KR100266270B1 - Device for printing digital images - Google Patents

Abstract

PURPOSE: A device for printing a digital image is provided to output a digital image signal to a print paper and develop the image signal on the print paper. CONSTITUTION: An auxiliary memory(1) stores a compressed digital image signal. An image signal receiver(2) receives a real-time image signal. An image restoring part(3) restores the image signal outputted from the auxiliary memory to the original image. However, the image restoring part does not restore the image signal outputted from the image signal receiver. A frame memory(4) stores the image signal outputted from the image restoring part temporarily. A D/A converter(5) converts the image signal outputted from the memory into the analogue signal. An LCD receives the image signal outputted from the D/A converter. An LCD driving part outputs a signal for driving the LCD. A shutter is mounted apart from the LCD, and varies in its operating state according to the applied driving signal. A shutter driving part is operated according to a vertical synchronizing signal outputted from the LCD driving part, and outputs a signal for driving the shutter.

Description

Digital video printer

The present invention relates to a digital image processing apparatus and, more particularly, to a digital image printing apparatus capable of printing a digital image on photo paper.

With the development of digital technology, a new type of camera using a digital signal, i.e., the image of the subject is stored in memory as a digital signal represented by 0 and 1 so that the stored image can be directly connected to the computer without developing, printing, or scanning. Portable digital still cameras have been developed and are rapidly spreading.

The digital still camera converts an electric image signal of a subject into a digital signal using an imaging device such as a charge coupled device (CCD), and the digital image of the subject photographed by the compression / restoration operation of the digital signal. The signal is stored in memory or the corresponding data is output through the output device.

Therefore, a digital still camera that performs a photographing operation of a subject according to the same principle stores image data of a photographed subject on a floppy disk or a memory card that stores data without using a separate film like a conventional camera.

Therefore, instead of purchasing a film and performing a shooting operation for a predetermined number of shots, and storing the film in a film lab and finding a photograph taken after several hours, it is recorded on a memory card that is already mounted due to the appearance of the digital still camera. Since the image signals are sequentially stored, the user can connect the captured image data to a computer for use.

That is, the image data can be output to a monitor of a computer, and the captured image can be immediately confirmed without a separate developing operation, and the editing operation can be executed as desired, such as easily enlarging or transforming the captured digital image.

Therefore, even if the recorded image is not good, you can edit it to your liking by modifying it as desired.

As described above, when a digital video signal to be outputted using a digital still camera or the like is obtained, high quality in printing can be realized by increasing the number of pixels of an image sensor such as an imaging device to be used.

Therefore, when printing with the average size supported by default, high quality output can be maintained.

However, when the size to be output is increased, the number of pixels of the image sensor used is limited, so the quality of the output image quality is gradually degraded.

In other words, when outputting at a size of about 4 "× 3", if about 1 million pixels are needed to realize high image quality, if the horizontal and vertical sizes are doubled, about 4 million pixels should be supported. It is possible. Therefore, the number of pixels of the image sensor to be used must be increased accordingly, but this is impossible due to technical limitations.

Therefore, the image quality decreases as the magnification ratio increases, and when enlarged more than a predetermined size, the image is printed in a dot unit, so that the pixel is widened between the pixels and the pixels between the pixels are conspicuous.

The technical problem to be achieved by the present invention is to output a digital image signal to photo paper, so that the image signal can be developed on the photo paper.

1A is a block diagram of a digital image printing apparatus according to an embodiment of the present invention.

1B is a detailed block diagram of an image print unit according to an exemplary embodiment of the present invention.

The configuration of the present invention for achieving the above object,

An auxiliary memory device for storing a compressed digital video signal;

A video signal receiver for receiving a real time video signal;

An image restoration unit connected to the auxiliary storage unit and an image signal receiving unit to restore an original image when an image signal is input through the auxiliary storage unit, and not performing a restoration operation when an image signal is input through the image signal receiving unit; Wow;

A memory unit which is connected to the image restoring unit and temporarily stores an image signal output through the image restoring unit;

A D / A converter converting an image signal output through the memory into an analog signal;

A liquid crystal display which receives an image signal output from the D / A converter;

A liquid crystal driver for outputting a driving signal for driving the liquid crystal display to a liquid crystal display;

A shutter unit mounted to be spaced apart from the liquid crystal display unit by a predetermined distance, and the operating unit converts an operation state according to an applied driving signal;

And a shutter driver which operates according to a vertical synchronization signal output from the liquid crystal driver and outputs a driving signal of the shutter unit.

In addition, in order to evenly irradiate light toward the substrate of the liquid crystal display unit, the light source unit is mounted on the substrate side of the liquid crystal display unit, and irradiates light; It is preferable to further include a lens unit for condensing the light irradiated from the light source unit and converting the light into parallel light.

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

1A is a block diagram of a digital image printing apparatus according to an embodiment of the present invention, and FIG. 1B is a detailed block diagram of an image printing unit according to an embodiment of the present invention.

As shown in Figs. 1A and 1B, a structure according to an embodiment of the present invention will be described. The compressed image data is stored in the auxiliary storage device 1, and the image signal receiving unit 2 is used in a digital still camera or the like. A real time image signal to be captured is received.

Therefore, the image restoring unit 3 receives an image signal input from the auxiliary storage device 1 or the image signal receiving unit 2. Therefore, when the input video signal is a compressed video signal stored in the auxiliary storage device 1, a decompression operation for restoring the compressed state to the original video is performed to output to the frame memory 4, and the video signal In the case of a real-time video signal input from the receiver 2, it immediately bypasses the frame memory 4 to it.

