KR100536836B1 - Scanner and scale indicating method thereof - Google Patents

Abstract

A scanner and its scale display method are disclosed. The scanner detects an operation state of a scan motor including a scan motor for moving at least one of an image read sensor and an object for scanning an object, and a rotation speed and a rotation speed of the scan motor, thereby detecting at least one of the object and the image read sensor. A scan motor monitoring unit for calculating one moving distance, a scale generator for forming a scale indicating the actual size of the image read by the image reading sensor according to the moving distance calculated by the scan motor monitoring unit, and a scale generating unit A scale synthesizer for synthesizing the image of the object formed by the image reading sensor and the scale generated by the sensor; when selecting the scale display from the user, the scale generator is generated by operating the scale generator during operation of the scan motor, and then the scale synthesizer is operated. The image scanned by the image readout sensor and the scale generator And a control unit for controlling the synthesized scale to be displayed on the display unit. As a result, not only an error or troublesome occurrence caused by a user mistaken the size of the object can be prevented, but also the composition can be easily performed in comparison with the actual size between the images even when the image is synthesized.

Description

Scanner and its scale display method {SCANNER AND SCALE INDICATING METHOD THEREOF}

The present invention relates to a scanner and a scale display method thereof, and more particularly, to a scanner and its scale display to display the scale indicating the actual size of the object in the scanned image of the object together, It is about a method.

In general, a scanner is a device that converts a document, picture, film, etc. into digital data that can be stored on a computer. The scanner can not only make a graphic file of a picture using appropriate software, but also recognize a book or document. Can be replaced with a letter.

The operation sequence of the scanner is to first scan the object, measure the amount of reflected light and then generate a voltage that is proportional to the amount of light, so that the voltage is fixed by a circuit built into the scanner. Convert to a pattern. In the end, it is the scanner that reflects the light, measures the amount, and images it.

The scanner is a hand scanner that is used as a device that moves the scanner over the object to be scanned, depending on how it works. If you place the object to be scanned on the glass plate in the most widely used manner, and can be divided into a flat bed scanner that scans while the scanning module moves under the glass plate.

In such a scanner, there are a black and white scan method, a gray scan method, and a color scan method for detecting an image area of an object.

When performing black and white scans and gray scans, charge coupled devices (hereinafter referred to as 'CCD') use only green channel data, and contact image sensors (hereinafter referred to as 'CIS'). Will scan the object using the green light source. That is, the scanning time of the object is shortened because the image reading sensor such as CCD and CIS scans using a G light source among R (Red), G (Green), and B (Blue) light sources. However, when the color of the object image is an image having a green complementary color, data is classified into a margin area other than the image area according to the gray data component, so that data is lost, and thus the image area detection operation is not performed properly.

When performing a color scan (for example, Hewlett Packard MFP), an image reading sensor such as a CCD and a CIS scans an object using both R (Red), G (Green), and B (Blue) light sources. Therefore, even if the image has a green complementary color as in the gray scan, there is no fear of data loss, but the scanning time of the object is relatively long.

In all of the black and white scans, the gray scans, and the color scans, reference data is generated by scanning the entire area of the object with a constant dot per inch (DPI), and a threshold value for detecting the image area is determined. Accordingly, an algorithm for discriminating a portion where a value smaller than a threshold value is distributed as an image area and dividing a portion where a value larger than a threshold value is continuous as a margin area is applied. Much memory is required for processing.

On the other hand, a computer capable of interfacing with such a scanner is provided with a scanner driver that controls the scanner to scan an object, receives the scanned image data, and displays the scanned image data in an application program of the computer. In order to perform a scan operation by driving such a scanner driver, a user runs an application program of the computer and then drives the scanner driver again in the application program.

However, in the conventional scanner, when the object is formed into an image by scanning the object, the size of the image may be arbitrarily adjusted. Therefore, the original size of the object may not be known only by looking at the image. Therefore, when the scanned image is provided from another user, the user cannot measure the actual size of the object at all, and thus may cause user's illusion and cause inconvenience. For example, when a user purchases an item on the Internet, the user only looks at the image and estimates the size of the actual item, but the user's expected size is different from the size of the actual object. If you don't accept what's different from what you're expecting, you'll have trouble getting things back. As another example, even when synthesizing a plurality of scanned images, if the actual size of each image is not known, it is difficult to synthesize a realistic image proportional to the actual size. The disadvantage is that you need to resize the image several times until you get an image and try compositing.

