DE1094705B - Drive of three-knife cutting machines for paper, cardboard or the like. - Google Patents

Description

GERMAN

The present invention relates to a drive for three-knife cutting machines with devices for inserting the stack of items to be cut, for pressing, cutting and ejecting.

In three-knife high-speed cutting machines with stack infeed, it has been customary to date the movement of the Pressing, cutting and ejecting device to be controlled and triggered mechanically. The mechanical Operation in particular of the cutting and ejecting device in three-knife cutting machines is associated with a high structural effort. This great structural effort can be achieved according to the invention thereby avoid that on the one hand the device for introducing the stack of items to be cut and on the other hand the devices for pressing, cutting and ejecting with independent, Electromagnetically controllable motors are provided, one of which is constantly running during the work process Motor is connected to a magnetic coupling. This design has the advantage not only of great simplicity, but also the advantage of a liberal spatial arrangement of the various switching elements and includes new combination options in the switching operations.

A can be advantageous for an independent movement of the pressing, cutting and ejecting device Circuit with a manual switch for switching on a first electromagnetic switch for the electromagnetic clutch and a circuit with a second manual switch for switching on the electromagnetic clutch be provided. This switching device can consist of two for the purpose of two-hand engagement there are spatially separate hand controls. In such a way, z. B. for the establishment at Three-knife trimmers operate similarly to single-knife trimmers as a two-hand indentation is called. In the circuit for the electric motor of the feeding device of the stack, a Hand switch arranged and provided on this circuit, a bypass circuit, which a foot switch and a toggle switch for the automatic sequence of a working cycle of the insertion device having. The foot control leaves your hand free for other work, such as B. that Loading the stacks. Furthermore, there is the advantageous possibility of using the same foot actuating element both the stacking clamp and the foot switch for triggering the insertion movement to use.

Electromagnetic actuation is also already known for single-knife cutting machines. Even though These machines have been known for decades, but electromagnetic actuation is still available Three-knife trimmers not transferred because

Drive of three-knife cutting machines for paper, cardboard or the like.

Applicant:

Atlas -Werke Aktiengesellschaft,
Bremen, Stephanikirchenweide 1-19

Georhard Bode, Bremen,
has been named as the inventor

ao there are much more complicated processes here than with the single-knife cutting machine and a simpler one Replacement of the mechanical arrangements developed and proven over decades with their The confusing interlocking was not possible without something that seemed possible. Because of their completely different The way of working has also completely separated the development of the single-knife and three-knife machines carried out, so that for this reason alone the transfer of measures from one to the other Field could generally not be considered by the skilled person. This is how it is with three-knife trimmers with stack introduction, the stacks are already inserted in a clamp outside the cutting station, which then moves under the cutting station. This first phase alone is from the single-knife high-speed cutter completely different. The subsequent work cycle of the three-knife trimmer differs also very much different from that of the single-knife high-speed cutter. After pressing the pile has held, two side knives are working, after which a front knife is used to raise and lower them. During this time, two ejectors bypass the stack in such a way that the ejectors are out of the area the respective working knife must be kept out. At the same time the ramp up takes place the press device and the stack is ejected from the ejectors.

In the previously known three-knife cutting machines, the coordination of the individual Movement phases on top of each other mainly achieved mechanically. Through the electrical control the work processes according to the invention also result for three-knife cutting machines specific advantage that certain individual movements

009 678/6

can easily be done independently of each other.

The invention is illustrated using an exemplary embodiment.

Fig. 1 shows a three-knife machine in a diagrammatic representation,

Fig. 2 is a circuit diagram of this machine.

The three-knife machine shown is in the usual way with devices for inserting the stacks, for pressing the inserted stack, for trimming by the three knives and a device for Eject the trimmed stacks. The propulsion of these various devices takes place by two electric motors, namely the drive of the insertion device by a motor 1 and the drive the other devices by a motor 2. While the motor 1 only to move the insertion device is switched on, the motor 2 runs continuously and transmits its movement via a Coupling 3. The insertion motor 1 is connected to the mains voltage via a contactor 4 with contact 5 placed. The line contactor 4 is excited via a circuit 6, 7. In this circuit is a push button 8, which is to be operated during normal operation in order to trigger the insertion movement. After actuation the push button 8 is inserted through the contactor 4, a holding contact 9, the closure of a Holding circuit 10 prepared. In this auxiliary circuit there is one actuated by a cam 11 Limit switch 12, which is interrupted in the initial and rest position of the paper insertion device is. In order for the holding contact 9 to take effect, the button 8 must remain closed until it starts up of the motor 1, the cam 11, the switch 12 closes.

