DE1561079B1 - Shaft coupling for the individual parts of the two-part or multi-part main drive shaft of a rotary printing press with printing units arranged in series - Google Patents

Description

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The invention relates to a shaft coupling for gearwheels with internal teeth and the individual parts of the two or more parts interlock, as well as by moving the formed main drive shaft of a rotary pressure external toothed gear opposite the internal machine with printing units arranged in series, a twisting of the shaft that carries them toothed from the main drive shaft by means of a 5 each and thus one of the two externally toothed Worm gear are driven. Clutch gears causes relative to the other

It is a drive for multicolor sheet-fed rotary presses.

Printing machines with several arranged in series- The separate arrangement of the actuating device

th printing units known, in which the provided by the motor for the two with external teeth The driven main drive shaft is made up of several parts. Coupling gears are very complex. About that leads is and each printing unit by a separate addition can with the straight-toothed clutch epicyclic gears as well as a downstream wheel of the clutch inner part, a shaft elongation worm drive is driven. The individual parts are not corrected when heated in such a way that the main drive shaft, the worm wheel is not operated by clamping clutches a worm rigidly connected to each other. This type of coupling 15 (U.S. Patent 2429 067). can therefore be used because the long-term object of the invention is the worm drive

Gerem operation due to heating occurring Deh- for each printing unit in a simple manner directly tion of the main drive shaft parts of the circulating on the main drive shaft to be able to arrange the Is taken wheel-driven, but without a single shaft parts to each other Change the setting of the printing units to couple 20 so that an adjustment of the individual pressures occurs, works with each other by coupling play or shaft

The use of epicyclic gears for elongation cannot occur.

together with the respective worm drive of a The solution to this problem is that in

Printing unit means a lot of effort. Furthermore, in a manner known per se, the clutch is a tooth disadvantageous that the planetary gear is designed with a 25 clutch, the inner part of which by two certain backlash must be afflicted, whereby on a stump of the main drive shaft part especially in the case of multi-color sheet-fed rotary printing gears arranged next to one another with external machines Alignment or doubling difficulties entangling is formed and its outer part with can stand (German interpretation 1237140). internal gearing via these two coupling

In addition, there are drives for rotary pressure gears, and that also the coupling machines known, where on the pass-through inner part and the coupling outer part diagonally verden multipart main drive shaft the worm teeth are, with the two gears of the inner part The gear of each printing unit cannot be rotated directly on the stub shaft that carries it is ordered. The individual parts of the main drive are arranged opposite this and against each other, shaft are connected between the printing units, however, one of these clutch gears by means of a arranged claw clutches with one another force-locking adjusting device is displaceable in the axial direction. sig connected. Such claw couplings are The two-part design of the inner coupling

not free of play. When they are used, a partially helical tooth coupling is therefore made possible Printing machine hardly meets the high requirements of eliminating any backlash by a 40 such adjustment of the gears that the teeth (German patent specification 412159 and 1045 425). of the one inner coupling part against the one tooth

Furthermore, drives for printing machines are flank of the teeth of the clutch outer part and the with several "serially arranged teeth of the other inner clutch part against the Known printing units, in which each printing unit rests on opposite tooth flanks, by a separate drive motor via a 45 The incline of the toothing can be chosen in this way Worm drive is driven. The worm will that the> with expansion of the drive shaft part shafts can be caused by interposed single-tooth rotation of the worm wheel of a The printing units combine couplings to form a main drive shaft by rotating them accordingly will. of the main drive shaft part is balanced.

The single-tooth clutches, however, cannot be 5 ° The tooth clutch: effected according to the invention design completely free of play. Two things can therefore also be achieved during prolonged loading: Firstly, the backlash-free connection operating time and corresponding heating of the individual parts of the main drive shaft and two-worm shaft their elongation a little at least to compensate for the twisting caused by heating of the worm wheel. Both, "occurring change in length after prolonged operation the unavoidable clutch play and the resulting slight adjustment of the pressure elongation when heated, can take on proportions, work towards each other.

which lead to register errors (British patent specification The invention is hereinafter referred to by an

1049 442). · ■ example of operation explained on the basis of the drawing.

In a known shaft tooth coupling, it is represented.

