RU173982U1 - Device for strengthening the subgrade and slopes - Google Patents

Abstract

The device is designed to strengthen the lateral slopes of roads, slopes, embankments of the subgrade under construction and operated roads and railways. The device includes a lattice structure made of separate interconnected, filled with filler (2) frames for laying on a slope, made with perforation (3) in height and with bends (4) inward in the upper part and a triangular notch (5) in the lower part buried in the ground to a die-cutting height equal to at least 1/3 of the height of the frames, the diameter of the perforation in the frames is not more than 5 mm. The frame filler is made of sand and gravel, and the frames are made of weather-resistant plastics, fiberglass, galvanized metal profile, etc. The operational reliability and service life of the device are significantly increased. 3 s.p. f-ly, 3 ill.

Description

The utility model relates to devices for strengthening lateral slopes of roads, slopes, embankments of subgrade under construction and operation of roads and railways.

A device for strengthening the subgrade is known, including a protective coating of the slope surface and reinforcing elements arranged in the transverse direction relative to the length of the subgrade, each of which is embedded at one end into the subgrade body, forming an anchor seal, and the other end is connected to the protective coating of the slope surface, this protective coating of the surface of the slopes and reinforcing elements are made of interconnected elastic annular elements, in addition with offset relative to each other additional elastic ring elements fixed to the reinforcing elements with their diametrical planes have been fixed, and the space inside and between the elastic ring elements is filled with rubble stone (see USSR author's certificate No. 1573092, IPC: E02D 17/20, published on June 23, 1990) .

A disadvantage of the known device is the increased complexity of arranging the fastening and its anchoring into the body of the embankment.

The closest to the claimed technical solution in its essence and the achieved result is a device for strengthening the subgrade or slopes, including made of separate square frames of a lattice structure, filled with a filler, for laying on the slope of the subgrade and anchors for embedding in the slope soil, rigidly connected to the frames in the places of their interfacing with each other, while the frames of the lattice structure are made with rectangular wedge-shaped end faces in their places mating with each other, connected by cross-cuts, or assembled from square railway sleepers, the anchors are made in the form of triangular or trapezoidal frames connected to the elements of square frames of the trellised structure with one face of the triangular frame or a large base of the trapezoidal frame, while the anchor frames are oriented in the plane the cross section of the slope and placed at intervals from each other, and the elements of the lattice frame and anchor frames are made of the middle part of the tree GOVERNMENTAL waste in transit railway sleepers (see. RF patent No. 2032022, IPC: E02D 17/20, publ. 03/27/1995).

The disadvantage of this device is the complexity of the assembly due to the large number of parts requiring high accuracy, which in the field affects the quality of the assembly and reduces reliability in operation.

The technical task is to simplify the manufacture and increase the reliability of the device during its operation.

The specified technical problem in the design of the device is achieved by the fact that in the device for strengthening the subgrade or slopes, including made of separate lattice frames filled with filler for laying along the slope of the subgrade, the frames are perforated in height and with bends inward in the upper part and a triangular notch in the lower part, buried in the ground to a notch height equal to at least 1/3 of the height of the frames, while the diameter of the perforation in the frames is not more than 5 mm, floor the frame carrier is made of sand-gravel mixture, and the frames are made of weather-resistant plastics, fiberglass, galvanized metal profile, etc.

The proposed device is illustrated in the drawing, where in FIG. 1 shows a section of the embankment; FIG. 2 is a section along AA in FIG. 1, in FIG. 3 is a section along BB in FIG. 2.

A device for strengthening slopes of the dredge and slopes contains embankment 1, elements 2 with perforation 3, the diameter of which is not more than 5 mm, bends 4 and a triangular notch 5. Elements 2 in the places of their interfacing with each other are rigidly fastened with anchors (to hell, not shown ), and the cells formed in this case are filled with a sand-gravel mixture 6, 7. The triangular die cut 5 is made to a height equal to 1/3 of the height of the frame 2, with an inward angle of 5-10 °. This condition, together with the weight of the filter material 6 as a weight, is sufficient to secure the frames 2 to the repair area of embankment 1. Wire U-shaped studs can be used as anchors. Frames are made of weatherproof plastics, fiberglass, galvanized metal profile, etc., for example, high pressure polyethylene (VD). Bends 4 are performed at the same level of the frame 2 along its perimeter. This allows you to prevent the removal of the filter material 6, both with heavy rain flows, and when exposed to wind load.

The device is mounted as follows.

During the construction or repair of embankment 1 on its lateral surface, the frames 2 are laid with a burial in the ground. Then they are fastened together and filled into the cells formed with sand and gravel, which allows you to quench the energy of the water flow and gradual drainage from the side surface of the embankment 1.

The device operates as follows.

In areas of structures undergoing erosion and their subsequent destruction, the water mass, encountering elements 2 with bends 3 on the way, is compensated by the latter, avoiding the displacement of landslide masses, while the stability of the elements 2 is facilitated by triangular die cuts 5 embedded in slope 1, ensuring reliability device operation. In this case, the water mass is absorbed and dragged down the slope of the embankment and further along the terrain, due to the presence of perforation 3 and sand-gravel mixture, which also prevents the suffusion process and the removal of small particles from the landslide massif.

The use of the proposed device design is most appropriate for erosion areas of side slopes, slopes and embankments.

Compared with existing devices, the proposed one absorbs and decreases the energy of surface waters even in turbulent streams. This ensures high reliability of the protective coating and extends its service life with minimal labor and material costs.

Claims (4)

1. Device for strengthening the subgrade and slopes, including made from separate connected to each other, filled with filler lattice frames for laying along the slope of the subgrade, characterized in that the frames are perforated in height and with bends inward in the upper part and triangular die-cutting in the lower part, buried in the ground to a die-cutting height equal to at least 1/3 of the height of the frames. 2. The device for strengthening according to claim 1, characterized in that the diameter of the perforation in the frames is not more than 5 mm. 3. The device for strengthening under item 1, characterized in that the frame filler is made of sand and gravel. 4. The device for strengthening under item 1, characterized in that the frames are made of weather-resistant plastics, fiberglass, galvanized metal profile.

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