KR101089065B1 - Ultra slim optical joystick - Google Patents

Abstract

The present invention relates to an optical joystick applied to a user interface of a portable terminal such as a mobile phone.

The present invention, a light source for emitting infrared light; A housing illuminated by the infrared light source and in contact with a subject; A holder accommodated in the housing and having a pair of reflective members formed therein to reflect light from the light source; An imaging lens disposed between the pair of reflecting units to form light; And a light receiving unit for detecting the formed light; Characterized in that consisting of.

Light joystick, reflector, reflector, refraction

Description

Ultra slim optical joystick {ULTRA SLIM OPTICAL JOYSTICK}

The present invention relates to an optical joystick applied to a user interface of a portable terminal such as a mobile phone.

In general, a terminal of an electronic device such as a mobile terminal or a personal digital assistant (PDA) adopts a user interface using a keypad.

In more detail, a terminal such as a mobile phone or a PDA includes a keypad formed with a plurality of buttons for inputting numbers, letters, or symbols, and a user presses a button of the keypad to recall desired data such as numbers or words. The menu can be selected by typing in a portable electronic device or by pressing a button cursor and a selection button.

The terminal of the electronic device includes a display unit to display data input by the user through the keypad and related information.

In recent years, wireless Internet services such as WIBRO (Wireless Broadband) and wireless mobile communication services have been commercialized to support communication services or Internet services using electronic devices.Graphical User Interfaces (GUIs) are used in mobile electronic devices such as mobile phones and PDAs. Windows operating systems, such as Windows CE, are being adopted to support this.

In addition, with the development of communication technology, the portable electronic device provides various additional services to the user, and the GUI-based Windows operating system facilitates the provision of the additional service by the portable electronic device.

A user interface for more convenient use of a general electronic device is a pointing device such as a mouse, a touchpad, a joystick, etc. Recently, a pointer such as a cursor is detected by detecting an optical signal that changes according to the movement of a finger, which is a subject. Optical joysticks that move or receive information and / or commands desired by the user have been developed and applied to electronic devices.

1 and 2, a general light joystick 10 may include a light source 11 and a cover 12, an illumination guide (not shown) for guiding light emitted from the light source to the cover 12, and an optical signal. An image sensor 15 for detecting the light, an imaging system 14 for guiding light to the image sensor 15, and a holder 13 for receiving components such as the illumination guide, the imaging system 14, and the light source. It is configured to include.

The optical joystick 10 may be provided separately from the electronic device 1 and may be connected by wire or wirelessly. In recent years, the optical joystick 10 may be directly mounted on the main body 2 of the electronic device such as a notebook or a mobile phone.

The outer surface (upper surface) of the cover is provided with an operation surface to contact the subject (P), such as a finger for the operation of the electronic device, the image sensor 15 is a PCB (for processing the input optical signal) Not shown).

Accordingly, when the finger, which is the subject P, moves on the operation surface, the optical signal input to the image sensor 15 changes according to the movement of the finger, and the electronic device is manipulated according to the movement of the finger. Can be.

In more detail, in the state where the subject P is not in contact with the upper side of the cover 12, more specifically, the operation surface, the light emitted from the light source 11 passes through the illumination guide. 12 is emitted to the outside of the cover 12 while penetrating.

On the other hand, when a subject such as a finger contacts the upper side of the cover 12, the light emitted from the light source 11 hits the subject P and is reflected, and then passes through the imaging system 14 to the image sensor. Incident at 15, the image of the subject is imaged with an optical signal.

Here, the imaging system 14 includes a plurality of components such as a prism 14a and a lens 14b made of a material such as glass or optical plastic, and condenses the light reflected by the subject in a predetermined direction or at the same time. When the object is transferred to the image sensor 15 and the subject outside the cover 12 moves, the optical signal reflected by the subject 12 and sensed by the image sensor 15 is also changed.

The image sensor 15 detects a change in the optical signal due to the movement of the subject, and accordingly, the movement of the cursor or the pointer is displayed on the display unit 3 of the electronic device 1.

The optical signal detection and image control scheme by the image sensor 15 is similar to that of an optical mouse mounted in a notebook computer, and thus detailed description thereof is omitted.

