JPH08129473A - Picture selecting device for process monitor - Google Patents

Abstract

PURPOSE: To select and display the picture of an arbitrary hierarchical level only with touch to a picture being displayed with respect to many monitor pictures systematized to have a hierarchical structure. CONSTITUTION: A display device 11, an input device 13 like a touch screen or a write pen with which the picture on the display device 11 is touched to input the information for selection of the next display picture, and a contact signal input means 15 which inputs the contact signal group from the input device 13 are provided. Further, a picture selecting means 17 which discriminates the display item on the touched picture and the hierarchical level on the hierarchical structure of the monitor picture to be selected based on hierarchical level designating information such as position coordinate data of touch and the duration of touch in the contact signal group inputted by the contact signal input means is and selects the pertinent monitor picture and a display means 19 which outputs the monitor picture selected by the picture selecting means 17 to the display device 11 are provided.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a process monitoring screen selection device for selecting a desired screen from a number of screens constructed in a hierarchical structure and displaying it on a display device in a monitoring system for monitoring a plant process.

[0002]

2. Description of the Related Art Conventionally, CR is used for plant process monitoring.
Display devices such as a T display, an LED display device, a plasma display, and a liquid crystal display device are often used, and there are many plants that display a large number of screens showing the process state on the display device for monitoring.

For process monitoring by a display device, it is necessary to switch and display a large number of screens on one display device, and as a means for selecting a screen to be displayed, pressing a key switch arranged in a matrix is the earliest. Can be mentioned as a method of. Furthermore, with the development of computer peripheral devices, it is possible to enter the position on the screen with a touch screen, light pen, etc., and touch the figure displayed on the screen with your fingertip or light pen to display the next display screen. The method of choice has come to be used.

In recent years, position input devices such as a tablet, a tracker ball, and a mouse have been used in the field of computer technology, and these position input devices have come to be used in many computer software applications. These position input devices display a cursor indicating the position on the screen, input the position movement signal or absolute position from the position input device to move the cursor on the screen, and press the button etc. to input the position selection. It is possible to input accurate position coordinates on the screen and select a plurality of positions in a short time, which is effective as a man-machine interface for software applications.

However, a position input device using a cursor such as a tablet, a tracker ball, or a mouse is rarely used for selecting a monitoring screen of a process plant, but a screen such as a touch screen or a light pen is used. Many devices are used to input a position by directly touching the above figure. Unlike a computer application user, it is difficult to familiarize yourself with a position input device using a cursor when monitoring a process plant, and one selection operation is a device that inputs a position by directly touching a figure. The reason for this is that it is superior in terms of choice.

In addition, reliability is an important selection factor for a device used in a process plant, so that a communication line such as a mouse or a tablet must be installed on the surface of an operation console, or a position is input. It is difficult to install an input device such as a tablet, tracker ball, or mouse that has many moving parts in its mechanism.

[0007]

To select a monitoring screen of a process plant, a method of directly touching a figure displayed on the screen to input a position and then selecting the next display screen is mainly used. However, compared to devices that move the cursor without touching the screen to input the position, these methods make it difficult to input accurate position coordinates on the screen and input multiple positions in a short time. Is. For this reason, when selecting the screen to be displayed next through multi-step menu selection from the display patterns that are often used in recent software application technology, you can directly touch the figures displayed on the screen to change the position. The method of inputting increases the labor of operation,
Since it is not possible to select screens quickly, it is not suitable for selecting monitoring screens of a process plant.

However, the lamps, meters, etc. that are directly driven by hardware tend to be replaced by software-driven monitoring screens, and the number of screens that can be displayed on the display device will increase as computer utilization technology advances. Increasingly, effective means for selecting their display screens are needed.

[0009] A large number of screens are hierarchized according to the range of the process of the plant to be monitored, the degree of information aggregation, etc., and the screen to be displayed next from the currently displayed screen is arranged in accordance with the hierarchy system. The method of selection is an effective method in that it is suitable for organizing information and changing the focus of human attention, and has already been adopted.

However, when the desired information is displayed, it may be necessary to sequentially select the hierarchical system of the screens, and the screens may be displayed one after another, and unnecessary screens in the middle may also be displayed. Occur.

If a position input device using a cursor is used,
It is possible to select the position of a detailed figure, and by combining multiple selections of menus, it is possible to quickly display the screen you want to display without tracing the hierarchy sequentially from the hierarchical systemized screen. It is difficult to make such a selection by the method of directly inputting the position by directly touching the figure, and it is not possible to accurately and quickly make multi-stage selection of the menu.

In order to solve the above problems, the present invention provides
By instructing the selection information by directly touching the graphic display area on the screen such as a highly reliable and quick touch screen or light pen from a number of hierarchically structured process monitoring screens, the hierarchy can be changed. It is an object of the present invention to provide a process monitoring screen selection device capable of promptly displaying a screen to be displayed without sequentially tracing it.

[0013]

That is, the invention of claim 1 is a process monitoring screen selection device for selecting and displaying an arbitrary process monitoring screen systematized in a hierarchical structure based on an operator's request. In, a display device that displays a process monitoring screen, an input device that detects a touch on the screen of the display device, and generates a contact signal group that indicates the position of the touch point on the screen, and an input device from the input device. Based on the contact signal group of, the display item on the touched screen is determined and the contact duration is calculated, and the hierarchical level in the hierarchical structure designated by this contact duration is preset level specification rule. Screen selection means for selecting a process monitoring screen to be displayed from the determined display item and hierarchy level, and the screen selection means. Characterized by comprising a display means for outputting a process monitoring screen on the display device.

