RU2054116C1 - Jet unit for erection of bored piles - Google Patents

Abstract

FIELD: construction. SUBSTANCE: jet unit for erection of bored piles has triangular frame, carriage of hydraulic giant and hydraulic giant attached to it. Hydraulic giant consists of rotator, swivel, pipe string and giant head. Hydraulic giant carriage and hydraulic giant are installed on inclined member of frame with pipe string of hydraulic giant resting on roller support. Mounted on frame are fixed and movable platforms. Attached to fixed platform is body of hydraulic cylinder, and its rod is connected with movable platform. Hydraulic giant carriage with the help of rope engaged with blocks forms closed kinematic system with pulley block located on movable platform. EFFECT: higher efficiency. 2 dwg

Description

 The invention relates to construction and can be used in the construction of drilling piles at a large angle of inclination, for their use as foundations, perceiving significant horizontal forces, as well as inclined soil anchors of large bearing capacity. In addition, from such piles, through their successive erection, protective load-bearing arches can be arranged when driving oblique underground passages in soft soils.

A known installation for the construction of drilling piles, including the basic tool, carriage, rotator, swivel and pipe string [1]
However, this setting does not allow to construct bored piles at a large angle of inclination (over ²⁰ °), which greatly reduces its scope.

Closest to the invention in technical essence and the achieved result is an inkjet installation for the construction of drilling piles, including the basic tool, the carriage, a hydraulic monitor attached to it, containing a rotator, swivel, a pipe string and a hydraulic monitor head, a guide for the carriage, blocks, cable and chain block [ 2]
This design of the installation has the same drawback as the previous one, i.e. prevents build bored piles under a large angle of inclination, since it lowering the pipe string occurs under the action of its own weight, which is possible only at a relatively small angle ^(about 20), and this reduces its scope.

 The aim of the invention is to expand the scope of the inkjet installation.

 This goal is achieved by the fact that in the jet installation for the construction of drilling piles, the basic tool is made in the form of a triangular frame, the inclined element of which is aligned with the guide, and is equipped with a fixed and movable platform and a hydraulic cylinder, and the pipe string is mounted on the guide by means of a roller support, the fixed platform is attached to the guide, the movable platform is mounted on a fixed and connected to the hydraulic cylinder rod, the cylinder body is fixed on a fixed platform, and the carriage, polisp The ast and the cable thrown through the blocks form a closed kinematic system.

 In FIG. 1 shows the proposed installation, side view; figure 2 is the same, cross section.

 The installation comprises a frame 1 of a triangular shape, an upper block 2, a cable 3, a swivel 4, a monitor carriage 5, a monitor 6, a roller support 7, a well 8, a pile 9, a monitor head 10, a lower block 11, a chain block 12, a fixed platform 13, a movable platform 14, hydraulic cylinder 15, monitor rotation drive 16, roller bearings 17 of the monitor carriage and movable platform 4, guides 18.

 The installation works as follows.

 A triangular frame 1 is mounted on the surface of the earth so that the hydraulic monitor 6 placed on it has the same direction as the pre-drilled well 8. The rod of the hydraulic jack 15 is mounted on the fixed platform 13 and attached to the movable platform 14. When the rod is retracted, moving the movable platform upward, while the cable 3 of the chain hoist 12 thrown over the upper 2 and lower 11 blocks moves the carriage of the hydraulic monitor 5 with the hydraulic jack 6 attached to it down. Thus, the hydraulic monitor is immersed in the well.

 Thanks to the use of the tackle, the path traveled by the carriage of the hydraulic monitor (and the hydraulic monitor) will be many times greater than the distance traveled by the moving platform.

 When the head of the monitor 10 reaches the design mark, water, air and a hardening solution are supplied to the monitor through the swivel 4, turn on the drive 16 and start lifting the monitor by extending the hydraulic jack rod 15, while the soil in the soil is eroded by a cylindrical cavity filled immediately with a hardening solution forming after setting, the pile body 9.

 When lowering the monitor into the well and raising it, the monitor rests on the roller support 7. The movement of the monitor carriage and the movable platform equipped with roller supports 17 are carried out in the guides 18 having a channel cross-section.

 With a large pile laying depth, after the hydromonitor is completely immersed in the well, the carriage is disconnected from the hydromonitor, returns to its original position, a new column link is connected to the hydromonitor, and the process continues. The rise of the hydraulic monitor is carried out in the reverse order.

Claims (1)

 DRILLING UNIT FOR DRILLING PILES CONSTRUCTION, including the base tool, the carriage, a hydraulic monitor attached to it, containing a rotator, swivel, a pipe string and a hydraulic monitor head, a carriage guide, blocks, cable and olispast, characterized in that the basic tool is made in the form of a triangular frame, the inclined element which is combined with the guide, and is equipped with a fixed and movable platforms and a hydraulic cylinder, and the pipe string is mounted on the guide by means of a roller support, the fixed support is attached to the guide, the movable platform is mounted on a fixed and connected to the hydraulic cylinder rod, the hydraulic cylinder body is fixed on a fixed platform, and the carriage, chain hoist and cable thrown through the blocks form a closed kinematic system.

Images