KR20150142314A

KR20150142314A - Glasses appear in the back of the image

Info

Publication number: KR20150142314A
Application number: KR1020140070886A
Authority: KR
Inventors: 안병영
Original assignee: 안병영
Priority date: 2014-06-11
Filing date: 2014-06-11
Publication date: 2015-12-22
Also published as: KR101652475B1; TW201546493A; WO2015190673A1

Abstract

The present invention relates to rear image displaying glasses and, more specifically, to rear image displaying glasses comprising a camera (310) mounted on the rear side of a frame (200) supporting a lens (100), wherein a rear image provided from the camera (310) mounted on the rear side is visually provided through a display on one side surface of the lens (100) so that the rear image can be observed.

Description

BACKGROUND OF THE INVENTION [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a spectacle having a rear image, more specifically, a camera mounted on the rear of a frame supporting the lens, and a rear image provided from a rear- The present invention relates to an eyeglass in which a rear image is visually provided through a screen formed on a side surface and allows a rear image to be confirmed.

In general, glasses are used to compensate for the non-visual power of the eyes to make the eyes of poor eyes visible, or to prevent disturbances from the outside of the eyes, such as infrared rays, strong visible rays, winds other than radiation, foreign substances, Is used.

In recent years, glasses of various designs and functions have been launched, and glasses suitable for special fields have been developed. Particularly, there are many cases where glasses and goggles are worn for the safety of the user in athletic games such as a cycle, a work site, and the like. In such a case, there is a problem that it is not easy to look back in Kyonggi Province or during work.

In addition, even in everyday life, problems that arise in the rear can not be grasped properly, and bicycles, motorcycles, vehicles and other accidents are caused by them, and if there is an accident in the rear, Even if you are aware of the accident, the follow-up action is often delayed, which often leads to an accident.

In order to solve the above problems, Korean Utility Model Registration No. 20-0303313 'Glasses capable of rearward gazing' has been disclosed. In this case, however, a side mirror is formed on the frame of the spectacles so that the user can watch the rear side. There is a risk of loss of aesthetics, frequent loss of parts, and difficulty in use in special fields.

In order to solve the above problem, Korean Patent Laid-open Publication No. 10-2014-0049897, "Lane Departure Warning Glasses", has been disclosed. However, in such a case, a camera is provided in the lens of the eyeglasses, the front of the user is photographed, the danger is sensed and the signal is provided, but the user can not photograph the rear and can not provide information about the rear.

(Document 1) Korean Utility Model Registration No. 20-0303313 (2003,01,23) (Document 2) Korean Patent Publication No. 10-2014-0049897 (2014, 04, 28)

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems of the prior art, and it is an object of the present invention to provide a camera having a camera that illuminates the back of a frame of a spectacle, and a data switching unit, a CPU central processing unit, an image processing unit, And provides a backward image through a display formed on one side of the lens, and a backward image that enables a backward problem and an accident to be detected and confronted through a backward image.

In order to achieve the object of the present invention,

According to an embodiment of the present invention,

A camera (310) coupled to a camera (310), the camera (310) being installed at an end of the frame (200) A central processing unit 330 for processing data through the data conversion unit 320, a central processing unit 330 for processing the data through the data conversion unit 320, An auxiliary memory 350 for storing the image compressed by the compression encoding unit 340, and a memory 350 for storing the data of the central processing unit 330 as an image A correction unit 370 for correcting the image of the image processing unit 360 and a screen (not shown) for providing an image through the correction unit 370 to one side of the lens 100 380), and a camera (310) and a central processing unit (330) are powered on the frame (200) And a power supply unit 390 that supplies power to the frame 200.

In addition, the camera 310 is installed so as to face rearward. The camera 310 includes a communication port 400 through which data of the auxiliary storage device 350 can be exchanged with an external device.

The screen further includes an operation button 391 for supplying power to the camera 310 and the central processing unit 330 to the frame 200. The screen 380 is further provided outside the lens 100 And is installed.

According to the present invention having the above-described constitution and function,

Since the rear image is captured by the camera and provided through the screen on one side of the lens, problems and accidents occurring in the rear can be detected and the user can quickly cope with the problem. In the case of sports, it is possible to increase the dramatic effect of sports through the backward image, and it took a long time to grasp the rear accidents due to the noise and various environmental influences at the work site. However, It is possible to recognize this quickly, and the worker can work in a safe environment.

In addition, since the stored data can be transmitted to the outside, the role of the black box, which is important in case of an accident, can be expected.

