RU101133U1 - LABYRINTH SEALING OF A ROLLING BEARING - Google Patents

Abstract

 1. A labyrinth seal of a rolling bearing, comprising an o-ring made of structural polymer material and included in a slip fit into a radial groove of a rectangular section of another ring, characterized in that the o-ring and / or ring with a groove are attached to the ends of the bearing rings, for example, by adhesive or adhesive compounds. ! 2. The labyrinth seal according to claim 1, characterized in that the sealing ring and / or ring with a groove is made of a diametric size equal to the diametrical mounting dimensions of the outer and inner rings of the bearing. ! 3. The labyrinth seal according to claim 1, characterized in that the sealing ring and / or ring with a groove is made with an annular protrusion associated with the outer cylindrical surface of the inner ring of the bearing and the inner cylindrical surface of the outer ring of the bearing. ! 4. The labyrinth seal according to claim 1, characterized in that the ring with a groove is made of structural polymer material.

Description

The invention relates to the sealing of rolling bearings and can be used both in the production of rolling bearings, and in the design and operation of bearing assemblies in machines and equipment.

Known common and widely used seal of rolling bearings, made in the form of rubber-metal seals, motionlessly integrated in the outer ring of the bearing and interacting with the inner ring of the bearing [1].

The disadvantages of this device is the complication of the design and manufacturing technology of the bearing with an integrated sealing rubber-metal element. Due to this drawback, such a seal has become widespread mainly for radial ball bearings with a diametral size of the inner ring on the shaft of not more than 150 mm (bearings of the series 160000 and 180,000).

The closest in technical essence and the achieved effect to the proposed one is a seal made in the form of an o-ring made of structural polymer material and included in the slip fit into a radial groove of a rectangular section of another ring; wherein the seal rings are integrated into the outer and inner rings of the bearing [2].

The disadvantages of this solution are the complication of the design and manufacturing technology of bearings with integrated sealing elements.

The objective of the proposed invention is to simplify the design and manufacturing technology, as well as expanding the range of bearings with seals.

The problem is solved in that in the labyrinth seal of the rolling bearing containing an o-ring made of structural polymer material and included in the slip fit into the radial groove of a rectangular section of another ring, the o-ring and / or ring with a groove are attached to the ends of the outer and inner rings of the bearing for example, by means of an adhesive or adhesive compound. The seal can be made in the form of a sealing ring in contact with the end face of the outer ring of the bearing, and, accordingly, a ring with a groove in contact with the end face of the inner ring of the bearing. A design variant with opposite contact between the seal rings and the ends of the bearing rings is also possible.

The sealing ring and / or the ring with a groove can be made with a diametric size equal to the diametrical mounting dimensions of the outer and inner rings of the bearing.

The sealing ring and / or ring with a groove can be made with an annular protrusion associated with the outer cylindrical surface of the inner ring of the bearing and with the inner cylindrical surface of the outer ring of the bearing.

The ring with a groove can be made of structural polymer material.

The implementation of the labyrinth seal of the rolling bearing in the form of a sealing ring and an associated ring with a groove attached to the ends of the outer and inner rings of the bearing simplifies the design and manufacturing technology of the bearing with the seal, because while the bearing itself remains without any design changes. Such a labyrinth seal makes it possible to seal bearings of various designs - ball and roller radial (including spherical), angular contact and axial radial (including tapered roller bearings), and unlimited sizes, as at the stage of their production, and in the conditions of use (operation) of ready-made bearings. At the same time, before attaching the seals, the internal cavity of the bearing can be filled with high-quality lubricant that ensures long-term operation of the bearing, i.e. get a bearing with one-time lubrication when assembling it.

The implementation of the sealing ring and / or ring with a groove with a diameter equal to the seating size of the outer and / or inner rings of the bearing improves the centering of the seal rings relative to the axis of rotation of the bearing and creates additional seal sealing due to the tight fit of the seal rings on the shaft and in the housing.

The implementation of the sealing ring and / or ring with a groove with an annular protrusion associated with the outer cylindrical surface of the inner ring of the bearing and / or with the inner cylindrical surface of the outer ring of the bearing also provides centering of the seal rings relative to the axis of rotation of the bearing, and also due to the possibility of reducing the diameters of the rings seals simplifies the arrangement of the bearing assembly, leaving unchanged the connecting (mounting) dimensions of the bearing along its width.