Since the above-described general optical joystick operates a portable electronic device by moving a cursor, that is, a pointer according to a movement of a subject, it is possible to implement a convenient operation as compared to a method of operating a portable electronic device by moving a cursor by a conventional keypad button. There is.

However, the conventional optical joystick has a problem in that the manufacturing cost increases as a large number of expensive components are mounted in the manufacturing process, and the manufacturing process is complicated, thereby decreasing productivity.

That is, in the case of the conventional optical joystick, a plurality of parts having a relatively high manufacturing cost and low assemblability, such as a holder accommodated inside the cover, an imaging system accommodated inside the holder, and an image sensor, are sequentially assembled according to a work order. A large number of parts accommodated in the holder has a problem that the size of the part is too small in the assembly process, the workability is lowered as well as the productivity of the product is lowered even if the assembly is completed.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and an object of the present invention is to provide an ultra-slim optical joystick that greatly improves productivity by improving assembly performance as well as reducing manufacturing costs by simplifying assembly parts.

Another object of the present invention is to form an imaging system and to reflect the light path in the horizontal and vertical directions by the holder integrally configured to increase the productivity through the simplification of the assembly.

The ultra-slim optical joystick according to the embodiment of the present invention manufactures the reflective member constituting the imaging system integrally with the holder without manufacturing through separate injection molding, thereby reducing assembly cost and improving assembly performance by simplifying assembly parts. This has the effect of greatly improving productivity.

In order to achieve the above object effectively, the present invention provides a light source for emitting infrared light; A housing illuminated by the infrared light source and in contact with a subject; A holder accommodated in the housing and having a pair of reflective members formed therein to reflect light from the light source; An imaging lens disposed between the pair of reflecting units to form light; And a light receiving unit for detecting the formed light; Characterized in that consisting of.

The pair of reflecting members may be integrally formed while maintaining the same inclination angle in the holder, and may include a reflecting plate formed of a reflective plate and a metal or non-metallic material having a high surface reflectivity.

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

3 is an exploded perspective view showing an ultra-slim optical joystick according to an embodiment of the present invention, Figure 4 is a cross-sectional view of the optical joystick according to an embodiment of the present invention, Figure 5 is the action of the optical joystick according to an embodiment of the present invention State diagram.

As shown in the drawing, the optical joystick according to the embodiment of the present invention has a light source 20 and an image contact lens 50 that forms a light with a housing 30 in contact with a subject and a holder 40 coupled with the housing 30. And a light receiving unit 60 for detecting light.

As the light source 20, at least one LED emitting infrared light is used, and the light is radiated toward the housing 30.

In addition, a pair of light sources 20 may be provided to increase the light intensity, but in this case, since the installation space is expanded, two light emitting die chips are mounted inside the LED to increase the light intensity, although not shown in the drawing. You can also

The housing 30 is composed of a transmission zone 32 through which the subject is in contact with the light of the light source 20 and a non-transmission zone 34 that blocks external light.

At this time, the separation of the transmission zone 32 and the non-transmission zone 34 may be separated by separately manufacturing and combining, or may be separated by attaching a separate shielding tape (not shown). In the present invention, the state is divided into a transmission zone 32 and a non-transmission zone 34 through the attachment of the shielding tape.

Such a housing 30 may be made of optical plastic so that light other than infrared rays may not be transmitted, and a coating may be applied to the surface of the housing 30 so that only infrared light may pass through the transparent plastic.

On the other hand, the housing 30 is provided with an accommodating space, the holder 40 is formed integrally a pair of reflecting members 42 are coupled.

The holder 40 may be manufactured by injection molding a synthetic resin material through which external light is not transmitted.

The reflection member 42 formed inside the holder 40 includes a reflection plate 42a and a reflection member 42b formed on the surface of the reflection plate 42a.

Reflecting plate 42a is formed integrally spaced apart from each other to maintain the same inclination angle in the holder 40.

That is, the reflecting plate 42a is configured inside the holder to maintain the inclination angle of 45 ° so that the light of the light source 20 can be reflected from the vertical direction to the horizontal direction again from the horizontal direction to the vertical direction.

