KR100898569B1 - Portable image clipping device and control method thereof - Google Patents

Abstract

The present invention includes a housing having a housing body having an inner space, a housing header and a housing tail disposed at both ends of the housing body, respectively; A partition display marker unit mounted at an end side of the housing to partition a selection area that a user wants to store with respect to the printed matter; An image input unit having an image camera for acquiring image information through a header image input port of the housing header and disposed inside the housing; An image signal processing unit in electrical communication with the image input unit, a control unit capable of recognizing, extracting and selectively storing the divided selection area based on the image signal of the image signal processing unit, and communicating with the control unit Provided is a portable image clipping apparatus including a printed circuit board on which a storage unit which stores an image signal for a partitioned selection area is disposed, and a control method thereof.

Description

PORTABLE IMAGE CLIPPING DEVICE FROM PRINTED MATERIAL AND THE METHOD FOR CONTROLLING THE SAME}

The present invention relates to an image device and a control method thereof, and more particularly, to an image device and a control method thereof, which enables the user to save / output an extract of only a desired part.

As a digital device capable of digitizing printed matter, scanners and cameras are commonly used. They can convert the image information of the printed matter into a digital signal and transfer it to a storage device and / or an output device. The scanner can stably receive image information on the printed matter and the camera has excellent portability.

However, there is a disadvantage in that the scanner is less portable and takes some time. In the case of a portable scanner, it is difficult to acquire more accurate image information due to a decrease in scanning function. In addition, in the case of a camera, a user must perform a task through cumbersome operations of zooming in and out. In the case of extracting the image information for a single print, the efficiency of the work is not a problem. However, if the image information for a large number of prints is to be extracted, the operation process that should be selected for each print takes considerable time. do.

Accordingly, the present invention is to solve the above problems, to enhance the portability and to obtain the image information through a simple operation to increase the usability, and to prevent the excessive capacity of the storage device of the structure And a control method thereof.

The present invention for achieving the above object, a housing having a housing body having an inner space, the housing having a housing header and a housing tail disposed on both ends of the housing body; A partition display marker unit mounted at an end side of the housing to partition a selection area that a user wants to store with respect to the printed matter; An image input unit having an image camera for acquiring image information through a header image input port of the housing header and disposed inside the housing; An image signal processing unit in electrical communication with the image input unit, a control unit capable of recognizing, extracting and selectively storing the divided selection region based on an image signal of the image signal processing unit, and communicating with the control unit It provides a portable image clipping apparatus having a printed circuit board on which a storage unit for storing the image signal for the partitioned selection area is disposed.

In the portable image clipping apparatus, the partition marker may be provided with one or more partition markers capable of partitioning the selection area with a color different from the color of the printed matter, and the housing has a color different from the color of the selection area. A button input unit may be provided having a color selection button for selecting the same color as the color of the partition line partitioned by the partition display marker of.

In addition, the partition display marker unit may include a non-visible light marker, and the image input unit may further include a non-visible light identification unit for identifying the non-visible light corresponding to the non-visible light marker, or the non-visible light identification The unit includes a pass filter unit configured to pass non-visible light corresponding to the non-visible light marker and to be disposed in the vicinity of the image camera, wherein the pass filter unit includes: a pass filter through which the non-visible light wavelength passes, and the pass filter A pass filter holder to be mounted, a pass filter driving shaft mounted to one end of the pass filter holder, and a pass filter driving unit which is in electrical communication with the control unit and connected to the pass filter driving shaft to apply rotational force to the pass filter driving shaft. You may.

The non-visible light identification unit may further include: a non-visible light camera capable of acquiring image information through which non-visible light corresponding to the non-visible light marker passes, and an optical path of the image information from the header image input port. The non-visible light may be ultraviolet light, and the non-visible light may be infrared light.

In the portable image clipping device, the housing body includes a first half of the housing body and a second half of the housing body, wherein each central axis of the first half of the housing body and the second half of the housing body may cross each other at a predetermined angle, and the housing header It is further provided with a header region display through hole, the housing further includes an area display unit having an area display light source lamp for emitting light in accordance with a control signal of the control unit to display an area obtainable by the image camera. You may.

The housing may further include a display for displaying the image information acquired by the image camera or an operation mode selected by the user, and the image signal for the partitioned selection area stored in the storage unit may be provided. According to a control signal of the control unit, an RF module capable of wireless communication output to an external output device having a communication module may be further provided. The image input unit may include: a focusing lens movably disposed between the header image input port and the image camera, a focusing lens holder accommodating and supporting the focusing lens, and a focusing lens holder mounted on one side of the focusing lens holder. And a focusing module having a drive shaft and a focusing lens holder driver for providing a rotational driving force to the focusing lens holder drive shaft, wherein the housing is disposed in parallel with the focusing lens holder drive shaft and relative to the focusing lens holder. It may be further provided with a focusing lens holder guide shaft that is possibly disposed through.