The frame memory 4 sequentially outputs the image signals to the D / A converter 5 in frame units while storing the image signals output from the image recovery unit 3 in units of frames. Therefore, the D / A converter 5 converts the input digital video signal into an analog video signal, and then outputs it to the image print unit 6 so that the video signal can be printed.

As illustrated in FIG. 1B, when the image printing unit 6 outputs light from the light source unit 61 and enters the lens unit 62, the lens unit 62 collects the incident light and outputs the parallel light. do.

At this time, an analog image signal output from the D / A converter 5 is input to the liquid crystal display 63, and outputs an image corresponding to the liquid crystal display 63 according to the operation of the liquid crystal driver 64. The light output from the lens unit 62 attached to the substrate side of the liquid crystal display unit 63 increases the output efficiency of the image. In addition, the shutter 65 is mounted below the liquid crystal display 63 by a predetermined distance, and the shutter driver 66 operates by a drive signal output from an external control device (not shown) to operate the shutter 65. To control.

Therefore, when the shutter unit 65 operates, the image output to the liquid crystal display unit 63 is exposed to the photo paper 67 to output the desired image.

Next, an operation for printing the digital video signal will be described in detail.

The image reconstruction unit 3 reads the compressed image data stored in the auxiliary storage device 1 or the original image signal input through the image signal receiving unit 2.

In this case, the auxiliary memory device 1 mainly captures an image of a desired subject using a digital still camera, and then mainly stores an image signal compressed at a set compression ratio, while the image signal receiver 2 is an image pickup device of a digital still camera. It receives the real-time video signal is input directly through.

Therefore, when the compressed image signal to be printed in the auxiliary memory device 1 is input to the image reconstruction unit 3, the image reconstruction unit 3 encodes a corresponding image using image information included in the input image signal. After the restoration operation of the image is performed according to the scheme, the image is output to the frame memory 4 and stored. At this time, since the image restoration unit 3 cannot restore all the image signals at once, the image restoration unit 3 sequentially restores the image signals in frame units, temporarily stores them in the frame memory 4, and outputs them to the D / A converter 5.

However, in the case of a real-time video signal input through the video signal receiver 2, the input video signal is continuously stored in the frame memory 4 on a frame-by-frame basis without performing a separate restoration operation.

In this case, the image restoring unit 3 may be implemented in hardware or in software.

When the image signal to be printed through the image reconstruction unit 3 is stored in the frame memory 4 as described above, the frame memory 4 converts the image signals sequentially stored into the analog signal to the D / A conversion unit. After outputting to (5) and converting into a usable state, it is output to the video printing apparatus 6 to perform the printing operation of the video signal.

At this time, the light output from the light source unit 61 mounted on the substrate side of the liquid crystal display unit 63 is focused by the lens unit 62, and then converted into parallel light to uniformly irradiate the substrate of the liquid crystal display unit 63 so that the liquid crystal display unit ( Increase the image output efficiency of 63) and maintain the image output degree evenly.

Accordingly, when an image signal is input from the D / A converter 5, the liquid crystal driver 64 outputs a driving signal to the liquid crystal display 63 so that an image corresponding to the image signal can be output to the liquid crystal display 63. do.

That is, the liquid crystal driver 64 outputs a horizontal synchronizing signal and a vertical synchronizing signal for operating the liquid crystal display 63, and an image signal applied through the D / A converter 5 is input to the liquid crystal display 63. In order to output the vertical synchronization signal to the liquid crystal display 63.

When the corresponding image is output to the liquid crystal display unit 63 by the operation of the liquid crystal driver 64, the shutter driver 66 drives the shutter unit 65 in synchronization with the vertical synchronization signal of the liquid crystal driver 64. The drive signal for the output is output to the shutter unit 65.

Therefore, the shutter unit 65 is operated to operate while the vertical synchronization signal is output from the liquid crystal driver 64 to the liquid crystal display unit 63, that is, while one image is output to the liquid crystal display unit 63, thereby operating the liquid crystal display unit ( The image of 63 is exposed on photo paper 67.

Therefore, the exposure operation to the photo paper 67 is continuously performed while the shutter unit 65 is operating, and the output image of the liquid crystal display unit 63 is printed on the photo paper 67.

At this time, since the operation of the shutter unit 65 by the shutter driver 66 operates in accordance with the period in which the image is output to the liquid crystal display unit 63, an accurate printing operation for each image is performed.

The effect of the present invention, which operates as described above, outputs a digital image signal through a printing apparatus, so that the boundary between the dots is unclear due to light bleeding, so that the image quality can be maintained even if the enlarged image size is increased. In addition, since the input video signal can be used directly, the magnification operation using photo paper is very easy.

Claims (2)

An auxiliary memory device for storing a compressed digital video signal; A video signal receiver for receiving a real time video signal; An image restoration unit connected to the auxiliary storage unit and an image signal receiving unit to restore an original image when an image signal is input through the auxiliary storage unit, and not performing a restoration operation when an image signal is input through the image signal receiving unit; Wow; A memory unit which is connected to the image restoring unit and temporarily stores an image signal output through the image restoring unit; A D / A converter converting an image signal output through the memory into an analog signal; A liquid crystal display which receives an image signal output from the D / A converter; A liquid crystal driver for outputting a driving signal for driving the liquid crystal display to a liquid crystal display; A shutter unit mounted to be spaced apart from the liquid crystal display unit by a predetermined distance, and the operating unit converts an operation state according to an applied driving signal; And a shutter driver which operates according to a vertical synchronization signal output from the liquid crystal driver, and outputs a driving signal of the shutter unit. The method of claim 1, It is mounted on the substrate side of the liquid crystal display, A light source unit for irradiating light; And a lens unit for condensing the light emitted from the light source unit and converting the light into parallel light, and evenly radiating the light toward the substrate of the liquid crystal display unit.

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