DE10002026B4 - Helical gear with a floating bearing - Google Patents

Abstract

helical Gear (intermediate gear 22) with a floating bearing with two rows of cylindrical rolling elements, at both each row a cage (7) to the leadership the associated Has rolling elements as well as means for fixing the position of the two cages (7) relative to each other are provided in a preassembled storage condition, the two cages (7) by one of the others Bearing components independent Detachable connection (8) for the production of a pre-assembled storage condition immediately with each other, wherein the releasable connection (8) positive fit is formed, wherein the releasable Connection (8) at a radial bearing degrees of freedom for a limited Buckling angle and / or rotational movement (9, 10) of the cages (7) relative to each other in terms of their cage main axes (11-11), wherein the major geometric axis (12-12) of the releasable connection (8) for the relative movements of the two complementary connecting parts (13, 14) for solving or Closing the connection (8) parallel to the cylinder axes (15-15) the rolling elements (needles 5), wherein at least one of the two complementary connecting parts ...

Description

The Invention relates according to the one-part claim 1 a helical Gear with a floating bearing.

The US 3,388,952 already shows a rolling bearing, which has in accordance with the invention, two rows of cylindrical rolling elements. Each row has a cage for guiding the associated rolling elements. There are also provided means for fixing the position of the two cages relative to each other in a preassembled state of storage. In this case, the two cages are brought into contact with each other by means of an axial connection to the detachable connection, which is independent of the other bearing components. These axial projections of the two cages are used to protect sealing rings against sharp edges of the cages. According to this document, a loose sliding connection of the two cages is sufficient for many purposes, but also a secure connection by gluing or overlapping the two cages is mentioned as a possibility, which excludes the loose sliding connection.

Out A. G. Russ "Rolling bearing technology Part 2 "Contact & Studies, Vol. 248, p.166, Fig. 5.22; expert publishing house 1988; 7044 Ehningen; ISBN 3-8169-0320-7 is also a rolling bearing with two cages known. These two cages are in the preassembled state in a bearing with Borden outer race used. Because the cages in this arrangement can perform relative movements to each other, resulting Difficulties especially in such applications - eg. In the storage of helical teeth Gears - where jamming the needles causing forces occur and thus a Relative mobility desirable let be. On the other hand, in the assembly of two individual sprockets for the production of the ready-to-install state of a without Formed means for fixing the position of the cages roller bearing assembly one of the sprockets be forgotten what the failure of the rolling bearing and thereby the Failure, for example, a whole motor vehicle transmission leads. The Lack of a sprocket after final assembly is not without Further to recognize, since lateral start limiting the view on the sprockets or to block the remaining one sprocket in general. Also in usual Time limited carried out Funktionsprüflauf with less stress can not detect the mounting error.

Furthermore, the non-prior publication shows DE 198 60 688 A1 a loose wheel of a transmission, which has two rows of cylindrical rolling elements. Each row has a cage for guiding the associated rolling elements. Furthermore, means are provided for fixing the position of the two cages relative to one another in a preassembled storage state. The two cages can be brought directly into contact with one another by means of a connection which can be detached independently of the other bearing components in order to produce a preassembled bearing state. Disclosed in this document is the use of the rolling bearing assembly to simplify the assembly and to ensure different speeds of individual rows of the rolling bearing assembly. A geometric main axis of the releasable connection for the relative movements of the two complementary connection parts for releasing or closing the connection is parallel to the cylinder axes of the rolling elements. In this case, the two complementary connecting parts of the detachable connection to a latch member, which is deflectable in a direction opposite to the main axis of the releasable connection of the cage relative to its cage spring-back. This detent member engages a complementary detent member of the other complementary connection member when the connection is closed.

The The object underlying the invention is to install friendly helical gear to create with a floating bearing, in which a jamming and a Failure are safely excluded.

The explained Task is according to the invention solved with the features of claim 1 in an advantageous manner.

at the rolling bearing assembly According to the invention, the two cages form a mounting unit, the an outer race can be dispensed with, so that not least a significant cheapening of the rolling bearing assembly achieved. Also required when using an outer race Pressing the bearing and a related mounting device are got out of business.

at the rolling bearing assembly according to the invention could the detachable Connection of the cages For example, as a relative movements permitting frictional clamping connection be educated.

Of the Invention is based on the finding that in a helical gearing one on the teeth axial force acting in the direction of the bearing axis of the gear wheel is created, which is proportional to the drive torque transmitted by the gear is. Such an axial force is not for a straight toothing available.

The axial force causes a tilting moment, which is directed to a tilting of the gear. This causes, in contrast to a straight line toothing the radial support forces on the shaft are not evenly distributed, but rather voltage peaks occur in axially outer regions of the gear. In the case of two separate cages, this means that a cage is pressed downwards in its overhead outer area and a cage is pressed upwards in its underlying outer area.

A such unfavorable Alignment of the cages can be avoided according to the invention be by the cages be clipped together to form a structural unit.

