MD1057Z - Process for the erection of the cast-in-situ reinforced pile and auxiliary mounter for realization thereof - Google Patents

Abstract

The invention relates to the construction, in particular to processes and devices for the erection of cast-in-situ reinforced piles for various purposes, poured during installation.The process for the erection of the cast-in-situ reinforced pile comprises formation of the hole; location in horizontally oriented position of the reinforcing cage; location under the reinforcing cage of a traverse beam, consisting of rigidly connected sections; installation under the end portion of the cage of a locating block with a support beam; fixation of the reinforcing cage by rigidly connecting the locating block to the end portion of the traverse beam; fixation of the remaining free portion of the reinforcing cage to the traverse beam by means of tie locking elements; installation of the traverse beam in vertical position relying on the support beam of the locating block; uplift of the traverse beam with the reinforcing cage and separation of the traverse beam and the locating block, with simultaneous release of the case base; installation of the reinforcing cage into the hole; removal, as the reinforcing cage is sinking into the hole, of the tie locking elements and separation of the locating block sections; laying of the borehole material after completing the sinking of the reinforcing cage.The auxiliary mounter comprises a traverse beam (1), consisting of rigidly connected sections (2), the amount of which is chosen depending on the length of the reinforcing cage (3), and made in cross-section, preferably in the form of rays (6) embracing the cage, and a locating block (7) with a support beam (8) connected to one of the end portions of the traverse beam (1), and tie locking elements (9).

Description

The invention relates to construction, in particular to methods and devices for erecting reinforced monolithic pillars for different purposes, which are poured upon installation.

A method of raising a monolithic reinforced pile and an auxiliary mounting device for its manufacture are known. The method includes forming the well, installing the reinforcement casing in it and laying the material for the well hole. Before installing the reinforcement casing, a mounting device is inserted into it, which contains fastening elements and a rigid conductor, the length of which exceeds the length of the reinforcement casing, and the dimensions of its cross-section are smaller than the dimensions of the cross-section of the reinforcement casing, and at one end of it mounting ears are reinforced, and at the other end a removable support element is reinforced. The reinforcement casing is reinforced on the conductor with the help of fastening elements and the conductor is immersed together with the casing reinforced on it in the well. At the end of the immersion, the upper end of the casing is fixed in the well mouth and released from the conductor, the conductor is removed and the material for the well hole is laid [1].

The disadvantages of the known mounting method and device are that they are intended for raising pylons with insignificant diameter, since in the case of large diameters of 1, 2 or more meters a conductor with a cross-section of the corresponding dimensions is required, which will lead to an increase in the amount of material for the conductor (weight of the conductor) and, consequently, to an increase in energy consumption for mounting works. If a conductor with a small cross-section were used, long rigid fasteners would have to be used to connect the conductor and the casing, which will complicate both the construction of the device and the execution of the works.

The problem solved by the invention consists in ensuring the possibility of erecting large-diameter monolithic reinforced pillars, reducing the consumption of material for the equipment while ensuring the convenience of its operation.

The problem is solved by the fact that the method of raising the reinforced monolithic pillar includes forming the well; placing on intermediate supports in a horizontally oriented position a reinforcement casing, on one of the ends of which a metal ring with mounting ears is welded to the longitudinal load-bearing bars of the reinforcement; placing above the reinforcement casing a crossbar, which consists of rigidly assembled sections, the number of which is chosen depending on the length of the casing, and is made in cross-section, preferably, in the form of rays that encompass the reinforcement casing, at the same time the length of the crossbar corresponds to the length of the reinforcement casing; installing under the terminal portion of the casing without a ring a rigid housing with a support beam, which protrudes in the longitudinal direction beyond the limits of the reinforcement casing; fixing the reinforcement casing by rigidly joining the housing with the terminal portion of the crossbar; fixing the remaining free portion of the crossbar reinforcement casing using clamping and fixing elements that comprise the casing, located along the crossbar; installing the crossbar with the reinforcement casing fixed to it in a vertical position by lifting them from the mounting lugs and leaning against the support beam of the housing; lifting the crossbar with the reinforcement casing and separating the crossbar and the housing, simultaneously releasing the base of the casing; installing the reinforcement casing in the well; removing, as the reinforcement casing is immersed in the well, the clamping and fixing elements and separating the crossbar sections in the direction from the base of the casing to its top; placing the material of the well hole after the immersion of the reinforcement casing is completed.

