RU2158803C2 - Installation for vibration tamping of piles in ground - Google Patents

Abstract

FIELD: construction. SUBSTANCE: the installation has a basic machine in the form of a hoisting crane or a pile driver, mast and a vibrating tampler in the form of a vibrating immerser with a pile cap resting on the pile head and having a suspension. The vibrating immerser has a U-shape with the axis of rotation of the unbalanced masses located below the plane of its attachment; the pile cap has a spring-loaded plate braced with the body of the pile cap, provided with a guide cylinder in the center, positioned in the bush of the through hole of the pile cap and acting on the pile. EFFECT: enhanced efficiency of pile tamping. 3 cl, 3 dwg

Description

 The invention relates to the construction and can be used in the manufacture of pile foundations of houses and other structures for various purposes.

 A known installation for immersion of piles or sheet piles, including a base machine, a pressing mechanism mounted on it with hydraulic jacks, a pivoting arm with a pivoting guide pivotally attached thereto, an attachment device made in the form of a mechanism mounted on a pivoting arm for anchoring the base machine (RF patent N 2010918 E 02 D 7/20, 1994).

 The disadvantage of this installation is the lack of efficiency, large mass and difficult maneuverability.

 A known installation for immersion piles by indentation, including a crane, front and rear frames with extendable hydraulic cylinders, a mast, a loader with a cable-block system of indentation, a load and a rigid plate fixed to the chassis of the crane (RF patent N 2106455, E 02 D 7 / 20, 1998).

 The disadvantage of this installation is its low efficiency, large mass and difficult maneuverability.

 A device is known for vibro-squeezing pipes into the ground, containing a chassis with a frame supporting external support elements and a mast with guides for vibration exciter, a winch with cables, leveling and pulling blocks, and vibration exciter with a guide for a crushed pipe (AS USSR N 937614, E 02 D 7/18, 1982).

 The disadvantage of this device is the low efficiency of the exciter.

 The closest technical solution is the installation for vibrocompression of piles into the ground, including a base machine in the form of a lifting crane or copra, a mast and a vibrocompression device in the form of a vibro-loader with a pile headrest resting on the pile head and having a suspension (RU 2017895, E 02 D 7/18, August 15, 1994).

 The disadvantage of this device is the low efficiency of the vibrator.

 The essence of the claimed invention lies in the fact that the installation for vibrocompression of piles into the ground, including the base machine, in the form of a hoisting crane or copra, mast and vibrocompression device, in the form of a vibro-loader with a pile head rested on the pile head and having a suspension made in the form of a vibro-loader П -shaped with an axis of rotation of the unbalances located below the plane of its attachment, while the pile headgear has a spring-loaded plate connected to the body of the pile headgear with ties a female guide cylinder in the center, placed in the bush of the through hole of the pile head and acting on the pile, and the pile head, in turn, is equipped with hydraulic cylinders with rods connected to the folding grips engaged with the mast, made in the form of a power frame with located on with a certain step along the length of the stops, and the hinged grips of the rods of the power hydraulic cylinders are connected by articulated links to the traverse of the suspension of the vibro-pressing device.

 The invention is illustrated by drawings, where shown in FIG. 1 is a general view of an installation for vibro-pressing piles into the ground, FIG. 2 is a section along AA of FIG. 1, in FIG. 3 is a view along arrow B of FIG. 1.

 Installation for vibro-crushing piles into the ground includes a base machine 1 in the form of a crane or copra, a mast 2, a vibro-squeezing device 3 with a suspension 4, a power frame 5 made with stops 6 located at a certain step along the length and thrust shoes 7 connected to the power 5. When using a crane with boom 8, the power frame 5 is pivotally connected to it in the upper part and is supported by the roller 9 on the support beam 10 attached to the base machine 1. The power frame 5 is additionally connected to the support beam 10 articulated by hydraulic cylinder 11.

 When using a copra with a pile mast 2, the power frame 5 in the upper part is hinged to the jib of the pile mast 2 (not shown), and in the lower one to the support beam 10 attached to the base machine 1.

 Vibro-squeezing device 3 is made in the form of a vibration absorber 12, equipped with a pile head 14, resting on the head of the pile 13. The pile head 14 is equipped with hydraulic cylinders 15 and spring-loaded springs 16 plate 17.

