JPH1038889A - Automatic analysis device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an automatic analysis device preventing complication of an image plane caused by display of a plurality of windows so as to be able to easily perform regular operation by batch-controlling the image planes of a plurality of analyzers to display them on one image plane in the automatic analysis device with a plurality of analyzers connected to a control device. SOLUTION: In an automatic analysis device, a plurality of analyzers 10a, 10b are connected to a control device 1 by communication means 2, 3, and the control device 1 is provided with a display device 20a for performing operation of the analyzers 10a, 10b. The display device 20a can display the operation image plane of the analyzers 10a, 10b as a virtual terminal and displays the operation image plane of each analyzer on one window in array as to the intrinsic image planes of the analyzers 10a, 10b.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to an automatic analyzer used in the medical field, and more particularly, to an automatic analyzer in which a control device and a plurality of analyzers are connected by communication means.

[0002]

2. Description of the Related Art An automatic analyzer comprises an analyzer for analyzing a sample, a data processor for processing data relating to individual patients, and a controller for controlling the analyzer. The analyzer dispenses reagents to the sample. The data processing unit performs processing, tabulation, setting of items, etc. of the patient data, and the control unit controls the operation of the analysis unit and the data processing unit.

Japanese Patent Application Laid-Open No. 4-128657 discloses an example in which a plurality of analysis units are connected to a control unit or a data processing unit. The control device has an operation screen display program for each analyzer, and when displaying on the display device, the operation screen display program is used individually.

As another example, there is a case where a virtual terminal is used as a method of displaying operation screens of a plurality of connected analysis units on one display device. The virtual terminal is to display a plurality of screens that need to be displayed on one display device in a world of information processing using a window frame.

[0005]

However, in the prior art (Japanese Patent Laid-Open No. 4-128657), since there is a screen unique to the analyzer, it is necessary to individually hold a display program for each analyzer. When the number of analyzers is increased, there is a problem that it is necessary to perform a modification to add an operation screen display program unique to the analyzer added to the control device.

[0006] Further, since a plurality of operation screens can be displayed on the virtual terminal, if a large number of operation screens are displayed as windows, a required window is located behind other windows, which immediately causes the operation. Since it cannot be found out, an operation of switching windows is required, and there is a problem that work efficiency is reduced in routine work such as maintenance work of the apparatus.

An object of the present invention is to collectively manage the screens of a plurality of analysis units and display them on one display unit, prevent the screen from being complicated by a plurality of windows, and reduce the work efficiency in routine work. An object of the present invention is to provide an automatic analyzer capable of preventing the automatic analyzer.

[0008]

To achieve the above object, the present invention provides a display device capable of realizing a virtual terminal and a communication means capable of transmitting a display command from an analyzer. . In addition, in displaying an apparatus maintenance screen that requires a unique operation screen for each apparatus on the display device, the operation screens of the analyzers connected to the control unit are arranged and displayed on one window.

According to the above configuration, when the analyzer is added to the automatic analyzer, the display command from the analyzer can be interpreted and the operation screen of each analyzer can be configured and displayed on the display device. In addition, the control device does not need to hold a display program for an operation screen unique to each analyzer, and it is not necessary to remodel an additional display program to the control device by adding an analyzer.

[0010] When performing device maintenance, a device maintenance screen for a plurality of analysis units connected to the control unit is displayed in one window. In addition to being able to manage and operate, there is no need to perform an operation of searching for a screen required for the operation.

[0011]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram of an embodiment of the automatic analyzer according to the present invention.

FIG. 1 shows a configuration in which the analyzers 10a and 10b are connected to the controller 1 for simplicity, but the controller 1 may be connected to analyzers 10c, 10d,. . At this time, also in 10b and 10c,
The basic internal configuration is the same as that of the automatic analyzer 10a, and the details are omitted.

However, in the analyzers 10a, 10b,..., The analysis method and the object to be analyzed may be different, and the detailed configuration of the analyzers may be different.

A control unit 1 controls the automatic analyzer. The display device 20a is connected to the control device 1. The display device 20a can operate as a virtual terminal.

