KR101635470B1 - System for operating nuclear power plant and Method of operating nuclear power plant using the same - Google Patents

Abstract

The present invention relates to an operation system of a nuclear power plant and a method of operating a nuclear power plant using the same. The operation system of a nuclear power plant according to the present invention comprises: a display unit for displaying a state of a power plant equipment and an object to be operated; A mouse for operating a cursor displayed on the display unit; And a control unit for displaying the movement of the mouse on the display unit and changing an operating state of the power plant equipment according to an operation of the mouse, wherein the mouse includes a frictional force adjusting unit for adjusting frictional force when the mouse is moved, The frictional force control unit controls the frictional force control unit such that the frictional force decreases toward the operation target.

Description

Technical Field [0001] The present invention relates to a nuclear power plant, and more particularly,

The present invention relates to an operation system of a nuclear power plant and a method of operating a nuclear power plant using the same.

 The operating system of a nuclear power plant, especially the nuclear power plant, has a digital form. Accordingly, the operators and the like mainly use the computer system to perform power plant operation and other tasks.

Currently, operators are required to rely on the visual confirmation function of the computer system when performing tasks for power plant operation. In particular, the operation of the power plant operation is performed by manipulating a menu or a scroll bar on the screen through a mouse.

However, in the present computer system, there is no difference in the state of the mouse or the cursor depending on the importance of the operation of the driver, and thus there is a problem that the driver is vulnerable to error.

Korea Publication No. 2005-0038295 (published on Apr. 27, 2005) U.S. Publication No. 2008-0316171 (published on December 25, 2008)

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide an operating system of a nuclear power plant capable of preventing operator errors and a method of operating a nuclear power plant using the same.

According to an aspect of the present invention, there is provided an operation system for a nuclear power plant, comprising: a display unit displaying a state of a plant equipment and an operation target; A mouse for operating a cursor displayed on the display unit; And a control unit for displaying the movement of the mouse on the display unit and changing an operating state of the power plant equipment according to an operation of the mouse, wherein the mouse includes a frictional force adjusting unit for adjusting frictional force when the mouse is moved, The frictional force control unit controls the frictional force adjusting unit so that the frictional force decreases as the subject approaches the operation target.

The mouse may further include a texture conversion unit that changes the texture of a portion of the operator's hand, and the controller may control the texture conversion unit so that the texture varies depending on the distance between the cursor and the operation target.

The controller may control the texture conversion unit such that when the distance between the cursor and the operation target is not greater than a predetermined level, the texture is not provided, and if the distance is less than a predetermined level, the texture conversion unit is controlled.

The mouse may further include an alarm sound generating unit capable of generating an alarm sound, and the control unit may control the alarm sound generating unit so that an alarm sounds when the cursor approaches the operation prohibited object.

The mouse may include a ball at a lower portion thereof, and the frictional force adjusting portion may adjust the frictional force of the ball.

The mouse may include a ball at a lower portion thereof, and the frictional force adjusting portion may adjust an external exposure height of the ball.

The control unit may increase the speed of the cursor as the cursor approaches the operation target.

According to an aspect of the present invention, there is provided a method of operating a nuclear power plant, comprising: maintaining a frictional force of a mouse at a first frictional force when a cursor is at a first distance from the operation target on a screen showing a state of a plant equipment and an operation target; And maintaining the frictional force of the mouse at a second frictional force smaller than the first frictional force when the cursor is at a second distance smaller than the first distance with the object to be manipulated.

And imparting a different texture to the mouse at the second distance than at the first distance.

And may not impart texture to the mouse at the first distance.

And generating an alarm sound when the cursor approaches the operation prohibited object.

The mouse includes a ball at the bottom, and the adjustment of the frictional force can be performed by adjusting the frictional force of the ball.

Adjustment of the frictional force may be performed by adjusting the degree of external exposure of the ball.

The speed of the cursor may be faster than the first distance at the second distance.

And selecting a specific operation target to which the cursor should be positioned from a plurality of operation targets.

A method of operating a nuclear power plant, comprising: providing a screen showing a state of a plant equipment and an operation target; And increasing the cursor speed as the cursor approaches the object to be manipulated.

Maintaining the frictional force of the mouse at a first frictional force when the cursor is at a first distance from the manipulation target; And maintaining the frictional force of the mouse at a second frictional force smaller than the first frictional force when the cursor is at a second distance smaller than the first distance with the operation object.

And imparting a different texture to the mouse at the second distance than at the first distance.

