RU158037U1 - TUBULAR PILES - Google Patents

Abstract

A tubular pile containing a vertically oriented hollow pipe fixed in the cavity of the hollow pipe at its lower end, a diaphragm assembly comprising upper and lower transverse sheet diaphragms with stiffeners located at a distance of at least 100 mm from one another, forming a diaphragm space, holes made in the wall of the hollow pipe at the level of the inter-diaphragm space and arranged uniformly around the circumference, vertically fixed on the inner surface of the hollow pipe An oversized cement mortar supply pipe connected to the inter-diaphragm space, characterized in that at distances 3D and 8D, where D is the diameter of the hollow pipe, two diaphragm assemblies are additionally installed from the upper edge of the hollow pipe, two vertically oriented pipes are additionally installed on the inner surface of the hollow pipe cement mortar tubes connected to inter-diaphragm spaces.

Description

The utility model relates to construction and can be used in the construction of foundations and foundations of buildings and structures, in particular, in the construction of buildings and structures on weak and flooded soils.

The closest analogue of the utility model is a tubular pile, including a vertically oriented hollow pipe, a cement mortar pipe fixed on the inner side surface of the hollow pipe, fixed at the lower end of the hollow pipe, inside of it upper and lower transverse sheet diaphragms (a pair of transverse sheet diaphragms) on a distance of at least 100 mm from one another, forming inter-diaphragm space, with the upper and lower transverse diaphragms reinforced by stiffeners connected to the inside nney surface of the hollow tube. The pipe for supplying cement mortar is brought into the inter-diaphragm space, holes evenly spaced around the circumference are made in the wall of the hollow pipe at the level of the inter-diaphragm space (Ukrainian patent for utility model No. 75070 “Tubular pile”, published on November 26, 2012).

The signs of the closest analogue, which coincide with the essential features of a utility model, is the presence in the tubular pile of a vertically oriented hollow pipe with a diameter; the presence of a diaphragm assembly fixed in the cavity of the hollow pipe at its lower end, including the upper and lower transverse leaf diaphragms with stiffeners located at a distance of at least 100 mm from one another, forming inter-diaphragm space, the presence of holes made in the wall of the hollow pipe at the level of the inter-diaphragm spaces and evenly spaced around the circumference; the presence of a vertically oriented tube for supplying cement mortar, connected to the inter-diaphragm space, and fixed on the inner surface of the hollow pipe.

The technical result of the utility model is to increase the bearing capacity of piles when combined with horizontal and vertical loads in the conditions of weak and flooded soils.

The closest analogue has the following disadvantages that impede the receipt of the specified technical result of a utility model. The holes in the lower part of the tubular pile allow you to strengthen the soil only in the supporting part of the pile, but can not affect the strengthening of the soil in the upper part of the pile, where the greatest movement of the pile is observed under the action of horizontal load.

The utility model is based on the technical task of improving the design of the closest analogue, which will allow to increase the bearing capacity of piles in conditions of weak and flooded soils.

The stated technical problem is solved in that a tubular pile containing a vertically oriented hollow pipe with a diameter, a diaphragm assembly fixed in the cavity of the hollow pipe at its lower end, including upper and lower transverse sheet diaphragms with stiffeners located at a distance of at least 100 mm from one another forming the inter-diaphragm space, holes made in the wall of the hollow pipe at the level of the inter-diaphragm space and arranged uniformly around the circumference, fixed to the morning surface of the hollow pipe, a vertically oriented pipe for supplying cement mortar, connected to the inter-diaphragm space according to the utility model at distances 3D and 8D, where D is the diameter of the hollow pipe, two diaphragm assemblies are additionally installed from the upper edge of the hollow pipe, additionally installed on the inner surface of the hollow pipe two vertically oriented tubes for supplying cement mortar, connected to the inter-diaphragm spaces.

Between the totality of the essential features of a utility model and the achieved technical result, there is the following causal relationship. The set of essential features of a utility model is a necessary and sufficient condition for achieving a technical result. Performing at distances of 3D and 8D, where D is the diameter of the hollow pipe, from the upper edge of the hollow pipe of the additionally installed two diaphragm nodes, performing in the wall of the hollow pipe at the levels of the inter-diaphragm spaces formed by pairs of transverse sheet diaphragms of holes arranged uniformly around the circumference, and performing on the inner surface of the hollow pipe of an additionally installed two vertically oriented pipes for supplying cement mortar, connected to the inter-diaphragm spaces and will increase the bearing capacity of piles under the combined effect of horizontal and vertical loads in conditions of weak and flooded soils, by strengthening the soil in the upper part of the pile, where the greatest movements of the piles are observed under the action of horizontal load.

The invention is illustrated by graphic material, where in FIG. 1 shows a general view of a tubular pile; FIG. 2 shows a section along AA of a fragment of a pile with a diaphragm assembly.

The tubular pile contains a vertically oriented hollow pipe 1 with a diameter fixed in the cavity of the hollow pipe 1 at its lower end, a diaphragm assembly 2, including upper 3 and lower 4 transverse leaf diaphragms with stiffeners 5 located at a distance of at least 100 mm from one another, forming the inter-diaphragm space 6, holes 7 made in the wall of the hollow pipe 1 at the level of the inter-diaphragm space 6 and arranged uniformly around the circumference, fixed on the inner surface of the hollow pipe 1 in a vertically oriented tube for supplying cement mortar 8, connected to the inter-diaphragm space 6, at distances 3D and 8D, where D is the diameter of the hollow pipe, two diaphragm assemblies 2 are additionally installed from the upper edge 9 of the hollow pipe 1, and additionally installed on the inner surface of the hollow pipe 1 two vertically oriented tubes 10 and 11 for supplying cement mortar, connected to the inter-diaphragm spaces 6.

A tubular pile works as follows. When driving piles to a predetermined depth, vertically oriented pipes for supplying cement mortar 8, 10, 11 pump cement mortar under pressure, which enters the inter-diaphragm spaces of 6 diaphragm nodes 2, and from there through openings 7 it enters the adjacent soil, due to its uniform arrangement holes 7 around the circumference of the hollow pipe 1, the cement mortar is evenly distributed around the pile, adheres to its surface, penetrates the soil along the periphery of the pile, creates a cement stone - a support. Such a cement stone is a support, having a diameter much larger than the outer diameter of the pile, and is well resistant to longitudinal and transverse loads due to the adhesion of the mortar over a large surface area of the pile. When the pile is exposed to horizontal loads, for example, when moving ice fields, during seismic loads, additional cement stones-supports located at distances 3D and 8D, where D is the diameter of the hollow pipe from the upper edge of the hollow pipe, established experimentally, Avoid the appearance of horizontal movements of piles.

Claims (1)

A tubular pile containing a vertically oriented hollow pipe fixed in the cavity of the hollow pipe at its lower end, a diaphragm assembly comprising upper and lower transverse sheet diaphragms with stiffeners located at a distance of at least 100 mm from one another, forming a diaphragm space, holes made in the wall of the hollow pipe at the level of the inter-diaphragm space and arranged uniformly around the circumference, vertically fixed on the inner surface of the hollow pipe An oversized cement mortar supply pipe connected to the inter-diaphragm space, characterized in that at distances 3D and 8D, where D is the diameter of the hollow pipe, two diaphragm assemblies are additionally installed from the upper edge of the hollow pipe, two vertically oriented pipes are additionally installed on the inner surface of the hollow pipe cement mortar tubes connected to inter-diaphragm spaces.

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