Further, the invention of claim 2 is a process monitoring screen selecting device for selecting and displaying an arbitrary process monitoring screen organized in a hierarchical structure based on a request from an operator. A display device for displaying
An input device that detects a touch on the screen of this display device and generates a touch signal group indicating the position of the touch point on the screen,
Based on the touch signal group from this input device, the displayed item on the touched screen is determined, the moving distance of the touch point is calculated, and the hierarchical level in the hierarchical structure designated by the moving distance of the touch point is calculated. A screen selection unit for selecting a process monitoring screen to be displayed from the determined display item and hierarchy level according to a preset level designation rule, and a process monitoring screen selected by this screen selection unit And a display unit for outputting to the device.

Further, the invention of claim 3 is a process monitoring screen selecting device for selecting and displaying an arbitrary process monitoring screen organized in a hierarchical structure based on an operator's request. A display device for displaying
An input device that detects a touch on the screen of this display device and generates a touch signal group indicating the position of the touch point on the screen,
Based on the touch signal group from this input device, the touched display items on the screen are determined and the number of touches within a certain period of time is calculated, and the hierarchical level in the hierarchical structure designated by this touch count is preset. Screen selecting means for selecting the process monitoring screen to be displayed from the determined display item and hierarchy level, and the process monitoring screen selected by the screen selecting means on the display device. And a display unit for outputting.

According to a fourth aspect of the present invention, there is provided a process monitoring screen selecting device for selecting and displaying an arbitrary process monitoring screen organized in a hierarchical structure based on an operator's request. A display device for displaying
An input device that detects a touch on the screen of this display device and generates a touch signal group indicating the position of the touch point on the screen,
Based on the touch signal group from this input device, the display item on the touched screen is determined and the area of the figure formed by the position coordinates of a plurality of touch points is calculated, and the hierarchical structure designated by this area is calculated. Screen selection means for determining an upper hierarchy level according to a preset level designation rule and selecting a process monitoring screen to be displayed from the determined display item and hierarchy level, and process monitoring selected by this screen selection means And a display unit for outputting a display screen to a display device.

According to a fifth aspect of the present invention, there is provided a process monitoring screen selecting device for selecting and displaying an arbitrary process monitoring screen organized in a hierarchical structure based on an operator's request. A display device for displaying
An input device that detects contact on the screen of this display device and generates a contact signal group indicating the position of the contact point on the screen and the contact pressure, and the contact pressure based on the contact signal group from this input device. According to a level designation rule for designating a hierarchy level in the hierarchical structure, a screen selection means for determining a display item and a specified hierarchy level on the touched screen and selecting a process monitoring screen to be displayed, and this screen. Display means for outputting the process monitoring screen selected by the selecting means to a display device.

According to a sixth aspect of the present invention, in the process monitoring screen selecting device having the above structure, the screen selecting means displays the process monitoring to be displayed according to a level designation rule designating an absolute hierarchical level in the hierarchical structure. It is characterized by selecting a screen for use.

According to a seventh aspect of the present invention, in the process monitoring screen selecting device having the above-mentioned configuration, the screen selecting means specifies a hierarchical level relative to a hierarchical level in the hierarchical structure of the currently displayed screen. It is characterized in that the process monitoring screen to be displayed is selected according to the level designation rule.

Further, the invention of claim 8 is a process monitoring screen selecting device for selecting and displaying an arbitrary process monitoring screen organized in a hierarchical structure based on an operator's request. A display device for displaying
An input device that detects a touch on the screen of this display device and generates a touch signal group indicating the position of the touch point on the screen,
Based on the touch signal group from this input device, the display item on the touched screen and the hierarchical level in the hierarchical structure of the screen to be selected are determined, and the corresponding process monitoring screen is selected from this display item and the hierarchical level. It is characterized by further comprising a screen selecting means for selecting and a display means for outputting the process monitoring screen selected by the screen selecting means to a display device.

[0021]

In the structure of the invention of claim 1, when the operator wants to switch the display from the monitor screen displayed on the display device to another monitor screen, the operator displays the screen related to the screen currently displayed. Select an item and directly touch it through an input device such as a touch screen or a light pen, and keep touching it for a time set in advance in the level designation rule corresponding to the hierarchical level of the screen to be displayed. While the operator is touching, the input device periodically generates contact data including positional information on the screen of the contact point. The screen selection means calculates a contact position and a contact duration based on a contact signal group composed of the contact data, determines a display item touched and a hierarchical level designated by the contact duration, and displays a monitoring screen to be displayed. Is output to the display device via the display means.

In the configuration of the invention of claim 2, the operator touches a display item related to the screen to be displayed on the screen which is currently being displayed, and the operator preliminarily sets the level corresponding to the hierarchical level of the screen to be displayed. Move the contact point by the distance set in the specified rule. Meanwhile, the input device periodically generates contact data including position information on the screen of the contact point. The screen selection means calculates a contact position and a contact movement distance based on a contact signal group including the contact data, determines a display item touched and a hierarchical level designated by the contact movement distance, and displays a monitoring screen. Is output to the display device via the display means.

In the configuration of the invention of claim 3, the operator touches a display item related to the screen to be displayed on the currently displayed screen, and the operator preliminarily sets the level corresponding to the hierarchical level of the screen to be displayed. Touch for the number of contacts set in the specified rule within a predetermined time. The input device generates contact data including position information on the screen of the contact point according to the number of contacts. The screen selection means calculates the contact position and the number of contacts based on the contact signal group composed of the contact data, determines the display item touched and the hierarchical level designated by the number of contacts, and selects the monitoring screen to be displayed. And output to the display device via the display means.

