DE1611542B - Rotary duplicator for line and section printing of printing forms - Google Patents

Description

The invention relates to a rotary duplicator for printing lines and sections of printing forms attached to a printing drum, the lines of which are aligned parallel to the axis, wherein several, displaceable parallel to the printing drum axis and by a stepping mechanism in the circumferential direction adjustable control cams are provided that the interaction of the pressure elements control with the help of scanning levers and lever linkages, and being in the orbit of the indexing mechanism adjustable pulleys are provided for actuating the stepping mechanism.

It is known to preselect the one-, two- or multi-cell printing of a line printing machine to be carried out by means of pull-rod actuation.

■ Qer _; The disadvantage of hJirpL is that it is very cumbersome and requires a lot of effort to operate. A double movement must be assumed here. leads, namely in addition to the actual pulling or pushing adjustment movement, a locking or disengaging movement,

The invention has therefore set itself the task of providing a simple and easy-to-operate mechanical To create adjustment options for the operator without using electrical or electromagnetic multiple movement means to have to grab.

■ The reduction of the line printing for two- and three-line transport should be done by a simple rotary movement, the extent of which the. one-, two * · and "three-line setting and the transport of the stepping mechanism of the cam disks for the Multiplier mediated.

According to the invention the object is achieved in that the pivoting of the pulleys over a lever linkage rotatable cam disks are provided and that by turning a cranked Adjusting rod, the lever linkage is slidable like a handlebar

The cams are preferably connected to one another via a bracket, so that the control the second cam is inevitably carried out by the first cam.

A further embodiment of the invention is seen in the fact that both the control cams for cooperation with the pressure elements as well as the cam disks for shifting one or more Switching rollers arranged in the area of the stepping mechanism in the area of action of the lever linkage • are and can be actuated by this.

To prevent the single or multi-cell transport of the stepping mechanism, a second Adjustment rod can be provided, either the switching rollers directly through the second adjustment rod or by shifting the pivot points of the cam disks from the area of the pawl of the Stepping mechanism can be brought.

An exemplary embodiment of the subject matter of the invention is shown in the drawings. It shows

F i g. 1 the control mechanism for the cam adjustment a duplicating machine in a partial section leaving out the left side wall,

F i g. 2 is a plan view according to FIG. 1,

F i g. 3 the stepping mechanism of a duplicating machine in half section omitting the left side wall.

In Figs. 1, 2 and 3, the control mechanism for the cam adjustment of a duplicating machine is shown. The cam axis 6 is rotated via the gears 1, 2 and 3 synchronously with the pressure cylinder 5 mounted on the shaft 4. Driven together with the cam axis 6 is the ratchet wheel 7 which is firmly connected to the same and to which the pawl 8 and the pawl 9 are attached. The pawl 8 transmits the rotation to the ratchet wheel 10, via which the flange bushing 11 and the cam 12 as well as the guide flange 14 connected to the flange bushing 11 by the wedge 13 and the cams 15 and 16 firmly connected to the same are driven in the direction of arrow A. If one of the curves or several of the curves 12, 15 and 16 runs onto the roller 17 of the sensing lever 18 during rotation, the latter is rotated about its axis 19 in the direction of arrow B and pushes the control lever 20

Rotating about the axis 21, the tab 22 in the direction of the arrow C, This thrust can be via the toggle levers 23 and 24 on the path of the guide lever 25, which is around the Axis 26 rotates, pivot the Gegondruckele-; element 27 stored in it against the printing cylinder, Es is possible by means of curve 12 a single line, curve 16 a two line and curve IS ! to be able to make a three-line print, the curve 12 cannot be moved laterally and the curves 15 and 16 are arranged to be laterally displaceable.

