RU2191235C1 - Method of reinforcement of building foundation and device for its embodiment - Google Patents

Abstract

FIELD: construction engineering; applicable in reinforcement of bases and foundation of buildings in their repairs or renovation. SUBSTANCE: method consists in that sections are pressed-in by hydraulic jack with subsequent adding and connection of pile with a new section by welding and concreting. Novelty consists in that reinforcing piles are pressed-in at an angle of 15 deg to foundation vertical surface, anchors are secured in foundation body, steel support is installed between anchors. Pressing-in of pile lower section with plugged lower end at adding stage is effected with the help of high-pressure pad (compressed-air jack). In this case, each next adding and connection of pile with as a new section are performed at rated force and the last section of pile is pressed-in up to rated force in pile with the help of hydraulic jack and without releasing load exerted onto it. Connecting members are installed and welded with steel support and upper part of pile last section. Then hydraulic jack is removed and pile hollow is concreted. Novelty in device for said method embodiment is that jack in adding stage is in the form of high-pressure pad (compressed-air jack) located between pressed-in pile with plugged lower end and steel support secured with the help of anchors to vertical surface of foundation. Used at last adding stage is hydraulic jack. EFFECT: higher efficiency and rate of work performance in reinforcing of building foundations and bases. 2 cl, 3 dwg, 1 ex

Description

 The invention relates to construction and can be used to strengthen the foundations and foundations of buildings during their repair or reconstruction.

 A known method of reinforcing foundations, including the formation of holes in the foundation, sectional crushing of piles through holes to a predetermined depth by means of a thrust device with a hydraulic cylinder, securing the head section of piles, and before crushing piles, anchor devices are installed in the holes, as hollow cylinders with a conical surface on which the end and diameter, providing free passage of the pile when crushing, then each anchor device is attached to the foundation with a railing by driving and a split ring with an inner surface in the form of a truncated cone or several parts of this ring, and a collet grip of the thrust device with a hydraulic cylinder is put on its part protruding above the foundation surface, and the head section of the pile is fixed either before the head section of the pile is crushed, injecting into the gap between the formed the pile shaft and cylinder are quick-hardening adhesive composition, and after crushing the head section, the pile is kept under load until the gluing process is completed, or after crushing the head section of the pile in the cavity of the cylinder, by injecting into the gap between the head section of the pile and the cylinder quick-hardening adhesive and keeping the pile under load until the end of the gluing process, or to fix the head section of the pile is made with embedded parts along its length or in a metal shell, and fixing is carried out by welding the head section of the pile and the cylinder along the contour of the latter while holding the pile under load (RF Patent 2057847, IPC E02D 27/08 - analogue).

 The closest is a method of strengthening the foundation of a building, construction with piles pressed by a hydraulic jack by transferring the foundation to the piles and / or piles brought under its sole, placing tubular sections of piles respectively under the foundation, mainly in the slabs formed in it or in the wall, and / or above the remote mainly inside the building, beyond the foundation contour in terms of beams, indentation of the pile section, its connection by welding with the subsequent section by a tubular coupling and concreting of the heads of piles, while before by pouring, the pile section is placed in the inventory ring holder of the hydraulic jack, the length of which is not more than the length of the pile section, and its external diameter exceeds the diameter of the pile section by at least 10 mm, the indentation of the last section of the pile is carried out by an amount not exceeding the length of the inventory ring holder, and after pressing the last section of the pile, the annular cage is removed and simultaneously with concreting the heads of the piles, the cavity formed after removing the annular cage is concreted (RF Patent 2144111, IPC E02D 27/48 - prototype).

 The method is carried out by a device containing a hydraulic jack with two-rod hydraulic cylinders, the bodies of which are interconnected by a plate with a central guide hole for the pile section, and the unidirectional rods are rigidly connected respectively to the thrust plate and having a central hole for accommodating the inventory of the base plate, remote from the beam base contour made in the form of strapping reinforced concrete belts with holes in which one end is an inventory of piles, tubular couplings piles are inside the tubular sections, which are connected mainly by welding along the ends directly or through tubular couplings, the length of which is not less than the diameter of the pile section, while the length of the inventory ring of the hydraulic jack is not more than the length of the pile section, and its outer diameter exceeds the diameter of the pile section at least 10 mm (RF Patent 2144111, IPC E02D 27/48 - prototype).

