KR101198955B1 - Multicolored foil-printer device - Google Patents

Abstract

The present invention relates to an apparatus for performing gold foil printing on the surface of a cylindrical tube body, and more particularly, to a multi-color gold foil printing apparatus that allows a plurality of gold foil printing to be continuously performed according to chromaticity in one device.
To this end, the multi-color gold foil printing apparatus according to an embodiment of the present invention is equipped with a cylindrical tube, a plurality of lans that rotate around the central axis of the tube is provided on the circumference, the turntable rotated on a horizontal plane; An outer housing provided with a plurality of mounting spaces radially above the circular movement trajectory of the tube; And a gold foil printing unit detachably inserted into the mounting space to print gold foil on the surface of the tube.

Description

Multi-Color Gold Foil Printing Machine {MULTICOLORED FOIL-PRINTER DEVICE}

The present invention relates to an apparatus for performing gold foil printing on the surface of a cylindrical tube body, and more particularly, to a multi-color gold foil printing apparatus that allows a plurality of gold foil printing to be continuously performed according to chromaticity in one device.

Gold foil printing is usually performed on a part of the surface of the product in order to add a high-quality image, a technique that is automatically performed from supply to discharge after printing gold foil, when the appearance of the product is a cylindrical tube body, Korean Patent No. 0407791 Presented in

Means for mounting the tube to be printed on a plurality of rods provided on the turntable in the prior art, performing gold foil printing for each tube through a printing unit provided with a printing mold, the means for automatically supplying the tube to the rod And, a technique has been proposed that the gold foil printing is performed without the user's intermediate intervention through the means for automatically discharging the finished tube from the rod.

This conventional technique is to increase the convenience of the user according to the automation, but there is a disadvantage that can be expressed only one color because gold foil printing is performed only once.

In order to express various chromaticities in gold foil printing, a gold foil printing apparatus as in the prior art is provided with as many as the required number of chromaticities, and the operator discharges the tube discharged from one gold foil printing apparatus to another gold foil printing apparatus. Therefore, there are disadvantages such as high cost required to be provided with a plurality of gold foil printing devices, waste of installation space due to the arrangement of a plurality of gold foil printing devices, and troublesome workers who need to move tubes between the gold foil printing devices.

The present invention has been made to solve the above-described problems, an embodiment of the present invention has an object to allow a plurality of gold foil printing to be performed continuously in accordance with the chromaticity in one device.

It also has the purpose of automatically supplying and discharging the print object.

In addition, there is also an object to be able to perform a pre-coating on the printing surface according to the type of the printing object.

In order to solve the above problems, the present invention is a cylindrical tube is mounted in an embodiment, a plurality of lan to rotate around the central axis of the tube is provided on the circumference, the turntable rotated on a horizontal plane; An outer housing provided with a plurality of mounting spaces radially above the circular movement trajectory of the tube; And a gold foil printing unit detachably inserted into and fixed to the mounting space to print gold foil on the surface of the tube.

In addition, the gold foil printing unit has an outer casing detachably fixed to the mounting space; An inner casing in which the upper and lower heights of the outer casing are adjusted; Printing means coupled to the lower portion of the inner casing so as to slide in a tangential direction of the circular movement trajectory, and performing gold foil printing on a tube mounted on the ladle; And a gold foil feeder for supplying gold foil between the printing means and the tube mounted on the lance.

In addition, one side of the outer housing is further provided with a supply means for mounting the supplied tube to the landle, the supply means is a tube feeder for positioning the tube in a straight line on the extension line of the end of the lan, the tube It proposes a multi-color gold foil printing apparatus, characterized in that it comprises a pusher for pushing the end of the tube into the ladle.

In addition, the outer housing is further provided with a discharge means for discharging the tube from the end of the printing is completed in the ladle, the discharge means in the gripping portion of the tube mounted on the landle, the gripping portion in the longitudinal direction of the lan The present invention provides a multi-color gold foil printing apparatus, characterized in that a moving part for sliding sliding to the outside of the turntable is included.

