RU40059U1 - WATER DRAINER - Google Patents

Abstract

1. A drainage tray made of composite material containing a housing in a cross section of a semi-oval shape with a base and side walls, with stiffeners on the outside along the generatrix, in the side walls with drainage holes, characterized in that structural thermoplastic is used as composite material. 2. Drainage tray according to claim 1, characterized in that a mineral-filled polypropylene is used as a structural thermoplastic. Drainage tray according to claim 1, characterized in that a mineral-filled polyamide is used as a structural thermoplastic. Drainage tray according to claim 1, characterized in that the thickness of the stiffeners is determined by the thickness of the housing. Drainage tray according to claim 1, characterized in that the number of stiffeners is determined by the requirements for lateral stiffness of the drainage tray.

Description

The utility model relates to equipment of the upper structure of a railway track, to drainage facilities under embankments for guaranteed drainage of surface and ground water from zero places and excavations of the subgrade of the railway track, and can also be used for roads and other bulk structures.

A typical concrete drainage tray made of reinforced concrete is known (see “Album of drainage devices on railways and highways of the USSR’s common network inv. No. 819” and “Album of drainage devices at stations inv. No. 984”). The drainage tray is a cross-sectional structure close to a rectangular one from the base and side walls with drainage holes for passing surface and groundwater and a closing lid. The disadvantages of this technical solution is the following. The specified drainage tray has a large design weight. This complicates its transportation and installation, while the concrete is short-lived, as it is intensively destroyed as a result of freezing and thawing of the water contained in the concrete.

Known adopted for the prototype drainage tray made of composite material (see "Drainage trays made of composite materials" VTU ADB.02.000.00.00-2001), which is a thin-walled housing from the base and side walls in a cross section of a semi-oval shape, with stiffeners outside along the generatrix , in the side walls with drainage holes for the passage of surface and groundwater and a lockable lid. The rigidity of the structure is provided by stiffeners, the thickness of which is close to the thickness of the housing. The number of stiffeners is determined by the requirements for lateral stiffness of the drainage tray. The drainage trays are interconnected by a detachable connection in the mating edges. Although the known design is resistant to

climatic environmental factors, allows manual installation in a trench without the use of special equipment, making it easy to mount them in the field, however, it has harmful manufacturing technology, since fiberglass obtained by laying out prepreg pieces of fiberglass impregnated with a binder is used as composite material in this case, styrene binder components and catalysts in the case of polyester resin and all components of epoxy resins are carcinogens and blood poisons. In addition, the calculation technology implies only manual operations, so the production of fiberglass drainage trays is dangerous and means low productivity,

The objective of this utility model is to achieve environmentally friendly production, improve manufacturability and increase service life.

The expected technical result is to reduce the cost, increase the reliability of the structure with the possibility of using it in a wide climatic temperature range (from - 60 ° С to + 60 ° С), as well as to accelerate and reduce the cost of production, which is very important for large volumes of production.

This object is achieved in that the drainage tray made of composite material contains a housing in cross section of a semi-oval shape with a base and side walls, with stiffeners on the outside along the generatrix, in the side walls with drainage holes, and structural thermoplastic is used as composite material, and as a structural thermoplastic, mineral-filled polypropylene or mineral-filled polyamide is used, while the thickness of the stiffeners is determined by the thickness th housing, the number of stiffeners is determined by the requirements for lateral stiffness of the drainage tray.

The essence is illustrated by drawings, where:

figure 1 shows the drainage tray in isometry;

figure 2 is a cross section of a drainage tray with a lid.

The drainage tray is a housing from the base 1 and the side walls 2 in a cross section of a semi-oval shape, with stiffeners 3 and 4 on the outside along the generatrix, in the side walls with drainage holes 5 for the passage of surface and ground water. If necessary, the drainage tray is used with a lockable cover 6, which is installed in the upper part of the drainage tray and serves as an additional element of structural rigidity. Between them, drainage trays are connected by a detachable connection, for example, bolts through holes (not shown) in the extreme stiffening ribs 4, made at the ends of the drainage tray in a shape close to rectangular in shape. The drainage tray is made of structural thermoplastic, for example, mineral-filled polypropylene or mineral-filled polyamide, by injection molding. The rigidity of the structure is provided by stiffeners 3, 4, the thickness of which is close to the thickness of the housing. The number of stiffeners 3 is determined by the requirements for lateral stiffness of the drainage tray to ensure the operation of the drainage tray in conditions of uniform tight compression.

The drain tray works as follows. For guaranteed drainage of surface and groundwater from zero places and excavations of the subgrade of the railway track, the drainage tray is installed with a slight slope for further drainage of 5 waters coming through drainage holes to a river, ravine, etc.

Using the proposed technical solution allows you to achieve environmentally friendly production and reduce the cost of production of the drainage tray, firstly, by increasing the life of up to 50 years, because due to the lack of water absorption, the drainage tray from the structural thermoplastic does not deteriorate during long-term operation, and secondly, due to resistance to ultraviolet radiation and, thirdly, by reducing the manufacturing speed from 20-30 hours for fiberglass drainage trays to 2-3 minutes for of structural thermoplastic.

Claims (5)

1. A drainage tray made of composite material containing a housing in a cross section of a semi-oval shape with a base and side walls, with stiffeners on the outside along the generatrix, in the side walls with drainage holes, characterized in that structural thermoplastic is used as the composite material. 2. Drainage tray according to claim 1, characterized in that mineral-filled polypropylene is used as a structural thermoplastic. 3. The drainage tray according to claim 1, characterized in that a mineral-filled polyamide is used as a structural thermoplastic. 4. Drainage tray according to claim 1, characterized in that the thickness of the ribs is determined by the thickness of the housing. 5. Drainage tray according to claim 1, characterized in that the number of stiffeners is determined by the requirements for lateral stiffness of the drainage tray.