KR20000018534U - Computer mouse with minute control button - Google Patents

Abstract

The present invention relates to a mouse that is an input device of a computer system, and more particularly to a computer mouse having a fine adjustment button. The mouse according to the present invention includes a scroll button, an X-axis dial, and a Y-axis dial in addition to the existing input button. The scroll button supports scrolling up, down, left, and right of documents not displayed on one screen in a multi-window environment. The X-axis dial and the Y-axis dial are used to specify the exact coordinates of the mouse cursor.

Description

COMPUTER MOUSE WITH MINUTE CONTROL BUTTON}

The present invention relates to a mouse that is an input device of a computer system, and more particularly to a computer mouse having a fine adjustment button.

A mouse has been known as a computer input device that is widely used. It is widely used among personal computer and computer terminal users. A mouse is a type of input device such as a keyboard. It is named because it looks like a tailed mouse. The mouse was developed by Douglas C Engelbart of Stanford Laboratories in 1968 and is a peripheral for easy and simple computer operation by reducing the hassle of running a complex program as you type. The computer recognizes the electrical signal generated by moving the mouse over the pad. In other words, the computer moves the cursor on the screen in the same direction as the mouse in response to the movement of the mouse, and when the mouse moves, the position of the cursor on the screen changes, and the computer analyzes the numerical value according to the position of the mouse to determine the position of the cursor. . The most commonly used mouse is a ball mouse, which uses the rolling of the ball.

1 is a view showing the structure of a typical mouse (Mouse).

Referring to FIG. 1, the mouse includes first and second buttons 11a and 11b, a ball 12, x and Y encoders 13a and 13b, and two rollers 14a and 14b. It includes. Moving the mouse 10 by hand rotates the two rollers 14a and 14b which intersect at right angles to each other in the mouse case as the balls 12 roll inside. One roller 14a senses the left and right movements of the mouse, and the other roller 14b senses the vertical movements of the mouse. Each roller 14a, 14b is connected to a wheel called an encoder 13a, 13b. As the rollers 14a, 14b rotate, the encoders 13a, 13b also rotate together. In addition, there are metal contact points on the edges of the encoders 13a and 13b. When the encoders 13a and 13b touch the contact points according to the movement of the rollers 14a and 14b, an electrical signal is generated accordingly. . At this time, when the buttons 11a and 11b on the top of the mouse 10 are pressed, the signal is transmitted to the computer system and sent to the software. Considering how often the user presses the buttons 11a and 11b, the cursor position when the user presses the button, and the like, the user's intended work is performed.

When the mouse 10 is used in a multi-window environment, when the mouse 10 cursor is moved to scroll up or down / left / right documents that are not displayed in one window, unnecessary work time increases and an incorrect mouse Unnecessary work is increased by positioning the pointer. Particularly, graphic work such as the Internet for searching for desired data in a faster time and Computer Aided Design (CAD) requiring more accurate coordinate values require faster and more accurate coordinate designation. Therefore, there is a need for a mouse that can specify coordinates faster and more accurately.

Accordingly, an object of the present invention is to solve the above-mentioned problems, and to provide a mouse that can move and designate a faster and more accurate coordinate.

1 shows the structure of a typical mouse;

2 is a perspective view showing the appearance of a mouse according to the present invention;

3 is a block diagram showing the configuration of a mouse according to the present invention;

4 is a flowchart showing a scroll operation procedure by the scroll button according to the present invention; And

5 is a flow chart showing the movement procedure of the mouse cursor using the x and Y-axis dial according to the present invention.

* Description of the symbols for the main parts of the drawings *

20: mouse 21a: first button

21b: 2nd button 23: X-axis encoder

24: Y axis encoder 25: Scroll button

26: X axis dial 27: Y axis dial

According to a feature of the present invention for achieving the object of the present invention as described above, a mouse, which is a computer input device, generates an X encoder for generating an X coordinate designated by the mouse, and a Y coordinate designated by the mouse. Y-axis for fine adjustment, X-axis dial for fine-adjusting the X coordinate, Y-axis dial for fine-adjusting the Y coordinate, and for moving the displayed area of the screen running on the computer up / down / left / right A scroll button, connected to the X encoder, Y encoder, X axis dial, Y axis dial, and scroll button, adjusts the coordinates designated by the mouse and the display area of the computer in response to signals input from each button. A microcomputer for generating a control signal for transmitting the control signal from the microcomputer It comprises at least one command button for input to.

(Example)

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The novel mouse of the present invention includes a scroll button, an X-axis dial, and a Y-axis dial in addition to the existing input button. The scroll button supports scrolling up, down, left, and right of documents not displayed in one window under a multi-window environment. The X-axis dial and the Y-axis dial are used to specify the exact coordinates of the mouse cursor.

Figure 2 is a perspective view showing the appearance of a mouse according to the present invention.

Referring to FIG. 2, the mouse 20 according to the present invention includes a first button 21a, a second button 21b, an X-axis dial 26, a Y-axis dial 27, and a scroll button 25. It includes. The first and second buttons 21a, 21b are used by the user to position the cursor of the mouse at a desired position and input a control signal to the computer system through the mouse 20 at this point. The X-axis dial 26 and the Y-axis dial 27 are used to finely adjust the X and Y coordinates designated by the mouse 20. This is provided for the exact coordinate designation required in a graphics program such as Computer Aided Design (CAD). Once the approximate position of the mouse has been established, the X and Y axes are controlled by the X-axis dial 26 and the Y-axis dial 27. Fine tune the coordinates. In addition, the scroll button 25 is provided to support vertical / left / right scrolling of documents not displayed in one window under a multi-window environment.

