KR101037696B1 - Control method of hidden line detection apparatus - Google Patents

Abstract

The present invention relates to a control method of a silver wire detection device, and more particularly, to detect a silver wire marked on a security paper, such as securities such as banknotes, checks, secret documents, etc. with a plurality of optical sensing sensors, The present invention relates to a control method of a hidden line detecting device configured to accurately detect whether a security paper is forged or damaged.

The present invention for this purpose is to 1) power is supplied to the power supply module, the data on the intensity of the power supplied to the ultraviolet lamp and the detection signal transmitted from the reflected light detector in the amplification block of the detection signal processing module A device setting step of inputting data on the signal amplification through the signal input / output module and storing the data in the main memory module, and setting an initial value of the hidden line sensing device; 2) an ultraviolet light emitting step of controlling the lamp power supply module according to the data stored in the main memory module with respect to the power supplied to the ultraviolet lamp to emit the ultraviolet lamp; 3) a reflection light detection step of the ultraviolet light emitted from the ultraviolet lamp is reflected by the hidden line is detected by the reflection light detection unit, the detected signal is input through the detection signal processing module; 4) a sensing data storing step of inputting data sensed by the reflected light detecting unit to a main memory module; 5) a hidden line state analyzing step of processing the stored sensing data through the sensing data storing step to generate hidden line detecting analysis data to be stored in the main memory module; 6) a hidden line discrimination step of determining whether or not the normal hidden line with respect to the hidden line detection analysis data stored through the hidden line state analysis step; 7) includes a hidden line sensing data transmission step of storing discrimination data for the hidden line determined by the hidden line discriminating step in a main memory module, and outputting discrimination data through a signal input / output module;

The reflected light detecting step may further include a sensing signal amplifying step of amplifying the sensing signal according to data of the signal amplification stored in the main memory module by the sensing signal transmitted from the reflecting light sensing unit. It is characterized by.

Hidden line, banknote, light sensing, ultraviolet ray

Description

CONTROL METHOD OF HIDDEN LINE DETECTION APPARATUS}

The present invention relates to a control method of a silver wire detection device, and more particularly, to detect a silver wire marked on a security paper, such as securities such as banknotes, checks, secret documents, etc. with a plurality of optical sensing sensors, The present invention relates to a control method of a hidden line detecting device configured to accurately detect whether a security paper is forged or damaged.

In general, security paper such as banknotes, checks, etc. are a means of goods, so there are many fears of counterfeiting. Accordingly, a means for preventing counterfeiting of such banknotes and checks has been sought in various ways. In the case of holograms or copies, a method for preventing counterfeiting has been proposed such that it is easy to know whether the counterfeit is counterfeit.

In addition, the security paper is inserted with a silver line of about 0.5 ~ 5mm in width, such a hidden line is usually included in the fluorescent material to reflect the reflected light. Therefore, technologies for determining the status of such hidden lines and forgery have been developed.

However, until now, the technology for easily discriminating the hidden line of such security paper has not been presented in detail, and there is a problem that cannot discriminate against the counterfeit of the hidden line.

The present invention for solving the problems as described above is configured to detect a hidden line that is marked on the security paper, such as securities, secret documents, such as banknotes, checks, etc., but applying a plurality of optical sensors, as a compact and integrated It is designed to accurately detect whether the security paper is forged or damaged.

In addition, it is intended to accurately analyze the state of the hidden line because it detects by irradiating ultraviolet rays, and the detected signal is amplified over a second.

