DE3638512A1 - METHOD AND DEVICE FOR ADJUSTING AND ADJUSTING TRANSMISSION ELEMENTS - Google Patents

Abstract

Process and device for setting gear elements in an axial direction, for example shafts (5), discs, wheels, tapered discs (71), which are arranged parallel to one another, for fine adjusting of production tolerances. For this, an adjustment system (2) is arranged in such a way that it is accessible from the outside as far as a cover for a ready-assembled gear system (7) and insures the axial adjustment. For this it is advantageous that the adjustment system (2) is formed between a support means (bearing 1) and a setting ring (3) supported on the housing (4) of for example a continuously variable transmission (7). In this way it is possible to avoid at least partial dismantling for fitting the shims.

Description

This invention relates to a method and a device device for adjusting or adjusting gear elements are spaced from each other, e.g. B. two parallel Waves or arranged on two parallel waves or with these integrally connected disks, conical disks, or wheels according to the preamble of claim 1.

It is often necessary to gear parallel to each other orderly gear elements such. B. wheels, pulleys or also waves that have to run exactly with respect to each other axial misalignment caused by manufacturing tolerances, to align. At least one of the two must be in alignment the components - gear elements - axially displaced and new be put. In a known manner, the transmission mon animals, measured, dismantled and with additional used Barrel or adjusting disks fully assembled. For this purpose it required barrel and shims, or off called equal washers, in different thicknesses, the adjustment is often made by several shims, which are put together in a block dimension. Furthermore it also happens that to achieve good quality This process of disassembly and assembly must be repeated.

This procedure is very cumbersome and overall assembly very time consuming.

It is therefore an object of the invention, the method for Adjust - adjust - improve the gear elements and especially the time spent assembling the Ge drive to reduce.  

This task is carried out with the characteristic features of Claim 1 fulfilled.

If one is mounted on one except for an end cover th gear unit accessible from the outside net, so without dismantling the gearbox after measuring the setting of the gear elements in question is successful conditions that must run in relation to each other without misalignment. The previously necessary disassembly and reassembly at least in Area of these gear elements can be omitted in this way, without the required accuracy in terms of running quality worsens.

In addition, it is possible to measure and adjust merge time, which saves another time nis is possible.

With claims 2 to 5, the invention is advantageous Wise designed.

The arrangement of the adjustment device in the area of a Holding means, for example a bearing, is therefore special Favorable because fixed and non-rotating parts for one stel tion of rotating parts can be moved axially.

For example, if a thread, primarily a fine thread, directly on the outer diameter of the outer ring from the bearing arranges, so a setting provided with an internal thread ring, which is supported on the housing, in a simple manner be brought.

The adjusting ring is turned on the housing in one turn arranges and from an end cover to the bottom of the recess held and the outer ring of the bearing for attaching the outside lengthened thread, there is an advantageous and a fold design for the storage of both the outer ring from Bearing as well as the adjusting ring in the housing.  

The arrangement of the rotation lock between two is also advantageous The setting ring and outer ring because there are no additional parts are needed. Further details of the invention are set forth in Hand of an embodiment and a drawing tert.

It shows:

Fig. 1 shows a section of a belt transmission in the area of the adjusting device.

The adjusting device 2 is arranged between a holding means, for example bearing 1 for the shaft 5 , and an adjusting ring 3 , which is mounted in a recess 41 from the gear housing 4 . The outer ring 11 of the bearing has an extension 12 and is held in a known manner, but without an axial stop, in a bore 42 of the gear housing 4 and the inner ring 15 of the bearing on a stub shaft 52 of the shaft. The bearing 1 is axially fixed and secured to the shaft via a shaft nut 51 , which pin on a thread which is screwed onto the shaft 5 - fuse 54 -.

Connected in one piece to the shaft 5 is a conical disk 71 , which can also be connected only axially with the shaft. The second conical disk 72 is arranged in rotation and axially displaceable on the shaft 5 . Between the two conical pulleys 71 , 72 and the conical pulleys ben 74 and 75 , a belt 73 runs , for example a V-belt, a chain or a multi-layer steel belt. For precise adjustment of the two pairs of conical pulleys 72 , 73 and 74 , 75 to one another, it is assumed that the two conical pulleys 74 , 75 are axially fixed by the assembly of the belt transmission 7 , one disc 75 being axially fixed and the other disc axially displaceable.

The bearing 1 is firmly connected and secured to the shaft 1 via the inner ring 15 via the shaft nut 51 . Via the adjusting device 2 , it is now possible to axially move the shaft 1 and thus the conical disk 71 by rotating the adjusting ring 3 , and to secure it after the precise adjustment via the collar 32 of the adjusting ring in the incision 14 , by mounting the end cover 6 , which presses on the adjusting ring 3 in the axial direction, the shaft 5 and thus the conical disk 71 are finally axially fixed.

• Reference number 1 holding means, for example bearings
  11 outer ring
  12 Extension on the outer ring
  13 threads
  14 anti-rotation lock (incision)
  15 inner ring
  2 adjustment device
  3 adjusting ring
  31 threads
  32 anti-rotation lock (collar)
  33 floor
  4 gearbox
  41 expansion
  42 bore
  5 wave
  51 shaft nut
  52 stub
  53 threaded pin
  54 Fuse
  6 end caps
  7 belt transmission
  71 cone pulley
  72 cone pulley
  73 Wraps
  74 cone pulley
  75 cone pulley

Claims (6)

1. A method for adjusting or adjusting the transmission elements, which are arranged at a distance from each other, for the same from axially acting manufacturing tolerances characterized in that the setting of a Ge gear element (shaft 5 , cone pulley 71 ) without dismantling the in principle fully assembled Transmission takes place via an adjustment device ( 2 ) accessible from the outside. 2. Device for adjusting gear elements according to claim 1, characterized in that the adjusting device ( 2 ) is arranged between a holding means (bearing 1 ) and the gear housing ( 4 ). 3. Device for adjusting gear elements according to claim 2, characterized in that the holding means is a bearing ( 1 ) and the adjusting device ( 2 ) from a on the outer ring ( 11 ) of the bearing ( 1 ) arranged thread ( 13 ) one in the gear housing ( 4 ) arranged adjusting ring ( 3 ) and one between the outer ring ( 11 ) and adjusting ring ( 3 ) arranged anti-rotation ( 14 , 32 ). 4. A device for adjusting gear elements according to claim 3, characterized in that the adjusting ring ( 3 ) is arranged in a recess ( 41 ) in the gear housing ( 4 ) and is supported with the bottom ( 33 ) on this and in the opposite direction from an end cover ( 6 ) is held, a fine thread in the bore of the adjusting ring ( 3 ) and cooperates with an external thread ( 13 ) on the outer ring ( 11 ) of the bearing ( 1 ) and that this thread ( 13 ) on an extension ( 12 ) of the Outer ring ( 11 ) is arranged. 5. Device for adjusting gear elements according to claim 4, characterized in that the anti-rotation device ( 32 ) is a collar on the adjusting ring ( 3 ) in the region of the bore, which is deformed at least once inwards and into a radially outwardly open recess ( 14 ) of the Outer ring ( 11 ) protrudes. 6. Device for adjusting gear elements according to claim 5, characterized in that the adjusting device ( 2 ) via a bearing ( 1 ) and a locking device known per se (shaft nut 51 ) on a shaft ( 5 ) and by this on conical disks ( 71 ) a stepless order to loop transmission ( 7 ), and thus a precise alignment for the belt ( 72 ) - chain, belt, V-belt - it is aimed.