TH5418B - Devices and methods for building columns from pelleting or monolithic in soil mass - Google Patents

Abstract

Pillar or monolithic pellets are constructed in the soil mass to increase the load carrying capacity of the original soil mass. The long hollow pipe fragment will penetrate into the soil mass to a predetermined depth and then The pellet material or stone for building the columns is fed through this pipe piece. and out at the lower end of the pipe piece From here the material is ejected in the direction of the radial direction by the impeller which opens. at least some at the lower end of the pipe piece While the pipe piece is being penetrated or being withdrawn from the soil mass at a predetermined rate to compact the granular material or rock in a relatively radial direction to form a monolith. A force of sufficient magnitude may be exerted by impellers on granular or rocky material to fragment the surrounding soil mass.

Claims (5)

1. A column-forming device made of coarse-grained or rocky material in compacted clay masses to increase the load capacity and / or to provide a drainage, consisting of: a shaped part. A long hollow tube with a top end to a bottom end, a feeding device attached to such parts that or Near the top end of it for material delivery, a device is a propeller that is firmly fixed to the so-called bottom end. And at least part of the device is a loud propeller. Said to be revealed under the so-called bottom end. And operating To push continuously and outward, and to compress the material when the material leaves the bottom end. In the radial direction of the so-called long parts, the thrusters connected to the so-called propulsion devices. It is a impeller for pushing the material mechanically with a supportive force. And continuous, and a device for reducing the above parts Down and raised in the soil mass 2. Equipment according to claim 1, where the propeller device is It will be rotated to the bottom end of the 3. Equipment according to claim 2, where the propeller device. It is rotated around the vertical axis of the said pipe section for Push the material outwards radially. 4. Equipment according to claim 3, where it consists of an The air pressure is connected to the said pipe piece near the top end of the It is to deliver air under pressure into the pipe 5. Device according to claim 4, where the pressure device is Said the air is delivered under pressure In the interior of the piece The pipe with a pressure of about 15-50 pounds per square inch 6. Equipment according to claim 3, where the propeller device is It consists of at least a curved blade with a curved face. Two ultimate blades for pushing and extruding materials outward. 7. Equipment in accordance with claim 3 where the rotary drive method. It consists of a long shaft drive which is mounted in pieces. The pipe section The drive shaft is hollow throughout to transport It flows through it to or from the area below the impeller device. 8. The device according to claim 3 consists of a cone end fixed to The underside of the propeller device that helps in the penetration of the Such piece of pipe into the soil mass 9. Equipment according to claim 8 where at the end of the cone Spinning with the said propeller device And has a curved surface The cone is reversed to help push the material out of the bottom end. Outward 1 0. Equipment according to claim 1 consists of a pole-mounted drive device. Located near the top end of the tubular piece to drive the part. The pipe goes downward into the soil mass below 1 1. The device according to claim 1 consists of a vibrating device installed. Near the top end of the pipe component to vibrate 1 2. Methods for constructing columns made of coarse-grained material or The rock in the compacted soil masses together to increase load carrying capacity and / or to provide a drainage path, which consists of the steps of: Positioning long hollow tubular fragments to In the soil mass at a predetermined depth, the material is fed downward through the part and exits at its lower end, mechanically pushing the material out of the end. The bottom of such a long pipe-shaped part with a force supporting and Continuously for pushing and compressing material exiting the bottom end. Of the part said outward in the radial direction. In relation to the so-called long piece 1 3. The method of claim 12 consists of the procedure for Penetrate or withdraw the ducts in the soil mass at a velocity Set while the said impeller is pushing and compressing material 1 4. Method of claim 13 whereby the impeller is Being driven to spin 1 5. Method of claim 13 consists of steps of taking It takes air under pressure into the duct part above. It corresponds to its upper end. 1 6. Method of claim 15, whereby such pressure will Is controlled to the range of about 15 to 50 pounds / square inch 1 7. Method of claim 13 where the step of driving. The piece of pipe goes downward into the soil mass 1 8. Method of claim 17 whereby the driving step The piece of pipe consists of the process of inserting the oscillation. Vertical vibration to such pipe parts 1 9. Method of claim 17 consists of the injection procedure. Water under pressure falls under the said pipe part while driving. The piece of pipe goes downward to aid in penetrating soil mass 2 0. Method of claim 13 whereby the force exerted by the leaf This blows against the material to push it off the propeller to The compacting will be of sufficient size for the surrounding soil mass to rupture. 1. Method according to claim 13 consists of the injection procedure. Seizures or other chemicals Into the material that has been pushed out to Taken to form a pole 2 2. Method for Claim 13 consists of steps Removes excess water from the material being pushed away during the withdrawal phase. Such piece of pipe 2 3. Method of claim 13 by which the propeller rotates Around the vertical axis 2 4. Method according to claim 23 where such propellers were Are arranged with two curved blades that open outward for use in the Chapter of ejection and compacting 2 5. The method of claim 13 consists of a procedure of vibration. Trembled the piece of pipe while removing it.