into concentration data based on a calibration curve created from the absorbance of the standard solution. The measured component concentration data is output to a printer or screen.

A method of realizing the above-mentioned analysis principle according to claims 1 to 6 will be described below.

FIG. 1 is a screen for inputting maintenance items, FIG. 3 shows the procedure for item registration, FIG. 4 is a screen for registering frequencies, and FIGS. 5 to 8 are auxiliary for registering maintenance items. It is a screen. The registration procedure will be described with reference to FIGS. 1 and 3 to 7.

(Step 3-1) The automatic analyzer is started up.

(Step 3-2) The frequency registration screen shown in FIG. 4 is opened.

(Step 3-3) In the item name edit box 4-1, the frequency name is entered on the operation panel 2-.
Enter from 25.

(Step 3-4) Attention alarm occurrence time edit box 4-2 is used to enter the attention alarm occurrence time from operation panel 2-25. If 0 is specified for the caution alarm occurrence time, the caution alarm will also be displayed in Step 3
The warning alarm described in -6 does not occur either.

(Step 3-5) Attention alarm occurrence time unit When the assist box 4-3 is selected, the window of FIG. 5 opens and the unit of the attention alarm occurrence time is selected.

(Step 3-6) In the warning level time edit box 4-4, the ratio of the warning alarm occurrence time to the alarm occurrence time is entered on the operation panel 2-25. Also, when 0 is input, the warning alarm does not occur.

For example, it is assumed that the caution alarm generation time is 10 hours. When the alarm occurrence rate is 80%, the alarm alarm occurrence time is 8 hours.

(Step 3-7) The comment input button 4-5 or the comment input button 4-6 is used to select the presence or absence of the comment input at the time of executing the frequency on the operation panel 2-25.

(Step 3-8) Enter Button 4-8
The contents input from step 3-3 to step 3-7 are stored in the storage device 2-24. Also, the contents entered from step 3-3 to step 3-7 by the cancel button 4-7 are discarded.

(Step 3-9) The maintenance item registration screen of FIG. 1 is opened.

(Step 3-10) In the item name edit box 1-1, the maintenance item name is input on the operation panel 2-25.
Enter from.

(Step 3-11) The maintenance operation assist box 1-2 opens the maintenance operation list box shown in FIG.
From the maintenance operation list box, perform maintenance operations on the operation panel 2
Select from -25.

(Step 3-12) Attention alarm occurrence time In the edit box 1-3, the attention alarm occurrence time is input from the operation panel 2-25. When 0 is specified for the caution alarm occurrence time, neither a caution alarm nor a warning alarm occurs.

(Step 3-13) Caution alarm occurrence time unit When the assist box 1-4 is selected, the window shown in FIG. 5 opens and the caution alarm occurrence time unit is selected.

(Step 3-14) Time counting method Assist box 1-5 opens the window shown in FIG. 7 to set the time counting method. In the time counting method, for example, in real time, the alarm generation time is managed in real time. If the power is on, the alarm generation time is managed only while the automatic analyzer is on. If it is an operation time, the alarm generation time is managed only while the automatic analyzer is performing analysis.

(Step 3-15) In the warning level time edit box 1-6, the ratio of the warning alarm occurrence time to the alarm occurrence time is entered on the operation panel 2-25. Also, when 0 is input, the warning alarm does not occur.

(Step 3-16) With the comment input button 1-7 or the no comment input button 1-8,
Use the operation panel 2-25 to select whether or not to enter a comment when performing the maintenance operation.

(Step 3-17) Enter Button 1-
In step 10, the contents input from step 3-10 to step 3-16 are stored in the storage device 2-24. In addition, the cancel button 1-9 is pressed from step 3-10 to step 3-
The contents entered up to 16 are discarded.

A plurality of frequencies can be registered, and a plurality of maintenance items can be registered for each frequency.

The processing will be described with reference to FIG.

