KR101346373B1 - Method of performing auto focus calibration of camera lens for electro board - Google Patents

Abstract

The present invention relates to an auto focus calibration method of a camera lens for an electronic bulletin board capable of adjusting the focusing of the camera lens while a user checks the focusing visually using a calibration jig. The method includes a step where a calibration jig (350) is placed on a touch screen (340) of an electronic bulletin board (S510); a step where the calibration jig retro-reflects infrared light (320) from an infrared light emitting body (310) and the retro-reflected infrared light arrives on an infrared detection camera lens (330) (S520); a step where the incident infrared light on the infrared detection camera lens is converted to a reflection signal by an image sensor (360) attached to an FPCB (370) inside a camera module (300) in which the infrared detection camera lens is included (S530); and a step where the reflection signal converted by the image sensor is sent to a PC and is visually displayed as a focus waveform diagram by an application in the PC (S540).

Description

Automatic focus calibration method of camera lens for electronic board {METHOD OF PERFORMING AUTO FOCUS CALIBRATION OF CAMERA LENS FOR ELECTRO BOARD}

The present invention relates to a focusing method of an infrared sensing camera lens for detecting a touch position of an object located on a screen displayed by a screen by detecting infrared rays, and more particularly, a calibration jig in an infrared sensing camera method. The present invention relates to an automatic focus calibration method of an electronic blackboard camera lens that can be adjusted while visually confirming focusing of an electronic blackboard camera lens.

In general, an electronic blackboard, unlike a blackboard, refers to a device capable of touch input or writing on a screen while displaying lecture syllabus on a screen using a computer. The copyboard can transfer the contents or lecture contents written on the screen to a computer for storage or printing.When the user touches an icon or menu on the screen of the copyboard with a pen or writes on the screen, Coordinate recognition sensors are used to recognize the coordinates so that a desired program can be executed on the screen or the writing contents can be displayed.

The electronic blackboard has various methods such as an infrared matrix method, a thin film resistance type, a capacitive type, and an infrared sensing camera method.

The dual-infrared detection camera method installs cameras at both corners of the touch screen, and installs an infrared background at the edges of the touch screen frame facing the cameras, and then touches when an object touches the inner area of the touch screen frame. The camera captures that the object blocks the infrared background and determines the presence and location of the touch.The infrared detection camera and the infrared background, which are the functional parts of the touch screen, are located at the edge of the touch screen. There is no association.

On the other hand, infrared sensing camera type touch screen can be divided into LED background type camera type and reflective type camera type according to the method of illuminating infrared rays and background, and LED background type camera type installs infrared LEDs in the infrared background part. As a configuration, the infrared LED should be closely installed so that the infrared background is not broken when the camera is viewed. Therefore, the larger the touch screen is, the larger the number of LED infrared emitters required, and the electronic circuit board and related electronic components for installing the LEDs require high production costs and difficult maintenance.

In the reflective camera method, as shown in FIG. 1, the infrared sensing camera lens 120 and the infrared light emitter 110 that are reflected by the infrared light emitter 110 and receive the reflected infrared light reflected by the reflecting plate 131. By installing the reflector plate 131 on the infrared background unit 130 facing each other and installing the background unit 130 to reflect the illuminated infrared light in the direction of the lighting device, compared to the LED background camera method Since the touch screen background 130 does not need any electronic components, and only consists of mechanical and optical components that function as reflections, the structure is simple, and thus the material cost is low and production is easy.

However, the conventional reflective camera system simply focuses to match the focal point of the camera lens 120 having a fixed magnification, and then, from the infrared light emitter 110 positioned together with the camera lens 120 at both corners above the screen. When the projected infrared rays are reflected from the reflector 131 mounted on the background unit 130 and reflected by the infrared detection camera lens 120, a method of checking and adjusting them is used by the PC application. As shown, there is a problem in that the infrared reflecting plate 131 is not accurately reflected, it is not possible to objectively determine which part of the infrared detection camera lens 120 is out of focus.

Accordingly, an object of the present invention is to solve the above problems, by using a calibration jig, the infrared ray projected by the infrared light emitter is introduced into the gap between the calibration jig and retroreflective through the reflective paper mounted on the calibration jig. The infrared rays are incident again to the camera lens through the gap of the calibration jig to provide an automatic focus calibration method of the camera lens for an electronic blackboard that can accurately visually identify which part of the camera lens is out of focus.