According to another aspect of the invention, the mode setting step of setting the operation mode in accordance with the signal of the button input unit selected by the user of the portable image clipping device; An image information signal input step of acquiring image information from an image camera included in the image input unit, for a printed matter including a selection area partitioned by the user by the display unit; An image signal processing step of processing the image information into an image signal by an image signal processor according to a control signal of a controller; A selection region recognizing step of recognizing a selection region partitioned by the user from the video signal; According to a control signal of the control unit, it is possible to provide a method for controlling a portable image clipping device, comprising; storing the selection area image signal for storing the image signal for the selection area in the storage.

In the method of controlling the portable image clipping apparatus, the inputting of the image information may include receiving first and second image information from an image camera of the portable image clipping apparatus, and the image signal processing step may include the first and the second input signals. The image signal processing unit 2 image information, the image signal processing unit may further include a first and second image signal comparison step of comparing the image signal for the first and second image information before the step of recognizing the selection region. The method may further include a selection region image signal output step of outputting the selection region image signal to an external output device according to a control signal of the controller after the storing of the selection region image signal.

The portable image clipping apparatus and the control method thereof according to the present invention having the configuration as described above have the following effects.

First, a portable image clipping apparatus and a control method thereof according to the present invention provide a portable image clipping apparatus capable of extracting an image of only a selected region partitioned by a partition line through a partition display marker unit of a simple operation and increasing usability. can do.

Secondly, the portable image clipping apparatus and control method thereof according to the present invention can provide a portable image clipping apparatus capable of storing selective image information on a partitioned selected region, thereby providing an optimized use of the storage unit.

Third, the portable image clipping apparatus and the control method thereof according to the present invention are excellent in the assemblability due to the simple structure, the production cost may be significantly reduced.

Fourth, the portable image clipping apparatus and the control method thereof according to the present invention can increase the portability due to the simple structure, thereby increasing the usability of the user.

Hereinafter, a detailed description of a portable image clipping apparatus and a control method thereof according to the present invention will be described with reference to the drawings.

1 shows a schematic perspective view of a portable image device 10 according to an embodiment of the invention, and FIG. 2 shows a schematic exploded perspective view of the portable image clipping device 10 of FIG. 1.

The portable image clipping apparatus 10 according to an embodiment of the present invention includes a housing 100, a partition display marker unit 160, an image input unit 300, and a printed circuit board 200. The marker unit 160 may be disposed at one end of the housing 100, the image input unit 300 may be disposed in the housing 100, and each electric and electronic component may be disposed on the printed circuit board 200. do.

The housing 100 includes a housing header 110, a housing body 120, and a housing tail 130, wherein the housing body 120 is disposed between the housing header 110 and the housing tail 130. The housing body 120 has an inner space, and various components are disposed in the inner space of the housing body 120. The button input unit 140 is disposed on the outer circumferential surface of the housing body 120, and the button input unit 140 is provided with a power switch button 141 and several operation mode selection switch buttons 142. The button input unit 140 may have a structure forming a button cover and a tact switch, and in some cases, may be formed as a capacitive switch structure for generating an electrical signal according to a change in capacitance caused by a user's contact. Various modifications are possible accordingly. The outer circumferential surface of the housing body 120 may be further provided with an input / output terminal 143. The input / output terminal 143 may be implemented as a USB port to perform a power supply or a data transmission function.

The housing header 110 is mounted at one end of the housing body 120, and the header grip groove 111 is provided on the outer circumferential surface of the housing header 110 to slip when the housing header 110 is mounted on the housing body 120. This can increase the ease of operation of the worker. One side of the housing header 110 is provided with a header image input port 113, the image input unit to be received through the header image input port 113 receives the image information. The outer peripheral side of the housing header 110 is provided with a header mounting protrusion 114, one end of the housing header 110 is inserted into the inner space through the body through-hole 121 formed in one end of the housing body 120 When received, the header mounting protrusion 114 engages with the body mounting receiving portion 122 formed on the inner side of the housing body 120, thereby preventing the housing header 110 from being undesirably separated from the housing body 120. prevent.

