DE1949787A1 - Hydrodynamic sliding shoe bearings for drums, in particular tubular mill drums - Google Patents

Description

Hydrodynamic slide shoe bearings for drums, in particular tubular mill drums.

The invention relates to a hydrodynamic sliding shoe bearing for Slow-running drums with a large outside diameter, in particular tube mill drums.

The storage of such tube mill drums can either be at the so-called Tube mill neck, i.e. at the drum ends, or in special storage stations, which support the drum cylinder in two places. The latter type of storage has the advantage that the storage stations over the length of the drums can be arranged so that there is minimal deflection of the drum? and that in addition the tube mill neck for the entry or discharge of the to be processed Outes or for the arrangement of the drive devices remains free.

The invention deals with single storage stations, the Each from a running ring with an endless running surface attached to the circumference of the drum and several in a bearing foot one behind the other in the direction of movement of the raceway and sliding blocks arranged to be tiltable on all sides.

The formation of the hydrodynamically acting sliding blocks is more familiar Way in such a way that the sliding surface is rectangular, more long than wide Owns shape. Transverse grooves are provided in the sliding surface through which a lubricant is fed.

The main disadvantage of such hydrodynamic sliding shoe bearings in the case of tube mill drums, the conditionally large diameter results in the circumference races attached to the drum. These races that make up an endless tread must have, in practice there will always be deviations from their geometrically optimal X rice shape. Even if it succeeds with considerable effort, this race Without making any noteworthy deviations from the circular shape, in the course of the operation of the thermally loaded rotary mill drum deformations do not avoid. This now results in terms of the load-bearing capacity of the individual There are considerable differences between the sliding blocks, as a deformed raceway results in a more even, constant support gap between the individual sliding shoes and the race is not can be adhered to.

It is therefore the object of the invention to create a storage at to better compensate for the deviations from the geometrically optimal shape of the raceway so that a uniform support gap, i.e. a smooth one.

Wear of all sliding shoes is guaranteed.

This object is achieved according to the invention in that the sliding shoes are designed as circular blocks with a circular sliding surface.

The measure according to the invention initially includes the decisive one The advantage that the sliding surface supporting the raceway consists of a much larger one Number of small segments, i.e. sliding shoes, with constant measurement angle of the bearing foot can be formed than is the case with the elongated, rectangular ones Gliding shoes is possible, whereby in each case the compensation of a deformation of the Running ring, i.e. an equalization of the support gap, is achieved.

This advantage can be achieved with: a sliding shoe bearing with rectangular Do not achieve sliding shoes under any circumstances.

Theoretically, the sliding shoes could be shorter in the longitudinal direction, e.g. square, in order to keep the angle of the circumference the same a number of rectangular sliding blocks that can be achieved when using ice blocks to be arranged, but such a sliding shoe storage is not feasible in practice. Gliding shoes must namely generally longitudinally from one another have a sufficiently large distance to allow a perfect exchange between them of heated lubricant against cold lubricant.

This distance is now very small when using circular blocks Can be selected because the circular sliding surfaces of two adjacent circular blocks are in contrast to the sliding surfaces of rectangular sliding shoes away from each other and thus always have a sufficient distance for the proper exchange of lubricant. When using rectangular sliding shoes, however, there is a relatively large minimum distance necessary so that as the number of sliding shoes increases, the sum of the individual sliding surfaces, So the total load-bearing capacity of the sliding shoe bearing decreases, and the storage for the intended purpose, namely as a hydrodynamic sliding shoe bearing for low-speed, heavy drums with a large outside diameter, in particular tube mill drums, are not is more usable.

Another advantage of the sliding shoe mounting according to the invention results through the optimal use of the installed sliding surface with regard to their Load capacity.

This is easily possible with circular sliding surfaces because they are evenly supported by the circular block without any constructive effort, whereas rectangular sliding shoes have the disadvantage that as a result of the all-round Can be tilted, i.e. point-like mounting and as a result of slight deflection the sliding shoes in the area of the outer Edge corners not the entire The sliding surface can be optimally used for carrying.

In an advantageous embodiment of the invention it is provided that the sliding surfaces of the circular blocks and the running surface of the spherical cap race whose centers lie on the drum axis. This results first of all manufacturing advantages, as e.g.

the circular blocks and their sliding surfaces on a normal lathe can be edited, and on the other hand, advantages in terms of setting of the camp, as complete and unhindered adjustment in every company location Due to the spherical shape of the opposing surfaces of sliding shoes and Race and the separation of these surfaces caused by the lubricant pad errctellt wlrd.

The supply of the lubricant for the hydrodynamically acting Sliding shoe storage is expediently carried out by means of ring channels in the sliding surfaces the circle @ lotze laying on the outer edge of the spherical cap ange @@@ net and with a lubricant supply device are connected. Because this sliding shoe storage is constantly driven with a reasonable excess of lubricant, results by draining the excess lubricant over the outer edges a ring channel provides complete protection against contamination of the sliding surfaces of the relevant sliding shoe.

Another advantageous embodiment of a sliding shoe mounting according to the invention arises due to the circular shape of the sliding shoes, whereby in the bearing foot for Recording each of a circular block running in the radial direction, through the Bores that go through the bearing foot and are open on both sides can be arranged, their lower openings for exchanging the circular blocks by means of round support covers are locked. This cover construction is with a known storage with rectangular Gliding shoes only possible with a large amount of space, since normally between the individual sliding shoes too little space remains to cover the heavily loaded support cover to be structurally accommodated and still to be adequately fastened. When using the Lid construction, the individual circular soldering can be removed from the bottom of the bearing foot without lifting the grinder drum or dismantling it the drive device usually arranged on the neck of the mill must be carried out.

