RU127079U1 - REINFORCED CONCRETE BEDROOM FOR METRO - Google Patents

Abstract

1. Reinforced concrete sleepers made in the form of a reinforced beam with a variable cross-sectional length with inclined upper surfaces to accommodate rail fasteners, with hollow formers for embedded fasteners or dowel details for screws or monolithic anchor parts for rail fastening, characterized in that on the top surface in the end of the sleepers on one side there is a horizontal platform for mounting the bracket of the contact rail, and in the body of the sleepers monolithic VA vertically located dowels with holes on a horizontal platform for mounting the contact rail bracket. 2. Reinforced concrete sleepers according to claim 1, characterized in that the horizontal platform for installing the contact rail bracket is made by reducing the concrete layer of the end part of the sleepers, forming the height of the concrete layer not lower than the height of the end of the sleepers, relative to the geometric dimensions of the opposite end of the sleepers. Reinforced concrete sleepers according to claim 1, characterized in that the horizontal platform for installing the contact rail bracket is made by increasing the concrete layer in the end part relative to the geometric dimensions of the end face of the opposite end of the sleepers. Reinforced concrete sleepers according to claim 1, characterized in that the distance between the axes of the holes of the dowels is not less than 100 mm. Reinforced concrete sleepers according to claim 1, characterized in that the distance from the axis of the hole closest to the end of the dowel to the end of the sleepers is at least 80 mm. Reinforced concrete sleepers according to claim 1, characterized in that the nominal distance between the axes of the dowels is 150 mm, and the distance from the lower edge of the end face of the sleepers to the axis edge

Description

The utility model relates to the upper structure of the railway track and is intended to support the rails, and is the basis for the details of rail fastening, receives operational forces from rails and fasteners and transfers them to the ballast layer, while ensuring stability of the rail track, and can be used in open sections of subways .

Known reinforced concrete sleepers made in the form of a reinforced beam with a variable length trapezoidal cross-section with inclined upper surfaces to accommodate rail fastening parts with hollow core for bolt embedded parts, or with dowel fasteners for screws / 1 /.

Known reinforced concrete sleepers, made in the form of a reinforced beam with a variable length trapezoidal cross-section with inclined upper surfaces to accommodate rail fasteners, with holes for embedded parts or monolithic anchor parts in which the cross section of the sleepers is made in the form of two trapezoid, located one above the other while the upper base of one trapezoid is the lower base of the other trapezoid, the sides of the lower trapezoid have a slope of 79-87 degrees to the lower the base of the entire length of the tie, the lateral side of the upper trapezoid along the entire length sleepers are designed as wide chamfer at an angle 60-77 degrees to the lower base, and the nominal height of the lower trapezoid is constant over the entire length of the sleeper. In this case, the end part of the sleepers is made with a total section height with a nominal size of 175-200 mm. (RU 2293810 C1, 09.16.2005).

The disadvantages of these sleepers are as follows.

Mounting the contact rail bracket used in the subway is not provided on these sleepers, therefore, they can only be used if the contact rail bracket is attached to other structures of the subway track, which leads to additional economic costs and labor costs.

The technical result of the claimed utility model is the formation in the end of the sleepers of the zone and elements for mounting the contact rail bracket used in the subway, and accordingly the exclusion of the use and arrangement of additional structures for mounting the contact rail bracket in the subway tunnels, and especially in its open areas, which simplifies and reduces the cost of the use of reinforced concrete sleepers.

To achieve this technical result, in a reinforced concrete sleepers made in the form of a reinforced beam with a cross-section of variable length along the sloping upper surfaces for accommodating rail fasteners, with hollow formers for embedded fasteners or dowel parts for screws or monolithic anchor parts for rail fastening, on the upper surface in the end of the sleepers on one side there is a horizontal platform for mounting the bracket of the contact rail, and in t Two vertical dowels with holes on a horizontal platform for fastening the contact rail bracket are monolithic.

In the first embodiment of reinforced concrete sleepers, the horizontal platform for installing the contact rail bracket is made by reducing the concrete layer of the end part of the sleepers, forming the height of the concrete layer not lower than the height of the end of the sleepers, relative to the geometric dimensions of the opposite end of the sleepers.

In the second embodiment of reinforced concrete sleepers, the horizontal platform for installing the contact rail bracket is made by increasing the concrete layer in the end part relative to the geometric dimensions of the end face of the opposite end of the sleepers.

In reinforced concrete sleepers, the distance between the axis of the dowel holes is at least 100 mm, and the distance from the axis of the hole closest to the dowel end to the end of the dowel is at least 80 mm.

In another embodiment of reinforced concrete sleepers, the nominal distance between the axles of the dowels is 150 mm, and the distance from the lower edge of the end of the sleepers to the axis of the edge dowels is 125-130 mm.

The invention is illustrated by drawings.

Figure 1 presents a General view of reinforced concrete sleepers according to a utility model, for example, with a monolithic anchor part of a rail fastening for the first embodiment.

Figure 2 is the same for the second embodiment.

Figure 3 presents the view of the part of the sleepers with the contact rail bracket installed in the design position (the fastening details and the bracket fixing screws are not shown).

Reinforced concrete sleepers 1 are made in the form of a reinforced beam with a variable cross-sectional length with inclined upper surfaces 2 for accommodating rail fastening parts, with hollow formers for embedded fasteners or dowel parts for screws or monolithic anchor parts 3 for fastening the rail. The cross section of the sleepers can be made in the form of one trapezoid or two trapezoid located one above the other, and also have additional bevels reducing the volume of concrete.