The housing tail 130 is disposed at the other end side of the housing body 120, and the housing tail 130 includes a tail cap 131 and a marker mounting part 133. The marker mounting unit 133 is mounted to the other end 123 of the housing body 120, and the marker mounting unit 133 is provided with a marker mounting stopper 135 and a marker receiving unit 136. The marker mounting part stopper 135 prevents the marker mounting part 133 from excessively entering the receiving part of the other end 123 of the housing body 120, and the marker accommodating part 136 has a partition display marker part 160. Is equipped for receiving. The tail cap 131 is mounted toward the marker accommodating part 136, and prevents the compartment marker marker part 160 accommodating and mounted to the marker accommodating part 136 from being detached. A tail cap grip groove 132 may be formed at an outer circumference of the tail cap 131 to allow the user to smoothly separate from the other end of the housing body 120 without slipping when the user grips the tail cap 131.

The compartment marker marker 160 may include one or more compartment marker markers 161, the compartment marker markers 161 being at the end of the housing 100, more specifically at the other end 123 of the housing body 120. It is housed in the marker receiving portion 136 of the insertable marker mounting portion 133. The partition display marker unit 160 may partition a selection area that a user wants to store with respect to the printed matter 1 (refer to FIG. 6). That is, as shown in Fig. 6, a plurality of print areas (A, B) is printed on one surface of the printed matter (1), the user to save the image to the print area (A) indicated by reference numeral A If desired, the selection area inside the partition line L is designated by forming the partition line L using the partition display marker 161 so as to surround the print area A and partition it. The partition display marker unit 160 includes one or more partition display markers 161, and the partition display marker 161 may partition the selection area in a color different from that of the printed matter 1. For example, when the color of the print areas A and B displayed on the print 1 is black, the area mark marker 161 having a color other than black is used to surround the print area A, for example. By selecting the partition line L on the printed matter 1, a selection area that a user wants to store can be partitioned. In this case, one of the mode selection switch buttons 142 of the button input unit 140 formed on the outer circumferential surface of the housing body 120 includes a color selection button 143 to select a partition display marker selected to draw the partition line L. A color selection function may be performed to select the same color as the color of 161. As described below, a signal by the color selection button 143 selected by the user is transmitted to a controller to be described below. Make sure you understand the area. The partition marker marker 160 may include a plurality of partition markers 161 to show the partition line L in a color that does not intersect with various colors of the print areas A and B printed on the printed matter 1. have.

The image input unit 300 is disposed in an inner space of the housing 100, and the image input unit 300 includes an image camera 310. The image camera 310 acquires image information input through the header image input port 113 formed in the housing header 110. The image camera 310 includes a camera lens 311 and a camera barrel 313. The camera barrel 313 is provided with an imaging device (not shown) for converting image information into an electrical signal. The optical axis of the image camera 310 is disposed on the axis I-I, and the through axis of the header image input port 113 is coaxial with the optical axis of the image camera 310. The image camera 310 is disposed on an area indicated by AA on one surface of the printed circuit board 200, but an arrangement position of the image camera 310 of the present invention is not limited thereto. The imaging device of the image camera 310 may be variously selected according to a design specification such as a charge-coupled device (CCD) sensor or a complementary metal oxide semiconductor (CMOS) sensor.

In some cases, the image input unit 300 may further include a focusing module 320 for adjusting the focus of the image information input to the image camera 310 through the header image input port 113. 320 includes a focusing lens 321, a focusing lens holder 323, a focusing lens holder driving shaft 325, and a focusing lens holder driving unit 327. The focusing lens 321 is disposed between the header image input port 113 and the image camera 310. The focusing lens 321 is movably disposed by other components described below of the focusing module, thereby providing a header image input port ( The focus of the image information may be adjusted by adjusting the optical path to the image information input through 113. The focusing lens holder 323 includes a focusing lens 321. The focusing lens holder 323 firmly mounts the focusing lens 321 so that the focusing lens 321 does not move relative to each other. A focusing lens holder driving shaft 325 is mounted on one side of the focusing lens holder 323, and the focusing lens holder driving shaft 325 is capable of relative rotational movement with respect to the focusing lens holder 323. The focusing lens holder driving shaft 325 is connected to the focusing lens holder driving unit 327, and the center axes of the focusing lens holder driving shaft 325 and the focusing lens holder driving unit 327 do not coincide with each other, or loads are caused by external vibrations. Both may take the structure of being connected by drive shaft coupling 326 in order to prevent it from being applied. However, this is merely an example and the axial structure of the present invention is not limited thereto.

