RU2044180C1 - Rolling bearing - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: bearing has outer and inner races, rolling bodies interposed between the races, sealing washers secured to the outer ring, and sealing members coupled with the free end of the sealing washer. The sealing member is mounted on the inner race for permitting its movement and is provided with the face shelf. The sealing member is mounted with a spaced relation to the free end of the sealing washer in the radial direction. The space is no less than the possible eccentricity of the sealing washer with respect to the inner race of the rolling bearing. The groove is made in the body of the sealing member. The free end of the sealing washer is provided with the stop member made in block with the sealing washer. The free end is received in the groove to permit sealing member to be movable and self adjusted in the radial and axial directions. EFFECT: enhanced reliability. 3 dwg

Description

 The invention relates to mechanical engineering, in particular to rolling bearings operating under conditions of constantly inherent lubrication, to which additional requirements are imposed on tightness, ease and uniformity of rotation.

 A rolling bearing is known, comprising an outer and an inner ring, rolling bodies located between them, as well as sealing washers fixed in the outer ring and covering said washers from the side of its opening and sealing elements located on the outer surface of the inner ring with a horizontal shelf and with at least one end shelf located on the outside of the sealing washer.

 The disadvantage of this bearing is that its design does not allow for uniformity and ease of rotation while ensuring the required tightness. Such rolling bearings have a relatively large moment of resistance to rotation.

 The objective of the invention is to improve the tightness of the rolling bearing while ensuring uniformity and ease of rotation.

 This is achieved by the fact that in the rolling bearing, containing the outer and inner rings, the rolling bodies placed between them, as well as the sealing washers fixed in the outer ring and covering the washers from the side of its opening and the sealing elements located on the side of the outer surface of the inner ring with a horizontal shelf and with at least one end flange located on the outside of the sealing washer, each sealing element is mounted for movement relative to the inside of the bearing ring and with a radial clearance with respect to the sealing washer of not less than the value of the possible eccentricity of the installation of the sealing washer relative to the inner ring of the bearing, and is made with at least one locking element integral with the washer, placed in the groove of the sealing element with the ability to move and self-install in the radial and axial directions of this sealing element.

 In FIG. 1 shows a rolling bearing, section; in FIG. 2, section AA in FIG. 1; in FIG. 3 node I in FIG. 1 (enlarged view shows the connection of the sealing element and the sealing washer, section).

 The rolling bearing comprises an outer 1 and an inner 2 rings and rolling bodies 3 arranged between them.

 In the outer 1 ring, sealing washers 4 are fixed, each of which is equipped with a locking element 9, made in one piece with the body of the washer. On the outer surface of the inner ring 2 there are sealing elements 5 with a horizontal shelf 10 and with at least one end shelf 7 located on the outside of the sealing washer 4. Each sealing element 5 is made with at least one groove 8 for placement of a locking element 9 with the provision of movement and self-installation in the radial and axial directions of the corresponding sealing element 5.

 The groove and the locking element can be made in the form of parallelepipeds.

 In addition, each sealing element 5 is mounted with the possibility of movement relative to the inner ring 2 and with a gap in the radial direction with respect to the corresponding sealing washer 4 of no less than the value of the possible eccentricity of the installation of this sealing washer 4 relative to the inner 2 of the bearing ring.

 The rolling bearing operates as follows.

 Under the action of inertial forces, a lubricant is scattered throughout the entire inner cavity of the rolling bearing, lubricating the parts and removing heat from rubbing surfaces.

 A small amount of lubricant penetrates into the gaps between the inner ring 2 and the sealing element 5, between the sealing washer 4 and the end flange 7 of the sealing element 5, preventing dust and moisture from entering the environment and ensuring the rolling bearing is sealed with minimal friction loss. This ensures the greatest uniformity of rotation.

 The sealing element 5, connected to the sealing washer 4 and mounted on the inner 2 ring, during operation of the rolling bearing can move in the radial and axial directions and self-install within the gaps formed by the parts. Moreover, the sealing element cannot rotate relative to the sealing washer under the action of friction forces transmitted through the lubricant from the rotating inner ring. This rotation is prevented by the locking element 9 of the sealing washer 4, which is installed in the groove 8 of the sealing element 5.

 The eccentricity of the installation of the sealing washer with respect to the inner ring does not affect the interaction force of the sealing element of the inner ring, since the sealing element does not have a rigid connection with the sealing washer, can be mounted in the radial direction due to the specified gap.

 Ensuring self-installation of the sealing element on the inner ring eliminates the influence of the eccentricity of the installation of the sealing ring connected to the sealing element relative to the inner ring on the forces in the contacts of the parts sealing the inner cavity of the rolling bearing. This allows to improve the tightness of the rolling bearing while ensuring uniformity and ease of rotation.

Claims (1)

 ROLLING BEARING, comprising outer and inner rings, rolling bodies placed between them, as well as sealing washers fixed in the outer ring and covering said washers on the side of its opening and sealing elements located on the outer surface of the inner ring with a horizontal shelf and with at least one end shelf located on the outside of the sealing washer, characterized in that each sealing element is mounted with the possibility of movement relative to the inner its rings and with a gap in the radial direction with respect to the sealing washer, not less than the size of the possible eccentricity of the installation of the sealing washer relative to the inner ring of the bearing, and made with at least one groove, and each sealing washer is equipped with at least one made in one piece with a washer locking element located in the said groove of the sealing element, with the possibility of movement and self-installation in the radial and axial directions of this sealing element a.

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