The analyzer 10a is connected to the control device 1 by a communication line 2. The analyzer 10a is driven by a command from the control device 1. The command from the control device 1 is when a user instructs execution of a command to the analyzer 10a from an operation screen displayed on the display device 20a. It is.

The communication line 2 uses, for example, communication means using a local area network (LAN).
You may comprise using other communication means, such as S-232C.

Although the analyzer 10b is connected to the control device 1 by a communication line 3, the communication line 3 may be the same as or different from the communication line 2.

The display device 20a needs to display the operation screens of the two analyzers, the analyzer 10a and the analyzer 10b.
At this time, a common screen is used as an operation screen of the two analyzers, such as a list / aggregation screen of measurement data that does not require display unique to the analyzer. However, a device maintenance screen having different operation items according to the detailed configuration inside the analyzer does not use a common screen, but divides the window frame 21a of the display device 10a into two, and performs device maintenance screens for the analyzers 10a and 10b, respectively. Is displayed.

The operation screen of the analyzer 10a is displayed on the display device 20a.
Is displayed via the communication line 2 from the analyzer 10a to the display device 20a. At this time, the control device issues an instruction to the display device to display a window frame that can be used for all screens,
The display items and display positions specified by the display command from the analyzer 10a are not involved, and are used only for controlling whether there is an abnormal specification that cannot be displayed on the display device 20a by the display command.

The display device 20a displays a window frame 21a. When the analyzer maintenance screen, which is a screen unique to the analyzer, is displayed, the display device 20a displays the operation screen of the analyzer 10a in the display area 22a, and the display area 23a includes the operation screen of the analyzer 10b. One operation screen is displayed.

Display area 22a and display area 2 to be displayed
The screen configuration of 3a is based on the instruction of the display command sent from each analyzer. When the display command from the analyzer 10a instructs to display the “photometer check button”, the altimeter is displayed in the display area. Check button 10a
(1) is displayed.

Since the photometer check button 10a (1) is associated with a control command for executing a photometer check on the analyzer 10a, the user selects the photometer check button 10a (1) on the display device. Then, a photometer check execution command is issued to the analyzer 10a, and maintenance is performed.

Similarly, a display command for displaying the "electromotive force check button" is sent from the analyzer 10b to the display device 20a via the communication line 3. Then, the display device 20
a receives an instruction, an electromotive force check button 10b (1) is displayed in the display area 23b, and when the user selects the electromotive force check button 10b (1), the analyzer 10b
Execute the maintenance of the electromotive force check.

If the analyzer 10c is added to the control device 1, the display area is displayed by dividing the window frame 21a into three, and the items designated by the display command from the analyzer 10c are displayed. Next, when a fourth analyzer is connected, the window frame is divided into four parts, and so on. In each case, one window frame is divided and all the windows connected to the control device 1 are divided. Display the analyzer on one screen.

[0025]

According to the present invention, since the operation screen is constructed and displayed on the display device by the display command sent from the analyzer, it is not necessary to hold the screen display program for each analyzer in the control device. Since the modification does not require the modification of the screen display even when the system is added, the work of adding the analyzer due to the system scale expansion can be reduced.

When screens unique to a plurality of analyzers are displayed on a display device, a plurality of screens can be arranged and displayed in one window. Therefore, a plurality of analyzers are connected to the control device. Also, when performing routine tasks using screens unique to each analysis unit in an automatic analyzer using virtual terminals, display complexity and complexity by displaying operation screens corresponding to multiple analyzers An automatic analyzer capable of preventing a decrease in work efficiency due to the above can be provided.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Control device, 2, 3 ... Communication line, 10a, 10b ... Analyzer, 10a (1) ... Photometer check button, 10b
(1) ... electromotive force check button, 20a ... display device, 2
1a: window frame, 22a, 23a: display area.

Claims (1)

[Claims] 1. An automatic analyzer having a plurality of analyzers, a control device connected to the analyzers via a communication line, and a display device connected to the control device, wherein the plurality of analyzers display on the display device. An automatic analyzer that sends display commands to be displayed and displays display items corresponding to the display commands in an array on one window of the display device.