In addition, a coating unit for coating the outer circumferential surface of the tube is mounted in the mounting space through which the tube mounted on the ladle is first passed by the rotation of the turntable in the supply means, and a dryer for drying the coated surface of the tube is first. It proposes a multi-color gold foil printing apparatus, characterized in that provided between the second mounting space and the second mounting space.

According to the multi-color gold foil printing apparatus according to the embodiment of the present invention as described above, as the printing according to each chromaticity in one device is performed continuously, the initial equipment cost compared to the conventional technology that required multiple printing devices It can reduce the installation space by intensive arrangement, improve space utilization, eliminate the hassle of using a separate gold foil printing device for each chromaticity, and improve the productivity by enabling rapid printing. have.

In addition, by automatically supplying the tube to be printed to the multi-color gold foil printing apparatus, by discharging the tube is finished, there is an advantage that can be minimized to the need of the operator during the gold foil printing operation.

In addition, it is possible to automatically apply a coating to improve the quality of gold foil printing on the tube of the synthetic resin material, there is an effect that can improve the print quality while reducing the number of pre-work.

1 is a schematic perspective view of a multi-color gold foil printing apparatus according to an embodiment of the present invention.
2 is a plan view of a multi-color gold foil printing apparatus according to an embodiment of the present invention.
Figure 3 is a front view of a multi-color gold foil printing apparatus according to an embodiment of the present invention.
Figure 4 is a front view of the gold foil printing unit employed in the present invention.
Figure 5 is a side view of the gold foil printing unit employed in the present invention.
Figure 6 is a perspective view schematically showing the operating relationship of the printing means of the present invention.
7 is a schematic perspective view of a supply means employed in the present invention.
Figure 8 is a schematic perspective view of the discharge means employed in the present invention.

Hereinafter, with reference to the preferred embodiment of the accompanying drawings, the function, configuration and operation of the multi-color gold foil printing apparatus of the present invention will be described in detail.

1 is a schematic perspective view of a multi-color gold foil printing apparatus according to an embodiment of the present invention, Figures 2 and 3 are a plan view and a front view of a multi-color gold foil printing apparatus according to an embodiment of the present invention.

The multi-color gold foil printing apparatus 100 according to the embodiment of the present invention includes a turntable 1, an external housing 2, and a gold foil printing unit 3.

The turntable 1 is located inside the outer housing 2, the rotation of which is controlled by the driving motor 11, and a plurality of ladles 12 are radially disposed on an outer circumferential surface of the turntable 1 rotating on a horizontal plane. It is mounted according to.

The ladle 12 is provided with a mounting rod 121 facing the outer circumferential surface of the turntable 1, and the cylindrical rod, which is a printing object, is inserted into the mounting rod 121 in the longitudinal direction thereof. In addition, the ladle 12 is provided with a rotary motor 122 for rotating the mounting rod 121, the operation of the rotary motor 122 is controlled by a controller (not shown).

Mounting rod 121 has a diameter corresponding to the inner diameter of the tube in accordance with the rotation of the mounting rod 121, the tube inserted into the outer circumferential surface of the mounting rod is integrally rotated, but not shown, but one side of the randle 12 of the tube The sensor is provided to recognize the protrusion mark formed on the outer circumferential surface, the control unit is configured to determine the rotation position of the tube according to the position of the mark obtained from the sensor, and to control the rotation angle of the tube by operating the rotating motor.

On the other hand, the outer housing (2) is composed of a frame member wrapped around the turntable (1) in a cylindrical shape, the upper center of the outer housing (2) is coupled to the upper end of the rotary shaft of the turntable (1) freely rotatable. A plurality of mounting spaces 21 are formed radially from the upper center, and the mounting spaces 21 are formed on a circular movement trajectory of the tube inserted into the lance 12 of the turntable 1.

On the other hand, the gold foil printing unit (3) is detachably inserted into the mounting space 21, it is to print gold foil on the surface of the tube. The printing mold 331 exposed to the lower portion of the gold foil printing unit 3 is located directly on the mounting rod 121 of the lance 12, and uses the gold foil F supplied by the gold foil feeder 34 to be described later. It is configured to print gold foil on the outer surface of the tube mounted on the mounting rod 121.