The material for the manufacture of a ring with a radial groove can be either metal, mainly constituting an antifriction friction pair with the material of the o-ring, and structural polymer material. In the latter case, the technology is simplified and the manufacture of the ring cheaper; and small efforts in the contact of the seal rings and the presence of lubricant in it provide the necessary service life of the seal.

The proposed labyrinth seal of the rolling bearing is illustrated in figure 1, which shows the seal with the sealing rings and rings with a radial groove.

The proposed seal consists of a sealing ring 1 of structural polymer material, which is attached to the end 2 of the outer ring 3 of the bearing, and a ring with a radial groove 4 is attached to the end 5 of the inner ring 6 of the bearing. O-ring 7 is also attached to the end of the inner ring 6 of the bearing, and a ring with a radial groove 8 is attached to the end of the outer ring 3 of the bearing. The rings are attached, for example, by means of an adhesive or adhesive joint. O-ring 1 and ring 4 with a groove are made with a diameter equal to the diameter of the cylindrical seating surface of the outer D and inner d rings of the bearing. The sealing ring 7 and the ring with a groove 8 are made with annular protrusions 9 and 10, conjugated respectively with the outer cylindrical surface 11 of the inner ring 6 of the bearing and with the inner cylindrical surface 12 of the outer ring 3 of the bearing. The ring with a groove 8 is made of structural polymer material.

Labyrinth compaction works as follows.

The labyrinth seal is assembled: in the radial groove of the ring 4 filled with grease, an elastic ring 1 is installed by elastic deformation and radial displacement. Then, rings 1, 4 of the seal are attached to the ends 2, 5 of the bearing rings 3, 6. In this case, the coaxial position of the seal rings is verified relative to the axis of rotation of the bearing, i.e. relative to the seating surfaces of the outer ring in D and the inner ring in d. The sealing rings are attached to the ends of the bearing rings, for example, by means of an adhesive or adhesive joint. Before attaching the seal rings, the inner cavity of the bearing is filled with high-quality lubricant. The sealing ring 7 and the ring with the groove 8 are also attached to the ends of the bearing rings 3, 6, while centering the seal rings 7, 8 relative to the axis of rotation of the bearing by mating the ring protrusions 9 and 10, respectively, with the outer cylindrical surface 11 of the inner ring bis an inner cylindrical surface 12 outer rings 3 bearings. The ring with a groove 8 is made of structural polymer material.

When one of the bearing rings, for example, the inner one, rotates, the ring with the groove 4 and the o-ring 7 are rotated by attaching these rings to the ends of the bearing ring 6, and the sealing rings slip along the groove walls in the mating rings 4, 8. Attaching the seal rings to the ends of the bearing rings, as well as the tight fit of the slip of the sealing ring 1, 7 in the groove of the ring 4, 8 provides the necessary tightness of the seal.

The implementation of the labyrinth seal of the rolling bearings of the proposed design simplifies the design and technology of their production, expands the sealing capabilities of bearings of various sizes.

Prototypes of the labyrinth seal of radial ball bearings No. 316 and 236 and angular contact tapered bearings No. 7620 were manufactured at EnergoMashServis LLC, Chelyabinsk, and were successfully tested in bearing bearings of power and metallurgical equipment.

The proposed seal can be used both in the production of directly rolling bearings with seals, and in machines and equipment of various industries when it is necessary to seal ready-made serial rolling bearings of various designs and almost any overall dimensions.

1. A.G. Commissioner. Sealing devices of rolling bearings, Publishing House "Mechanical Engineering", Moscow, 1980, p. 173, fig. 126 g, d, e.

2. RF patent No. 2395741, Labyrinth seal, IPC F16J 15/453 (2006/01), dated July 27, 2010.

Claims (4)

1. A labyrinth seal of a rolling bearing, comprising an o-ring made of structural polymer material and included in a slip fit into a radial groove of a rectangular section of another ring, characterized in that the o-ring and / or ring with a groove are attached to the ends of the bearing rings, for example, by adhesive or adhesive compounds. 2. The labyrinth seal according to claim 1, characterized in that the sealing ring and / or ring with a groove is made of a diametric size equal to the diametrical mounting dimensions of the outer and inner rings of the bearing. 3. The labyrinth seal according to claim 1, characterized in that the sealing ring and / or ring with a groove is made with an annular protrusion associated with the outer cylindrical surface of the inner ring of the bearing and the inner cylindrical surface of the outer ring of the bearing. 4. The labyrinth seal according to claim 1, characterized in that the ring with a groove is made of structural polymer material.