According to the present invention, there is provided an operation system of a nuclear power plant capable of preventing operator error, and a method of operating a nuclear power plant using the same.

FIG. 1 shows an operation system of a nuclear power plant according to the present invention,
2 shows an operation screen of the driving system according to the present invention,
3 shows a mouse according to the present invention,
4 shows a control structure according to the present invention,
5 shows an operation target and management area according to the present invention,
Figure 6 illustrates cursor speed, friction and texture control according to the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will be described in more detail with reference to the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the technical concept of the present invention, are incorporated in and constitute a part of the specification, and are not intended to limit the scope of the present invention. Also, the attached drawings may be exaggerated in size and spacing in order to explain the relationship among the respective components.

The operation system of a nuclear power plant according to the present invention will be described with reference to FIGS. 1 to 4. FIG.

FIG. 1 is a view showing an operation system of a nuclear power plant according to the present invention, FIG. 2 is an operation screen of an operation system according to the present invention, FIG. 3 is a mouse according to the present invention, FIG.

The operating system 1 includes a control unit 10, a monitor 20, a keyboard 30, and a mouse 40. In this figure, only the operation facilities of the respective operators located in the main control room of the operating system 1 are illustrated, and other necessary components are not shown.

The control unit 10 is a conventional computer, and may be connected to another operator or a computer of the supervisor.

The monitor 20 displays a screen 21 for driving operation as shown in Fig. On the screen 21, current conditions such as temperature, pressure and level of each device are displayed, and an operation target (A 'in Fig. 5) capable of operating these conditions is displayed. If you press the operation object, a window displaying other options, a window for selecting a value, or a scroll bar may be displayed. The operator controls the device by entering the required value using the mouse or keyboard on the displayed window or scroll bar.

The mouse 40 is constituted by a main body 41, a click operation portion 42, a texture portion 43, a friction ball 44 and a speaker 45 as shown in Fig.

The textured portion 43 is located on the side surface of the mouse body 41 and changes the texture if necessary to alert the operator. The texture portion 43 may be hardened or protrusions may be formed, and a known technique may be applied. The position of the textured portion 43 can be applied to other portions as long as the driver of the upper portion of the mouse body 41 can feel a change in texture.

The friction ball 44 rotates while contacting the bottom surface (mouse pad or the like) by operating the mouse 40 of the driver. In the present invention, the rotation resistance of the friction ball 44 can be adjusted.

The speaker 45 can generate an alarm sound when necessary and can alert the user. The position of the speaker 45 may also be varied, and in other embodiments, it may generate a light along with an alarm sound.

In the present invention, the texture or friction force of the mouse 40 is adjusted according to the distance between the cursor on the screen and the object to be operated, and an alarm sound is generated. 4, the control unit 10 controls the friction force adjusting unit 410, the texture converting unit 420, and the alarm sound generating unit 430 in the mouse 40 according to the distance between the detected cursor and the operated object .

In addition, the control unit 10 can change the cursor moving distance on the screen (referred to as "cursor speed" in the present invention) with respect to the moving distance of the mouse 40 operated by the operator depending on the distance between the cursor and the object to be operated . That is, if the speed of the cursor is increased, the movement of the cursor becomes larger than the distance that the operator has moved the mouse 40.

The operation method of the operating system 1 described above will be described with reference to Figs. 5 and 6. Fig. FIG. 5 shows an object to be operated and a management area according to the present invention, and FIG. 6 is a diagram illustrating cursor speed, friction and texture control according to the present invention.

The control unit 10 sets the management area A for each operation object A '. The management area is a rectangular area surrounding the operation target. In another embodiment, the management area may be set to various shapes such as a circle.

The control unit 10 increases the speed of the cursor as the cursor approaches the operation target. That is, the closer the cursor is to the operation target, the greater the cursor movement distance on the screen for the same movement of the mouse 40 by the operator. The control of the cursor speed can be made continuously or stepwise according to the distance between the cursor and the operation target.

On the other hand, the control unit 10 can reduce the frictional force of the friction ball 44 as the cursor approaches the management area. The frictional force control can also be made continuously or stepwise according to the distance between the cursor and the object to be operated.

With the above cursor speed and frictional force control, the operator can concentrate on the target object to be manipulated. That is, the closer the cursor is to the operation object, the more the feeling and effect that the cursor converges to the operation object.

The control unit 10 can change the texture when the cursor is positioned in the management area A so that the operator can call attention.

The texture may also be continuous or stepwise depending on the distance of the object to be manipulated.

Figure 6 shows one of various control methods of cursor speed, frictional force and texture change.

