RU178546U1 - Benchmark - Google Patents

Abstract

The benchmark refers to devices for providing geodetic measurements and is used to determine the altitude reference of buildings and structures and to control precipitation during their operation, especially when used in heaving ground conditions. The benchmark contains a metal core (2) with a cone-shaped tip and an anchor, rigidly fastened over its entire surface with a plastic cage (3), the outer surface of which is lubricated with non-freezing material (4), a plastic tubular shell (5) is slipped on the core with the cage , the outer surface of which is lubricated with a non-freezing material and wrapped with plastic film (6), the cage and shell are made in length exceeding USPG, while the anchor is made integral, in the form of an upper connected by a flexible connection and the lower parts (7, 8), each of which is made in the form of a cylindrical comb (9) with spiky teeth oriented towards each other, in the inner space of which there is an insert (11) formed by truncated cones that coincide with large bases. The design is simplified and the necessary stability of the benchmark is ensured during sedimentary manifestations in the soil mass. 3 ill.

Description

The utility model relates to devices for providing geodetic measurements and is used to determine the altitude reference of buildings and structures and to control precipitation during their operation, especially when used in heaving ground conditions.

A known geodetic benchmark containing a benchmark core, protective pipe, concrete anchor, glands (see, for example, N. M. Sokolov and others. "Construction of large-panel buildings on subsiding soils", ML 966, p. 30, Fig. 15).

The disadvantage of this design is the limited ground conditions in which you can install such benchmarks, as well as their failure when used in heaving soils. This is due to the fact that the protective shell, after heaving in the winter period, does not return to its original position and a number of measures are required to restore it.

Closest to the claimed technical solution is a benchmark installed in the well, containing a metal core with a cone-shaped tip and an anchor at the end, rigidly fastened along the entire side surface with a plastic cage, the outer surface of which is lubricated with non-freezing material below the level of seasonal freezing of soil (USPG), a core with a clip is put on with the possibility of sliding and the presence of free space a plastic tubular shell that is longer than USPG in length, the outer surface of which the swarm is lubricated with non-freezing material and wrapped with plastic film and cavity filler (see RF patent No. 2402748, IPC G01C 15/04, publ. 10.27.2010, Bull. No. 30).

A disadvantage of the known rapper is the complexity of its execution, since the anchor requires the use of an impact mechanism, which is not always available. In addition, in soils with increased density, the length of the anchor strips clogged into the soil into the borehole walls during the installation of the bench is limited, which reduces the stability of the bench under the effect of pulling loads in heaving ground conditions.

The technical task is to simplify the design and increase the stability of the benchmark.

This technical task is achieved by the fact that in the design of the benchmark installed in the well containing a metal core with a cone-shaped tip and an anchor at the end, rigidly fastened over its entire surface with a plastic cage, the outer surface of which is lubricated with non-freezing material below the level of seasonal freezing of soil (USPG) , a plastic tubular shell is put on the core with the sleeve with the possibility of sliding and the presence of free space, the length exceeding the USPG, the outer surface of it is lubricated with a non-freezing material and wrapped with plastic film and the cavity filler, the anchor is made integral, in the form of upper and lower parts connected by a flexible connection, each of which is made in the form of a cylindrical comb with spiky teeth oriented towards each other, in the inner space of which the liner is placed, formed by truncated cones, matching large bases.

The proposed device is illustrated in the drawing, where in FIG. 1 shows a longitudinal section of a benchmark, in FIG. 2 is a cross-sectional view of a benchmark after its mounting, in FIG. 3 is a cross-section along AA in FIG. 2.

The described device includes a core 2 located in the well 1 with a plastic sleeve 3 rigidly fixed on it, the outer surface of which is lubricated with a non-freezing material 4, a plastic tubular shell 5, the outer surface of which is also lubricated with a non-freezing material and wrapped with a plastic film 6, a composite anchor consisting of an upper 7 and lower 8 parts of cylindrical combs with spiky teeth 9 oriented towards each other and interconnected by a flexible connection 10, insert 11, formed by a mustache with cones matching large bases located in the inner space of the armature and the filling material 12. The upper and lower parts of the armature are interconnected by cables through the radial holes 13 made in the core 2. The upper end of the core 2 is protected from damage a pipe with a cap (not shown in the drawing). As a non-freezing material, solid oil or a mixture of graphite with solid oil is used, and the filling material is sand, a hardening solution, or a combined version thereof.

The device is mounted as follows.

In the well 1 drilled to the design elevation, a reference core 2 is installed with a ferrule 3 rigidly fixed on it and a composite armature, which is assembled on the earth's surface before installation. An insert 11 is placed in the lower part of the anchor, and then both parts of the anchor are fastened together by a flexible connection 10, after which they begin to install the core 2 in the well 1. The core 2 is immersed into the well 1 without any difficulties, since the teeth of the combs are adjacent to the side surface liner 11, the diameter of which is less than the diameter of the well 1.

Upon reaching the bottom of the well 1 produce additional loading of the reference core 2 using force. As a result, the upper 7 and lower 8 parts of the cylindrical combs of the armature rush towards each other, slide their teeth 9 along the conical part of the liner 11 and bred to the walls of the well 1, are embedded in the surrounding soil, and take the working position. Next, the lower part of the well to USPG is filled with a hardening solution 12. Then, a tubular plastic sheath 5 is put on the core 2 with a clip 3, coated with non-freezing material and wrapped with plastic film 6. The remaining space in the well 1 is filled, for example, with local soil 14.

Compared with the prototype, the proposed device allows to simplify the manufacturing and installation process, as for its arrangement, you can use the simplified process of manual drilling of wells and wedging anchors, which allows you to install a benchmark in hard-to-reach areas. At the same time, the conditions for anchoring the reference core are improved, since broadening is formed after its installation. This provides the necessary stability of the benchmark both during sedimentary manifestations in the soil massif, and when exposed to frost heaving in heaving ground conditions.

Claims (1)

A benchmark installed in a well containing a metal core with a cone-shaped tip and an anchor at the end, rigidly fastened over its entire surface with a plastic cage, the outer surface of which is lubricated with non-freezing material below the level of seasonal freezing of the soil (USPG), and the casing with the cage is slipped and the presence of free space, a plastic tubular shell that is longer than USPG in length, the outer surface of which is lubricated with non-freezing material and wrapped in plastic lenok, and cavity filler, characterized in that the anchor is made integral, in the form of upper and lower parts connected by a flexible connection, each of which is made in the form of a cylindrical comb with spiky teeth oriented towards each other, in the inner space of which there is an insert formed by truncated cones matching large bases.

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