The gold foil printing unit 3 is mounted in each mounting space 21 formed in the outer housing 2 to print the set gold foil on the tube. That is, according to the rotation control of the turntable, the tube mounted on any one of the ladles is sequentially passed through each gold foil printing unit, and a plurality of gold foil printings having different chromaticities are continuously performed.

On the other hand, Figure 4 is a front view of the gold foil printing unit employed in the present invention, Figure 5 is a side view of the gold foil printing unit employed in the present invention.

Gold foil printing unit (3) is to be inserted detachably in the mounting space provided in the outer housing, one gold foil printing unit (3) is an independent device capable of printing gold foil according to one color. The gold foil printing unit 3 includes an outer casing 31, an inner casing 32, a printing means 33, and a gold foil feeder 34.

The outer casing 31 forms an outer shape of the gold foil printing unit 3, and has an open box shape at the bottom thereof, and a leg 311 formed to extend from one side to the bottom thereof is separable from the frame of the outer housing with a bolt or the like. The mounting plate 312 to be coupled is formed. At this time, the shape of the outer casing may vary depending on the specific shape of the mounting space, the coupling means with the outer casing can be replaced by a conventional fixing means such as a clamp.

On the other hand, the inner casing 32 is coupled to the upper and lower height adjustable to the inner upper portion of the outer casing (31). Specifically, the LM guider, which is a sliding means 313 provided on the inner side of the outer casing 31 and the outer side of the inner casing 32 in the vertical direction, and the elevating adjusting means 314 of the inner casing. ) Is provided, the elevating adjustment means 314 has a drive motor 314a fixed to the upper end surface of the outer housing (2), and a screw rod formed on the rotating shaft of the drive motor 314a by a screw thread formed on the inner peripheral surface 314b and a nut 314c screwed to the screw rod 314b and fixed to an upper surface of the inner casing 32. As a result, the screw rod is rotated by the rotation of the drive motor, and the inner casing 32 having the nut 314c fixed is moved up and down with respect to the outer casing 31 and the height thereof is adjusted.

On the other hand, the printing means 33 is coupled to the lower portion of the inner casing 32, as shown in Figure 6, is to slide along the tangential direction (x-axis direction) of the circular movement trajectory of the tube (T).

To this end, referring again to FIGS. 4 and 5, the lower surface of the inner casing 32 and the upper surface of the printing means 33 are sliding guides 321 which are provided to face each other in the tangential direction, and the sliding. It is coupled to the drive motor 322 fixed to the inner casing so that the sliding direction and the rotation axis of the means 321, and the screw rod 323 extending from the rotation axis of the drive motor 322, the printing means 33 It is provided with a nut 324 fixed to the top of the. As a result, the printing means 33 may linearly reciprocate along the tangential direction (x direction in FIG. 5) of the circular movement trajectory of the tube according to the rotational direction of the drive motor 322.

On the other hand, the printing means may be provided in the hot stamping printing and cold stamping printing type, the following describes the configuration and operation of the printing means according to the hot stamping printing type.

The printing mold 331 is a known configuration that is replaceably fixed to the bottom of the printing means 33 is provided, the heater 332 for heating the printing mold 331 is provided at the top of the printing mold 331. . As a result, the printing mold 331 heated by the heater 332 uses the gold foil F supplied between the printing mold 331 and the tube T fixed to the lance 12 to the outer surface of the tube. Will print.

Specifically, the inner casing 32 is lowered so that the printing mold 331 presses the gold foil F to the outer surface of the tube T, and then the inner casing 32 slides to the side (right direction in FIG. 4). While printing the gold foil according to the pattern of the printing mold 331 on the outer surface of the tube (T), and then the inner casing 32 is moved horizontally and raised to its original position to end the printing.