The focusing lens holder driving unit 327 is in electrical communication with a control unit described below to operate according to a control signal of the control unit to generate a rotational driving force. The focusing lens holder driving shaft 325 connected to the focusing lens holder driving unit 327 receives the rotational driving force of the focusing lens holder driving unit 327 to achieve shaft rotation. The focusing lens holder 323 into which the focusing lens holder driving shaft 325 is inserted through has a lead screw structure, whereby the rotational movement of the focusing lens holder driving shaft 325 changes the linear movement of the focusing lens holder 322. Therefore, the focusing lens holder 323 moves along the focusing lens holder driving shaft 325 parallel to the optical axis to adjust the optical path between the focusing lens 321 and the camera lens 311 to adjust the exact focus of the image information. You can also take

In some cases, the focusing module 320 may further include a guide component to stably move the focusing lens holder 323 on which the focusing lens 321 is mounted. That is, as shown in FIG. 3, the focusing module 320 further includes a focusing lens holder guide shaft 329, wherein the focusing lens holder guide shaft 329 is focused in a relative motion with the focusing lens holder 323. It is disposed to penetrate through one side of the lens holder 323. When the focusing lens holder 323 makes a linear motion by the rotational driving force from the focusing lens holder driving unit 327, the focusing lens holder 323 is arranged in parallel with the focusing lens holder driving shaft 325. By stably moving along 329, it may be possible to prevent occurrence of a shaking phenomenon of the image information acquired by the image camera 310 due to vibration generated during the exercise.

The printed circuit board 200 is disposed in an inner space of the housing 100, and a substrate side groove 201 is formed at an outer circumference of the printed circuit board 200 to prevent slippage during assembly. In some cases, a mounting groove (not shown) is formed on the outer circumferential surface of the printed circuit board 200, and a mounting protrusion corresponding to the mounting groove is provided in the housing body 120 to provide the printed circuit board 200 with the housing. It may be formed in a structure that can be mounted to the body 120 stably. Various electrical components are disposed on the printed circuit board 200, and each component may be in electrical communication by circuit wiring. In addition, the printed circuit board 200 is in electrical communication with the button input unit 140 and / or the input / output terminal 143, the on / off signal and the operation mode by the power switch button 141 of the button input unit 140 The mode / function selection signal by the switch button 142 is transmitted to the printed circuit board 200.

The printed circuit board 200 includes a control unit 210, a storage unit 220, and an image signal processor 230. The image signal processor 230 includes an image input unit 300, and more specifically, an image camera 310. ), The image information obtained from the image camera 310 is signal-processed into an image signal through electrical communication (see FIGS. 2 and 5). The controller 210 recognizes a selection area by the user based on the image signal processed by the image signal processor 230, extracts the selected region, and selectively stores the extracted region. That is, the controller 210 recognizes the partition line L drawn by the user to the partition display marker unit 160 among the image signals processed by the image signal processor 230, which controls the image of the visible light band. The image signal corresponding to the selected color inputted through the button input unit 140 by the user among the signals is extracted, and the portion corresponding to the selected color is the partition display marker 161 of the selected color of the partition display marker unit 160. It is determined that the partition line (L) drawn by, and from this it is determined and recognized that the area partitioned by the partition line (L) is a selection area to be stored by the user. The storage unit 220 performs a function of storing the selection area. The storage unit 220 may be in electrical communication with the controller and may also be in electrical communication with the image signal processor 230. The storage unit 220 receives and stores image information on the selection area determined and recognized by the controller 210 from the image signal processor 230 according to a control signal from the controller 210.

On the other hand, the image signal for the selection area stored in the storage unit 220 may further take a structure that is transmitted and / or output to the outside through wireless communication. That is, the RF module 240 may be further provided on one surface of the printed circuit board 200. The RF module 240 may be in electrical communication with the control unit 210 and may be in electrical communication with the storage unit 220. . Here, the RF module 240 refers to a component including one or more of a high frequency processor, an intermediate frequency processor, and / or a baseband processor. The RF module 240 according to a control signal of the controller 210, another external output device (not shown) having a communication module via the antenna (not shown) for the image signal stored in the storage unit 220 It can also be transmitted by wireless communication output.

In some cases, the portable image clipping apparatus 10 may further include an area display unit which displays a range of image information input through the image camera of the image input unit. That is, as shown in FIG. 2, an area display part 250 is further provided on one surface of the printed circuit board 200, and the area display part 250 includes an area display light source lamp 251. In the housing header 110, a header region display through hole 112 is displayed in the vicinity of the header image input hole 113. The number and shape of the header region display through hole 112 are the number of the region display light source lamps 251. And shape. Light emitted from the area display light source lamp 251 is emitted to the outside of the housing 100 through the header area display through hole 112 of the housing header 110. The area display light source lamp 251 is disposed toward the housing header 110 on one surface of the printed circuit board 200, and the light emitted from the area display light source lamp 251 preferably has a predetermined straightness and luminance. Do. It is arranged to be inclined at a predetermined angle with the optical axis and the optical axis (axis I-I) of the light emitted from the area display light source lamp 251, through which the portable image clipping apparatus 10 according to the present invention is subjected to the target printed matter From (1), the area acquired by the image camera 310 of the image input unit 300 can be displayed more accurately according to the perspective.