Of Further, the aforementioned effect does not occur in each of the above embodiments a loose wheel on. To enter the effect must rather a Axial force on the teeth Act.

necessary Condition for the occurrence of said axial force is the presence of a helical toothing. This finding is the subject of the invention.

Of Further must to the occurrence of the effect during the rolling movement of the rolling bearing assembly an axial force act. For a "conventional" idler gear according to the state However, the technique only affects the axial force in switched mode Condition, ie in bridged by a synchronizer rolling bearing assembly. The present invention has therefore recognized that the use of the roller bearing assembly is particularly advantageous for the radial bearing one in a torque transmission relative to a Bearing axle (bearing pin) rotatable gear.

The helical Gear with a floating bearing can in particular Wälznadellagerungen of helical teeth Gears - like that the direction of rotation reversing intermediate gear of a gear stage for the reverse gear of a motor-vehicle change-speed gearbox - find application. In such a usual Manner designed as a floating bearing known rolling bearing assembly tilting moments occur, which is a jamming needle rollers and torsional moments at the needle cages caused by the relative mobility of the invention needle cages degraded or completely avoided.

at the rolling bearing assembly according to the invention could the positive connection of the two complementary connecting parts in relation on its geometric main axis so transversely or perpendicular to the Cylinder axes of the rolling elements formed be that the two cages with their respective associated connection part during assembly or disassembly translational relative movements to execute each other under parallel alignment of their cage main axes.

According to the invention can with both cages their respective associated Connecting part axial relative movements to each other under coaxial Alignment of their cage main axes to the main axis of the rolling bearing assembly To run. This has the advantage that the detachable Connection can be formed quasi as a plug-in coupling.

at the rolling bearing assembly According to the invention, conventional means - eg. in bayonet form - for mutual detachable Locking the complementary Be provided connecting parts.

there is a detent engagement at the connecting parts to their mutual Fixation in the closed position used.

at the rolling bearing assembly has become the embodiment of the releasable Connection for the cages as a clip connection according to claim 5, in particular for assembly as appropriate.

A further advantageous embodiment of the roller bearing assembly According to the invention provides an adhesive bond according to claim 6.

Both cages can be formed identical.

The Invention is described below with reference to a in the drawing schematically illustrated embodiment described in more detail. In the drawing mean

1 a section of a change-speed gearbox of a motor vehicle at the location of an intermediate gear which is mounted by a rolling bearing assembly according to the prior art in a housing part and a gear stage to form the translation and the sense of rotation of the reverse gear belongs, and

2 a rolling bearing assembly according to the invention, which instead of the known rolling bearing assembly for supporting the intermediate gear according to 1 can be provided.

A bearing bolt 23 is at its one bolt end by a trained as a blind hole bearing bore 24a a housing part 24 a gear housing of a gear change transmission and at its other end of the bolt by a bearing plate 25 with associated fastening screw 26 fixed in each case fixed relative to the transmission housing fi. On the bearing bolt 23 is an intermediate gear 22 a gear stage for forming the reverse gear by means of a conventional rolling bearing assembly rotatably mounted, which two string three and 4 of Wälznadeln 5 each with a cage 6 having. The axial mobility of both cages 6 is in one direction of the bearing axis 29-29 through a contact surface 27 of the housing part 24 and in the opposite direction by a thrust washer 28 limited, the latter concentric on the bearing pin 23 and axially between the intermediate gear 22 and the end shield 25 is arranged. The axial mobility of the cages 6 in each case on the other cage 6 pointing direction of the bearing axis 29-29 is limited by the fact that the two cages 6 are arranged with little axial play, but essentially immediately adjacent to each other. The cages 6 are through their rolling pins 5 guided and thereby both relative to each other and relative to the other bearing components 22 . 23 . 27 and 28 loosely arranged.

In the rolling bearing according to the invention, the two rows three and 4 of Wälznadeln 5 each with a cage according to the invention 7 provided, these two cages 7 for producing a preassembled state of storage, which in 2 is represented by a detachable connection 8th both directly with each other and independently of all other bearing components can be brought into connection. The two complementary connecting parts 13 and 14 the detachable connection 8th are designed in the manner of a plug-in coupling whose main axis 12-12 central as well as parallel to the cylinder axes 15-15 the rolling pins 5 is and in the final installation state of the rolling bearing assembly with the bearing axis 29-29 coincides. The connecting parts 13 . 14 - when loosening or closing the connection 8th relative to each other and coaxial with the major axis 12-12 be pressed - are as to the main axis 12-12 concentric coupling rings 16 and 17 trained, whose in the closed state of the connection 8th directly adjacent annular cross-sections due to their different effective diameter radially to the main axis 12-12 offset from each other. The coupling ring lying radially outwards with its ring cross section 16 is at the one front end 18 of the respective cage 7 formed and on its inner circumference with a to the main axis 12-12 concentric circumferential trained annular groove 20 Mistake. The with its ring cross-section radially inner other coupling ring 17 is at the other front end 19 of the respective cage 7 formed and on its outer circumference with a to the main axis 12-12 Concentric circumferentially formed ring cams 21 provided, which in the annular groove 20 positively engages. The detachable connection 8th is designed with additional degrees of freedom such that the two cages 7 with their respective associated cage main axis 11-11 which in the closed unloaded condition of the connection 8th with the main axis 12-12 coincides, relative to each other kink angle movements 9 and / or rotational movements 10 can execute.