The present invention for achieving the above object
Internal to the inner case 10, the hidden line detection module 20 for detecting the reflected light reflected by the light is irradiated to the hidden line 3, and provided on the other side inside the outer case 10, the hidden line detection The hidden line sensing data processing module 30 includes a hidden line sensing data processing module 30 for receiving and processing the sensing data for the reflected light reflected from the hidden line 3 transmitted from the module 20. ), The ultraviolet lamp 21 is provided so that the ultraviolet light is emitted by the power applied from the hidden line detection data processing module 30; A slit 221 having a guiding hole 222 for passing reflected light reflected by the ultraviolet light emitted from the ultraviolet lamp 21 to the hidden line 3 in a direction perpendicular to the hidden line 3; A filter member 24 for filtering the reflected light passed by the slit 221 to a specific wavelength band; A reflection light detecting unit (22) for detecting the reflection light filtered by the filter member (24); A transparent window 204 provided between the hidden line 3 and the slit 221; A signal connection terminal 201 is formed to be electrically connected to the silver line sensing data processing module 30, and the power supplied from the silver line sensing data processing module 30 is supplied to the ultraviolet lamp 21. And a detection signal transmission module 23 which receives the detection signal of the reflection light from the reflection light detection unit 22 and transmits the detection signal to the hidden line detection data processing module 30.
The hidden line sensing data processing module 30 includes a power supply module 32 provided to supply power; A signal input / output module 33 for signal input / output; A lamp power supply module 34 which is configured to supply power to the ultraviolet lamp 21 by the power set by the control of the sensing control module 31; A detection signal processing module 35 for receiving and processing the reflection light detection data transmitted from the reflection light detection unit 22; A main control module (31) for controlling the power supply module (32), the signal input / output module (33), the lamp power supply module (34), and the detection signal processing module (35); In the control method of the hidden line detection device to detect hidden lines by the hidden line detection device consisting of the main memory module 36,
1) A detection signal processing module for supplying power to the power supply module 32, data on the intensity of the power supplied to the ultraviolet lamp 21, and detection signals transmitted from the reflected light detector 22. Device setting so that the data on the signal amplification in the amplification block 351 of (35) is input through the signal input / output module 33 and stored in the main memory module 36, and the initial value of the hidden line sensing device is set. Step S01;
2) an ultraviolet light emitting step of controlling the lamp power supply module 34 according to the data stored in the main memory module 36 with respect to the intensity of the power supplied to the ultraviolet lamp 21 to cause the ultraviolet lamp 21 to emit light ( S02);
3) the reflected light detecting the ultraviolet light emitted from the ultraviolet lamp 21 is reflected by the hidden line 3 is detected by the reflected light detecting unit 22, and the detected signal is input through the sensing signal processing module 35 Step S03;
4) a sensing data storing step (S04) for inputting the data sensed by the reflected light detecting unit 22 to the main memory module 36;
5) hidden line state analysis step S05 of processing the sensed data stored through the sensed data storing step S04 to generate hidden line sensed analysis data to be stored in the main memory module 36;
6) a hidden line discrimination step (S06) of determining whether or not the normal hidden line with respect to the hidden line detection analysis data stored through the hidden line state analysis step (S05);
7) The hidden line sensing data transmission step (S07) of storing the discrimination data for the hidden line determined by the hidden line discrimination step (S06) in the main memory module 36 and outputting the discrimination data through the signal input / output module 33 is performed. Included,
In the reflected light detecting step (S03), the detection signal transmitted from the reflection light detection unit 22 is input to the detection signal processing module 35 to detect the detection signal according to the data on the signal amplification stored in the main memory module 36. Amplifying the detection signal amplification step (S031) is characterized in that it is further provided.

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The present invention constituted as described above is configured to detect hidden lines indicated on security paper such as securities such as banknotes and checks, secret documents, etc., and has an effect of accurately discriminating whether they are normal hidden lines.

In particular, while applying a plurality of light detection sensors, it is composed of a small one-piece has the advantage that can accurately detect whether the security paper is forged or damaged.

Furthermore, since ultraviolet rays are detected and the sensed signals are amplified in two steps, there is an advantage of accurately analyzing the state of hidden lines.

Hereinafter, described in detail with reference to the accompanying drawings.

1 is a perspective view of a silver wire detecting apparatus according to the present invention, FIG. 2 is a bottom perspective view of the silver wire detecting apparatus according to the present invention, FIG. 3 is an exploded perspective view of the silver wire detecting apparatus according to the present invention, FIG. Fig. 5 is a schematic cross-sectional view of the CC 'line portion, Figure 5 is a schematic cross-sectional view of the hidden line detection module of the hidden line detection device according to the present invention, Figure 6 is a control block diagram for the hidden line detection device according to the present invention, and Figure 7 Flow charts for the control method of the hidden line detection apparatus according to the present invention are respectively shown.

That is, the hidden line detecting device A according to the present invention is a hidden line for detecting the hidden line 3 inserted in the security paper such as banknotes 2, securities, secret documents, etc. as shown in FIGS. It relates to a sensing device (A).

Such a hidden line detecting device (A) is installed in a device such as a counterfeit discriminator, a bill counter, etc., and is provided to detect the hidden line of the security paper, and the data detected and detected by the hidden line detecting device (A) according to the present invention. It may be configured to discriminate against counterfeit bills or counterfeit bills based on the data, or to count normal bills.

Therefore, as shown in Figures 1 to 3, the mounting portion 102 to be installed on the side or top of the outer case 10, such as forging device or counter device 4 is configured, bolts, clips, It can be installed by the mounting means 5, such as an adhesive.

The silver line 3 is formed so that the light is reflected by the fluorescent material by the irradiated light, the film paper coated with the fluorescent material is inserted in the security paper such as the banknote (2). Security paper such as banknotes (2) is manufactured by a process of overlapping a plurality of thin paper layers in multiple layers, and before the process of overlapping the outer surface layer, the silver line (3) of the film paper coated with a fluorescent material is defined at a position. In the laid state, the outer surface layers are overlapped to produce security paper such as the banknote 2.

Therefore, in the silver wire detecting device A according to the present invention, light is irradiated to the silver wire 3 of the banknote 2 so as to be reflected by the fluorescent material through the thin outer surface layer. In this process, the reflected light is sensed using an optical sensor to determine the authenticity and alignment.

The hidden line detection device (A) according to the present invention has a hidden line detection module 20 for detecting the light reflected by the light is irradiated to the hidden line 3 to the inner side of the outer case (10).

And the hidden line detection data processing module 30 for receiving and processing the detection data for the hidden line 3 transmitted from the hidden line detection module 20 is provided on the other side inside the outer case (10).

Thus, the hidden line detection module 20 may be provided so that the light irradiated to the hidden line 3 is irradiated with infrared or ultraviolet light. In the preferred embodiment of the present invention described below, the basic description will be made by taking the example that the ultraviolet light is irradiated. However, the present invention is not limited thereto, and may be configured to reflect and irradiate infrared light. Of course, such technology is also within the spirit of the present invention.

In addition, the hidden line detection module 20 is provided with an ultraviolet lamp 21 is provided so that the ultraviolet light is emitted by the power applied from the hidden line detection data processing module 30, the ultraviolet light emitted from the ultraviolet lamp 21 Reflected light detecting unit 22 for detecting the reflected light is irradiated to the hidden line 3 is provided.

In addition, a sensing signal transmission module 23 having a signal connection terminal 201 electrically connected to the hidden line sensing data processing module 30 may be configured on an inner upper portion of the sensing module case 202. Thus, the signal connection terminal 201 is protruded into the terminal through hole 203 formed on the sensing module case 202, and the corresponding connection port (not shown) of the hidden line sensing data processing module 30 is electrically contacted. Will be.

In addition, the detection signal transmission module 23 is supplied with power to the ultraviolet lamp 21 side, and receives the detection signal of the reflected light from the reflection light detection unit 22 to the hidden line detection data processing module 30. To be transmitted.

In particular, the hidden line detection module 20 is provided with a filter member 24 for filtering the reflected light reflected from the hidden line 3 of the banknote (2), the silver line 3 coated with the fluorescent material is irradiated There is a characteristic that the light reflected according to the light is reflected light of a specific wavelength.

In the ultraviolet lamp 21 according to the present invention, the ultraviolet light of 300 to 400nm is emitted, and the reflected light reflected from the hidden line 3 of the security paper such as the general banknote 2 is normal to such ultraviolet light. In the light of visible light of 470 ~ 570nm is reflected. As the reflected light passes through the filter member 24, a stable wavelength of about 520 nm (about ± 25 nm deviation) is detected by the sensor of the reflected light detecting unit 22.

The hidden line sensing module 20 configured as described above is formed in an enclosure shape mounted on the bottom of the outer case 10 of the hidden line sensing unit A as shown in FIGS. 2 and 3, and the upper portion of the hidden line sensing data processing module ( 30) is configured to be electrically connected.

In addition, the interior of the enclosure as shown in Figures 4 and 5, the ultraviolet lamp 21, the reflected light detecting unit 22 for detecting the reflected light, and the detection signal transmission module 23 and the like are provided. In addition, the filter member 24 for filtering the reflected light incident to the reflected light detecting unit 22 is provided together, and constitutes a general light transmitting filter.

In particular, the central portion is provided with a reflection light detecting unit 22, the UV lamp 21 is configured to be irradiated at an angle of inclination 15 to 50 degrees to both sides, the light irradiated from the ultraviolet lamp 21 is a hidden line (3) ) Is emitted.

Accordingly, the reflected light reflected in the vertical direction of the upper portion passes through the slit 221 of FIG. 2 and is reflected by the reflected light detecting unit 22. The transparent window 204 is provided under the hidden line detection module 20 so as to be transparent so that light passes therethrough.

In addition, the slit 221 of the hidden line detection module 20 is formed with an induction hole 222 extending upward, and the light reflected from the hidden line 3 portion below the vertical of the reflected light detecting unit 22 is formed. It is configured to be detected as it is.

In particular, the reflected light detecting unit 22 may be composed of one single light sensor, more preferably may be composed of a plurality of light sensor.

That is, generally, the hidden line 3 is formed to have a width of about 0.5 to 5 mm, and the plurality of light sensing sensors may be configured to be optically sensed as a plurality of divided regions in the transverse direction of one hidden line 3. Therefore, since the reflected light detection unit 22 of the hidden line detection module 20 is detected as a divided area divided into a plurality in the transverse direction with respect to one hidden line 3, according to the hidden line detection device A, By using the reflected light detection data sensed as the area, it is configured to determine whether it is a normal hidden line by using a gain ratio of light detection for each divided area.

In addition, the plurality of light sensing sensors are configured to be disposed in the transverse direction with respect to the transverse direction of one hidden line 3, but may be configured such that the light sensing sensors are disposed over an area wider than the width of the hidden line 3 in the transverse direction. Therefore, even if the position where the hidden line 3 is placed in the transverse direction with respect to the light detecting sensors for detecting the hidden line 3 is changed, the reflected light from at least one of the light detecting sensors of the reflected light detecting unit 22 Since it senses the, it is always possible to sense the hidden line (3).

In addition, a plurality of ultraviolet lamps 21 corresponding to both sides may also be configured, respectively, so that a uniform amount of reflected light is always detected.

The hidden line sensing data processing module 30 of the hidden line sensing device A according to the present invention configured as described above has a power supply module 32 provided to supply power, as shown in FIGS. 3, 4 and 6, Lamp power supply module 34 for supplying power to the UV lamp 21 by the power set by the control of the signal input and output module 33, the signal control module 31 for the signal input and output, the reflected light detection The detection signal processing module 35, the power supply module 32, the signal input / output module 33, the lamp power supply module 34, which receives and receives the reflected light detection data transmitted from the unit 22, and processes the signal. The main control module 31 and the main memory module 36 for controlling the detection signal processing module 35 are included.

In addition, the main control module 31 is connected to the power supply module 32, the power control signal processing block 311 for processing a control signal of the main controller 310 for operating the power supply module 32, The UV lamp 21 is connected to the input / output signal processing block 312 and the lamp power supply module 34 to process a signal input and output connected to the signal input / output module 33 by the control of the main controller 310. Lamp control signal processing block 313 for processing the control signal of the main controller 310 for controlling the power supplied to the sensor, connected to the detection signal processing module 35, the detection transmitted from the reflected light detector 22 The detection signal processing block 314 and a temporary memory unit 315 for processing a signal are included.

In addition, the detection signal processing module 35 is provided with an amplification block 351 for amplifying a detection signal transmitted from the reflected light detection unit 22 under the control of the main controller 310. Accordingly, when the reflected light detected from the hidden line 3 is weakly detected due to the narrow width of the hidden line 3 or the printing state of a security paper such as a banknote, the amplification block 351 is reflected by the reflected light detecting unit 22. The circuit for amplifying the sensed signal can be configured to be amplified over a second stage. In the secondary amplification configuration, the primary amplification circuit may be configured to have a fixed amplification factor, and the secondary amplification circuit may be configured to be amplified at a variable amplification factor. Therefore, the amplification ratio may be configured to be changed and applied depending on the state of the hidden line 3, the state of security paper such as banknotes, and the like.

Looking at an embodiment of the control method of the hidden line detection device (A) according to the present invention provided as described above are as follows.

1) The power is supplied to the power supply module 32, and the detection signal processing module for the data on the intensity of the power supplied to the ultraviolet lamp 21 and the detection signal transmitted from the reflected light detector 22 ( A device setting step of allowing the data of the signal amplification in the amplification block 351 of 35) to be input through the signal input / output module 33 to be stored in the main memory module 36 and to set an initial value of the hidden line sensing device. By performing (S01), the basic set value of the hidden line detecting device A is input and the device is ready for operation. Such data may be input from a device such as a bill discriminator, a bill counter, or the like, and may be input by an input means by a user.

2) the ultraviolet light emitting step of controlling the lamp power supply module 34 according to the data stored in the main memory module 36 with respect to the intensity of the power supplied to the ultraviolet lamp 21 to cause the ultraviolet lamp 21 to emit light ( S02) is followed.