Coupling inner part by two on one shaft 60 Fig. 1 a multicolor offset sheet rotary stump Side by side, externally toothed printing machine with a drive according to the Erfin gears formed, which with a she overgression and

Fenden internally toothed outer part cooperate. F i g. 2 a helical tooth coupling, such as

One of the two externally toothed clutches is in the multicolor offset sheet rotary printing gears to eliminate the backlash against the machine according to FIG. 1 is used, slightly rotatable above the other, for which purpose the multicolor offset sheet rotary printing press

other end of the shaft a helical gear machine according to Fig. 1 consists of the four printing with external teeth and a helical work 1, 2, 3 and 4. These four printing units are

Via a common main drive shaft 5 from the drive motor, not shown, with the interposition the pulley 6 driven. Each printing unit 1 to 4 has a separate worm drive 7 assigned, which consists of a screw mounted on the main drive shaft 8 and one on the lowermost shaft of the printing units 1 to 4 arranged worm gear 9 consists. The main drive shaft 5 is designed in two parts. The one with the pulley 6 fixedly connected main drive shaft part 5 'is formed by five radial bearings 10 and one axial bearing 11 led; it is connected to the second part 5 ″ of the main drive shaft via a helical toothed coupling 12 5 positively coupled. The second main drive shaft part 5 ″ is supported by four radial bearings 10 and guided by an axial bearing 11.

The tooth coupling 12 is shown in detail in FIG. On the stub shaft of the The main drive shaft part 5 'is the outer coupling part 15 by means of clamping screws 13 and feather key 14 attached. With the internal toothing 16 of the coupling outer part, the teeth of two come one behind the other arranged gears 17 and 18 of the clutch inner part 19 in engagement. Both coupling parts 15 and 19 are helical teeth.

The gear 17 of the inner coupling part 19 is fixed on the stub shaft by means of a feather key 20 of the main drive shaft part 5 ″ firmly attached. This gear 17 has one in the direction of the main drive shaft part 5 "extending hub 21, on which the gear 18 is arranged. The "attachment of this gear 18 is such that it is secured against rotation, however can be moved in the axial direction. Are the two facing faces the gears 17 and 18 together, so their teeth are aligned. At the end of the hub 21 is a thread 23 provided for an adjusting ring 24. This adjusting ring is connected to the downstream via a locking ring 25 Gear 18 of the inner clutch part 19 is positively connected. By means of a stud screw 26 the adjusting ring 24 can be fixed in its respective position relative to the first gear 17.

The mode of operation of the in F i g. 2 tooth coupling shown is the following: After assembling the Main drive shaft and attachment of the tooth coupling 12 is the downstream gear 18 by means of of the adjusting ring 24 pulled away from the first gear 17 of the inner clutch part so far in the axial direction, until the teeth of the first gear 17 against one and the teeth of the downstream gear 18 against the other tooth flank of the tooth gap of the toothing 16 of the clutch outer part 15. This eliminates any play in the clutch. The printing units 3 are then adjusted and 4.

Since the second main drive shaft part 5 ″ expands during prolonged operation, the worm wheel 9 of the printing unit 3 is adjusted slightly against the direction of rotation Expansion of the main drive shaft part 5 ″ causes a displacement of the inner clutch part relative to the outer clutch part and thus a slight rotation of the screw 8 of the printing unit 3. The rotation can be so great that the previously mentioned, undesired rotation of the worm wheel 9 of the printing unit 3 is canceled.

Claims (2)

Patent claims: 1. Shaft coupling for the individual parts of the two-part or multi-part main drive shaft a rotary printing machine with printing units arranged in series, which are driven from the main drive shaft by means of a worm gear are driven, characterized in that in per se known Way the coupling is designed as a tooth coupling, the inner part of which by two on one Butt of the main drive shaft part (5 ") with gears (17, 18) arranged next to one another External toothing is formed and the outer part (15) thereof with internal toothing two clutch gears (17, 18) engages, and that also the clutch inner and the clutch outer part are helical, with the two gears (17, 18) of the inner part on the stub shaft (5 ") carrying them non-rotatable are arranged opposite this and against each other, but one of these clutch gears (17, 18) is displaceable in the axial direction by means of an adjusting device (24, 25). 2. Shaft coupling according to claim 1, characterized in that the on the stump of the Main drive shaft part (5 ") non-slidably attached coupling gear (17) of the coupling inner part is provided on its side facing away from the end of the shaft with a hub (21) on which the other clutch gear (18) of the The inner part of the clutch is axially displaceable in such a way that the teeth of the two clutch gears (17, 18) are aligned when theirs facing end faces bear against one another, and that at the hub end of the coupling gear attached to the stub shaft (17) a thread (23) is provided for an adjusting ring (24) through which the hub (21) mounted clutch gear (18) is axially displaceable. 1 sheet of drawings