The closed state of the connection 8th abutting cross sections of the complementary connecting parts 13 . 14 are elastically formed such that at least the one connecting part 13 respectively. 14 in the transverse or perpendicular to the main axis 12-12 lying directions relative to its cage 7 is formed spring-back, so that the connection 8th acts as a clip connection.

Every cage 7 is with the two connecting parts 13 . 14 at his front ends 18 . 19 formed in one piece.

Both cages 7 the Wälzageranordnung are identical, since both complementary connecting parts 13 . 14 the detachable connection 8th on the two front sides 18 . 19 every single cage 7 are arranged distributed under mutual radial displacement of their immediately adjacent to a cross section of the respective other cage cross-sections.

Claims (11)

Helical gear (intermediate gear 22 ) with a non-locating bearing with two rows of cylindrical rolling elements, in which each row has a cage ( 7 ) for guiding the associated rolling bodies as well as means for fixing the position of the two cages ( 7 ) are provided relative to each other in a preassembled storage condition, wherein the two cages ( 7 ) by an independent of the other bearing components releasable connection ( 8th ) are directly connected to each other for the production of a preassembled state of storage, wherein the detachable connection ( 8th ) is formed positively, wherein the detachable connection ( 8th ) at a radial bearing degrees of freedom for a limited kink angle and / or rotational movement ( 9 . 10 ) of the cages ( 7 ) relative to each other with respect to their cage major axes ( 11-11 ), wherein the geometric main axis ( 12-12 ) of the detachable connection ( 8th ) for the relative movements of the two complementary connecting parts ( 13 . 14 ) for releasing or closing the connection ( 8th ) parallel to the cylinder axes ( 15-15 ) of the rolling elements (needles 5 ), wherein at least one of the two complementary connecting parts ( 13 . 14 ) of the detachable connection ( 8th ) At least one latch member (coupling ring 16 respectively. 17 ), which in both the geometric main axis ( 12-12 ) of the detachable connection ( 8th ) transverse or perpendicular directions with respect to its cage ( 7 ) is resiliently deflectable as well as with a complementary detent member (coupling ring 17 respectively. 16 ) of the other complementary connection part ( 14 . 13 ) is engaged when the connection ( 8th ) closed is. Helical gear with a floating bearing according to claim 1, characterized gekennzeich net, that the gear stage forms the reverse gear, wherein the bearing axis as a bearing pin ( 23 ) is formed, which is fixedly fixed relative to a transmission housing. Helical gear with a movable bearing according to one of the preceding claims, characterized in that at least one of the two complementary connecting parts ( 13 . 14 ) of the detachable connection ( 8th ) at least one participating in the formation of positive engagement positive engagement member (coupling ring 16 . 17 ), which is additionally designed as a resiliently deflectable detent member (clip connection). helical Gear with a floating bearing according to claim 1, characterized that the detachable Compound is formed as an adhesive bond, wherein the heat resistance of their adhesive upon reaching an operating value of the storage temperature goes to zero. Helical gear with a floating bearing according to one of the preceding claims, characterized in that the complementary connecting parts ( 13 . 14 ) each a coupling ring ( 16 . 17 ) and the coupling ring ( 16 ) of the one connecting part ( 13 ) with a cage main axis ( 11-11 ) concentric and circumferentially formed annular groove ( 20 ) and the other coupling ring ( 17 ) with a cage main axis ( 11-11 ) concentric and circumferentially formed ring cams ( 21 ) is provided. Helical gear with a floating bearing according to claim 5, characterized in that the annular groove ( 20 ) on the inner circumference of the associated coupling ring ( 16 ) is trained. Helical gear with a floating bearing according to claim 5, characterized in that the ring cam ( 21 ) on the outer circumference of the associated coupling ring ( 17 ) is trained. helical Gear with a movable bearing according to claim 5, characterized in that that the annular groove formed on the outer circumference of the associated coupling ring is. helical Gear with a movable bearing according to claim 5, characterized in that that the ring cam formed on the inner circumference of the associated coupling ring is. Helical gear with a floating bearing according to one of the claims 5 to 9, characterized in that the complementary connecting parts ( 13 . 14 ) with its associated coupling ring ( 16 . 17 ) are integrally formed. Helical gear with a movable bearing according to one of the claims 5 to 10, characterized in that as material for the cages ( 7 ) A polyamide is provided.