JP2007326473A - Bearing device for wheel - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a single-row roller bearing type or first generation type bearing device for a wheel provide with a wheel mounting housing with a small maximum diameter, a sufficient mounting property of the wheel and sufficient strength suitable for being used, for example, as an acceleration unit for a driven wheel of a large size vehicle such as a truck and a bus. <P>SOLUTION: The bearing device for the wheel is provided with a rolling bearing 1; and the annular wheel mounting housing 6 having a bolt hole 13 for mounting the wheel on an end surface of one end in which an outer ring 3 of the rolling bearing 1 is press-fitted to an outer periphery and an end at the bolt hole 13 side is projected in an axial direction than the outer ring 3. The bolt hole 13 has such a depth that an inner end does not reach to an end surface of the outer ring 3. Further, the rolling bearing 1 is made to a double-row taper-roller bearing. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a wheel bearing device used as an axle unit for a driven wheel of a large vehicle such as a truck or a bus.

  Axle units for driven wheels of large vehicles such as trucks and buses use roller bearings in a single row (single row roller bearing type), units with double row roller bearings (first generation type), Bearing devices such as those in which double row roller bearings are unitized and an outer ring and a hub ring are integrated (second generation type) are used. Among these, when using a single-row roller bearing type or a first generation type bearing device, it is necessary to provide a hub ring for mounting a wheel or an alternative member on the outer periphery of the outer ring of the bearing portion. .

In an axle unit for a large vehicle, a hub wheel having an axle mounting flange on the outer periphery has a large maximum diameter. For this reason, it is difficult to form by forging. Therefore, an attempt has been made to fit a housing having no flange to the outer periphery of the outer ring of the bearing portion and attach the wheel to the housing. In that case, the housing must have sufficient strength to allow the wheel to be easily mounted and to withstand the load applied when the vehicle is running.
An object of the present invention is to provide a wheel mounting housing that is suitable for use as a driven wheel axle unit for large vehicles such as trucks and buses, has a small maximum diameter, good wheel mounting properties, and sufficient strength. To provide a single-row roller bearing type or first generation type wheel bearing device provided.

  The wheel bearing device according to the present invention has a rolling bearing and a wheel mounting bolt hole on one end face, and the outer ring of the rolling bearing is press-fitted into the inner periphery, and the end on the bolt hole side is more than the outer ring. An annular wheel mounting housing protruding in the axial direction is provided, wherein the bolt hole has a depth that does not reach the end face of the outer ring.

  According to the wheel bearing device of this configuration, since the wheel mounting bolt hole is provided on the end face of one end of the annular housing, the wheel can be mounted on the housing with only the bolt, and the mounting property of the wheel is good. Since the housing does not have a flange with a large diameter, the maximum diameter can be reduced, and molding by forging or the like is easy. Also, a wheel mounting bolt hole is provided at a location where the housing shape is protruded in the axial direction from the location where the outer ring of the rolling bearing is press-fitted into the inner periphery, and the inner end of the bolt hole reaches the end surface of the outer ring. Therefore, it is avoided that the thickness of the housing is partially reduced, and sufficient strength of the housing can be ensured.

  The rolling bearing is preferably a double row tapered roller bearing. Tapered roller bearings can receive a larger radial load than ball bearings of the same size, and thus are suitable for use in the wheel bearing device for an axle unit of a large vehicle.

Further, in the wheel bearing device of the present invention, the inner surface of the wheel mounting housing has a press-fitting surface portion into which the outer ring is press-fitted, and continues to the one end side through the step surface to the press-fitting surface portion than the press-fitting surface portion. Preferably, the outer ring is formed in a stepped cylindrical surface shape having a small-diameter inner protrusion, and the end surface of the outer ring is in contact with the step surface of the wheel mounting housing.
When the inner diameter surface of the housing is formed in a stepped cylindrical surface shape having a press-fitting surface portion and an inner protruding portion, the wheel mounting bolt holes can be arranged on the outer peripheral portion of the thick inner protruding portion, and the wheel mounting bolt The thickness around the hole can be prevented from being reduced. Further, the axial movement of the rolling bearing toward the bolt hole side can be restricted by bringing the end surface of the outer ring into contact with the stepped surface of the housing.

  The wheel bearing device according to the present invention has a rolling bearing and a wheel mounting bolt hole on one end face, and the outer ring of the rolling bearing is press-fitted into the inner periphery, and the end on the bolt hole side is more shaft than the outer ring. An annular wheel mounting housing that protrudes in the direction, wherein the bolt hole has a depth that the inner end does not reach the end face of the outer ring. It is possible to provide a single-row roller bearing type or first generation type wheel bearing device having a wheel mounting housing having a sufficient mounting strength and sufficient strength, and a driven wheel of a large vehicle such as a truck or a bus. Suitable for use as an axle unit.

  An embodiment of the present invention will be described with reference to FIG. This embodiment is an outer ring rotating type and is applied to a driven wheel axle unit such as a truck or a bus. In this specification, the side closer to the outer side in the vehicle width direction of the vehicle when attached to the vehicle is referred to as the outboard side, and the side closer to the center of the vehicle is referred to as the inboard side.

