RU2092723C1 - Sealing device for bearing unit - Google Patents

Abstract

FIELD: mechanical engineering; bearing units. SUBSTANCE: sealing device includes washer pressed to revolving ring and metal member with semicircular projections pressed to fixed ring. Projections are located on side of one of surfaces of metal member opposite to each other. Semicircular projections are engageable with different sides of washer and with connectors. EFFECT: complete avoidance of leakage of moil from bearing unit. 6 dwg

Description

 The invention relates to mechanical engineering and can be used in bearing assemblies.

 Known sealing device of the bearing assembly, preventing oil leakage from it. It contains a washer pressed against a rotating bearing ring and sliding along the end face of another ring.

 However, this sealing device cannot completely prevent oil leakage from the bearing assembly.

 The technical result of the invention is the complete prevention of oil leakage from the bearing assembly.

 This is achieved by the fact that the sealing device containing the washer pressed against the rotating ring of the bearing is provided with a metal element pressed against the stationary bearing ring with semicircular protrusions located on the side of one of the surfaces of the metal element opposite to each other and in contact with different sides of the washer, respectively, while semicircular protrusions are connected by jumpers.

 Figure 1 shows a sealing device of a bearing assembly with a rotating inner ring, a section; in FIG. 2 same side view; in FIG. 3 sealing device of a bearing assembly with a rotating outer ring, section; in FIG. 4 same side view; in FIG. 5 is a metal element pressed against the inner stationary ring of the bearing; in FIG. 6 the same, side view, section.

 When the inner ring of the bearing is rotating, the sealing device of the bearing assembly has the following structure. The outer ring 1 of the bearing metal element 2, having internal profile protrusions 3, is pressed against the housing 4. The cover 5 with stops 6 is attached to the housing 4 by bolts 7. The washer 8 is mounted on the shaft 9 and pressed to its shoulder by the inner ring of the bearing 10 (Fig. 1 and 2).

 This sealing device is used as follows. Oil flows from the protrusion 3 onto the washer 8. Then it flows onto another protrusion 3 located below the shaft 9. From it, the oil flows onto the metal element 2 and again enters the bearing without flowing to the ground.

 When the outer ring of the bearing is rotating, the sealing device of the bearing assembly will have the following design. A metal element 2 is mounted on the shaft 1, having external profile protrusions 3. The strips 4 are attached to the cylindrical surface of the metal element 2 and are connected at their ends with the protrusions 3. The metal element 2 is pressed by the inner ring 5 to the shoulder of the shaft 1. The outer ring 6 is pressed against the housing 7 washer 8. Cover 9 with stops 10 is attached to the housing 7 by bolts 11 (Fig. 3,4,5,6).

 This sealing device is used as follows. Oil flows from the washer 8 to the protrusion 3, from it along the strip 4 and the cylindrical surface of the metal element 2 to another protrusion 3, that is, it does not flow out of the bearing assembly either.

 The use of the sealing device of the bearing assembly of the proposed design will allow to obtain the following technical and economic effect. In known sealing devices, oil flows out of a bearing assembly. Therefore, the cost of lubricating machines increases, as well as the resulting oil destroys concrete floors and roads, pollutes the soil. The sealing device of the proposed design does not allow oil to pass from the bearing assembly. Therefore, when using it, the cost of lubricating machines is reduced, and concrete floors and roads are not destroyed, and the soil is not polluted.

Claims (1)

 A sealing device of a bearing assembly comprising a washer pressed against a rotating ring of a bearing, characterized in that it is provided with a metal element pressed against a stationary bearing ring with semicircular protrusions located opposite one another from one of the surfaces of the metal element and in contact with different sides of the washer, respectively while the semicircular protrusions are connected by jumpers.

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