In the F i g. 1, 2 and 3, the control mechanism for the curve adjustment is shown so that when the curves 12, 15 and 16 are rotated, the Veryielbstigungsi machine would run a three-line print and a three-line transport of the curves 12, 15 and 16. If the duplicating machine is to be prepared for a two- or three-line print, the switching rod 28 is moved one or two switching positions further in the direction of rotation D. The switching rod 28 guided in an ao elongated hole of the switching plate 29 allows the switching plate 29 to pivot about its bearing point 30 of the bearing pin 31 simultaneously with its rotary movement in direction D , this pivoting movement being transmitted to the guide bracket 34 via the intermediate tabs 32 and as 33. The guide bracket 34 pivots about the axis 35, which is mounted in the bearing brackets 37 and 38 attached to the bearing plate 36, and pushes the guide flange 14 and the curves 15 and 16 on the cam axis 6 by means of the sliding blocks 39 and 40 rotatably mounted in the guide bracket 34 so far in the direction of arrow E until the curve 16 or the curves 15 and 16 have stepped out of the area of action of the roller 17. In order to prevent the cams 15 and 16 from being adjusted during the rotation of the printing cylinder 5, a switching roller 41 is attached to the intermediate plate 32 and engages in the respective detent of the locking arm 42. The locking arm 42 is pivotably mounted about the bearing point 43 of the bearing bracket 44 and is pressed against the pulley 41 in every position by the spring force of the spring 45. If you want to work with automatic transport, that is, z. B. the curve after a two-line print by two lines of the printing form original 46 further backwards to the direction of rotation, the pull rod 47 is in the position shown in FIG. 1 brought the position shown in which it is locked by the bearing bracket 48. The switching roller 49 of the switching plate 51 rotatably mounted around the bearing point 50, which is connected to the pull rod 47 by means of the rivet pin 52, is now in the range of action of the switching pawl 9. When the switching pawl 9 runs up on the switching roller 49, this is in the ratchet 10 under simultaneous Lifting the pawl 8 pressed from the same. The spiral spring 53 now pulls the flange bushing 11 with the cams 12, 15 and 16 attached to it in the direction of arrow F until a tooth flank of the ratchet wheel 10 strikes against the pawl tooth 54.When the pawl 9 expires from the pulley 49, the pawl springs 55 pull and 56 the pair of pawls and 9 back into the starting position shown in FIG. The pawl 9 emerges from the ratchet wheel 10 again, and the spiral spring S3 pulls the ratchet wheel 10 until the next tooth rests on the ratchet 8 Line is printed. The indexing mechanism can be opened again via the gear wheel 57 and by means of the gear wheel 58 of the flange bushing 11. There are two cam disks on the tie rod 47

59 and 60 are arranged pivotably about the bearing points 61 and 62, the cam disks 59 and 60 being connected to one another by the two rivet pins 63 and 64 and the tab 65. If the curves 15 and 16 are in a position outside the area of action of the roller 17, the shift rod 28 guided in the angle 66 is moved by one shift position in the direction D, so the cam plate is created by the inclined intermediate plate 33

60 is pivoted about the bearing point 62 by a certain angle, this pivoting movement also being transmitted to the cam disk 59 by means of the tab 65. The shift lever 69, which is pivotably mounted on the axle 68 in the bearing bracket 67, is moved by the cam 60 against the spring force of the spring 70 with its roller 71 into the position shown in FIG. 2 pivoted position. The roller 71 is now in the area of action of the pawl 9, while the shift lever 72 remains in its pivoted-away state. If the shift rod 28 is moved by one shift position further in the direction D , the cam disks 59 and 60 are moved into the positions shown in FIG. 2 is pivoted, the roller 71 and the switching lever 72 with the roller 73 being in the range of action of the switching pawl 9 against the spring force of the spring 74. If the switching rod 28 is moved by one switching position against the direction of rotation D , the roller 73 first pivots and, in the case of a second switching, the roller 71 swings against the direction of rotation D out of the range of action of the switching pawl 9. In this way it is possible to bring about automatic transport of the curves 12, 15 and 16 in one, two or three lines. If a one, two or three-line print is to be carried out without automatic transport, the pull rod 47 is locked with its notch 75 in the bearing bracket 48, so that the roller 49 out of the action area of the pawl 9 and the cams 59 and 60 out of the The range of action of the shift levers 69 and 72 step out.

1 sheet of drawings

Claims (4)

Patent claims: , 1, rotary duplicator ζιήη zeilen- iind section-wise imprints of printing forms attached to a: printing drum, the lines of which are aligned parallel to the axis, with several control cams being provided, which can be displaced parallel to the printing drum axis and can be adjusted in the circumferential direction by an indexing mechanism, which; that, to collect. of the pressure elements with the help'-vori ^: <'Ab't'asthebeln and lever linkage control, and in the. Orbit of the indexing mechanism adjustable switching rollers for actuation of the indexing mechanism ■ are provided, thereby geke ri η ζ eich η et that for pivoting the switching rollers (71,73) via a lever linkage (29 to 36) rotatable cam disks (59, 60) are provided are and that the lever linkage (29 to 36) can be moved like a handlebar by rotating a cranked adjusting rod ao (28). 2. Rotary duplicator according to claim 1, characterized in that the cams (59, 60) are connected to one another via a bracket (65), so that the control of the second Cam (59) is inevitably carried out by the first cam (60). 3. Rotary duplicator according to claims 1 and 2, characterized in that both the control cams (12, 15 and 16) for cooperation with the pressure elements (5,27) as also the cams (59, 60) for shifting one or more switching rollers: n (71, 73) in the area of the stepping mechanism in the area of action of the lever linkage (29 to 33) are and can be actuated by this. 4. Rotary duplicator according to claims 1 to 3, characterized in that for A second adjustment rod prevents the single or multi-cell transport of the step-by-step mechanism (47) is provided, either the switching rollers through the second adjusting rod (47) (71, 73) directly or by shifting the pivot points of the cam disks (59, 60) the area of the pawl (9) of the stepping mechanism can be brought.