RU147752U1 - TRIANGULAR DRAINAGE PIPE FROM SLDS - Google Patents

Abstract

1. The design of the triangular culvert from the slabs SRDP made of wooden elements connected to bolts or nails mounted on the base and covered with soil, characterized in that the wooden elements are made of slabs SRDP, in the transverse triangular section of the slab SRDP are fastened to each other using internal frames of wood or metal on bolts or nails, in the longitudinal direction of the plate are connected by service butt locks. 2. The triangular culvert from the SRDP plates according to claim 1, characterized in that in the absence of service locks (due to operational damage), the joint of the SRDP plates can be performed on straight building brackets or not separate completely separate sections in the longitudinal direction. 3. The triangular culvert from the SRDP slabs according to claim 1, characterized in that the partial (if necessary full) waterproofing, to prevent soil leaching due to the conjugation densities of individual pipe elements, is performed by turf layers (grass to the pipe) before filling it with the embankment soil. four. A triangular culvert from pipes of slabs according to claim 1, characterized in that in modern conditions, for the purpose of waterproofing, it is possible to propose wrapping the pipe with a synthetic non-woven fabric, plastic film, roofing material and other materials. The triangular culvert from the SRDP slabs according to claim 1, characterized in that the pipe can be laid on the ground, with sufficient density, or on a cushion of draining materials on soft soils.

Description

The utility model relates to the field of culverts and can be used for the construction of small culverts, while restoring military roads in modern offensive operations.

A known design of a triangular culvert, made of wooden elements in the form of a bed, roll, frame, flooring tray, head, connected on bolts or nails, waterproofing is laid on top of the pipe in the form of crumpled clay installed on the base and covered with soil (see Rational construction methods and restoration of small culverts on highways, - Balashikha: FASS VTU, 2005, pp. 39-43).

The disadvantage of this design is the high complexity of the assembly into a single design.

Recently, the high rate of restoration of military roads in modern offensive operations has necessitated the restoration of man-made structures on them in a short time. One of the ways to quickly restore artificial structures is to use time cards. In connection with the presence of a glue-plywood collapsible road surface (hereinafter SRDS) in the road troops, it is supposed to use SRDP slabs, usually having operational wear, for the construction and restoration of culverts on military roads.

The utility model is based on the task of developing the design of a triangular culverting pipe made of SRDP plates, which allows to reduce the laboriousness of assembling into a single structure, shorten the construction and restoration time of small culverts.

The task is achieved by the fact that in the design of a triangular culvert from pipes SRDP made of wooden elements connected to bolts or nails mounted on the base and covered with soil, wooden elements are made from plates SRDP, in the transverse triangular section of the plate SRDP are attached to each other with using internal frames made of wood or metal on bolts or nails, in the longitudinal direction of the plate are connected by service butt locks.

In the absence of service locks (due to operational damage), the joint of the SRDP boards can be performed on straight building brackets or not completely separate sections in the longitudinal direction can be combined.

Partial (if necessary complete) waterproofing, to prevent soil leaching due to the conjugation densities of individual pipe elements, is performed by turf layers (grass to the pipe) before filling it with the embankment soil.

In modern conditions, for the purpose of waterproofing, it is possible to offer pipe wrapping with a synthetic non-woven fabric, plastic film, roofing material and other materials.

The pipe can be laid on the ground, with sufficient density, or on a cushion of drainage materials on soft soils.

The solution of the technical problem is achieved through the use of finished slabs in the road forces of ready-made SRDP slabs in the construction and restoration of culverts on military roads. The device culvert from the slabs SRDP with a number of design features allows you to reduce the complexity of the Assembly in a single design and reduce the time of construction and restoration of small culverts.

The essence of the utility model is illustrated by drawings, where in FIG. 1 - presents a General view of a triangular culvert from the slabs SRDP; in FIG. 2 - shows a cross section AA in FIG. 1., in FIG. 3 - a variant of connecting the SRDP plates with each other with the removed locks on the brackets.

The design of the triangular culvert from the slabs of the SRDP (see Fig. 1) and its cross section (see Fig. 2) consists of wooden elements made of slabs of the SRDP 1, mounted on the base 2 and covered with soil 3, in the longitudinal direction of the slab of the SRDP 1 are connected by service locks 4, in a transverse triangular section, the slabs 1 are fastened to each other using internal frames 5 of wood or metal on bolts or nails 6, waterproofing 7 is made around the culvert.

In the absence of service locks 4 plates SRDP 1 in the longitudinal direction are connected by straight building brackets 8.

When calculating the triangular culvert from the slabs SRDP it is necessary to consider the following.