FIG. 1 is a perspective view of a spectacle displaying a rear image according to an embodiment of the present invention.
FIG. 2 is a view illustrating an eyeglasses displaying a rear image according to an exemplary embodiment of the present invention. Referring to FIG.
3 is a rear view of a spectacle in which a rear image according to an embodiment of the present invention is displayed.
FIG. 4 is a block diagram of glasses with a rear image according to an embodiment of the present invention.
5 is a flowchart of spectacles showing a rear image according to an embodiment of the present invention.
6 is a perspective view of a spectacle in which a rear image according to an embodiment of the present invention is displayed.

According to an aspect of the present invention,

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description will be given of embodiments of glasses in which a rear image according to the present invention is displayed.

FIG. 1 is a perspective view of a spectacle displaying a rear image according to an embodiment of the present invention, and FIG. 2 is an embodiment of a spectacle displaying a rear image according to an embodiment of the present invention.

The eyeglasses in which the rear image of the present invention appears are composed of a lens 100, a frame 200, a camera 310, and a screen 380.

The lens 100 corrects the visual acuity of the user, and the frame 200 is coupled to the lens 100 and the one side to form a curvature on the rear surface to hang on the user's ear.

The lens 100 and the frame 200 are used on the market, and include goggles and sunglasses used in specific fields.

The camera 310 is coupled to the frame 200 and is configured to look backward.

The screen 380 is configured inside the lens 100 and provides an image captured by the rear camera 310 through the screen 380.

The screen 380 is configured on the inside of the lens 100 and occupies a portion of the lens 100 to cover the front view, but according to the configuration, the screen 380 is configured to be translucent, .

When the camera 310 captures an image by supplying power to the camera 310 and attaches the camera 310 to the rear of the frame 200 to face the rear side of the lens 100, The screen 380 is coupled to illuminate the image captured from the rear side to the side of the user's lens 100.

In this case, the spectacle (1) is applied to goggles or sunglasses used in industrial fields and sports, in addition to being used for ordinary living, and a rearward-facing camera (310) And is illuminated to one side of the lens (100).

3 is a rear view of a spectacle in which a rear image according to an embodiment of the present invention is displayed.

As shown in Fig. 3, the eyeglasses in which the rear image is displayed constitute an operation button 391 and a communication port 400 on the back surface of the eyeglass 1 leg.

The operation button 391 controls the operation of the camera 310. When the operation button 391 is executed, the rear camera 310 photographs an image and displays it on the screen 380). &Lt; / RTI > At this time, the operation button 391 may be composed of various types of buttons, but it is preferable that the operation button 391 is constituted by an electrostatic touch key.

The electrostatic touch key is a key for recognizing a soft touch as opposed to a pressure sensitive touch method which applies pressure to the touch pad. Therefore, it is possible to prevent the glasses 1 from being pushed by the pressure during the button operation.

The communication port 400 can exchange data with an external device. At this time, the communication port 400 may be composed of various types of ports, but is configured with a universal USB port.

At this time, the eyeglasses in which the rear image is displayed constitute an operation button 391 and a communication port 400 on the back, and the operation button 391 is preferably configured in a touch manner, OFF.

In addition, the communication port 400 is configured to exchange data with the outside, and transmits data stored in the frame 200 to the outside. At this time, it is preferable that the communication port 400 is configured as a universal-use USB port, and that another communication port is also usable

FIG. 4 is a block diagram of glasses with a rear image according to an embodiment of the present invention.

Referring to FIG. 3, the eyeglass system in which the rear image of the present invention is displayed includes a camera 310, a data conversion unit 320, a compression encoding unit 340, an auxiliary storage device 350, an image processing unit 360, A screen 380, a power supply 390, a central processing unit 330, an operation button 391, and a communication port 400.

The camera 310 includes a CCD image pickup device inside the CCD 310. The CCD image pickup device converts the light into an electrical signal when light is incident.

When the light reaches the CCD image pickup device, the data converter 320 generates data from each of the optical devices. The data converter 320 may group the data into one data.

The compression encoding unit 340 compresses a high-capacity image of the data conversion unit 320 to reduce the capacity of the image data of the data conversion unit 320.

The auxiliary storage device 350 stores the photographed image and can transmit data to the outside through the communication port 400. [

The image processing unit 360 converts the image data of the data conversion unit into an image to be displayed to the user.

The correcting unit 370 corrects the image of the image processing unit 360 and displays the image provided to the user on the screen 380.

The screen 380 is a means for displaying an image processed by the correcting unit 370 to a screen 380 on one side of the lens 100 and informing a user of a rear image.

The power supply unit 390 transfers the power supplied from the battery to each component. A constant voltage regulator or the like is used for boosting or stabilizing the power supply of the battery.

The central processing unit 330 is a means for controlling all the components for capturing a rear image. The central processing unit 330 may include a microcomputer or the like.