Before starting the heavily loaded slide bearing, it is necessary to that lubricant hydrosta @@@@ by means of a high pressure pump or similar between the Sliding surfaces is pressed. It is therefore appropriate that in the sliding surfaces of the Circular blocks are arranged in diameter small, concentric annular grooves, the connected to a high-pressure lubricant pipe by means of a lockable line are. The shut-off of the hydrostatic lubricant.

is carried out immediately after the start-up process has ended.

It is advantageous if each ring groove also has a pressure gauge connected, so that one at any time during operation the burden of the individual Determine sliding shoes using the hydrodynamic pressure on the ring groove and that can check that all sliding blocks of a bearing are worn evenly.

An exemplary embodiment of the invention is described below with reference to FIG Drawings described in more detail. They show: FIG. 1 a cross section through a hydrodynamic Gliding shoe storage according to the invention, Figure 2 is a cross section through a Circular block for use in a storage according to FIG. 1.

Figure 1 shows a drum S, for example a tubular mill drum, on its A running ring 4 is attached to the circumference.

This race ring has an endless running surface. across the tread of the race 4, the drum is arranged by a number in the bearing foot 5 Circular blocks 6 supported.

The special training of a circular block, as well as the storage and Accommodation of the same in the bearing foot 5 is shown in FIG. 2. Each circular block 6 has a sliding surface 7, which is designed as a spherical cap.

The counter sliding surface, i.e. the running surface of the race -4- is also designed as a spherical cap and both centers lie on the axis of the drum 3. In the sliding surface 7 there is a concentric annular groove 8 which, among other things, has the bores 9 in the circular block with a high-pressure lubricant source in connection stands. When the drum starts up, the sliding bearing is first of all over this annular groove 8 hydrostatically lubricated until a hydrodynamically load-bearing lubricant layer is formed is. This small in diameter, concentric annular groove 8 has compared to the known, also centrally arranged Uraschen or troughs for applying a hydro-'static start-up lubrication has the advantage that through the annular groove 8 the hydrodynamic Lubricant pressure is influenced to a significantly lesser extent than when it is used of hollows or pockets is the case.

The lubricant supply for hydrodynamically acting lubrication takes place via bores 10 in the -Kreiskiotz 6, which open into an annular channel 11. The annular channel 11 is located on the outer edge of the spherical cap Sliding surface 7. The surface 12 still present outside of the annular channel 11 will not more related as a load-bearing sliding surface and is accordingly faced.

Because such plain bearings are operated with an excess of lubricant and there continues to be the feed channel 11 as an annular channel, which is the actual sliding surface 7 completely encloses, is formed, is advantageously trespassed by of the excess lubricant over the edge surface 12, a penetration of dirt or the like completely prevented.

The circular block 6 is in the bearing foot 5 by means of a plate spring 14 mounted tiltable, which also provides the fixation in the radial direction to the block axis takes over.

The bore 13 passing through the bearing foot 5 is on both sides open, although the lower opening is closed by means of a round support cover 16 which can be designed as a threaded cover as well as a flange cover, This advantageously enables the circular block to be replaced without that the drum must be raised.

In the embodiment shown in Figure 2, the support cover 16 designed as a flange cover, and has a centrally arranged pin 17, which is led into the circular block and against this by means of a lip seal 18 or similar is sealed. Through the pin takes place by means of a bore 19 the supply of the lubricant for the hydrostatic start-up lubrication. Will after the start-up process, the supply of lubricant through the bore 19 set, remains through the annular groove 8 and the holes 9 in-the drilling 19 a hydrodynamic lubricant pressure, which is a measure of the load-bearing capacity of the circular block represents.

This pressure is expediently measured using a manometer or similar.

scanned, whereby an inventive not only during assembly The correct setting of all blocks can be made, but rather the uniform wearing of all circular blocks continues to be monitored during operation can be.

The lubricant supply for the hydrodynamic lubrication of the Circle block is also carried out in the illustrated embodiment by the Support cover 16 through. For this purpose, separate bores 20 can be made in the support cover provided.be, which open into the closed space below the Xeller spring 14, which in turn is connected to the annular channel 11 via the bores 10.

-Patent claims -

Claims (6)

P a t e n t a n s p r u c h e 1. Hydrodynamic sliding shoe bearing for low-speed drums with large outside diameters, especially tube mill drums, consisting of a running ring with an endless running surface attached to the circumference of the drum and several in a bearing foot one behind the other in the direction of movement of the raceway and sliding shoes arranged to be tiltable on all sides, characterized in that the sliding shoes are designed as circular blocks (6) with a circular sliding surface (7). 2. Apparatus according to claim 1, characterized in that the sliding surfaces (7) the circular blocks (6) and the running surface of the raceway (4) are spherical caps, whose centers lie on the drum axis. 3. Apparatus according to claim 1 or 2, characterized in that in the sliding surfaces (7) of the circular blocks (6) resting against the outer edge of the spherical cap Arranged with a lubricant supply device connected annular channels (il) are. 4. Device according to one of the preceding claims, characterized in that that in the bearing foot (5) for receiving a respective circular block (6) in radial Directional, open on both sides, passing through the support shell Bores (13) are arranged, the lower openings for replacing the circular blocks by means of round Carrying cover (16) are closed. 5. Device according to one of the preceding claims, characterized. that in the sliding surfaces (7) of the chalk blocks (6) small, concentric in diameter Annular grooves (8) are arranged, which by means of a lockable line with a Lubricant high pressure source are connected. 6. Apparatus according to claim 5, characterized in that each annular groove (8) is connected to a pressure gauge.