DE10244989B4 - balancing construction - Google Patents

Abstract

Compensation structure for bridging a gap in railway bridge construction, with a compensating plate and bearings for this, over which the compensating plate is mounted rotatably on top ends or a superstructure and an abutment, wherein the bearings are designed as Punktkipplager, characterized in that in each case a bearing (14) a pivot bearing (28) and a separate from this plate-shaped elastic body (42), that the pivot bearing (28) on the upper side of a support plate (32) is supported, that the elastic body is part of a bearing block (50) of the pivot bearing (28) and is received substantially over the entire surface between the support plate (32) and a bearing body (48) and has a horizontal extent, which projects beyond the pivot bearing (28).

Description

The The invention relates to a compensation construction, according to the preamble of claim 1.

Such a compensation construction is out DE-OS 198 06 566 known. This solution is characterized by the fact that even with bridges of greater length, the movements of the joints can be absorbed. A compensating plate bridges the gap and in particular the critical end tangent angle of the track, which generates considerable and dangerous lifting forces at the rail supports, is reduced by a multiple.

These solution is indeed extremely favorable compared to the previously known solutions. In the realization of the so-called slab track, so one ballast-free track laying, are high demands on the bearings for the compensating plate to deliver. On the other hand allowed the costs are not increased too much be compared to the expected cost advantages of slab track Do not turn gravel construction into the opposite direction.

Out the cited publication are for the storage of the balance plate on the superstructure elastic or sliding sliding bearings known. such Stock can for example, as a large volume elastomer blocks be realized, or by a combination of a sliding disk and a sliding plate that rest on each other and the desired ones Perform movements. With regard to the available standing height it is necessary to adjust the height such bearings limited to, for example, less than 200 millimeters to keep.

One Elastomer body, who is under load behaves in terms of its volume change like a non-compressible liquid. It is known elastomer body therefore produce with concave side surfaces, leaving the side surfaces are substantially straight under load. With correspondingly high Last creates a fairly soft storage with the possibility the horizontal shift.

on the other hand Such elastomeric bearings are in terms of durability limited. The material load and deformation is not insignificant. moreover arises just in the operation of such a compensation plate in Train station area with frequent Load changes a flexing work, especially at high ambient temperatures for the elastomeric bearing has a burdening effect and further reduces the durability, so that the desired Durability of 20 years is not achievable in such solutions.

Further it is known in the other context, elastomeric bearings with embedded horizontal plates, which reduce the deformation should. Although the tendency to deformation of such an elastomeric bearing lower. On the other hand, such a bearing against shear forces and other forces stiffer, so that the burden of the elastomer material itself still gets higher.

From the US Pat. No. 6,324,795 B1 In addition, an elastic storage for earthquake-prone structures is known in which in addition to a bearing block made of an elastomer, an additional spherical bearing element is used, with the help of a part of the compensation movement is to be realized. Due to the necessary maximum horizontal as well as vertical freedom of movement of this camp, however, the elastomer block is also very large in this solution and is therefore subject to the same disadvantages as described above.

From the DE 698 913 A is a movable support with balls for structures, in particular for bridges known, in which by the distribution of the total load on a plurality of balls, the point load per ball is to be reduced. A compensation of small differences in height, which may be caused by different diameters of the individual balls due to Festigungstoleranzen or wear and by a not completely flat support of the balls should, by relatively soft metal plates (soft metal systems k and l), which in turn between elastic metal plates (steel plates d and f) and the bearing body or the base plate are balanced. However, the ball bearing can not compensate for inclination of the bearing body relative to the base plate, while at the same time losing the advantage of uniform load distribution on the plurality of balls.

Therefore The invention is based on the object, a compensation construction for the Railway construction according to the generic term Of claim 1 to provide, which is particularly durable, without the available to exceed standing space, wherein Nevertheless, the costs, especially the maintenance costs, low should be.

These The object is achieved by claim 1 solved. Advantageous developments emerge from the subclaims.

The compensating construction according to the invention is characterized by the realization of a pivot bearing in combination with an elastic body which, in its horizontal extent, significantly exceeds the extent of the pivot bearing. It is particularly favorable when the pivot bearing is combined with a plain bearing. A plain bearing can be extremely durable when using suitable materials such as UHMW, but only if sicherge represents is that the sliding disk is always guided parallel to the sliding plate.

Though is a pivot bearing basically able to skew to compensate. The pivot bearing can, for example, as Punktkippgleitlager be educated. Such a bearing has a socket and a joint head, which fit together and good pressure resistance are. Even with the use of lubricants is the stiction of the pivot bearing greater than its sliding friction. this leads to but to the fact that when addressing the compensating plate when driving over the bridge by a train the inclination initiated until the pivot bearing in the sliding bearing would. According to the invention is this the elasic body provided, even with tilting forces responds and prevents the slide bearing from responding of the pivot bearing, so until the pivot bearing is deflected, obliquely.

Surprised let yourself with the inventive solution of Combination of a pivot bearing with a torque-safe, so that Pivot bearing horizontally towering elastic body, the response delay compensate for the pivot bearing so that the entire construction essential will last longer.

It is understood that according to the invention, the exact configuration of the elastic body is adaptable to the requirements in many areas. In an advantageous manner Embodiment may, for example, an additional vertically extending Elastic body provided be who also side forces absorbs elastic.

After this the main bearing forces but according to the invention by the permanently deflectable pivot bearing and possibly the sliding bearing are absorbed, introduced into the elastic body load clearly, for example by a power of ten, lower than at the use of pure elastomeric bearings.

Also if according to the invention the pivot bearing without Plain bearing is realized according to the invention results in the favorable effect the improvement of the responsiveness of the pivot bearing. The Construction stressful vibrations are damped.

During the elastic body If necessary, also provided between the compensating plate and pivot bearing can be, it is in accordance with the invention advantageous embodiment provided, the elastic body to integrate in the bearing block of the pivot bearing.

By a height adjustment of the pivot bearing leaves An on-site adjustment even in difficult installation situations realize.

Surprised is the invention required height so small that the realization of the compensation structure according to the invention also with tight on-site dimensions is possible. For example, can the height 200 mm or even less. For this purpose, the ball pressure screw is preferred or dome screw of Punktkippgleitlagers sunk in the bearing body, and the bearing forces be over Adjusting nut of ball pressure screw, the support nut, received.

Further advantages, details and features will become apparent from the following description of two embodiments with reference to the drawings:
Show it:

1 a section through a part of a compensation structure according to the invention in one embodiment;

2 a section through the embodiment according to 1 but in another illustration;

3 an enlarged detail 2 ; and

4 a plan view of the lower part of the bearing according to the invention.

A compensation construction 10 has in the embodiment according to 1 a compensating plate 12 on, over several camps, one of which camp 14 is shown supported on a non-illustrated bridge abutment or superstructure.

The compensation plate 12 is at its bottom in the areas to be supported, with sliding sheet 16 provided that part of a sliding bearing 18 forms.

The plain bearing 18 also has a sliding disk 20 made of a plastic with low coefficients of friction such as PTFE. It is particularly favorable if the sliding disk 20 is made of ultra-high molecular weight polyethylene which has a coefficient of friction comparable to PTFE, but is much more durable.

The sliding disk 20 is on a calotte body 22 picked up, a sealing lip 24 supported by the sliding disk 20 going out on the sliding plate 16 supported. The interior thus formed is provided in a manner known per se with lubricant, wherein it is also possible to provide a lubricant supply for the permanent lubrication.

The calotte body 22 is suitable for a calotte screw 26 educated. The dome screw 26 and the calotte body 22 form condyle and socket of a pivot bearing 28 , The pivot bearing 28 is about an adjustment of the dome screw 26 height-adjustable. This is a support nut 30 provided in a support plate 32 partially protruding and partially supported on the top of the support plate. The support nut 30 points as well as the dome screw 26 a hexagonal area 34 and 36 on, and by adjusting the relative angular position between dome screw 26 and support nut 30 is the height of the pivot bearing 28 adjustable.

The angular positions can each be about fixing screws 38 and 40 set, which are preferably executed sunk.

Out 2 it is apparent in what way the bearing according to the invention 14 with an elastic body 42 is provided. The elastic body 42 extends at the bottom of the support plate practically over the entire support plate away. In a conventional manner, it consists of elastomeric material and is at its edge regions 44 concave in the unloaded state.

In the embodiment according to 2 is the bottom 46 the support plate 32 this formed over the entire surface, while in the embodiment according to 1 a passage recess in extension of the dome screw 26 is provided. It is understood that in the embodiment according to 1 Nevertheless, an elastic body may be provided, which then preferably extends annularly or is divided if necessary to a plurality of individual elastic body.

