JPH03115904A - Snaking inspecting device - Google Patents

Abstract

PURPOSE:To inspect the snaking of printed matter automatically by providing a means which resets two pulse counter circuits alternately according to each signal from a slitter mark detecting means, a decision means which judges that the printed matter snakes when a counted value exceeds a set value, etc. CONSTITUTION:On the printed matter 8, a slitter mark 13 which is printed in the flow direction of the printed matter 8 together with a pattern 12 and read by the sensor of a detecting means is printed simultaneously with the mark 13. Further, the device is equipped with a pulse generating means which outputs pulses corresponding to the travel speed of the printed matter 8, the two pulse counter circuits 43 and 44 which count pulses from the pulse generating means, the means which resets the two pulse counter circuits 43 and 44 alternately according to signals 41 and 42 from the slitter mark detecting means, the decision means which judges that the printed matter snakes when the counted value of either of the two pulse counter circuits 43 and 44 exceeds the set value, etc.

Description

[Detailed Description of the Invention] <Industrial Application Field> The present invention is used in the manufacturing process of flexible packaging materials, etc. to roll a printed film, paper, or aluminum foil into a predetermined position along the winding direction. The present invention relates to a meandering inspection device for a printed matter in a slitter device for slitting a printed material to a width of .

<Prior art> In recent years, films, paper, aluminum foil, etc., laminated or alone, have been used for packaging various confectioneries, seasonings, processed foods such as pickled vegetables and instant noodles, and even pharmaceutical tablets. Soft packaging materials have become widely used. After printing, these flexible packaging materials are laminated with polyethylene or various films using a laminator, and then slit into a predetermined width along the winding direction using a slitter, and then wound again. Thereafter, the bag is made by the user at the same time as the contents are filled, or the bag is formed into a bag by a bag making machine and then filled with the contents. Among slitting devices, there is an edge controller generally referred to as "RPC" (registered trademark) as a meandering prevention device for slitting printed films, paper, or aluminum foil rolls. When printing a pattern on film, paper, or aluminum foil, the edge controller simultaneously prints a slitter mark that can be easily read by the edge controller sensor in a position that does not interfere with the pattern, and the edge controller reads the slitter mark. Prevents meandering.

FIG. 2 shows the configuration of the slitter device. The slitter device includes a pulling roll (1), a tension roll (2), a driving roll (3), a razor cutter (4), and a winding roll (5).
and (6), an edge controller (7), a guide roll (9), etc. The rolled printed matter (8) set on the feed roll (1) is placed on the guide roll (9).
), tension roll (2), drive roll (3), and then slit by a razor cutter (4).
5) and (6).

<Problems to be Solved by the Invention> Examples of printed matter taken up by take-up rolls (5) and (6) are shown in FIGS. 3, 4, and 5.

FIG. 3 shows an example of a printed matter that has been slit at a normal position, and FIGS. 4 and 5 show examples of printed matter that have a defective slit position. In Figure 3, the length l from the edge of the printed pattern (12) to the slit edge is within the tolerance and is a good product, but in Figures 4 and 5, the length l of the cough is within the allowable value. It exceeds the value of 11.1□ and becomes a defective product. The defective products are mainly caused by meandering of the printed material during slitting with the slitter device. If the contents are filled due to the defective product, the printed pattern on the packaging material of the product will be misaligned, which will cause the product image to deteriorate when the product is displayed on a store shelf. In order to keep the length 1 from the edge of the printed picture to the slit edge within an allowable value, the edge controller (7) generally always catches the printed meandering prevention mark to prevent meandering. However, due to control errors, it is only rare.
3- Yes, but meandering occurs. Although such phenomena were visually monitored by inspectors, it was not possible to monitor them completely, and inspection was also almost impossible because the printed matter was wound up after being slit.