In the configuration of the invention of claim 4, the operator touches a display item related to the screen to be displayed on the currently displayed screen, and the operator preliminarily sets the level corresponding to the hierarchical level of the screen to be displayed. Drawing is performed at the contact points so that the area of the predetermined figure set in the designated rule is reached. Meanwhile, the input device periodically generates contact data including position information on the screen of the contact point. The screen selection means
The area of the predetermined figure defined by the drawing of the contact position and the contact point is calculated based on the contact signal group consisting of the contact data, and the hierarchical level designated by the touched display item and the area of the predetermined figure is determined, The monitor screen to be displayed is selected and output to the display device via the display means.

According to the fifth aspect of the present invention, the operator touches a display item associated with the screen to be displayed on the screen currently displayed, and at the same time, the operator sets a level corresponding to the hierarchical level of the screen to be displayed in advance. Press with the pressure set in the specified rule. The input device periodically generates contact data including position information on the screen of the contact point and contact pressure information. The screen selection means calculates a contact position and a contact pressure based on a contact signal group including the contact data, determines a display item touched and a hierarchical level designated by the contact pressure, and selects a monitor screen to be displayed. And output to the display device via the display means.

As described above, with respect to the process monitoring screen having the hierarchical screen system, the desired monitoring screen can be easily selected by one operation by directly touching the currently displayed screen, and the efficiency of screen selection can be improved. It is possible to speed up process operation.

[0027]

Embodiments of the present invention will be described below with reference to the drawings. In the embodiments described below, a case where an alarm monitoring screen having a hierarchical system is selected will be described as an example.

FIG. 1 shows the configuration of a first embodiment of a process monitoring screen selection device of the present invention, which is a display device 11 such as a CRT display, an LED display device, a plasma display, a liquid crystal display device, and a display. An input device 13 such as a touch screen or a light pen for inputting information for touching the screen of the device 11 to select the next display screen, and a contact signal input means 15 for inputting a contact signal group from the input device 13. Based on the touch signal group input by the touch signal input means 15, the display item on the touched screen and the hierarchical level in the hierarchical structure of the monitor screen to be selected are determined, and a large number are systematized in the hierarchical structure. A screen selecting means 17 for selecting a corresponding monitor screen from the monitor screens, and a display for outputting the monitor screen selected by the screen selecting means 17 to the display device 11. Constituted by the stage 19.

FIG. 2 shows an example of a hierarchical structure of screens that are hierarchically organized. Reference numeral 21 is a set of screens of the highest hierarchy level 1 and 23 is a hierarchy level lower than the hierarchy level 1. 2 shows a set of screens, and 25 shows a set of screens of a hierarchy level 3 which is lower than the hierarchy level 2, and the connection relation between the hierarchies is shown by a bidirectional arrow.

Next, the operation of this embodiment will be described with reference to the flow chart shown in FIG.

A screen A for process monitoring is displayed on the display device 11 (step 100). To display the screen C of the hierarchy level k from this screen A, the operator continuously touches the display item related to the screen C with the element of the screen A through the input device 13 for the time corresponding to the level k. .

While the operator is touching the screen, a contact signal group indicating the position on the screen touched by the input device 13 is input to the contact signal input means 15 (step 10).
1).

The screen selection means 17 is the touch signal input means 1
By determining a single coordinate on the screen from the position coordinate group of the touch signal group input in step 5 (step 102) and identifying the display item on the screen A including this single coordinate, the branch of the hierarchical structure, that is, A screen lower than the screen A is selected (step 103). Then, the contact time from the contact signal group to the screen is determined (step 104), and the hierarchical level of the hierarchical structure is selected based on the preset rule for specifying the hierarchical level based on the contact time (step 105). The display screen G is determined (step 106).

The display means 19 displays the screen G selected by the screen selection means 17 on the display device 11 (step 107).

Further, the present embodiment will be described in more detail by taking an alarm monitoring screen in a boiling water nuclear power plant as an example of a screen organized in a hierarchical structure.

As shown in FIG. 4, the hierarchical structure of the alarm monitoring screen in the boiling water nuclear power plant is as follows: hierarchy level 1 is a plant alarm whole display screen 31 as illustrated in FIG. 5 and hierarchy level 2 is FIG. System alarm display screen group such as water supply system alarm display screen 33 as illustrated in FIG.
7 has an individual alarm information screen group such as the RFP-T A / B trip alarm screen 35 illustrated in FIG. 7, and the connection relation between layers is defined.

The entire plant alarm display screen 31 shown in FIG.
Then, a square box (display item) corresponding to the system in which the alarm is issued is highlighted. Further, in a system alarm display screen such as the water supply system alarm display screen 33 shown in FIG.
The square box (display item) of the alarm that is being generated is highlighted.

Here, the apparatus configuration shown in FIG. 8 will be described. That is, the display device 11 has a CRT display device 11a,
The touch screen device 13a is used as the input device 13, and the contact signal input unit 15, the screen selection unit 17, and the display unit 19 are implemented by the process computer 41.

In this structure, a signal is input from the touch screen device 13a to the process computer 41, and the signal from the process computer 41 causes the CRT display device 11a to display a process monitoring screen. The sheet of the touch screen device 13a is installed on the screen surface of the CRT display device 11a so that the operator can know the correspondence between the position on the screen and the touch position.

The contact signal input means 15 inputs a contact signal group by the operator's continuous touch from the touch screen device 13a and sends it to the screen selection means 17.