An automatic focus calibration method of a camera lens for an electronic blackboard according to the present invention comprises the steps of: placing a calibration jig on a touch screen of the electronic blackboard; Infrared light projected from an infrared illuminant is retroreflected by the calibration jig to be incident on an infrared sensing camera lens; Converting infrared light incident to the infrared sensing camera lens into a reflected signal at an image sensor attached to an FPCB mounted in a camera module equipped with the infrared sensing camera lens; The reflection signal converted by the image sensor is transmitted to the PC, characterized in that the step of displaying the visual display of the focus waveform by the application of the PC.

As described above, the automatic focus calibration method of the camera lens for an electronic blackboard according to the present invention has an advantage that the process of focusing the overall focus of the infrared sensing camera lens can be easily and quickly performed by using a calibration jig.

1 is a schematic diagram showing an electronic blackboard of a conventional reflective camera type.
FIG. 2 is a non-uniform focus waveform diagram confirming with a PC application the signal reflected by the reflector in FIG. 1 and incident on the camera lens; FIG.
Figure 3 is a schematic diagram showing an electronic blackboard of the reflective camera method using a calibration jig according to the present invention.
4 is a structural diagram of a camera module of FIG. 3.
5 is a flowchart of an automatic focus calibration method of a camera lens for an electronic blackboard according to the present invention;
FIG. 6 is a uniform focus waveform diagram confirming, by a PC application, a signal retroreflected by a calibration jig in FIG. 3 and incident on a camera lens; FIG.

Hereinafter, an autofocus calibration method of an electronic blackboard camera lens according to the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and they may vary depending on the intentions or customs of the client, the operator, the user, and the like. Therefore, the definition should be based on the contents throughout this specification.

Like numbers refer to like elements throughout the drawings.

3 is a schematic diagram showing an electronic blackboard of a reflective camera type using a calibration jig according to the present invention, FIG. 4 is a structural diagram of the camera module of FIG. 3, and FIG. 5 is an automatic of a camera lens for an electronic blackboard according to the present invention. FIG. 6 is a flowchart illustrating a focus calibration method, and FIG. 6 is a uniform focus waveform diagram confirming a signal incident back to a camera lens by a calibration jig in FIG. 3 and confirmed by a PC application.

As shown in FIGS. 3 to 6, the electronic board of the reflective camera type using the calibration jig according to the present invention may receive the infrared light emitter 310 and the infrared light 320 projected from the infrared light emitter 310. The camera module 300 installed with the infrared sensing camera lens 330 is installed at both corners of the touch screen 340, and the calibration jig 350 is disposed on the touch screen 340 to provide the infrared light. The infrared light 320 projected from the light emitter 310 is retroreflected by the calibration jig 350 to be incident on the infrared sensing camera lens 330.

Herein, the camera module 300 detects a position of a touch object (not shown) that is touched by the touch screen 340, an infrared light emitter 310, an infrared sensing camera lens 330, and an image sensor ( 360, FPCB 370, and die casting holder 390.

Here, the camera lens 330 bears the optical image of the touch object.

In addition, the image sensor 360 converts an optical image of the touch object formed by the camera lens 330 into an electrical signal. The image sensor 360 is a liner sensor.

In addition, the image sensor 360 is adhered to the front surface of the FPCB 43.

In addition, the die casting holder 400 accommodates the camera lens 330, the image sensor 360, and the FPCB 370, and the die casting holder 390 is equipped with two focusing adjustment screws 380. Therefore, the center point of the camera lens 330 and the center point of the image sensor 360 may coincide with each other by adjusting the two focusing adjusting screws 380.

Here, the camera lens 330 may be composed of a single lens, a plurality of single lenses may be combined, or a lens group in which spherical lenses and aspherical lenses are mixed.

In addition, the calibration jig 350 has a trapezoidal cone shape, and a plurality of slots 352 are formed between a plurality of protrusion pieces 351 and the protrusion pieces 351 of the same shape at the bottom thereof, and the protrusion pieces 351 ) And a reflector 353 are mounted to the rear of the slot 352.