<Means for Solving the Problems> The present invention has been made in order to deal with the above-mentioned circumstances, and an object of the present invention is to provide a meandering inspection device that can automatically inspect the presence or absence of meandering and realize labor-saving and rationalization of inspection. The purpose is In order to achieve this objective, according to the present invention, a signal 1 is output when a slitter mark printed in a stripe shape along the flow direction of the printed material is detected, and a signal 0 is output when the slitter mark is not detected. slitter mark detection means;
means for slightly moving the printed material back and forth in a direction perpendicular to the flow direction thereof in order to cause the slitter mark detection means to output signals 1 and O alternately at regular intervals; and outputting pulses corresponding to the running speed of the printed material. A pulse generating means, two pulse counter circuits for counting pulses from the pulse generating means, means for alternately resetting the two pulse counter circuits based on signals 1 and 0 from the slitter mark detecting means, and two pulse counters. A meandering inspection device is provided that includes a determining means that determines that meandering has occurred when the count number of either one of the circuits exceeds a set value.

<Operation> According to the meandering inspection device according to the present invention, the sensor output signal of the detection means for detecting the slitter mark on the film, paper, or aluminum foil printed on the slitter device and the rotary rotary attached to the drive roll of the slitter device are detected. The output signal of the encoder can be used to capture the running state of the printed matter of the slitter device and the operating state of the slitter device, and it is possible to automatically determine whether or not the printed film, paper, or aluminum foil is meandering.

<Embodiment> An embodiment of the meandering inspection device according to the present invention will be described below with reference to the drawings. The meandering inspection device of the present invention is installed in the slitter device described above.

Here, if the slitter device according to the present invention is explained again according to FIG. 1, the printed matter (8) is
) in the direction indicated by the arrow. Further, after passing through a guide roller (10), it is slit with a razor cutter (4). On the other hand, a rotary encoder (11) is directly connected to the drive roll (3).

As shown in FIG. 6, a slitter mark (13) is printed along the flow direction of the printed material together with a pattern (12), and is read by a sensor of the detection means at the same time as the pattern. Further, as shown in FIG. 7, a portion (14) indicated by a broken line corresponds to the sensor field of view of the detection means on the slitter mark (13). The slitter mark (13
) is used as a standard to prevent meandering by the meandering prevention means provided in the slitter device, and is printed on most of the rolled soft packaging printed materials. In this embodiment, the description will proceed assuming that a sensor of a conventional edge controller (7) is used as a detection means for reading this slitter mark (13).

The edge controller sensor output signal (42) and the rotary encoder output signal (41) of the rotary encoder (22) are input to an inspection section (53) that determines the presence or absence of meandering in the printed material (8).

This inspection section will be explained with reference to the configuration diagram in FIG. The rotary encoder output signal (41) is sent to the counter circuit (
43) Input to (44). Counter circuit (43) (
In 44), a count reference value is set by the count setting circuits (45) and (46) so that the length of the meandering portion to be inspected hardly changes due to changes in the operating speed of the slitter device.

Once the meandering of printed matter that occurs in a slitter device occurs, due to the mechanism of the slitter device, the meandering of the printed material continues for at least several centimeters in the flow direction. Now, 5
If you want to detect continuous meandering of 0 cm or more, the count reference value of the count setting circuit (45) (46) is 7 pulses per rotation of the rotary encoder (11), 3600 pulses, and the circle of the drive roller. Perimeter 360
If you use aa, you will receive 1 for each print run.
Since a rotary encoder signal of 0 pulses is obtained,
If you want to detect continuous meandering of 5 cm or more as meandering, the number of pulses is 500mm x 10.
The pulse/m+ is -5000 pulses, so the count setting value of the count setting circuit (45) (46) is 50.
It may be set to 00.

In the counter circuits (43) and (44), the count setting circuit (
45) A count-up signal is output every time the count setting value set in (46) is reached and input to the F/F circuit (47). On the other hand, the sensor of the edge controller (7) simultaneously illuminates the slitter mark and/or the unprinted part of the printed material with a built-in light source, converts the reflected light photoelectrically, and outputs an analog signal as the edge controller sensor output signal (42). Output. The edge controller sensor signal (42) is sent to the A/D conversion circuit (48) of the inspection section.
The A/D conversion circuit (48) converts the edge controller sensor signal (42) into a = 8 A/D so that most of the field of view (14) of the sensor of the edge controller (7) is the slitter mark (13) or When the pattern (12) is read, a logical 1 is output, and when the field of view (14) is mostly blank, a logical O signal is output. This 1. When the O signal is normal, that is, when there is no meandering, the mechanical operation of the feeder section controlled by the edge controller (7), that is, the operation of fine reciprocating movement in the direction perpendicular to the flow direction of the printed matter, and the A/D conversion of the inspection section. Depending on the circuit relationship, the 1 and O signals are approximately 1, 0, 1, 0, 1 . The counter circuits (43) and (44) are reset alternately because they are output in the relationship of , , , . Note that the means for making fine reciprocating movements is known, but
For example, this can be achieved with a mechanism that swings the rollers in the feeder section from side to side.

