KR100547090B1 - Pen-shaped optical mouse - Google Patents

Abstract

A pen type optical mouse is disclosed. In the apparatus of the present invention, the optical system inside the body, the first optical system connected to the optical tip by installing the light emitting unit or connected through the optical fiber, and the second optical system connected through the bundle optical fiber is installed inside the body, the wheel switch is It is characterized by being adopted. According to the present invention, by installing two simple optical system inside the body it is possible to provide a space inside the body to install the components constituting the wheel switch, easy to use and easy to use the wheel switch having a complex function to the pen-type mouse It is easy to make the body pen-shaped by forming the path of the reflected light by using the bundle optical fiber, and can transmit the good image to the image sensor, and two wheels on one wheel switch so as to be symmetrical with respect to the longitudinal direction of the body. By installing the wheel, anyone can easily use it regardless of user habits.

Pen-type optical mouse, optical system, bundle optical fiber, wheel switch, rotary encoder, PCB board

Description

Pen type optical mouse             

1 is a schematic diagram for explaining a conventional wheel mouse;

2 and 3 are schematic views for explaining a pen-type optical mouse according to an embodiment of the present invention.

<Description of Reference Numbers for Main Parts of Drawings>

100: body 200: optical tip

300: first optical system 310: light emitting unit

320, 410: condenser lens 400: second optical system

420: bundle fiber 430: imaging system

440: image sensor 500: wheel switch

510: wheel 520: rotary encoder

530: PCB substrate 600: microcomputer

700: click button

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pen-type optical mouse, and more particularly, to a pen-type optical mouse in which a wheel switch is easily adopted and a wheel switch is employed.

A mouse, along with a keyboard, is an essential input device for computers. In particular, the mouse has become an indispensable device due to the rapid increase in the number of computer users and usage time due to the recent development of the Windows operating system and the Internet. As a result of the proliferation of Internet users and the increase in computer usage time and the necessity of portable systems such as laptops and tablet PCs, the pen-type mouse has become more convenient and portable than the conventional dome type mouse. It appeared.

The pen-type mouse adopts a method of reading a pattern image of a reflecting surface with an image sensor and reading a movement direction and a displacement of the pattern like an optical mouse. The pen-type mouse has a body size, ie, a small size, and a system for accommodating each function setting button, which is a measure of skill level, so that the user can use it comfortably.

1 is a schematic diagram for explaining an operation concept of a conventional pen-type optical mouse.

Referring to FIG. 1, light incident from the light emitting unit is reflected on the reflective surface, and the reflected light is sequentially inputted to the image sensor through the condenser lens and the image forming unit to form an image. At this time, the mouse is provided with a button (button) for selecting various functions, the conventional pen-type optical mouse is a button is clicked when the end of the condenser lens is pressed.

However, this pressing operation changes the focal length of the condenser lens or the imaging unit, so that the image formed on the image sensor cannot maintain an optimal state. Therefore, in the conventional pen-type optical mouse, it is common to keep the focal length long in order to maintain an image recognizable state to some extent. In this case, many limitations in structure and performance are involved in the design of the optical system. In particular, it is impossible to place the function setting button of the mouse at a desired position due to the position of the image sensor or the limitation of the space occupied by the optical system.

These problems make it difficult to employ a wheel switch that is easy to use and has a complex function in a pen-type mouse, thereby acting as a limiting factor for using a pen-type mouse.

Accordingly, an object of the present invention is to provide a pen-type optical mouse employing a wheel switch that is easy to use.

Pen-shaped optical mouse according to the present invention for achieving the above technical problem: a pen-shaped body; A transparent optical tip installed at one end of the body; A first light emitting unit installed inside the body, the light emitting unit installed in close proximity to the optical tip, and condensing the light emitted from the light emitting unit so that light is irradiated to a reflecting surface located outside the body through the optical tip; A first optical system including a condenser lens; A second condensing lens installed inside the body and installed to pass the reflected light when the light irradiated through the first optical system is reflected by a reflecting surface located outside the body; A second optical system including a bundle optical fiber for guiding light, an image forming unit for receiving light from the bundle optical fiber and forming an image and outputting the light; ; A wheel which is axially coupled so as to be freely rotated so that a part thereof protrudes out through a drilling hole formed in the body, and a rotary which is installed in the body and the rotor is connected to the rotation axis of the wheel to rotate together with the wheel to generate pulse A wheel switch including an encoder and a PCB substrate which receives a pulse from the rotary encoder and converts the pulse into an electrical signal; Analyze the pattern information of the surface of the reflection surface input to the image sensor using the electrical signal output from the image sensor to read the moving direction and the distance of the mouse, and using the electrical signal output from the PCB circuit of the wheel And a microcomputer that reads the rotation direction and the rotation angle and transmits the read information to the computer main body.

