DE918640C - Rotary multiplier with motor drive - Google Patents

Description

Rotary duplicator with motor drive The invention relates to rotary duplicators, in which a machine drive is provided and in which by feed of the sheet of paper to be printed, the printing process on two printing elements using the feeler lever is controlled.

Rotary duplicators are known in which by the feed of the sheet of paper to be printed on by means of a feeler lever, the printing process is carried out on two Printing elements, the printing cylinder and the impression roller, is controlled so that only when such a sheet is fed these two elements are suitable for the printing process touch, but in the absence of such a sheet in one that prevents printing Distance remain.

A ticket printer is also known in which two feeler levers for a printing process on two elements controlled by the ticket to be printed by first locking the one pressure element through the one feeler lever is released and the printing process is triggered by the second feeler lever, which is designed as a feeler pin is initiated. This mechanical control is only for thick papers, like ticket box, suitable, but not for thin printing paper.

Both types of device have the disadvantage that with them the control is transmitted by means of complicated, frictionless lever systems that are absolutely necessary require special care, as the stops and control levers are dusty and dirty Difficult to move or not at all due to thin printing paper. Furthermore, it results that the just mentioned disturbance after triggering the printing process enter can; and that for the reasons given, the attacks and control lever do not return to their starting positions during the printing process to return. Consequently, after the printed matter is ejected, printing becomes does not end automatically, or the two pressure elements remain in contact. This again has the contamination of printing elements or the printing form or the uselessness the latter result.

Another disadvantage of the known device is that the to be printed Sheets of paper cannot be created and printed at any given point in time, rather, the sheet feeder always depends on the position of the one rotating with the printing drum Printing form depends on what the unconditional use of an automatic feeder makes necessary. It has been shown, however, that it often occurs in certain jobs it became necessary to individually print the sheets of paper at indefinite intervals to put on and bring to the print. The known devices are unsuitable for this.

By the rotary duplicator according to the invention, all these deficiencies are eliminated by the advance of the sheet of paper to be printed electrically or electromagnetically controlled coupling elements of the pressure cylinder the stationary printing cylinder with the continuously rotating drive for a short time couple. The sheet to be printed can be advanced at any point in time take place.

The schematic drawing shows an exemplary embodiment for execution of the method according to the invention.

The two printing elements of a rotary duplicator are a printing cylinder i with a printing forme and a counter pressure roller 2. 3 and q. are conveyor rollers for the printing paper a, of which z. B. in hectographic Spiegelschriftv the roller 3 represents the so-called dampening roller. As soon as the drive motor 5 is switched on a coupling ring rotatably mounted on the printing cylinder shaft 6 rotates 7. All other machine elements, such as impression cylinder i, impression roller 2, conveyor rollers 3 and 4 etc., stay in the rest position. A stud bolt 8 is located on the pressure cylinder i a coupling hook 9 pivotably mounted. The coupling hook can move, until, on the one hand, its hook ro engages in an incision i i in the coupling ring 7 and on the other hand until it strikes a stop pin 12. One on the printing cylinder i attached compression spring 13 pulls the hook ro on the coupling ring 7 or in its Incision i i. On a bolt 14 of the machine frame is a double-armed Lever 15 pivotably arranged. He is by a tension spring 16 against a stop 17 drawn. The lever 15 is moved against the action of the tension spring 16 by means of a pin 18 through an armature with fork lever i9 of an electromagnet 20. 28 is the fulcrum of fork lever i9 on magnet body 2o. On a peg 21 of the machine frame a locking lever «2: 2 is pivotably arranged. 23 is an electrical rotary switch, the lever arm 24 of which by means of an intermediate lever 25 is articulated to the locking lever 22 at 26, 27. To a fixed one Pivot point 29 swings a feeler lever 3o, the upper part 31 of which in a groove of the Roller q. engages and the lower part of which is provided with a contact 32. Of the The center of gravity of the lever is placed so that its contact 32 is always on the mating contact 33 sets. A breaker contact 34 (push-button contact for quiescent current).

