WO2014083694A1 - Printing method and printing device for long band-shaped objects - Google Patents

Abstract

The present invention forms a clear image without distortions or color drift at high speed using a single-pass printer (12). The printing device comprises a single-pass printer (12), which is provided with multiple printing units (18) arranged in the conveyance direction of a long band-shaped body (14) that is the printing object and which performs the desired printing (16) on the surface of the long band-shaped object (14). The device is provided with a constant speed drive roller (40) for conveying the long band-shaped object (14) at a specified speed and a constant speed motor (42) for rotating the constant drive roller (40) at a constant speed. The device is provided with tension change-detecting members (26, 30, 33, 52, 54, 57) for detecting the tension of the long band-shaped object (14) at both the upstream side and the downstream side of the printing units (18) in the conveyance direction. The device is provided with speed control rollers (24, 60) for controlling the conveyance speed of the long band-shaped object (14) on the basis of the speed of the long band-shaped object (14) detected at both the upstream side and the downstream side of the printing units (18) in the conveyance direction. A specified printing (16) is performed on the surface of the long band-shaped object (14), which is conveyed at a specified speed facing the printer (12), by keeping the tension of the long band-shaped object (14) constant.

Description

Printing method and printing apparatus for long strips

The present invention relates to a printing method and a printing apparatus for a long belt-like body, in which printing is performed on a long belt-like body such as a fastener tape of a slide fastener, which is a printed material, using a single-pass printer.

Conventionally, as a printer that prints on a long strip such as a slide fastener or a hook-and-loop fastener, for example, as disclosed in Patent Document 1, it is orthogonal to the conveying direction of a plurality of long strips arranged in parallel. There was a printing apparatus in which a printer head composed of ink jet nozzle portions of each color of an ink jet printer was arranged in the direction. This ink jet printer is called a multi-pass method, and while the ink jet is ejected from each ink jet nozzle to the surface of the long belt-like body, the printer head reciprocates in the transverse direction on the surface of the long belt-like body, It is intermittently driven in the direction to perform desired printing in the longitudinal direction.

This type of printing apparatus applies tension to each of the long strips that are intermittently driven on the upstream side and the downstream side in the transport direction of the long strips, and smoothly feeds and winds up the long strips. It is equipped with a tension applying unit composed of dancer rollers. The dancer rollers are moved up and down depending on the margin length of the long belt-like body, and detectors for detecting the margin length of the long belt-like body by detecting the position of the dancer roller are attached.

On the other hand, as disclosed in Patent Document 2, a line head in which a plurality of discharge ports arranged in a direction orthogonal to the transport direction is formed on a recording medium that is placed on a belt and transported. There is a single-pass inkjet printer that records an image by ejecting ink. In particular, in the field of industrial applications, single-pass printers that are fast and excellent in productivity are attracting attention. When performing multi-color printing with a single-pass inkjet printer, the inkjet nozzles for each color are arranged in the transport direction, and ink is ejected at predetermined positions in the transport direction of the recording medium. Printing is in progress.

Japanese Unexamined Patent Publication No. 2000-7199 JP 2009-285854 A

The multi-pass inkjet printer as disclosed in Patent Document 1 prints on a plurality of stopped long strips while the printer head reciprocates in a direction perpendicular to the feed direction. Printing is performed by intermittently driving the belt-like body, and there is a problem that the printing speed is slow although the positional shift and the color shift due to the expansion and contraction of the long belt-like body to be printed are hardly caused. Therefore, it is conceivable to apply a single-pass method capable of high-speed printing to the ink jet printer disclosed in Patent Document 1. However, the tension applying portion of the ink jet printer disclosed in Patent Document 1 conveys a long belt-like body. This mechanism cannot be used for a single-pass printer as it is because it is not a mechanism that adjusts to a constant tension with a dancer roller.

