KR940006535B1 - Transfer printing system - Google Patents

Abstract

The transfer system of the original picture, includes a table X-Y shifted in directions of axes X and Y according to the shift of the table of axis X and axis Y by the set value, in which the original picture and the material are placed at regular interval on the upper side, a light and darkness detector for detecting the level of light and darkness according to the shifting of the original picture on the upper part of the original picture placed on the table of axes X and Y fixed on the supporting bar, and a reappearing device for cutting the surface of the material with the cutter shifted in direction of axis Z according to the value detected from the light and darkness detector, fixed on the supporting bar at the position of the material located on the table X-Y, thereby transferring the original picture or a photo on the various material similarly or with variation in shape.

Description

Original Warrior System

1 is a perspective view of a system of the present invention.

2 is a partial cross-sectional plan view showing an X-Y table moving state of the system of the present invention.

3 is a block diagram of signal transmission between a contrast detector and a reproduction apparatus of the present invention system.

4 is an X-Y table drive convex diagram of a system of the present invention.

5 is a configuration diagram of an embodiment of a reproducing apparatus of the present invention.

6 is a cross-sectional view of the focus size regulator of FIG.

7 is a principle diagram of laser focus size adjustment according to an embodiment of the present invention.

8 is a front view of the system of the present invention.

9 is a block diagram of a laser using an embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

1 substrate 2 support

3: X axis table 4: Y axis table

5: X-Y Table 6: Contrast Detector

7: Reproduction device 8: Original

9: material 10: cutter

11, 12, 14: stepper motor 15: Z axis table

31: Amplifier 32: Analog Digital Converter

33, 41: setting part 34, 42: controller

35, 43: power supply 51: focus size regulator

52: coil 53: connector

54: reflection mirror 55: laser generator

61: permanent magnet 62: concave lens

63, 64: convex lenses 65, 66: spring

13: Rotating Motor

The present invention relates to a transfer system of the original picture to transfer the original picture, such as a picture or a picture on a variety of materials as it is or to change the shape.

In general, the method of expressing originals such as photographs and pictures as they are elsewhere was to express them on metals and other materials by using electronic radiation or a complicated system.

In the former case, the material to be transferred is limited to film or paper, so it cannot be transferred to various materials. In the latter case, the original screen is photographed with a scanner or a video camera. After saving the contrast difference for a certain pixel, read out the difference of the contrast for the stored pixel, convert it to current value, apply it to the step motor, and move the cutter (CUTTER) whose movement is controlled by driving the stem motor. The system is used to cut the surface of the material according to the movement of the cutter by placing it on the material placed above it. However, such a system is complicated and expensive and difficult to use. Especially in the case of precision manufacturing, a scanner or a video camera is used. It was difficult to use due to distortion of the back.

Therefore, in reality, it is difficult to transfer the original picture such as a picture or photo to a desired material such as wood, glass, stone, metal, etc., but only a transfer method by electronic radiation is used.

SUMMARY OF THE INVENTION In view of the above, an object of the present invention is to provide a transfer system of an original image which can transfer the contents of the original image to a desired material as it is or remain in a simple material with a simple system configuration. The present invention includes a signal detecting means for reading the contrast difference between the original and the signal reproducing means for reproducing the original on the surface of the material according to the signal level detected by the signal detecting means and the setting intention of the setting unit. The original unit and the material for conveying the signal and the signal are reproduced. The original unit and the material are placed in the transfer unit moved on the XY axis, and then the contrast difference between the original and the original signal is read by the fixed signal detecting unit. Reproduce or transform the original image on the material as it is It was made to manifest.

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

The X-axis table 3 is fixed on the substrate 1 on which the support 2 is fixed, and the Y-axis table 4 is fixed on the X-axis table 3, and then the XY table ( 5) is fixed so that the XY table 5 is moved in the X-axis and Y-axis directions in accordance with the operation of the step motors 11, 12. In other words, the X-axis table 3 fixed on the substrate 1 is moved in the X-axis direction according to the driving of the step motor 12 and the Y-axis table 4 fixed to the movement of the X-axis table 3. In the same manner, when the step motor 11 is driven, the XY table 5 fixed above the Y-axis table 4 is moved in the X-axis and Y-axis directions according to the driving of the step motor 11 (l2). do.

At this time, the step motors 11 and 12 for moving the XY table 5 set the X and Y axis moving distances per unit time in the setting unit 4l or move the X and Y axes as shown in FIG. When the pattern is set to the distance, the controller 42 controls the driving of the step motors 11 and 12 by changing the signal level supplied to the power supply 43 to move the XY table 5 to the set distance. Or transfer according to the set pattern.

