KR101415028B1 - 3 d glasses remocon - Google Patents

Abstract

The present invention relates to a 3D eyeglasses remote controller, which implements a few buttons, whose frequency of use is high, on the temples of the 3D eyeglasses to be conveniently used without searching for a separate remote controller while a user watches a 3D video. The present invention, for the 3D eyeglasses including a pair of lens parts for watching the 3D video and a eyeglasses frame for supporting the lens parts, implements the remote controller by exposing buttons on the outside of the temples while a space for installing parts is formed within the temples of the eyeglasses frame. The remote controller comprises: an IR LED for generating an ultraviolet signal according to a driving signal; an IR driving part for driving the IR LED according to a control signal; and a controller for storing data on a set remote controller protocol, and when a button is pushed while buttons are scanned, taking data on the corresponding button and controlling the IR driving part. The present invention implements frequently used remote control functions such as volume control, temporary stop, etc. on the 3D eyeglasses for watching the 3D video to enable a user to operate wanted functions with the buttons implemented on the temples while the user wears the 3D eyeglasses and watches the 3D video, thereby enhancing convenience of use.

Description

3D glasses remote control {3 D GLASSES REMOCON}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a 3D glasses for viewing a 3D image, and more particularly, And more particularly to a 3D glasses remote control which can be conveniently used.

In general, a stereoscopic (3D) image refers to an image that artificially forms a difference in the wide angle felt in a real image to make a three-dimensional sensation, and is classified into various types according to the expression method. In order to express a stereoscopic image, there is a method of composing a plurality of images of more than 24 from a method of using two images, but only two images are required when synthesized in a human brain, and a stereoscopic image If three or more images come in at the same time to the viewers' viewpoint, dizziness or sharpness deteriorates. The stereogram is a method of constructing a stereoscopic image by two left and right images. The lenticular is a method using a column lens filter. The laser hologram is a stereoscopic image implemented by a hologram printing method using a laser.

There are two types of stereoscopic image reproduction: glasses type and non-eye type. Glasses are divided into two types, polarizing type (passive type) and shutter type (active type), depending on the method of separating images. The polarizing type senses the vibrations of light such as up and down, left and right, filtering out images, and the shutter type is to select images in such a way that both lenses intercept the light alternately. Polarization is comfortable viewing, while resolution is low, and shuttering can see high-resolution images, but it can cause dizziness.

Prior art: 1. Patent publication publication 10-2011-0113848 (public date October 19, 2011)

2. Patent Laid-Open Publication No. 10-2011-0112575 (published date October 13, 2011)

Conventionally, when 3D glasses are worn and a three-dimensional stereoscopic image such as a 3D TV is watched, there is a problem in that it is inconvenient to use the remote controller in order to operate the image or volume.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the related art, and an object of the present invention is to provide a stereoscopic 3D stereoscopic image display device, A 3D glasses remote control which can be operated by a user.

According to an aspect of the present invention, there is provided a 3D glasses including a pair of lens units for viewing a 3D image and an eyeglass frame for supporting the lens unit, A button is exposed on the outer side to implement a remote controller,

The remote controller includes an IR LED for generating an infrared signal according to a driving signal, an IR driver for driving the IR LED according to a control signal, and a controller for storing data of a predetermined remote control protocol. When the button is scanned, And a controller for controlling the IR driver.

The buttons are composed of first through fourth audio control buttons and fifth through eighth video control buttons, respectively, and four audio control buttons are provided on both side glasses. The audio control buttons are used for power, volume up, volume down, And a mute button, and the video control button includes play, pause, fast playback (FF), and rewind (REW).

According to the present invention, a frequently used remote control function such as volume or pause is implemented in a 3D glasses for viewing a three-dimensional image, and a desired operation is performed on a button So that it is easy to use.

1 is a perspective view of a 3D glasses remote control according to a first embodiment of the present invention,
2 is a perspective view of a 3D glasses remote control according to a second aspect of the present invention,
FIG. 3 is a perspective view showing a remote control of the eyeglass leg type according to the present invention,
Fig. 4 is a schematic component layout diagram of a remote control of the eyeglass leg-
5 is a circuit diagram of a 3D glasses remote controller according to the present invention,
6 is a flowchart showing the operation of the 3D glasses remote controller according to the present invention,
7 shows an example of a remote control data format applied to the present invention,
8 is a pattern example of data 1 and 0 in FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features, and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings. The following examples are merely illustrative of the present invention and are not intended to limit the scope of the present invention.

FIG. 1 is a perspective view of a 3D glasses remote control according to the present invention in a first direction, and FIG. 2 is a perspective view in a second direction of a 3D glasses remote control according to the present invention.

1 and 2, the 3D glasses remote control according to the present invention includes a lens unit 102 for viewing a 3D image, an eyeglass frame 104 for supporting the lens unit 102, And remote controllers 110 and 120 implemented on the legs.

In the embodiment of the present invention, the remote controllers 110 and 120 implemented on the spectacle legs can be operated by the four buttons 130 implemented on the left eyeglass leg and the four buttons 130 implemented on the right eyeglass leg, The buttons (B1 to B8) are as shown in Table 1 below.

division designation function
left side
(audio) POWER Power on / off VOL + Rise in volume VOL- Volume down MUTE Silent treatment
right
(video) PLAY play PAUSE Pause FF Fast playback REW Rewind

Hereinafter, a detailed description will be made of the eyeglass leg portion in which the remote control function is implemented in the 3D glasses remote control of the present invention.