How out 2 it can be seen, is the support plate 32 together with the elastic body 42 in a bearing body 48 added. The bearing body 48 extends substantially cup-shaped, and the combination of the support plate 32 , the elastic body 42 and the bearing body 48 forms a camp chair 50 for the warehouse 14 ,

How out 2 but also out 3 , it can be seen, is in addition a vertical, annular elastic body 52 provided, the elastic support of horizontal forces between the support plate 32 and the bearing body 48 serves. Also the elastic body 52 has in the unloaded state on concave side surfaces.

Out 3 can be seen in what way the elastic body 42 and 52 can deform in special load situations. Around 3 above is the state of both elastic body 42 and 52 shown in unloaded condition. In contrast, in 3 in the lower part of the state of the elastic body 42 and 52 shown, which is achieved when a load on the bridge by, for example, a train initiates an inclination of the balance plate. Until the combination of calotte body 22 and dome screw 26 from static friction to sliding friction passes, in addition to spring deflection in the area of a bearing chair 50 Moments that can absorb the elastic body according to the invention.

In the embodiment according to 3 The moments are determined both by the elastic body 42 as well as partially by the elastic body 52 recorded, and after response of the pivot bearing 28 in a manner known per se, a provision with respect to the recording of moments, but not with respect to the deflection. On the other hand, this short-term overshoot makes it possible to reliably prevent the track bearing from being destroyed or at least severely worn by the inclination. A particular loading problem with balancing plates for railway bridges is that the load introduction takes place suddenly and then exists as a combined movement, thus requiring both a response of the plain bearing and the rotary bearing. According to the invention exactly this load situation is taken into account by the elastic body.

Claims (14)

Compensation construction for bridging a gap in the railway bridge construction, with a compensating plate and bearings for this, over which the compensating plate is mounted rotatably on top ends or a superstructure end and an abutment, wherein the bearings are designed as Punktkipplager, characterized in that in each case a bearing ( 14 ) a pivot bearing ( 28 ) and a separate from this plate-shaped elastic body ( 42 ), that the pivot bearing ( 28 ) on the top of a support plate ( 32 ) is supported, that the elastic body part of a bearing chair ( 50 ) of the pivot bearing ( 28 ) and between the support plate ( 32 ) and a bearing body ( 48 ) is received substantially over the entire surface and has a horizontal extent that the pivot bearing ( 28 ) surmounted. Compensation construction according to claim 1, characterized in that between the pivot bearing ( 28 ) and the compensating plate ( 12 ) a plain bearing ( 18 ) is trained. Compensation construction according to one of the preceding claims, characterized in that the elastic body ( 42 ) is formed one or more parts. Balancing construction according to one of the above hergehen claims, characterized in that the elastic body ( 42 ) between horizontal surfaces, in particular on the support plate ( 32 ) and on the bearing body ( 48 ) extends. Compensation construction according to one of the preceding claims, characterized in that the elastic body ( 42 ) adjacent vertical surfaces extend, in particular on the support plate ( 32 ) and the bearing body ( 48 ), and that between the vertical surfaces another elastic body ( 52 ). Compensation construction according to one of the preceding claims, characterized in that the bearing block ( 50 ) for receiving the elastic body a space between the support plate ( 32 ) and the bearing body ( 48 ) substantially completely separated from the elastic body ( 42 ) is filled out. Compensation construction according to claim 6, characterized in that the intermediate space of the additional elastic body ( 52 ) is filled out. Compensation construction according to claim 6, characterized in that the bearing body ( 48 ) is substantially cup-shaped and its corner is free of elastic bodies. Compensation construction according to one of the preceding claims, characterized in that the pivot bearing ( 28 ) is designed as a height-adjustable bearing. Compensation construction according to one of the preceding Claims, characterized in that the pivot bearing as Punktkippgleitlager is trained. Compensation construction according to one of the preceding claims, characterized in that the pivot bearing ( 28 ) is supported on the Elastikkörper, which consists of elastomer. Compensation construction according to one of the preceding claims, characterized in that the sliding bearing ( 18 ) above the pivot bearing ( 28 ) in a conventional manner from a sliding disk ( 20 ), which are mounted on sliding plates ( 16 ) slides, wherein the sliding disc ( 20 ) is made in particular of ultra-high molecular weight polyethylene. Compensation construction according to claim 12, characterized in that the plain bearing ( 18 ) is chambered. Compensation construction according to claim 12, characterized in that a sealing lip over the sliding disc ( 28 ) to the sliding plate ( 16 ) and slides on this.