DE19614864A1 - Device for holding motor shaft of printing press - Google Patents

Abstract

A device for holding motor shaft (1) of a printing press has a pivoted yoke (4) placed on it which has a recess (6) for the shaft that touches the shaft in at least two places. The raising and lowering of the yoke is by a pneumatic or hydraulic cylinder or a solenoid with a return spring(11). The pivot point (5) of the yoke is a self-centring slot (7). The recess is trapezoidal. To amplify the holding force, two mirror-symmetric yokes are used in conjunction with a bent lever.

Description

The invention relates to a device for Holding a drive motor for a printing press in the Standstill.

A turning of the currentless drive motor without additional Holding device is possible because spring forces in the printing press take effect and the motor turn indefinite amount forwards or backwards. Especially these are spring forces in printing machines with few Printing units effective because unlike printing presses with a large number of printing units no compensation for the Spring forces takes place.

Such devices are known as Single disc brakes from the prior art, for example from the company Binder Magnete GmbH (drive technology 1993/1994, Electromagnetically actuated brakes and Couplings, pages 55 to 59), known and meet the Task, a drive motor and one driven by it Brake machine. The construction is solved so that a Electromagnetically actuated friction surface on the Motor shaft attached disc is pressed and thus a Braking effect is exerted on the motor shaft.

Modern engine controls offer the advantage of keeping the engine in the use regenerative operation as a brake so that the driven machine without the support of a mechanical Brake comes to a standstill in a controlled manner. Thus comes the Above single-disc brake only to the task  Hold the drive motor against rotation when it is at a standstill. The known and used from the prior art Devices have the disadvantage that they are for the The task of simply holding the motor shaft very expensive are.

The object of the invention is such To implement the device more cost-effectively.

According to the invention the task is characterized by Features of claim 1 solved.

The principle of the device according to the invention is that on a wave, for example in extension to a Pulley, a pressure is exerted by means of a yoke. The Yoke is rotatably supported on one side and on the other Side turned on or off by means of an actuator on the shaft. The effective contact area is determined, for example, by a Trapezoidal recess formed in the yoke, with at least two points on the circumference of the wave and the A contact is made in the recess in the yoke.

According to various parameters that are determined by the Diameter of the shaft, material thickness and geometry of the Yokes, coefficient of friction between shaft and yoke, etc. are determined, the forces can be determined to Holding the motor shaft against that in the printing press effective spring forces are necessary. The recess on the yoke, which can be designed, for example, as a trapezoid, causes an appropriate opening angle Power boost.

An advantageous embodiment provides two yokes to be arranged mirror-symmetrically against each other, whereby only the Pivotal point that is the same for both, for example on  Motor flange must be fixed. A contractor can then take effect between the two yokes.

A toggle lever can be used to increase the positioning force be used.

The invention is based on two exemplary embodiments explained in more detail.

Show it:

Fig. 1 is a front view of the holding device,

Fig. 2 is a plan view of the holding device and

Fig. 3 is a front view of two mirror-symmetrically arranged holding devices.

Fig. 1 and Fig. 2 show a motor shaft 1 , a pulley 2 located thereon, which by means of belts 3 transmits a torque of a motor, not shown, to a drive wheel of a printing machine, also not shown. Above the pulley 2 there is a yoke 4 , which is mounted in a fulcrum 5 and has a trapezoidal recess 6 on the pulley 2 . To center the trapezoidal recess 6 on the pulley 2 , the fulcrum 5 of the yoke 4 is designed as an elongated hole 7 , which is attached to a bolt 9 attached to the motor flange 8 and held on the bolt 9 by means of a locking ring 10 . The trapezoidal recess 6 is turned on and off against the pulley 2 by means of a spring 11 , which is supported on a further motor flange 12 and a point of application 13 on the holding device 4, and a counterforce 14 applied by means of pneumatically, electromagnetically, hydraulically or the like .

In Fig. 3, two yokes 4 with corresponding trapezoidal recesses 6 are arranged mirror-symmetrically around a pulley 2 . The yokes 4 are switched off by means of a spring 15 , which is effective between two lugs 16 . The two stops 19 ensure symmetrical parking. The employment takes place, for example, by a pneumatic cylinder 17 which acts on both sides at the points of attack 18 on the yokes 4 against the spring 15 . A dash-and-dot toggle lever 20 advantageously provides a force boost when the yokes 4 are turned on . The positioning force is then, as shown by the arrows 21 , effective between the pivot point 5 and the joint 22 of the toggle lever 20 .

Reference list

1 motor shaft
2 pulley
3 straps
4 yokes
5 pivot point
6 recess
7 slot
8 motor flange
9 bolts
10 circlip
11 spring
12 motor flange
13 point of attack
14 drag
15 spring
16 nose
17 pneumatic cylinders
18 point of attack
19 stop
20 toggle levers
21 arrow
22 joint

Claims (6)

1. A device for holding a motor shaft ( 1 ) of a drive motor of a printing press, characterized in that a yoke ( 4 ) mounted on and at a pivot point ( 5 ) is designed such that a recess ( 6 ) the motor shaft ( 1 ) touches tangentially in at least two places. 2. Device according to claim 1, characterized in that the turning on and off of the yoke ( 4 ) by means of pneumatic cylinders, hydraulic cylinders, magnetic coils ( 17 ) or the like with return spring ( 11 , 15 ) is realized. 3. Apparatus according to claim 1, characterized in that the pivot point ( 5 ) for self-centering is designed as an elongated hole ( 7 ). 4. The device according to claim 1, characterized in that the recess ( 6 ) is trapezoidal. 5. The device according to claim 1, characterized in that two mirror-symmetrically arranged yokes ( 4 ) are provided for strengthening the holding force. 6. The device according to claim 6, characterized in that the force acting on the two yokes is realized by means of a toggle lever ( 20 ).