KR20050046969A - Scanner capable of scanning the area in which a scan paper is located - Google Patents

Abstract

The present invention discloses a scanner capable of scanning only the area where paper is located.

According to the present invention, a scanner for scanning an image including an image recognition sensor for injecting light onto a paper and converting the reflected light from the paper into an electrical signal, comprising: a light source for generating light, and light emitted from the light source to the paper The scanner alone includes a paper position detecting unit for detecting the position where the paper is placed, and a scanning driving control unit for scanning while moving the position of the image recognition sensor so as to scan only at a portion corresponding to the position of the paper detected by the paper position detecting unit. Even when scanning with the scanner, scanning time can be reduced without scanning unnecessary parts, and even if the paper to be scanned is placed in any position on the scanner bed, the position can be scanned to scan only the area where the paper is located. If you scan without knowing that there is no If not, it is possible to have an error message, if necessary. This allows for faster scan speeds without expensive hardware upgrades in the same environment, thus improving the user experience of automated devices.

Description

Scanner capable of scanning the area in which a scan paper is located}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the field of scanning an object such as a document, and more particularly to a scanner capable of quickly scanning documents of various sorts.

There are two general processes for obtaining a scanned image using a scanner. The first is a preview process for viewing the entire image, and the second is a final scan process in which the area to be scanned is actually set and additional information such as the resolution is set to actually scan.

The preview process usually consists of scanning all areas provided by the scanner device at the minimum resolution. Therefore, even when preview scanning a print smaller than the bed on which the sheet to be scanned provided in the scan area is placed, all areas of the bed must be scanned. Therefore, an unnecessary area needs to be scanned, which wastes unnecessary time for scanning an unnecessary area.

In the case of the final scan, the actual scanning method by setting the area to be scanned and setting additional information such as resolution is connected to a scanner such as a computer, and additional information such as area setting by a program running on the computer. Can be set. This transfers the necessary control information from the computer to the scanner and scans accordingly. In this case, when scanning directly from the scanner, only the standard document size such as A4, A3, Legal, etc. can be scanned. If the size of the document to be scanned is smaller than the size of the standard document, the preview is the same. Unnecessary parts can only be scanned, which is a factor in wasting time. In addition, if the resolution to be scanned is high, this adds to the inconvenience that it takes longer to scan unnecessary parts.

1 is a schematic view showing a conventional scanner seen from the side. The CCD 110, which projects the light emitted from the light source 100 upwards and senses the light projected on the paper 110 to be scanned, moves the area of B by the scan driver not shown in the drawing. ) Will be scanned. At this time, the paper 110 is placed in the area of A, but the conventional scanner scans the entire area of B, so it can be seen that the area is scanned to an area that is not necessary.

The technical problem to be solved by the present invention is to provide a scanner capable of scanning only the area where the paper is located to reduce the scan time in the case of preview or final scan in order to solve the above problems.

According to the present invention for solving the above technical problem, the scanner capable of scanning only the area where the paper is located, the image scanning sensor including an image recognition sensor for emitting light to the paper to convert the reflected light from the paper into an electrical signal A scanner comprising: a light source for generating the light; A paper position detecting unit for detecting a position where the paper is placed by using light emitted from the light source to the paper; And a scan driving control unit configured to scan while moving the position of the image recognition sensor so as to scan only a portion corresponding to the position of the sheet detected by the sheet position detecting unit.

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

2 is a block diagram illustrating a configuration of a scanner capable of scanning only an area where paper is located according to the present invention.

The scanner which scans an image including the CCD 230 which is an image recognition sensor which injects light into the paper and converts the reflected light from the paper into an electrical signal includes a light source 200 and a light source 210 that generate the light. Image recognition sensor to scan only the portion corresponding to the position of the paper detected by the paper position detection unit 210 and the paper position detection unit 210 for detecting the position where the paper is placed using the light emitted from the paper from the And a scan driving controller 220 for scanning while moving the position of the CCD 230.

The light generated and emitted by the light source 200 is reflected on the paper, and the reflected light is focused through a lens (not shown) and converted into electrical energy through an image recognition sensor to recognize the image. As the image recognition sensor, the CCD 230 is usually used. Such a function is a general function of a conventional scanner, and the general function of the scanner will not be described separately in the present invention.