Further, a single-pass printer as disclosed in Patent Document 2 forms an image on a recording medium stably placed on a belt, and is elastic such as a fastener tape or a ribbon fabric. A long strip with a narrow width is difficult to apply on a belt and cannot be applied stably. In particular, when an image is formed on an elastic fabric surface or the like by an inkjet printer, the single-pass method expands and contracts the elongated belt-shaped printed material due to a change in tension during conveyance of the printed material and ejects it from the inkjet nozzle. The ink dots do not hit the desired position, and the image is distorted or color shift occurs.

The present invention has been made in view of the above-described background art, and provides a printing method and printing apparatus for a long belt-like body that can form a clean image without distortion or color shift at high speed using a single-pass printer. The purpose is to provide.

In the present invention, a plurality of printing units are arranged in a conveying direction of a long band-shaped body that is a printing object, and the printing unit is operated in accordance with a conveying speed of the long band-shaped body, whereby the long band-shaped body A method for printing a long strip using a single-pass printer that performs desired printing on the surface of the printer, wherein the long strip is transported at a constant speed, and upstream and downstream in the transport direction of the printing unit. The change in tension of the long strip is detected on both sides, the transport speed of the long strip is controlled on both the upstream and downstream sides in the transport direction of the printing unit, and transported facing the printer. This is a printing method of a long band-shaped body that is controlled so that the tension and speed of the long band-shaped body are constant.

In the vicinity of the upstream side of the printing unit, the long strip is conveyed at a constant speed by a constant speed drive roller, and the conveyance speed control on the upstream side in the conveyance direction of the printing unit is performed on the upstream side of the constant speed drive roller. It controls the conveying speed of the long belt-like body.

The present invention also provides a single-pass printer that is provided with a plurality of printing units arranged in the conveying direction of a long belt-like body to be printed and that performs desired printing on the surface of the long belt-like body, and the long paper A constant-speed drive roller that conveys the belt at a constant speed, a constant-speed motor that rotates the constant-speed drive roller at a constant speed, and the long belt-like body both upstream and downstream in the transport direction of the printing unit. Based on the tension change detecting member for detecting the tension change and the speed of the long strip detected on both the upstream side and the downstream side in the transport direction of the printing unit, the tension change of the long strip is controlled. A long belt having a speed control roller for controlling the tension of the long belt that is transported at a constant speed while facing the printer to perform predetermined printing on the surface of the long belt. Body printing device.

The constant speed driving roller is provided in the vicinity of the upstream side of the printing unit, and a speed control roller for controlling the conveying speed of the long belt-like body is provided on the upstream side of the constant speed driving roller. .

The tension change detecting member has a dancer roller which is wound around the long strip and can be moved up and down by the tension of the long strip. The dancer roller is pivotally fixed to one end of an arm member that can swing in the vertical direction, and a weight is fixed to the other end of the arm member. The arm member moves up and down in a substantially vertical direction. It is provided so as to be able to swing so as to move. Further, the tension change detecting member includes a rotary encoder provided at the swing center of the arm member.

The speed control roller and the constant speed drive roller are provided with a pressing roller that presses the long belt-like body against the speed control roller and the previous constant speed drive roller.

The printer is an inkjet printer, and the printing unit includes an inkjet nozzle section. Alternatively, the printer may be a laser printer, and the printing unit may include a photosensitive drum.

The printing method and printing apparatus for a long belt-like body of the present invention is a high-speed and accurate printing without a positional deviation or a color deviation, even with a single-pass printer, even on a long and long printed material such as a fabric. It can be performed. Thereby, it is possible to efficiently perform clean printing on a long printed material.

