DE866121C - Carousel lathe - Google Patents

Description

Vertical turret lathe It is common practice on vertical turret lathes to to provide the faceplate with a V-shaped sliding surface, which is also in V-shaped slideway, the substructure is guided. Since you. the sliding surfaces do not can be made to match each other perfectly, they have to be spotted on top of each other and scraped by hand. This work is very time consuming. The lubrication the two sliding surfaces is done by pressure oil that is between the two tracks is pressed in :. The correct setting of the oil air is usually on the king pin an adjustable support bearing is provided, the axis of which falls in the same direction like the axis of the king pin, which also serves as the radial guide for the faceplate serves.

Despite the use of pressure oil, the portion of the drive power is which is required to overcome the sliding friction, compared to total drive power (friction and cutting force) is very large. This means that everyone has to Drive elements are made relatively strong.

It's also beautiful; has been suggested, the occurring vertical forces with the mediation of the kingpin to be absorbed solely by a support bearing that attacks on the kingpin. However, with this type of storage you are on small The diameter of the faceplate, because with a larger diameter there is a risk of that the faceplate bends around the circumference.

The subject of the invention is a vertical lathe, in which difficulties which occur in the known constructions are avoided. According to the invention will be at a Carousel lathe creates the V-shaped sliding surfaces replaces that the face plate is supported on rollers or roller bearings, their running surfaces Parts of the mantle of a cone are whose tip is at the intersection of the tread the face plate lies with its axis of rotation. Let by the application of the invention Large-diameter carousel lathes can also be manufactured without the need for the Drive power to be expended is too great. The kingpin takes over the radial guidance, which can be stored in plain or roller bearings. A special support camp on King pin for setting the oil air is superfluous. Particularly useful is, it, the individual axes of the rollers or roller bearings - each individually adjustable in height to do what: offers a particularly easy way of overloading the individual Rollers or roller bearings to prevent.

It is useful to use carousel lathes with a subdivided faceplate, So with a core disk and an annular disk, each of these disks for itself on rollers or roller bearings, and a special radial one for the washer Provide guidance so that it can be driven separately from the core disc.

The rollers or bearings can be stored in the faceplate or in the substructure. For this purpose you can z. B. a special support ring, in which the rollers or roller bearings are mounted, on the substructure. Preferably, however, the rollers or roller layers will be in individual bearing blocks to store. With special devices, preferably eccentrics, the The height of the bearings is adjusted accordingly. The bearing blocks are expediently designed in such a way that that they can give a little under great pressure, but too great a yield is prevented by an additional support. A design is particularly favorable in which the individual bearing blocks are resiliently supported (steel springs or rubber), so that small inaccuracies in the setting compensate for themselves. Here it is> particularly useful to use rubber for the suspension, since one can reduce the dimensioning the rubber pieces can be chosen so that with increasing pressure on the rubber the compression of the rubber increases less than linearly.

Various exemplary embodiments of the invention are shown in the drawing shown.

In Fig. I, an embodiment of the invention is shown schematically. The planar disk is designated with il, which is connected to the shaft journal 2; (King pin) is firmly connected, which takes over the radial guidance. The drive of the faceplate takes place via the gear 7. A running surface 31 is firmly connected to the face plate, which consists of hardened steel and preferably, as shown in Fig.2, from individual segments 3 is composed, which are lined up with space between them are. The roles 4 also exist. made of hardened steel. They are in a U-shaped Ring 5, stored, namely- is the only schematically shown Zapfen to which the roller rotates, eccentrically. So that you can adjust the height of the bearings. The rollers 4s are made conical, and the storage is made so that only rolling friction occurs, but not sliding friction. The axes of the rollers are therefore inclined to the horizontal in such a way that the axes are mutually aligned intersect with the axis of the king pin at a point that is the same as the intersection the plane of the tread coincides with the axis of the king pin. One can but also the axes must be horizontal, but then the running surfaces, of course, are conical form.

Fig. 3 shows schematically an embodiment in which the rollers 4 are stored in the faceplate i and the running surface 3 is attached to the substructure is. Here, too, you will be supported by suitable devices such. B. by eccentric, for it ensure that the rollers can be adjusted accordingly in height. Even the same applies here to the inclination of the axes; like it, according to the arrangement Fig. I is executed.