The area display light source lamp 251 is preferably a laser LED that can ensure the light emitted straight, but the area display light source lamp 251 of the present invention is not limited thereto. That is, as shown in FIG. 2, the area display unit 250 further includes an area display light source lens 253 to collect light emitted from the area display light source lamp 251 to exit the housing 100. It may take the structure. The area display light source lens 253 prevents the light source lens protrusion 254 and the light source lens protrusion 254 inserted into the header area display through hole 112 from excessively entering the header area display through hole 112. It is also possible to take a structure having a light source lens projection stopper 255 for the purpose.

As shown in Fig. 6, the selection area as the inner area of the partition line L drawn by the partition display marker 161 of the selected color of the partition display marker unit 160 so as to surround the print area A by the user. On the outer periphery, the light display part DL by the light emitted from the area display light source lamp 251 of the area display part 250 is displayed on the printed matter 1. Accordingly, it may be determined whether the selection area partitioned by the user is appropriately belonged to the target area acquired as the image information by the image camera 310 of the image input unit 300.

Hereinafter, a control process of the portable image clipping apparatus 10 according to the present invention will be described with reference to FIG. 7.

First, a mode setting step in which a mode is set by signals from the button input unit 140 (see FIG. 1) for an operation mode that a user wants to set is performed (S110). That is, the partition display marker selected by the user to store the image information on the selection area partitioned by the partition line L drawn on the printed matter 1 by the partition display marker of the color selected by the user. Manipulate the color selection button to the same color as the color of, the signal transmitted from the color selection button of the button input unit 140 is transmitted to the control unit 210 (see FIG. 5) through a switch or the like, the control unit 210 is selected Based on the color information, the color of the partition line to be acquired in the future is set. The position of the print 1 and the portable image clipping device 10 may be adjusted in order for the user to acquire the image information against the selection area partitioned by the partition line L of the printed image 1. Position it. In this process, by using the light emitted from the area display light source lamp 251 of the area display unit 250 to check whether the selection area partitioned by the corresponding partition line L is within the area of the light display unit DL, The image information acquired by the image camera 310 may be able to determine whether the user can acquire the overall image information for the desired selection area.

Then, when an operation signal for image acquisition through the image input unit is input by the user through the manipulation of the button input unit 140, the image camera 310 of the image input unit 300 to the control signal of the control unit 210 In operation S120, an image information input step of inputting image information is performed. Thereafter, the image signal processor 230 executes an image signal processing step of converting the input image information into an image signal (S130). In this process, the focusing module 320 of the image input unit 300 may be manipulated to adjust the focus of the selected area by operating the button input unit 140. Here, although not shown in detail, in some cases the control unit determines the degree of focus through the focusing module, if the correct focus is not adjusted by the control unit applies a control signal to the focusing module to adjust the rotational driving force of the focusing lens holder driver, Focus adjustment may be made automatically.

Thereafter, the controller 210 determines and recognizes the selection area based on the image signal processed by the image signal processor 230 (S140). The information about the partition line L included in the image signal processed by the image signal processor 230 is inspected based on the information about the color previously input by the user through the button input unit 140. For example, when the color of the partition display marker 161 used for the partition line L is set to red, since the printed matter 1 does not have image signal information having red in addition to the partition line L, The information is extracted, and it is determined that the area partitioned by the partition line L is a selected area, and the extracted area is recognized and extracted.

Thereafter, the selection region image signal storing step of storing the recognized and extracted image signal is performed (S150). When the controller 210 determines that the selection region is recognized, the controller 210 extracts the selected region and applies a storage signal to the storage unit 220. The storage unit 220 is in electrical communication with the image signal processor 230 to control the controller 210. Only the image information of the selected area is extracted and stored from the image signal processor 230 according to the control signal.

In some cases, the controller 210 may further perform a step of transmitting the image signal for the selected region stored in the storage 220 to an external output device (S160). That is, the controller 210 transmits an image signal of the selected area stored in the storage unit 220 to the RF module 240, and the RF module 240 converts it into a wireless communication signal to provide an external RF module. In addition to the output device, the external output device may receive a signal, convert it into an image signal for a selected area, and output or store it on a display or other storage device.