It is a schematic front view which shows the printing apparatus of the elongate strip | belt shaped object of one Embodiment of this invention. It is a schematic diagram showing a single-pass printer of a long belt-like body of this embodiment. It is a flowchart which shows the printing method of the elongate strip | belt shaped object of this embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. The printing device 10 for a long belt-like body according to this embodiment performs printing 16 of a desired image on the surface of a fastener tape 14 of a slide fastener, which is a long belt-like body, by a single-pass inkjet printer 12. The inkjet printer 12 includes a plurality of printing units 18 of each color arranged in the conveying direction of the fastener tape 14, and a plurality of unillustrated inks for ejecting ink of the same color in the width direction of the fastener tape 14 are printed on each printing unit 18. Ink portions, ink jet nozzle portions, and the like are provided. Each printing unit 18 of the ink jet printer 12 is positioned on a horizontal plane, and the fastener tape 14 is transported with a slight distance in parallel with the plane.

The fastener tape 14 is fed from a supply unit (not shown) to the tape feeding device 20 through a guide roller or the like with the fastener element 15 closed, and then to a dancer roller 26 that is a tension change detection member via a speed control roller 24. Sent. The speed control roller 24 is rotationally driven by the control motor 28, and the feed speed of the fastener tape 14 is controlled. The control motor 28 is controlled by the output of a control inverter (not shown) according to the position of the dancer roller 26 by a control method described later. On the speed control roller 24, a pressing roller 25 that faces the roller surface and presses the fastener tape 14 to prevent slipping and ensures feeding is positioned.

The dancer roller 26 is pivotally supported at the tip of an arm member 30 that is a tension change detecting member that swings in the vertical direction, and is attached to a rotary shaft 32 that is slightly further from the dancer roller 26 than the center of the arm member 30. Therefore, it is provided rotatably. A rotary encoder 33 that is a tension change detecting member for detecting the swing angle of the arm member 30 is attached to the rotating shaft 32. A weight 34 is attached to the other end of the arm member 30 and is adjusted so that the arm member 30 is balanced in a horizontal state to facilitate swinging of the arm member 30.

The fastener tape 14 passed through the dancer roller 26 is sent upward and is wound around a constant speed drive roller 40. The constant speed driving roller 40 is driven by a constant speed motor 42 at a constant feed rate. A pressing roller 41 that faces the roller surface of the constant speed driving roller 40 and presses the fastener tape 14 to prevent slipping and ensures feeding is positioned so as to be pressed.

The fastener tape 14 that has passed through the constant speed driving roller 40 is turned in the horizontal direction via the turning roller 44 and is sent below the ink jet printer 12. A travel guide surface 46 is provided directly below the inkjet printer 12 to guide the fastener tape 14 to a horizontal position with an insertion space for the fastener tape 14. The traveling guide surface 46 is provided on the upper surface of the base portion 50 of the printing device 10 having a long belt-like body.

The base unit 50 is provided with a speed control roller 24, a pressing roller 25, and a control motor 28, and the rotary shaft 32 of the arm member 30 is also supported at a predetermined position. Furthermore, the constant speed drive roller 40 and the constant speed motor 42 are also provided above the base unit 50.

The fastener tape 14 that has passed through the traveling guide surface 46 is sent to a dancer roller 52 that is a tension change detection member that is positioned vertically downward through a turning roller 48. Similarly to the upstream dancer roller 26, the dancer roller 52 is also pivotally supported at the tip of the arm member 54, which is a tension change detecting member that swings in the vertical direction, and slightly from the dancer roller 52 than the center of the arm member 54. It is rotatably provided by a rotary shaft 56 at a far position. A rotary encoder 57 that is a tension change detecting member that detects the swing angle of the arm member 54 is attached to the rotating shaft 56. A weight 58 is attached to the other end portion of the arm member 54, and the arm member 54 is adjusted so as to be balanced by a horizontal body to facilitate the swinging of the arm member 54.

The fastener tape 14 that has passed through the dancer roller 52 is sent upward in the vertical direction, and is sent to the next process through the speed control roller 60. The speed control roller 60 is rotationally driven by an inverter-controlled control motor 64, and the feed speed of the fastener tape 14 is controlled. The control motor 64 is controlled by the output of a control inverter (not shown) according to the position of the dancer roller 52 by a control method described later.

