JPH0445051A - Web guide device - Google Patents

Abstract

PURPOSE:To promote the equilibratory travel of tensile force by setting up two horizontal fixed guides in a web traveling passage, while installing two moving guides so as to wind round a web lying between these fixed guides over as far as 180 degrees, and having these moving guides subjected to angular displacement. CONSTITUTION:Two fixed guides 4, 5 are set up parallelly separate from the travel direction of web paper 1, and further two moving guides 6, 7 are parallelly set up there. The web 1 stretched across between these guides 4 and 6 as well as 5 and 7 is set up so as to make a winding angle come to 180 deg.. The moving guides 6, 7 are made solidly angular-displaceable. With this angular displacement, the web 1 is changed of its traveling sense so as to get the tension balanced at time of passing through the moving guide 6, and since both these moving guides 6, 7 are kept in parallelism, a side position of the web is parallelly shifted. Therefore tension by travel direction shifting operation is equilibrated, thus paper breaking is prevented from occurring.

Description

[Detailed description of the invention]

[Industrial Application Field] The present invention relates to a web guide device that moves and adjusts the widthwise position of a continuously running strip-shaped sheet, for example, web paper, in a ladle manner. [Prior Art] Roll paper printing machines have 1.
A position adjustment device is provided for aligning the center of the running paper web with the center of the printing machine, the center of the printing plate, or the like. As for the conventional technology, "Register mechanism of web machine" described on pages 33-34 of (]) "Introduction to Printing Machines" (Publication date: July 1985] [-), Publishing Department of the Institute of Printing, Publishing Department) (2) “Off-rotary printing technology”
(Issuance 1-j: September 15, 1980, Publisher: GA
(3) JP-A-58-47747, which is shown in the section "Control of web paper" on pages 84-85 of TF Far East Office)
(4) Patent No. 177072
There is one shown in the specification of Japanese Patent Publication No. 23-1.037. Among the conventional techniques mentioned above, the mechanisms shown in (1) to (3) are as shown in FIGS. 7 and 8, and have two fixed guides aSb and two moving guides cSd. Both moving guides c and d are supported by a common frame (not shown), and for example, the center f of the web paper e in the upstream moving guide C (conventional example (1) ))
, or rotate horizontally around the center g of the web paper (conventional examples (2) and (3)) at the intermediate portion of both moving guides cSd. In the conventional examples (1) to (3) above, the web paper e is first twisted between the upstream fixed guide a and the upstream moving guide C, and then the web paper e is twisted between the upstream fixed guide a and the upstream moving guide C. takes a diagonal direction of travel. Then, it passes through the moving guide d on the downstream side and is returned to the upstream direction of the fixed guide a on the upstream side via the fixed guide b on the lower downstream side while being twisted again, and during this time the web e is moved in the width direction. is translated by P. Furthermore, the mechanism shown in conventional example (4) is designed as shown in FIG. Guide C', d
The web paper e is made to run around in a two-character pattern, and the web paper e is moved in the width direction by rotating both moving guides together. [Problems to be Solved by the Invention] Among the above-mentioned conventional examples, the conventional techniques (1) to (3) have the following problems. That is, as shown in FIGS. 7 and 8, each of the moving guides c, d is positioned above each of the fixed guides a1b, and each of the moving guides c, d has a web material extending over approximately 90 degrees. Because e is configured to wrap around,
In the state shown in FIG. 7, for example, if the moving guides c and d are rotated together at the center g of the web stock e, the state shown in FIG. 8 will be obtained, and the web stock e will move with the upstream fixed guide a. By being twisted between the guides C and between the moving roller d and the fixed guide b on the downstream side, the paper edges ISJ on both sides are stretched and become longer than the paper center line of the web stock e. Now, in each moving guide cSd, the guide cross section C4°c2+C3 and dl, d2. When considering d3, both moving guides cS
d is integrally rotated to the left around the paper center g as shown by the arrow in FIG. 7, for example, in FIG. 8, from the upstream fixed guide a to the upstream moving guide C. The distance p1 from the center position of the paper to the guide cross section C1, and the distance 11 from the guide cross section '2+C3 at both paper edge positions.
2.113 becomes long. Similarly, the distance R' 1 from the fixed guide b on the downstream side to the guide cross section d1 at the paper center position of the moving guide b on the downstream side
d2. The distance fl ' 21 II ' 3 to d becomes longer. In other words, when both moving guides c and d are rotated, the paper threading path of the web stock paper from the upstream fixed roller a to the downstream fixed guide b is such that both paper sheets are The length of the end becomes longer. Therefore, in the paper threading path between the two fixed guides aSb, extra tension is applied to the paper ends i and j of the web paper e compared to the vicinity of the central portion of the paper. Therefore, in the process of parallel movement of the web stock e in the advancing direction by the inclination of the moving guides c and d, uneven tension is applied to the web stock e, causing paper breakage. Therefore, the operator has to be very careful when starting the running of the paper web, adjusting and starting the moving rollers c and d, and this requires a great deal of effort. On the other hand, in the conventional example (4), the above (1)
) to (3), but since the web paper e is configured to run around two non-rotating moving guides C'd' in a Z-shape, both sides of the web paper e are connected to the moving guide C.
For example, even when printing is performed only on one side of the web paper e, this printed surface is stained by the sliding contact caused by the moving guides c' and d'. The present invention has been conceived in view of the above-mentioned points, and therefore the side edges of the web paper 1. It is possible to eliminate paper breakage due to applied tension, and it is possible to move the web printing paper in the advancing direction without having to place any burden on the web printing paper. - Printed on one side with a moving guide or sliding contact only on the side). To provide a guide device capable of eliminating staining of the printing surface of web paper due to a moving guide. J is the purpose. [Steps for Solving the Problems] In order to achieve the above object (1), the web guide device according to the present invention is provided with a web guiding device that is spaced apart in the running path of the web stock paper in the -1 direction of the web stock paper. Two fixed guides are installed in parallel and rotatably on the downstream side. The two moving guides are arranged in 1 row and 10 rows, and the two moving guides are integrated with the [Operation] The fixed guide and the movable guide are moved in the direction of the horn.