For mounting the contact rail bracket 4 on the upper surface at the end of the reinforced concrete sleepers 1, a horizontal platform is provided on one side of it 5. To fasten the contact rail bracket, in the manufacture of the sleepers in concrete, the sleepers are monolithic (concreted) two vertically located dowels 6 with holes on a horizontal platform 5.

It is possible to manufacture reinforced concrete sleepers 1, both in newly manufactured sleeper molds, and in sleeper molds available at the production facilities with their modernization, to obtain the geometric dimensions of the end part according to the utility model.

In the first embodiment of reinforced concrete sleepers 1, a horizontal platform 5 for installing the contact rail bracket 4 is made by deepening the end part of the sleepers 1 into concrete by forming a height h not lower than the height ht of the end face of the sleepers, relative to the geometric dimensions of the opposite end of the sleepers, since it is necessary to provide the necessary thickness of the concrete protective layer up to fittings. This embodiment is suitable for the modernization of sleepers for sleepers with a high end (for example, RU 2293810 C1, September 16, 2005), where the upper surface at the end of the sleepers is more gentle and the height difference is from 215-220 mm at the rail track to 185-195 mm at the end of the sleepers.

The second embodiment of reinforced concrete sleepers 1, where the horizontal platform 5 for mounting the bracket 4 of the contact rail is increased due to the additional height of the concrete layer in the end part relative to the geometric dimensions of the opposite end of the sleepers, it is applicable for reinforced concrete sleepers with a low end, for example, for sleepers / 1 /, which have the upper surface in the end part with a large difference in section heights from 230 mm at the rail track to 150 mm at the end.

In the case of the manufacture of new sleepers, the height h of the horizontal platform 5 is selected based on the design placement of the contact rail bracket 4. The distances for the placement of two vertically located dowels 6 for mounting the bracket 4 of the contact rail, also choose based on the geometric dimensions of commercially available standard brackets 4, i.e. the nominal distance d between the axes of the dowels 6 is 150 mm, and the distance t from the lower edge of the end of the sleepers to the axis of the extreme dowels is 125-130 mm.

In the case of modernization of existing sleepers, the height h of the horizontal platform 5 can be performed below the design required to accommodate the bracket 4 of the contact rail. In this case, to install the bracket 4 on the horizontal platform 5 in the design position, use an additional lining 7. The bracket 4 of the contact rail is fastened to the railroad tie using standard screws with a tetrahedral or hexagonal head.

In this case, the sleeper-shaped nests (troughs) are modernized by installing a horizontal plate inside the nest that provides a height h, securing it by welding or by any other known method in the case of deepening the concrete of the end part of the sleepers 1 to a height not lower than the height ht of the end face of the sleepers. Such modernization is preferable from the standpoint of saving materials and labor. In the case of using a version with an additional increase in concrete height at the end part relative to the geometrical dimensions of the opposite end of the sleepers during modernization, it will be necessary to cut out part of the mold socket and weld additional elements of both the horizontal plate and side surfaces, as well as change the end face (diaphragms of the socket), which increases labor costs.

When upgrading the existing sleepers for reinforced concrete sleepers, if it is impossible to comply with the dimensions corresponding to the commercially available standard brackets 4 for fastening the contact rail, the distances are made so that the distance d between the axes of the dowel holes is at least 100 mm to ensure strong fastening and holding of the bracket 4, and the distance t from the axis of the hole closest to the end of the dowel to the bottom of the end of the sleepers was at least 80 mm to provide a protective layer of concrete in its unloaded end part.

Reinforced concrete sleepers 1, made according to the claimed utility model and having a horizontal platform 5 with monolithic two vertically arranged dowels 6 with holes on the upper surface in the end part from one side, provides installation and reliable fastening with standard screws on the horizontal platform 5 of bracket 4 for mounting the contact rail used in the subway, while eliminating the need for the use and arrangement of additional structures for mounting the bracket 4 contact th rail tunnels underground, and especially on its open areas, making it easier and cheaper to use concrete sleepers of the proposed design.

Information sources:

1. Railway track / Ed. T.G. Yakovleva - M .: Transport. 2001 .-- 407 p. (1.4.4 Reinforced concrete sleepers and bars. Page 46).

Claims (6)

1. Reinforced concrete sleepers made in the form of a reinforced beam with a variable cross-sectional length with inclined upper surfaces to accommodate rail fasteners, with hollow formers for embedded fasteners or dowel details for screws or monolithic anchor parts for rail fastening, characterized in that on the top surface in the end of the sleepers on one side there is a horizontal platform for mounting the bracket of the contact rail, and in the body of the sleepers monolithic VA vertically located dowels with holes on a horizontal platform for mounting the contact rail bracket. 2. Reinforced concrete sleepers according to claim 1, characterized in that the horizontal platform for installing the contact rail bracket is made by reducing the concrete layer of the end part of the sleepers, forming the height of the concrete layer not lower than the height of the end of the sleepers, relative to the geometric dimensions of the opposite end of the sleepers. 3. Reinforced concrete sleepers according to claim 1, characterized in that the horizontal platform for installing the contact rail bracket is made by increasing the concrete layer in the end part relative to the geometric dimensions of the end face of the opposite end of the sleepers. 4. Reinforced concrete sleepers according to claim 1, characterized in that the distance between the axes of the holes of the dowels is not less than 100 mm 5. Reinforced concrete sleepers according to claim 1, characterized in that the distance from the axis of the hole closest to the end of the dowel to the end of the sleepers is at least 80 mm. 6. Reinforced concrete sleepers according to claim 1, characterized in that the nominal distance between the axles of the dowels is 150 mm, and the distance from the lower edge of the end of the sleepers to the axis of the extreme dowels is 125-130 mm.

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