RU2468148C2 - Device for formation of wells for filling piles - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: device for formation of wells for filling piles comprises a working element in the form of a hub with a helical blade and a cone tip rigidly connected by a tubular shaft with exhaust holes aligned perpendicularly to its axis, with a helical leader, the helical blade of which has the same winding and pitch as the helical blade of the hub, the drive of the working element in the form of a hollow rotary stem, the upper end of which is connected with a source of a gas dynamic pulse, and the lower one - to a working element. The stem is fixed to the hub of the working element via a detachable flange, and the shaft of the helical leader has a through hole, at the outlet end of which on the spring there is a bump stop. The device is equipped with a mechanism for damaging obstacles in the form of a hydraulic hammer with an extender fixed on the flange of the replaceable stem, inside of which there is a pipeline mounted for supply of the working fluid to the hydraulic hammer.

EFFECT: increased efficiency of device performance, higher bearing capacity of a filling pipe arranged in a well, provides for overcoming obstacles when arranging wells.

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Description

The invention relates to the construction, namely the construction of foundations on printed piles during the construction of buildings, bridges and shore protection works.

A device is known for driving wells under rammed piles, including a pneumatic punch with an expander mounted on its body [1].

Closest to the proposed device in technical essence and the achieved result is a device for the formation of printed piles, containing a working body in the form of a hub with a screw blade and a tapered tip, rigidly connected to a tubular shaft with exhaust holes oriented perpendicular to its axis with a screw leader, a helical blade of which has the same winding and pitch as the helical blade of the hub, the drive of the working body in the form of a hollow rotating rod, the upper end of which is connected to the source gas dynamic pulse, and the bottom - with a working body [2].

A disadvantage of the known device is that when meeting with an obstacle in the form of a stone or a boulder, the screw leader abuts against it, as a result of which the moment for screwing in the working body increases, which ultimately leads to loss of the well.

The purpose of the invention is to increase the efficiency of the device.

To achieve this goal, the hollow rod of the drive of the working body is attached to the expander through a removable flange, and the shaft of the screw leader has a through hole, on the output end of which a bump is installed on the spring, while the device is equipped with an obstacle destruction mechanism in the form of a hydraulic hammer with an extension cord mounted on the replaceable flange rod, inside which is mounted a pipeline for supplying hydraulic fluid to a hydraulic hammer.

In Fig. 1. the general view of the device for producing wells for rammed piles is shown, in Fig. 2 - view A of Fig. 1, Fig. 3 - general view of the device equipped with an obstacle destruction mechanism.

A device for forming wells for rammed piles comprises a hub 1 with a screw blade 2 and a conical tip 3, rigidly connected to a tubular shaft 4 with exhaust holes 5 oriented perpendicular to its axis with the screw leader shaft 6, the screw blade 7 of which has the same winding and pitch, as the helical blade of the hub (Fig. 1). The screw leader shaft has a through hole 8, on the output end of which a bump 10 is installed on the spring 9, and a ring 11 with an inner cone and two stops 12 located on the diametrically opposite sides of the ring, into which the grips 13 of the flange 14 are mounted, is fixed on the expander’s hub connected to a hollow rod 75 (Fig. 2), on the day side of which a gas-dynamic pulse source 16 is mounted. The obstacle destruction mechanism (Fig. 3) is made in the form of a hydraulic hammer 17 with an extension 18 mounted on the flange 19 of the replaceable head rod 20, which is mounted inside conduit 21 for supplying the working fluid Breakers.