3 is a block diagram showing the configuration of a mouse according to the present invention.

Referring to FIG. 3, a mouse 20 according to the present invention used as a computer input device includes an X encoder 23a for generating an X coordinate of a mouse pointer, and a Y encoder for generating Y coordinates of a mouse pointer. 23b), the X-axis dial 26 for fine-adjusting the X coordinate, the Y-axis dial 27 for fine-adjusting the Y coordinate, and the displayed area of the screen running on the computer up and down / left and right. A scroll button 25 for moving, and connected to the X encoder 23a, Y encoder 23b, X axis dial 26, Y axis dial 27, and scroll button 25, and input from each button. In response to the signals being provided, a microcomputer 22 is provided for generating a control signal OUT for adjusting the coordinates designated by the mouse 20 and the display area of the computer. In addition, the mouse 20 includes first and second buttons 21a and 21b for inputting a control signal OUT from the microcomputer 22 to the computer.

In general, the coordinates at which the cursor of the mouse 20 is located are determined by the X encoder 23a and Y encoder 23b, but when the coordinates need to be finely adjusted, the X axis dial 26 and The Y-axis dial 27 adjusts the coordinates designated by the mouse 20. Information about the coordinates thus adjusted is input to the microcomputer 22 and generates a control signal OUT. At this time, when the first or second buttons 21a and 21b are pressed, the microcomputer 22 transmits this control signal OUT to the computer. If the scroll button 25 is pressed, the microcomputer 22 generates a control signal OUT for adjusting the display area of the computer in response to the input of the scroll button 25. Transfer it to your computer. In response to this control signal OUT, the computer system displays the screen of the program displayed on the screen as if the up / down / left / right scroll buttons were pressed.

Operating Systems (OS), such as Microsoft's Windows 98, are currently in use to provide a multi-window environment. When working in this environment, the entire screen of one program may not be displayed in one window. In this case, in order to view the entire screen, the left and right scroll bars displayed at the bottom of the window for the program and the up and down scroll bars displayed on one side of the window should be used. In other words, the screen is moved only by moving the up / down / left / right scroll bar or by clicking the arrows displayed on the top and bottom of the scroll bar, so that the invisible screen can be viewed. However, using the scroll button 25 of the mouse 20 according to the present invention, as described above, it is possible to move up / down / left / right of the screen without having to click on the scroll bar or the arrows provided on the scroll bar. . As such, when the scroll button 25 of the mouse 20 according to the present invention is used, the adjustment for the screen displayed on the computer is as follows.

5 is a flowchart illustrating a scroll operation procedure by the scroll button according to the present invention.

Referring to FIG. 5, first, in step S100, the microcomputer 22 detects whether the mouse 20 is moved while the scroll button 25 is pressed. As a result of the detection, if the mouse 20 is moved while the scroll button 25 is pressed, the procedure proceeds to step S110. Here, the microcomputer 22 generates a control signal OUT according to the up / down / left / right movement of the mouse 20 to control the activated window screen to scroll up / down / left / right. As a result of the detection, if the mouse 20 is moved while the scroll button 25 is not pressed, the procedure proceeds to step S120 where the mouse cursor is moved according to the movement of the mouse 20.

6 is a flow chart showing the movement procedure of the mouse cursor using the x and Y-axis dial according to the present invention.

As described above, in the case of CAD or other graphic programs, the designation of the coordinates through the mouse 20 requires elaboration. As such, when the coordinates are finely adjusted, the mouse 20 according to the present invention can adjust the X and Y coordinates of the coordinates designated by the mouse using the X-axis dial 26 and the Y-axis dial 27, respectively. have.

Referring to FIG. 6, first, in step S200, the user moves the position of the cursor of the mouse 20 to a desired position. Then, in step S210, it is determined whether or not fine adjustment for the X coordinate designated by the mouse 20 is necessary. If fine adjustment is necessary for the X coordinate, the procedure goes to S220. Here, the user adjusts the X-axis dial 26 to the desired coordinates by adjusting the X-axis dial 26 mounted on one side of the mouse 22 and proceeds to step S230. As a result of the determination in step S210, if fine adjustment to the X coordinate is not necessary, the procedure proceeds to step S230. In step S230, it is determined whether or not fine adjustment is required for the Y coordinate designated by the mouse 20. If fine adjustment is necessary for the Y coordinate, in step S240, the user fine tunes the Y coordinate with the Y axis dial 27, and the procedure ends. If the fine adjustment for the Y coordinate is not necessary, the procedure is terminated. According to this procedure, the user can fine tune the X and Y coordinates designated by the mouse 20.

In the above, the configuration and operation of the circuit according to the present invention is shown in accordance with the above description and drawings, but this is merely an example, and various changes and modifications are possible without departing from the technical spirit of the present invention. .

According to the present invention as described above, the position of the cursor of the mouse can be specified more quickly and accurately by the X-axis dial, the Y-axis dial and the scroll button provided in the mouse.

Claims (1)

In the mouse, a computer input device: An X encoder for generating an X coordinate designated by the mouse; A Y encoder for generating a Y coordinate designated by the mouse; An X-axis dial for finely adjusting the X coordinate; A Y axis dial for finely adjusting the Y coordinate; A scroll button for moving the displayed area of the screen running on the computer up, down, left, or right; Controls for adjusting the coordinates specified by the mouse and the display area of the computer, connected to the X encoder, Y encoder, X axis dial, Y axis dial and scroll buttons, and in response to signals input from each button A microcomputer for generating a signal; And And at least one command button for inputting a control signal from the microcomputer to the computer.