In the case of filling a deep well with material, the reinforcement casing can be extended, in which, after immersing the first portion/section of the casing in the well, it is fixed in the well mouth, the next portion/section of the casing is lifted, the working reinforcement of the casing raised by the reinforcement and the casing ring, fixed in the well mouth, is welded, and the casing is continued to be immersed in the well to its base according to the proposed scheme, after which the material for the well hole is placed.

After installing the reinforcement casing in the well, a pipe with the lower end plugged can be installed on its axis.

The auxiliary mounting device for carrying out the reinforced monolithic pillar elevation process contains a crossbar, which consists of rigidly assembled sections, the number of which is chosen depending on the length of the reinforcement casing, and is made in cross-section, preferably, in the form of rays that encompass the casing, at the same time the length of the crossbar corresponds to the length of the reinforcement casing, as well as a slot with a support beam joined to one of the terminal portions of the crossbar, and clamping and fixing elements.

The auxiliary mounting device may additionally contain, joined to the crossbar and/or to the housing, gaskets/inserts, which enclose the reinforcement casing.

The execution of the cross-section of the cross-member, preferably in the form of diverging rays, makes it possible to significantly reduce the mass of the cross-member (metal consumption), since the encirclement of the casing by the cross-member is carried out tangentially (towards the circumference of the casing), which (tangent) can be selected depending on the specific diameter and specific weight of the casing to be installed. Taking into account that the casing of the massive pillar to be erected itself has a massive weight and a working (longitudinal) reinforcement of significant diameter, capable of independently supporting the weight of the casing, it becomes possible to use the socket with the support beam, protruding beyond the boundaries of the casing, only on a terminal portion of the casing, which also reduces the consumption of materials (quantity of materials) for the mounting device. The rigid connection of both the crossbar sections and the housing with the crossbar, between which the casing is fixed, makes it possible to preserve the geometry (geometry in space (trigonometry)) of the casing during the construction of the pile. The presence of gaskets/intercalations that enclose the casing connected to the crossbar and/or with the housing makes it possible to use a single specific type-dimension of the mounting device for the construction of wells with different, but close, dimensions. Installing a pipe with a plugged lower end in the well on its axis will make it possible to perform non-destructive control (ultrasound, etc.) when filling the well with concrete (with mortar, etc.), i.e. to control the degree of completion of the well with concrete (presence of voids), the degree of compaction of the mixture, etc.

The advantages of the invention consist in the possibility of erecting large-sized monolithic reinforced piles for various purposes, ensuring the preservation of the overall dimensions of the reinforcement casing provided for in the project before the well monolithic operation, which increases the quality of the works and ensures the bearing capacity of the pile provided for in the project. During the work, accessible standard drilling and lifting equipment is used.

The invention is explained by the drawings in Fig. 1 - 3, which represent:

- Fig. 1, view of the device together with the casing in horizontal position;

- Fig. 2, section A - A in Fig. 1;

- Fig. 3, the schematic process of installing the casing in the well.

The auxiliary mounting device for carrying out the reinforced monolithic pillar raising process contains a crossbar 1, which consists of rigidly assembled sections 2, the number of which is chosen depending on the length of a reinforcement casing 3. At one end of the pillar casing, a ring (not shown) with mounting lugs 5 is fixed (welded) to its longitudinal bars 4. The crossbar 1 is made in a cross-section, preferably in the form of rays 6 that enclose the casing. The device contains a recess 7 with a support beam 8. The casing is fixed to the crossbar 1 using tightening and fixing elements 9 (straps, cables, dowels, etc.). The casing may be comprised of gaskets/inserts 10, which are rigidly fixed to the crossbar 1, as well as to the recess 7 (not shown in the drawing).

The process of erecting the reinforced monolithic pillar is carried out in the following way.

On the construction site, the reinforcement frame 3 (produced directly on the construction site or brought from the factory) is installed in a horizontally oriented position on supports 11. The crossbar 1 is placed above the frame, the length of which corresponds to the length of the frame. Under the frame, the recess 7 with the support beam 8 is installed, which protrudes beyond the limits of the frame. The crossbar 1 and the recess 7 are rigidly connected to each other, thus fixing the frame. The remaining free part of the frame is connected to the crossbar 1 using the clamping and fixing elements 9. The crossbar 1 with the reinforcement casing 3 fixed on it is passed in a vertical position by lifting it by the mounting lugs 5 on the ring, welded to the longitudinal bars 4 of the casing, with support on the support beam 8. In a slightly raised vertical position, the separation of the recess 7 and the crossbar 1 is performed, releasing the lower portion of the casing, which begins to sink into a well 12. As the casing sinks, the elements 9 are separated from the crossbar 1 and the sections 2 are separated. When the casing will be installed in the well, the material for the well hole is placed, for example, concrete. If it is necessary to raise long (deep) piles, after fixing the first section (portion) of the reinforcement casing 3 in the wellhead, the second portion of the casing is installed above it, fixed on the crossbar 1. The connection is made, for example, by welding two oppositely placed ends of the consecutive portions of the reinforcement casing, the first portion of the casing is released from the wellhead and the immersion of the raised casing into the well continues.

The use of the invention ensures the possibility of erecting reinforced monolithic filling piles for various purposes and with increased dimensions, using standard drilling and lifting equipment, the quality of the work being high.

1. MD 4011 B1 2010.01.31

Claims (5)

1. Method of raising a monolithic reinforced pillar, which includes forming the well; placing on intermediate supports in a horizontally oriented position a reinforcement casing, on one of the ends of which a metal ring with mounting ears is welded to the longitudinal load-bearing bars of the reinforcement; placing above the reinforcement casing a crossbar, which consists of rigidly assembled sections, the number of which is chosen depending on the length of the casing, and is made in cross-section, preferably, in the form of rays that encompass the reinforcement casing, at the same time the length of the crossbar corresponds to the length of the reinforcement casing; installing under the terminal portion of the casing without a ring a rigid housing with a support beam, which protrudes in the longitudinal direction beyond the limits of the reinforcement casing; fixing the reinforcement casing by rigidly joining the housing with the terminal portion of the crossbar; fixing the remaining free portion of the crossbar reinforcement casing using clamping and fixing elements that comprise the casing, located along the crossbar; installing the crossbar with the reinforcement casing fixed to it in a vertical position by lifting them from the mounting lugs and leaning against the support beam of the housing; lifting the crossbar with the reinforcement casing and separating the crossbar and the housing, simultaneously releasing the base of the casing; installing the reinforcement casing in the well; removing, as the reinforcement casing is immersed in the well, the clamping and fixing elements and separating the crossbar sections in the direction from the base of the casing to its top; placing the material of the well hole after the immersion of the reinforcement casing is completed. 2. Method according to claim 1, in which, in the case of filling a deep well with material, the reinforcement casing is extended, where, after immersing the first portion/section of the casing in the well, it is fixed in the well mouth, the next portion/section of the casing is raised, the working reinforcement of the casing raised by the reinforcement and the casing ring, fixed in the well mouth, is welded, and the casing is continued to be immersed in the well to its base according to the proposed scheme, after which the material for the well hole is placed. 3. Method according to claims 1, 2, in which after installing the reinforcement casing in the well, a pipe with a plugged lower end is installed on its axis. 4. Auxiliary mounting device for carrying out the method, defined in claim 1, comprising a crossbar (1), consisting of rigidly assembled sections (2), the number of which is chosen depending on the length of the reinforcement casing (3), and is made in cross-section, preferably, in the form of rays (6) that comprise the casing, at the same time the length of the crossbar (1) corresponds to the length of the reinforcement casing (3), as well as a recess (7) with a support beam (8) joined to one of the terminal portions of the crossbar (1), and clamping and fixing elements (9). 5. Auxiliary mounting device according to claim 4, which additionally comprises, connected to the crossbar (1) and/or to the housing (7), gaskets/inserts (10), which enclose the armature housing (3).