EP0736376A2 - Support for a drive motor - Google Patents

Abstract

The device has a motor frame (4) for fixing a drive motor (1) which is connected to the main gearing (2) by a belt drive. The main gearing (2) is attached firmly to the frame. The motor frame (4) is connected for articulated movement to the machine frame (3). The drive motor (1) is attached displaceable on the motor frame in the direction of the belt drive. Adjustment means (9) on the motor frame allows the latter to swivel opposite the main gearing about an axis parallel to all the drive axes. The motor frame is connected to the machine frame supporting the main gearing by two articulated joints (7) whose rotary axes are parallel to those of the drive axle.

Description

The improvement relates to a device for mounting and aligning a drive motor for a printing press. A device of this type is known from JP-A 58-101062.

To drive a printing press, it is necessary to connect a drive train to a drive motor. A continuous drive train is often arranged in the form of a drive shaft running parallel to the printing press. The connection between the drive motor and the drive train can be made, for example, via a belt drive. Great importance is attached to aligning the drive motor with the drive train so that there are exact conditions and favorable vibration conditions.

A main drive for a web-fed rotary printing press is known from JP-A 58-101062. In this arrangement, the drive motor and the main gear of the printing press are arranged next to one another on a common base frame so that they can be aligned with one another. The base frame is permanently installed opposite the printing press. The various drive trains for the individual printing units, the paper feeder, the folder and other work units are derived from the main transmission.

A disadvantage of the arrangement is that the common base frame of this drive unit must be adjusted exactly with respect to the printing press. This means that increased effort is required when building a foundation and during assembly.

The object of the improvement should therefore be seen in creating a device for mounting a drive motor so that it can be easily aligned with the printing press and good vibration shielding from the printing press is achieved.

The solution to this problem results from the characterizing part of claim 1. It is particularly advantageous that the effort for creating a foundation on the drive motor is minimal. Nevertheless, the alignment with the printing press will always remain optimal and the transmission of vibrations is reduced as much as possible. The details of the optimal configuration result from the subclaims. In particular, the adjustment of the belt tension and the support of the drive motor in relation to the main transmission are advantageous for minimizing vibrations.

Fig. 1

eine Draufsicht auf die Anordnung eines Antriebsmotors an einer Druckmaschine

und

Fig. 2

eine Seitenansicht des Antriebsmotors und seiner Aufhängung an einer Druckmaschine.

The device is exemplified below with reference to drawings.
Show here:

Fig. 1

a plan view of the arrangement of a drive motor on a printing press

and

Fig. 2

a side view of the drive motor and its suspension on a printing press.

In Fig. 1 is a plan view of a drive motor 1 for a printing press and an associated main gear 2 in their basic assignment to each other and to the printing press. The main transmission 2 is flanged directly onto a machine frame 3 of the printing press. The drive motor 1 sits on a separate motor frame 4. In two alignment rails 5, which are fastened on the motor frame 4, the drive motor 1 can be adjusted in relation to the machine frame 3 or the main transmission 2 and a drive shaft 10 connected to it.

The drive connection between the drive motor 1 and the main transmission 2 is made by a belt drive by means of a set of V-belts 6.

2 shows the view of the drive unit in the direction of the drive axes or the drive shaft 10. The drive motor 1 lies on the motor frame 4 at approximately the same height as the main transmission 2. The motor frame 4 is connected to the machine frame 3 via a joint 7. In the joint 7, the motor frame 4 can be pivoted relative to the machine frame 3 on bolts 11 about a horizontal axis transversely to the printing press. The motor frame 4 is supported on its outer, i.e. at the end loaded by the drive motor 1, on adjusting screws 9. The adjusting screws 9 are used for the exact alignment of the motor frame 4 with respect to the machine frame 3, depending on the existing subsurface conditions. Therefore, no high-quality foundation is required for this device. Furthermore, a cover of the V-belt drive is provided and a support rail 8 is arranged between drive motor 1 and main gear 2.

