SU748051A1 - Sliding-contact bearing - Google Patents

Description

(54) SLIDE BEARING

one

The invention relates to mechanical engineering and can be used in the supports of various machines and mechanisms.

A comb-shaped sliding bearing is known, which contains movable and stationary elements with an internal ridge fixed respectively on them and an external ridge enclosing it, made in the form of sleeves with stepped working surfaces i.

However, this bearing has insufficient bearing capacity due to the insignificant area of the bearing surface.

The aim of the invention is to increase the bearing capacity of the sliding bearing.

This goal is ensured by the fact that in a sliding bearing containing movable and stationary elements with an internal ridge fixed on them and an external ridge surrounding it, the crests are made in the form of corrugated rings fixed in the circumferential direction and mounted alternately on the stationary and movable elements.

At the same time, the extreme corrugated rings are made thicker than the intermediate ones and are connected to the fixed element.

Moreover, the connection of one of the extreme corrugated rings with the fixed element and the adjacent corrugated ring with the movable element is fixed, and the connection of the other extreme ring with the fixed element is movable in the axial direction, while the intermediate rings are axially displaceable.

In addition, the corrugations can be made rectangular and triangular in cross section, and the connection of intermediate corrugated rings with moving and stationary elements can be splined. In this case, the spline protrusions of the spaced corrugated rings are L-shaped, the intermediate corrugated rings are installed with the possibility of the contact of their spline protrusions.

In addition, the ends of the spline protrusions of the intermediate corrugated rings can be located on one side of each of the rings or on both sides of each of the rings with alternation in the circumferential direction.

FIG. 1 shows a bearing with rings having corrugations, a slit; in fig. 2 is a bearing with rings having rectangular corrugations, a slit; in fig. 3 - ring with triangular corrugations and L-shaped spline protrusions; incision; in fig. 4 is a view A of FIG. 3.. The sliding bearing contains movable and fixed 2 elements in the form of sleeves, on which are fixed, respectively, the inner and outer outer ridges covering it, made in the form of corrugated rings 3 and 4, which are interlaced with movable 1 to fixed 2 elements. The corrugations of the rings are made concentric, triangular or rectangular profile, and the connection of intermediate corrugated rings 3 and 4 with movable 1 and fixed 2 elements is made splined. Extreme corrugated ring 5 is connected with a stationary element 2 by pressing and plastic deformation of the latter and recess 6 on a corrugated ring 5. Extremely on the opposite side, the corrugated ring 7 is connected with a stationary element 2 by a thread and fixed from turning by a clamp 8 in the form of an elastic plate placed in the radial the groove of the fixed element 2. On the perimeter of the adjacent end of the element 2 made several grooves (not shown). to place the retainer 8 while fixing the ring 7 against twisting along the thread. The corrugated ring 9, adjacent to the extreme corrugated ring 5, is made of increased thickness and is connected to the movable element 1 by pressing and plastic deformation into the recesses 10 made on it,

The fixed joints of the corrugated rings 5 and 9 with the fixed 2 and movable I elements can be made by other known methods.

The movable 1, the fixed 2 elements and the outer corrugated rings 5 and 7 are connected channels 11 - G4, the lubricant supply to the gaps between the corrugated rings 5 and 7, the seals are made in the form of elastic elastic rings 15, and the ring grooves of the rings 5 and 7 .

Between the peaks and valleys of the corrugations of adjacent rings, gaps 16 are made; there are more working gaps between the corrugated rings 3-5, 7 and 9 in the axial direction due to the difference of the radii of the peaks of the protrusions and the bottom of the depressions.

The grooves 17 and 18 are used for the installation of the nose bolt in order to fix the movable 1 and fixed 2 elements against rotation of the sub-support parts; go node.

The bearing works as follows.

When element 1 is rotated, the corrugated rings 3 and 9 rotate with it, while the remaining rings are fixed. The lubricant from channel II in the movable element 1, interacting with corrugated rings 3-5, 7 and 9 under the action of centrifugal forces along the gaps between these corrugated rings flows into the channel 12 of the fixed element 2, and from it through the channels 13 and 14 in the outer corrugated rings 5 and 7, to channel 1I and so on.

Corrugated rings 19-23 are made with rectangular concentric corrugations. The leftmost corrugated ring 19 is made of increased thickness and the connection is fixed with a fixed element 2, for example by welding. The outermost corrugated ring 23 on the opposite side is also made larger.

„Thick, connected to the stationary element 2 by a threaded connection and filled from a twist along the thread, such as core cutting. The intermediate corrugated rings 20 and 22 are connected to the movable element 1, and the intermediate corrugated ring 21 is connected to the fixed element 2 by means of a shlitsevy joint. The intermediate corrugated rings 20 and 22 slit protrusions 24 are L-shaped, and the corrugated rings 20-22 are installed with the possibility of contact slit protrusions 24 with one another. At the same time, the ends of the slider protrusions 24 are located on one side of the rings 20, 21 and 22. Alternatively, the ends of the slit protrusions (and the slit-type outcrops 28 will bend 5, you are to the other side) 25 and 26 can be located along the circumference of each of the rings 20, 21 and 22 with alternation in the circumferential direction.

The invention allows several times to increase the carrying capacity of the support of a reduced size.

Claims (2)

1. A sliding bearing comprising a movable and stationary elements with, respectively, an inner crest attached to them and an outer ridge enclosing it, characterized in that in order to increase the carrying capacity, the ridges are made in the form of corrugated rings fixed in the circumferential direction and mounted alternately on a moving element. 2. A bearing according to Claim 1, characterized in that the extreme corrugated rings are made thicker than the intermediate rings and are connected to the fixed element. 3 Bearing no PP. 1 and 2, characterized in that the connection of one of the extreme hcx () of the dirring rings with the fixed element and the adjacent corrugated ring with the movable element is made stationary, and the connection of the other extreme ring with the fixed element is movable in the axial direction, while the intermediate the rings are mounted for axial movement. 4. Bearing on PP. 1, 2 and 3, characterized in that the corrugations are rectangular in cross section. 5. Bearing on PP. 1, 2, 3, characterized in that the corrugations are triangular in cross section. 6. Bearing on PP. 1, 2, 3, 4 and 5, characterized in that the connection of intermediate corrugated rings with movable and fixed elements is splined. 7. Bearing on PP. {, 2, 3, 4, 5 and 6, characterized in that the slotted protrusions of the intermediate corrugated rings are L-shaped, and the intermediate corrugated rings are installed with the possibility of contact between their schlintsev protrusions. 8. Bearing on PP. 7, characterized in that the ends of the schlintz protrusions of the intermediate corrugated rings are located on both sides of each of the rings with alternation in the circumferential direction. Sources of information. taken in a non-mania under examination I. P. Orlov. Fundamentals of Design M., “Masha Ostrognie, 1972, p. 388, fig. 419. FIG. i g, 3