At this time, a separate wheel that is symmetrical with the wheel in the longitudinal direction of the body and is axially coupled to rotate together with the wheel, and a part of the wheel is protruded out through a hole formed in the side of the body to the body. It is preferable to install more.

Furthermore, an optical fiber connecting the light emitting part and the first condensing lens may be further provided to guide the light emitted from the light emitting part to the first condensing lens.

Furthermore, the first condensing lens and the second condensing lens may be formed of one condensing lens.

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

2 and 3 are schematic views for explaining a pen-type optical mouse according to an embodiment of the present invention.

2 and 3, the pen-type optical mouse according to the first embodiment of the present invention, the body 100, the optical tip 200, the click button 700, the first optical system 300 and , A second optical system 400, a wheel switch 400, and a microcomputer 600 are provided.

The mouse body 100 has a pen shape, which is a human expression tool most familiar to humans. By using such a pen shape, the mouse according to the present invention has no fatigue and is easy to carry even for a long time, and is easy to use even in a narrow space, and has excellent functions such as precise work or handwritten expression.

The optical tip 200 is made of a transparent body, when the optical tip 200 is pressed against the reflective surface, the optical tip 200 moves inwardly into the mouse body 100, and when the pressing is released, the optical tip 200 is moved outward by the elastic force of the spring. It is installed to pop back out and restore to its original state. And, it is fixed by the holder (not shown) so that there is no shaking from side to side.

The click button 700 corresponding to the left click button of the conventional mouse is installed to be clicked when the optical tip 200 moves inwardly into the body 100.

The first optical system 300 is installed inside the body 100, and includes a light emitting unit 310 and a light irradiating unit to serve to irradiate light to a reflective surface located outside the body through the optical tip 200. Is done.

The light emitting unit 310 may be a light emitting diode (LED) or an electro luminescent (EL) device, and the like, and is installed in proximity to the optical tip 200. The light irradiation part is installed between the optical tip 200 and the light emitting part 310 and includes a condenser lens 320 so that the light emitted from the light emitting part is irradiated to the reflective surface through the optical tip. An optical fiber (not shown) connecting the light emitting part and the light irradiation part may be further provided to guide the light emitted from the light emitting part to the light irradiation part.

The second optical system 400 is installed inside the body 100, and when the light emitted from the first optical system 300 is reflected on a reflecting surface located outside the body and is incident into the body 100, the reflected light will be described later. The path to the image sensor 440 is formed. To this end, the second optical system 400 includes a condenser lens 410, a bundle optical fiber 420, an image forming unit 430, and an image sensor 440.

The condenser lens 410 is installed so that the reflected light passes when the light irradiated from the first optical system 300 is reflected by a reflecting surface positioned outside the body 100 so that the reflected light entering the mouse body 100 is bundled into the optical fiber. To focus on 420 In this case, the condenser lens 320 of the first optical system 300 is used as the condenser lens 410. The bundle optical fiber 420 guides the light passing through the condenser lens 410. The bundle optical fiber 420 transfers the light passing through the condenser lens 410 to the image forming unit 430 without distortion by its image guiding characteristic. The image forming unit 430 receives light emitted from the bundle optical fiber 420 and forms an image to form an accurate image on the image sensor 440. At this time, the bundle optical fiber 420 is installed so that both ends are fixed to the condenser lens 410 and the image forming unit 430, respectively, by using a fixing stand for stably guiding the light. The image sensor 440 receives light from the image forming unit 430, converts the light into an electrical signal, and outputs the electrical signal. As the image sensor 440, a CMOS, a charge coupled device (CCD), or the like may be used. When the CMOS sensor is used, the CMOS sensor may be packaged in a chip together with the microcomputer circuit. The electrical signal output from the image sensor 440 contains pattern information of the surface of the reflective surface.

The wheel switch 500 includes a wheel 510, a rotary encoder 520, and a PCB substrate 530 to perform a scroll function.