The speed control roller 60 and the control motor 64 are also fixed at a position above the base portion 50, and the arm member 54 of the dancer roller 52 is also pivotally supported at a predetermined position below the base portion 50.

Next, the operation of the printing device 10 for a long strip according to this embodiment will be described with reference to the flowchart of FIG. First, the fastener tape 14 is passed over the predetermined path as described above from the turning roller 22 in the carry-in portion of the printing apparatus 10 to the dancer roller 62 in the carry-out portion. When conveyance of the fastener tape 14 is started by a control device (not shown), the constant speed motor 42 rotates at a constant speed, for example, a tape feed amount of 15 m / min, and the constant speed drive roller 40 rotates at a constant speed (s11). Accordingly, the control motors 28 and 64 are also driven, and the speed control rollers 24 and 60 are rotated at a speed equal to that of the constant speed drive roller 40, for example, a tape feed amount of 15 m / min (s12a and s12b).

In this state, the dancer roller 26 moves up and down slightly due to fluctuations in the feed length of the fastener tape 14 itself and expansion and contraction due to fluctuations in the upstream load. The fluctuation or expansion / contraction of the feed length of the fastener tape 14 is because the fastener tape 14 is a long belt-like body made of cloth, so that the running resistance such as a change in tension due to the driving force applied to the fastener tape 14 or some catching on the upstream side Caused by the occurrence of When this expansion and contraction occurs, the length of the tape sent out by the constant speed drive roller substantially changes. Therefore, the pattern printed by the ink jet printer 12 is finally distorted, or there is a positional deviation in the ink ejection of each color from the ink jet nozzle portions of different printing units 18 that should be ejected to the same position, so that a plurality of Color misregistration may occur in a portion synthesized by color.

Therefore, in the printing apparatus 10 of the long strip-like body of this embodiment, the control motors 28 and 64 are controlled based on the positional information of the dancer rollers 26 and 52 in order to suppress the expansion and contraction and eliminate the positional deviation and color deviation of the pattern. The rotational speed of the speed control rollers 24 and 60 is finely adjusted. For this fine adjustment, the position information of the dancer rollers 26 and 52 is detected by the rotary encoders 33 and 57 as the swing angles of the arm members 30 and 54. In the outputs of the rotary encoders 33 and 57, the horizontal position of the arm members 30 and 54 is set as the neutral position in the initial state.

In the state where the fastener tape 14 is transported at a constant speed, the dancer roller 26 in the carry-in portion of the printing device 10 having a long strip-shaped body is moved upward from the horizontal position of the arm member 30, for example, as angle information from the rotary encoder 33. The value of the swing angle is output. This is because the tension applied to the fastener tape 14 is increased, the rotational speed of the speed control roller 24 is slow relative to the constant speed drive roller 40, or the fastener tape 14 is caught on the upstream side. The rotation of the motor 28 is controlled in the increasing direction, for example, the feed amount of the fastener tape 14 is faster than 15 m / min. Conversely, in a state where the dancer roller 26 has moved downward from the horizontal position of the arm member 30, for example, a negative swing angle value is output as angle information from the rotary encoder 33. In this state, the tension applied to the fastener tape 14 is reduced, and the rotational speed of the speed control roller 24 is higher than that of the constant speed drive roller 40, or after the fastener tape 14 is caught upstream. This is for returning, and the rotation of the control motor 28 is controlled in the deceleration direction, for example, the feed amount of the fastener tape 14 is slower than 15 m / min (s13a). Thereby, the speed of the control motor 28 is adjusted, and the dancer roller 26 is returned to the neutral position. And it will be in a steady state and it will rotate at a constant speed in the state by which expansion and contraction of the fastener tape 14 was suppressed (s14a).