The screen selection means 17 is the touch signal input means 1
The touch signal group passed from the terminal 5 is input, the duration of touch is identified, and the hierarchical level of the screen requested by this duration is determined. To this end, for example, hierarchy level 1
Is a contact time of more than 0 seconds and less than 0.5 seconds, hierarchy level 2 is a contact time of 0.5 seconds or more and less than 1 second, and hierarchy level 3 is a contact time of 1 second or more. Rules are preset.

Generally, the longer the contact time, the more detailed information,
That is, it is generally easier to accept the setting that means a lower screen in the screen hierarchy. In this example, since there are three screen layers, it is considered appropriate to assign these three layers to a momentary touch, a breathing touch, and a touch longer than that.

9-11, the operation in the case of selecting the screen of the hierarchy level 3 connected to the water supply system alarm display screen 33 of the hierarchy level 2 from the entire alarm display screen 31 of the hierarchy level 1 plant. Will be described with reference to. Note that FIG.
Shows the main screen selection operation of this embodiment, FIG. 10 shows the operation related to the generation of the touch signal group of the touch screen device 13a, and FIG. 11 shows the operation related to the input of the touch signal group of the touch signal input means 15. ing.

It is assumed that an abnormality occurs in the plant and an alarm is issued. It is assumed that the alarm that occurred first was "RFP-T A trip." Generally, the number of alarms generated when an abnormality occurs in a plant is not limited to one, but is often plural. Therefore, in this example as well, it is assumed that, in addition to the "RFP-T A trip", multiple alarms were generated later in the water supply system alarm.

The screen selecting means 17 stores the time and order of occurrence of the alarm that has occurred (step 200 in FIG. 9).

At this time, as the screen A, the entire plant alarm display screen 31 as shown in FIG. 5 is being displayed, and the area of the "water supply system" display item in this screen is touched for 2 seconds. I shall.

When the surface of the touch screen device 13a is touched, as shown in FIG. 10, the touch screen device 13a transmits contact data including the type of contact and the coordinates of the touched position to the process computer 41 (steps 300 to 302). ). If the touch continues, the contact type is set to "contact hold" in 0.05 second cycles and the contact position coordinates are continuously transmitted (steps 303-304-301-30).
2). The types of contact are: 1: contact start, 2: contact hold,
3: It is assumed that there are three types of contact end, and in the case of contact for less than 0.1 seconds, two sets of contact data, contact start and contact end, are continuously transmitted (steps 300 to 306). The contact position coordinates have the origin in the upper left corner of the screen, the X coordinate in the right direction and the Y coordinate in the downward direction, and the unit is mm. The set of contact data to be transmitted will be expressed in the form of (contact type, X coordinate, Y coordinate).

On the process computer 41 side, as shown in FIG. 11, the touch signal input means 15 inputs the contact data which the touch screen device 13a periodically outputs at step 302 (FIG. 10) (step 40).
1) and sequentially store (step 402). When the touch-end touch data output from the touch screen device 13a in step 306 (FIG. 10) is input, the touch data is output to the screen selection unit 17 as a touch signal group in addition to all the stored touch data (step 403).

The screen selection means 17 inputs a contact signal group from the contact data of the type "contact" to the contact data of "end" from the touch screen device 13a via the contact signal input means 15 (step 201). ), The number of contact data is counted (step 202) and used for screen selection.

When a touch of 2 seconds is made on the display item area of "water supply system", for example, first (1,30,80), then (2,30,80) contact data 39 sets, Finally, the signal group of (3,30,80) is transmitted from the touch screen device 13a to the process computer 4
1 is transmitted. .

The screen selecting means 17 calculates the barycentric coordinates of these signal groups (step 203). If the number of contact data of the signal group is n, the X coordinate of the i-th contact data and the Y coordinate data are Xi and Yi (i = 1, 2, ... N),
Barycentric coordinates (Xc, Yc) = ((X1, Y1) + (X2, Y
2) + ... + (Xn, Yn)) / n. In this example, the contact data are all the same coordinates, so the barycentric coordinates (Xc, Y
c) is (30,80).

Next, the area of each display item on the display screen A is compared with the barycentric coordinates, and the touched area is "water supply system".
It is determined to be the area (step 204). In addition,
The area of `` water supply system '' is (10,60), (10,90), (50,90), (50,6)
It is assumed that the area is a rectangular area surrounded by four points (0), and the “water supply system” of the screen element includes a water supply system alarm display screen 33 illustrated in FIG.
Are associated with. When selecting the screen to be displayed, the screen selection means 17 stores the water supply system alarm display screen 33 obtained from the contact position coordinates as a branch of the hierarchy (step 205).

Further, the screen selection means 17 calculates the contact time from the number of contact data included in the contact signal group (step 206). In this embodiment, since the contact data is generated in a cycle of 0.05 seconds, 41 sets of contact data are included in this example, so that 0.05 × (41-1) = 2, 2 seconds or more 2.
It is calculated that the touch was less than 05 seconds. It is determined that the screen to be displayed is the screen of the hierarchy level 3 because the touch for 1 second or longer is determined to be the screen of the hierarchy level 3 (step 207).

When the screen selecting means 17 determines that the plant alarm whole display screen 31 currently being displayed is the hierarchical level 1 and the designated screen is a lower screen than the current screen (step 208), it is touched. Since the water supply system alarm display screen 33 corresponding to the designated "water supply system" screen element is the hierarchy level 2 and the screen of the designated hierarchy level 3 has not yet been reached, the water supply system alarm display screen 33
Search for all lower-level screens of the above, and refer to the memory of the alarm occurrence order to refer to the first screen "RFP-T A
/ B trip warning "(steps 209, 21
0).

