DE669437C - Sealing for roller bearings or slide bearings composed of inner and outer rings - Google Patents

Description

The invention relates to a seal for rolling bearings or from internal and Outer ring compound sliding bearing that is formed by a conical or domed Sealing ring of the same wall thickness, which can be pressed into an am Outer or inner ring provided circular groove is pressed in and does not touch the cylindrical bottom of the groove.

In the known seals of this type, the sealing ring in the groove is thereby noted that it is also formed with a flat edge part against also flat

«5 side walls of the groove rests under a press fit. This type of construction requires strict adherence to the Dimensions, so small tolerances, because the width of the groove is exactly the wall thickness of the Must correspond to the ring. Small tolerances

ao make the production more expensive and more difficult.

The invention has for its purpose the production of seals of the above Kind by admitting larger tolerances, but with the guarantee of a fixed one To simplify the seat of the sealing ring in the groove and to make it cheaper. For this: it is proposed to attach the sealing ring · at its outer or inner edge to several Provide places with side bulges when pressing the ring flat are also printed flat and thereby pinch the ring.

It should be noted that it was already known is, sealing rings with long angled bends or with on the outer edge provided bends to double the wall thickness of the sealing rings, with which they are inserted into correspondingly wide grooves. Apart from that from the fact that in these seals the seat of the sealing rings in the grooves in a different way than in the case of the seal according to the invention is effected, these known seals have the disadvantage that the groove and the sealing ring have large dimensions in the axial direction, so that the race of the bearing and thus also the bearing itself in the axial direction is not like that can be made short as in a bearing with a seal according to the invention. It is very desirable to give bearings a small axial width, especially in the case of plain bearings, the dimensions of which are the outer and inner bearing rings match the dimensions of the rolling bearings in such a way that that plain bearings or roller bearings can be optionally used depending on the circumstances can get.

In the drawing, several exemplary embodiments of sealing rings are shown in accordance with of the invention and the installation method of the

sealing rings shown in bearings. Show it

Fig. Ι a section through a provided with a seal according to the invention Camp,

FIG. 2 is a side view of a device shown in FIG. the sealing ring shown,

Fig. 3 shows part of the outer edge of the Sealing ring,

ίο Fig. 4 is a section on a larger scale along the line provided with arrows in Fig. 2,

Fig. S shows the first on a larger scale Procedure for fastening the sealing ring in the ball bearing according to Fig. I, 6 shows the sealing ring in the inserted position,

Fig. 7 with Abdichtuiigsringen according to the -invention 'provided plain bearing.

The ball bearing shown in Fig. Ι consists of an outer race ι, a inner race 2 mid a number of intermediate ones Balls 3. Located on the inner surface of the outer race laterally of the balls a groove 4, in which a sealing ring 5 is inserted, the inner Seals the circumference against the inner race 2. The sealing ring has on his outer edge a number of bulges 6.

The way in which the sealing ring is inserted into the one provided on the bearing outer ring Groove emerges from FIGS. 5 and 6. The groove 4 has a flat side surface 7, a conical side surface 8 and one in the wosentlidien cylindrical bottom surface 9. The part 10 located on the outside of the groove 4 the inner cylindrical surface of the outer race has a larger diameter than the part of the outer race located on the inside of the groove. The side face 8 of the groove 4 is slightly conical, and the angle between the side surfaces 7 and 8 is approximately 5 °. The sealing ring is cup-shaped and its outer diameter knife 11 is slightly smaller than the inside diameter 10 of the outer race. The width of the sealing ring, measured across the bulges, is slightly larger than that Width of the groove 4 at its opening. The sealing ring 5 is installed in the Bearing against the side surface 7 of the groove 4 brought into contact. Then the Sealing ring pressure exerted in the direction of arrow 12 (Fig. 5). This pressure causes pressing the sealing ring 5 flat while simultaneously increasing the outer diameter 11. The outer circumference the sealing ring 5 is pressed into the groove 4. As the width of the sealing ring 5, about the bulges. Measured 6 is slightly larger than the width of the groove, so the edges of the bulges will be into the position shown at 13 in FIG bent over, whereby the sealing ring between the side surfaces 7 and 8 of the Groove 4 is wedged. As can be seen from Fig. 6, the outer edge 11 of the Ring 5 only expands to the extent that it is out of contact with the bottom 9 of the groove remain. As a result, the outer ring of the bearing is tightened by the press-fitting of the ring not expanded in diameter. The ring is only created by the friction between the Walls 7 and 8 held as if it were caulked.

Fig. 7 illustrates the application of the invention to a slide bearing. With this one Bearing, the outer bearing ring 21 has an inner sliding surface 26 which is connected to the outer sliding surface 27 of the inner bearing ring 22 cooperates. The inner bearing ring 22 has a! Cross section which is formed by a web 28. and flanges 29 and 32 are formed. In the grooves 24 of the outer bearing ring 21 are Sealing rings 25 e.g. on the one shown in Fig. 5 and 6 inserted in the manner described. The sealing rings 25 have axially extending cylindrical parts 30 which together with the cylindrical surface 31 of the inner flange 32 of the inner ring 22 form a seal.

The bearing illustrated in Fig. 7 is intended for grease lubrication and has cutting discs 33, which are fastened on the flange 29 of the inner bearing ring. the Trermsicheiben 33 are in grooves 34 on the already described way inserted. It is important that the outer sliding surfaces 2 7 of the inner bearing ring are not expanded when inserting the washers 33, otherwise the exact tolerance and the certain play between the inner and outer bearing rings would not be complied with.

During operation, the gaps between the sealing rings 25, the outer bearing ring 21 and the inner flange 3 2 of the inner bearing ring 22 with Fat filled. When the inner bearing ring is rotated, the grease in the web 28 of the inner bearing ring provided an opening 11 gen3s and on through the canals the sliding surface is thrown out. The pressure continues from the sliding surfaces the load on the edge of the flange 29 past to the gaps between the discs.33amd 25 moves. The fat that is already there is set in motion by this, and a part thereof becomes to pass through the annular opening between the Washer 33 and the cylindrical part 30 of the sealing ring 25 to the annular cavity between the two cutting discs !! 33

Claims (2)

compelled. The purpose of the cutting disc :! 33 is to create a rotating lubricant reservoir to achieve that as possible high centrifugal forces act on the lubricant. Ρλ τ ic ν τ ansi'k Π c 11 1 ;: i. Sealing for roller bearings or composed of inner and outer rings Plain bearing, consisting of a conical or curved sealing ring of the same Wall thickness, which is provided by pressing flat into one on the bearing outer or inner ring circular groove is pressed into it and the cylindrical. Not touching the bottom of the groove, characterized by that the sealing ring on its outer or inner edge in several places with lateral bulges stranding, which are also printed flat when the ring is flattened and thereby pinch the ring. 2. Seal according to claim 1, characterized in that the width the groove decreases in the direction towards its bottom. 1 sheet of drawings