KR20170024453A - Pointing device using three dimensional virtual button - Google Patents

Abstract

A pointing device using a three dimensional virtual button comprises: a button display layer on which at least one button is displayed; a three dimension three-dimensional test filter layer located in an upper portion of the button display layer and configured to separate images of the right eye and the left eye; a point layer located in the upper portion of the filter layer and configured to obtain a pointing location of a user; and a lighting layer located in a lower portion of the button display layer to emit light.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a pointing device using a three-

The present invention relates to a pointing device using a three-dimensional virtual button.

Currently, automobile buttons and unmanned kiosk buttons are frequently damaged due to frequent pressing, so that the current mechanical buttons are required to be converted into three-dimensional non-eye contactless buttons with a beautiful appearance.

For example, when a highly infectious disease such as mers is in epidemic, non - contact type using a three - dimensional virtual button rather than a contact button is preferred, and thus hygienic demand is expected to increase.

In addition, the conventional touch panel method has a problem in that a password is easily exposed by a secret camera installed on an upper part of an ATM or the like.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a pointing device using a three-dimensional virtual button capable of minimizing a mechanical failure by a non-contact button method.

It is another object of the present invention to provide a pointing device using a three-dimensional virtual button that can observe an image of a button by three-dimensional stereoscopic vision and prevent exposure of button information by a camera have.

It is another object of the present invention to provide a pointing device using a three-dimensional virtual button that can be implemented at a low cost by a simple structure.

A pointing device using a three-dimensional virtual button according to a preferred embodiment of the present invention includes: a button display layer having at least one button displayed; A three-dimensional stereoscopic effect filter layer positioned above the button display layer and capable of separating images of the left eye and the right eye; And a point layer located on top of the filter layer to obtain a pointing position of the user.

In addition, the pointing device of the present invention may further include an illumination layer positioned below the button display layer and capable of emitting light.

Preferably, the illumination device is disposed at a position corresponding to a position of at least one button displayed on the button display layer. Specifically, when the user has pointed the button, the lighting layer is capable of displaying the pointed button to the user using the lighting device corresponding to the position of the button.

The pointing layer comprising: at least one infrared light emitting element located on top of the filter layer; And at least one infrared sensor located on the upper side of the filter layer. It is preferable that the button display layer is divided into the left and right eye viewpoints, and the left eye image and the right eye image are displayed in an intersecting manner.

In addition, the portion of the button display layer on which the button is displayed is characterized in that it is translucent.

According to the pointing device using the three-dimensional virtual button of the present invention, the mechanical failure can be minimized by the non-contact button method. In addition, according to the present invention, a user can observe an image of a button by three-dimensional stereoscopic vision, thereby preventing exposure of the button information by the camera. In addition, according to the present invention, a pointing device using a three-dimensional virtual button can be implemented at a low cost by a simple structure.

1 is an exploded perspective view of a pointing device using a three-dimensional virtual button according to a preferred embodiment of the present invention.
FIG. 2 is an explanatory view showing the synthesis of left and right eye images by the button display layer and the filter layer. FIG.

Hereinafter, a pointing device using a three-dimensional virtual button according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

It should be understood that the following embodiments of the present invention are only for embodying the present invention and do not limit or limit the scope of the present invention. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1 is an exploded perspective view of a pointing device 100 using a three-dimensional virtual button according to a preferred embodiment of the present invention.

1, the pointing device 100 using a three-dimensional virtual button according to a preferred embodiment of the present invention includes a pointing layer 10, a filter layer 20, a button display layer 30, (40).

The pointing layer 10 is preferably located on top of the filter layer 20 and preferably includes at least one infrared light emitting element 11 and at least one infrared sensor 12. [

It is preferable that the pointing layer 10 is located at the top of the pointing device 100 of the present invention as a portion for obtaining the pointing position of the finger in three dimensions. The pointing layer 10 is composed of at least one infrared ray emitting element 11 and at least one infrared ray sensor 12 as an infrared ray receiving element to calculate the three-dimensional position of the finger. The position calculation principle can be achieved by calculating the integral value of the light emission amount of the light emitting element 11 and the total integration amount of infrared rays by the sensor 12 as the light receiving element. The height of the pointing layer 10 for three-dimensional positioning is very limited so that only the two-dimensional coordinates of the finger are checked. The position of the finger can be calculated when the finger enters the pointing layer 10 and enters the three-dimensional region of the pointing layer 10.

In order to recognize the three dimensions, the images viewed from the respective viewpoints of the left and right sides should be input. To this end, the filter layer 20 is positioned above the button display layer 30 and separates the left eye image and the right eye image for three-dimensional stereoscopic viewing.

The filter layer 20 may be implemented using a parallax barrier or a lenticular lens system in order to realize a three-dimensional image by glasses.

Next, the button display layer 30 is characterized in that at least one button 31 is displayed.

It is preferable that the portion of the button display layer 30 on which the button 31 is displayed is translucent. That is, when the illumination device 41 of the illumination layer 40 emits light, the user can confirm whether or not the illumination device 41 of the illumination layer 40 emits light through the translucent button 31.

