DE623429C - - Google Patents

Description

The subject of the invention is an adjustable one Storage of the work spindle, in particular the Sdüeifbockspindel of the grinding machine.

The storage of these spindles must be designed so that they can, at any time and without Adjust the difficulty to the exact tolerance required for the thickness of the smear layer permit. It is also necessary to make the bearing axially adjustable. The simultaneity of this setting · requires special measures, as described in are shown in the example described below.

Designing the spindle bearing so that it can be adjusted radially and axially is possible in many ways known. It is also known to make the axial play adjustable from the outside by the adjustment is carried out by an externally rotatable worm which engages in a worm toothing of a pressure sleeve '. The reenactment of the; radial play is increased by means of adjustable pressure jaws causes, these pressure jaws with the actual bearing shell, however, no fixed Have connection, but rather along a groove ο. Like. By screw adjustment be guided. Another type of adjustment is so that the slotted bearing bushes be pulled together in a conical bearing sleeve. Yet another embodiment, shows the adjustment in such a way that thin-walled bearing bushes of three sides are pressed together by pressure screws, so that the single bearing bush in their trailing; Shape the wave, so to speak, evenly around the circumference touched along three lines.

Yet another embodiment shows neither the adjustable sliding jaws nor the collapsible bearing bush, still the slotted conical bearing bush, rather a closed bearing bush, whose Wall of the same thickness everywhere thanks to one longitudinal and two transverse millings, freely resilient Have jaws' which are pressed together by pressure screws ·.

Compared to these known adjustable bearings, the subject of the invention shows a bearing adjustment, the resilient parts of which are inevitably guided and the bearing bushing not only longitudinal and transverse incisions - to generate the suspension of the adjustable part of the bearing bushing, but also millings through which the freely resilient part of the bearing is precisely limited. The formation of the longitudinal bearing between the transverse bearings enables the spindle to be driven directly on the Transverse bearing, so that practically with bending: - suspension at the drive point of the spindle, ζ. B. by belt pull, not to be expected

is. Despite this arrangement, readjustment of the longitudinal bearing can be carried out conveniently at any time and extremely accurate.

Fig. Ι is' a Horizontalfechnitt through the Grinding spindle bearing.

Fig. 2 is a section along the line AA. Fig. 3 is a section along the line ΒΈ. The bearing bushes 2 and 3, which accommodate the shaft 4, are housed in the ScMedfbockkörper ι sdmd. The bearing bushes 2 and 3 have millings 5 (Fig. 3) and are in place on the width of the millings 5 in the axial direction. 6 said (Fig. 3). In addition, the "bearing bushes 2 and 3 are also sawn in the radial direction to the width of the millingsj 5 at points 7 and 8 (Fig. 2). This creates resilient jaws 10, which can be pressed against the WeHe 4 with the screws. With With the screws 11, the resilient adjuster jaws 10 are pulled against the impression screws 9 in order to prevent any unintentional movement of the adjuster jaws 10.

The bearing bush 3 is extended. In her

the ring nut 12 is added !. The collar 13 runs between two Diruckringien 14, which are secured against rotation by two screws 15. The ring nut 12, which is toothed on its circumference, can be rotated ^{through the opening 1} , which is closed with a plug 16, and the axial play can thus be adjusted. The oil is filled in through the opening closed with a plug 16.

The oil level can be seen on the oil level glass 17. Through the lubricating rings 18 is the oil promoted in a known manner. It collects and distributes itself in the grooves of the oil cones 19 and 20. From the collecting groove 20 the oil is directed to the collar 19, and as a result, it is constantly provided with fresh oil. The Ölsanimemut 19 is on both sides closed by the discs 21. The oil collecting groove 20 is only on one side closed by the disk 22 so that the oil from groove 20 through cutouts in the pressure rings 14 get into the Ölkamnier24 and this can fill up, so that collar 13 can continuously dip into the oil. Oil escaping outside the bearing bushes 2 and 3 is thrown off by splash rings 23, collects and is returned to the oil collection chamber through a hole.

The fact that the bearing bushes 2 and 3 are made of one piece with the follower jaws 10 results in greater operational reliability and lower production costs. A collapse of the bearing bushes 2 and 3, as is often the case with conventional, slotted bearing bushes, is completely excluded in the present invention. The inclusion of the axial play between the radial bearing bushes enables an extremely compact design with the particular advantage ^{1 of} a very favorable thermal expansion over only a small length of the shaft 4.

Claims (2)

Patent claims: i. Adjuncts. Plain bearings for high-speed Working spindles, in particular grinding machine spindles, in which the longitudinal bearing is arranged between the transverse bearings and the adjustment of the transverse bearing with the aid of the material elasticity adjustable jaws, characterized in that for the purpose of achieving the material elasticity the transverse bearing bushing (3) through the cutouts (5, 6 and 7) leas freely resilient Jaws (10) ^ is formed, the position of which is set by means of the screws (9 and 11) and can be determined. 2. Adjustable plain bearing according to claim i, characterized in that däe Ring nut (12) engages in the guide giving extended bearing bush (3) and the longitudinal bearing together with the ring nut (12), collar (13) and pressure ring (14) is formed. For this - 1 sheet of drawings