On the other hand, the gold foil feeder 34 is fixed to one side of the outer casing 31 is mounted with a roller 341a in which the gold foil F is rolled, and supplies the gold foil F at a constant speed from the roller 341a. It consists of a supply part 341 provided with a feed roller 341b and a winding part 342 fixed to the other side of the outer casing 31 to wind the gold foil passing through the lower end of the printing mold 331, and printing a mold. The gold foil (F) is supplied at a constant speed while is performed.

On the other hand, although not shown, the gold foil printing unit for cold stamping printing replaces the printing means of the gold foil printing unit for hot stamping printing described above, is provided with a roller for applying an adhesive to the outer surface of the tube, This can be done by attaching gold foil to the tube on which the adhesive is applied and heating to cure the adhesive.

At this time, the gold foil printing unit that is inserted and fixed in the mounting space of the outer housing may be used by mixing the gold foil printing unit for hot stamping printing and the gold foil printing unit for cold stamping printing.

On the other hand, as shown in Figure 7, one side of the outer housing may be further provided with a supply means (4) for mounting the supplied tube (T) to the ladle (12).

The supply means 4 includes a tube feeder 41 for linearly positioning the tube T on an extension line of the end of the ladle 12 (specifically, the protruding end of the mounting rod), and the tube T of the tube T. A pusher 42 is included to push one end to insert the tube T into the ladle 12.

The tube feeder 41 includes an inclined surface 411 for discharging the tubes discharged from the hopper in which the tubes are stacked, and a stopper 412 positioned at the end of the inclined surface 411. The inclined surface may be formed of an inclined conveyor belt, and the inclined conveyor belt may be formed to protrude a boundary plate for moving the tubes one by one.

The pusher 42 may be composed of an actuator 421 that inserts a tube T positioned by the stopper 412 into the lance 12 with the piston 422.

At this time, the tube (T) caught by the stopper 412 is the same height as the end of the mounting rod 121 of the radially protruding lance 12, and is located on the extension line of the longitudinal end of the mounting rod 121. . Therefore, by pushing the other end of the tube (T) in the direction of the mounting rod 121 with the pusher 42, it is possible to insert the tube (T) in the mounting rod 121.

The controller rotates the turntable so that the next lan faces the tube located on the stopper, and by repeating the operation of mounting the tube on the rod by operating the pusher, the tube can be automatically supplied to the series of rods.

On the other hand, as shown in Figure 8, the outer housing (2) may be further provided with a discharge means (5) for discharging the tube (T) from the printing is completed from the ladle (12).

The discharge means 5 includes a holding part 51 for holding an inner circumferential surface of the tube T mounted on the lance 12 and the holding part 51 along the longitudinal direction of the landle 12. The moving part 52 which slides outward of 1) is included.

The holding part 51 is provided with a plurality of arms 511 radially opened by the driving force of the actuator 421 so as to be gripped by the inner circumferential surface of the tube mounted on the lance 12. That is, the arm 511 is inserted in the end portion of the tube (T) mounted on the mounting rod 121 in a state of pinching, and then is configured to support the inner circumferential surface of the tube by unfolding the arm 511.

Subsequently, by the moving part 52 formed of an LM guider, the holding part 51 retreats while the tube is supported, and the tube is drawn out from the mounting rod 121, and the arm of the holding part 51 is removed. Pinch 511 to allow tube T to exit the arm. Thereafter, the arm 511 is retracted to move forward, and the tube T is automatically discharged from the next ladle 12.

Again, referring to FIGS. 1 to 3, the outer circumferential surface of the tube is provided in the mounting space 21 through which the tube mounted on the lance 12 in the supply means 4 passes first by the rotation of the turntable 1. It is equipped with a coating unit (6) for coating, the dryer 7 for drying the coating surface of the tube is provided sequentially.

The tube may be a soft synthetic resin material, and the surface of the synthetic resin may be coated as known to improve the quality of the gold foil printing before gold foil printing on the surface of the synthetic resin.