Further, in the carry-out portion, when the dancer roller 52 of the carry-out portion is moved upward from the horizontal position of the arm member 54 in the state where the fastener tape 14 is being conveyed at a constant speed, for example, positive swinging is performed as angle information from the rotary encoder 57. The corner value is output. This is because the tension applied to the fastener tape 14 is increased, the rotational speed of the speed control roller 60 is higher than the constant speed drive roller 40, or the fastener tape 14 is caught on the upstream side. The rotation of the motor 64 is controlled in the deceleration direction, for example, the feed amount of the fastener tape 14 is slower than 15 m / min. Conversely, in a state where the dancer roller 52 has moved downward from the horizontal position of the arm member 54, for example, a negative swing angle value is output as angle information from the rotary encoder 57. In this state, the tension applied to the fastener tape 14 is reduced, and the rotational speed of the speed control roller 60 is slow relative to the constant speed drive roller 40, or after the fastener tape 14 is caught upstream. This is for returning, and the rotation of the control motor 64 is controlled in an increasing direction, for example, the feed amount of the fastener tape 14 is faster than 15 m / min (s13b). Thereby, the control motor 64 rotates at a constant speed in a state where the speed is adjusted and the expansion and contraction of the fastener tape 14 is suppressed (s14b).

As described above, the fastener tape 14 between the dancer rollers 26 and 52 positioned between the speed control rollers 24 and 60 driven by the control motors 28 and 64 does not vary in tension, and the expansion and contraction of the fastener tape 14 is minimized. It is transported while being suppressed.

By transporting the fastener tape 14 at a constant speed and without expansion and contraction, in the single-pass inkjet printer 12, the inkjet nozzle portions of the printing units 18 arranged in the transport direction of the fastener tape 14 have a constant speed, for example, 15 m. For the fastener tape 14 conveyed at a high speed per minute, ink is accurately ejected to a predetermined position at a predetermined timing calculated by the interval between the printing units 18 and the conveyance speed of the fastener tape 14. Can be formed.

According to the printing device 10 and the printing method for a long belt-like body of this embodiment, high-speed and accurate printing can be performed on a long belt-like body such as a fabric by a single pass method using the ink jet printer 12. Thus, printing by the inkjet printer 12 onto a long belt-like body such as the fastener tape 14 can be performed cleanly and efficiently. Dancer rollers 26 and 52 for detecting the tension of the fastener tape 14 are provided on swingable arm members 30 and 54, and a weight 34 is provided at the end of the arm members 30 and 54 opposite to the dancer rollers 26 and 52. 58, part of the weight of the dancer rollers 26 and 52 is canceled, and the arm members 30 and 54 swing in response to fluctuations in the tension of the fastener tape 14 extremely sensitively. As a result, the tension applied to the fastener tape 14 can be accurately detected and fed back, and accurate control with good responsiveness is possible. Furthermore, by adjusting the loads and positions of the weights 34 and 58 of the dancer rollers 26 and 52, it is possible to adjust the tension to the optimum according to the long strips of various materials and widths having different degrees of expansion and contraction.

In addition, the printing method and printing apparatus for the long belt-like body of the present invention are not limited to the above-described embodiment, and may be any printer that can adopt a single-pass method such as a laser printer other than an inkjet printer. The body may be a long member such as a ribbon or a tape other than the fastener tape, and can be appropriately applied as long as it is a strip-like long material. The movement method of the dancer roller is not limited to swinging using an arm member, and the dancer roller may move up and down within a predetermined range. The position of the constant speed driving roller is preferably the position of the above-described embodiment in terms of speed stability, but may be on the downstream side of the printer.

