JPH04171522A - Display screen control system - Google Patents

Abstract

PURPOSE:To improve the convenience and the universal applicability of a display screen control system without disturbing the display of information on a display screen by detecting the coordinates on a touch panel at the time of contact and separation respectively and moving the original point of display on the screen to a display video memory in accordance with the difference between both coordinates. CONSTITUTION:Contact against a touch panel where the data are inputted with contact or separation secured to or from an area corresponding to the information displayed on a display screen 13 is detected. Then the coordinates are detected on the touch panel at the time of contact and separation secured to the from the touch panel. The difference between both detected coordinates is calculated and the original point of display is moved on the screen 13 to a display video memory 15 in accordance with the calculated difference between both coordinates. Thus the original point of display can move to the memory 15 on the screen 13 and display of information on the screen 13 is not disturbed.

Description

[Detailed Description of the Invention] [Object of the Invention] (Industrial Application Field) The present invention relates to a touch panel for inputting data by touching or moving away from an area corresponding to information displayed on a display screen, and a method for inputting data to an area corresponding to information displayed on a display screen. Among display screen control systems having a display video memory that supplies information to the display screen in response to contact or separation, the system is particularly improved by making it possible to move the display origin of the display screen relative to the display video memory. This invention relates to a display screen control system that improves versatility.

(Prior Art) Recent advances in semiconductor technology are due to dramatic advances in memory integration technology, as typified by the degree of memory integration.

The large integration of memory capacity has made it possible, in particular, to increase the main memory capacity of computers and the display video memory, and has also made it possible to improve the performance and speed of microprocessors and display controllers.

On the other hand, in the field of plant monitoring and control, the semiconductor technology mentioned above has made it possible to provide high-performance and highly functional industrial computers, and display devices are also high-speed and
We offer high resolution. Along with this, there has been an increasing demand for an enlarged display area, an increase in display content, and an increase in the sophistication of displayed information, and the problem has been how to display as much information in a physically limited display area.

As a countermeasure for the above, there are methods to display a lot of information by expressing the display area as one display unit in multiple pages and changing the pages, and a method to display a part of a large area (large screen) that exceeds the display area on the display screen. There are methods such as displaying the entire image on the screen and moving the display position vertically and horizontally to see the entire image.

In particular, display using a large screen is effective for graphically representing the entire plant.

On the other hand, when displaying an area that is not displayed, a movement arrow was displayed on a part of the display screen using the cursor movement keys on the keyboard, and the movement was performed by touching the arrow. However, it was not easy to simplify the operation.

(Problem to be Solved by the Invention) Conventionally, data input requires the use of a keyboard in addition to touch input, which may cause operational inconvenience. Because of this, the movement arrows sometimes block the plant screen display, causing problems with plant monitoring.

The present invention has been made in view of the above, and an object of the present invention is to enable movement of the display origin of the display screen with respect to the display video memory without complicating the system, thereby improving information on the display screen. An object of the present invention is to provide a display screen control system that improves the convenience and versatility of the system without interfering with the display.

[Structure of the Invention] (Means for Solving the Problem) In order to achieve the above object, the present invention provides a touch panel that inputs data by touching or moving away from an area corresponding to information displayed on a display screen. contact coordinate detection means for sensing and detecting the coordinates on the touch panel at the time of contact with the touch panel; and separation coordinate detection means for detecting separation from the touch panel and detecting the coordinates on the touch panel at the time of separation from the touch panel. and a difference calculation means for calculating the difference between the coordinates on the touch panel at the time of separation detected by the separation coordinate detection means and the coordinates on the touch panel at the time of contact detected by the contact coordinate detection means; The present invention further comprises a control means for moving the display origin of the display screen relative to the display video memory in accordance with the calculated difference.

(Function) In the display screen control system with the above configuration,
A touch on a touch panel for inputting data by touching or moving away from an area corresponding to information displayed on a display screen is detected, and coordinates on the touch panel at the time of contact with the touch panel are detected.

Further, separation from the touch panel is detected, and coordinates on the touch panel at the time of separation from the touch panel are detected. The difference between the detected coordinates on the touch panel at the time of separation and the coordinates on the touch panel at the time of contact is calculated, and information is displayed on the display screen in response to contact with or separation from the touch panel in accordance with the obtained difference. Since the display origin of the display screen is moved with respect to the display video memory to be displayed, it is possible to move the display origin of the display screen with respect to the display video memory and prevent the display of information on the display screen from being disturbed.

(Example) Hereinafter, the present invention will be explained in detail using the drawings.

FIGS. 1(a) and 1(b) are configuration diagrams showing one embodiment of the display screen control system of the present invention.