FIG. 3 is a perspective view showing a remote control of the eyeglass leg type according to the present invention, FIG. 4 is a schematic component arrangement view of the remote control of the eyeglass leg type according to the present invention, and FIG. 5 is a circuit diagram of the 3D glasses remote control according to the present invention .

As shown in FIGS. 3 and 4, the eyeglass leg 110 having the remote controller according to the present invention has a body 110a which is thicker than the rear portion of the eyeglass leg, and a component mounting space is formed therein. The IR LED 111, the coin type battery 112 and the PCB 113 are mounted on the body portion 110a and four buttons B1 to B4 are exposed on the outer side. Also, the four buttons B5 to B8 implemented on the other eyeglass legs 120 are connected to a signal line through an inner space of the front surface of the eyeglass frame.

5, the remote control circuit according to the present invention includes first to fourth audio control buttons B1 to B4, fifth to eighth video control buttons B5 to B8, An IR drive unit 115 for driving an IR LED according to a control signal, first to fourth audio control buttons B1 to B4 and fifth to eighth control buttons B1 to B4, And a controller 114 for controlling the IR driving unit 115 to output control signals of the corresponding key buttons and output an infrared signal when the corresponding video control buttons B5 to B8 are pressed.

Referring to FIG. 5, the first through fourth audio control buttons B1 through B4 are four buttons protruding from the left eyeglass leg 110 as shown in Table 1, and include buttons for power, volume up, volume down, And the fifth to eighth video control buttons B5 to B8 are buttons for reproducing, pausing, fast-forwarding, and rewinding protruding from the right eyeglass leg 120. In the embodiment of the present invention, the buttons are provided on both legs of the eyeglasses. However, the button may be implemented only on one eyeglass leg or independently of two remote controllers.

The IR driver 115 is implemented as a transistor TR and is turned on under the control of the controller 114 to operate the IR LED 111 to transmit an infrared signal.

The controller 114 stores data corresponding to the key in accordance with a remote control protocol such as RC-5, D6121, TC9012, etc., and when the button is operated, the controller 114 controls the IR driver 115 to fetch the data. In the embodiment of the present invention, the TC9012 protocol as shown in FIGS. 7 and 8 is used. For example, when the POWER button B1 is input, custom 0x07 and data 0x02 are used.

FIG. 6 is an operational flowchart of the 3D glasses remote control according to the present invention, FIG. 7 shows an example of a remote control data format applied to the present invention, and FIG. 8 shows an example of patterns of data 1 and 0.

As shown in FIG. 6, the 3D glasses remote controller according to the present invention scans a key in a standby state and, when a key is input, loads data corresponding to the key, The infrared signal is output according to the format (S1 to S4).

Referring to FIG. 6, there are RC-5, D6121, and TC9012 remote control protocols. In the TC9012 protocol, a LEADER code, a 2-byte custom code, (DATA), and data repair (DATA- ¹ ). And data 0 is 0.56 ms high in 1.125 ms period and data 1 is 0.56 ms high in 2.25 ms period as shown in FIG.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

102: lens unit 104: eyeglass frame
110, 120: eyeglass leg 110a: torso
111: IR LED 112: Coin battery
113: PCB 114: Controller
115: IR driver 130:

Claims (3)

A 3D spectacle comprising a pair of lens units (102) for viewing a 3D image and an eyeglass frame (104) for supporting the lens unit (102)
The spectacle frame 110 of the spectacle frame 104 is provided with a space for mounting components therein and a button is exposed on the outside to implement a remote controller,
The eyeglass leg 110 has a body 110a that is thicker than the rear of the eyeglass leg 110 and a component mounting space is formed therein. The IR LED 111 is attached to the thick body 110a, A battery 112 and a PCB 113 are mounted, four buttons B1 to B4 are exposed on the outside,
The other four buttons B5 to B8 implemented on the eyeglass leg 120 are connected to the eyeglass frame 104 through a space inside the front surface of the eyeglass frame 104 by a signal line,
The remote control circuit includes first to fourth audio control buttons B1 to B4, fifth to eighth video control buttons B5 to B8, an IR LED 111 for generating an infrared signal in response to a driving signal, An IR driving unit 115 for driving an IR LED according to a control signal, and first to fourth audio control buttons B1 to B4 and fifth to eighth video control buttons B5 to B8, And a controller 114 for controlling the IR driving unit 115 to fetch the control data of the corresponding button when the button is pressed and output an infrared signal,
The first through fourth audio control buttons B1 through B4 are four buttons protruding from the left eyeglass leg 110 and are buttons for power, volume up, volume down, and mute. The fifth through eighth video control buttons (B5 to B8) are buttons for reproducing, pausing, fast-forwarding, and rewinding protruding from the right eyeglass leg 120,
The IR driver 115 is implemented as a transistor TR and is turned on under the control of the controller 114 to operate the IR LED 111 to transmit an infrared signal.
The controller 114 stores data corresponding to buttons in accordance with a remote control protocol such as RC-5, D6121, or TC9012. When the button is operated, the controller 114 fetches corresponding data to control the IR driver 115,
Wherein the TC9012 remote control protocol comprises a LEADER code, a 2-byte custom code, data, and data repair (DATA- ¹ ).
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