KR20030058993A - Hemispheric bridge bearing - Google Patents

Abstract

PURPOSE: A movable bearing of a bridge is provided to prevent the discharge of environmental pollutants, and to improve productivity by making precise and systematic product control possible. CONSTITUTION: The movable bearing of a bridge comprises a plane osculating-lubricating plate installed on an osculating plane of an upper seat(2) fixed on the lower part of a floor slab, a hard chromium plating layer covered on the surface of an osculating curved surface(7) of a lower seat(6) fixed on a pier, a bearing plate(9) fitted with a sealing(10) and contacted with the plane osculating-lubricating plate, and a curve osculating-lubricating plate(11) fixed on the osculating curved surface(7) of the lower seat(6).

Description

Hemispheric bridge bearing

The present invention transfers the load acting on the superstructure of the bridge to the undercarriage and facilitates the displacement and deformation of the superstructure caused by the movement and rotation by temperature, dry shrinkage, creep and live load. It relates to the movable support of a bridge installed between the top plate and the pier to minimize the differential stress. More specifically, the load is transmitted to the ground through a hemispherical bearing plate made of high-strength brass constrained by the top and the bridge. In order to improve the sliding characteristics of the bearing plate of the high-force brass bearing and high bearing strength and wear resistance, the curved contact lubrication operation plate made of stainless steel is installed instead of the conventional hard chrome plating. It is about the movable support of the bridge.

The movable support has a contact surface with the upper plate as a plane, and a bearing plate with a circumferential or spherical contact with the pier to make surface contact with the upper plate and the pier respectively, and has a telescopic function at the flat contact part and a rotation function at the curved contact part. Say standoff. Since the movable support requires excellent sliding characteristics, high acupressure strength and wear resistance, the bearing plates are made of four high-strength brass castings (HBsC4) having the highest strength among copper alloys. A solid lubricant is provided on the upper plate, and a hard chrome plated layer is formed on the curved contact portion of the lower seat.

However, in the case of plating on the sliding surface as described above, there is a problem in that the plating thickness is not formed uniformly and thus additional processing is required, and the quality and productivity of the product are deteriorated because the plating thickness management and rework cannot be standardized. There is a problem that is lowered, there is a problem that the pollutants of heavy metals occur during hard chromium plating operation, there is a problem that the corrosion of the hard chromium layer occurs during use and loses its function.

In view of the above conventional problems, the present invention induces a good bearing action on both the planar contact portion and the curved contact portion of the bearing plate used for the movable support of the bridge, and prevents the functional degradation due to erosion of hard chromium plating. In order to provide a movable support of the bridge by installing a curved contact lubricating operating plate capable of standardized production in place of the hard chromium plating layer in the curved contact portion in contact with the bearing plate.

1 is a full exploded perspective view of the present invention

2 is a cross-sectional view of the present invention

3 is a detailed view of portion “A” of FIG. 2;

Figure 4 is a state in which the curved contact lubricating operating plate of the present invention is installed on the curved contact portion

5 is a state diagram of a conventional hard chromium plating layer formed on the curved contact portion

<Explanation of symbols for the main parts of the drawings>

1: bridge deck 2: upper seat 3: flat contact portion

4: Planar contact lubrication plate 5: Pier 6: Lower seat

7: curved contact portion 8: hard chromium plating layer 9: bearing plate

10 sealing 11 curved contact lubrication operating plate 12 adhesive

100: movable support

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

According to the present invention, the flat contact lubrication operating plate 4 is installed on the flat contact portion 3 of the upper pedestal 2 fixedly installed at the bottom of the bridge top plate 1, and the lower pedestal 6 fixedly installed on the piers 5. ) Is coated with a hard chromium plated layer 8 on the surface of the curved contact portion 7 having a hemispherical groove, and a bearing plate 9 having a flat upper surface and a hemispherical curved surface at the lower portion thereof is sealed at its outer periphery. In the movable support 100 of the bridge installed so that the upper plane is in contact with the planar contact lubrication operating plate (4) and the lower curved surface is in contact with the hard chromium plating layer (8). The curved contact lubrication operating plate 11 of a predetermined thickness is fixed to the curved contact portion 7 by an adhesive 12.

