KR200358460Y1 - Twist mouse - Google Patents

Abstract

The present invention puts a desired body part such as a hand or foot on the body of the mouse, tilts the movable plate in contact with the body, and detects the direction and angle of the mouse (hereinafter referred to as twisted mouse). It is about.

The structure of the mouse according to the present invention is a unitary structure in which the movable part 10 is coupled to the fixing part 20 as the supporting structure, and the fixing part 20 is in close contact with the bottom surface and the movable part 10 does not support the supporting structure. It is tilted in front, back, left, right, and 360 degrees in the center, and the tilted direction and angle are converted into electric signals by the sensing unit, and then converted into digital signals by the signal processor (VF conversion). It is a structure that converts it to a driver and is strong in external contamination since the sensing part is inside the mouse.It is easy to operate and occupies a small place because it is used only by tilting the angle while the main body is fixed. And since there is no fear of losing the pad, there is no need to move the mouse body is characterized by a structure that can reduce the physical burden.

Description

Mouse which operates by torsion angle operation {TWIST MOUSE}

The present invention relates to a mouse which is a computer peripheral device, and more specifically, a fixed part (hereinafter referred to as the fixed part 20) of the mouse and a part which moves in contact with the body (hereinafter referred to as the movable part 10) and a sensing part. The present invention relates to a mouse of an integrated structure coupled as a support structure, and to a mouse of a computer devised in view of practicality and convenience.

In general, a mouse and a ball mouse are used a lot, and most of them have to move the cursor by directly moving the entire mouse, which causes considerable fatigue on the hands, arms, and shoulders. Given that work is almost done, there is an urgent need for a mouse that is easy to use. In the case of the ball mouse, the ball is used by rubbing the ball on the floor, which causes foreign matter to be caught in the ball and encoder wheel in contact with the floor, causing frequent breakdowns due to contamination, and in the public facilities (school computer room, etc.) There is a case in which the ball is lost and cannot be used, and there are many problems such as securing the place of the mouse pad when using the ball.

Accordingly, an object of the present invention is to solve a problem such as fatigue to the user during long-term use, which is a problem of the conventional mice, and adhesion of foreign substances on the contact portion, and thus, the portion of the portion that is in contact with the body without moving the whole mouse. By changing the angle, the cursor on the screen can be moved, and the body part such as the hand or foot is placed on the mouse to reduce the fatigue on the body even when used for a long time compared to the conventional mice. The method also detects the amount of change based on the non-contact principle, and thus the life expectancy is semi-permanent and the detection unit is not exposed to the outside, so the object of the present invention is to provide an improved mouse without burden of contamination. And although there are such physical aspects, since the position of the mouse can be fixed and used in a place that fits his body type, it is easier to be skilled than the conventional mouse that can always be used by moving the position of the mouse, thereby improving work speed or function. The purpose of the present invention to provide an efficient mouse according to.

1 is a perspective view of a dolphin-shaped mouse according to the present invention

2 is a perspective view showing a hamburger-type mouse according to the present invention

3 is a perspective view of an embodiment of a mouse according to the present invention

4 is a plan view of a sensor unit employing a photocoupler

5 is a sectional view showing a movable part employed in FIG. 1.

6 is a view showing a bottom view of the movable portion employed in FIG.

7 is a cross-sectional view of the fixing unit employed in FIG.

Figure 8 is a perspective view of the mouse according to the present invention in the form of a separate operation button Figure 9 is a plan view of the digital slit of the mouse according to the present invention Figure 10 is a perspective view of the digital slit Figure 11 of the mouse according to the position of the digital slit Figure 12 is a diagram of the output waveform in which the digital slit is placed in a neutral state.

