DE2154545B2 - Rolling bearing full device - Google Patents

Description

3. Apparatus according to claim 1 or 2. there delay the rolling elements are even better characterized in that the axis of a one filling nozzle on both sides in the sickle-shaped space (17) on the feed member (10) with the shares

The axis of rotation (15) is aligned. According to another feature of the invention

4. Device according to one of the preceding 30, the axis of a filler neck is aligned on the supply claims, characterized in that the organ with the axis of rotation. That way it stays End face (20) of the sickle-shaped rolling element - the opening of the filler neck always on the same support (8) to the plane of the bearing rings (3, 4) so that the tends is. Device rolling elements from a storage container

35 can be fed to the filler neck.

So that the rolling elements are more easily distributed during filling and so that they move into the largest possible space.

The invention relates to a device to line up the raceway of the outer ring, according to another feature of the invention, the end faces space between two during the filling process 40 surface of the crescent-shaped rolling element support to the eccentrically arranged bearing rings level of the bearing rings Inclined bearing rings,
of roller bearings, in particular radial deep groove ball- The invention is based on an embodiment below

gladly, with a feed member for filling the approximately example explained that in the drawings dar-rolling elements by gravity and one in which is placed. It shows

chel-shaped space protruding from below rolling elements 45 F i g. 1 shows a longitudinal section through an execution edition. form of the invention,

Such a device is by the Swiss F i g. 2 schematically the two eccentrically one inside the other

Roman patent 392 167 became known. In the case of the bearing rings arranged with the bearing rings to be distributed, the performance is limited by the fact that the rolling elements only have one channel 50 F i g as a feed element for the rolling elements to explain the balance of forces. 3 a section through the feed member,
is available, which is equipped with a storage container F i g. 4 shows a longitudinal section through an advantageous

for the rolling elements is in connection. The height of fall training the rolling element support and
of the rolling elements to be filled in is in this case

moderately large, so that this rolling element support ordered during the filling process.

can be damaged. In addition, as can be clearly seen in particular from FIG. 1, crescent-shaped space between the two bearing rings, the device shown is used for filling gene the rolling elements distributed only in that these balls 1 in the sickle-shaped space 2 between displace one another, so that they are under one inner ring 3 and one outer ring 4, which are favorable Circumstances can jam. end of the filling process eccentrically one inside the other

The invention is based on the object of a 60 being ordered. The inner ring 3 and the outer ring 4 device for introducing rolling elements between rest in the recess 5 of a plate 6. Through the see ZWe ₁ eccentrically arranged recess 5 protrudes into the Bore bearing rings to create high performance tion of the inner ring 3, which can be reached by the centering bolt, that is, a quick and smooth filling process can be achieved in a position eccentric to the outer ring 4, without this having been brought about. In this way, between the gentle treatment of the rolling elements, the outer ring 4 and the inner ring 3 of the above-mentioned det. sickle-shaped space 2 has been produced.

This task is carried out in a device of the also through the recess 5 in the plate 6

3 4

protrudes into the sickle-shaped space 2 a sickle-shaped grows with the distance χ as well as_ mit.der j rolling element support8, which is formed below the plate * to speed of the shaft 12 With this measure, a ring 9 When filling the Ku- is a powerful and gentle distribution of the Gelnl from a storage container (not shown) balls 1 possible because core external mechanical forces act on the balls 1 through a feed member 10 in the sickle-shaped 5 forces. Space 2, the balls 1 rest on the rolling elements. As can also be seen from FIG be kink so that the balls 1 when hitting aDgeden. To as many balls 1 as possible between which are braked and thus protected. In order to be able to fill in the bearing rings 3 and 4, as can be seen from FIG. 1, the outer ring 4 is additionally arranged by not further illustrated support 17 so that its axis is deformed by radial forces. Axis of rotation 15 is aligned. In this way, in FIG. 3, the feed member 10 is shown in more detail. The balls 1 even when the shaft rotates in aen It has two parallel filler necks 17 to be filled because this has its channels 11 through which the balls fall onto the rolling element position during the rotation, unchanged. The rolling body support 8 protrudes. The rolling element support 8 shown in FIG. 1 is, as shown in FIG. 1 and already mentioned, mounted rigidly in din; It is of course also _f possible to resiliently support the sickle-shaped space 2 between the two bearings in order to wrestle 3 and 4 during the tieraoiaiicn. so to dampen by every 30 shocks. ,., ~ _tP , channel 11 only pulls half of the balls per bearing. such an ante- nosacne inclined to the axis of rotation 15 that the balls 1 during the filling process are substantially 18, which with this through a. ^Ka ™ ^, ^g . ^e ' ^e " ^K *" are spared. This training of the feeding organ a _{5 is} bound. a non-uniform urenoew egiuig aui-0 h Ed d Vil id by this ^^ Z ^^ J ™ "

