DE102008005809A1 - Gear arrangement for use in axle gear of motor vehicle, has ring-shaped circumferential groove incorporated in bore and/or outer circumference of press-fit, and brought in fluidic connection with fluid source via fluid line - Google Patents

Abstract

The arrangement (1) has a toothed wheel (3) i.e. bevel wheel, arranged on a shaft (2). The toothed wheel is in engagement with another toothed wheel (4) i.e. crown wheel. The shaft is mounted in a housing (6) by a bearing arrangement (5), which is provided with a press-fit in a receiving bore (7) of the housing during intended use of the arrangement (1). A ring-shaped circumferential groove (9) is incorporated in the bore and/or in an outer circumference (8) of the press-fit, and is brought in fluidic connection with a pressurized fluid source via a fluid line (10). An independent claim is also included for a method for assembling a gear arrangement.

Description

The The invention relates to a transmission arrangement with a first, on a shaft arranged gear, which is connected to a second gear is in tooth engagement, wherein the shaft by means of a bearing assembly in a housing is stored and wherein the bearing assembly under normal use the transmission assembly with interference fit in a receiving bore of the housing is arranged. Furthermore, the invention relates to a method for mounting such a gear assembly.

gear assemblies The type mentioned are, for example, in axle drives of motor vehicles used, as a bevel gear. This meshes Bevel pinion with a ring gear. For a power transfer with a long laying time To create, it is necessary to have the best possible Zahnreingriffspunkt to adjust the two meshing gears. This is the case for this a shaft arranged bevel pinion by adjusting the axial Position of the shaft in the desired Position spent. The shaft is by means of a bearing assembly arranged in a housing bore, where it sits mostly with a press fit in the hole. To adjustment The exact axial position spacers (Pass discs) are used. These are selected from a staggering and gearbox arrangement installed. Im completely assembled state results in dependence of the thickness of the shim a desired tooth engagement point.

adversely is going to choose the shim with the right thickness costly is. Therefore, the assembly and adjustment of the gear arrangement designed sometimes difficult and therefore expensive.

Of the The invention is therefore based on the object, a transmission arrangement of the type mentioned above in such a way that with her a easier adjustment of the optimal meshing point between the gears possible is. Furthermore, a corresponding method is provided with which the tooth engagement point will be quick and convenient. such as can be set exactly.

The solution this object by the invention is according to the device in that in the receiving bore and / or in the outer circumference the seat of the bearing assembly in the receiving bore at least a ring-shaped circumferential groove is incorporated, wherein the groove fluidly over a Fluid line with a source of pressurized fluid can be brought into connection.

The gears are preferably components of a bevel gear.

The Bearing arrangement is preferably as a double-row tapered roller bearing educated. In this case, it may be provided that the tapered roller bearings arranged in O arrangement. Furthermore, it has been proven, if mounted the tapered roller bearing together with the shaft as preloaded assembly are. This can then during assembly in the receiving bore of the housing be pressed.

The Tapered roller bearings can a joint in one piece trained outer ring to have.

Especially Preferably, means are provided to the bearing assembly in a defined axial position relative to the housing set. These funds preferably comprise a screw-nut arrangement. The screw the screw-nut arrangement is according to a particularly preferred embodiment the invention by an axially extending portion of the outer ring the bearing assembly formed. This can then be threaded in the case interact.

By the outer thread arranged on the inner ring, with a corresponding internal thread in the housing in operative connection stands, is achieved in an advantageous manner that an axial securing of the outer ring in the case due to the interference fit that exists during operation of the bearing assembly, is ensured. Accordingly, a separate securing of the thread by a screwed from the outside Mother not required. Incidentally, the thread also serves to absorb axial forces and transfer.

The Bearing arrangement advantageously has a between inner ring and outer ring integrated seal on.

The Fluid line is preferably formed as a bore in the housing. It comes especially a radial orientation of the hole in question.

• a) Einpressen der die Welle tragende Lageranordnung in die Aufnahmebohrung des Gehäuses;
• b) Beaufschlagung einer in der Aufnahmebohrung und/oder in den Außenumfang des Sitzes der Lageranordnung in der Aufnahmebohrung eingearbeitete ringförmig umlaufende Nut über eine Fluidleitung mit einem Druckfluid;
• c) Während der Beaufschlagung der Nut mit Druckfluid: axiales Verschieben der Lageranordnung in der Aufnahmebohrung in eine Position, in der ein optimaler Zahneingriff zwischen den Zahnrädern vorliegt;
• d) Nach dem Positionieren gemäß Schritt c): Abbau des Drucks des Fluids.