Accordingly, it is an object of the present invention to provide a scanner and a scale display method thereof, which can facilitate user convenience by displaying the actual size of the scanned object so as to be known.

According to an aspect of the present invention, there is provided a scanner for scanning an object to generate a digitized image, the scanner comprising: a scan motor for moving at least one of an image read sensor and an object to scan the object; A scan motor monitoring unit configured to calculate an operation distance of at least one of an object and the image reading sensor by detecting an operation state of the scan motor including the rotation speed and the rotation speed of the scan motor; A scale generator for forming a scale representing an actual size of an image read by the image reading sensor according to the movement distance calculated by the scan motor monitoring unit; A scale synthesizer for synthesizing the scale generated by the scale generator and an image of an object formed by the image read sensor; And selecting a scale from a user, generating a scale by operating the scale generating unit during operation of the scan motor, and then operating the scale combining unit to generate an image scanned by the image reading sensor and the scale generating unit. And a control unit for controlling the synthesized scale to be displayed on the display unit.

Here, it is preferable that the scan motor monitoring unit grasp the moving distance of the object according to the rotation speed and the rotation speed of the scan motor in accordance with the scan mode for selecting the resolution, color, gray and black and white of the object.

The scale generator may be configured to adjust the scale of the scale in consideration of at least one of a resolution of the object, a scan mode for selecting color, gray and black and white, an area designation for setting the scanning area of the object, and a user setting including enlargement and reduction. The scale unit can be determined.

The scale generating unit may generate the scale unit of the scale smaller as the resolution of the object is larger, and increase the scale unit of the scale toward the color, gray, and black and white in the scan mode.

On the other hand, the method of the present invention for achieving the above object, having a scan motor for moving at least one of the image reading sensor and the object for scanning the object, the scale of the scanner to scan the object to generate a digitized image A display method, comprising: selecting whether to display a scale representing an actual size on an image of an object formed by the image reading sensor; Detecting a movement distance of at least one of the object and the image poisoning sensor by detecting an operating state of the scan motor including a rotation speed and a rotation speed of the scan motor; Forming a scale at a predetermined distance in proportion to the movement distance; Synthesizing an image of the object formed by the generated scale and the image reading sensor; And displaying the synthesized image of the scale.

The detecting of the operation state of the scan motor may include determining the rotational speed and the rotational speed of the scan motor according to the scan mode for selecting the resolution, color, gray and black and white of the object. It is preferable that the step is to measure.

The generating of the scale may include determining a scale unit of the scale in consideration of at least one of a resolution of the object, a mode for selecting color, gray and black and white, and user setting including region designation, enlargement, and reduction. .

In the generating of the scale, the larger the resolution of the object, the smaller the scale unit of the scale, and the larger the scale unit of the scale toward the color, gray, and black and white in the scan mode.

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

The scanner and its scale display method, along with the scanned image, display a scale that knows the actual size of the image, so that the actual size of the image can be determined regardless of the size at which the image is displayed. Accordingly, the user's convenience can be achieved by preventing the user from mistaken the actual size of the image.

On the other hand, in general, as described in the prior art, the scanner can be divided into a hand scanner, a sheet feed scanner, a flatbed scanner according to the operation method. The present invention is applicable to both a sheet feed type scanner and a flatbed type scanner, but in the following embodiments, the sheet feed type scanner will be described as an example in the drawings and the detailed description.

1 is a block diagram of a scanner according to the present invention. The scanner includes a scanning block 20 for scanning an object, a scale block 30 for generating a scale, a control block 10 for controlling the scanning block 20 and the scale block 30, ROM 13, which stores a program for scanning control, and RAM 11, which temporarily stores data and image data according to program execution.

The computer 40 capable of interfacing with such a scanner is provided with a scanner driver 43 for operating the scanner, a display unit 41 for displaying the scanned image, and a key panel for selection and input from the user. The part 45 is provided.