After the switch 8 has been actuated, a single working cycle of the insertion device takes place. As soon this in its end position, d. H. their initial or starting position has returned, becomes the holding circuit 10 interrupted by the limit switch 12 and thus brought the motor 1 to a standstill.

In order to achieve continuous operation of the insertion device, button 8 is on Circuit 13 is provided with a manual switch 14, which can be designed, for example, as a toggle switch can. In contrast to button 8, this hand switch does not automatically return to its own after actuation Open position back, but keeps the circuit 13 closed, so that the limit switch 12 is ineffective and the contactor 4 remains switched on all the time.

In the circuit 13, a foot switch 15 is provided in series with the hand switch 14 so that the Actuation can be done either by hand or by foot. An interruption in the process by opening the circuit 13 by means of the hand switch 14 or the foot switch 15 is only effective, when the limit switch 12 is in the open position or the insertion device is in its starting position is.

If the stacking clamp 32 has brought the material to be cut into the cutting position by motor 1, then a circuit 18 for the contactor 19 is closed by a switch 17 connected to the saddle, which has a switching contact 20, which is in the circuit 21 of the magnetic coupling 3, and a second Switching contact 22, which is in the holding circuit 23 of the contactor 19. The switch 17, which depends on is actuated by the saddle advance, returns to the open position after the saddle is reversed return. In the holding circuit 23 there is another switch 24 which opens the holding circuit when the The machine or the knives have reached their top dead center. This switch is operated by a Cam 25, which is connected to the drive. The switch 24 is designed so that its contacts slightly overlap with those of switch 17. As a result, the two switches work together that if the switch 17 interrupts the circuit 18 to the contactor 19 during the working cycle, the

ίο Switch 24 over the circuit 23 the power supply to contactor 19 takes over. Only in the upper dead position of the drive is the power supply through opening of the switch 24 interrupted.

The magnetic coupling 3 is fed from a direct current source via a circuit 25 in which the Contact 20 of contactor 19 is located. In the circuit 25 there are two switches 26 and 27, which are connected to the control switches 17 and 24 are mechanically connected and only have the purpose of connecting the circuit 25 interrupt, in the event that the contact 20 of the contactor 19 should stick once. Independent of the control switches 17 and 24 is still in circuit 28 with a to operate the contactor 19 Button 29 provided with which the contactor 19 can be operated to the clutch 3 independently of to be able to switch on the insertion movement. In order for the magnetic coupling 3 to respond, lies in the circuit 25 parallel to the switches 26 and 27 another manually operated button 30, so that by simultaneously inserting the key 29 and 30 the knife movement without the insertion movement can be triggered.

Several safety switches 31 can be provided in the feed for the circuits to the contactor 19 for the safety of the operating personnel or to protect the machine against damage are provided. In particular, an emergency switch 33 can be used to immediately switch off the knife movement, Furthermore, safety switches can be installed to interrupt the knife drive when the cladding panels are open.

Claims (6)

Patent claims: 1. Drive of three-knife cutting machines for paper, cardboard or the like. With devices for Introduction for the stack of items to be cut, for pressing, cutting and ejecting, characterized in that that on the one hand the device for introducing the stack of items to be cut and on the other hand the devices for pressing, cutting and ejecting with independent, electromagnetic controllable motors (1, 2) are provided, of which the continuously running during the work process Motor (2) is connected to a magnetic coupling. 2. Apparatus according to claim 1, characterized in that for an independent movement the pressing, cutting and ejecting device a circuit (28) with a manual switch (29) for Switching on a first electromagnetic switch (20) for the electromagnetic clutch (3) and on Circuit (25) with a second manual switch (30) for switching on the electromagnetic clutch (3) is provided. 3. Apparatus according to claim 1 and 2, characterized in that the switching device (29, 30) for the independent triggering of the pressing, cutting and ejecting device from two for the purpose the two-hand indentation consists of spatially separate hand switches (29 and 30). 4. Apparatus according to claim 2 and 3, characterized in that in the circuit for the Electric motor of the feeding device of the stack a manual switch (8) is arranged and attached to this Circuit a bypass circuit (13) is provided, which has a foot switch (15) and a Has toggle switch (14) for the automatic sequence of a working cycle of the insertion device. 5. Apparatus according to claim 4, characterized in that that the foot switch (15) is arranged with a on the front of the cutting machine Foot lever (34) for the stacking clamp (32) is combined. 6. Apparatus according to claim 1 to 5, characterized in that one influenced by the cladding panels and in the circuit of the electric motor (2) Safety switch arranged for driving the pressing, cutting and ejecting device is provided in such a way that when the cladding panels are removed, the electrical Power is interrupted. Considered publications:
U.S. Patents Nos. 2,668,705, 2,649,153,
182 018. 1 sheet of drawings