KR100403422B1 - Turret winder structure of gravure printing presses - Google Patents

Abstract

According to the present invention, instead of eliminating the central axis connecting the two turret discs, the turret radius is relatively small by connecting the turret discs of the two sides through two stay bars in opposite places so that the printing fabric can be replaced from one working axis to another. It is an object of the present invention to provide a turret winder structure of a gravure printing machine which is made easy. The present invention is configured to achieve the above object is a frame structure that is spaced apart from each other by a predetermined distance, rotatably installed in each of the opposite surfaces of each of the opposing surface of the frame structure, but any one peripheral surface tooth (치) A turret disc which is formed to constitute a gear; A stay bar connecting the opposite ends of the turret discs with their respective ends on the same line on the center of each turret disc to interconnect the opposite turret discs; It is installed so as to be rotatably installed on both sides of the same side of the turret disc based on the center of each turret disc, but installed so as to be orthogonal to the line connecting the support points of the end of the stay bar connecting the two turret discs. A and B working shafts for supporting the rotation and the turret discs forming the gears are rotatably installed in the inner place of the frame structure, where they are toothed to the teeth of the turret discs forming the gears, It comprises a pinion for rotating the turret disk forming a gear through the rotational force of the drive motor.

Description

Turret winder structure of gravure printing presses

The present invention relates to a turret winder structure of a gravure printing machine, and more particularly, by installing a work shaft that can hang the printing fabric to prepare the work in the other work shaft while the work is prepared in the other work shaft without stopping the machine It relates to a turret winder structure of a gravure printing machine to enable continuous operation.

In general, gravure printing is performed using various colors, and the printing units are arranged in line with the number of colors to be used, and continuous printing is performed by passing the printing fabric through the printing units. In other words, gravure printing does not print the entire shape and color of the print to be printed on the fabric, but divides the overall shape and color to be printed into several parts.

Brief description of the printing process and the structure of the printing machine by a conventional gravure printing machine as described above is as follows.

First, the entire image of the print to be printed in advance is partially drawn before starting the print job. On the other hand, a partially divided print image is inscribed with a groove-shaped groove, that is, an intaglio, on the surface of a plurality of print rollers, respectively.

As described above, the engraved print rollers are sequentially mounted on each of the printing units installed in a continuous alignment in one direction. That is, a conventional gravure printing machine is provided with a plurality of printing units continuously aligned in one direction on a facility line, and in order to mount a plurality of print rollers engraved in different shapes on each of the aligned printing units.

As described above, after the printing rollers are attached to each printing unit in sequence, the second and third consecutive printings start from the first printing unit which supplies the printed fabric rolled in a roll form and prints the first printed matter. Through the printing unit's printing process, the final printing unit's process is passed to print the whole shape and color on the printing fabric.

More detailed description is as follows. That is, immediately before the rolled printing fabric is supplied to the first printing unit, ink is applied to the surface of the print roller and the knife removes ink applied to the surface of the print roller. In the recessed groove, ink is not removed and remains filled.

On the other hand, when the printing fabric passes between the print roller filled with ink in the grooves and the rubber roller that is in close contact with the print rollers, the ink filled in the grooves is transferred to the printing fabric and printing is performed. Printing is performed by passing the printing fabric continuously through the printing units arranged in a continuous manner as described above.

However, in the conventional gravure printing machine as described above, since the two turret discs are connected by the central axis in the turret winder structure, the center of gravity may be distorted by the weight and impact of the scroll printing fabric during use. This problem causes a huge problem in the supply of the printing fabric, which causes the printing problem.

In addition, the conventional gravure printing machine is rotated by the worm gear when the turret disc is rotated in the turret winder structure, so the playability is large due to the characteristics of the worm gear, so that the stop position reproducibility is lowered and the durability due to the wear of the worm is reduced. have.

The present invention was devised to solve the above-mentioned problems. Instead of eliminating the central axis connecting the two turret discs, the turret radius is made relatively small by connecting two turret discs through two stay bars in opposite places. It is an object of the present invention to provide a turret winder structure of a gravure printing machine that facilitates the replacement of the printing fabric from the shaft to another working shaft.

Another object of the present invention is to connect two turret discs at both ends of the same line on the same line with respect to the center of the turret disc to connect the turret discs on both sides, so that the center of the two turret discs by the weight and impact of the printing fabric during use. Is to prevent this from going wrong.

Another object of the present invention is to accurately support A and B work shafts to hang a roll-type printing fabric by connecting two turret discs on both sides of the same line based on the center of the turret disc so as to support two stay bar ends. To form a center.