For this purpose, before the first gold foil printing is carried out on the tube, the surface is configured to pass through the coating unit 6 to perform the coating. In FIG. 2, when the turntable 1 is rotated clockwise, the coating unit 6 is mounted in the mounting space 21 adjacent to the left side of the supply means.

At this time, the coating unit 6 is provided with an outer casing as described above, and a coating means provided inside the outer casing. The coating means may have a variety of configurations, such as a roller that contacts the tube of the lance to perform the coating, or a spray nozzle that sprays the liquid coating liquid at a position spaced apart from the tube. At this time, the mounting rod is rotated a number of times, it is possible to evenly apply the coating liquid to the entire outer peripheral surface of the tube.

In addition, the dryer 7 is further provided to dry the coating liquid applied to the outer circumferential surface of the coated tube. The dryer 7 may be a conventional UV lamp installed in the space between the coating unit 6 and the first gold foil printing unit. The dryer rod may be rotated several times while the tube passes through the dryer 7 to the outer peripheral surface of the tube. It is configured to completely dry the smeared coating liquid.

When the coating unit is provided in Figure 1, by forming four gold foil printing units in the remaining space, it is possible to continuously print the four chromaticity in one device. If there is no coating unit, a total of five colors can be printed. At this time, the number of mounting spaces formed in the outer housing can be increased or decreased according to the designer's choice.

100: gold foil printing apparatus
1: turntable
Reference Signs List 11: driving motor 12: ladle 121: mounting rod 122: rotating motor
2: External housing
21: mounting space
3: gold foil printing unit
31: outer casing 311: leg 312: mounting plate
313: sliding means 314: elevating control means 314a: drive motor
314b: screw rod 314c: nut 32: inner casing
321: sliding means 322: drive motor 323: screw rod 324: nut
33: printing means 331: printing mold 332: heater
34: gold foil feeder 341: supply part 341a: roller
341b: supply roller 342: winding
4: supply means
41: tube feeder 411: inclined surface 412: stopper
42: pusher 421: actuator 422: piston
5: discharge means
51: grip part 511: arm 52: moving part
6: coating unit 7: dryer
T: Tube F: Gold Leaf

Claims (5)

Cylindrical tube (T) is mounted, the turntable (1) is provided with a plurality of lances on the circumference to rotate around the central axis of the tube (T) on a horizontal plane;
An outer housing (2) in which a plurality of mounting spaces (21) are formed radially on the circular movement trajectory of the tube (T);
The outer casing 31 and the outer casing 31 are detachably inserted into and fixed to the mounting space 21 to be printed on the surface of the tube T, and are detachably fixed to the mounting space 21. The inner casing 32, the upper and lower heights of which are adjusted in the interior thereof, is coupled to the lower portion of the inner casing 32 so as to slide in the tangential direction of the circular movement trajectory, and the gold leaf on the tube T mounted on the lance 12. Gold foil printing unit (3) comprising a printing means (33) for performing printing, and a gold foil feeder (34) for supplying gold foil between the printing means (33) and the tube (T) mounted on the ladle (12). ;
A tube feeder for mounting the tube T provided on one side of the outer housing 2 to the ladle 12, and positioning the tube T in a straight line on an extension line of the end of the ladle 12. Supply means (4) comprising a pusher (42) and a pusher (42) for pushing one end of the tube (T) to insert the tube (T) into the ladle (12);
Coating unit for coating the outer circumferential surface of the tube (T) is mounted in the mounting space passing through the first tube by the rotation of the turntable 1, the tube (T) mounted on the ladle 12 in the supply means (4) (6); And
Multi-color gold foil printing apparatus characterized in that it comprises a dryer (7) provided between the coating unit (6) and the second mounting space to dry the coating surface of the tube (T). delete delete In claim 1,
The outer housing (2) is further provided with a discharge means (5) for discharging the tube (T) from the printing is completed from the ladle 12,
The discharge means 5 includes a holding part 51 for holding a tube T mounted on the lance 12, and the holding part 51 along the longitudinal direction of the lance 12. Multi-color gold foil printing apparatus, characterized in that the movement unit 52 for sliding outward. delete

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