  The wheel bearing device includes a rolling bearing 1 and a housing 6 fitted to the outer periphery of the rolling bearing 1. The rolling bearing 1 includes a pair of inner rings 2 having raceway surfaces 2a on the outer peripheral surface, an outer ring 3 having double-row raceway surfaces 3a facing the raceway surfaces 2a of the pair of inner rings 2, and inner and outer rings. 2 and a double row rolling element 4 incorporated between two and three. In the case of this embodiment, the rolling element 4 is a tapered roller, and is configured as a tapered roller bearing. The double row tapered rollers which are the rolling elements 4 are arranged in a combination of the back surfaces and are held by the cage 5 for each row.

  The housing 6 is an annular member. The outer peripheral surface 11 is formed into a tapered surface that gradually increases in diameter toward the outboard side. Further, the inner peripheral surface 12 includes a press-fit surface portion 12a into which the outer ring 3 is press-fitted, and an inner projecting portion 12c which continues to the press-fit surface portion 12a through the step surface 12b to the outboard side and has a smaller diameter than the press-fit surface portion 12a. It is formed in the shape of a stepped cylindrical surface. Wheel mounting bolt holes 13 are provided at a plurality of locations in the circumferential direction on the end surface of the housing 6 on the outboard side. The depth A of the bolt hole 13 is smaller than the axial distance B of the inner protrusion 12c. In other words, the bolt hole 13 has a depth at which the inner end does not reach the end face on the inboard side of the outer ring 3.

  The rolling bearing 1 is assembled into the housing 6 by press-fitting the outer ring 3 into the inner peripheral surface press-fitting surface portion 12 a of the housing 6 from the inboard side. In the assembled state, the end surface on the outboard side of the outer ring 3 comes into contact with the inner peripheral surface step portion 12b of the housing 6, and the movement of the rolling bearing 1 to the outboard side is restricted. In addition, after the rolling bearing 1 is assembled, a retaining ring 7 is attached to the inner periphery of the housing 6 to restrict the movement of the rolling bearing 1 toward the inboard side.

  A wheel (not shown) is attached to the wheel bearing device assembled in this way by a bolt (not shown) that is screwed into the bolt hole 13 of the housing 6. Since the wheel can be mounted only with the bolt, the mounting property of the wheel is good. Since the bolt hole 13 is provided on the end face of the housing 6, the housing 6 is shaped so as not to have a flange, and the maximum diameter can be reduced. For this reason, it is easy to form the housing 6 by forging or the like.

The housing 6 is formed in a tapered surface that gradually increases in diameter as the outer peripheral surface 11 goes to the outboard side, and the inner peripheral surface 12 has an inner projecting portion 12c on the outboard side having a smaller diameter than the press-fitting surface portion 12a on the inboard side. Since it is formed in the shape of a stepped cylindrical surface, the thickness increases toward the outboard side. Then, by the providing the bolt hole 13 in the portion of the large outboard side of the thickness thereof, the thickness t ₁ of the periphery of the bolt hole 13 is prevented to become smaller.
Further, since the inner end of the bolt hole 13 is assumed not reach the end surface on the outboard side of the outer ring 3, the wall thickness or the minimum interval t ₂ between the inner peripheral surface pressed surface 12a of the bolt hole 13 and the housing 6 Can also be adequately secured. The present embodiment (A <B) in which the depth A of the bolt hole 13 is smaller than the axial distance B of the inner diameter surface protrusion 12c of the housing 6, and the depth A ′ of the bolt hole 13 is the inner diameter of the housing 6. When compared with the comparative example (A ′> B) of FIG. 2 which is larger than the axial distance B of the in-plane protrusion 12c, the thickness between the bolt hole 13 and the inner peripheral surface press-fitting surface 12a of the housing 6 is increased. It can be clearly seen that there is a big difference (t ₂ > t ₂ ′).
For these reasons, it is avoided that the thickness of the housing 6 is partially reduced, and a sufficient strength of the housing 6 that can withstand the load applied during traveling of the vehicle can be ensured.

  Since the rolling bearing 1 is a double row tapered roller bearing, it can receive a larger radial load than a ball bearing of the same size. For this reason, this wheel bearing device is suitable for use in an axle unit of a large vehicle.

  In this embodiment, the first generation type wheel bearing device is used. However, the present invention can also be applied to a single row roller bearing type wheel bearing device.

It is sectional drawing of the wheel bearing apparatus concerning embodiment of this invention. It is sectional drawing of the comparative example with respect to the wheel bearing apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Rolling bearing 2 ... Inner ring 3 ... Outer ring 4 ... Rolling element 6 ... Housing 12 ... Housing inner peripheral surface 12a ... Press-fit surface part 12b ... Step surface 12c ... Inner protrusion 13 ... Bolt hole

Claims (3)

For rolling bearings and ring-shaped wheel mountings that have a bolt hole for wheel mounting on one end face, and the outer ring of the rolling bearing is press-fitted into the inner periphery, and the end on the bolt hole side protrudes in the axial direction from the outer ring A wheel bearing device comprising a housing,
The wheel bearing device according to claim 1, wherein the bolt hole has a depth at which an inner end does not reach an end face of the outer ring.   2. The wheel bearing device according to claim 1, wherein the rolling bearing is a double row tapered roller bearing.   3. The wheel mounting housing according to claim 1, wherein an inner diameter surface of the wheel mounting housing has a press-fit surface portion into which the outer ring is press-fitted, and has a smaller diameter than the press-fit surface portion through the step surface to the one end side. The wheel bearing device is formed in a stepped cylindrical surface shape having an inner protrusion, and an end surface of the outer ring abuts on the step surface of the wheel mounting housing.

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