[, it will be 90 degrees...] to (, each guy 1,'
By winding and passing the web paper 10 through the self-moving guide, the web 4 = I rolls each paper over approximately 180 degrees on the self-moving guide. When the moving guide is angularly displaced from the position of 00 degrees with respect to the direction (i, 1, 1, 1)) of the current state of the web printing paper, the movement of the moving guide from the upstream side to the 1st stream side. The web paper, which is moving in the direction of . balance of tension”
Change the direction of travel in the direction you want. Subsequently, the paper web reaches the moving guide on the 7th stream side, changes its running direction to the direction where the tension is balanced according to the moving guide on the 7th stream side, and returns to the traveling direction when the web guide device was introduced. . In this process, while reaching the moving guide on the F stream side from the upstream moving guide, the web stock runs diagonally with respect to the running direction, resulting in a flat j'i in the width direction of the web stock paper. A move is made. In addition, because the moving guide is arranged so that the winding angle of the web paper relative to the self-moving guide that is angularly displaced is approximately 180 degrees, and because the self-moving guide is integrally displaced angularly, Even if the self-moving guides are angularly displaced, the path length of the paper web traveling guided by these guides does not change at any position in the width direction and remains the same. [Example] An example of the present invention will be described based on FIGS. 1 to 6. FIG. 1 is a perspective view showing the general structure of an embodiment of the present invention, and FIG. 2 is a plan view thereof. The web paper 1 is introduced into the printing section 2 by a web guide device 3 provided upstream of the printing section 2, and is adjusted to move in the width direction so that the center line of the web paper 1 and the printing center are aligned, for example. It is becoming more and more common. In the following, the structure of the web guide device 3 will be explained with reference to FIGS. 1 and 2, and FIG. 6 showing the arrangement of each guide. 4.5 is a fixed guide on the upstream side and downstream side, which is spaced apart in the running direction of the web paper and placed at a distance of 5° C.
Similarly, numerals 6 and 7 are upstream and downstream movement guides arranged horizontally in the running direction of the 91111 paper. 2 Of the self-moving guide rods 7, the moving guide 6 on the upstream side is 1- from the fixed guide 4 on the downstream side.
The moving guide 7 on the downstream side is arranged at a position shifted from the upper blade by the sum of the diameters of each liquid. The fixed guides 4 and 5 are arranged at positions shifted upward by the sum of 12 diameters of each. Both ends of the self-moving guide 6.7 are supported by end plates 10 and 10, respectively.
11. One end plate of this is fixed to the above-mentioned machine frame 8. The other end plate 11 is supported by a bracket 14 fixed to the other machine frame 9 so as to be horizontally movable. There is. The moving end plate 11 is provided with a protrusion 11a, and a nut member 15 is rotatably supported on this protrusion 11a, and an adjustment rod 16 is screwed into the nut member 15. . This adjustment rod 16 is rotatably mounted on a support block 18 that is horizontally rotatably supported by a bracket 17 provided on the machine frame 9.
and is axially locked and supported. 19 is a handle. In the above configuration, by rotating the adjustment rod 16 with the handle 19, one end plate 11 moves along the machine frame 9 together with the nut member 15, whereby both moving guides 6.7 are integrated. , is rotated about the pivot shaft 13 as a fulcrum. On the other hand, the nib stock 1 is guided along a path passing through an upstream fixed guide 4, an upstream moving guide 6, a downstream moving guide 7, and a downstream fixed guide 5 in this order. As a result, as shown in FIG. 6, both moving guides 6.7
The web paper 1 is wrapped around approximately 180 degrees. FIG. 3 shows a state in which both moving guides 6.7 are set at right angles to the running direction of the web paper 1. In this case, the upstream fixed guide 4 and the downstream fixed guide 6. On the downstream side of the guide 5, the running direction of the web stock paper 1 and the position of the side end of the web stock paper 1 while it is running are coincident. In the state shown in FIG. 3, when the web paper 1 on the downstream side of the fixed guide 5 on the downstream side is to be translated laterally while running, the following operation is performed. That is, by rotating the handle 19, both moving guides 6.7
are integrally rotated in one direction around the pivot shaft 13. As a result, the web paper 1 runs as shown in FIG. 4 or FIG. 5. Specifically, by the angular displacement of the moving guide 6.7, when the web stock paper 1 passes the upstream moving guide 6, the running direction is changed so that the tension acting on the web stock paper 1 is balanced, and When passing through the moving guide 7 on the downstream side, the running direction is changed so that the tension acting on the paper web 1 is again balanced. At this time, since both moving guides 6.7 are parallel,
The running direction of the web stock paper 1 on the downstream side of the upstream side moving guide 6 is the same as the running direction of the web stock paper 1 on the upstream side of the upstream side moving guide 6, and The side end position moves in parallel by the amount of movement P changed between the upstream moving guide 6 and the downstream moving guide 7. Also, at this time, the wrapping angle of the web paper 1 with respect to the upper and downstream moving guides 6.7 becomes 180 degrees, and since both moving guides 6.7 remain parallel and integrally displace the angle, both of the moving guides 6.7 Even with an angular displacement of the movement guide 6.7, the tension acting on the paper web 1 remains uniform in the width direction. That is, when the moving guide 6.7 is displaced from the perpendicular state shown in FIG. 3 as shown in FIG. The distance to the guide 6 changes from -L2 (just LL, >L2), and the distance from the fixed guide 5 on the downstream side to the movable guide 7 on the downstream side changes from L3 to L4 (
However, it changes as L3<L4), but both moving guides 6.7
is displaced in the same plane as the web paper between the fixed guide and the moving guide, so that (L 1+ Lx ) −
(L2 +L<), and both fixed guides 4 on the upstream and downstream sides
．． The length between 5 does not change. This also applies to the other side edges of the web paper 1, and as a result, the moving guide 6
Even if ゜7 is angularly displaced, the length of the web stock 1 that runs guided by these does not change at any position in the width direction and is the same, so the tension acting on the web stock 1 remains uniform. . At this time, both fixed guides 4.5 are in contact with one side of the web stock 1, and both moving guides 6.7 are in contact with the other side thereof. Both fixed guides 4 and 5 are rotatable, and the movable guide 6.7 is rotated so that the printing surface is in contact with the fixed guides 4 and 5. , the printed surface will not be rubbed by the guide, and the printed surface will not be stained by the guide. In the above configuration, the angular displacement of both moving guides 6.7 is such that the wrapping angle of the web material 1 with respect to the moving guide 6.7 is approximately 1.
This is done within the range where the angle can be maintained at 80 degrees. In addition, a drive means (not shown) such as a 7-, 7-, etc. may be used to rotate the adjustment rod 6, and the web paper 1 is placed on the F-stream side of the moving guide 7 on the D-stream side. A sensor (not shown) for detecting the end position is provided, and a control means (not shown) is provided.
It may be connected to the above-mentioned driving means (not shown) via a screwdriver for automatic control operation. Further, the center of rotation of the frame supporting the moving guide 6.7 may be set at an appropriate position as long as the frame can be rotated. Furthermore, the movement guide 6.7 is
．． If the angular displacement range of 7 is small, it will rotate.)
L5 may also be <, 1y,, this is not limited to either transfer or fixation. The present invention is not limited to the embodiments described above, but is [Effects of the Invention] According to the present invention, it is possible to eliminate paper breakage due to the tension applied to the side edges of the web stock paper, and the movement operation of the web stock paper in the advancing direction This can be done without putting a burden on a worker, and moreover, the moving guide slides into contact with only one side of the web stock paper, thereby eliminating staining of the printed surface of the web stock paper printed on one side by the moving guide.