3) Accordingly, the ultraviolet light emitted from the ultraviolet lamp 21 is reflected by the hidden line 3 to be detected by the reflected light detecting unit 22, and the reflected light detecting unit allows the detected signal to be input through the sensing signal processing module 35. Step S03 is performed.

In the ultraviolet light emitting step S02 and the reflected light detecting step S03, since one silver line 3 is formed to be long, the security paper such as the banknote 2 is transferred or the silver line detecting device A is provided. It is configured to operate while being transported in the longitudinal direction of the hidden line (3).

Therefore, one long band-shaped hidden line 3 is detected as a continuous detection signal.

4) Thus, a sensing data storing step S04 is performed in which the data sensed by the reflected light detecting unit 22 is input to the main memory module 36.

5) Then, the hidden line state analyzing step S05 is performed to process the stored sensed data through the sensed data storing step S04 to generate the hidden line detecting analysis data to be stored in the main memory module 36.

6) And the hidden line detection analysis data (S05) through the hidden line detection analysis data stored in the hidden line discrimination step (S06) for determining whether or not the normal hidden line is performed to determine whether the normal hidden line to the memory module 36 It is stored.

7) The hidden line detection data transmission step (S07) of storing the discrimination data for the hidden line determined by the hidden line discrimination step (S06) in the main memory module 36 and outputting the discrimination data through the signal input / output module 33. Is performed, and the bill discriminator or the bill counter is to determine whether the security paper is provided with a normal hidden line is to process.

In the reflection light detection step S03, the detection signal transmitted from the reflection light detection unit 22 is input to the detection signal processing module 35 and according to the data for the signal amplification stored in the main memory module 36. The detection signal amplification step (S031) to further amplify the signal is to be amplified in accordance with the amplification rate is adjusted according to the state of the security paper such as the hidden line (3) or bills.

In addition, the main memory module 36 of the hidden line detecting device (A) according to the present invention, the light emitting power memory unit 361, the data value for the intensity of the power supplied to the ultraviolet lamp 21 is stored, The sensing data memory unit 262 stores the sensing data value of the sensing signal transmitted from the reflected light sensing unit 22 and the amplification of the signal sensed by the amplification block 351 of the sensing signal processing module 35. It may be provided as an amplified data memory unit 263 for storing data.

In addition, in the hidden line state analysis step (S05), since the hidden line 3 is formed in one band shape, the sensed detected data is detected with respect to the detected data value that is time-divided longitudinally with respect to the single hidden line 3. The longitudinal time division is used to analyze the stored data. For example, if the length of one banknote is 70mm, the length of the entire hidden line 3 is 70mm, and the detected data is divided into 10 to 100 zones for the detected data of the hidden line 3 to be analyzed. can do. For example, in the case of analyzing the detection data in 70 divisions, when the data of the detection sensor divided in the lateral direction is detected in three division zones in the lateral direction of the hidden line 3, the total number of detection data is 210 zones. It is divided into (70 X 3 divisions).

Thus, in the silver screen discrimination step S06 of the main controller 310 of the main control module 31, the individual light sensing gain ratio is determined for the division example 210 of the embodiment of the present invention.

Accordingly, when the light-sensing gain ratio of the 70 divided zones for any one of the three divided zones in the lateral direction is significantly decreased or relatively increased, it is determined that the banknotes are poorly aligned.

When all 70 individual longitudinal regions of the three divided regions in the transverse direction show the light-sensing gain ratio in a uniform state, it is determined as a normal hidden line.

Further, when it is determined that the optical sensing gain ratios for the 210 individual divided regions are not uniform with respect to the arrangement of regions in the lateral or longitudinal direction of the hidden line, it is determined as a defective hidden line.

In this case, the banknote discriminator main body or banknote counter main body, etc. may be configured to be determined as a defective printing or counterfeit bills according to the degree of uniformity in accordance with the information on the defective silver wire transmitted from the silver line detection device (A).

As shown in the above example, the number and division method of the lateral or longitudinal direction of the hidden line shows a preferred embodiment according to the present invention, and the number of divisions, the division method and the example of the determination are variously modified. It is natural that such modifications are possible within the technical spirit of the present invention.

As described above, although described with reference to a preferred embodiment of the present invention, within the scope not departing from the spirit and scope of the present invention described in the claims by those skilled in the art In the present invention can be carried out by various modifications or variations.

1 is a perspective view of a silver wire detecting apparatus according to the present invention.

Figure 2 is a bottom perspective view of the silver wire detecting apparatus according to the present invention.