The display means 19 displays the screen name selected in this way.
Is notified and a display request is made (step 211).

The display means 19 displays the notified screen name "RFP
The RFP-T A / B trip warning screen 35 corresponding to "-TA / B trip warning" is displayed on the CRT display device 11a as shown in FIG.
To be displayed.

As is apparent from the above description, according to the present embodiment, a desired screen is selected from the monitor screen group organized in a hierarchical structure according to the touch position and the touch duration of the monitor screen being displayed. Can be displayed with a single operation.

Next, a second embodiment of the process monitoring screen selection device of the present invention will be described. It should be noted that all the embodiments shown below have the device configuration shown in FIG. 8, and the above alarm monitoring screen will be described as an example.

In the configuration of the second embodiment, the screen selection means 17 inputs a contact signal group, which is a collection of continuous contact data from the touch screen device 13a, via the contact signal input means 15, and the first Different from the above embodiment, the required hierarchy level of the screen is determined by the distance between the contact start point and the contact end point.

The operator touches the screen element to be selected with his / her finger and moves the contact point while maintaining the contact, and when the lower layer is designated, the moving distance is lengthened, and when the upper layer is designated, the moving distance is shortened. To do. As an absolute hierarchy level designation rule, for example, in the unit of coordinates, in the level 1 hierarchy, the distance between the start point and the end point exceeds 0 mm and is 20 mm.
The level 2 level is 20mm or more and less than 50mm, and the level 3 level is 50mm or more. On the screen 31 illustrated in FIG. 5,
Since the rectangular area of the screen element is about 30 mm in length and about 40 mm in width, 20 mm is about half the length in the horizontal direction of the screen element, and 50 mm is about the diagonal line of the screen element.

Hereinafter, as in the first embodiment, the hierarchical level 1
When the entire plant alarm display screen 31 of is displayed,
The operation of the second embodiment will be described with reference to the flowchart shown in FIG. 12, taking as an example the case of selecting the screen of the hierarchy level 3 related to the "water supply system alarm display".

When an abnormality occurs in the plant and an alarm is issued, the screen selecting means 17 stores the alarm and time of occurrence (step 501). Here, it is assumed that the first alarm that occurred is "RFP-T A trip", and while the entire plant alarm display screen 31 is displayed, the area of the "water supply system" display item in this screen is used as the starting point. , It is assumed that the operator touches the screen so that the end point is a distance of 60 mm. As a result, when the same contact data as in the first embodiment is expressed, (1,30,80) (2,33,90) (2,30,100)
(2,27,100) (2,25,120) (2,27,130) (2,29,130) (3,30,140)
The contact signal group of is input to the process computer 41.

The screen selection means 17 inputs these contact signal groups via the contact signal input means 15 (step 50).
2), first, the starting point contact data is searched (step 50).
3) The start point coordinates are determined (step 504). In this case, the first element of the contact data is the first contact data with 1 (contact start), and its X and Y coordinates are (30, 80). As in the first embodiment, (Xc, Yc) = (30,80)
As a result, the area of each figure on the display screen is compared with the starting point coordinates (step 505), and it is determined that the area is a "water supply system" (step 506).

Further, the screen selecting means 17 selects the contact end contact data from the contact signal group, that is, contact data of contact type 3 (3, 30, 140), and determines the end point coordinates (step 507). In this case, it is (30,140), and the distance between the starting point coordinates (30,80) and the ending point coordinates (30,140) {(30-30) ²
+ (140-80) ² } ^1/2 = 60 is calculated, and it is determined that the distance between the start point and the end point of the contact signal is 60 mm (step 50
8) It is determined that the screen is a hierarchy level 3 screen (step 509).

The subsequent processing is performed in the same manner as in the first embodiment, the RFP-T A / B trip warning screen 35 is selected, and C
It is displayed on the RT display device 11a.

As is clear from the above description, according to the present embodiment, the touch start position on the monitoring screen being displayed and the touch movement distance from the start position to the end position
A desired screen can be displayed with a single operation from the monitoring screen group organized in a hierarchical structure.

Next, a third embodiment of the process monitoring screen selection device of the present invention will be described.

In the configuration of the third embodiment, the screen selection means 17 inputs the contact signal from the touch screen device 13a via the contact signal input means 15 and is requested by the number of contacts within a fixed time. Determine the hierarchy level of the screen.

The operator designates the same element by touching the same element a number of times on the lower layer screen. For example, as an absolute hierarchy level specification rule based on the number of times, the level 1 hierarchy is
Once within a second, Level 2 hierarchy is twice within a second, and Level 3 is designated 3 times within a second.

Hereinafter, as in the case of the first and second embodiments, when the plant alarm whole display screen 31 of the hierarchy level 1 is displayed, the screen of the hierarchy level 3 related to the "water supply system alarm display" is selected. Taking the case as an example, the operation of the third embodiment is shown in FIG.
A description will be given according to the flowchart shown in FIG.

While the entire plant alarm display screen 31 is being displayed,
It is assumed that the area of the "water supply system" display item on this screen is touched three times per second. Described in the same format as the first embodiment, (1,30,80) (3,30,80) (1,35,75) (3,35,75)
It is assumed that the contact signal group of (1,25,85) (3,25,85) is generated from the touch screen device 13a.