And the original 8 and the material 9 is placed on the upper portion of the XY table 5, and the contrast detector 6 and the support (fixed to the support 2) on the upper portion of the original 8 and the material (9) 2) and a reproducing apparatus 7 fixed to the Z-axis table 15 which is moved in the Z-axis direction according to the driving of the step motor 14, and the contrast detector 6 is shown in FIG. As described above, the fixed position of the original image 8 is fixed to detect the contrast difference of the original image 8 using a photosensor and the like. The reproduction apparatus 9 drives the cutter 10 to drive the step motor 14. The cutter 10 is configured to move in the Z-axis direction on the Z-axis table (l5) in accordance with the rotating motor 13 is configured to touch the surface of the material (9) as shown in FIG. The motor 14 is configured such that driving is controlled in accordance with the contrast detection level of the contrast detector 6.

Here, referring to the block diagram of FIG. 3, the method of driving the step motor 14, the contrast detector 6 detects the contrast difference between the original image 8 as the XY table 5 moves by using a photosensor or the like. The signal detected by the detector 6 is amplified by the amplifier 31 and then converted into a digital value by the analog digital converter 32 and applied to the controller 34.

The controller 34 controls the input of the power supply 35 in consideration of the input of the setting unit 33 which sets the applied digital value to the upper and lower limit values of the Z-axis movement, thereby driving the step motor 14. It is controlled so that the movement distance in the Z-axis direction with respect to the cutter 10 of the reproduction window 7 is determined.

In other words, when the contrast level of the original image 8 is low, the cutter 10 moves slightly to the surface of the material 9 to cut the surface of the material 9 narrowly and thinly. It is moved to cut the surface of the material 9 wide and deep.

In this case, the surface of the material 9 may be cut in the reverse manner according to the setting state of the setting unit 33.

On the other hand, in the present invention, when the laser can be used as the reproduction window 7 as shown in FIG. 5, when the laser is used, a separate laser is generated after the reflection mirror 54 for receiving the laser is installed in the reproduction device 7. The laser generated by the device 55 is reflected by the reflecting mirror 54 and irradiated onto the material 9, but the focal length of the laser is matched to the processing area of the material 9, and then the focal size of the laser is adjusted. 51, and the power of the laser generator 55 is configured to be controlled by the controller 34.

As shown in FIG. 9, the controller 34 adjusts the laser power of the laser generator 55 according to the contrast level detected from the contrast detector 6 in the controller 34, while the focus size adjuster 51 It is configured to adjust the focal size of.

In this case, as shown in FIG. 6, the focus size adjuster 51 is installed such that the concave lens 62 in which the coil 52 is wound on the outer circumference thereof can be vertically moved within the focus size adjuster 51, but the concave lens ( The coil 52 wound around 62 receives the power supply 35 output through the connection hole 53, and the coil 52 is operated as an electromagnet according to the output level of the power supply 35.

And the upper side of the concave lens 62 is installed a spring 65 having a fine elasticity, and the permanent magnet 61 is fixed to the focus size adjuster 51 on the spring 65.

In addition, after the concave lens 62 is provided with a spring 66 having a fine elasticity, the convex lenses 63 and 64 are inserted into and fixed to the focal size adjuster 5l under the spring 66.

That is, according to the detection level of the contrast detector 6, the power adjustment of the laser generating device 55 and the concave lens 62 is moved up and down to adjust the power and focus size of the laser formed on the material (9).

The wearing effect for the present invention having such a configuration will be described in detail with respect to the case of using the cutter 10 in the reproduction window 7.

First, the original 8 and the material 9 to be transferred are placed on the XY table 5, and then the setting unit 41 sets the movement distance and the movement limit or pattern per unit time of the XY table 5 by the controller 41 42 to recognize this to adjust the value output to the power supply 43 to control the drive of the step motor (11) (12).

Then, the X-axis table 3 moves in the X-axis direction by the set distance, and the Y-axis table 4 moves in the Y-axis direction by the set distance during the movement of the X-axis table 3, or during the movement. (5) performs an operation of moving by a distance set in the X-axis direction and the Y-axis direction.

At this time, the movement of the X-Y table 5 is the same as the general X-Y table movement. When the pattern is set by the setting unit 41, the X-Y table 5 moves in a wave shape or various other patterns according to the set pattern.