Here, the scanning block 20 includes a scanning module 21 for scanning an object, a scanning motor 25 which is a carriage return motor for moving the scanning module 21 or a paper, and scanned An image processing unit 23 for processing an image is included.

The scanning module 21 is composed of an image reading sensor, a lens, and a light source, and the image reading sensor mainly uses a CCD or a CIS image sensor. The image reading sensor may include a photoelectric converter configured to generate electrons by absorbing reflected light of light emitted from a light source and irradiated to an object, and a charge transmitter configured to transmit charges generated by the photoelectric converter to a signal detector. And a signal detector which detects signal charge and finally converts image information received by the photoelectric converter into an electrical signal.

The scan motor 25 is different from the medium to be moved depending on whether the scanner is operated in a sheet feed or flatbed manner. That is, the scan motor 25 moves the sheet in the case of the sheet fit scanner, and moves the scanning module 21 in the case of the flatbed scanner.

The image processor 23 may perform shading and gamma correction, dot per inch (DPI) conversion, edge emphasis, and error diffusion on image data input from the scanning module 21. )).

Meanwhile, the scale block 30 includes a scale generator 35 for forming a scale to be inserted into an image, and a scale synthesizer 37 for synthesizing the scale with the scanned image.

The scale generating unit 35 forms a scale indicating the actual size of the image read by the image reading sensor, and the scale generating unit 35 uses the scale when forming the scale as an operation state of the scan motor 25. The scale generator 35 receives information about the actual moving distance of the paper, which is calculated according to the rotation speed and the rotation speed of the scan motor 25, from the scan motor monitoring unit to be described later, and the calculated actual movement distance is a predetermined unit. For example, when 0.1cm, 0.5cm, 1cm, etc., the scale lines of the scale are generated one by one.

The size of this scale is determined by factors such as the resolution, scan mode, area designation, enlargement and reduction of the object. If the pre-scanning process is preceded before scanning the object, the display 41 is provided with a user setting screen as shown in FIG. The user setting screen is provided with a menu for setting the resolution, scan mode, area designation, enlargement and reduction, etc. of the object. In general, when the resolution of the object is large, the image is clear even if the object is enlarged, and thus the user is more likely to enlarge the object. Therefore, the scale generator 35 makes it easy to grasp the original size of the object even when the user enlarges the object by reducing the scale unit of the scale included in the image of the object.

The scan mode is for selecting whether to scan an object by a color scan method, a gray scan method, or a black and white scan method, wherein the gray scan method is a mode for scanning an object in black or gray tone, and the monochrome scan is performed. The method is a mode for scanning an object literally in black and white only. When scanning by a gray scanning method or a black and white scanning method compared to the color scanning method, it may not be able to image the delicate part of the object. On the other hand, an image scanned by the color scanning method can scan an object delicately, so the user is likely to enlarge it. Therefore, when the scale unit of the scale is set to a small size, the gray scanning method or the black and white scanning method is used. Set the scale unit of scale to large.

The area designation is a menu for selecting the size of the object to be scanned, and the size of the object may be selected in a standardized form such as A3, A4, B5, etc., or the area to be scanned may be directly set using a mouse or the like. The scale generator 35 sets the scale unit of the scale to be smaller as the area is larger.

The enlargement and reduction menu is a menu for enlarging and reducing the scanned object. If the scale generator 35 is set to enlarge, the scale unit of the scale is set to be smaller in proportion to the enlargement ratio, and conversely, it is set to reduce. In this case, set the scale unit of scale in proportion to the reduction ratio.

Information on the scale thus generated is temporarily stored in the RAM 11.

In the scale synthesizing unit 37, a scale generated by the scale generating unit 35 and temporarily stored in the RAM 11 and an image of an object scanned by an image reading sensor and temporarily stored in the RAM 11 are synthesized. do. Since the scale generated by the scale generator 35 is simultaneously generated while the image is being scanned, the scale is reduced and enlarged at the same ratio as the image is reduced and enlarged. Therefore, the scale synthesizing unit 37 only needs to synthesize the scanned image and the scale without any additional operation of manipulating the size of the scanned image and the scale.