Next, a current bridge 35 is switched on in the line, whose both contacts are pressed together or closed by a lever 36. Of the Lever 3,6 rotates around a fixed bolt 37 of the machine frame, it stands under the action of a tension spring 38. The spring 38 pulls a roller 39 of the lever 36 against a cam disk 4.o of the pressure cylinder i.

Is the top sheet a from the stack of paper .41 up to the point of contact of rollers 3 and 4 advanced, the sheet of paper moves the feeler lever 3o by hitting the nose 31 in the direction of arrow A. This makes contact 32 and Counter contact 33 separated and thus the circuit interrupted. This has the consequence that the magnet 2o releases the lever r9. As a result, the tension spring 16 can push the lever 15 Pull against stop 17. So that the right arm of the lever 15 is in the direction of the arrow B moved out of the orbit of the coupling hook 9. The coupling hook moves under the train of the spring 13 with its hook part ro on the rotating coupling ring 7 and jumps into the incision i i as soon as it wants to pass under it. In order to the circumferential coupling ring is coupled to the cylinder by the coupling hook, and the ring turns the cylinder with it.

Through this process, the pressure roller and rollers 3 and .4 set in rotation and possibly other parts in motion. As soon as the Rotate rollers 3 and 4, they convey the printing paper a to printing point 1, 2, there it is printed and ejected into a collecting device. But as well as the printing paper has passed through the rollers 3, 4, the nose 31 swings back again, and the contact 32, 3-3 is closed. This also closes the circuit again, and der: Magnet 20 pulls the lever r9 up, whereby the lever 15 in the orbit of the _N7itnehmerhebelarmes 9a is moved. Then there is the printing point on the printing paper 1, 2 happens, then shortly thereafter the lever arm 9a runs against the lever 15, and thereby the hook ro is pulled out of the incision i i of the coupling ring 7, the The coupling ring continues to run empty, and the pressure cylinder and all other machine parts stand still again in the basic position.

In the workflow explained, the current breaks 35 have not been taken into account because they are not absolutely necessary. The only purpose of the current bridge is to ensure that the circuit is closed during printing regardless of contact 32, 33. The feeler lever must swing easily, and if thin paper is to be printed on, the feeler lever must be particularly easy to move. Immediate and reliable contact at 32, 33 could be called into question after passing through the paper. Reliable closing of the circuit is ensured by the current bridge 35. In the rest position, the contacts of the current bridge 35 are open, so that the second circuit is interrupted. Is produced by feeding paper against rollers 3 and q. If the sensing lever 3o moves and the first circuit is interrupted at 32, 33, the magnet releases the coupling hook 9 via the lever 15 for switching on, and the machine is put into operation. Shortly thereafter, the cam, 4o on the roller 39 lifts the lever 36 and thus closes the second circuit. Although the first circuit is still interrupted at contact 32, 33, the closed second circuit activates the magnet and thereby moves the lever 15 into the orbit of the lever arm 9a to disengage the hook. This ensures that the pressure cylinder is uncoupled after one revolution.

After completing the duplication work, the drive will also be turned off, namely at the switch 23. With the arm 2.1 of the switch 23 is over the intermediate lever 25 is pivoted in the direction of arrow C of the lever 22 so that it is under the lever 15 and locks it so that the clutch does not even then can switch on when the magnet is no longer due to the interruption of the circuit Electricity has more.

So that the printing cylinder or the machine is also independent of the contact 32, 33 (without paper being advanced) can be set in motion, is built into the line of the hand contact 34, on which you can press the Push button can interrupt the circuit.

Above the case is described in which the locking of the Pressure cylinder takes place when the electromagnet 2o is energized. But it is Of course, a design is also possible in which the locking is activated when the power is off Magnet is effected. In this case only the various contacts that are now set to open, to set up to close.