In the above embodiment, the setting of the partition line by the partition display marker unit and the recognition thereof have been described with respect to the color of the visible light region, but the present invention is not limited thereto. That is, the partition display marker of the partition marker may be implemented as a non-visible light marker, and the image input unit may further include a non-visible light identification unit for identifying the non-visible light. The non-visible light identification unit corresponds to the non-visible light marker. By passing through the non-visible light so that the image input unit can identify the partition line that is difficult to identify with the naked eye of the user. The non-visible light identification unit may be implemented as a pass filter unit 330, and the pass filter unit 330 is disposed near the image camera 310. As shown in FIGS. 8 and 9, the pass filter unit 330 includes a pass filter 331, a pass filter holder 333, a pass filter drive shaft 335, and a pass filter driver 337. The pass filter 331 passes a wavelength for non-visible light according to the use of the partition marker, and the pass filter holder 333 fixes and mounts the pass filter 331. A pass filter driving shaft 335 is mounted at one end of the pass filter holder 333, and the pass filter holder 333 performs the same rotational movement during the rotational movement of the pass filter driving shaft 335. An end of the pass filter driving shaft 335 is connected to the pass filter driving unit 337, and the pass filter driving unit 337 may be implemented as a micro electric motor. Here, the rotation center axes of the pass filter driving shaft 335 and the pass filter driving unit 337 are arranged on the same line as line III-III, and the optical axis of the image camera 310 is line IV-IV (same as axis I-I). And line III-III and line IV-IV are arranged in parallel with each other. Accordingly, the pass filter driver 337 is driven in accordance with the control signal of the controller 210 to transmit the rotational driving force to the pass filter drive shaft 335, and the pass filter holder 333 by the rotational movement of the pass filter drive shaft 335. The same movement is achieved. As the pass filter holder 333 is rotated, the pass filter 331 may cross the optical axis of the camera lens 331 of the image camera 310, and may be input to the camera lens 331 through the header image input port 113. The non-visible light wavelength may be passed to the image information.

Meanwhile, in the above embodiments, the portable image clipping device is configured as a simple bar type, but may have other structures. 10 is a schematic perspective view of a portable image clipping apparatus 10a according to another embodiment of the present invention. The same components as those in the previous embodiment are denoted by the same reference numerals, and a separate description thereof will be described above. Replace with The housing header 110 of the portable image clipping apparatus 10a is provided with a header image input unit 113. The housing body includes a first half of the housing body (center axis line II-II) and a second half of the housing body (center axis line I-I). And a central axis of each of the first half of the housing body and the second half of the housing body may cross each other at a predetermined angle. Through this, the optical axis into which the image information is input forms a line II-II, and the line II-II is formed to intersect with the central axis I-I of the housing body 120a at an angle α. By taking such a structure, the process of acquiring the image information for the printed matter 1 (refer to FIG. 6) may be made easier by ergonomics. When the portable image clipping device 10a has such a structure, the image input unit or the like may have a structure that is disposed in the first half of the housing body (center axis line II-II) of the housing body 120a, but the second half of the housing body (center) When disposed on the axis I-I), a reflection mirror or other optical element may be further provided to appropriately adjust the optical path input through the header image input unit 113. In addition, the portable image clipping apparatus 10a may further include a display 150. The display 150 may include image information acquired from the image camera 310 (see FIG. 2) or a button input unit by a user. Each mode of operation may be indicated for the color selected or the type of non-visible light described below.

In addition, although the non-visible light identification unit has been described with respect to the case where the pass filter unit is implemented, the present invention is not limited to such a structure. As illustrated in FIG. 11, the non-visible light identification unit may have a structure including a non-visible light camera 310a and an image prism 340a. That is, the non-visible light identification unit of the image input unit may use the non-visible light camera 310a for acquiring the image information through which the non-visible light corresponding to the non-visible light marker passes in addition to the image camera 310 for acquiring the normal image information. The apparatus may further include an image prism 340a for branching an optical path of the image information input through the header image input port 113. Although a specific configuration is not shown, a non-visible light camera A built-in non-visible light path filter capable of acquiring image information about non-visible light in a wavelength band corresponding to the segment display marker 310a. The image information input through the header image input port 113 passes through the image prism 340a, and the optical paths of the respective optical axis lines IV-IV and line of the respective image cameras 310 and the non-visible light cameras 310a. It is branched so that it may be collinear with VV.