In addition, the present invention by applying a spur gear structure by rotating the turret disc through the drive motor by applying a spur gear structure, the change in the tension of Marro due to long-term use, the preliminary drive speed for splicing and To eliminate splicing point changes.

1 is a perspective view showing a turret winder configured turret structure of the gravure printing machine according to the present invention.

Figure 2 is a perspective view showing the inside of the turret winder is configured turret structure of the gravure printing machine according to the present invention.

Figure 3 is a side view showing a rotating structure of the turret disc according to the present invention.

Figure 4 is a front view showing a turret winder is configured turret structure of the gravure printing machine according to the present invention.

Figure 5 is a front view showing a turret winder is equipped with a roll printing fabric in the structure of Figure 4;

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

100. Turret Winder 110, 110a. Frame constructions

120, 120a. Turret discs 130, 130a. Stay Bar

140, 140a. A / B work axis 150. Pinion

160. Drive motor

The present invention is configured to achieve the object as described above is as follows. That is, the turret winder structure according to the present invention is provided to be opposed to each other rotatably installed in place of each of the frame structure, the opposite surface of the frame structure to be installed opposite the predetermined distance spaced tooth (형성) is formed on any one circumferential surface A turret disc which constitutes a gear; A stay bar connecting the opposite ends of the turret discs with their respective ends on the same line on the center of each turret disc to interconnect the opposite turret discs; It is installed so as to be rotatably installed on both sides of the same side of the turret disc based on the center of each turret disc, but installed so as to be orthogonal to the line connecting the support points of the end of the stay bar connecting the two turret discs. A / B working shaft for supporting the rotation; And a tooth which is rotatably installed in the inner place of the frame structure in which the turret disc forming the gear is installed and is coupled to the teeth of the turret disc forming the gear, while forming the gear through the rotational force of the driving motor. It comprises a pinion for rotating the turret disc.

In the above-described configuration, the outer surface of each stay bar may be rotatably installed, and may further include a guide roller that supports and guides the fabric to be processed during rotation of the turret disc.

Hereinafter, with reference to the accompanying drawings will be described in detail the turret structure of the gravure printing press according to a preferred embodiment of the present invention.

1 is a perspective view showing a turret winder configured with a turret structure of a gravure printing machine according to the present invention, FIG. 2 is a perspective view showing an inside of a turret winder configured with a turret structure of a gravure printing machine according to the present invention, and FIG. It is a side view which shows the rotating structure of the turret disc.

First, prior to describing the turret winder structure of the gravure printing press according to the present invention will be described a general outline of the turret winder of the gravure printing press. The turret winder of the gravure printing machine according to the present invention is the unwinder (Unwinder) and the unwinding printing fabric from the unwinder and the unwinder to prepare the printing work before and after the gravure printing press print fabric is completed It consists of two A and B work axes that can hang the fabric on the rewinder to wind up the work.The other work axis (B work axis) while working in one work axis (A work axis or B work axis) Or A work shaft) is structured to be ready for work and to be able to work continuously without stopping the machine.

That is, the turret winder on the unwinder prints on the other working axis (B working axis or A working axis) while the fabric prepared for printing is released on one working axis (A working axis or B working axis). It is configured to be able to replace the other work axis (B work axis or A work axis) with printing fabric without stopping the unwinder.

The turret winder on the rewinder, on the other hand, winds the finished fabric from the unwinder through the printing unit onto one work axis (A work axis or B work axis) while the other work axis (B work axis or A work) is wound. In the axis), it is prepared to wind the finished print job and can be replaced with another work axis (B work axis or A work axis) without stopping the rewinder.

The turret winder structure of the gravure printing machine according to the present invention is as follows. First, the above-described turret winder 100 is configured to be spaced apart at a predetermined distance to face the frame structure (110, 110a), the turret disc is rotatably installed on each of the opposite surfaces of the frame structure (110, 110a) (120, 120a), each of the turret discs (120, 120a) facing each other, the stay bar (130, 130a) for connecting the two ends of the turret discs (120, 120a) by connecting the respective ends in place; 120 and 120a) A and B work shafts 140 and 140a and two turret discs 120, which are rotatably installed on both sides of each place to rotate and support the rolled fabric between the two turret discs 120 and 120a. The turret disc 120 or 120a of any one of 120a is installed at an inner position of the frame structure 110 or 110a on which the turret disc 120 or 120a is installed to rotate one of the turret discs 120 or 120a through the driving of the driving motor 160. It is made of a pinion (150).

As described above, the turret winder 100 of the gravure printing machine configured as described above has another work axis {B work while the work is being performed on one working axis (A work axis 140 or B work axis 140a) facing each other. When the pinion 150 is rotated by the drive of the driving motor 160 in the state in which work preparation is performed on the shaft 140a or the A work shaft 140}, any one turret tooth is coupled to the pinion 150. The disc 120 or 120a is rotated so that the work (A work shaft 140 or B work shaft 140a) is replaced with another work axis.

