DE2461325B1 - Plain bearings for bridges or similar structures - Google Patents

Description

F i g. 2 shows the lower bearing plate 5, in the recess 7 of which the ring 6 forming the socket and the bearing plate 4 made of PTFE are inserted, wherein Ring 6 and bearing plate 4 are in a no-load condition. It is in this state the ring 6 slightly higher than the bearing plate 4; there is also a vertical annular gap 8 between ring 6 and bearing plate 4. The annular gap 8 closes under the load of the bearing in a relatively short time due to lateral creeping of the PTFE bearing plate Time. During this time there will also be limited creep of the ring 6, until its height and the height of the storage space

te 4 adjusted to the same level. Once this level is reached, a state of equilibrium occurs in which the bearing plate 4 and the ring 6 are vertically loaded by the same pressures. With precise dimensioning There is no need for an annular gap between the ring and the bearing plate.

In the embodiment according to FIG. 3 is just the ring 6 in a recess 9 of the lower bearing body 5, while the bearing plate 4 rests on the surface of the bearing body. The ring 6 consists only in his upper part 10 made of polyacetal or polyamide; the lower ring part 11 can consist of a Any rigid material that goes well with polyacetal or polyamide associate. z. B. glue and / or interlock, can.

In the embodiment according to FIG. 4 is with a curved sliding surface in the top of the lower bearing plate 5, for example for a spherical bearing, one Introduced in cross-section semicircular groove 12, on the inner shape of the ring 6 is adapted. The lower rounding of the ring makes canting easier be balanced. At the top of the ring 6 has recesses 13 in the form of Grooves that make it easier to adjust the height of the ring under load by using Promote material deformation.

In the embodiment according to FIGS. 5 and 6 is the ring 6 structured; from an inner ring part 14 are outwardly in the radial direction Ribs 15 off. The ring can be composed of individual segments, of which in Fig. 6 one is shown. The segments can initially be straight, that is in stock, and then in each case according to the shape or diameter the bearing plate 4 are curved.

Claims (6)

Claims: 1. Plain bearings for bridges or the like. Buildings with two mutually displaceable rigid bearing bodies with flat or curved ones Sliding surface that is enclosed by a mount in one of the bearing bodies Bearing plate is made of polytetrafluoroethylene (PTFE), d a - characterized by, that the bearing plate (4) is completely embedded in the socket and that at least a part of the mount adjoining the sliding plane made of a hard-elastic, Material with good sliding properties consists of creep deformations only very limited, namely to a lesser extent than PTFE. 2. Plain bearing according to claim 1, characterized in that the material Is polyacetal or polyamide 3. Plain bearing according to claim 1, characterized in that that the socket consists of an articulated ring (6). 4. Plain bearing according to claim 3, characterized in that the ring (6) an inner closed ring part (14) and protruding radially outward therefrom Has ribs (15). 5. Plain bearing according to one of claims 1 to 4, characterized in that that the mount depressions in its surface adjoining the sliding plane (13) has 6. plain bearing according to one of claims 1 to 5, characterized in that that the socket in the unloaded state slightly over the sliding surface of the bearing plate (4) protrudes. The invention relates to a slide bearing for bridges or similar structures with two mutually displaceable rigid bearing bodies with flat or curved Sliding surface that is enclosed by a mount in one of the bearing bodies Bearing plate made of polytetrafluoroethylene (PTFE) is more recent findings assume that in known PTFE bearings (German Patent 12 63 805), at which the bearing plate made of PTFE protrudes over the socket, for very large loads There is a risk of PTFE creeping out in the gap area between the bearing plates Consequently, there is a limit to the load on such bearings, the exact limit of which Establishing it is difficult though. Because of the collateral to be demanded is therefore the range of application of the known plain bearings is limited. To improve this known construction, the creep of the PTFE not prevented in the gap area, sees another, well-known solution (German Auslegeschrift 2237 237) suggests that one or more of each other in the PTFE plate coaxial reinforcement rings are embedded at a distance from the sliding surface, of one or more of which are firmly connected to the bearing plate carrying the PTFE plate could be. This known proposal restricts the creep of the PTFE. The invention is based on the object of a plain bearing The type mentioned at the beginning of preventing the creeping of the PTFE and thus the justifiable Area for the use of sliding plates made of PTFE too enlarge. According to the invention this object is achieved in that the bearing plate is completely embedded in the socket and that at least one on the sliding plane subsequent part of the frame made of a hard-elastic, good sliding properties having material exists, the creep deformation is only very limited, namely to a lesser extent than PTFE. We think of materials that have a suitable rigid mount for Represent the chambering of the PTFE sliding plate and at the same time under the vertical Load on the bearing allow a slight, albeit limited, creep deformation. As a result, the level of the is automatically equalized under load Sliding surfaces of the PTFE plate on the one hand and its mount on the other. The upper The bearing plate then lies evenly with its sliding layer on the PTFE bearing plate and on the frame. Materials that are currently known and have such properties are Polyacetal or polyamide. The prerequisite for the aforementioned height adjustment of the socket is that the socket in the unloaded state slightly over the sliding surface of the bearing plate protrudes. To make it easier to adjust the height of the socket, the socket consist of an articulated ring or in its adjacent to the slip plane Have surface depressions. A preferred embodiment because of its manufacturing advantages consists in that the ring has an inner closed ring part and from this having radially outwardly projecting ribs. This ring shape allows for an easy Bending of ring pieces initially produced in a straight line, according to, is preferred circular, circumferential shape of the PTFE bearing plate. Several exemplary embodiments of the invention are described below Hand of the drawing explained. It shows F i g. 1 a vertical section through a plain bearing, F i g. 2 to 5 each have a vertical partial section through the edge area of the lower one Bearing body of different embodiments and FIG. 6 the top view of a portion of a ring forming the socket. In the case of the plain bearing according to FIG. list on the upper part of the structure 1 attached upper bearing body 2, which carries a slide plate 3 on its underside. The sliding plate 3 rests on a bearing plate 4 made of PTFE, which is in a recess the lower bearing plate 5 is seated and bordered on its outer circumference over its full height is through a ring 6 made of polyacetal or polyamide. The lower bearing plate 5 is attached to a lower structural part 16. The sliding plate 3 of the upper bearing body 2 slides on both the PTFE bearing plate and the top of the ring 6.