(Step 8-1) The frequency and maintenance items are registered in steps 3-1 to 3-17.

(Step 8-2) After registration, the final maintenance time table, which has the frequency and the maintenance item, is initialized according to the time counting method. Initialization is performed as follows. The automatic analyzer has a cumulative power-on time,
It has a cumulative time of operations and puts this cumulative time into the final maintenance time table according to the time counting method. As for the actual time, the time from January 1, 1980 is included in the final maintenance time.

(Step 8-3) The power-on time and the operation time are regularly counted if the apparatus is in the power-on state, and if it is in the operation state, the operation time is counted.

(Step 8-4) When counted, it is checked whether a frequency alarm is generated. The check method will be described in steps 8-5 to 8-8.

(Step 8-5) Since the frequency is managed only in real time, it is checked whether the difference between the final maintenance time and the current time exceeds the warning alarm generation time.

(Step 8-6) If the time difference described in Step 8-5 exceeds the warning alarm generation time, it is next checked whether the caution alarm generation time has been exceeded.

(Step 8-7) If the time difference described in Step 8-5 exceeds the caution alarm generation time, a caution alarm is generated and a "!" Mark 1-12 indicating the caution alarm is displayed on the status line 1-11. Is displayed in red.
Since the status line 1-11 is always displayed on any screen, the alarm can be confirmed regardless of which screen is open.

(Step 8-8) If the warning alarm generation time is exceeded and the caution alarm generation time is not exceeded, a warning alarm is generated. At this time, only when the caution alarm does not occur for all frequencies and maintenance items,
"?" Indicating a warning alarm on the status line 1-11
Is displayed in yellow.

(Step 8-9) Next, the alarm occurrence of the maintenance item is checked.

(Step 8-10) As for the maintenance item, according to the time counting method, it is checked whether the difference between the final maintenance time and the real time, the power-on time or the operation time exceeds the warning alarm generation time.

(Step 8-11) If the time difference described in Step 8-10 exceeds the warning alarm generation time, it is next checked whether the caution alarm generation time has been exceeded.

(Step 8-12) If the time difference described in Step 8-10 exceeds the caution alarm generation time, a caution alarm is generated and a "!" Mark 1-12 indicating the caution alarm is displayed on the status line 1-11. Is displayed in red.

(Step 8-13) If the warning alarm generation time is exceeded and the caution alarm generation time is not exceeded, a warning alarm is generated. At this time, when the caution alarm does not occur for all the frequencies and maintenance items, "?" Indicating the warning alarm is displayed in yellow on the status line 1-11.

(Step 8-14) When an alarm is generated, the maintenance screen shown in FIG. 9 is opened and an item with an alarm is searched for. A yellow color is attached to the frequency button 9-1 when the warning alarm is generated, and a red color is attached when the caution alarm is generated. Also, if at least one of the maintenance items registered in frequency is a caution alarm, red is displayed. If there is no caution alarm and a warning alarm is generated, yellow is displayed. Frequency button 9
Get to -1. Yellow or red frequency button 9-
When 1 is selected, the maintenance items registered in frequency in the maintenance item list 9-2 are displayed as a list. For items that could not be displayed, the scroll bar 9-3 scrolls through the maintenance item list so that all items can be viewed.
The maintenance item list is the maintenance item name 9-4, execution date 9-5,
It is composed of the generated alarm 9-6. Select a maintenance item with an alarm with focus 9-7.

(Step 8-15) When the execute button 9-8 is pressed, the window shown in FIG. 10 opens. The window depends on the maintenance operation. FIG. 9 shows a sample pipetting mechanism 2
-7 and reagent pipetting mechanism 2-10A, 2-10B
It is a screen for maintenance operation that determines the suction position, the discharge position, and the like. Further detailed maintenance operations can be selected with the function buttons 10-1 to 10-5.

(Step 8-16) If the selected maintenance item has a comment input, the comment input unit 10-6
Is displayed. If no comment is input, the comment input section 10-6 is not displayed.