When the compartment display marker of the compartment display marker unit is a non-visible light marker, the non-visible light marker may be a UV (ultra violet) marker, and in some cases, may be an IR (infra red) marker, etc. Various configurations may be taken according to the user's option. In this case, it is apparent from the above techniques that the pass filter or the non-visible light camera or the like implemented in each non-visible light identification unit has a structure capable of passing non-visible light in each corresponding wavelength band, and the button input unit The mode for each non-visible light is selected through.

Hereinafter, a control process for a portable image clipping device including a non-visible light identification unit such as a pass filter unit or a non-visible light camera will be described. Here, some steps are the same as the control process for the above embodiment, the description thereof is replaced by the above description and a separate description is omitted.

First, the partition line is shown on the printed matter by the non-visible light marker selected by the user, and after the mode setting step S210 is executed, the image information input step S220 is executed. In this case, the image information input step (S220) receives the first image information and the second image information from the image camera of the image input unit of the portable image clipping device, the acquisition of the first image information and the second image information is simultaneously or sequentially When the image information is obtained sequentially, the acquisition time interval for each image information is preferably minimized.

When the pass filter unit is used as the non-visible light identification unit, the first image information about the printed matter 1 (see FIG. 6) is first acquired before the pass filter unit 330 is driven and operated according to a control signal of the controller 210. By the operation of the pass filter driver 337, the pass filter 331 is disposed to intersect the optical axis of the image camera 310, and then acquires second image information. The second image information is displayed by a non-visible light marker. Includes image information about a segmentation line that is not visually identified. In this case, after the second image information is acquired, it is quickly returned to its original position by the operation of the pass filter drive unit. In order to prevent the shake due to the operation of the pass filter drive unit and the moment of inertia of the pass filter holder, the specification of the pass filter holder is It is preferable to select appropriately. In addition, although not described in detail, the controller may further perform a correction programmatically so that distortion of the image information due to the shaking due to such inertia does not occur.

In addition, when the non-visible light identification unit is implemented as a non-visible light camera, the image information branched by the image prism 340a may be used for each first image by the respective video camera 310 and the non-visible light camera 310a. The information and the second image information may be acquired simultaneously or sequentially.

After the image information is acquired, the acquired image information is converted into an image signal by the image signal processor 230 (S230). Thereafter, the control unit 210 recognizes the selection area from the first and second image information (S250), and the first and second image information between the image signal processing step S230 and the selection area recognition step S250. A comparison step S240 is further executed to compare and / or synthesize the acquired image information, respectively, to obtain information about the selection area partitioned by the partition line drawn through the non-visible light marker by the user. Thereafter, the controller 210 executes the selection region recognition step S250 to determine and recognize the selection region.

Thereafter, the controller 210 applies a signal to the storage unit 220 to store only an image signal for the selected region, and the storage unit 220 receives and stores the image signal from the image signal processor 230 (S260). . In addition, similar to the control process of the above-described embodiment, the selection region video signal may be transmitted to an external output device having another RF module through an RF module or the like, and stored or output (S270).

The above embodiments are intended to illustrate the present invention, but the present invention is not limited thereto. That is, in the above embodiment, the compartment marker marker part is implemented as a compartment marker or a non-visible light marker having a color, but in addition, a marker having an identifiable volatile material that does not remain after use or a predetermined thermal temperature range of 40 ° C. Various modifications are possible within the range having a structure of a portable image clipping apparatus capable of storing an image of only a region selected by a user, such as may be implemented by a thermal display marker of 70 ° C. to 70 ° C. FIG.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1 is a schematic perspective view of a portable image clipping apparatus according to an embodiment of the present invention.

FIG. 2 is a schematic exploded perspective view of the portable image clipping device of FIG. 1.

3 is a schematic partial cross-sectional view of a focusing module of a portable image clipping apparatus according to an embodiment of the present invention.

4 is a schematic rear view of a housing tail and a marker mount of a portable image clipping device according to an embodiment of the present invention.

5 is a schematic block diagram of a portable image clipping apparatus according to an embodiment of the present invention.

FIG. 6 is a schematic plan view of an example of a printed material in which a selection area and area display to be extracted by a portable image clipping apparatus according to an embodiment of the present invention are shown.

7 is a schematic flowchart illustrating a control method of a portable image clipping apparatus according to an embodiment of the present invention.

8 is a schematic cross-sectional view of a portion including a pass filter as a non-visible light identification unit of a portable image clipping apparatus according to another embodiment of the present invention.

9 is a schematic perspective view of the pass filter of FIG. 8.

10 is a schematic perspective view of a portable image clipping apparatus according to another embodiment of the present invention.