Referring to the operation made as described above to the unwinder and the rewinder, the work is being done on the A work shaft 140 of the unwinder, which first releases the print fabric 200 prepared for printing. At this time, while the work to release the printing fabric 200 in the A working shaft 140 is performed in the B working shaft (140a) to hang the work to release the other scroll printing fabric 200 A working shaft 140 When the pinion 150 is rotated by the driving of the driving motor 160 before the printing fabric 200 is completely released, any one of the turret discs 120 or 120a which is tooth-coupled to the pinion 150. ) Is rotated so that the unwinding work of the printing fabric 200 from the A work shaft 140 to the B work shaft 140a is replaced.

On the other hand, when the job is being performed on the A work shaft 140 of the rewinder which winds up the print fabric from which the print job is completed from the unwinder to the print unit, the printing is completed on the A work shaft 140. While the fabric 200 is being wound, the B work shaft 140a prepares to wind the printed fabric 200 that has been printed after the A work shaft 140 to print the fabric 200 of the A work shaft 140. When the pinion 150 is rotated by the driving of the driving motor 160 before the coil is completely wound by the set outer diameter, any one of the turret discs 120 or 120a toothed to the pinion 150 rotates. As a result, the winding work of the printing fabric 200 is replaced from the A work shaft 140 to the B work shaft 140a.

The turret winder structure of the gravure printing machine according to the present invention will be described in more detail. First, the frame structures 110 and 110a may include the turret discs 120 and 120a, the stay bars 130 and 130a, and the A and B work shafts 140. 140a), as well as the installation for installing components such as pinion 150 and drive motor 160, these frame structures 110, 110a are installed with other components constituting the unwinder and rewinder not mentioned. . In addition, the frame structure (110, 110a) is equipped with various electrical equipment for operating the unwinder and the rewinder.

On the other hand, the above-described frame structure (110, 110a) is spaced apart a predetermined distance is installed opposite to both sides. At this time, the frame structures (110, 110a) opposite to each other is not made of the same structure, but in the installation of the frame structures (110, 110a) so that the center of the two turret discs (120, 120a) to be described later to match In order to do this, it is very important that the two frame structures (110, 110a) of the horizontal or the opposite surface of the two frame structures (110, 110a) are configured in parallel in the vertical direction.

The turret discs 120 and 120a rotate the work being performed on one working axis (A working axis 140 or B working axis 140a) through the other working axis (B working axis 140a or A working axis). (140)}, the turret disc (120, 120a) is made of a disc is rotatably installed on the opposite surface of each of the frame structures (110, 110a). At this time, any one of the two turret disk (120, 120a) of the turret disk (120a) is formed on the circumferential surface teeth (齒) to form a gear.

Meanwhile, the two turret discs 120 and 120a as described above are connected by stay bars 130 and 130a to be described later, and the other turret disc 120a or 120 is simultaneously driven by the rotation of one turret disc 120 or 120a. Is rotated. As such, in order to rotate one turret disc 120a of the two turret discs 120 and 120a to rotate the other turret disc 120, it is very important to configure the rotation center to match.

The stay bars 130 and 130a are for connecting the two turret discs 120 and 120a on both sides to simultaneously rotate the other turret disc 120 by the rotational force of the one side turret disc 120a. , 130a connects the two ends of the turret discs 120 and 120a to the opposite ends of the same line with respect to the center of each of the turret discs 120 and 120a.

That is, the ends of each of the stay bars 130 and 130a are connected to both sides of the same line based on the center of each of the two turret discs 120 and 120a to connect the two turret discs 120 and 120a to both sides. . At this time, the portions of the two turret discs 120 and 120a, which are supported by the ends of the two stay bars 130 and 130a, are positioned at the portions of the turret discs 120 or 120a facing each other.

As described above, the two turret discs 120 and 120a connected by the two stay bars 130 and 130a are connected in a state where their centers coincide, and thus the two turret discs (the two stay bars 130 and 130a) are connected. By connecting the 120 and 120a, the centers of the A and B work shafts 140 and 140a to be described later also coincide.

On the other hand, guide rollers 132 and 132a rotatably installed on each of the outer surfaces of the stay bars 130 and 130a, which guide rollers 132 and 132a are provided on one working shaft 140 and 140a. When the work is replaced with 140a and 140, the progress fabric 200 is supported so as not to close the stay bars 130 and 130a to facilitate the progress of the printing fabric 200.

