JP2011248489A - Multiple windows display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a multiple windows display device for placing multiple windows on predetermined specific areas so that the windows do not overlap, when displaying the windows each of which is associated with each of multiple application software, on a display.SOLUTION: A multiple windows display device which displays each of windows associated with multiple application software on a display features a window display position control means to place each of the windows associated with the multiple application software on predetermined specific display area so that the windows do not overlap.

Description

  The present invention relates to a multi-window display device, and more particularly to a multi-window display device capable of operating a more advanced process control system.

  Conventionally, as described in, for example, Patent Document 1, it has been proposed to integrate a computerized electronic business system and an electronic manufacturing system.

  FIG. 3 is a block diagram showing a conventional technical example for integrating the computerized business system disclosed in Patent Document 1 with the computerized manufacturing system. In the system of FIG. 3, the business function is digitized using the digitized business system 100. The electronic business system 100 is constructed as an electronic system that processes and executes functions including order scheduling, inventory tracking, quality control, and the like.

  The representative electronic business system 100 can execute functions such as order scheduling of each product based on the received customer order, compiling information regarding the product inventory and raw material inventory, and other information. Inventory tracking is performed based on communications about consumed materials (or materials intended for production) and manufactured products. Inventory tracking is executed based on reports on products shipped from the shipping department and materials arriving at the receiving department.

  The electronic manufacturing system 200 includes an optional process information system 201 (hereinafter referred to as process information system 201) and a real-time process control system 202 (hereinafter referred to as process control system 202). The process information system 201 assists the operator's work for monitoring the manufacturing process and operating operations. The process information system 201 functions as an interface to at least one process control system 202, and a part of the function hierarchy of the process information system 201 functions as a standard interface to the multiple process control system 202.

  The electronic business system 100 and the electronic manufacturing system 200 are coupled via a human interface 300.

  The human interface 300 receives a work order of a product from the electronic business system 100, for example. This work order is combined with a scheduling request (eg delivery time). Therefore, the operator operates the human interface 300 and transmits this work order information to the electronic manufacturing system 200.

  On the other hand, the human interface 300 retrieves manufacturing data, for example, indirectly from the process information system 201 or directly from the process control system 202 as an interface for manufacturing equipment such as reactors and extruders. The operator operates the human interface 300 to input these data into the updated inventory information in the electronic business system 100.

  FIG. 4 is a block diagram showing an example of a multi-window display device in a conventional human interface 300. As shown in FIG. In FIG. 4, a liquid crystal monitor 320 is connected to the personal computer 310. A plurality of application software 312 a to 312 d are installed in the auxiliary storage device 311 in the personal computer 310.

  The operator activates these application software 312a to 312d as necessary, and displays windows 321a to 321d corresponding to the application software 312a to 312d side by side on the display screen of the liquid crystal monitor 320.

  At this time, the operator needs to manually move the individual windows and appropriately change the sizes of the individual windows 321a to 321d so that the windows 321a to 321d do not overlap each other.

JP-T 9-503325

  However, according to the configuration of FIG. 4, the operator activates the application software 312 a to 312 d and then displays the windows 321 a to 321 d corresponding to the application software 312 a to 312 d side by side on the display screen of the liquid crystal monitor 320. The positions and sizes of the individual windows 321a to 321d must be adjusted, and these adjustment steps are required.

  In addition, the manufacturing process that is continuously operated and the operation operation are performed by a shift operator, but the position and size of the windows 321a to 321d on the display screen of the liquid crystal monitor 320 change each time the operator changes. In some cases, important display contents may be overlooked.

  The present invention pays attention to such conventional problems, and its purpose is to display predetermined windows set in advance so as not to overlap each other when displaying windows corresponding to a plurality of application software on the display screen. The object is to provide a multi-window display device arranged in a display area.

The invention of claim 1 which achieves such a problem,
In a multi-window display device configured to display each window corresponding to a plurality of application software on a display screen,
Window screen position control means for arranging windows corresponding to the plurality of application softwares in a predetermined display area set in advance so as not to overlap each other is provided.

The invention of claim 2 is the multi-window display device according to claim 1,
The plurality of application software includes at least two of maintenance management, production management, quality management, and work procedure manual of a process control system.

The invention of claim 3 is the multi-window display device according to claim 1 or 2,
A specific screen of the windows corresponding to the plurality of application software is displayed larger than the other screens.

