RU184287U1 - COMPOSITE STAND FOR SUPPORT OF BRIDGE STRUCTURES - Google Patents

Abstract

The utility model relates to the field of bridge construction and can be used as building structures that work for central and non-center compression, such as racks of supports of bridge structures, as well as columns of buildings and structures, various pillars, frame racks, etc. The utility task of the utility model is an increase in the carrying capacity of a corrosion resistant rack for use as a support in bridge structures. The above technical problem has been solved due to the fact that the tubular shell of the rack has a circular cross section, containing at the ends of the plug, made of a polymer composite material, immune to the effects of aggressive environment. Glass roving was used as a shell reinforcing material. The reinforcement cage is placed inside the rack, and the entire space free of the framework is filled with concrete. The technical result of the utility model is to increase the bearing capacity of the corrosion resistant rack made of composite material.

Description

The utility model relates to the field of bridge construction and can be used as building structures that work for central and non-center compression, such as racks of supports for bridge structures, as well as columns of buildings and structures, various pillars, frame racks, etc.

Known pile-shell intermediate support bridge rack type, containing a metal sheath in the form of a pipe, filled with concrete with reinforcement cage, made of longitudinal reinforcement rods located along the contour of the shell, and spiral fittings wrapped around them, additionally containing a waterproof screen in the zone of soil freezing from waterproofing material (RF patent 78223, IPC E01D 19/04, publ. 20.11.2008).

The disadvantage of this design is that the metal shell is exposed to corrosion, therefore, does not allow to protect the rack support from the external environment, which in turn reduces the reliability and durability of the structure.

Known construction element in the form of a rack containing a metal prestressed tubular sheath with end plates, inside which is installed a hollow metal pipe, the space between them is filled with a solid body made of fiber-reinforced concrete (RF patent 104213, IPC Е04С 3/36, publ. 03.11.2010 g), the lack of which is also the lack of protection of the support of the support against corrosion.

As a prototype of the utility model, a hollow vertical column made of a polymer composite material was selected, consisting of stacked glass roving layers impregnated with epoxy resin (RF Patent 2529206, IPC Е04С 3/36, published on 15.05.2013). The specified prototype is not filled with a solid (for example, concrete), therefore, has a low carrying capacity. This design can be used as a carrier of power lines, wind generators, but this may not be enough for bridge structures.

The technical task of the utility model is to increase the carrying capacity of a corrosion resistant rack for use as a support in bridge structures.

This technical problem is solved due to the fact that the tubular shell of the rack of circular cross section, which contains the end caps, is made of a polymer composite material that is immune to the effects of an aggressive environment. Glass roving is used as a shell reinforcing material. The reinforcement cage is placed inside the rack, and the entire space free of the cage is filled with concrete.

The technical result of the utility model is to increase the carrying capacity of a corrosion resistant rack made of composite material.

The essence of the utility model is illustrated in the drawing, which schematically shows the rack. The design consists of a shell of polymer composite material 1, filled with concrete 2, with reinforcing cage 4 and plugs 3 at the upper and lower ends.

Rack of composite material is made in the following sequence. The bottom cap 3 is firmly fixed to the vertically installed round shell (pipe) made of composite material 1. A reinforcing cage 4 is installed into the shell. In the process of filling the shell with concrete 2, every 40 centimeters of concrete are sealed with a vibrator. After concrete 2 reaches the required strength and installs the top cap, the stand is ready for use. The rack is used as a precast element, including in collaboration with the rest of the support elements of the bridge structure.

Claims (1)

A rack made of composite material for the supports of small and medium-sized bridge structures, including a tubular casing, plugged at the ends, made of a glass-reinforced reinforced polymer composite material, characterized in that there is a reinforcement cage inside the rack, and the entire framework-free space is filled with concrete.

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