DE156521C - Ball bearings for lightweight shaft lines - Google Patents

Description

qejiiqt be-z

IMPERIAL

PATENT OFFICE.

The general introduction of ball bearings for lighter wave cables stood up now hindering their sensitivity and uncomfortable assembly. There were taper on known designs attached to the shaft itself and centered. This arrangement is probably sufficient for short Pins and the like, in which deflections and changes in length due to temperature changes do not play a role, but cannot be used for longer shaft strands, because then the lateral pressures on the rows of balls when the shaft changes in length are so great that sticking occurs.

In the case of the new ball bearing, it is therefore particularly important to ensure that it is insensitive to deflection and change in length of the shaft. In addition, the new warehouse should meet the following conditions:

i. easy creation of the wave in the Longitudinal direction,

2. Convenient adjustment of the bearing in the direction of the shaft,

3. easy readjustment when wear occurs,.

4. closed design, which has an oil-retaining and dust-sealing effect, and

5. Simple production by using straight, regrindable running and seat surfaces and avoidance of threads on hardened parts.

The drawing shows two bearings that meet these requirements, and. although is

Fig. Ι and 2 longitudinal and cross-section of a so-called end bearing, in which on

Change in length of the shaft was not taken into account,

3 shows a removed Mitnehrnerring in view,

Fig. 4 shows a complete hanger, Fig. 5 shows a bearing with two rows of balls, in which the change in length of the shaft was taken into account,

FIG. 6 shows a cross-section in relation to this and FIG. 7 shows a view of the running cone the bearing bush.

The wave w (Fig. 1 and 5) ^{_2/10/10 MR} n held to * thinner than the sleeve b, thus at smaller deflections no corners of the bearing takes place and a convenient adjustability is achieved. On the bushing b ■ sit the taper cc ^l , namely c is driven firmly against a shoulder of the bushing b and c ¹ . is fitted as an adjusting cone so that it can be moved to b . If the bearing is not under load, both cones can be fixed or form one piece with the bushing b. The balls i lie on the one hand on the inwardly inclined running surfaces of the cones cc ¹ and on the other hand against the races r, which are held in a cast-iron support ring R by means of sheet metal disks g and screws α . The adjustment of the taper occurs at the designed as a repository bearing FIG. 1 by moving the flanged sleeves s, wherein the bearing Fig. 5 on the other hand by a b on the sleeve nut screwed x. The rings s (Fig. 1 and 5) serve only as drivers for the cone and the bearing bush b and therefore engage with their hook-shaped steel tongues k in recesses

ments η the cone and the sleeve (Fig. ι and Fig. 5 and 7). The camp Fig. 1 is intended to serve as a repository and are therefore the rings s close in front of the bushing b respectively. Cone c ¹ , so leave a change in length of the shaft unconsidered. In the case of the bearing in FIG. 5, however, the rings s sit at some distance from the bearing and only engage with their tongues k in the elongated cone and bush recesses; they therefore allow a change in length of the shaft without exerting harmful pressure on the balls i .

By adjusting the cones, the bushing b, cone c and balls i average out against the outer rings r; should therefore the ² J ^_10-4 / ₁₀ mm play in the bushing b lying shaft undergo a slight bending or suggest, so would the tongues k of the entraining rings s η a small up and down going motion in the conical recesses and in the liner recess but do not affect the center position of the cones. By loosening the adjusting nut χ (Fig. 5) to avoid engages the tongue k of the driver s at the same time in the edge incisions of the mother x, so that ring s, mother x, cone c ¹ c and bushing b uniformly on the rotation of the shaft w have to attend. If the shaft to be adjusted, only the rings are to solve s, the wave n> at the _^4/10 mm further sleeve to move, and then the rings s adjusted so that the shaft may occur when bearings Fig. 5 changes in length, when Bearing Fig. 1, however, the shaft w is held in the longitudinal direction.

By arranging the bearing between vertically adjustable pin screws d in a rotatable, forwards and backwards adjustable fork G (FIGS. 1, 2 and 4), a convenient alignment and adjustment of the bearing is achieved. Harmful pressures or corners of the bearing are therefore not to be expected.

Claims (1)

Patent claim: Ball bearing for light wave lines, characterized in that the shaft w lies in an enlarged bush b carrying the bearing cones C ¹ C , the uniform rotation of which is forced by driver rings s fastened on both sides of the shaft w , which with tongues k in elongated recesses η the extended sleeve and the bearing cone grip. 1 sheet of drawings.