The cursor speed indicates a case where the cursor speed continuously changes according to the distance from the operation target. Quot; 0 "indicates that the cursor is located on the operation object, and that the distance between the cursor and the operation object becomes farther toward the left and right. The speed is the largest when the cursor is positioned on the object to be manipulated, and continuously decreases as the cursor moves away.

The frictional force continuously changes according to the distance from the operation target, but maintains the same level in the management area. The texture is not implemented when the cursor is outside the control area, but remains the same when the cursor is positioned within the control area. In another embodiment, when the object is located in the management area, the texture pattern may change or the texture strength may change, thereby alerting the operator.

In another embodiment, when a ball mouse is used, the ball may be controlled to be included more in the mouse body when the cursor approaches the manipulation target with the change of the friction force of the mouse. When the ball is contained more in the mouse body (i.e., the degree of external exposure of the ball is reduced), the height of the mouse is lowered and the friction dependence on the mouse ball is reduced. As a result, the frictional force of the mouse decreases as the cursor approaches the object to be operated.

In another embodiment, the operation target to be operated by the operator is set in advance, and the cursor speed, the frictional force, and / or the texture can be changed so that the operator can focus on the set operation target. At this time, the set operation object can be screen-processed so that the operator can easily recognize it in a manner such as blinking.

The above-described embodiments are illustrative of the present invention, and the present invention is not limited thereto. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

Claims (18)

In the operating system of a nuclear power plant,
A display unit for indicating a state of the power plant equipment and an object to be operated;
A mouse for operating a cursor displayed on the display unit;
And a controller for displaying the movement of the mouse on the display unit and changing an operation state of the power plant equipment according to an operation of the mouse,
The mouse includes a frictional force adjusting unit for adjusting frictional force when the mouse is moved,
Wherein the control unit controls the frictional force adjusting unit such that the frictional force decreases as the cursor approaches the operation target,
The mouse may further include a texture converting unit for changing a texture of a portion of the hand of the operator,
Wherein the control unit controls the texture converting unit so that textures differ according to the distance between the cursor and the operation target. delete The method of claim 1,
Wherein the control unit controls the texture converting unit so that texturing is performed when the distance between the cursor and the operation target is not greater than a predetermined level and less than a predetermined level. The method of claim 1,
The mouse further includes an alarm sound generating unit capable of generating an alarm sound,
Wherein the control unit controls the alarm sound generating unit so that an alarm sounds when the cursor approaches the operation prohibited object. The method of claim 1,
The mouse includes a ball at the bottom,
Wherein the frictional force adjusting unit adjusts the frictional force of the ball. The method of claim 5,
The mouse includes a ball at the bottom,
Wherein the frictional force adjusting unit adjusts an external exposure height of the ball. The method of claim 1,
Wherein,
And increases the speed of the cursor as the cursor approaches the object to be operated. In a method of operating a nuclear power plant,
Maintaining the frictional force of the mouse at the first frictional force when the cursor is at the first distance from the operation target on the screen showing the state of the power plant equipment and the operation target;
And maintaining the frictional force of the mouse at a second frictional force smaller than the first frictional force when the cursor is at a second distance smaller than the first distance with the object to be manipulated,
And imparting a different texture to the mouse at the second distance than at the first distance. delete 9. The method of claim 8,
Wherein the texture is not given to the mouse at the first distance. 9. The method of claim 8,
And generating an audible alarm when the cursor approaches the operation prohibited object. 9. The method of claim 8,
The mouse includes a ball at the bottom,
Wherein the control of the frictional force is performed by adjusting the frictional force of the ball. The method of claim 12,
Wherein the adjustment of the frictional force is performed by adjusting the degree of external exposure of the ball. 9. The method of claim 8,
The speed of the cursor,
Wherein the first distance is greater than the first distance at the second distance. 9. The method of claim 8,
Further comprising the step of selecting a specific operation object to which a cursor should be positioned from a plurality of operation targets. In a method of operating a nuclear power plant,
Providing a screen showing a state of the power plant equipment and an object to be operated;
And increasing the cursor speed as the cursor approaches the object to be operated. 17. The method of claim 16,
Maintaining the frictional force of the mouse at a first frictional force when the cursor is at a first distance from the manipulation target;
Further comprising maintaining the frictional force of the mouse at a second frictional force smaller than the first frictional force when the cursor is at a second distance smaller than the first distance with the object to be operated. The method of claim 17,
And providing the mouse with a different texture from the first distance at the second distance.

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