As already mentioned, roller bearings can be used instead of rollers use, and you will preferably each role or each roller bearing in a special Store the bearing block, which makes adjustment easier :. Like this storage is detailed, is based on: this embodiment of FIG. 6 and 7 still described: will.

It has already been mentioned at the outset that with a subdivided Face plate, which consists of a core disc and an annular disc, the annular disc is supported separately by rollers and also one special for this washer radial guide is provided. This is shown in FIG. 4. The faceplate consists in the embodiment of FIG. 4 from the core disk i and the annular disk i i. The two disks could be through a coupling shown only schematically r3 are connected to each other. The storage and the drive of the core disk are the same as in the arrangement mach Fig. i. The annular disk ii has two Treads 1q; made of hardened steel, which, similar to FIG. 2, consists of individual segments can exist. - The running surfaces are supported on conical rollers 4, uni; the position of the axes is again such that only rolling friction occurs. Here, too, as shown in FIG. 3, the running surfaces can be mixed firmly Connect to the subsurface and store the rollers in the ring disk vi. To the radial To achieve guidance of the annular disk i) x, roller bearings i5 @ are provided, which in the exemplary embodiment are connected to the washer and are on the circular circumference of a with roll off the part 16 connected to the substructure, which in turn has a hardened running surface i7! owns. In the Ausfüh: approximately example of Fig.4 is generally provided special drive for the washer is not shown.

In Fig. 5, the roller bearings i-51 and are for part of this scope the roller bearings 4 shown, How in detail the roles resp. Rolling bearings are formed, FIG. 6 shows. Here, the rolling bearing consists of two Ball bearings 2i which are provided with a conical ring 22. The ball bearings are mounted around a bolt: 23i which, as can be seen from FIG. 7, is eccentric to the axis of the ball bearing is so that by twisting the bolt the height of the ball bearing can be adjusted. As already mentioned, the inclination of the axis is chosen so that that only a rolling, but no sliding friction occurs. With 211 is the bearing block is called. It is supported on pieces of rubber 25 "which are so dimensioned. are that with increasing load the compression is not linear, but less as linear. The rubber is compressed by screw bolts 26 so that that the screws are practically relieved after the faceplate has been placed. Through the Rubber spacers ensure that the bearing block has a certain flexibility so that it adjusts itself correctly in the event of inaccuracies. Included is caused by a projection 27 that the flexibility of the bearing block is limited will..

Claims (2)

PATENT CLAIM: i. Carousel lathe, characterized in that the faceplate is supported on individual rollers or roller bearings, their running surfaces Parts of the mantle of a cone are whose apex is at the intersection of the tread with the axis of rotation. the faceplate lies. 2. Carousel lathe according to claim i, characterized in that d: ate the individual. Rollers or roller bearings are stored in the face plate. , 3. Carousel lathe according to claim i, characterized in that the rollers or roller bearings are mounted in the substructure. q .. vertical lathe according to claim i, characterized in that the roller bearings are built into a conical ring. 5. Carousel lathe according to claim i, characterized in that the axes of the rollers or roller bearings are each adjustable in height. 6. Carousel lathe according to claim 5, characterized in that each roller or each roller bearing can be adjusted by an eccentric. 7. Carousel lathe according to claim i, characterized in that each roller or each roller bearing is mounted in a special bearing block. B. carousel lathe according to claim 7, characterized in that the bearing block itself is resiliently mounted. G. Carousel lathe according to Claim 8, characterized in that the movement of the bearing block is limited. ok Carousel lathe according to Claim 8, characterized in that the resilient mounting takes place by using rubber intermediate layers which are dimensioned such that the compression increases less than linearly with increasing load. i r. Carousel lathe according to Claim i, characterized in that the running surface for the rollers or roller bearings consists of steel. 12. Carousel lathe according to claim ii, characterized in that the running surface consists of individual polygonally lined up segments, between which there is a gap which is inclined against the radial direction. 13. Carousel lathe according to claim i, characterized; that when using a core and ring disk consisting of. Face plate also the ring plate is supported on rollers or roller bearings and has a special radial guide. 1q .. vertical lathe according to claim 13, characterized in that the radial guidance takes place by rollers or roller bearings.