As the XY table 5 moves in the X-axis, Y-axis direction, and pattern form, the original 8 and the material 9 placed on the upper part of the XY table 5 move in the same manner. As shown in FIG. 8, the contrast detector 6 fixed to the support 2 at a predetermined position detects the contrast of the original image 8.

That is, the contrast detector 6 composed of a photo sensor or the like is fixed, but since the original 8 is moved in the X- and Y-axis directions and the pattern form, the contrast detector 6 is zigzag-type from the beginning to the end. And detecting the light and dark levels while examining in the form of a pattern.

As such, the contrast signal detected by the contrast detector 6 is amplified by the amplifier 31 and converted into a digital value by the analog digital converter 32 as shown in FIG. 3, and then applied to the controller 34. ) Controls the driving of the step motor 14 by outputting the value applied by the analog digital converter 32 to the power supply 35 within the upper and lower limit values set by the setting unit 33. By controlling the movement with respect to the Z axis table 15, the reproduction device 7 is moved so that the cutter 10 is moved in the Z axis direction in accordance with the contrast level of the original picture.

In other words, the reproducing apparatus 7 is moved in the Z-axis direction by the Z-axis table 15 in response to the driving of the step motor 14, and the step motor 14 is driven in accordance with the contrast detection level of the contrast detector 6. Since the cutter 10 of the reproducing apparatus 7 is controlled, the rotary motor 13 is within the upper and lower limit values set by the setting unit 33 as the contrast level detected by the contrast detector 6 is high and low. According to the rotation of the material 9 will be cut.

At this time, the lower the contrast of the original image 8 (the darker), the cutter 10 cuts the material 9 deeper and wider, and the higher the contrast (the brighter) the thinner and narrower the cut. Therefore, the cut may be reversed.

And since the original 8 and the material 9 are moved equally in the X-axis and Y-axis directions on the same XY table 5, the material 9 is cut at a position corresponding to the position detected by the contrast detector 6. do.

Thus, the surface of the material 9 is cut according to the contrast difference of the original 8.

That is, the picture or photograph of the original picture 8 is cut on the surface of the material 9 as it is, and the minimum and maximum cutting values of the material 9 are determined according to the upper and lower limit values of the setting part 33. .

In this case, when the material 9 is made of metal or wood, the original 8 is transferred to the surface of the wood and the metal as it is, and the wood can be used for interior decoration, and the metal can also be used as a printing disc.

On the other hand, the reproducing apparatus 7 is used on the surface of a variety of materials 9 by using a laser without using the cutter 10 which is moved by the step motor 14 from the Z axis table 15 in the fold direction. In the case of using such a laser, as shown in FIG. 5, the reflection mirror 54 is installed in the reproduction apparatus 7 and then the laser generated by the laser generator 55 is reflected in the reflection mirror 54. Reflecting through and focusing the reflected laser, it is only necessary to configure a focus size controller 51 that can adjust the focus size.

At this time, the focusing size adjuster 51 inserts and fixes the convex lenses 63 and 64 for focusing the laser at a predetermined distance as shown in the cross section of FIG. 6, and has a fine elasticity on the upper side of the convex lens 63. A circular spring 66 having a circular spring 66 and a circular spring having a fine elasticity on the concave lens 62 after the concave lens 62 is rotatably mounted on the spring 66 to adjust the focal size of the laser. Put the 65 and insert a circular permanent magnet 61 on the spring (65).

And the outer periphery of the concave lens 62 to form a groove so that the coil 52 can be wound, and then wound the coil 52 in the groove and the coil 52 is a connection hole drilled on one side of the focus size regulator 51 ( 53) to the power supply 35 of FIG.

Therefore, the coil 52 wound around the outer circumferential groove of the concave lens 62 becomes an electromagnet according to the current applied from the power supply 35, and the intensity of the electromagnet is changed according to the current value.

At this time, the permanent magnet 61 having the same polarity as the polarity represented by the coil 52 wound on the outer circumferential groove of the concave lens 62 is provided with the polarity and the permanent magnet (the concave lens 62 stands out by the coil 52). Since the polarity by the same 61 is the same, the concave lens 62 is moved by the repulsive force. At this time, when the current flowing through the coil 52 is large, the concave lens 62 is the same as the permanent magnet 6l. It is pushed downward by the polarity and is moved upward by the restoring force of the spring 66 when the current value flowing in the coil 52 is small.