 The spring plate 17 is provided with a guide cylinder 18 located in the center of the spring plate 17 and placed in the sleeve 19 of the through hole 20 of the pile head 14. The guide cylinder 18 acts on the pile 13 through the through hole in the pile head 14.

 The vibrator 12 is made in a U-shape, the axis of rotation "B" of the unbalance of which is located below the plane "G" of fastening it to the spring plate 17 of the pile headrest 14. This embodiment of the vibrator 12 stabilizes its operation. The spring-loaded plate 17 is connected to the casing of the pile headrest with ties 21.

 The rods of the power hydraulic cylinders 15 by means of the folding grips 22, which engage with the stops 6 of the power frame 5, are connected to the suspension 4 of the vibro-pressing device 3.

 The suspension 4 of the vibro-squeezing device 3 is made in the form of a traverse 23, connected by hinged links 24 with hinged grips 22 and a cable 25 with a lifting winch of the base machine 1. The springs 16 of the spring plate 17 are adjustable for vertical movement by threaded jacks 26 with stoppers.

 To increase the pressure on the pile 13, it is possible to install additional weights 27 on the support beam 10.

 To prevent damage to the head of the pile 13 during operation of the vibro driver in the headgear 14, a gasket 28 is provided.

 Installation for vibro-pressing piles into the soil works as follows.

 The cable 25 of the lifting winch of the base machine 1 raise the vibro-squeezing device 3 to the upper position. In this case, the rods of the power hydraulic cylinders 15 and the hinged grips 22 must be moved by the power hydraulic cylinders 15 to the lower position until the hinges 22 come out of engagement with the stops 6 of the power frame 5. When lifting the yoke 23, the hinged links 24 connected to it and with the hinges 22 rotate the hinged links 24 the grippers 22 in the upper position, thus providing unhindered lifting of the vibro-squeezing device 3 to the upper position. Then, a pile 13 (not shown) is hooked on the pile 13 and brought into the pile headgear 14, after pointing the pile 13 to the dive point, lower the cable 25 for lifting the vibro-squeezing device 3 before landing it on the pile head 13. At the same time, the pile cable is lowered. Under the action of the mass of the yoke 23, the articulated links 24 bring the hinged grips 22 to their original position, then turn on the power hydraulic cylinders 15 to move the rods up. In this case, the folding grips 22 engage with the stops 6 of the power frame 5 and, under the action of the power hydraulic cylinders 15, apply pressure to the pile 13, which is equivalent to the weight of the base machine 1 and the weight of the attachment with additional loads 27.

 To increase the efficiency of immersion of piles in the ground include a vibrator 12, which can create an additional powerful pulsating dynamic load on the pile 13 or vibration shock by direct exposure to the guide cylinder 18 through the through hole 20 in the pile headgear 14 with the corresponding adjustment of the springs 16 threaded jacks 26. Upon reaching immersion of the pile into the ground by the stroke of the power hydraulic cylinders 15 vibrator 12 turn off and turn on the power hydraulic cylinders 15 to return the rods with hinged grips 22 in the lower initial position. Then, the power hydraulic cylinders 15 are again turned on to raise the rods with the folding arms 22 up. In this case, the folding grips 22 are engaged with the next stops 6 of the power frame 5, creating pressure on the pile. Then the vibrator 12 is turned on again and the pile is immersed for one more step of the stroke of the hydraulic cylinders 15. Thus, the pile is immersed in the ground to the required level.

 The immersion of piles in the ground during the construction of the pile foundations of houses and other objects using the proposed installation increases labor productivity and the efficiency of the immersion process with less construction of pile foundations.

Claims (3)

 1. Installation for vibrocompression of piles into the ground, including the base machine in the form of a lifting crane or copra, mast and vibrocompression device, in the form of a vibro driver with a pile head rested on the pile head and having a suspension, characterized in that the vibro driver is made in the form of a П- vibro driver shaped with an axis of rotation of the unbalances located below the plane of its attachment, while the pile headgear has a spring-loaded plate connected to the casing of the pile headgear with ties th guiding cylinder in the center, placed in the sleeve of the through hole of the pile headrest and acting on the pile.  2. Installation according to claim 1, characterized in that the pile headgear is equipped with hydraulic cylinders with rods connected to the folding grips that engage with the mast, made in the form of a power frame with stops located on it with a certain step along the length.  3. Installation according to claim 2, characterized in that the hinged grips of the rods of the power hydraulic cylinders are connected by articulated links to the traverse of the suspension of the vibro-pressing device.

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