Each time a touch is made, a contact signal group is input to the process computer 41 via the contact signal input means 15, and the screen selection means 17 stores the time of generation of these signals (step 601). Wait until input of next contact data for up to 1 second after input of (step 60
2-604). If contact data is input during this period, it is added to the contact signal group.

Since the above 6 sets of contact data are input,
When the center of gravity of these 6 sets of contact data is calculated, (Xc,
Yc) = (30,80) (step 605). Similar to the first embodiment, the area of each display item on the display screen A is compared with the barycentric coordinates to determine that the area is a "water supply system" (steps 606 and 607).

Further, the screen selecting means 17 counts three touches because there are three touch types 1 (contact start) out of the six sets of touch data (step 60).
8) It is determined that the screen is a hierarchy level 3 screen (step 609). After that, the RFP-T A / B trip warning screen 35 is selected and displayed on the CRT display device 11a via the display means 19 by the same processing as in the first embodiment.

After that, the screen selecting means 17 erases the memory of the generation of the contact signal and initializes it so that the next contact can be judged as the first contact.

As is apparent from the above description, according to the present embodiment, a desired screen is selected from the monitor screen group systematized in a hierarchical structure according to the touch position and the number of touches on the monitor screen being displayed. Can be displayed with a single operation.

Next, a fourth embodiment of the process monitoring screen selection device of the present invention will be described.

In the configuration of the fourth embodiment, the screen selecting means 17 inputs the continuous contact signal group from the touch screen device 13a, and the maximum and minimum values of each of the x and y coordinates of the contact signal group. Determine the requested hierarchy level of the screen by the area of the rectangle created by. For example, the unit of coordinates as mm, less than 200 mm ² the hierarchical level 1 exceeds the 0 mm ^2, the hierarchical contact time 200 mm ² or more 1000mm below ² Level 2, a hierarchy of levels 3 so as to 1000mm ² or more, rectangular It is possible to set rules that specify absolute hierarchy levels depending on the area of each.

Similarly to the first to third embodiments, the case where the screen of the hierarchy level 3 related to the "water supply system alarm display" is selected from the plant alarm whole display screen 31 of the hierarchy level 1 will be described below as an example. The operation of the fourth embodiment will be described according to the flowchart shown in FIG.

While the whole plant alarm display screen 31 is being displayed,
It is assumed that a touch is made such that the area of the rectangle formed by the maximum and minimum values of x and y coordinates is 1600 mm ² , centered on the area of the "water supply system" display item on this screen. . At this time, if described in the same format as the first embodiment, (1,20,90) (2,10,80) (2,20,70) (2,30,60) (2,40,70)
It is assumed that the contact signal group of (2,50,80) (2,40,90) (3,30,100) is input to the process computer 41 from the touch screen device 13a.

When the screen selection means 17 inputs a contact signal group consisting of the above eight sets of contact data via the contact signal input means 15 (step 701), the center of gravity is calculated by the same center of gravity coordinate calculation as in the first embodiment. X, Y coordinates of (Xc, Yc) =
(30,80) is calculated (step 702), and the region of "water supply system" is extracted from the barycentric coordinates of this signal group in the same manner as in the first embodiment (steps 703, 704).

Further, the screen selection means 17 searches for the maximum and minimum values of each of the X and Y coordinates of the contact signal group (step 705). A maximum of 50 and a minimum of 10 for the X coordinate and a maximum of 100 and a minimum of 60 for the Y coordinate are searched for. It is possible to combine these four coordinate values (10,60) (10,100) (50,10
If we calculate the area of a rectangle with (0) (50,60) as the vertex, we get (50
-10) x (100-60) = 1600 (step 706). 160
It is determined that the hierarchical level corresponding to 0 mm ² is level 3 (step 707). Thereafter, similarly to the first embodiment, the RFP-T A / B trip warning screen 35 is selected and displayed on the CRT display device 11a via the display means 19.

As is apparent from the above description, according to the present embodiment, the display item related to the screen to be displayed is touched with respect to the monitor screen being displayed, and a graphic is drawn by the touch to draw its x coordinate. And the maximum of each y coordinate,
By designating the area of a rectangle having four points as vertices obtained by combining the minimum values, it is possible to display a desired screen from the monitoring screen group organized in a hierarchical structure by one operation.

Next, a fifth embodiment of the process monitoring screen selection device of the present invention will be described.

In the configuration of the fifth embodiment, the touch screen device 13a detects the touch position, detects the pressing force (contact pressure) of the touch, and uses the touch position coordinates and the contact pressure as contact data. Input to the process computer 41. The screen selection means 17 inputs the continuous contact signal group from the touch screen device 13a,
The requested screen hierarchy level is determined by the maximum contact pressure in the contact signal group. Here, the unit of contact pressure is hP
It is measured in a and the absolute hierarchical level is specified by the contact pressure, and the stronger the contact, the lower the level of the screen is specified. At the level 1 level, the contact pressure exceeds 0 hPa and 50
Less than 0hPa, contact pressure 500hPa and above 2000h for Level 2 level
Less than Pa, Level 3 designation is 2000hPa or more.

Similarly to the first to fourth embodiments, the case of selecting the screen of the hierarchy level 3 related to the "water supply system alarm display" from the plant alarm whole display screen 31 of the hierarchy level 1 will be described below as an example. The operation of the fifth embodiment will be described according to the flowchart shown in FIG. The contact data input cycle is the same as in the first embodiment, and a set of contact data is described in the form of (contact type, X coordinate, Y coordinate, contact pressure).