Figure 3 is an exploded perspective view of the silver wire detecting apparatus according to the present invention.

4 is a schematic cross-sectional view taken along line C-C 'of FIG.

Figure 5 is a schematic cross-sectional view of the hidden line detection module of the hidden line detection apparatus according to the present invention.

6 is a control block diagram of a silver wire detecting apparatus according to the present invention.

7 is a flowchart illustrating a control method of the hidden line detecting apparatus according to the present invention.

<Explanation of symbols for the main parts of the drawings>

A: Silver line detection device

2: banknote 3: hidden line

10: outer case 20: silver wire detection module

21: UV lamp 22: reflected light detector

30: hidden wire detection data processing module 31: main air module

32: power supply module 33: signal input and output module

34: lamp power supply module 35; Detection signal processing module

Claims (5)

delete delete delete delete Internal to the inner case 10, the hidden line detection module 20 for detecting the reflected light reflected by the light is irradiated to the hidden line 3, and provided on the other side inside the outer case 10, the hidden line detection The hidden line sensing data processing module 30 includes a hidden line sensing data processing module 30 for receiving and processing the sensing data for the reflected light reflected from the hidden line 3 transmitted from the module 20. ), The ultraviolet lamp 21 is provided so that the ultraviolet light is emitted by the power applied from the hidden line detection data processing module 30; A slit 221 having a guiding hole 222 for passing reflected light reflected by the ultraviolet light emitted from the ultraviolet lamp 21 to the hidden line 3 in a direction perpendicular to the hidden line 3; A filter member 24 for filtering the reflected light passed by the slit 221 to a specific wavelength band; A reflection light detector 22 for detecting the reflection light filtered by the filter member 24; A transparent window 204 provided between the hidden line 3 and the slit 221; A signal connection terminal 201 is formed to be electrically connected to the silver line sensing data processing module 30, and the power supplied from the silver line sensing data processing module 30 is supplied to the ultraviolet lamp 21. And a detection signal transmission module 23 which receives the detection signal of the reflection light from the reflection light detection unit 22 and transmits the detection signal to the hidden line detection data processing module 30. The hidden line sensing data processing module 30 includes a power supply module 32 provided to supply power; A signal input / output module 33 for signal input / output; A lamp power supply module 34 which is configured to supply power to the ultraviolet lamp 21 by the power set by the control of the sensing control module 31; A detection signal processing module 35 for receiving and processing the reflection light detection data transmitted from the reflection light detection unit 22; A main control module (31) for controlling the power supply module (32), the signal input / output module (33), the lamp power supply module (34), and the detection signal processing module (35); In the control method of the hidden line detection device to detect the hidden line by the hidden line detection device consisting of the main memory module 36, 1) A detection signal processing module for supplying power to the power supply module 32, data on the intensity of the power supplied to the ultraviolet lamp 21, and detection signals transmitted from the reflected light detector 22. Device setting so that the data on the signal amplification in the amplification block 351 of (35) is input through the signal input / output module 33 and stored in the main memory module 36, and the initial value of the hidden line sensing device is set. Step S01; 2) an ultraviolet light emitting step of controlling the lamp power supply module 34 according to the data stored in the main memory module 36 with respect to the intensity of the power supplied to the ultraviolet lamp 21 to cause the ultraviolet lamp 21 to emit light ( S02); 3) the reflected light detecting the ultraviolet light emitted from the ultraviolet lamp 21 is reflected by the hidden line 3 is detected by the reflected light detecting unit 22, and the detected signal is input through the sensing signal processing module 35 Step S03; 4) a sensing data storing step (S04) for inputting the data sensed by the reflected light detecting unit 22 to the main memory module 36; 5) hidden line state analysis step S05 of processing the sensed data stored through the sensed data storing step S04 to generate hidden line sensed analysis data to be stored in the main memory module 36; 6) a hidden line discrimination step (S06) of determining whether or not the normal hidden line with respect to the hidden line detection analysis data stored through the hidden line state analysis step (S05); 7) The hidden line detection data transmission step (S07) of storing the discrimination data for the hidden line determined by the hidden line discrimination step (S06) in the main memory module 36 and outputting the discrimination data through the signal input / output module 33 is performed. Included, In the reflected light detecting step (S03), the detection signal transmitted from the reflection light detection unit 22 is input to the detection signal processing module 35 to detect the detection signal according to the data on the signal amplification stored in the main memory module 36. The method of controlling the hidden line detection device, characterized in that the amplified detection signal amplifying step (S031) is further included.

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