To form a well (Fig. 1), the screw leader bump 10 is installed at the desired point and the rod 15 is rotated. The screw leader, rotating with the rod, is screwed into the ground, forming the leader well, and carries the tubular shaft 4 along with it the conical shaft tip 3 and hub 1 into the ground. When screwing a screw blade 2 hubs into the soil, the leader well is isolated from the soil surface, and the moment for screwing the device increases. At this moment, the source of the gas-dynamic impulse 16 is triggered. A microexplosion shock wave fills the cavity of the rod, hub, and tubular shaft and presses the soil through the openings 5 from the tubular shaft 4, expanding the leader well to the required size. In the axial direction, the gas-dynamic effect on the soil does not extend, since the ends of the expandable well are isolated on one side by the leader screw 7 and, on the other, by the conical tip 3 and the hub screw 2, as a result of which the axial pressure of the gas during expansion of the well is perceived by these elements, additionally loading the tubular shaft 4 in tension. As a result of the expansion of the well by gas-dynamic action, the axial force required to expand the well decreases, therefore, the moment quired for screwing the working body. In the event of an obstacle in front of the screw leader in the form of a stone or a boulder, which prevents the axial movement of the device, the moment of screwing up the working body reaches its maximum value, the well sinking is stopped. The rotation of the rod 15 is reversed, as a result of which the flange 14 rotates relative to the hub 1, the grippers 13 (Fig. 2) disengage from the stops 72 and the rod together with the flange 14 is removed from the well. After that, a replaceable rod 20 is immersed in the well together with a hydraulic hammer 17 fixed on its flange 19 with an extension 18 (Fig. 3). The extension 18 through the conical tip enters the hole 8 of the leader shaft 6 until it contacts the bump 10. After this, the rod is turned, the grippers 13 of the flange 19 engage with the stops 12, fixing the hydraulic hammer 17 in the hub 1. The hydraulic hammer 21 is connected to the pipe 21 for supplying the working fluid to source of pressure. To destroy the obstacles include the drive rod 20 and the hydraulic hammer 17, which through the extension 18 acts on the bump 10, destroying the obstacle in front of the screw leader, and the rod 20, rotating the working body, provides further penetration. The spring 9 provides the return of the bump 10 after the impact of the hydraulic hammer to its original position, which allows the impact energy of the hydraulic hammer 17 to completely concentrate on the destruction of the obstacle. The process of destruction of an obstacle in its action is similar to the work of a concrete breaker. After a well is drilled in a section previously expanded by a gas-dynamic impulse, the moment of rotation of the rod will increase again. The rod with a hydraulic hammer is changed to a rod with a gas-dynamic impulse source and the well is drilled in the normal mode until the next obstacle appears.

After the well is drilled, the rotation of the rod 15 is reversed to the design depth, as a result of which the grippers 13 together with the flange 14 are rotated 180 ° and engage with the stops 12 from the opposite side (Fig. 2), ensuring the rotation of the device in the opposite direction. The screw blades of the leader 7 and expander 2, which are larger in diameter than the diameter of the well, are unscrewed from it, leaving a screw mark on its surface, which will increase the bearing capacity of the printed pile formed in such a well.

The connection of the gas-dynamic pulse source with the expander housing increases the volume of the initial gas-dynamic pulse, which allows, at the same pulse energy, to reduce the peak of gas pressure and increase the well expansion time, as a result of which the dynamics of the interaction of the gas-dynamic pulse with the soil decreases, and its effect on the soil increases, and, As experiments have shown, the volume of an expanded well is increasing, especially this effect is manifested on clay soils with low gas permeability .

The application of the proposed design will significantly increase the diameter of the wells obtained by the method of compaction of the soil into the walls of the well, and equipping the working body with a hydraulic hammer with high impact energy will ensure the destruction of significant obstacles and will minimize the loss of wells in soils, including stones and boulders.

Information sources

1. Pat. 2186928 Russian Federation IPC E21B 7/26, E21B 7/30. A device for driving a well in the soil and a method of forming expansion at the end of the well with its help / Terskov A.D., Maslakov P.A., Kostylev A.D., Smolyanitsky B.N .; applicant and patent holder: Institute of Mining - Research Institute of the SB RAS. - No. 20011114601/03; declared 05/28/2001; publ. 08/10/2002.

2. Application No. 2009144811/03 (063792) IPC E02D 5/56. Device for the formation of bored piles. / Romakin N.E., Zemlyansky A.A .; applicant Saratov State Technical University, 10/22/10.

Claims (1)

A device for forming wells for stuffed piles, containing a working body in the form of a hub with a screw blade and a conical tip, rigidly connected to a tubular shaft with exhaust holes oriented perpendicular to its axis, with a screw leader, the screw blade of which has the same winding and pitch as a screw blade of the hub, a drive of the working body in the form of a hollow rotating rod, the upper end of which is connected to a gas-dynamic pulse source, and the lower end to the working body, characterized in that the rod attaches I’m connected to the hub of the working body through a removable flange, and the screw leader shaft has a through hole, on the output end of which a bump is installed on the spring, while the device is equipped with an obstacle destruction mechanism in the form of a hydraulic hammer with an extension cord, mounted on the flange of the removable rod, inside which the pipeline is mounted for hydraulic fluid feed.

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