While the entire plant alarm display screen 31 is being displayed,
Up to 300 can be displayed in the area of the display item of "Water supply system"
It is assumed that a pressure of 0 hPa has been touched. The contact signal group input from the touch screen device 13a to the process computer 41 is (1,30,80,100) (2,30,80,500) (2,30,80,100)
0) (2,30,80,2000) (2,30,80,3000) (2,30,80,1500) (2,30,
80,500) (3,30,80,50) are the 8 sets of contact data.

The screen selection means 17 selects the contact signal group from the touch screen device 13a as the contact signal input means 15.
When input via (step 801), the barycentric coordinates (Xc, Yc) = (30,80) are calculated (step 802) as in the first embodiment, and the area of the display item including this barycentric coordinate is calculated. Is searched (step 803) and the display item of "water supply system" is extracted (step 804).

Further, the screen selecting means 17 searches for the maximum value of the contact pressure of each fourth element of the eight sets of contact data (step 805). Since the maximum contact pressure signal is 3000 hPa, it is determined that the screen is the third level screen (step 806). After that, as in the first embodiment, the RFP-T
The A / B trip warning screen 35 is selected and displayed on the CRT display device 11a via the display means 19.

As is apparent from the above description, according to this embodiment, the display item related to the screen to be displayed is touched with respect to the monitoring screen being displayed, and the pressing force of the touch is adjusted. As a result, a desired screen can be displayed from the monitoring screen group organized in a hierarchical structure with a single operation.

Next, a fifth embodiment of the process monitoring screen selection device of the present invention will be described.

In the structure of the sixth embodiment, the screen selecting means 17 determines the hierarchy level based on the relative hierarchy level designation information.

For example, when the touch duration is used as the layer level designation information, the longer the touch, the more the screen designation of the layer at the lower level can be made.

Here, as a hierarchy level designation rule,
The contact time is 0 seconds to less than 0.3 seconds when moving to the upper 2 levels, and the contact time is 0.3 seconds or more when moving to the upper 1 level 1
Less than second, contact time is 1 second or more for lower level 1 level movement
The contact time is set to 1.7 seconds or more for less than 1.7 seconds and the lower 2 levels move.

Next, a sixth embodiment of the process monitoring screen selection device of the present invention will be described.

Similarly to the first to fifth embodiments, the case where the screen of the hierarchy level 3 related to the "water supply system alarm display" is selected from the whole plant alarm display screen 31 of the hierarchy level 1 will be described below. The operation of the sixth embodiment will be described according to the flowchart shown in FIG.

While the entire plant alarm display screen 31 is displayed,
It is assumed that the area of the display item of "water supply system" on this screen is touched for 2 seconds. The contact signal group input to the process computer 41 is the same as that shown in the first embodiment.
One set of contact data.

The screen selection means 17 inputs the contact signal group through the contact signal input means 15 as in the first embodiment (step 901) and counts the number of contact data 41 (step 902). Barycentric coordinates (Xc
, Yc) = (30,80) is calculated (step 903).
By searching the area of the display item including the barycentric coordinates (step 904), it is determined that the touch position is the "water supply system" area (step 905).

Then, as in the first embodiment, 41 sets of contact data are input as a contact signal group, and the screen selecting means 17 calculates the touch duration as 2 seconds (step 906). Now, find out that the touch of 2 seconds corresponds to the movement of the lower two levels (step 90).
7) Then, since the current display screen A belongs to the hierarchy level 1, it is judged that the screen is specified for the hierarchy level 3 by 1 + 2 = 3 (907). Thereafter, similarly to the first embodiment, the RFP-T A / B trip warning screen 35 is selected and displayed on the CRT display device 11a via the display means 19.

As is apparent from the above description, even if the method of designating the hierarchy level relative to the hierarchy level of the currently displayed screen is adopted, it is the same as the absolute designation of the hierarchy level. Can be specified, and a desired screen can be easily displayed from the currently displayed screen.

Although a process monitor screen selection device having the same effect as described above can be implemented by a position pointing input device such as a mouse or a tracker ball, these devices are low in reliability and are required for operation. It cannot have the same effect as the process monitoring screen selection device of the present invention in that it requires learning other than process operation.

[0102]

As described above, according to the present invention, when a process monitoring screen having a hierarchical screen system is selected, the screen element (display item) of the currently displayed screen is selected by direct touch by the operator. By simultaneously specifying the hierarchy level of the hierarchy structure by means such as touch duration other than the touch position, you can easily select the monitoring screen of any hierarchy level from the displayed screen with one operation, and select the screen. The efficiency of can be realized and the process operation can be speeded up.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a process monitoring screen selection device according to the present invention.

FIG. 2 is a diagram illustrating a screen system having a hierarchical structure.

FIG. 3 is a flowchart showing the operation of the process monitoring screen selection device according to the present invention.

FIG. 4 is a diagram illustrating a hierarchical screen system of a process alarm monitoring screen.

5 is a diagram showing an example of an overall display screen of plant alarms of hierarchy level 1 in the process alarm monitoring screen of FIG.

6 is a diagram showing an example of a water supply system alarm display screen of hierarchy level 2 in the process alarm monitoring screen of FIG.

7 is a diagram showing an example of an RFP-T A / B trip alarm screen of hierarchy level 3 in the process alarm monitoring screen of FIG.

FIG. 8 is a block diagram showing a configuration of a process monitoring screen selection device according to an embodiment of the present invention.

FIG. 9 is a flowchart showing the operation of the screen selection means in the first embodiment of the present invention.

FIG. 10 is a flowchart showing the operation of the touch screen device 13a according to the first embodiment of the present invention.

FIG. 11 is a flowchart showing an operation of the contact signal input means 15 in the first embodiment of the present invention.