At this time, the eyeglasses 1 representing the rear image are provided with images from the camera 310, and the data generated by the CCD image pickup devices in the camera 310 are grouped into one by the inner data converter 320, Data.

The compression encoding unit 340 compresses the high capacity data generated through the data conversion unit 320 and converts the low capacity data into the low capacity data and stores the low capacity data through the auxiliary storage unit 350. At this time, the data stored in the auxiliary storage device 350 may be transmitted to the outside through the communication port 400 of the central processing unit 330.

The image processing unit 360 converts the data converted by the data conversion unit 320 into an image for displaying to the user, and the converted image is corrected through the correction unit 370 And provides an image through a screen 380 located inside the glasses 1.

The power supply unit 390 supplies power to the central processing unit 330 and the respective components, and supplies power through the operation button 391.

5 is a flowchart of spectacles showing a rear image according to an embodiment of the present invention.

Fig. 5 shows the operational flow in the system of Fig. Referring to FIG. 5, when the user operates the operation button 391, a step S510 of supplying power to each component is started.

Thereafter, the backward photographing (S520) process is performed in which the camera 310 configured to be directed to the rear is photographed in the backward direction, and the camera 310 configured to rearward photographs the photographed image, (Step S530), which converts the image data into data via the storage unit 320, is executed.

Thereafter, the data converted through the data conversion in the image is transferred to the image processing unit 360 via the central processing unit 330, and the data converted into data is converted into an image again into an image (S540). And then performs image correction (S550) for correcting the image generated by the image conversion of the data through the image processing unit 360. [

And then provides a screen (S560) for providing the image having been subjected to the image correction to the screen 380. [

6 is a perspective view of a spectacle in which a rear image according to an embodiment of the present invention is displayed.

As shown in FIG. 6, the eyeglasses in which the rear image of the present invention is displayed are formed by separating the screen 380 from the outside.

The screen 380 may be configured to be inserted into the lens 100, but may be configured to separate the screen 380 from the outside. When the screen 380 is configured to be separated from the outside, it is possible to surely separate the rear portion and the front portion from each other. When the screen 380 is broken, only the outer portion of the screen 380 can be separated and repaired and replaced.

When the screen 380 separated from the outside is used, a support frame is configured to couple the frame 200 and the screen 380, and a screen 380 is coupled to the support frame.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, many variations and modifications may be made without departing from the spirit and scope of the invention. . Accordingly, it is intended that the present invention covers all embodiments falling within the scope of the following claims, rather than being limited to the above-described embodiments.

Since the camera 310 photographs the rearward image and provides the rearward image through the display on one side of the lens 100, it is possible to identify problems and accidents occurring in the rear and cope with them quickly. In the case of sports, the dramatic effect of sports can be enhanced through the backward image. In the case of the worksite, it took a long time to identify the rear accidents due to the noise and various environmental influences. However, It is possible to quickly recognize the rear-end accident through the glasses, and the worker can work in a safe environment.

1: Glasses 100: Lens
200: frame 310: camera
320: data conversion unit 330: central processing unit
340: compression encoding unit 350: auxiliary storage device
360: image processing unit 370:
380: Screen 390: Power source
391: Action button 400: Communication port
S510: Power supply S520: Rear
S530: Converting captured image data S540: Converting data to image
S550: Image correction S560: Screen provided

Claims

In the eyeglass 1 in which the lens 100 and the frame 200 are combined,
A camera 310 installed at an end of the frame 200 to capture a backward image,
A data conversion unit 320 connected to the camera 310 and converting the rear image photographed by the camera 310 into data,
A central processing unit 330 for processing data through the data conversion unit 320,
A compression encoding unit 340 for compressing the data obtained through the central processing unit 330,
An auxiliary storage unit 350 for storing the compressed image in the compression encoding unit 340,
An image processing unit 360 for converting the data of the central processing unit 330 into an image,
A correction unit 370 for correcting the image of the image processing unit 360,
A screen 380 included to provide an image through the corrector 370 to one side of the lens 100,
A power supply unit 390 for supplying power to the camera 310 and the central processing unit 330 to the frame 200;
And a frame (200) inside the frame (200).

The method according to claim 1,
Wherein the camera (310) is installed to face rearward.

The method according to claim 1,
A communication port 400 for exchanging data of the auxiliary storage device 350 with an external device;
And the backlight image is displayed on the display unit.

The method according to claim 1,
An operation button 391 for supplying power to the camera 310 and the central processing unit 330 to the frame 200;
And the backlight image is displayed on the display unit.

The method according to claim 1,
Wherein the screen (380) is additionally provided outside the lens (100).