  As a result, windows corresponding to a plurality of application software are arranged and displayed in a predetermined display area without overlapping each other, so that the visibility of the operator can be improved, and a multi-window display device suitable for operation of an advanced process control system Can be realized.

It is a block diagram which shows one Example of this invention. It is a display screen example figure which shows the other Example of this invention. It is a block diagram which shows the prior art example. It is a block diagram which shows an example of the multi-window display apparatus in the conventional human interface 300. FIG.

  Hereinafter, the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing an embodiment of a multi-window display device according to the present invention. In FIG. 1, a liquid crystal monitor 340 is connected to the personal computer 330.

A plurality of application software 332a to 332d related to the process control system is installed in the auxiliary storage device 331 in the personal computer 330. For example,
Application software 332a: Maintenance management software Application software 332b: Production management software Application software 332c: Quality management software Application software 332d: Work procedure manual.

  The auxiliary storage device 331 in the personal computer 330 is set in advance so as not to overlap each other when the windows 341a to 341d corresponding to the plurality of application softwares 332a to 332d are displayed side by side on the display screen of the liquid crystal monitor 340. Application software 333 as window screen position control means arranged in a predetermined display area is also installed.

The application software 333 assigns ID numbers to the windows 341a to 341d corresponding to the plurality of application softwares 332a to 332d, and specifically designates a display area on the display screen of the liquid crystal monitor 340. It is configured as a table like this.
Application software window ID display area Maintenance management software window 341a 1 Upper left Production management software window 341b 2 Upper right Quality management software window 341c 3 Lower left Work procedure window 341d 4 Lower right

  When the plurality of application softwares 332a to 332d are activated, the windows 341a to 341d corresponding to the application softwares 332a to 332d display on the liquid crystal monitor 340 in accordance with the table setting of the application software 333 serving as window screen position control means. Arranged and displayed in a predetermined display area on the screen so as not to overlap each other.

  That is, in the embodiment of FIG. 1, the window 341a corresponding to the maintenance management software 332a in the process control system is displayed at the upper left, the window 341b corresponding to the production management software 332b is displayed at the upper right, and corresponds to the quality management software 332c. The window 341c is displayed at the lower left, and the window 341d corresponding to the work procedure manual 332d is displayed at the lower right.

  In the above embodiment, an example is shown in which the windows 341a to 341d corresponding to the four types of application software 332a to 332d are displayed on the display screen of the liquid crystal monitor 340 as four equal screens. The number of types may be increased or decreased, and the size of the divided screen may be divided and displayed, for example, in a specific application software window designated as shown in FIG.

  In FIG. 2, (A) displays a window 341a corresponding to the maintenance management software 332a in a horizontally large size in the upper area of the display screen of the liquid crystal monitor 320 and corresponds to the production management software 332b, the quality management software 332c, and the work procedure manual 332d. 2B shows an example in which the displayed windows 341b to 341d are divided into three in the horizontal direction of the lower area, and FIG. 5B shows a production management by displaying a window 341a corresponding to the maintenance management software 332a in the right area of the display screen of the LCD monitor 340 An example is shown in which windows 341b to 341d corresponding to software 332b, quality management software 332c, and work procedure manual 332d are displayed in three portions in the vertical direction of the left area.

  As a result, the window of attention screen (for example, maintenance management software) can be displayed with greater emphasis than the windows of other screens (for example, production management software, quality management software, and work procedure manuals), and operator monitoring can be performed efficiently. it can.

  As described above, according to the present invention, when windows corresponding to a plurality of application software are displayed on the display screen, they can be arranged in a predetermined display area that is set in advance so as not to overlap each other. The multi-window display device suitable for the operation of an advanced process control system can be realized.

300 Human Interface 330 Personal Computer 331 Auxiliary Storage Device 332 Application Software 333 Window Screen Position Control Application Software 340 LCD Monitor 341 Window

Claims (3)

In a multi-window display device configured to display each window corresponding to a plurality of application software on a display screen,
A multi-window display device comprising window screen position control means for arranging windows corresponding to the plurality of application software in a predetermined display area set in advance so as not to overlap each other.   The multi-window display device according to claim 1, wherein the plurality of application software includes at least two of maintenance management, production management, quality management, and work procedure manual of a process control system.   3. The multi-window display device according to claim 1, wherein a specific screen among the windows corresponding to the plurality of application software is displayed larger than the other screens.

Images