Therefore, the reflecting plate 42a is formed at both inner ends of the holder 40 to change the path of light.

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In the reflective plate 42a, the reflector 42b is formed on the surface of the light source 20 so that the light path of the light source 20 is changed. At this time, when the reflecting material 42b is not formed on the surface of the reflecting plate 42a, since the light of the light source is all absorbed by the reflecting plate 42a and the path of the light cannot be changed, the surface of the reflecting plate 42a is necessarily. It must be applied or deposited on.

The reflecting material 42b may be used as a material having a high reflectance, for example, aluminum. Aluminum is not necessarily used, and may be used instead of the metal material if a material having a high reflectance is selected among the nonmetal materials.

Here, when the reflector 42b is formed on the reflecting plate 42a, a work process such as coating may proceed, and an operator may directly configure the reflector 42b on the surface of the reflecting plate 42a.

In addition, an imaging lens 50 is disposed between the pair of reflection plates 42a in the holder 40.

The imaging lens 50 is provided as a convex lens in order to proceed in a state where the light reflected through the reflecting member 42b is collected.

 In addition, the light receiving unit 60 for detecting the light of the light source 20 that is imaged through the reflective member 42b and the imaging lens 50 is coupled to the inside of the holder 40.

The light receiving unit 60 continuously captures the light of the light source 20, compares the captured image screen, and calculates a change amount as a displacement value.

Hereinafter, an operation state of the ultra slim optical joystick according to the embodiment of the present invention will be described.

When the light of the light source 20 begins to radiate into the transmission zone 32 of the housing and the subject comes into contact with the transmission zone 32 of the housing, the light passes through the transmission zone 32 and strikes the subject, and then the vertical direction Reflected into the housing 30.

 Light introduced into the housing 30 is reflected from the vertical direction to the horizontal direction through the reflective member 42 formed integrally with the housing 30.

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In the process of reflecting light, the imaging lens 50 collects the dispersed light.

The light passing through the imaging lens 50 is reflected to the light receiving unit 60 while being reflected in the vertical direction again through the reflecting plate 42b.

The light receiving unit 60 continuously captures the incoming light, calculates a displacement value according to the change in the received light, and transmits the calculated light to the microcomputer of the portable terminal.

Therefore, when the reflection member 42 is integrally formed on the holder 40, the reflection member 42 does not need to be manufactured and installed separately, thereby simplifying the work process and lowering the defective rate.

Although the ultra-slim optical joystick according to the embodiment of the present invention has been described above, the present invention is not limited thereto and those skilled in the art can apply and modify the same.

1 is a perspective view showing a state in which an optical joystick is installed in a portable terminal.

Figure 2 is a state diagram showing the operation of the conventional optical joystick operation.

Figure 3 is an exploded perspective view showing an ultra slim optical joystick according to an embodiment of the present invention.

4 is a cross-sectional view of an optical joystick according to an embodiment of the present invention.

5 is a working state of the optical joystick according to an embodiment of the present invention.

<Explanation of symbols for each major part of drawing>

20: light source 30: housing

32: transmission zone 34: non-transmission zone

40: holder 42: reflective member

42a: reflecting plate 42b: reflector

50: imaging lens 60: light receiving unit

Claims (5)

A light source emitting infrared light; A housing illuminated by the infrared light source and in contact with a subject; A holder formed of a non-transmissive material and accommodated in the housing and having a pair of reflection members formed therein to reflect the light of the light source therein; An imaging lens disposed between the pair of reflecting members to form light; And It includes a light receiving unit for detecting the formed light, And the pair of reflecting members are integrally formed with the holder. The method of claim 1, And the pair of reflecting members are formed inside the holder to maintain the same inclination angle. The method of claim 1, The pair of reflective members is a super slim optical joystick, characterized in that the reflective plate and a reflective material composed of any one of a metal material or a non-metal material having a high surface reflectance. The method of claim 3, The reflective plate is an ultra-slim light joystick, characterized in that for maintaining an inclination angle of 45 °. The method of claim 1, The light source is an infrared LED, ultra-thin light joystick, characterized in that at least one light emitting die chip is mounted.

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