The touch panel 1 included in the display screen control system includes:
The display origin of the touch panel 1 (Xo, 3
'o) is arranged, and a light emitting diode (hereinafter referred to as a light emitting LED) 3 that emits light in the horizontal direction in the figure of the display origin
A to 3n are arranged at regular intervals. In addition, light is emitted at regular intervals in the vertical direction on the left side of the touch panel 1 in the figure.
EDs 5a to 5n are disposed, and phototransistors 78 to 7n for detecting light emitted from the light emitting LEDs 3a to 3n are disposed at regular intervals laterally at the lower end in the figure. Furthermore, the touch panel 1 includes phototransistors 9a to 9n arranged at regular intervals in the vertical direction on the right side of the figure, and a light emitting L.
Detect light emitted from ED58 to 5n. When the operator's finger (hereinafter referred to as a stylus) touches P (Xp, Vp) on the touch panel 1, the phototransistors 7d and 9b detect that the light emitted from the light emitting LEDs 3d and 5b is blocked. . Upon detection of light interruption by the phototransistors 7d and 9b, the touch panel 1
transmits the detection signal to the computer main body (not shown). Upon receiving the detection signal, the computer main unit extracts the position information (X
p, Vp). In order to move the display origin of the display screen (not shown) 13 to a desired position, the operator keeps the stylus in contact with the touch panel 1 and presses Q (x
o, yo) move to llb and move away from the touch panel 1. Q(Xo, "io" of the touch panel 1 above)
) When the stylus is separated from 1lb, phototransistors 7 (n-2) and 9 (n-2) receive light from light-emitting LED 3 (n-2) and light-emitting LED 5 (n-2), and a current is generated. A detection signal indicating that the light has been received is transmitted from the touch panel 1 to the computer main body (not shown). Upon receiving the detection signal, the computer main body extracts the position information Q (X
o, Yo) Detect 11b. Then, the computer main body calculates the difference between the position information Q (Xo, Vo) of the touch OFF information and the P (Xp, Yp) of the touch ON information, and calculates the X component 'X Q X P as the amount of movement (difference).
+y component: Obtain Yo-yp. If the above movement amount exceeds the allowable range that takes into account the deviation of the stylus when the slice contacts the touch panel 1, the computer main body moves the movement amount (Xo XP+) to the current display origin (Xo, Yo).
Vo)'p) added (x□ +x.-XP+
Vo+)'o Vp) is set as a new display origin, and the stored information is displayed by moving on the display video memory 15, which will be described later.

The arrangement relationship between the display screen 13 and the display video memory 15 will be explained using FIG. 2.

The display screen 13 is arranged corresponding to the upper left end of the display video memory 15 in the figure, and displays one category area of the image 17 (information) stored in the display video memory 15. By moving the operator's stylus, the display origin of the display screen 13 is moved to a desired position, and the display screen 13 is moved to a desired position.
There is no problem in displaying the image 17 displayed on the screen.

Next, the operation of this embodiment will be explained using the processing flowchart shown in FIG.

First, after starting up the system, the operator brings the stylus into contact with point P 11a of the touch panel 1. When the stylus is touched, the touch panel 1 transmits a detection signal to the computer main body (not shown) through detection by the phototransistors 7d and 9b. The computer body detects the touch ON information based on the detection signal and responds to the touch ON information.
The positional information P (Xp, Vp)lla of the information is detected, the positional information P (Xp, yp) is stored in a predetermined address of a memory (not shown), and the process proceeds to the next process (Step 1
00-110).

Operator's stylus touches 0 point 11b on touch panel 1
When separated from the touch panel 1, the touch panel 1 transmits a detection signal to the computer main body (not shown). When the detection signal is transmitted, the computer main body determines that it is touch-off information, and if it is not touch-off information, it proceeds to the next process. The computer main body stores the received touch-ON information position information P(XPI)'P) and touch-OFF information Q(xQ).

(steps 130 to 14)
0).

By comparison, the X component: XQ-xp and the y component y. -V
If the difference in p is within the allowable range due to misalignment of the stylus on touch panel 1, the computer main body
The N information and the touch OFF information are treated as control inputs or data inputs, and the process proceeds to the next step. On the other hand, if the above-mentioned difference exceeds the allowable value, the computer main body sets the X-axis, which is the sum of the difference and the current display origin of the display screen 13, to X. 10Xo −Xp
r Y axis is y. +)'o3'p as the display origin on the display video memory 15, and then proceed to the next process (steps 150 to 170).

This allows the display origin to be set as desired by the operator (Xo
+Xo It is possible to prevent problems with the plant screen display due to displays such as.

[Effects of the Invention] As explained above, according to the present invention, the display origin of the display screen can be easily moved with respect to the display video memory without complicating the system. The convenience and versatility of the system can be improved without interfering with the display of information.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing an embodiment of the display single screen control system of the present invention, FIG. 2 is a diagram showing the arrangement relationship between the display screen and the display video memory, and FIG. 3 is a diagram showing the operation of the present invention. It is a flowchart. 1... Touch panels 3a-3n, 5a-5n... Light emitting diodes 7a-7
n, 9a to 9n...Phototransistor 13...Display screen 15...Display video memory Hidekazu Miyoshi, Patent Attorney Attorney Figure 1 (a') Figure 1 (b) Figure 2

Claims (1)

[Claims] A touch panel that inputs data by touching or moving away from an area corresponding to information displayed on a display screen, and a display image that supplies information to the display screen in response to touching or moving away from the touch panel. a display screen control system having a memory, a contact coordinate detection means for detecting a touch on the touch panel and detecting the coordinates on the touch panel at the time of contact with the touch panel; separation coordinate detection means for detecting the coordinates on the touch panel at the time of separation from the object; the coordinates on the touch panel at the time of separation detected by the separation coordinate detection means and the coordinates on the touch panel at the time of contact detected by the contact coordinate detection means; and a control means for moving the display origin of the display screen relative to the display video memory in response to the difference calculated by the difference calculation means. display screen control system.