DESCRIPTION OF SYMBOLS 10 Printing device of long strip | belt body 12 Inkjet printer 14 Fastener tape 16 Printing 18 Printing unit 20 Tape feeding device 24, 60 Speed control roller 25, 41 Press roller 26, 52 Dancer roller 28, 64 Control motor 30, 54 Arm member 32 , 56 Rotating shaft 33, 57 Rotary encoder 34, 58 Weight 40 Constant speed drive roller 42 Constant speed motor

Claims (12)

1. A plurality of printing units (18) are arranged in the conveying direction of the long belt-like body (14) that is the printing object, and the printing unit (18) is operated in accordance with the conveying speed of the long belt-like body (14). By this, in the printing method of the elongate strip using the single pass system printer (12) which performs desired printing (16) on the surface of the elongate strip (14),
   While transporting the long strip (14) at a constant speed, the tension change of the long strip (14) is detected both upstream and downstream in the transport direction of the printing unit (18), and the long strip (14) is detected. The long belt-like body (14) transported facing the printer (12) by controlling the transport speed of the long belt-like body (14) both upstream and downstream in the transport direction of the printing unit (18). A method for printing a long belt-like body, wherein the tension and speed of the belt are controlled to be constant.
2. In the vicinity of the upstream side of the printing unit (18), the long strip (14) is transported at a constant speed by a constant speed driving roller (40), and transport speed control is performed upstream of the printing unit (18) in the transport direction. The printing method for a long belt-like body according to claim 1, wherein a conveying speed of the long belt-like body (14) is controlled upstream of the constant speed driving roller (40).
3. The printing method for a long belt-like body according to claim 1 or 2, wherein the printer (12) is an inkjet printer, and the printing unit (18) includes an inkjet nozzle section.
4. The method for printing a long belt-like body according to claim 1 or 2, wherein the printer (12) is a laser printer, and the printing unit (18) includes a photosensitive drum.
5. A single-pass method in which a plurality of printing units (18) arranged in the conveying direction of a long belt-like body (14) that is a substrate to be printed are provided and desired printing (16) is performed on the surface of the long belt-like body (14) Printer (12),
   A constant speed drive roller (40) for conveying the elongated strip (14) at a constant speed;
   A constant speed motor (42) for rotating the constant speed drive roller (40) at a constant speed;
   A tension change detecting member (26, 30, 33, 52, 54, 57) for detecting a change in tension of the elongated strip (14) both upstream and downstream in the transport direction of the printing unit (18);
   A speed control roller for controlling a change in tension of the long strip (14) based on the speed of the long strip (14) detected both upstream and downstream in the transport direction of the printing unit (18). (24, 60)
   A predetermined printing (16) is performed on the surface of the long band (14) by controlling the tension of the long band (14) facing the printer (12) at a constant speed to be constant. An apparatus for printing a long band-shaped body.
6. The constant speed driving roller (40) is provided in the vicinity of the upstream side of the printing unit (18), and the conveyance speed of the long belt-like body (14) is controlled on the upstream side of the constant speed driving roller (40). The printing apparatus for a long belt-like body according to claim 5, wherein a speed control roller (24) is provided.
7. The tension change detecting member has a dancer roller (26, 52) wound around the long band (14) and capable of moving up and down by the tension of the long band (14). Printing device for long strips.
8. The dancer roller (26, 52) is pivotally fixed to one end of an arm member (30, 54) that can swing in a vertical direction, and a weight (34, 52) is attached to the other end of the arm member (30, 54). 58) is fixed, and the arm members (30, 54) are provided so as to be swingable so that the dancer rollers (26, 52) move up and down in a substantially vertical direction. Body printing device.
9. The printing device for a long belt-like body according to claim 8, wherein the tension change detecting member includes a rotary encoder (33, 57) provided at a swing center of the arm member (30, 54).
10. The speed control roller (24) and the constant speed drive roller (40) include a pressing roller (25) that presses the long strip (14) against the speed control roller (24) and the front constant speed drive roller (40). , 41). The printing apparatus for a long belt-like body according to claim 5.
11. The printing device for a long strip according to any one of claims 5 to 10, wherein the printer (12) is an inkjet printer, and the printing unit (18) includes an inkjet nozzle section.
12. The printing device for a long strip according to any one of claims 5 to 10, wherein the printer (12) is a laser printer, and the printing unit (18) includes a photosensitive drum.
    

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