The method for assembling the above gear arrangement provides the following method steps:

• a) pressing the shaft bearing bearing assembly into the receiving bore of the housing;
• b) acting on a in the receiving bore and / or in the outer periphery of the seat of the bearing assembly in the receiving bore incorporated annular circumferential groove via a fluid line with a pressurized fluid;
• c) During the pressurized fluid groove: axially displacing the bearing assembly in the receiving bore to a position where there is optimum meshing between the gears;
• d) After positioning according to step c): reduction of the pressure of the fluid.

Prefers becomes after step d) an axial securing of the bearing assembly made in the receiving bore.

With the proposed device or with the method, it is possible in very comfortable way and waiving spacers (shims) To set the meshing between the two gears accurately and easily.

Also the adjustment of the bias in the bearing assembly is independent of the usual Setting over Spacers.

All in all result in fewer parts of the body, which has cost advantages. The arrangement can continue to be shorter building and thus easier to be realized. Finally, can a lower bearing friction can be achieved.

In the drawing is an embodiment of Invention shown. Show it:

1 schematically the radial section through a gear arrangement with a bevel gear of a motor vehicle axle and

2 the radial section through the bearing arrangement of the bevel pinion bearing housing.

In the figures - sometimes only very schematically indicated - a gear arrangement 1 to see that includes a bevel gear, which is required for torque transmission in a Kraftfahrzeugachsgetriebe. The bevel gear consists of a first gear 3 , the bevel pinion, and a second gear 4 , the ring gear, which are in toothed engagement when used as intended.

The bevel pinion 3 is firmly at the end of a wave 2 arranged by means of a bearing assembly 5 is stored. The bearing arrangement 5 consists of two tapered roller bearings positioned in O-arrangement 5 ' and 5 '' , The outer ring 11 the two tapered roller bearings 5 ' . 5 '' is formed in one piece here. Its outer circumference 8th represents the seat of the bearing assembly 5 in a receiving hole 7 in a housing 6 represents.

In order to ensure a solid bearing of the bevel pinion, the bearing assembly sits in operation 5 with interference fit in the receiving bore 7 , The tapered roller bearings 5 ' . 5 '' be before the entry of contaminants through an integrated seal 13 protected.

The composite of the two tapered roller bearings 5 ' . 5 '' and the wave 2 can in a known manner by screwing and securing a (not shown) nut on the in 1 illustrated left end of the shaft 2 next to the inner ring of the tapered roller bearing 5 ' be joined to a prestressed unit, ie pre-assembled, which then into the receiving bore 7 is pressed.

To set the optimal meshing point of the two gears 3 . 4 To facilitate, the following is provided: In the receiving bore 7 is an annular circumferential groove 9 incorporated. This groove is fluidic via a fluid line 10 in the form of a hole in the housing 6 can be brought into communication with a (not shown) pressure fluid source.

Specifically, will be to the hole 10 in the housing a pressure oil hose connected via the in the groove 9 Oil is injected under high pressure. This will be between the outer circumference 8th of the outer ring 11 the bearing arrangement 5 and the receiving bore 7 built an oil pressure cushion, which temporarily suspends the press assembly, with which the bearing assembly 5 in the receiving hole 7 sitting. Accordingly, the axial fixation of the bearing assembly 5 canceled or at least reduced so that it is possible in a simple manner, the bearing assembly 5 and thus also the bevel pinion 3 relative to the housing 6 to move.

After the desired exact axial positioning and adjustment of the tooth engagement point of the pressure of the oil is degraded, which has the consequence that the interference fit between the bearing assembly 5 and the receiving bore 7 sets again and the bevel pinion so that is fixed axially relative to the housing again.

An additional axial securing is provided by means 12 achieved, which support or accomplish an axial determination. This is preferably a screw-nut arrangement. How out 2 can be seen, in this case, an axially extending (left) portion of the bearing outer ring 11 with an external thread 14 Mistake. This can with a nut acting as a nut portion in the housing 6 interact to the bevel pinion 3 in the optimal axial position "to screw".