[Brief explanation of the drawing]

1 to 6 show embodiments of the present invention.
The figure is a perspective view showing the schematic structure, @2 figure is a top view, and figure 3 is
4 and 5 are operation explanatory diagrams, and FIG. 6 is an arrangement diagram of the fixed guide and the movable guide for the web paper. Figures 7 to 9 show conventional examples; Figure 7 is a perspective view showing a schematic configuration in which the movable guide is arranged in a box shape with respect to the fixed guide; Figure 8 is a web paper and guide. FIG. 9 is a configuration explanatory diagram showing another conventional example. 1 is a web paper, 2 is a printing section, 3 is a web guide device,
4.5 is a fixed guide, 6.7 is a moving guide, 8.9 is a machine frame, 10.11 is an end plate, 12° 14.1.7 is a bracket, 13 is a pivot shaft, ] 5 is a nut member, 16 is an adjustment rod, 18 is a support block, and 19 is a handle.

Claims (1)

[Claims] In the travel path of the web paper, there are two fixed guides that are rotatably provided parallel to the running direction of the web paper, and the web paper reaches the fixed guide on the downstream side via the upstream fixed guide. so that it wraps around approximately 180 degrees,
and two moving guides arranged parallel to each other and capable of being angularly displaced integrally with respect to the running direction of the paper web; and a guide moving means for integrally angularly displacing the two moving guides. A web guide device comprising: