RU141109U1 - Cable-stayed two-pivot drawbridge - Google Patents

Abstract

1. A cable-stayed two-pylon drawbridge having two metal or reinforced concrete pylons, each consisting of two vertical hollow pillars, other supports and spans, characterized in that the wings of the draw span in the navigable span are made of aluminum alloys, abut directly to the pylons, rotate around horizontal axes using counterweights, traction ropes, chain hoists and winches placed inside all hollow pillar racks that are rigidly connected in the heads longitudinal and transverse steel beams, which are arranged pedestrian viewing gallery, people rise to that carried high-speed external liftami.2. Cable-stayed bridge according to claim 1, characterized in that the ends of both wings of the movable span structure are supported by cable-stayed cables fixed to nodes located on all pillar racks and on the wings of the movable span structure.

Description

The utility model relates to the field of bridge construction and can be used in the construction of road cable-stayed drawbridges across wide navigable rivers.

There are various designs of cable-stayed and suspension steel bridges (1, 2, 4). Closest to the claimed bridge design is the drawbridge Suspension Tower Bridge in the UK across the Thames navigable river in London (3, 5). It consists of two massive towers placed on supports in a navigable span, one central movable and two lateral suspended steel spans. In the central span, the lower movable span is two-winged. The upper superstructure is a steel rigid beam between the towers, designed for pedestrians to pass during the layout of the bridge.

The main drawback of the design of this steel bridge is the need to install large rooms in both massive supports below the shipping span towers to accommodate the turning mechanisms of heavy steel wings of a movable span and counterweights. The consequence of this was the need for large tower towers on the facade of the bridge, which required significant material and labor costs. In addition, steel wings of a movable span structure, which are consoles and have large masses, which in the reduced position rely only on the rotation axis, have less rigidity than if they would have at least one support, for example, in the form of flexible cables .

The technical task of the utility model is to reduce the cost of materials and labor for erecting supports in the navigable span, reducing the mass of the wings of the movable span and the lateral cable-stayed beam spans of the bridge, as well as the use of space inside the pillar racks to accommodate the elements of the lifting of the wings of the movable span.

The technical problem is solved due to the fact that the cable-stayed two-pylon drawbridge has two metal or reinforced concrete pylons, each consisting of two vertical hollow pillars, other supports and spans, characterized in that the wings of the span in the navigable span are made of aluminum alloys, adjacent directly to the pylons. They rotate around horizontal axes using counterweights, traction ropes, chain hoists and winches placed inside all hollow pillar racks. In the heads of the racks are rigidly connected in longitudinal and transverse directions by steel beams. They have pedestrian viewing galleries.

The ends of the expandable wings of the movable span in the reduced position are supported by cables that are fixed in nodes located on all pillar racks and on the wings of the span.

The construction of the bridge and its elements are shown in FIG. 1-2.

In FIG. 1 shows the facade of the bridge (a), the section in the adjustable span (b) and the plan of the bridge (c), where it is indicated:

a - the facade of the bridge; b - cross section of the bridge; in - the plan of the bridge; pos. 1 - cable-stayed span; pos. 2 - wing adjustable span; pos. 3 - guy; pos. 4 - hollow pillar rack; pos. 5 - steel beam; pos. 6 - pedestrian viewing gallery; pos. 7 - pylon support; pos. 8 - the foundation of the bridge; pos. 9 - intermediate support; pos. 10 - embankment.

In FIG. 2 shows a section of one pylon strut (a) with internal elements of the wing lifting system of a movable span and a general view of another pylon strut (b), where it is indicated:

pos. 11 - supporting guy wing adjustable span; pos. 12 - polyspast; pos. 13 - traction winch; pos. 14 - traction rope; pos. 15 - tap and guide rollers; pos. 16 - node mounting cable; pos. 17 - horizontal axis of rotation of the superstructure; pos. 18 - counterweight; pos. 19 - a counterbalance cable; pos. 20 - high-speed elevator.

The byte two-pylon drawbridge is an extended structure consisting of several supports 7, 8, 9, two of which are pylon, 7, as well as several metal cable-stayed beam spans 1 with orthotropic plates from aluminum alloys and two wings 2 of the draw span made entirely of aluminum alloys. Cable-stayed spans 1 with an orthotropic plate made of aluminum alloys are supported by cables 3 of the fan system, and both wings 2 of the movable spans are supported by cables 11. The pillar racks 4 at the head ends are rigidly joined by four-steel beams 5 with pedestrian viewing galleries 6. The wings 2 of the adjustable span buildings adjacent to the pillar racks 4 are rotated upward (to the design angle) around the horizontal axis of rotation 17, forming a navigable dimension. The rotation of the wings 2 in the adjustable span up is carried out by means of traction ropes 14, chain hoists 12, counterweights 18 and winches 13 located inside all pillar racks 4. The wings 2 are lowered by the same winches 13.

During the layout of the bridge, pedestrians, as well as maintenance personnel, can cross from one part of the bridge to another through pedestrian viewing galleries 6. People are lifted by high-speed elevators 20.

The power of the winches, the diameter, the length of the ropes and tackles, the weight of the counterweights are calculated on the basis of the data on the mass and length of the drawbridge.

Bibliography

1. Byte bridges. A.A. Petropavlovsky et al. - M.: Transport, 1985.

2. Byte bridges. IN AND. Kireenko - Kiev: Budivelnik 1967

3. Metal bridges. N.N. Bychkovsky, A.F. Dankovtsev. In 2 parts of Saratov, 2005.

4. Engineering structures in transport construction. In 2 books P.M. Salamakhin et al. - M.: Academy, 2008.

5. Drawbridges. IN AND. Kryzhanovsky - M .: Transport, 1967.

Claims (2)

1. A cable-stayed two-pylon drawbridge having two metal or reinforced concrete pylons, each consisting of two vertical hollow pillars, other supports and spans, characterized in that the wings of the draw span in the navigable span are made of aluminum alloys, abut directly to the pylons, rotate around horizontal axes using counterweights, traction ropes, chain hoists and winches placed inside all hollow pillar racks that are rigidly connected in the heads longitudinal and transverse steel beams, which are arranged pedestrian viewing gallery, lifting people which carried out external speed elevators. 2. The cable-stayed bridge according to claim 1, characterized in that the ends of both wings of the movable span structure are supported by cable ties fixed in nodes located on all struts of the pylons and on the wings of the movable span structure.

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