The method of displaying at least one button 31 on the button display layer 30 may be implemented by printing a button 31 on a glass plate or a plastic plate.

2 is a view for explaining the synthesis of the left eye and right eye images by the button display layer 30 and the filter layer 20. Fig.

As can be seen from FIG. 2, at least one button 31 displayed on the button display layer 30 is divided into respective viewpoints of the left eye and right eye, and the left eye image and the right eye image are crossed and displayed.

That is, the at least one button 31 produces a three-dimensional image of the button 31 in a three-dimensional graphic, divides the three-dimensional image into the right and left eyes, and mixes the left and right images one by one. The images formed by the intersections of left and right lines are matched to the filter shape of the filter layer 20 designed to separate left and right lines one by one so that the left and right images are separated and output.

The illumination layer 40 preferably includes a lighting device 41 located below the button display layer 30 and capable of emitting light. As the illumination device 41 of the illumination layer 40, various illumination elements including light emitting diodes and / or laser diodes can be used.

The illumination layer 40 serves to allow the pointed button 31 to display a different color from the unpointed button 31, thereby recognizing the pointing portion. The control unit (not shown) controls the operation of the illumination layer 40 using the position data obtained in the pointing layer 10 so that the lighting device 41 at the position corresponding to the button 31 emits light Confirm the depressed button 31.

Alternatively, all the illumination devices 41 included in the illumination layer 40 are always illuminated, and when the button 31 is pointed, the illumination device 41 at the position corresponding to the button 31 does not emit light You may.

In addition, all the lighting devices 41 included in the illumination layer 40 emit light in the color 'A' at all times, and when the button 31 is pointed, the lighting device 40 at the position corresponding to the button 31 41 may be made to emit light in the color "B".

That is, the illumination layer 40 is characterized in that the illumination device 41 is disposed at a position corresponding to the position of at least one button 31 displayed on the button display layer 30. [ It is possible to display the pointed button 31 to the user by using the lighting device 41 corresponding to the position of the button 31 when the user has pointed the button 31. [

According to the pointing device 100 using the three-dimensional virtual button of the present invention as described above, the virtual button set is displayed on the three-dimensional space using the non-eye stereoscopic representation technology and the pointing position read It can be seen that the position of the finger on the three-dimensional plane is read through the device to check on / off of the virtual button and to indicate that the corresponding button 31 has been pressed.

In the conventional touch panel method, a password is easily exposed by a camera or the like installed on an upper part of an ATM or the like. However, the pointing device 100 using the three-dimensional virtual button of the present invention, It can be said that it is suitable for the purposes such as banking because it can contribute to security such as a password in contrast to the three-dimensional stereoscopic image.

In addition, the pointing device 100 using the three-dimensional virtual button of the present invention is much more efficient in a job in which liquid such as a hand is occasionally buried in the hand, so that a demand for a job-specific device can be newly created. Further, if the production cost of the pointing device 100 using the three-dimensional virtual button of the present invention starts to fall below a predetermined unit price by mass supply, it is possible to advance the demand for switching to a non-contact three-dimensional button, will be. In other words, new demand can be expected to increase in places such as cash dispensers, kiosks in hospitals, and kitchen facilities for restaurants.

In summary, according to the pointing device 100 using the three-dimensional virtual button of the present invention, the mechanical failure can be minimized by the non-contact button method. In addition, according to the present invention, the user can observe the image of the button 31 by the three-dimensional stereoscopic vision, and the camera 31 can prevent the button 31 from being exposed. Further, according to the present invention, the pointing device 100 using a three-dimensional virtual button can be implemented at a low cost by a simple structure.

100: Pointing device
10: pointing layer 20: filter layer
30: button display layer 40: illumination layer
11: Infrared ray emitting element 12: Infrared ray sensor
31: Button 41: Lighting device

Claims (7)

A button display layer displaying at least one button;
A three-dimensional stereoscopic effect filter layer positioned above the button display layer and capable of separating images of the left eye and the right eye; And
And a point layer positioned above the filter layer to obtain a pointing position of a user. The method according to claim 1,
The pointing device comprises:
The pointing device according to claim 1, further comprising: an illuminating layer positioned below the button display layer and capable of emitting light. 3. The method of claim 2,
Wherein the illumination layer
Wherein the lighting device is disposed at a position corresponding to a position of at least one button displayed on the button display layer. The method of claim 3,
Wherein the illumination layer
Wherein the pointing button can be displayed to the user using the lighting device corresponding to the position of the button when the user has pointed the button. The method according to claim 1,
Wherein the pointing layer comprises:
At least one infrared light emitting element located above the filter layer; And
And at least one infrared sensor positioned above the filter layer. The method according to claim 1,
The button display layer
The left eye image, and the right eye image are crossed and displayed on the left and right eyes of the user. The method according to claim 1,
Wherein the portion of the button display layer,
Wherein the pointing device is translucent.

Images