10: movable part 20: fixed part

31: operation button 40: thumb grip groove

41: hand support 50: engaging projection of the movable support shaft

51: movable part support shaft 52: movable part rotation prevention groove

53: elastic 54: elastic bracket

55: projection for preventing rotation of the moving part 60: engaging projection connecting groove

70 Slit 71 Slit Moving Range 77 Digital Slit 78 Digital Slit Recognition Band 90 Sensor 97 Sensor 98 L Sensor 99 R Sensor

The components of the present invention for realizing the above object can be divided into four parts, the fixing part 20, the moving part 10, the sensing part, and the signal processing part, and the fixing part 20 is placed on the installation bottom and the sensing part. And the signal processing unit are fixed and are coupled to the movable unit 10 as a supporting structure, and in the role of each part, they are moved in contact with a hand or a foot, and are fixed to the movable unit 10 having a fixing unit 20 and a connecting shaft, and an installation bottom surface. It consists of a fixed part 20, a detection unit for detecting the amount of change in the XY axis, a circuit unit for processing the change signal detected by the detection unit, the shape of the movable portion 10 in the form of each part of the round disk or hand It is a structure that the curved surface of the contact portion is convenient to be placed, and has a connecting shaft with the fixing part 20 in the central part, and is a structure that can be moved in a conical shape using the fixing point of the lower part of the connecting shaft as a vertex. 20) There is a connection port that holds the vertex of the connecting shaft of the movable part 10 in the lower part, and the sensing part and the circuit part are placed, and a suction plate for fixing the bottom surface is attached to the bottom, and the sensing part is the end of the connecting shaft of the movable part 10. It detects the amount of change in the XY axis that is moved in the form of a cone with the center of the part as a vertex, and converts the direction and angle into an electrical signal.The position is attached to the vertex part of the connecting axis and the connecting axis. It detects the movement of the connecting shaft divided by the XY axis and fixes the sensor 90 and converts the position of the slit moving along the connecting shaft into an electrical signal. The type and method of the sensor are a method of covering the photoelectric sensor 90 with the slit 70 and a method of changing the distance between the proximity sensor and the sensing object. In the analog method, a method of converting an analog signal into a digital signal and In the digital method, the position of the movable unit 10 is converted into an electric signal using a method of countering the digital signal generated by the sensor by the digital slit 77 in which several lines of recognition strips 78 are drawn. It reads the electric signal output from and converts it into the input signal of the mouse driver, and counts the number of pulses generated by the sensor to convert it to the mouse driver input signal of the XY axis according to the position and the tilted angle from the sensor. Do not convert the signal according to the magnitude of the analog signal, that is, the amount of electricity into a digital signal using the VF converter. It is to use as the input signal of the scan driver stage.

As described above, the twisted mouse according to the present invention is fixed to the position of the mouse and can be operated without a large movement by touching the movable portion 10 in the upper portion with the palm of the hand does not give fatigue to the user's arms and shoulders Since the sensing part is built in, it is protected from external contamination, so there is no need to periodically clean it, and there is no sensing part in contact with the outside, so the life of the product is semi-permanent. In addition, it can be easily mastered and improved by placing and manipulating the mouse in a position that suits you.

Claims (3)

In the mouse which is used as a means for moving and selecting the position of the cursor which shows the arbitrary position on the monitor screen in the computer system, the principle and structure of the movable part 10 which is placed on the bottom of the hand or under the foot and moved thereon; And a sensing unit for generating an XY movement signal in response to the movement of the movable unit (10), and a circuit unit having a function of speeding up the movement of the cursor in proportion to the inclination angle. The mouse according to claim 1, wherein the sensing unit has a structure of a slit (70) installed to show the same response in all directions of 360 degrees in a structure employing a photocoupler. The sensor unit of claim 1, wherein the sensing unit adopts a digital slit 77 in which a plurality of rectangular recognition bands 78 are formed in a line with an unrecognized line between the edges of the slit in a direction perpendicular to the sensor 97. Mouse characterized in that the structure to read the position by detecting the pulse generated by the moving recognition band 78 in the L sensor 98 and R sensor 99