Here, the material of the curved contact lubrication operating plate 11 is preferably made of stainless steel (STS316).

The present invention thus overcomes the conventional problems such as the conventional chromium plating layer 8 by the curved contact lubrication operating plate 11 made of stainless steel (STS316), such as conventional erosion and lowering of productivity.

That is, the curved contact lubrication operating plate 11 of the present invention is formed of stainless steel (STS316) and attached to the curved contact portion 7 of the lower pedestal 6, thereby providing excellent corrosion resistance, impact and elongation of the stainless steel (STS316). It is to solve the problems of the conventional hard chromium plating layer 8 due to the advantages of strong physical properties and moldability.

First, when the hard chromium plating layer 8 is coated on the curved contact portion 7 of the lower pedestal 6, pollutants such as heavy metals during plating are generated, but when working with stainless steel (STS316) of the present invention. There is no discharge of pollutants as described above, environmentally friendly and clean work to prevent environmental pollution, as well as harm to the health of workers.

In addition, in the conventional case, the plating thickness is not formed uniformly after the plating operation, so a separate processing process is required for the uniformity thereof, and thus productivity is extremely low, and the plating thickness or the thickness distribution is changed every time the plating is performed. In processing, there is a problem in that scientific and consistent process management is difficult, but the present invention eliminates the need for a separate processing process by molding a plate of stainless steel (STS316) having a predetermined thickness into a mold. Therefore, standardized production quality is possible, and scientific and consistent management in production is possible with the efficiency of the work. Such a characteristic of the present invention is that the production and management of the mold is precise, and since the material of the curved contact lubricating operating plate 11 is made of stainless steel (STS316) having excellent moldability, This is because roughness and degree can be obtained.

In addition, the conventional erosion phenomenon occurred by the contact with the curved contact lubrication operating plate 11 in the hard chromium plating layer 8, the present invention is precisely molded of stainless steel (STS316) to prevent the erosion as conventional It becomes possible.

Therefore, the present invention provides a load transfer function for accurately transferring the life and death loads acting on the superstructure to the substructure, and between the upper and lower structures during expansion and earthquake caused by load loading, temperature change, creep of concrete, and dry shrinkage of the superstructure. The elasticity function that absorbs relative displacement smoothly, the force of the upper structure generated by the load of the load such as the live load, and the rotation function to smooth the rotational displacement at the upper and lower hole points can be performed more smoothly than the conventional structure. .

According to the present invention, the curved contact lubrication operating plate 11 is installed in the curved contact portion 7 of the bearing plate 9 used for the movable support of the bridge, thereby preventing the discharge of environmental pollutants in the manufacturing process and It is possible to systematically manage production and improve productivity. Also, it prevents erosion and improves the function of bridge bearing such as load transfer, stretch and rotation.

Claims (2)

A flat contact lubrication operating plate 4 is installed on the flat contact portion 3 of the upper pedestal 2 fixedly installed at the bottom of the bridge top plate 1, and the hemisphere is provided on the lower pedestal 6 fixedly installed on the piers 5. A hard chromium plating layer 8 is coated on the surface of the curved contact portion 7 having a groove, and a bearing plate 9 having a flat upper surface and a hemispherical curved surface at the bottom thereof is fitted with a sealing 10 at its outer periphery. The upper plane is in contact with the planar contact lubrication operating plate 4, and the lower curved surface is in contact with the hard chromium plating layer 8, and the curved contact portion of the lower pedestal 6 is provided. 7) the movable support of the bridge, characterized in that the curved contact lubrication operating plate (11) is fixedly attached. The bridge according to claim 1, wherein the curved contact lubrication operating plate (11) is made of stainless steel, in particular STS316, and its lower surface is attached to the curved contact portion (7) of the lower pedestal (6) with an adhesive (12). Operation support.