RU2170794C2 - Device for driving pile into ground - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: device has rigid body whose bottom is joined to external side walls through corrugation. Pile cap with grip made in the form of flexible casing enclosing crown of pile and joined to bottom by its lower part is installed inside body above hole in bottom. Butt-end of casing is fastened to perforated diaphragm fixed to body walls. Free space between casing and body and above diaphragm is filled with liquid through connecting pipe. Pulsed- discharge electrodes are introduced in body above perforated diaphragm. Shock-wave reflector is installed in upper part of body above liquid surface. Mentioned reflector is made in the form of air cushion between liquid and wall of body upper part or in the form of chamber separated from body space by flexible diaphragm and filled with sponge rubber. EFFECT: enhanced effectiveness of work due to increasing shock energy. 5 cl, 2 dwg

Description

 The invention relates to the field of construction equipment, and in particular to devices for immersion in piles of soil.

 A device for driving piles is known, including a housing filled with liquid, electrodes installed in it, connected to a current source, shock mass connected to the housing by spring rods, headgear (USSR Author's Certificate N 274718, class E 02 D 7/06, 1969 )

 The closest technical solution to the claimed one is a "Device for immersion in soil piles", comprising a fluid-filled housing with a bottom and insulated inner and outer shells, a gripping device and a plunger located inside the housing, the device being made with a pulse current generator and a spark gap connected with electrodes, one of which is installed in the bottom of the housing, and the other at the end of the plunger (USSR Author's Certificate N 424948, class E 02 D 7/00, BI N 15, 1974).

 A disadvantage of the known solution is that without the presence of a large mass in the plunger body, the device operates unstably and inefficiently. The energy of electro-hydraulic shock is used to drive the piles only partially, since part of the energy is spent on moving the plunger.

 The present invention solves the problem of increasing the efficiency of the device by increasing the impact energy.

 To achieve this technical result, a device having a body partially filled with liquid, pulsed discharge electrodes placed therein, a pile head cap connected to the body and having grips is provided with a perforated diaphragm located in the liquid and in contact with the head cap made in the form of a cap attached to the bottom the casing of the flexible casing and a reflector mounted in the upper part of the casing, the bottom of which is connected by means of corrugations with its walls, the upper part of the casing being made in in the form of a paraboloid.

 A flexible cap for capturing the headgear is located inside the housing of the discharge chamber between the bottom and the perforated diaphragm and is attached to it.

 The reflector is made in the form of an air cushion between the liquid filling the chamber and the wall of the upper part of the chamber.

 As an option, a reflector is provided in the form of a chamber separated in the housing by an elastic partition from the rest of the discharge chamber, this separated part being filled with sponge rubber.

The invention is illustrated in the drawings shown in FIG. 1, 2, where:
in FIG. 1 is a general view of a device with a reflector in the form of an air cushion in a housing formed by partially filling it with liquid;
in FIG. 2 is a general view of the device with a reflector in the form of an elastic chamber partition separated from a cavity in the housing in which sponge rubber is laid.

 The device for immersion in the soil of the pile consists of a rigid hollow body 1, in the bottom 2 of which a hole is made for the head of the pile. The bottom is connected by corrugations 3 with the outer side walls of the housing. Inside the housing there is a headband mounted above the hole in the bottom of the body, rigidly connected to the bottom with the bottom of the bottom in which the hole is made. Capture of the headgear is made in the form of a flexible casing 4, covering the head of the pile 5. The upper end of the casing 4 is attached to the perforated diaphragm 6, which is rigidly connected to the walls of the housing 1.

 The cavity between the casing 4 and the housing 1 is filled with fluid 7 through the nozzle 8. The fluid through the holes in the diaphragm also fills the upper part of the housing.

 Above the perforated diaphragm, impulse discharge electrodes 9 and 10 connected to a pulse generator (not shown) are introduced into the housing.

 In the upper part of the body, which is made in the form of a paraboloid, there is a shock wave reflector, which according to one of the options is made in the form of an air cushion 11 between the liquid level and the wall of the upper part of the chamber, formed by partially filling the chamber cavity with liquid.

 For stable operation of the device, the cavity in the housing must be filled with liquid so that the electrodes of the pulse discharge are covered with liquid.

 The shock wave reflector can also be made in the form of an elastic partition 12 (Fig. 2) of the chamber 13, which is filled with sponge rubber, separated in the upper part of the housing.

 The device operates as follows.

 The device using a flexible casing 4 is installed on the head of the pile 5 and turn on the pulse generator. The shock wave resulting from the discharge propagates in the liquid in all directions. The shock wave directed upward, having reached the reflector, is reflected downward. The head of the pile is hit by the main shock wave directed downward plus an additional shock impulse of the reflected wave.

 At the same time, the shock propagates through the holes in the perforated diaphragm 6 and acts on the bottom 2, which, stretching the corrugation 3, lowers down and partially rotates relative to the pile 5, while the flexible casing 4 more tightly covers the head of the pile, preventing the device from being removed from the pile head.

 Due to the impact on the head of the pile 5 shock pulses, the pile is immersed in the ground.

Claims (5)

 1. A device for immersing piles in the ground, containing a housing partially filled with liquid, pulsed discharge electrodes placed therein, a pile head connected to the housing and having grips, characterized in that it is provided with a perforated diaphragm located in the liquid and in contact with the head cap made in the form of a flexible casing attached to the bottom, and a reflector installed in the upper part of the housing, the bottom of which is connected by means of corrugations to its walls.  2. The device according to claim 1, characterized in that the upper part of the housing is made in the form of a paraboloid.  3. The device according to any one of claims 1 and 2, characterized in that the flexible cover for capturing the headgear is placed inside the housing between the bottom and the perforated diaphragm and attached to it.  4. The device according to any one of claims 1 to 3, characterized in that the reflector is made in the form of an air cushion between the liquid and the wall of the upper part of the housing.  5. The device according to any one of claims 1 to 3, characterized in that the reflector is made in the form of a camera, separated in the housing by an elastic partition filled with sponge rubber.

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