When the printed material meanderes and the sensor of the edge controller (7) continuously reads the unprinted part of the printed material or the pattern part near the slitter mark, the edge controller sensor output signal (42) is output to the A/D conversion circuit ( After passing through 48), either 1 or 0 is output continuously, so a cent signal is continuously input to one of the counter circuits (43) and (44), and the other is always in a counting state, and the counting state If the meandering of the printed material continues for a certain period of time or longer, the counter circuit (43) or the counter circuit (
The number of inputs of the rotary encoder output signal (41) of 44) exceeds the count setting value set by the count setting circuit (45) (46), and a count up signal is output.
Since the set signal is input to the F circuit (47), the F/F (
47) The circuit outputs a meandering detection signal.

The meandering detection signal is used to activate a patrol light or a buzzer to issue an alarm, or to control deceleration, stop, etc. in conjunction with a slitter device. The operating speed detection circuit (49) determines the operating speed of the slitter by counting the number of pulses of the rotary encoder output signal (41).
This is a circuit for setting the counter circuits (43) and (44) to a counting state immediately after the operating speed becomes faster than the operating speed set in step 0).
8) The meandering inspection device is prevented from operating due to unstable running, etc. It is also possible to disconnect the driving speed detection circuit (49) by operating the switch (53).

<Effects of the Invention> As explained above, according to the present invention, a meandering inspection device is provided which can automatically inspect printed matter for meandering, thereby realizing labor saving and rationalization of the inspection.

Moreover, since the detection output of the slitter mark of an edge controller conventionally used as a meandering prevention device can be used, the device can be simplified.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing the meandering inspection device of the present invention, and FIG.
The figure is an explanatory diagram showing the configuration of the slitter device, FIGS. 3, 4, and 5 are explanatory diagrams showing an example of rolled up printed matter, and FIG.
The figure is a schematic diagram showing slitter marks and patterns, and FIG. 7 is an explanatory diagram showing the field of view of the edge controller sensor. -11- (1)... Feeding roll, (2)... Tension roll, (3)... Drive row/l/, (4)... Razor cutter, (5)... Winding roll , (6) ・
... Winding roll, (7) ... Machine controller, (8) ... Mark In, (9) Guide roll, (
10)...Guide roll, (11)...Rotary encoder, (12)...Printed pattern, (13)...
・Slitter mark, (14)...Edge controller sensor field of view, (41)...Rotary encoder signal, (42)...Edge controller sensor signal, (43)...Counter circuit, (44)... --Counter circuit, (45)... Count setting circuit, (46)...
... Count setting circuit, (47) ... F/F circuit, (
48)... A/D conversion circuit, (49)... Operating speed detection circuit, (50)... Operating speed setting circuit, (51)...
...Switch, (52) ...Feeder section, (53)
... Slitter section, (54) ... Input signal section, (55
)··Inspection unit

Claims (1)

[Claims] (1) A slitter mark detection means that outputs a signal 1 when detecting a slitter mark printed in a stripe shape along the flow direction of the printed material, and outputs a signal 0 when it is not detected, and the slitter mark detection means means for slightly moving the printed material back and forth in a direction perpendicular to the flow direction thereof in order to output signals 1 and 0 alternately at regular intervals;
A pulse generating means that outputs a pulse according to the running speed of the printed material, and 2 that counts the pulses from the pulse generating means.
means for resetting the two pulse counter circuits alternately based on signals 1 and 0 from the slitter mark detection means; A meandering inspection device comprising a determination means for determining that meandering has occurred when a meandering occurs.