The calculated load for artificial structures of normal carrying capacity on military roads is the wheel load P _k = 0.08 MN, the load width is 3.3 m, the wheel track length is 0.35 m and the wheel track width is 0.45 m. Minimum the thickness of the filling above the culvert is established by all technical standards - 0.5 m.

The case when the wheel of the calculated load is located above the center of one of the middle links of the culvert is taken as the design scheme. Since in real conditions the thickness of the soil backfill above the top of the culvert may turn out to be less than 0.5 m, the calculation takes into account the height of the backfill equal to 0.1 m.

When calculating the culvert, the center of the plate is the busiest when the wheel of the moving load is hit with a small thickness of the backfill.

The maximum bending moment in the center of the plate, freely supported but the contour is determined by the following example, when the filling height is 0.1 m, the load is P = 0.08 MN, and the dimensions of the plate are 1.86 × 1.0 m.

To determine the stress state in the thickness of the soil backfill from a surface-located local load, the angular point method is used, the specific pressure on the plate at various points is determined, and a curvilinear volumetric pressure diagram for the plate is constructed taking into account the dead weight of the plate in soil pressure. Due to the complexity of calculating the slab with this shape of the pressure surface, it is replaced by a cone, and then a pyramid, a system of rectangular parallelepipeds is built, equal in volume and corresponding in shape to the original volume figure. Kleefanery plate SRDP is a combined system of pine beams and bakelizirovannogo plywood. The calculated bending moment in the center of the plate is determined: M _p = 7203 N * cm / cm.

Where does σ _and = M _and / W _PL = 13.1 MPa <R _and = 25.0 MPa come from.

Thus backfill soil at a height above the top of the tube is greater than 0.1 m _{and the} maximum stress σ in the center of the triangular plate from the culvert plates SRDP be less than the calculated flexural resistance R _and bakelized plywood. With an increase in the filling height of more than 0.1 m, the stress will decrease due to the distribution of pressure from the moving load in the filling array. Calculations provide the basis for the use of SRDP slabs in the construction, restoration of culverts on military roads.

The water flow through the triangular culvert from the slabs SRDP is 2.5 m ³ / sec.

The design of the triangular culvert from the slabs SRDP installed as follows.

Before starting the installation, a foundation pit and a base 2 are made. The pipe can be laid on the ground, with sufficient density, or on a cushion of draining materials on soft soils. After preparing the base 2, the lower layer of waterproofing 7 is laid in the form of layers of turf (grass to the pipe) or other modern material. Then, the SRDP 1 plates are mounted, during the installation in the transverse triangular section, the SRDP 1 plates are fastened to each other using internal frames 5 of wood or metal on bolts or nails 6, in the longitudinal direction of the plate 1 they are connected by service locks 4. In the absence of service locks 4 the joint of the slabs SRDP 1 is performed on straight building brackets 8 or is not combined completely in the longitudinal direction. After installing the slabs SRDP 1, the remaining waterproofing 7 of the pipe. After completion of the waterproofing 7, the pipe is filled with soil 3. The filling is made with local soil. At the end we carry out soil compaction.

The task is achieved by the fact that in the design of a triangular culvert from pipes SRDP made of wooden elements connected to bolts or nails mounted on the base and covered with soil, wooden elements are made from plates SRDP, in the transverse triangular section of the plate SRDP are attached to each other with using internal frames made of wood or metal on bolts or nails, in the longitudinal direction of the plate are connected by service butt locks, which reduces the complexity of assembly in a single design July and shortening the construction and restoration of small culverts.

The triangular culvert from the slabs of the SRDP can be used both on permanent watercourses and on temporary ones.

Claims (5)

1. The design of the triangular culvert from the slabs SRDP made of wooden elements connected to bolts or nails mounted on the base and covered with soil, characterized in that the wooden elements are made of slabs SRDP, in the transverse triangular section of the slab SRDP are fastened to each other using internal frames of wood or metal on bolts or nails, in the longitudinal direction of the plate are connected by service butt locks. 2. The triangular culvert from the SRDP plates according to claim 1, characterized in that in the absence of service locks (due to operational damage), the joint of the SRDP plates can be performed on straight building brackets or not completely separate sections in the longitudinal direction can be combined. 3. The triangular culvert from the SRDP slabs according to claim 1, characterized in that the partial (if necessary complete) waterproofing, to prevent soil leaching due to the conjugation densities of individual pipe elements, is performed by turf layers (grass to the pipe) before filling it with soil embankments. 4. The triangular culvert from pipes SRDP according to claim 1, characterized in that in modern conditions for waterproofing, you can offer wrapping the pipe with synthetic non-woven fabric, plastic film, roofing material and other materials. 5. The triangular culvert from the slabs according to claim 1, characterized in that the pipe can be laid on the ground, with sufficient density, or on a cushion of draining materials on soft soils.

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