The control block 10 includes a scan motor monitoring unit 17 for detecting an operating state of the scan motor 25 including the rotation speed and the rotation speed of the scan motor 25, the scanning block 20, and the scale block. And a control unit 15 for controlling the operation of the unit 30.

The scan motor monitoring unit 17 detects the rotational speed and the rotational speed of the scan motor 25 that is operated at the time of scanning, and uses the rotational speed and the rotational speed to determine the distance that the paper is actually moved by the scan motor 25. Obtain At this time, the scan motor monitoring unit 17 may determine the speed of the scan motor 25 using the resolution, scan mode, etc. of the object input through the user setting screen. In general, when the resolution of the object is large, the rotational speed of the scan motor 25 is relatively smaller than when the resolution is small, the rotational speed of the scan motor 25 is predetermined according to each resolution. In addition, in the scan mode, the rotation speed of the scan motor 25 when the color scan method is used is slower than when the gray scan method or the black and white scan method is used, and the rotation speed of the scan motor 25 also varies depending on each scan mode. It is predetermined. Therefore, the scan motor monitoring unit 17 can easily grasp the rotation speed according to the resolution and the scan mode input through the user setting screen, and can calculate the distance that the paper is actually moved by using the same.

Meanwhile, when the user selects the display of the scale, the controller 15 operates the scale generator 35 to generate the scale while the object is scanned, and operates the scale combiner 37 to scan the image. Try to synthesize the scale. Then, the controller 15 transmits the scaled image to the computer 40 to be displayed on the display 41.

The scale display process of the scanner by such a configuration will be described with reference to FIGS. 3 and 4 as follows.

When a user runs a scan program on the computer 40 to scan an object, a menu for selecting whether to display a scale on the scanned image is displayed on the initial screen of the scan program (not shown). When the user selects to display the scale and presses the start button (S310), the control unit 15 operates the scan motor 25 to move the paper as an object (S320).

Then, along with the pre-scanned image, the user setting screen as shown in FIG. 2 is displayed on the display unit 41 (S330), and the user sets the resolution, scan mode, area designation, and enlargement of the object through the user setting screen. Setting a menu such as zoom out (S340). When the menu is set through the user setting screen and the scan button is selected, the controller 15 operates the scale generator 35 and the scan motor monitoring unit 17 together with the scan motor 25. Then, while the object is scanned by the image read sensor (S350-1), the scan motor monitoring unit 17 detects the rotational speed and the rotation speed of the scan motor 25 to determine the actual moving distance of the object (S350). -2), the scale generating unit 35 generates scale lines of the scale at predetermined intervals according to the actual moving distance of the object detected by the scan motor monitoring unit 17 (S350-3). At this time, the scale generating unit 35 determines the scale unit of the scale according to information input by the user, such as the resolution of the object, the scan mode, the area designation, the enlargement / reduction, and generates a scale line for each determined scale unit. .

When the image of the object is generated by the image reading sensor and the scale lines of the scale are formed by the scale generator 35, the controller 15 temporarily stores the image and the scale of the object in the RAM 11. The scale combining unit 37 is operated. In the scale synthesizing unit 37, as illustrated in FIG. 4, the image a of the scanned object and the scale b are simply synthesized to complete the image c on which the scale is displayed (S360), and the controller 15. ) Transmits an image of the object on which the scale is displayed to the computer 40 to be displayed on the display unit 41 (S370).

As described above, according to the scanner and its scale display method, while the object is being scanned, the actual moving distance of the object is measured according to the rotation speed and the rotation speed of the scan motor 25, and at the same time, the actual moving distance can be known. Create a scale, and then combine the scale with the image of the scanned object.

Accordingly, even when the image of the object is reduced or enlarged, the size of the object can be easily understood. Therefore, when a user purchases an item through the Internet, the user can accurately grasp the size of the object, thereby eliminating the inconvenience of returning the item because the expected size and the actual size are different. In addition, even when synthesizing multiple images, the actual size of each image can be known. Therefore, by simply comparing and adjusting the scale of each image, each image can be easily synthesized in proportion to the actual size.