The wheel 510 is axially coupled to be free to rotate and is installed to protrude outward through a drilling hole formed in the body 100. The rotary encoder 520 is installed in the body 100 and the rotor is connected to the rotation axis of the wheel 510 to rotate together with the wheel to generate a pulse. The PCB substrate 530 receives pulses from the rotary encoder 520 and converts them into electrical signals and outputs them. In this case, the electrical signal output from the PCB circuit 530 contains information about the phase difference of the pulse generated by the rotary encoder 520 and the number of pulses.

The wheel 510 is a separate wheel (hereinafter referred to as a first wheel 511) with respect to the longitudinal direction of the body (hereinafter, referred to as the first wheel 511) so that both the left and right handed people can easily use it. Is referred to as a second wheel 512). In this case, the second wheel 512 is axially coupled to rotate together with the first wheel 511, and is installed such that a part of the second wheel 512 protrudes out through a hole formed in the side of the body 100. Therefore, the rotor of the rotary encoder 520 is also rotated by the rotation of the second wheel 512, whereby the PCB substrate 530 outputs an electrical signal. The installation form of the wheel can be modified in various ways, a typical case is shown in FIG.

The microcomputer 600 analyzes the pattern information of the surface of the reflection surface input to the image sensor by using the electrical signal output from the image sensor 440 to read the moving direction and the distance of the mouse and to a computer body (not shown). Send. Then, by using the electrical signal output from the PCB circuit 530, that is, by using the rotation direction of the wheel 510 using the phase difference of the pulse generated by the rotary encoder 520 and the number of pulses determined by reading the rotation angle The read information is transmitted to the computer main body.

As described above, according to the present invention, a wheel switch is formed by forming an optical system inside the body as a first optical system connected to an optical tip or a first optical system connected through an optical fiber and a second optical system connected through a bundle optical fiber. A space for installing the element can be provided inside the body, so that a wheel switch that is convenient to use and has a complex function can be easily employed in the pen-type mouse.

In addition, since the path of the light reflected by the reflecting surface is formed using a bundle of optical fibers, the distance from the reflecting surface to the image sensor and the light transmission path are not affected, and thus the structure of the optical system is not limited to making the pen shape. By implementing an image guide, good images can be delivered to the image sensor.

Furthermore, by installing two wheels in one wheel switch so as to be symmetrical with respect to the longitudinal direction of the body, anyone can easily use them regardless of user habits.

The present invention is not limited to the above embodiments, and it is apparent that many modifications are possible by those skilled in the art within the technical spirit of the present invention.

Claims (4)

A pen-shaped body; A transparent optical tip installed at one end of the body; A first light emitting unit installed inside the body, the light emitting unit installed in close proximity to the optical tip, and condensing the light emitted from the light emitting unit so that light is irradiated to a reflecting surface located outside the body through the optical tip; A first optical system including a condenser lens; A second condensing lens installed inside the body and installed to pass the reflected light when the light irradiated through the first optical system is reflected by a reflecting surface located outside the body; A second optical system including a bundle optical fiber for guiding light, an image forming unit for receiving light from the bundle optical fiber and forming an image and outputting the light; ; A wheel which is axially coupled so as to be freely rotated so that a part thereof protrudes out through a drilling hole formed in the body, and a rotary which is installed in the body and the rotor is connected to the rotation axis of the wheel to rotate together with the wheel to generate a pulse A wheel switch including an encoder and a PCB substrate which receives a pulse from the rotary encoder and converts the pulse into an electrical signal; Analyze the pattern information of the surface of the reflection surface input to the image sensor using the electrical signal output from the image sensor to read the movement direction and distance of the mouse, and the wheel using the electrical signal output from the PCB circuit And a microcomputer for reading the rotation direction and the rotation angle of the microcomputer and transmitting the read information to the computer main body. The separate wheel of claim 1, wherein the wheel is axially symmetrical with the wheel with respect to the longitudinal direction of the body and is axially coupled to rotate together with the wheel, and a separate wheel protrudes out through a hole formed in the side of the body. Pen-type optical mouse, characterized in that further installed in the body. The pen-shaped optical mouse according to claim 1, further comprising an optical fiber connecting the light emitting part and the first condensing lens to guide the light emitted from the light emitting part to the first condensing lens. The pen-type optical mouse according to claim 1 or 3, wherein the first condensing lens and the second condensing lens are composed of one condensing lens.

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