FIG. 11 is a schematic partial side view illustrating a structure of a non-visible light camera and an image prism as a non-visible light identification unit of a portable image clipping apparatus according to another embodiment of the present invention.

12 is a schematic flowchart illustrating a control method for portable image clipping devices according to another embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10 ... Portable image clipping device 100 ... Housing

200 ... printed circuit board 210 ... control unit

220 ... storage 230 ... video signal processing

240 ... RF module 250 ... area display

300 ... video input 310 ... video camera

320 ... focusing module 330 ... pass filter

Claims (17)

A housing having a housing body having an inner space, a housing header and a housing tail disposed at both ends of the housing body, respectively; A partition display marker unit mounted at an end side of the housing to partition a selection area that a user wants to store with respect to the printed matter; An image input unit having an image camera for acquiring image information through a header image input port of the housing header and disposed inside the housing; An image signal processing unit in electrical communication with the image input unit, a control unit capable of recognizing, extracting and selectively storing the divided selection region based on an image signal of the image signal processing unit, and communicating with the control unit And a printed circuit board on which a storage unit for storing an image signal for a partitioned selection area is disposed. The method of claim 1, And the at least one partition marker that can partition the selection area in a color different from the color of the printed matter. The method of claim 2, And a button input unit having a color selection button for selecting the same color as the color of the partition line partitioned by the partition display marker of a color different from the color of the selection area. The method of claim 1, The partition marker portion comprises a non-visible light marker, The image input unit further comprises a non-visible light identification unit for identifying a non-visible light corresponding to the non-visible light markers. The method of claim 4, wherein The non-visible light identification unit includes a pass filter unit which passes non-visible light corresponding to the non-visible light marker and is disposed in the vicinity of the image camera, The pass filter unit: A pass filter for passing the non-visible light wavelengths; A pass filter holder on which the pass filter is mounted; A pass filter drive shaft mounted to one end of the pass filter holder; And a pass filter driving unit which is in electrical communication with the control unit and connected to the pass filter driving shaft to apply a rotational force to the pass filter driving shaft. The method of claim 4, wherein The non-visible light identification unit: A non-visible light camera capable of acquiring image information through which non-visible light corresponding to the non-visible light marker passes; And an image prism for branching an optical path of the image information from the header image input port. The method according to any one of claims 4 to 6, And the non-visible light is ultraviolet light. The method according to any one of claims 4 to 6, And the non-visible light is infrared light. The method of claim 1, The housing body has a first housing body and a second housing body, And the central axis of each of the first half of the housing body and the second half of the housing body crosses each other at a predetermined angle. The method of claim 1, The housing header is further provided with a header region display through hole, And an area display unit having an area display light source lamp for emitting light in accordance with a control signal of the control unit in order to display an area obtainable by the image camera in the housing. The method of claim 1, And a display for displaying the operation information selected by the user or the image information acquired by the image camera. The method of claim 1, And a RF module capable of wirelessly outputting an image signal of the divided selection area stored in the storage unit to an external output device having a communication module according to a control signal of the controller. Clipping device. The method of claim 1, The image input unit: A focusing lens movably disposed between the header image input port and the image camera, a focusing lens holder accommodating and supporting the focusing lens, a focusing lens holder drive shaft mounted on one side of the focusing lens holder, and the focusing lens holder And a focusing module having a focusing lens holder driver for providing a rotational driving force to the drive shaft. The method of claim 13, And the focusing module further comprises a focusing lens holder guide shaft disposed in parallel with the focusing lens holder driving shaft and disposed through the focusing lens holder in a relative motion. A mode setting step of setting an operation mode according to a signal of a button input unit selected by a user of the portable image clipping device; An image information signal input step of acquiring image information from an image camera included in the image input unit, for a printed matter including a selection area partitioned by the user by the display unit; An image signal processing step of processing the image information into an image signal by an image signal processor according to a control signal of a controller; A selection region recognizing step of recognizing a selection region partitioned by the user from the video signal; And a selection region image signal storing step of storing the image signal for the selection region in a storage unit according to a control signal of the controller. The method of claim 15, In the image information input step, first and second image information are respectively inputted from an image camera of the portable image clipping device. The image signal processing may include processing the first and second image information through image signals, Before the selection region recognition step, the image signal processing unit further comprises a first and second image signal comparing step of comparing the image signal for the first and second image information, characterized in that for controlling the portable image clipping apparatus. . The method according to claim 15 or 16, And a step of outputting a selection region image signal to the external output device according to a control signal of the controller after the storing of the selection region image signal.

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