(Step 8-17) When a comment is input, the comment is input to the comment input section 10-6 by the operation panel 2-25.

(Step 8-18) Execution button 10-7
When the maintenance item is executed in, the final maintenance time of the executed maintenance item is updated to the current cumulative time according to the time counting method. At the same time, the execution date is also stored in the storage device 2-24.

(Step 8-19) When the end button 9-9 is pressed, the window shown in FIG. 11 opens. (Step 8-20) If the selected frequency has a comment input, the comment input section 11-1 is displayed. If no comment is input, the comment input section 11
-1 is not displayed.

(Step 8-21) When there is a comment input, the comment is input to the comment input section 11-1 through the operation panel 2-25.

(Step 8-22) Execution button 11-2
When the frequency is executed in, the final maintenance time of the executed frequency is updated.

The steps marked with * in FIG. 8 are performed by the user through the operation panel 2-25.

[0061]

According to the present invention, it is possible to easily perform maintenance management according to the maintenance environment of the user by registering new maintenance items. Also, alarms are output on every screen, so you will immediately notice that the maintenance period has passed.

[Brief description of drawings]

FIG. 1 is an explanatory diagram of a maintenance item registration screen.

FIG. 2 is an explanatory diagram of an automatic analyzer according to an embodiment of the present invention.

FIG. 3 is a flowchart of a maintenance item registration procedure.

FIG. 4 is an explanatory diagram of a frequency registration screen.

FIG. 5 is an explanatory diagram of a time unit selection window.

FIG. 6 is an explanatory diagram of a maintenance operation selection window.

FIG. 7 is an explanatory diagram of a time counting method selection window.

FIG. 8 is a processing flowchart.

FIG. 9 is an explanatory diagram of a maintenance screen.

FIG. 10 is an explanatory diagram of a maintenance operation execution window.

FIG. 11 is an explanatory diagram of a frequency execution window.

[Explanation of symbols]

2-1 ... Reaction disk, 2-2 ... Reaction container, 2-5 ... Sample disk mechanism, 2-6 ... Reagent cup, 2-7 ... Sample pipetting mechanism, 2-8 ... Nozzle, 2-9 ...
Reagent disk, 2-10A, 2-10B ... Reagent pipetting mechanism, 2-11 ... Stirring mechanism, 2-12 ... Multi-wavelength photometer, 2-13 ... Light source, 2-14 ... Washing mechanism, 2-15
... microcomputer, 2-16 ... interface, 2-17 ... logarithmic converter, 2-18 ... A / D converter,
2-19 ... Reagent dispensing mechanism, 2-20 ... Washing pump, 2-
21 ... Sample dispensing mechanism, 2-22 ... Printer, 2-2
3 ... CRT, 2-24 ... storage device, 2-26 ... sample bar code, 2-27A, 2-27B ... reagent bar code reader.

Claims (6)

[Claims] 1. A liquid sample component concentration analysis unit, analysis result display unit, analysis parameter, analysis request, maintenance execution input unit, data analyzed by the analysis unit, and display on the display unit. In the automatic analyzer including: a storage unit that stores screen information and a value input by the input unit; and an analysis unit, a display unit, an input unit, and a control unit that controls the storage unit. An automatic analyzer comprising: means for newly setting a maintenance item according to the content of maintenance management using the input unit. 2. The automatic analyzer according to claim 1, wherein a comment can be input each time maintenance is performed, and the input comment is stored in a storage device. 3. The automatic analyzer according to claim 1, further comprising means for designating a maintenance operation of the automatic analyzer necessary for analysis as a maintenance item. 4. The automatic analyzer according to claim 1, which has a function of generating an alarm after a set time according to a time set for each maintenance item. 5. The automatic analyzer according to claim 4, further comprising means for setting a counting method of time for generating an alarm. 6. The automatic analyzer according to claim 4, which has a function of easily confirming an alarm occurrence from any screen.