That is, the current value flowing in the coil 52 wound on the concave lens 62 is changed by the contrast difference of the original 8, and this change in current value means a change in the force of the electromagnet appearing in the coil 52, which is permanent. Since the repulsive forces with the magnets 61 are changed, the concave lens 62 is moved to Shanghai according to the contrast difference between the original 8.

On the other hand, referring to the principle of laser focus size control according to FIG. 7, the laser whose width is enlarged through the concave lens 62 is connected to the focal length fl through the convex lenses 63 and 64, but the convex lens ( Since the laser beam passing through the 63 and 64 is not focused on the focal point and is focused at a predetermined distance D2 as shown in the drawing, the focal length fl moves the concave lens 62 in a constant state. By adjusting the distance f2 with the convex lens 63, the predetermined distance D2 is changed.

In other words, the relational equation for obtaining the constant distance (D2) is (fl: focal length of the convex lens, dl: width of the laser incident on the convex lens,: wavelength of the laser), so that the constant distance is adjusted by moving the concave lens 62 to adjust d1. At this time, the adjustment of the predetermined distance (D2) is determined by the movement of the concave lens 62, and the concave lens 62 is moved according to the contrast of the original image (8). The distance is varied by the difference in contrast of the original 8.

The power of the laser generator 55 is adjusted by the controller 34 according to the detection level of the contrast detector 6.

That is, if the contrast of the original picture 8 is bright, the magnetic force of the coil 52 becomes stronger, and thus the repulsive force with the permanent magnet 61 becomes stronger, while the power of the laser generator 55 is lowered. The concave lens 62 is pushed slightly downward to reduce the width dl of the laser applied to the convex lens 64, and the power of the laser generator 55 is lowered so that the distance D2, the focal size, is reduced. The width of the material 9 becomes narrow and the cut of the laser is weakened, and the surface of the material 9 becomes narrow and thin. In contrast, if the contrast of the original picture 8 is dark, the magnetic force of the coil 52 is weakened while the power of the laser generator 55 is increased while the concave lens 62 is slightly raised upward. The width dl of the laser applied to the convex lens 64 becomes wider, and the predetermined distance D2, that is, the focal size becomes wider, so that the surface of the material 9 is cut wide and deep.

Therefore, the surface of the material 9 is cut in the same way as the original picture by adjusting the focus size of the laser according to the contrast difference of the original picture 8.

At this time, when the material 9 is set to stone, metal, film, or the like and the original picture is taken, the picture of the original picture 8 is transferred to the surface of the material 9 as it is.

In addition, after embedding the ultrasonic tip with constant intensity in the reproducing apparatus 7, the ultrasonic tip is brought into contact with the surface of the material 8, and the reproducing apparatus 7 is moved in the Z-axis direction according to the intensity level of the contrast detector 6 as described above. When moved to, it is possible to cut the surface of the material 9 using ultrasonic waves, in which case it is transferred as it is.

As described above, according to the present invention, the contrast between the original picture and the material is placed on the XY table and the XY table is transferred. The contrast of the original picture is detected by the contrast detector, and the surface of the material is reproduced through the reproducing apparatus according to the contrast level detected by the contrast detector. By cutting, original pictures such as photographs and pictures can be transferred to the surface of various materials as they are, which makes it easy to make original printing materials or make upholstery materials.

Claims (2)

The XY table in which the original 8 and the material 9 are positioned at regular intervals and moved in the X and Y axis directions according to the movement of the X and Y axis tables 3 and 4 by the set values ( 5), a contrast detector 6 fixed to the support 2 at an upper predetermined position of the original 8 located in the XY table 5 and detecting a level of contrast according to the movement of the original 8; The material 9 is fixed to the support 2 at the upper predetermined position of the material 9 located in the XY table 5 and moved to the Z axis direction according to the value detected by the contrast detector 6. Transfer system of the original picture consisting of a reproduction device (7) for cutting the surface of the). The reproducing apparatus (7) according to claim 1, wherein the reproducing apparatus (7) inserts convex lenses (63) (64) for focusing the laser generated by the laser generating apparatus (55) and reflected by the reflecting mirror (54) into the focus size adjuster (51). Fixing and installing a spring (66) having a fine elasticity on the convex lens 63, and inserting the concave lens (62) wound around the outer circumferential groove rotatably inserted in the upper portion of the spring (66) The transfer system of the original picture is formed by installing a spring (65) having fine elasticity on the upper portion of the concave lens (62) and inserting and fixing a circular permanent magnet (51) on the upper portion of the spring (65).

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