be spared. This training of the feed member a _{5 is} bound. an unfortunate

10 also has the advantage that it is forced to do the same. By this ^^ Z ^^ J, ™ "

early filling of the balls 1 through two channels 11 movement, the balls 1 as well as oei Bescnieu-

the cycle time when filling is noticeably shortened.

Early filling of the balls 1 through two channels 11 movement, the ball the cycle time when filling is noticeably shortened. and delays aes from F i g. 1 further shows that a shaft 12 is distributed on both sides in the sickle-shaped 30 mounted in a housing 14 by means of roller bearings 13. . . , ,., is. As shown in FIGS. 4 and 5, the shaft 12 offsets the centering pin 7, the two bearing rings 3 and 4, the rolling element end face 20 of the sickle-shaped waizKorperduilage 8 and the feed member 10 in rotation. In this case, the position 8 to the plane of the bearing lengths 3 and 4 around one, the axis of rotation 15 of the shaft 12 is inclined by the loading angle λ. By this measure w yield -v to the axis 16 of the outer ring 4 in the direction 35 which the balls 1 when filling better yen ^em > ° - ⁿ offset towards the sickle-shaped space 2 (Fig. 2). In the largest possible space against the sound path. With this arrangement, the balls 1 are lined up next to the outer ring 4. . Filling by the radial component R of the with the invention is a filling door centrifugal force created Z against the raceway of the Außenrin- Rolling down the gegenuoer oeicannges4 and ten by the Tangentialkomponen- 40 devices is very powerful una a hanks T on both sides in the crescent-shaped space 2 extremely gentle treatment of the rolled bodies 0.1m. The size of the tangential component T allows filling between the two bearing rings.

1 sheet of drawings

Claims (2)

initially described type solved in that the claims: Lageninge, the rolling element support and the feed organ about a common ratio axis drive 1. An apparatus arranged for introducing Wälzkor- bar to the axis of the outer ring pern in the crescent-shaped space between two 5 in the direction of the crescent-shaped space towards displaced during the filling eccentrically into one another ^J st, and that the feed member two mutually paralder arranged bearing rings of roller bearings, lele has channels that end next to each other over the siin particular radial deep groove ball bearings, with a chelated space. a feed member for filling in the rolling elements with the device according to the invention can be by gravity and one in the sickle body compared to the known cycle time for the filling Migen space from the rolling element projecting from below can be shortened significantly. The rolling elements location, characterized in that are due to the rotation during the filling process without the bearing rings (3, 4), the rolling element support (8) external forces against the raceway of the outer ring and the feed member (10) is pressed about a common and by a tangential component Axis of rotation (15) are arranged to be drivable, 15 automatically on both sides in the crescent-shaped space which is offset to the axis (16) of the outer ring (4) in Rkh- between the two eccentrically to one another direction to the crescent-shaped space (2) offset surrounded bearing rings carried. Since per channel only is, and that the feed member (10) two to one and half as many balls are fed, the free the parallel channels (11), which are reduced in addition to falling height of the rolling elements, so that the other end over the crescent-shaped space (2). 20 there is also the risk of damage to the 2. Apparatus according to claim 1, characterized in that filling rolling elements are reduced.
indicates that one of the bearing rings t, 3, 4), the bearing roller support (8) and the feed member (10) rings, the roller support and the feed member driving shaft (12) unevenly ängelrie- driving shaft unevenly driven, ben is. "as by the accelerations and