RU54969U1 - METAL PILED MORTGAGE WITH CROSS-BEAM LOCATION - Google Patents

Abstract

A metal pile grillage with a cross arrangement of beams is designed to create pile foundations in the construction of buildings and structures. The metal pile grillage includes two main beams that combine two piles, and these main beams are located crosswise, and the piles joined by each beam are diametrically opposed to each other. The cross position of the main beams is achieved due to their location at different levels - upper and lower, while the main beam of the upper level rests on the main beam of the lower level. The lower level beam is located in relation to the upper level beam in an inverted 180 ° position. The base plate of the foundation structure and the beams of the upper and lower levels are pulled together by means of long bolts (studs). EFFECT: reduction of material consumption of grillage and reduction of labor intensity.

Description

The metal pile grillage is designed to create pile foundations in the construction of buildings and structures.

Known reinforced concrete grillage pile foundation made of prefabricated blocks, including a glass and a cross-shaped monolithic plate with releases of reinforcement from the upper sections of its adjacent side faces (SU 1135852 A1, IPC 7 E 02 D 27/12, 01/23/1985).

Also known is the reinforced concrete grillage of the pile foundation, made prefabricated, with a kneecap and cross beams of T-section (SU 1135852 A1, IPC 7 E 02 D 27/42, 09/30/1986).

The main disadvantage of these grillages is the high cost of their manufacture and transportation to the construction site. In addition, the above grill designs are not designed to handle significant pulling loads.

The closest in technical essence to the claimed utility model is a metal pile grillage of a pile foundation containing three beams located at different levels. At the lower level, two main grillage beams are located in parallel, pairwise combining two piles. At the upper level, a more powerful grillage distribution beam is laid, on which the supra-foundation structure is directly supported. The distribution beam of the upper level grillage is based on the main beams of the lower level grillage and is perpendicular to it. In addition to the unit supporting the support structure on the distribution beam and the four nodes adjoining the main beams of the grillage to the piles, there are two intermediate nodes of supporting the distribution beam on the main beam of the grillage. As a result, the number of nodes increases to seven. Units can be both in bolted and welded versions. The only exception is the support unit of the over-base structure, which in most cases is performed by bolting (Typical design Typical structures and details of buildings and structures, series 3.407-115, Unified foundation structures of 35-500 kV overhead lines, Issue 6).

The disadvantage of the above metal pile grillage is the large number of connecting nodes of the structure, as well as significant material consumption arising in connection with the manufacture of a certain number of beam grillages.

The objective of the claimed utility model is to increase the manufacturability of a metal pile grillage due to the cross-arrangement of beams.

The technical result consists in reducing the material consumption of the grillage and reducing the complexity by reducing the number of operations performed during the installation of a metal pile grillage.

The technical result is achieved due to the fact that in a metal pile grillage, which includes the main beams combining two piles, according to the utility model, the main beams are located crosswise, the piles joined by each beam are diametrically opposed to each other, and the cross position of the main beams is achieved due to their location at different levels - upper and lower, while the main beam of the upper level rests on the main beam of the lower level, and on the main beam of the upper peer node nadfundamentnoy formed support structure including a support plate nadfundamentnoy structure tightness with the main beams of the upper and lower levels. The lower level beam is located in relation to the upper level beam in an inverted 180 ° position.

The technical result is also achieved due to the fact that, in contrast to the metal pile grillage according to the prototype, in which to connect the foundation structure with the distribution beam, separately bolts were required to connect the distribution beam to the foundation structure and separately bolts for connecting the distribution beam to the main beams, in metal according to the utility model, long bolts (studs) are used according to the utility grill, with which the base plate of the foundation structure and the and the upper and lower levels are pulled together, and the length of the bolts (studs) should be twice the double height of the beam.

The essence of the utility model is illustrated by the following drawings:

Figure 1 is a top view of a metal pile grillage with a parallel arrangement of beams according to the prototype,

Figure 2 - section 1-1 of Figure 1 (prototype),

Figure 3 - section 2-2 of Figure 1 (prototype),

Figure 4 is a top view of a metal pile grillage with a cross-arrangement of beams according to a utility model,

Figure 5 - section 1-1 but Figure 4 (utility model),

6 is a section 2-2 of figure 4 (utility model),

The metal pile grillage according to the utility model consists of two cross beams 1, 2, combining two diametrically opposite piles 3 (see Figure 4). One main beam 1, according to FIG. 5, is located at the upper level, and the other beam 2 is at the lower level, and the upper level beam 1 rests on the lower level main beam 2.

The junction points of the main beams 1, 2 to piles 3 (total 4) are not changed. The support node of the foundation structure (not shown in the drawing) is formed on the main beam 1 of the upper level. In this case, to unify the design of the main beams 1, 2 and ensure their joint work under load, the support unit is performed with the following features:

- the main beam 2 of the lower level is located relative to the main beam 2 of the upper level in an inverted 180 ° position;

- using long bolts (studs) 4, the base plate (not shown in the drawings) of the foundation structure (not shown in the drawing) and the main beams 1, 2 are pulled together, and the length of the long bolts (studs) 4 should be twice as long as twice the height the main beams 1 or 2 (see Fig. 5, 6).

It should be noted that for the convenience of installing a foundation structure, it is recommended to expand the position of the pile bush of the metal pile grillage in plan relative to the vertical axis by 45 °.

The main advantage of the claimed utility model is that the proposed design of a metal pile grillage with a cross-section of the main beams eliminates the distribution beam, and also that the number of nodes formed during the installation of the pile grillage is reduced to five in comparison with the prototype. In addition, the use of long bolts (studs) for the support node of the foundation structure allows using a beam of a single structure for grillage.

Claims (3)

1. A metal pile grillage, which includes two main beams that combine two piles, characterized in that the indicated main beams are located crosswise, and the piles joined by each beam are diametrically opposed to each other, the cross position of the main beams is achieved due to their location at different levels - upper and lower, while the main beam of the upper level rests on the main beam of the lower level, and on the main beam of the upper level is formed the support node nadfun cement structure, including a base plate of a foundation structure, tightened with the main beams of the upper and lower levels. 2. The metal pile grillage according to claim 1, characterized in that the base plate of the foundation structure and the beams of the upper and lower levels are pulled together by means of long bolts (studs). 3. The metal pile grillage according to claim 1, characterized in that the lower level beam is located in relation to the upper level beam in an inverted 180 ° position.