RU188385U1 - Installation for testing piles with static pressing load using anchor piles - Google Patents

Abstract

The utility model relates to the field of construction and can be used to test pile foundations with static loads. The main beam of the installation is installed in the design position above the test pile with a given height on the mounting blocks. Distribution traverses are installed on the main beam and connected to the anchor piles using cords installed on the anchor piles. The technical result is to simplify the design and reduce material consumption. 2 ill.

Description

The technical field to which the utility model relates.

The utility model relates to the field of construction and can be used to test pile foundations with static loads.

Technical level

The prior art device for static testing of piles (patent RU 156920 publ. 20.11.2015), including a hydraulic jack, a motion detector with measuring instruments, a persistent cross-shaped platform, each end of which is installed between two screw supports, through persistent cross members, the cross-shaped platform is flat, with slots made at its ends, the screw support is detachable and consists of a screw and a rod, while the lower part of the rod has a through lateral hole for compound with auger finger crossmember formed with slots at the ends and a hole at the center and displacement determinant instrumentation mounted on a side surface of the pile under test, wherein the cruciform platform fixed to twelve screw supports.

The disadvantage of the device described above is the use of a cross-shaped platform having a significant development of length in two orthogonal directions, limiting the maximum number of screws - 12 pcs., The inconvenience of installation and the need to use rods of significant cross-sectional area to ensure stability requirements of the platform-tie system during installation installation.

Also known is the installation for static testing of piles with a hydraulic jack, a system of beams and anchor piles (Petukhov, A.A. Improving the method of construction of injection piles in soft clay soils for reconstruction of buildings: Diss. Candidate of Technical Sciences. Tomsk, 2006. - 192 p.), Consisting of a main beam, distribution beams, a fastening system for beams of thrust plates and bolts, anchor piles, a connecting device for piles with a system of beams, a loading device - a hydraulic jack, a hand pump for Ania pressure in the system "pump-hose-jack", a reference system with measuring instruments.

This installation allows you to test the pile foundations for static loads by creating pressure on the test pile using a hydraulic jack and the main beam connected to the anchor piles through distribution beams, thrust plates and bolts. Moreover, the design of the installation implies the invariance of its execution: depending on the hydrogeological conditions, the test of the pile can be performed using 4, 8, 12, etc. augers. However, this installation has several drawbacks in the technical solution of the mounting unit of the distribution beams with the main through a system of plates and bolts. Firstly, this solution implies a clear arrangement of anchor piles along the length of the main beam in places where there are no transverse ribs, and secondly, a large number of fasteners increases the complexity of installation, while reducing the reliability of the main beam connection.

The closest known device is the installation for static testing of piles using anchor piles (patent RU 180952 publ. 07/02/2018), consisting of the tested piles, on which a hydraulic jack is installed, connected to the pump station, the main beam mounted on the distribution beam and connected with them using persistent traverses, cords and nuts, as well as anchor piles, the number of which is selected depending on the required level of loading and hydrogeological conditions of the built-up site. The movement of the test pile is measured using a reference system with measuring instruments.

This installation allows you to test the pile foundations for static loads by creating pressure on the test pile using a hydraulic jack and the main beam connected to the anchor piles through distribution beams, thrust plates and bolts. Moreover, the design of the installation implies the invariance of its execution: depending on the hydrogeological conditions, the test of the pile can be performed using 4, 8, 12, etc. augers.

However, the distribution of the traverse to distribution and support functions necessitates the use of a large number of installation elements and increases the complexity of the installation assembly.

Utility Model Essence

This utility model solves the problem of creating a plant for testing piles, which allows to reduce the complexity of the tests. At the same time, the arsenal of technical equipment is expanding, the design is simplified and material consumption is reduced.

To solve this problem and achieve the indicated technical result, in this utility model, a piling test installation is proposed that includes a main beam with distribution traverses and cords installed on it.

A feature of the claimed utility model is that the main beam is installed in the design position above the test pile with a predetermined height on the mounting blocks, while the distribution cross beams are connected to the anchor piles using tie rods installed on the anchor piles.

The load is transferred to the main beam through the strands installed directly on the anchor piles. Mounting blocks play the role of supporting traverses and ensure that the main beam is installed in the design position above the test pile from a given height.

The authors and applicants have not identified technical solutions from the prior art that contain the totality of all the claimed features and characterize the utility model, which confirms its novelty.

A useful installation model is illustrated by drawings.

In FIG. 1 shows a general view of an installation for testing piles with static load using anchor piles, FIG. 2 is a side view of the installation.

Utility Model Implementation

The installation includes a main beam 1 mounted on mounting blocks 2, distribution traverses 3 and 4, connected directly using tie rods 5 and nuts 6 with anchor piles 7. A hydraulic jack 9 is installed on the test pile 8, connected to the pump station 10. Number of anchor piles 7 is selected depending on the required level of loading and hydrogeological conditions of the built-up site. The measurement of the displacements of the tested pile 8 is carried out using the reference system 11 with measuring instruments.

The operation of the installation for testing piles with a static load using anchor piles is carried out in the following sequence: in the immediate vicinity of the test pile 8, the location of the anchor piles 7 with their subsequent immersion is marked at a required distance from it, then using the mounting blocks 2 the main is installed at the required height beam 1, the center of which is strictly oriented above the test pile 8 and the hydraulic jack installed on it 9. On top of the main beam 1 are installed itelnye crosspiece 3 and 4 which are connected to the anchor piles 8 by means of strands 5 and nuts 6. The mounting completion of the installation set reference system 11 instrumentation. The loading of the structure in stages occurs by setting the pressure of the hydraulic jack 9 connected to the pump station 10.

Distribution traverses 3, 4 are designed to include two or four anchor piles 7, which allows you to perform various layout options for the installation of anchor piles 7, gives greater versatility of the proposed installation and the maneuverability of testing under cramped conditions.

The utility model is industrially applicable, since it can be repeatedly implemented with the achievement of the specified technical result.

Claims (1)

Installation for testing piles with a static pressing load using anchor piles, including a main beam with distribution traverses and strands installed on it, characterized in that the main beam is installed in the design position above the tested pile with a given height on the mounting blocks, while the distribution traverses are connected to anchor piles using cords installed on anchor piles.

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