For mounting and aligning the drive:
The drive motor 1 is first placed on the motor frame 4. This is connected to the machine frame 3 via the joints 7 and roughly adjusted. Then the drive motor 1 is exactly aligned with the main gear 2 in the alignment rails 5 and the motor frame 4 is also brought into its position in relation to the machine frame 3. At the same time, the pretension is applied to the V-belt drive. Finally, in order to reduce the effects of moments and vibrations, the motor frame 4 is additionally supported on the main transmission 2 with the aid of the support rail 8. This ensures that the conditions with regard to the pretension of the V-belt drive always remain constant during the entire operating period.

The arrangement of the drive motor 1 to the main transmission 2 is chosen in relation to the joints 7 so that the resulting forces from the belt drive lead to a minimal moment load for the machine frame 3. The resultant from the belt tension can be guided through the joints 7 in an optimal manner. Then the connection of the drive with respect to the machine frame 3 is torque-free.

Due to the pivotable attachment of the motor frame 4 to the machine frame 3, it is no longer necessary to create an exactly aligned foundation for the drive motor 1. On the one hand, the alignment of the motor frame 4 on the machine frame 3 is defined, on the other hand, it is possible in a simple manner by means of the adjusting screws 9 on the surface. The surface only has to have a certain stability and vibration resistance in the usual framework. This type of attachment not only makes it easier to set up due to the low cost of preparing the foundation. It is also essential that the machine frame 3 of additional forces e.g. Bend is relieved. At the machine frame 3, only forces from the attachment of the main gear 2 are now introduced. The forces from the load of the attachment of the drive motor 1 are only introduced to a small extent into the machine frame 3 and can at the same time be derived in the shortest way in supports 12 of the machine foundation. The forces from the belt pretension and their dynamic effects are easily absorbed with the support rail 8. This optimizes both the accuracy of the alignment of the printing press and the prevention of the introduction of vibrations from the drive into the machine frame 3.

The design of the motor frame 4 contributes to further improvements. Due to the relatively large distance between the drive motor 1 and the machine frame 3, one-sided heating of the printing press which is unacceptable for the load and the functional accuracy can be avoided with certainty.

In addition, the motor frame 4 can advantageously be preassembled together with the drive motor 1 as a unit independently of the printing press. The unit then only needs to be provided for the installation of the entire printing press and the drive. Considerable time is saved for installation and assembly.

Reference list

1

Drive motor

2nd

Main gearbox

3rd

Machine frame

4th

Engine frame

5

Alignment rail

6

V-belts

7

joint

8th

Support rail

9

Adjusting screw

10th

drive shaft

11

bolt

12th

Support

Claims (4)

Device for mounting and aligning a drive of a printing press with a motor frame for fastening a drive motor, a main gear and a belt drive for connecting the drive motor and main gear,
characterized by
that the main gear (2) is fixed to the frame of the printing press, that the motor frame (4) is connected in an articulated manner to the machine frame (3), that the drive motor (1) is mounted on the motor frame (4) so as to be displaceable in the direction of the belt drive, and that on Motor frame (4) adjusting means (9) are provided, by means of which the motor frame (4) can be pivoted relative to the main transmission (2) about an axis parallel to all drive axes. Device according to claim 1,
characterized by
that the motor frame (4) is connected by means of two joints (7) to the machine frame (3) carrying the main transmission (2) and that the axis of rotation of the joints (7) are arranged parallel to the axes of rotation of the drive axis of the printing press. Device according to claim 1 or 2,
characterized by
that the joints (7) are arranged so that the line of action of the forces of the belt drive between the drive motor (3) and the main gear (2) starting from the drive motor (1) intersects the axis of the joints (7) or extends above it. Device according to claims 1 to 3,
characterized by
that between the motor frame (4) and the main gear (2) or between the drive motor (1) and the main gear (2), a support element (8) for securing the center distance between the drive motor (1) and the main gear (2) is provided.

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