 The disadvantages of such methods of reinforcing the foundations of buildings and structures, providing for the installation of piles under the base of the foundation, is that this reduces the area of support of the existing foundation on the base, which can lead to additional deformation of the building for a period of reinforcement. In addition, the use of conventional hydraulic jacks requires considerable time for crushing piles, which makes the method itself and the device with which it is implemented inefficient.

 The disadvantage of the device that implements the described method is the low productivity of the hydraulic jack and, as a result, the decrease in the pace of work.

 The objective of the invention in terms of the method and device is to increase the efficiency, productivity and pace of work while strengthening the foundation and foundation of buildings.

The technical result of the invention is achieved through the use of a high-pressure cushion (pneumatic jack) for crushing sections of piles; fixing anchors and a steel stop on the vertical surface of the foundation, and not under the foundation; crushing reinforcement piles at an angle of up to 15 ^o to the vertical surface of the foundation.

The solution to this problem is achieved by the fact that in the method of strengthening the foundation of buildings, which consists in the fact that the pile sections are pressed with a hydraulic jack, followed by building and connecting the piles to the new section by welding and concreting, and the reinforcement piles are crushed at an angle of up to 15 ^o to the vertical surface of the foundation, in the foundation body, on a vertical surface, an anchor is strengthened, between which a steel stop is installed, crushing the lower section of the pile with the muffled lower end at the building stage is performed with using a high-pressure cushion (pneumatic jack), in this case, each subsequent build-up and connection of the piles with a new section is carried out until the calculated force is measured by a manometer in the high-pressure cushion, and the last section of the pile is crushed to the calculated force in the pile using a hydraulic jack and without removing the load from it, install the connecting elements and connect them by welding with a steel stop and the upper section of the last section of the pile, after which the hydraulic jack is removed and the cavity of the pile is concreted.

The problem is also solved by the fact that in the device for implementing the method of strengthening the foundation of a building containing a hydraulic jack and pile sections, the jack at the stage of building is a high-pressure cushion (pneumatic jack) located between the crushed pile with a muffled lower end and a steel stop fixed with anchors on the vertical surface of the foundation, the pile body is disposed at an angle of 15 ^o to the vertical surface of the base, at the last stage jack capacity yavlyaets a hydraulic jack, and the last portion of the pile section and a steel abutment connected by welding the connecting elements.

 The drawings show a device for implementing the proposed method of strengthening the foundation. In FIG. 1 shows a device, a General view, in FIG. 2 - device, section bb; in FIG. 3 - pile with connecting elements, a section along BB.

 The device contains a pile 1, connecting elements 2, used at the last stage of work to strengthen the foundation and connecting by welding a pile 1 with a steel stop 3, fixed to the foundation 5 with anchors 4, a high pressure cushion 6.

 The way to strengthen the foundation of buildings is implemented using a device for its implementation as follows.

On the vertical surface of the body of the existing foundation 5, which is supposed to be strengthened, holes are made and an anchor 4 is installed, between which a steel stop 3 is installed and fixed. The lower section of the pile 1 with the muffled lower end is installed at an angle of up to 15 ^o to the vertical surface of the foundation. Between the steel stop 3 and the pile 1, a high-pressure pneumatic cushion 6 (pneumatic jack) is placed, with the help of which the lower section of the pile 1 is pressed into the ground with a plugged end. Crushing is carried out until the calculated force, measured by a manometer to determine the pressure in the air bag. Pillow 6 retracts. Next, the next pile section is welded to the upper end of the lower portion of the pile section 1. Reinstall the air bag and repeat the process until a design effort is obtained. The connection of sections of piles is carried out using electric arc welding with full penetration along the contour of the pile. The last section of the pipe is crushed without using a high pressure cushion 6 using a hydraulic jack. After reaching the calculated force in the pile, without removing the load from the hydraulic jack, install the connecting elements 2 and connect them by welding with the last section of the pile and with the steel stop 3. The cavity of the pile 1 is filled with concrete.

