DE1198637B - Epicyclic gears with single helical gear sets arranged in parallel - Google Patents

Description

Epicyclic gears with single helical teeth arranged in parallel Wheelsets The invention relates to an epicyclic gear with parallel simply helical gear sets, the tooth angles of which are directed in opposite directions and rearranged sun pinions connected by tooth clutches.

When arranging several parallel wheelsets, despite the always existing small bearing errors in the housing, in the bridge and in the wheels, as well as those in the latter In addition, unavoidable toothing errors occur, a uniform one in every moment of time Distribution of performance in the individual performance strands take place.

It is known to use the two non-supported toothing halves for this purpose of a divided wheel by means of a double tooth coupling.

The teeth of the tooth coupling are designed with such a bevel that the occurring axial forces are absorbed in the teeth of the double tooth clutch will.

This coupling connection absorbs the torque and the axial thrust forces and is, since it must be used as a double clutch, relatively extensive and also relatively expensive.

The object on which the invention is based is, in parallel arranged and helical gear sets the torque from the drive shaft into the first planetary gear set and from there to the next planetary gear set as well as the axial shear forces resulting from the toothing with machine elements, which together take up a minimum of space and are less costly to accommodate.

According to the invention, the sun pinions of the parallel gear sets are by means of a straight toothed coupling that absorbs the torque and a central one flexible bolt, which absorbs the axial thrust forces, connected to each other.

In this way, the even power distribution on the through both halves of the toothing of a double helical planetary gear Use of simple, cheap machine elements in the form of a straight tooth coupling and a simple cheap bending bolt achieved, and the arrangement of these elements allows a space-saving design.

In the case of small ratios, the tooth coupling is after another Feature of the invention as a sleeve arranged within the sun pinion with external coupling teeth educated.

In the case of large gear ratios, the tooth coupling is longer than in the Running gear of the sun pinion engaging outer sleeve formed and with lateral Stop rings that protrude into the annular grooves of the sun pinion are provided. Here only one operating direction of rotation is provided.

Preferred embodiments of the subject matter of the invention are shown in the drawing. It. shows Fig. 1 shows a planetary gear transmission with single helical gear sets arranged in parallel in a longitudinal section, FIG. 2 the detail of the connection of the two tooth halves of the sun pinion with tooth coupling and bending bolt in longitudinal section, F i g. 3 the detail of a similar connection with an inner sleeve which is toothed on the outside, FIG . 4 shows a modified embodiment according to FIG. 1, Fig. 5 and 6 the detail of a similar connection as an outer sleeve which is internally toothed. The epicyclic gearing consists according to FIG. 1 essentially from the radially divided housing 6, on the housing wall of which the single helical outer gears 3, 3 ' for two sets of wheels are elastically resilient and laterally symmetrical.

In the common planetary gear carrier 4, which forms a unit with the output shaft 8 , the single helical planetary gears 2, 2 'of the two gear sets are mounted on bolts 5 between the three existing webs 14. With this arrangement, the greatest possible width of the toothing can be selected, the tooth bending and the bending of the bolts 5 being kept small. The bending parabola is therefore symmetrical so that the force application of the gear teeth can take place laterally symmetrically.

The sun pinions 1, l ' are arranged without bearings between the planet gears 2, 2'. The bevels of the individual wheel sets 1, 2, 3 and 1 ', 2', 3 ' are the same, but designed once as a toothing rising to the left and a toothing rising to the right.

The sun pinions 1, 1 ' are connected to one another by a coupling sleeve 9 located in their interior via a straight-toothed tooth coupling 11, 11' which transmits the torque.

A central, flexible bolt 10 between the radial webs of the pinion 1 ,: V absorbs the opposing and divergent axial pressure forces that originate from the toothing. The pinion 1 ' is also connected in an articulated manner via a straight-toothed tooth coupling 12 to the drive shaft designed as a sleeve 7-.

In order to maintain the side symmetry, the clutch - sveiiahiiüiig li, lr ** is, if possible, centered in each pinion 1- with a small gear ratio. 11 to be arranged. Two such exemplary embodiments are shown in FIGS. 2 and 3 shown. In Fig. 3-- is further- instead of the central bending bolt 10 a thin-walled # spacer sleeve 13 between the coupling teeth 11, 11 ' and also m- fede-M-de connecting bolts 13' small cross-section - between the pinions 1, V, which together the absorb opposing and divergent axial thrust forces.

The F i g. 4 - shows -a according F i g. 1 and 2 modified execution examples . el "where the coupling teeth 11 'of the first planetary set and the coupling teeth 12 of the drive shaft 7 lie radially one below the other.

In the case of large gear ratios and therefore relatively small pinions, according to F i, g. 5 and 46, preferably an external coupling sleeve 9 , which can engage with its internal coupling teeth in the elongated inclined running teeth of the sun pinion 1, 1 ' . The resilient connecting link in the form of the bending bolt 10 is basically required when the direction of rotation changes. If there is only one operating direction of rotation, the bolt 10 can be omitted. Instead, stop rings 13 are provided which protrude into the annular grooves of the sun pinion. In the vast majority of cases, however, a bolt 10 is to be preferred, since one-sided axial impacts must be expected in the case of pitch errors in the running gear.

Claims (2)

Claims: 1. Epicyclic gears with single helical gear sets arranged in parallel, the inclined teeth of which are directed in opposite directions, and non-bearing sun pinions connected via toothed clutches, characterized in that the sun pinions (1, 1!) Of the parallel wheel sets have a straight toothed toothed clutch (9 ) and a central flexible bolt (10), which absorbs the axial thrust forces, are connected to one another. 2. Epicyclic gearing according to claim 1 with small gear ratios, characterized in that the toothed coupling is designed as a sleeve (9) with external coupling teeth (11, ll) arranged within the sun pinion (1, l '). 3, epicyclic gear transmission according to claim 1 with high gear ratios, characterized in that the toothed coupling (9) is designed as an outer sleeve engaging in the elongated inclined running teeth of the sun pinion (1, 1!) And with lateral stop rings (13, 13 ') which in Ring grooves of the sun pinion protrude, is provided. Documents considered: German Patent No. 814,981; French Patent No. 1037 137; USA. Pat. No. 1399 549th