A and B working shafts 140 and 140a are for unwinding the printing fabric 200 to be printed or for winding the printed fabric 200 to be printed. The A and B working shafts 140 and 140a are formed of a turret disc ( 120, 120a) are rotatably installed on opposite sides of the same line with respect to their respective centers.

The A and B work shafts 140 and 140a described above are installed to be perpendicular to a line connecting the support points of the ends of the stay bars 130 and 130a connecting the two turret discs 120 and 120a. In other words, A which is supported in both places on the basis of the center of the turret discs 120 and 120a and the line connecting the support points of the ends of the stay bars 130 and 130a which are supported in both places relative to the center of the turret discs 120 and 120a. The lines connecting the B work shafts 140 and 140a are perpendicular to each other. Accordingly, when the turret discs 120 and 120a are viewed from the side, the stay bars 130 and 130a and the A and B work shafts 140 and 140a are installed in a crisscross shape.

On the other hand, the A · B working shaft (140, 140a) configured on one side of the turret disc (120 or 120a) is in a position opposite to the A · B working shaft (140, 140a) configured on the other turret disc (120a or 120) It is composed. Of course, one working shaft 140 or 140a is coincident with the other working shaft 140a or 140 opposite to each other.

The pinion 150 rotates the turret disc 120a of one side constituting the gear by the rotation of the drive motor 160 to transfer the work from the work shaft 140 or 140a of one side to the work shaft 140a or 140 of the other side. In order to replace, the pinion 150 is rotatably installed in the inner place of the frame structure (110a) in which the turret disc (120a) constituting the gear is installed, the teeth of the turret disc (120a) constituting the gear. Is coupled to the tooth.

That is, the gear form of the turret disc 120a and the pinion 150 constituting the gear forms a spur gear (Spur gear). By forming in the form of a spur gear as described above, the rotational force of the driving motor 160 can be directly transmitted to the turret disc 120a constituting the gear. Changes, preliminary drive speeds for splicing and changes in splicing points can be eliminated.

The turret winder 100 structure of the gravure printing machine according to the present invention configured as described above has a printing fabric to be printed on one working axis (A working axis 140 or B working axis 140a) opposite as described above. Loosen the print fabric 200 to be printed on another work axis (B work axis 140a or A work axis 140) while the work is performed to loosen or wind the finished print fabric 200. When the pinion 150 is rotated by the driving of the driving motor 160 while the work preparation for winding the finished printing fabric 200 is completed, the turret disc 120a of one side coupled to the pinion 150 is rotated. It is rotated to allow work to be replaced with another working axis (A working shaft 140 or B working shaft 140a) without stopping the machine.

The present invention is not limited to the above embodiments, and various modifications can be made within the scope of the technical idea of the present invention.

As described above, according to the present invention, instead of eliminating the central axis connecting the two turret discs, the turret radius is relatively small by connecting the turret discs of the two sides through two stay bars in opposite places, thereby reducing the turret radius from one working axis to another. The effect of facilitating replacement of the printing fabric is exerted.

Another effect of the present invention is that the two turret discs are connected to each other on both sides of the same line based on the center of the turret disc by connecting the two turret discs so that the centers of the two turret discs are twisted by the weight and impact of the printing fabric during use. Do not lose.

Another effect of the present invention is the exact center of the A · B work axis to hang the scroll-shaped printing fabric by connecting the two end of the stay bar in the same place on the same line with respect to the center of the turret disc, respectively connecting the turret discs of both sides Is formed.

In addition, the present invention by applying a spur gear structure by rotating the turret disc through the drive motor by applying a spur gear structure, the change in the tension of Marro due to long-term use, the preliminary drive speed for splicing and There is an effect that can eliminate the change in the splicing point.

Claims (2)

Frame structures spaced apart from each other by a predetermined distance; Turret discs which are rotatably installed on opposite sides of each of the opposing surfaces of the frame structure, the teeth formed on any one circumferential surface of the frame structure; A stay bar for connecting the opposite ends of the turret discs to each other in the same place on the center of each of the turret discs to interconnect the opposite turret discs; Rotatably installed on opposite sides of the same line on the basis of the center of each turret disc, but installed so as to be orthogonal to the line connecting the support points of the end of the stay bar connecting the two turret discs, the scroll form between the opposite turret disc A and B working shaft for supporting the printing fabric of the rotation; And It is rotatably installed in the frame place where the turret disk forming the gear is installed is coupled to the teeth of the turret disk forming the gear, while forming the gear through the rotational force of the drive motor Turret structure of the gravure printing machine comprising a pinion for rotating the turret disc. The turret winder structure of claim 1, further comprising a guide roller rotatably installed on an outer surface of each stay bar to support and guide the fabric to be processed when the turret disc is rotated. .