Compared with the prototype in the proposed method and device for its implementation:
- the bearing capacity of the soil under the sole of the foundation is preserved (the device for crushing piles is made along the side surface of the foundation);
- fastening to the body of the existing foundation is carried out in any convenient place and does not depend on the depth of the existing foundation;
- the bearing capacity of the pile (pressure on the pile) is controlled using a manometer crushing device (pneumatic jack);
- after crushing the last section, the pile remains already included in the work for the design effort, that is, there is no need to wait for shrinkage, etc .;
- the bearing capacity of the pile is not limited and is determined by the length of the pile, its diameter (diameter of the pipes used), the number of anchors installed in the existing foundation;
- simplicity and speed of manufacture and installation of piles;
- the ability to install piles in any hard-to-reach areas;
- for the installation of piles requires minimal mechanization.

 Thus, the proposed method of strengthening the foundation of buildings and a device for its implementation can dramatically reduce the time for repair or reconstruction work, increase their efficiency and productivity.

 The proposed method is effectively used in the reconstruction and repair of buildings and structures of the city of Krasnoyarsk.

 At one of the construction sites in Krasnoyarsk, a part of the retaining wall constructed of concrete blocks collapsed. The wall was supported by bulk soil, and its height was 3-3.6 m. The collapsed section of the wall had a length of about 20 m, and part of the wall 30 m long stood. The slope in the remaining part was 1/20 of the wall height, in addition, cracks with an opening width of 3-4 mm were noted in the blocks and joints, indicating a pre-emergency state of the structure. After some calculations, it was decided to strengthen the rest of the wall by installing two buttresses.

 The buttress was based on a pressed-in inclined pile of tubular elements 0.7 - 0.8 m long. A pipe ⌀ 273 • 5 mm was cut with a gas cutter on the marked elements so that the joints were the same when building the pile shaft. Practice shows that in this case, you can do contour welding without welding the usual four butt rods. The pile works for compression, and the cavity of the pipe is filled with concrete. The first (lower) element (section) of the pile had a welded (plugged) end face with two perpendicularly welded triangular plates 5-6 mm thick for the formation of a tip. To stop the jack on the retaining wall, a steel stop welded from rolling profiles was fixed.

 As a jack for crushing piles, an NKV 200 high-pressure pillow was used, with a plan size of 511 • 511 mm and a lifting capacity of 20 tons (200 kN). Pillow travel 285 mm. Execution confirmed the correctness of the decision. Firstly, the pillow is not heavy (6.5 kg), and secondly, the possible slight eccentricity practically did not affect. The pillow works smoothly, and its response time is only 9 seconds.

 To ensure the safety of the pillow, steel plates 5 mm thick and 0.5 • 0.5 m in size were laid on top and bottom of it. Using the pressure gauge, interpolation (8 bar - 20 tons) simply determined the crushing force. After the piles are immersed 2.5 - 3 m, concrete is laid in the pile cavity. At a higher height, delamination of the concrete mixture is possible. Estimated soil resistance per pile was 16 tons.

 The piles were crushed by 3-3.5 m. At the last stage, the DM-40 jack was used in order to create tension in the pile and turn it on immediately.

 With a jack force of approximately 20 tons, the pipe was connected to the stop using steel angles during welding. Further buttresses were welded together and concrete.

 Currently, the condition of the wall does not inspire concern.

Claims (2)

1. The method of strengthening the foundation of buildings, which consists in the fact that the pile sections are pressed with a hydraulic jack, followed by building and connecting the piles to a new section by welding and concreting, characterized in that the reinforcement piles are pressed at an angle of 15 ^o to the vertical surface of the foundation, in the foundation body on An anchor is fixed on the vertical surface, between which a steel stop is installed, crushing of the lower section of the pile with the muffled lower end at the building stage is carried out using a high pressure cushion (Mon jack), in this case, each subsequent build-up and connection of the piles with a new section is carried out until the calculated force measured by a manometer in the high pressure cushion, and the last section of the pile is pressed down to the calculated force in the pile using a hydraulic jack and, without removing the load from it, the connecting elements and connect them by welding with a steel stop and the upper section of the last section of the pile, after which the hydraulic jack is removed and the cavity of the pile is concreted. 2. A device for implementing the method of strengthening the foundation of a building, comprising a hydraulic jack and pile sections, characterized in that the jack at the stage of building is a high pressure cushion (pneumatic jack) located between the crushed pile with a damped lower end and a steel stop fixed with anchors to vertical surface of the foundation, while the body of the pile is located at an angle of 15 ^o to the vertical surface of the foundation, the jack at the last stage of building is a hydraulic jack, and the last section of the pile section and the steel stop are connected by welding with connecting elements.

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