1

transmission assembly

2

wave

3

first Gear (pinion)

4

second Gear (ring gear)

5

bearing arrangement

5 '

Tapered roller bearings

5 ''

Tapered roller bearings

6

casing

7

location hole

8th

outer periphery the seat of the bearing assembly

9

annular encircling groove

10

fluid line

11

outer ring

12

medium for axial fixing

13

poetry

14

external thread

Claims (13)

Gear arrangement ( 1 ) with a first, on a wave ( 2 ) arranged gear ( 3 ), with a second gear ( 4 ) is in tooth engagement, wherein the shaft ( 2 ) by means of a bearing arrangement ( 5 ) in a housing ( 6 ) and wherein the bearing assembly ( 5 ) when the gearbox is used as intended ( 1 ) with a press fit in a receiving bore ( 7 ) of the housing ( 6 ) is arranged, characterized in that in the receiving bore ( 7 ) and / or in the outer circumference ( 8th ) of the seat of the bearing assembly ( 5 ) in the receiving bore ( 7 ) at least one annular circumferential groove ( 9 ), wherein the groove ( 9 ) fluidly via a fluid line ( 10 ) is connectable to a source of pressurized fluid. Gear arrangement according to claim 1, characterized in that the gears ( 3 . 4 ) Are components of a bevel gear. Gear arrangement according to claim 1 or 2, characterized in that the bearing arrangement ( 5 ) as a double-row tapered roller bearing ( 5 ' . 5 '' ) is trained. Gear arrangement according to claim 3, characterized in that the tapered roller bearings ( 5 ' . 5 '' ) are arranged in O arrangement. Gear arrangement according to claim 3 or 4, characterized in that the tapered roller bearings ( 5 ' . 5 '' ) with wave ( 2 ) are mounted as a prestressed unit. Gear arrangement according to one of claims 3 to 5, characterized in that the tapered roller bearings ( 5 ' . 5 '' ) a common integrally formed outer ring ( 11 ) to have. Gear arrangement according to one of claims 1 to 6, characterized in that means ( 12 ) are present to the bearing assembly ( 5 ) in a defined axial position relative to the housing ( 6 ). Gear arrangement according to claim 7, characterized in that the means ( 12 ) comprise a screw-nut arrangement. Transmission arrangement according to claim 8, characterized in that the screw of the screw-nut arrangement by an axially extending portion of the outer ring ( 11 ) of the bearing assembly ( 5 ) is formed. Gear arrangement according to one of claims 1 to 9, characterized in that the bearing arrangement ( 5 ) a seal integrated between inner ring and outer ring ( 13 ) having. Gear arrangement according to one of claims 1 to 10, characterized in that the fluid line ( 10 ) as a bore in the housing ( 6 ) is trained. Method for mounting a gear arrangement ( 1 ), the first, on a wave ( 2 ) arranged gear ( 3 ) and a second gear ( 4 ), wherein the two gears ( 3 . 4 ) when the gearbox is used as intended ( 1 ) are in meshing engagement, the shaft ( 2 ) by means of a bearing arrangement ( 5 ) in a housing ( 6 ) and wherein the bearing assembly ( 5 ) when the gearbox is used as intended ( 1 ) with a press fit in a receiving bore ( 7 ) of the housing ( 6 ), characterized by the method steps: a) pressing in the shaft ( 2 ) supporting bearing arrangement ( 5 ) in the receiving bore ( 7 ) of the housing ( 6 ); b) admission of a in the receiving bore ( 7 ) and / or in the outer circumference ( 8th ) of the seat of the bearing assembly ( 5 ) in the receiving bore ( 7 ) incorporated annular circumferential groove ( 9 ) via a fluid line ( 10 ) with a pressurized fluid; c) During the application of the groove ( 9 ) with pressurized fluid: axial displacement of the bearing assembly ( 5 ) in the receiving bore ( 7 ) in a position in which an optimal meshing between the gears ( 3 . 4 ) is present; d) After positioning according to step c): reduction of the pressure of the fluid. A method according to claim 12, characterized in that following step d) according to claim 12, an axial securing of the bearing assembly ( 5 ) in the receiving bore ( 7 ) is made.