In the present invention, the light emitted from the light source 200 for generating light for scanning is used to detect the position of the paper. Light is emitted to the light source 200 when scanning alone or in accordance with a control command from a computer. At this time, the portion of the light emitted by the light source 200 is blocked on the paper before the CCD 230 is moved to perform the scan operation. Even if the light is not transmitted or transmitted, the amount of light will be reduced. Light passing through the unlit portion will not change the amount of light. The paper position detecting unit 210 detects a position where paper is located by using this phenomenon.

The paper position detecting unit 210 detects the position of the paper because the amount of light passing through the portion where the light from the light source passes or does not pass through the portion where the sheet is located is different from the portion where the sheet is not positioned. It is desirable to detect the position of the paper by using. That is, the position of the paper that caused the change is detected depending on the degree of change or the presence or absence of the change in light quantity.

At this time, it is preferable to include an optical sensor for the sensing function of the paper position detection unit 210, the optical sensor passes through the portion of the light and the portion where the paper is not transmitted through the portion where the paper is located or not transmitted. It is preferable to vary the voltage values respectively output according to one light amount. Such an optical sensor can be easily implemented using a commercial product.

The scan driving control unit 220 may scan while moving the position of the CCD 230, which is an image recognition sensor, to scan only a portion corresponding to the position of the sheet detected by the sheet position detecting unit 210. That is, the scan driving control unit 220 moves the CCD 230 to the start position of the paper in the scanning direction while moving the CCD 230 without scanning from the initial position of the CCD 230 to the position where the paper is located, When the CCD 230 is moved at the beginning of the position of the paper, scanning starts from that position. The scanning operation is continued from the end of the paper after the scanning is continued to the end of the paper position while the scanning is continued while the CCD 230 is moved to the end of the paper in the scanning direction. When the scan operation stops, the CCD 230 will also be moved back to the position before the first scan.

Figure 3 schematically shows a side view of the scanner according to the present invention. Light emitted from the light source 300 is transmitted or partially transmitted through the portion where the paper 310 is located, or the portion where the paper 310 is not positioned as it is, the light sensors 340 that are part of the paper position detecting unit 210. 342, 344, ...). The voltage value is detected differently according to the amount of light incident on the light sensors 340, 342, 344, ... to detect the position of the paper. And the CCD 320 will be moved so that it is scanned only in the part where this paper is located.

In this case, instead of using a separate light source to detect the position of the paper, and to use the light source 300 for scanning as it is, the light sensors 340, 342, 344, ... It is preferable that the cover is located at a portion in contact with the paper inside the scanner lid which holds the paper when the paper is positioned. That is, it will be most efficient for the photosensors 340, 342, 344, ... to be positioned at the part in contact with the paper inside the cover 330 covering the bed where the paper to be scanned is located in FIG.

4 is a view for explaining the detection of the position of the paper in the scanner according to the present invention.

Light emitted from the light source is incident on the light sensors 410 to 420 after passing through the paper 400. At this time, the amount of light incident on the light sensors 412 to 418 through which the light passes through the paper and the light sensor 410 through which the light passes through the region where the paper is not located are not provided unless the paper 400 is a complete transparent body. The amount of light incident on 420 will be different.

The outputs of the light sensors 412 to 418 will be, for example, 0 volts, and the outputs of the light sensors of 410 and 420 will be, for example, +5 volts. It can be seen that the paper 400 is located in the area where is located. At this time, the output of the optical sensor is 0 volt even when the paper does not transmit light and the light passing through the paper is substantially 0. If the light is partially transmitted, the output of the optical sensor is 1 volt, and the light is completely transmitted. If the light source is incident on the light sensor as it is, the light sensor output is 5 volts. If the light sensor generates output below the appropriate value, for example, 2 volts, the place where paper is located You might decide that. It may be possible to use a variety of criteria depending on the characteristics of the optical sensor used.

In the case of Figure 4 will be detected that the position of the light sensor of the 412 to 418 is the position of the paper, if the scanning direction is the direction as shown in the drawing, start scanning from the optical sensor area of the 412 to the part where the optical sensor of 418 is located After you have done so, you can return the CCD to its original position.

However, if the light sensor is not densely arranged using a very small size, for example, in the case of FIG. 4, the area where the paper ends is past the position where the light sensor of 418 is located, and outputs 5 volts in the above example. This is the area where the sensor is located. To prepare for this case, you may decide to position the paper up to the first light sensor area on both borders that produces a 5 volt output. In this case, in FIG. 4, the scan starts in the light sensor region of 410 and the scan ends after the scan continues to the light sensor region of 420.

