RU2086733C1 - Method for construction of cast-in-place piles - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: this relates to building of pile foundations. For higher load-bearing capacity of cast-in-place piles and shorter construction periods, method implies building of cast-in-place piles without excavation of earth from leading bore-hole with filling it with hardening material. Used as hardening material is low-slump loose concrete mix which is delivered into bore-hole by batches and in layers, and layer l is equal to 0.9-1.1d, where l - depth of layer, d - diameter of bore-hole. Each layer is compacted by l₁ which is equal to 0.5-0.6d, where l₁ - depth of compacted layer before filling bore-hole through its entire depth. EFFECT: high efficiency. 2 dwg

Description

 The invention relates to the construction, in particular, to the construction of pile foundations.

 A known method of construction of printed piles, including the formation of a leader well and filling it with hardening material.

 A known method of constructing printed piles includes the following operations: using special mechanisms, the formation of a leader well; lowering into the leader well using other mechanisms of the metal casing; supplying plastic concrete mix to the casing; compaction of the plastic concrete mixture in the casing, which is simultaneously removed from the well, thus leaving a plastic concrete mixture in the well with smooth walls, after hardening of which a concrete packing pile with a smooth surface is obtained.

 The disadvantage of this method is the low bearing capacity of the piles due to its smooth side surface, as well as the increased construction time due to the use of plastic concrete mixture.

 The essence of the claimed invention is expressed by a combination of essential features sufficient to achieve the technical result of the invention, which consists in increasing the bearing capacity of printed piles and reducing construction time.

The proposed technical solution is characterized by the fact that the leader well is performed without excavation, and as a hardening material, a rigid loose concrete mixture is used, which is portionwise-layer-fed into the well, with each layer l equal to 0.9-1.1 d, where l is the height layer, and d is the diameter of the well, each layer is compacted by l ₁ equal to 0.5-0.6 d, where l _{1 is the} height of the compacted layer until the well is filled to its entire depth.

 When each portion of the rigid loose concrete mixture is fed into the well, less than 0.9 d, where d is the diameter of the well, the pile construction time will increase and its bearing capacity will decrease.

 When each portion of the rigid loose concrete mixture is fed into the well more than 1.1 d, the material consumption will increase.

 Compaction of each layer of rigid loose concrete mix of less than 0.5 d will not provide a rough surface.

 Compaction of each layer of rigid loose concrete mix of more than 0.6 d will increase the consumption of material.

 The claimed combination of essential features is in a causal relationship with the achieved result.

 Comparison of the claimed technical solution with the prototype made it possible to establish compliance with its criterion of "novelty", since it is not known from the prior art.

 The proposed method for the construction of rammed piles is industrially applicable existing technical means and meets the criterion of "inventive step", since it does not explicitly follow from the prior art, while the latter does not reveal the essential features required to be converted, which are distinguished from the prototype, to achieve this technical result.

 Thus, the proposed technical solution meets the criteria of the invention.

 The other known technical solutions for a similar purpose with similar significant features by the applicant was not found.

 In FIG. 1 shows a stacked pile with a smooth side surface; in FIG. 2 "dowel" stuffed pile.

 A method of constructing printed piles includes forming a leader well without excavation and filling it with hardening material.

As a hardening material, a rigid loose concrete mixture is used, which is fed portionwise layer by layer into the well, and layer l is 0.9-1.1 d, where l is the height of the layer and d is the diameter of the well, each layer is compacted by l ₁ equal to 0 , 5-0.6 d, where l _{1 the} height of the compacted layer to fill the well to its entire depth.

Claims (1)

 A method of constructing printed piles, including the formation of a leader well and filling it with hardening material, characterized in that the leader well is excavated without soil, and as a hardening material, a rigid loose mixture is used, which is batch-layer fed into the well, each layer being 0 height , 9 1,1d, where d is the diameter of the well, and each layer is compacted until the height of the packed layer is reached until the well is filled by the entire value of 0.5 0.6d.

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