Meanwhile, in the above-described embodiment, the scale is generated from the moment when the scan motor 25 starts to operate. However, when there is a paper sensor for detecting the starting point and the end point of the paper, the start of the paper is detected by the paper sensor. Of course, the scale can be formed from the moment it becomes.

As described above, in the detailed description of the present invention, specific embodiments have been described, but it should be taken as exemplary, and various modifications may be made without departing from the technical spirit of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the claims below, but also by the equivalents of the claims.

As described above, according to the scanner and its scale display method, the user can easily grasp the size of the actual object by synthesizing and displaying a scale indicating the size of the actual object on the scanned image. Accordingly, the user can not only prevent errors or hassles caused by the user's mistake of the size of the object, but also can easily perform the compositing operation in comparison with the actual size between the images even when composing the images. Can be.

1 is a block diagram of a scanner according to the present invention;

2 is a user input screen provided to a user when scanning the scanner of FIG.

3 is a flowchart illustrating a scale display process of a scanner according to the present invention;

4 is a screen illustrating a process of synthesizing a scale with an image scanned by the scale display process of FIG. 3.

Explanation of symbols on the main parts of the drawings

10: control block 15: control unit

17: scan motor monitoring unit 20: scanning block

21: scanning module 23: image processing unit

25: scan motor 30: scale block

35 scale generation unit 37 scale synthesis unit

41: display unit

Claims (8)

A scanner that scans an object to produce a digitized image, A scan motor for moving at least one of the image reading sensor and the object to scan the object; A scan motor monitoring unit configured to calculate an operation distance of at least one of an object and the image reading sensor by detecting an operation state of the scan motor including the rotation speed and the rotation speed of the scan motor; A scale generator for forming a scale representing an actual size of an image read by the image reading sensor according to the movement distance calculated by the scan motor monitoring unit; A scale synthesizer for synthesizing the scale generated by the scale generator and an image of an object formed by the image read sensor; And, When a scale display is selected from a user, the scale generator is operated to generate a scale during the operation of the scan motor, and then the scale combiner is operated to generate an image scanned by the image reading sensor and a scale generated by the scale generator. And a controller which controls the synthesized image to be displayed on the display unit. The method of claim 1, And the scan motor monitoring unit detects a moving distance of the object according to the rotational speed and the rotational speed of the scan motor in accordance with the scan mode for selecting the resolution, color, gray and black and white of the object. The method of claim 1, The scale generator may be configured to adjust the scale of the scale in consideration of at least one of a resolution of the object, a scan mode for selecting color, gray and black and white, an area designation for setting the scanning area of the object, and a user setting including enlargement and reduction. A scanner, characterized in that for determining the scale unit. The method of claim 3, wherein The scale generating unit generates a scale unit of the scale smaller as the resolution of the object is larger, and increases the scale unit of the scale toward color, gray, and black and white in the scan mode. In the method of displaying a scale of a scanner having a read image sensor and a scan motor for moving at least one of the object for scanning the object, and generating a digitized image by scanning the object, Selecting whether to display a scale representing an actual size in an image of an object formed by the image reading sensor; Detecting a movement distance of at least one of the object and the image poisoning sensor by detecting an operating state of the scan motor including a rotation speed and a rotation speed of the scan motor; Forming a scale at a predetermined distance in proportion to the movement distance; Synthesizing an image of the object formed by the generated scale and the image reading sensor; And, And displaying the combined image of the scale. The method of claim 5, Detecting the operation state of the scan motor, the actual moving distance of the object by measuring the rotational speed and the number of revolutions of the scan motor according to the scan mode for selecting the resolution, color, gray and black and white of the object Scale display method of the scanner, characterized in that the step. The method of claim 5, The generating of the scale may include determining a scale unit of the scale in consideration of at least one of a resolution of the object, a mode for selecting color, gray, black and white, and user setting including area designation, enlargement, and reduction. Scale display method of the scanner comprising a. The method of claim 7, wherein The generating of the scale may include generating a scale unit of the scale smaller as the resolution of the object increases, and increasing the scale unit of the scale toward the color, gray, and black and white in the scan mode. Way.