FIG. 12 is a flow chart showing the operation of the screen selection means in the second embodiment of the present invention.

FIG. 13 is a flow chart showing the operation of the screen selection means in the third embodiment of the present invention.

FIG. 14 is a flow chart showing the operation of the screen selection means in the fourth embodiment of the present invention.

FIG. 15 is a flow chart showing the operation of the screen selection means in the fifth embodiment of the present invention.

FIG. 16 is a flow chart showing the operation of the screen selection means in the sixth embodiment of the present invention.

[Explanation of symbols]

11 ... Display device, 11a ... CRT display device, 1
3 ... Input device, 13a ... Touch screen device, 15 ... Contact signal input means, 17 ... Screen selection means, 19 ... Display means, 41 ... Process computer

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI Technical display location G06F 3/033 360 360 B 7208-5E

Claims (8)

[Claims] 1. A process monitoring screen selection device for selecting and displaying an arbitrary process monitoring screen organized in a hierarchical structure based on an operator's request, and a display device for displaying the process monitoring screen. , An input device that detects a touch on the screen of this display device and generates a touch signal group indicating the position of the touch point on the screen, and the touched screen based on the touch signal group from the input device. The above display item is determined and the contact duration is calculated, and the hierarchy level in the hierarchical structure designated by this contact duration is determined according to a preset level designation rule, and the determined display item and hierarchy are determined. A screen selecting means for selecting a process monitoring screen to be displayed from the level and a process monitoring screen selected by the screen selecting means are output to the display device. Process monitoring screen selection device characterized by comprising a display means for. 2. A process monitoring screen selection device for selecting and displaying an arbitrary process monitoring screen organized in a hierarchical structure based on an operator's request, and a display device for displaying the process monitoring screen. , An input device that detects a touch on the screen of this display device and generates a touch signal group indicating the position of the touch point on the screen, and the touched screen based on the touch signal group from the input device. The above display item is determined, the moving distance of the contact point is calculated, the hierarchical level on the hierarchical structure designated by the moving distance of the contact point is determined according to a preset level designation rule, and the determined display Screen selecting means for selecting a process monitoring screen to be displayed from the item and the hierarchy level, and the process monitoring screen selected by the screen selecting means are displayed on the display device. Process monitoring screen selection device characterized by comprising a display means for outputting to. 3. A process monitoring screen selection device for selecting and displaying an arbitrary process monitoring screen organized in a hierarchical structure based on an operator's request, and a display device for displaying the process monitoring screen. , An input device that detects a touch on the screen of this display device and generates a touch signal group indicating the position of the touch point on the screen, and the touched screen based on the touch signal group from the input device. Display items and layers that have been determined by determining the above display item and calculating the number of contacts within a certain period of time, and determining the hierarchy level on the hierarchical structure specified by this number of contacts according to preset level specification rules. Screen selecting means for selecting a process monitoring screen to be displayed from the level, and the process monitoring screen selected by the screen selecting means is output to the display device. Process monitoring screen selection device characterized by comprising a display means that. 4. A process monitoring screen selection device for selecting and displaying an arbitrary process monitoring screen organized in a hierarchical structure based on an operator's request, and a display device for displaying the process monitoring screen. , An input device that detects a touch on the screen of this display device and generates a touch signal group indicating the position of the touch point on the screen, and the touched screen based on the touch signal group from the input device. The display item above is determined and the area of the figure formed by the position coordinates of a plurality of contact points is calculated, and the hierarchical level on the hierarchical structure designated by this area is determined according to a preset level designation rule. Screen selecting means for selecting a process monitoring screen to be displayed from the determined display item and the hierarchy level, and the process monitoring screen selected by the screen selecting means. Process monitoring screen selection device characterized by comprising a display means for outputting a face on the display device. 5. A process monitoring screen selection device for selecting and displaying an arbitrary process monitoring screen organized in a hierarchical structure based on an operator's request, and a display device for displaying the process monitoring screen. , An input device that detects a touch on the screen of this display device and generates a touch signal group indicating the position of the touch point on the screen and the contact pressure, and a touch signal group based on the touch signal group from the input device. According to a level designation rule for designating a hierarchical level on the hierarchical structure by pressure, a screen selection means for determining a display item on the screen touched and a designated hierarchical level and selecting a process monitoring screen to be displayed, A process monitoring screen selection device comprising: a display device that outputs the process monitoring screen selected by the screen selection device to the display device. 6. The screen selection means, according to a level designation rule for designating an absolute hierarchical level in a hierarchical structure,
6. The process monitoring screen selection device according to claim 1, wherein a process monitoring screen to be displayed is selected. 7. The screen selecting means selects a process monitoring screen to be displayed according to a level designation rule that designates a hierarchical level relative to a hierarchical level in the hierarchical structure of the currently displayed screen. 6. The process monitoring screen selection device according to claim 1, wherein the screen selection device is a process monitoring screen selection device. 8. A process monitoring screen selection device for selecting and displaying an arbitrary process monitoring screen organized in a hierarchical structure based on an operator's request, and a display device for displaying the process monitoring screen. , An input device that detects a touch on the screen of this display device and generates a touch signal group indicating the position of the touch point on the screen, and the touched screen based on the touch signal group from the input device. Screen selection means for determining a hierarchy level in the hierarchical structure of the upper display item and the screen to be selected, and selecting a corresponding process monitoring screen from the display item and the hierarchical level, and the process selected by the screen selection means. A process monitoring screen selection device comprising: a display unit that outputs a monitoring screen to the display device.