Using the scanner according to the present invention is to scan through the following operation.

1. If you are trying to scan on the scanner, place the paper you want to scan on the scanner and press the Scan button. The light is then emitted by the scanner's light source. The paper position detecting unit 210 detects an area where paper is located by comparing the outputs of the optical sensors using an optical sensor located on the scanner cover. The scan driving control unit 220 scans while moving the CCD 230 by not scanning unnecessary portions, and ends scanning when scanning of necessary portions is completed.

2. If there is no scan paper in the scanner and the user presses the scan button on the scanner to scan, it generates and emits light from the scanner's light source. The paper position detection unit 210 compares the outputs of the optical sensors by using the optical sensor located on the scanner cover. In this case, since all output values are the same value, it is determined that there is no scan paper and the scan operation is not performed. And prints an error message if necessary.

Through the operation as described above, even if the paper is placed and scanned anywhere in the bed portion where the paper to be scanned is placed, it is possible to scan only at the position of the paper. In addition, although the main purpose of the present invention is to grasp the position of the paper, the size of the paper can also be grasped using the present invention, which can be easily realized using the present invention.

In addition, the present invention can easily recognize that there is no paper when a scan command is issued when there is no paper to be scanned in the scanner (in the above example, the output of all the optical sensors is 5 volts), so that unnecessary scanning is not performed. .

Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the essential features of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation. The examples included in the above description are introduced for the purpose of understanding the present invention, and these examples do not limit the spirit and scope of the present invention. In addition to the above examples, various embodiments according to the present invention are possible. It will be apparent to those of ordinary skill in the art. The scope of the present invention is shown not in the above description but in the claims, and all differences within the scope will be construed as being included in the present invention.

In addition, it can be easily understood by those skilled in the art that each of the above steps according to the present invention can be variously implemented in software or hardware using a general programming technique.

According to the present invention, a scanner for scanning an image including an image recognition sensor for injecting light onto a paper and converting the reflected light from the paper into an electrical signal, comprising: a light source for generating light, and light emitted from the light source to the paper The scanner alone includes a paper position detecting unit for detecting the position where the paper is placed, and a scanning driving control unit for scanning while moving the position of the image recognition sensor so as to scan only at a portion corresponding to the position of the paper detected by the paper position detecting unit. Even when scanning with the scanner, scanning time can be reduced without scanning unnecessary parts, and even if the paper to be scanned is placed in any position on the scanner bed, the position can be scanned to scan only the area where the paper is located. If you scan without knowing that there is no If not, it is possible to have an error message, if necessary. This allows for faster scan speeds without expensive hardware upgrades in the same environment, thus improving the user experience of automated devices.

1 is a schematic view showing a conventional scanner seen from the side.

2 is a block diagram illustrating a configuration of a scanner capable of scanning only an area where paper is located according to the present invention.

Figure 3 schematically shows a side view of the scanner according to the present invention.

4 is a view for explaining the detection of the position of the paper in the scanner according to the present invention.

Claims (4)

A scanner for scanning an image, including an image recognition sensor that emits light onto a paper and converts reflected light from the paper into an electrical signal. A light source for generating the light; A paper position detecting unit for detecting a position where the paper is placed by using light emitted from the light source to the paper; And And a scan driving control unit for scanning while moving the position of the image recognition sensor so as to scan only in a portion corresponding to the position of the sheet detected by the sheet position detecting unit. The method of claim 1, The paper position detecting unit detects the position of the paper by using the light amount from the portion where the light from the light source passes or does not pass through the portion where the sheet is located and the amount of light passing through the portion where the sheet is not located. A scanner capable of scanning only the area where paper is located, characterized in that it detects the position of the paper. The method according to claim 1 or 2, The paper position detecting unit includes an optical sensor, The optical sensor may scan only the area where the paper is located, wherein the voltage values are different depending on the amount of light passing through or not transmitting the portion where the paper is located and the amount of light passing through the portion where the paper is not located. Scanner. The paper sensor according to claim 3, wherein the optical sensor covers the scan area for scanning, and is located only in contact with the paper inside the scanner cover which maintains the position of the paper when the paper is positioned. Scanner that can scan.