RU174705U1 - ORTHOTROPIC COMPOSITE PLATE - Google Patents

Abstract

Orthotropic composite plate refers to the field of construction of bridges, overpasses, viaducts and other structures for the passage or passage of people and vehicles through obstacles. The utility model can be used for overlapping spans of bridges and covering the roadway on them, requiring the perception of various loads, and their transmission to the bearing elements of the structure. The orthotropic plate is made of a polymer composite material and contains upper and lower zones rigidly interconnected. The belts consist of bases made in the form of sheets with a zigzag profile formed by triangular pipes, in cross section representing an isosceles right triangle containing a partition connecting the top of the right angle with the middle of the hypotenuse. The pipes are laid tightly to each other and rigidly attached to one of the sides of the base, with the upper and lower belts connected to each other so that the zigzag vertices of each of the belts rest on the base of the other belt. The specified design and use of polymer composite materials provide increased strength and corrosion resistance while significantly reducing the weight of the plate.

Description

The utility model relates to the field of construction of bridges, overpasses, viaducts and other structures for crossing or passing people and vehicles through obstacles. The utility model can be used for overlapping spans of bridges and covering the roadway on them, requiring the perception of various loads, and their transmission to the bearing elements of the structure.

The closest analogue adopted for the prototype is a metal orthotropic bridge span with load-bearing main beams (ed. St. USSR No. 1268658, publ. 11/07/1986 IPC E01D 7/02, E01D 19/12), which is transversely located relative to the main beams spatial U-shaped blocks with alternating lengths with them, inserts made in the form of a covering sheet, reinforced with stiffeners and diaphragms.

The prototype has disadvantages, including high weight and low corrosion resistance.

The objective of the utility model is to reduce the weight of the plate and increase corrosion resistance.

The problem is solved due to the new design of the orthotropic plate and the use of a polymer composite material resistant to corrosion.

The orthotropic plate contains rigidly connected upper and lower zones, consisting of two bases made in the form of rectangular sheets with a zigzag profile on one side of each sheet. In this case, the zigzag vertices of each of the belts rest on the base of another belt. The zigzag profile of each belt is formed by pipes with a cross section in the form of an isosceles right triangle, laid tightly to each other on the base and rigidly connected to it. In this case, the pipes are laid on the base with the sides making up the hypotenuse of a right-angled isosceles triangle.

To give the orthotropic plate greater rigidity, the triangular pipes are made with a supporting partition inside, connecting the top of the right angle with the middle of the hypotenuse, which acts as an additional force element.

All elements of the plate are made of polymer composite material.

The technical result of the utility model is to reduce the weight of the orthotropic plate with high strength characteristics, as well as a significant increase in its corrosion resistance.

The utility model is illustrated by drawings.

In FIG. 1 is a cross-sectional view of a polymer composite pipe.

In FIG. 2 shows a cross section of an orthotropic plate made of a polymer composite material.

An orthotropic composite plate consists of rigidly connected upper and lower belts 3. Each belt consists of a base 1, made in the form of a rectangular sheet with a zigzag profile formed by pipes of triangular section, on one of its sides. The vertices of the zigzag profiles of each belt rest on the base of the other belt, and the zigzag profile of each belt is formed by pipes 4 with a cross section in the form of an isosceles right triangle containing a partition 2 connecting the top of the right angle with the middle of the hypotenuse. The specified partition serves as an additional power element, giving increased bearing capacity. When this pipe is laid tightly to each other on the base 1 and rigidly attached to it.

The plate is made as follows. The base 1 is obtained by cutting rectangular sheets of the required size from a polymer composite material. After that, profile pipes 4 with a cross section in the form of an isosceles right triangle made of polymer composite material containing a partition 2 connecting the top of the right angle with the middle of the hypotenuse are laid tightly to each other on the base sheets. The pipes are rigidly connected to the base 1, for example, with adhesive compositions. Thus, the upper and lower zones 3 of the composite flooring are formed.

The formed upper and lower belts are laid on each other so that the tops of the profile pipes of one belt rest on the base of the other belt. After laying the upper belt on the lower belt, they are pressed tightly against each other and rigidly connected to each other, for example, using adhesive compositions. The resulting orthotropic composite plate is a single structure with high strength, stiffness, lightweight construction and corrosion resistance.

Claims (1)

An orthotropic composite plate consisting of upper and lower belts rigidly interconnected, each of which consists of a base made in the form of a rectangular sheet with a zigzag profile on one of its surfaces, characterized in that the zigzag profile is formed by pipes with a cross section in the form of an isosceles a rectangular triangle containing a supporting partition connecting the top of the right angle with the middle of the hypotenuse, with the pipes laid tightly to each other on the base side, composition hypotenuse, and rigidly attached to it, while the upper and lower belts are rigidly interconnected so that the zigzag vertices of each of the belts rest on the base of the other belt.

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