In addition, the height of the protruding piece 351 is 5 ~ 10mm, which is the same as the depth of the slot 352, 20 to 25 slots 352 are formed in the calibration jig (350).

Accordingly, after the infrared light 320 projected from the infrared light emitter 310 passes through the plurality of slots 352 of the calibration jig 350, the infrared light 320 is reflected to the reflective paper 353 mounted at the rear of the slot 352. Retroreflected by the retroreflected infrared light 320 passes through the slot 352 to be incident to the infrared camera lens 330.

In this way, when the infrared light is retroreflected by the reflector 353 and is incident on the infrared sensing camera lens 330, a part of the infrared sensing camera lens 330 is visually confirmed and adjusted by a PC application. It can be objectively clarified that the focus is not properly focused.

Now, the automatic focus calibration method of the camera lens for an electronic blackboard according to the present invention will be described.

First, the calibration jig 350 is disposed on the touch screen 340 of the copyboard (S510).

Thereafter, the infrared light 320 projected from the infrared light emitter 310 passes through the plurality of slots 352 formed between the plurality of protrusion pieces 351 of the calibration jig 350, and then the protrusion pieces 351. And infrared light 320 retroreflected by the reflector 353 mounted behind the slot 352 and retroreflected by the reflector 353 again through the slot 352. It is incident on (S520).

Thereafter, the infrared light 320 incident on the infrared sensing camera lens 330 is attached to the image sensor 360 attached to the FPC 370 mounted in the camera module 300 on which the infrared sensing camera lens 330 is mounted. In step S530, the signal is converted into a reflected signal.

Thereafter, the reflected signal converted by the image sensor 360 is transmitted to a PC (not shown), and displayed by the application of the PC so as to be visually viewed as a focus waveform diagram (S540).

As described above, the automatic focus calibration method of the camera lens for electronic blackboard according to the present invention, by using the calibration jig, the process of focusing the infrared camera lens can be made easily and quickly.

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 exemplary embodiments, but, on the contrary, Various changes, modifications or adjustments to the example will be possible. Therefore, the scope of protection of the present invention should be construed as including all changes, modifications, and adjustments that fall within the spirit of the technical idea of the present invention.

300: camera module 310: infrared light emitter
320: infrared light 330: infrared detection camera lens
340 touch screen 350 calibration jig
351: protrusion 352: slot
353: Reflector 360: Image Sensor
370: FPCB 380: screw for focusing adjustment
390: die casting holder

Claims (4)

Disposing the calibration jig 350 on the touch screen 340 of the copyboard (S510);
The infrared light 320 projected from the infrared light emitter 310 is retroreflected by the calibration jig 350, and the retroreflected infrared light 320 is incident on the infrared sensing camera lens 330 (S520). Wow;
The infrared light 320 incident on the infrared detection camera lens 330 is reflected by the image sensor 360 attached to the FPCB 370 mounted in the camera module 300 on which the infrared detection camera lens 330 is mounted. Converting to a signal (S530);
The reflection signal converted by the image sensor 360 is transmitted to the PC, and the display of the focus waveform diagram visually by the application of the PC (S540) is characterized in that the automatic of the camera lens for electronic blackboard Focus calibration method.
The method of claim 1,
In the step S520, the infrared light 320 projected from the infrared light emitter 310 passes through the plurality of slots 352 formed between the plurality of protruding pieces 351 of the calibration jig 350, and then the protruding pieces The infrared light 320 retroreflected by the reflective paper 353 mounted at the back of the 351 and the slot 352, and the infrared light 320 retroreflected by the reflective paper 353 again detects the infrared light through the slot 352. Auto focus calibration method of the camera lens for an electronic blackboard, characterized in that the incident to the camera lens (330).
The method of claim 1,
The calibration jig 350 has a trapezoidal conical shape, and a plurality of slots 352 are formed between a plurality of protrusion pieces 351 and the protrusion pieces 351 of the same shape at the bottom, and the protrusion pieces 351 and Reflective paper (353) is attached to the back of the slot 352, the automatic focus calibration method of the camera lens for electronic blackboard.
4. The method according to any one of claims 2 to 3,
The depth of the slot 352 is 5 ~ 10mm, the depth of the slot 352 and the height of the protrusion piece 351 is the auto focus calibration method of the camera lens for an electronic blackboard.

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