Claims (3)

PATENT CLAIMS: i. Rotary multiplier, in which by feed of the sheet of paper to be printed on by means of a feeler lever, the printing process is carried out on two Printing elements is controlled and a machine drive is provided, marked by electrically or electromagnetically controlled coupling elements of the pressure cylinder, which, -controlled by the advance of the sheet of paper to be printed, the stationary Briefly couple the printing cylinder to the continuously rotating drive. 2. Rotary duplicator according to claim i, characterized in that the printing paper opens a contact (32, 33) , interrupts a main circuit and thus initiates the coupling of the printing cylinder with the rotating drive device. 3. Rotary duplicator according to claims i and 2, characterized in that the rotating pressure cylinder during the respective printing process regardless of the sensor contact (32, 33) a contact (35) of an auxiliary circuit closes the circuit and thus the Initiates uncoupling of the drive connection. q .. rotary duplicator according to claim i, characterized in that even without feeding a sheet of paper, the printing cylinder by breaking the circuit by means of a hand contact, e.g. B. Push button switch (3q.), Is set in rotation. 5. Rotary duplicator according to claim i, characterized characterized in that the main switch (23) of the main circuit when it is switched off blocks a part preventing the clutch of the pressure cylinder when it is switched on but releases. 6. Rotary duplicator according to claim i and 5, characterized in that that the main switch (23) when switching off before interrupting the circuit the Blocking of the coupling of the pressure cylinder preventing part causes and when switching on this part only releases after the circuit is closed. 7. Rotary duplicator for performing the method according to claim i, characterized characterized in that on the shaft (6) of the pressure cylinder (i) one of a drive point (5) from driven coupling piece, expediently coupling ring (7), loosely revolves and electrically controlled coupling means on the pressure cylinder, e.g. B. an electric locked coupling hook (9) is provided, which is suitable when loosening his Locking the coupling between the rotating coupling ring and the pressure cylinder to undertake. B. rotary duplicator according to claim 7, characterized in that that the lock consists of an electromagnetically influenced lever (i5), which acts on an arm (9a) of the coupling means for the rest state and one other part of the same (io) prevents the coupling with the rotating coupling ring (7) to undertake, e.g. B. in a recess (i i) to allow the same to enter. 9. Rotary duplicator according to claim 7 and 8, characterized in that the Locking position of the lever (IS) by the attracted armature of an electromagnet is effected, but the bolt position when the circuit is interrupted released and the coupling means for the coupling with the rotating coupling ring is released. ok Rotary duplicator according to claim 7 to 9, characterized in that to interrupt the circuit of the electromagnet (20) a movable feeler lever (30) provided with a contact (32) is provided which is pivoted or swiveled by a sheet of paper (a) conveyed to the printing point. until it is held pivoted after it has passed, thereby opening the circuit and keeps it open. i i. Rotary multiplier according to Claims 7 to 10, characterized in that that to secure the closing of the circuit of the electromagnet (2o) and thus the locking of the printing cylinder after a single printing process in an auxiliary circuit of the electromagnet (2o) a current bridge (35) is switched on by the rotating Printing cylinder z. B. by means of a cam (4o) and contact lever (36) at the end of the respective printing process is actuated and by briefly closing the Auxiliary circuit attracting the armature of the electromagnet (2o) and thus the Locking the pressure cylinder causes. 12. Rotary duplicator according to claim 7 to i i, characterized in that to drive the printing cylinder without Inserting a sheet of paper (a) a special switch, e.g. B. Push button switch (34), for interrupting the circuit of the electromagnet (2o) and thus for the unlocking of the coupling means is provided. 13. Rotary duplicator according to claims 7 to 12, characterized in that for securing the locking of the printing cylinder with the electromagnet (2o) de-energized after completion of the duplication work a safety lever (22) is provided, which in a pivotable position the lever (15) holds in the locked position. 14. Rotary duplicator according to claim 7 to io and 13, characterized in that a switch (23) for the entire circuit through a linkage (24, 25) is connected to the safety lever in such a way that at Disconnection of the entire circuit, the safety lever (22) locks the lever (15). Cited pamphlets: French patents nos. 816163,912443, 922 8.34, 864 971 Swedish Patent No. 87 550.