SU1764517A3 - Device for forming wells in soil - Google Patents

Abstract

The essence of the invention: the device comprises a drive shaft, bushings, a disk with a spherical bearing surface and rollers. The bushings are located eccentrically on the drive shaft and connected to it. The rollers are rotatably mounted with respect to the drive shaft. Spherical bores are located at the end of each roller to accommodate the bearing surfaces of the corresponding disk. Each disk is rigidly connected to the corresponding sleeve. Each bushing is pivotably mounted around a longitudinal axis of the drive shaft and locked in intermediate positions. The longitudinal axis of symmetry of each disc is located on the longitudinal axis of symmetry of the corresponding sleeve. 5 hp ff, 5 ill.

Description

The invention relates to construction equipment, and more specifically to devices for the formation of wells in the ground. These devices can be used for trenchless laying of communications, formation of stuffed piles, deep soil compaction, tightening of anchors, making walls in the ground and so on.

Devices for the formation of wells in the ground by the method of rolling are known, including a drive shaft, eccentric bushings and conical rollers, the longitudinal axis of each of which is angled to the longitudinal axis of the device and deployed around the longitudinal axis of the device relative to the adjacent roller. The disadvantages of this device include the low reliability of its work due to the ingress of soil and moisture into the gaps between the rollers.

The closest prototype proposed is a device for the formation of wells in the ground, including a drive shaft, eccentrically located on the drive shaft and connected to the last sleeve, a disk with a spherical bearing surface located on its outer side surface and rotatably mounted relative to the drive shaft of the roller with located at the ends of each bore spherical shape to accommodate the supporting surfaces of the corresponding disk.

The disadvantages of the known device can be attributed to its low efficiency in the formation of wells in soils with different physical and mechanical properties, since this device does not allow to install rollers with optimal tilt angles and their turn.

The aim of the invention is to increase the efficiency of formation of wells in soils with different physicomechanical properties by providing the ability to set the optimal angle of inclination of the longitudinal axis of each roller to the longitudinal axis of the device and the optimum angle of development.

with

Xj

ABOUT

and

and

with

company each rink around the longitudinal axis of the device.

This is achieved by the fact that each disk is fixed on a corresponding sleeve, and each sleeve is installed to rotate around the longitudinal axis of the drive shaft and fix in intermediate positions, while the longitudinal axis of symmetry of each disk is located on the longitudinal axis of symmetry of the corresponding sleeve.

Figure 1 shows a General view of the device in the collection; 2 shows the structure of the device; on fig.Z - section A - A in figure 2; Fig. 4 is a diagram of the mutual arrangement of the rollers Kt-Ka, the cross section; Fig. 5 is a diagram of the interaction of the rollers Ki-K2 with the ground.

A device for the formation of wells in the ground includes a drive shaft 1, bushings 2, discs 3, rollers 4. Bushings 2 are connected to the drive shaft 1 and are located with an eccentricity e to its axis. The disks 3 are located on the outer surface of the sleeves 2 and are made with a spherical support surface. The rollers 2 are located with the possibility of their rotation relative to the drive shaft 1 and are made with spherical bores for accommodating the bearing surfaces of the corresponding disk 3. The spherical surfaces of the rollers 4 and the disks 3 ensure their mutual displacement when a borehole is formed. Each disk 3 is made of antifriction material, for example, fluoroplastic, and is fixed to a corresponding sleeve 2, and each sleeve is mounted to rotate around the longitudinal axis of the drive shaft 1 and fix in intermediate positions, with the longitudinal axis of symmetry of each disk located on the longitudinal axis symmetry of the corresponding sleeve 2. The connection of the sleeves 2 with the drive shaft 1 is made in the form of a spline connection 5. The forming surface of each roller 4 is made convex in shape with a radius R.

The convex shape of the rollers 4 contributes to an increase in the contact area of the rollers with the ground, consequently, the soil compaction zone around the well increases and thus the formation efficiency of the well increases.

Sealing elements 6 are installed between the spherical surfaces of the rollers 4 and the disks 3 to prevent moisture and soil from getting into the device. Between the eccentric sleeves 2 of the adjacent rollers 4, an elastic gasket 7 is installed, with which you can adjust the pressing force of the spherical surfaces

rollers 4 and discs 3. In addition, the gasket 7 prevents moisture and soil from entering the device.

Eccentric sleeves 2 each roller

4 are rotated relative to each other at an angle a with the help of a facial joint 5. The optimum angle a depends on the physicomechanical properties of the soil and is established experimentally (trial

borehole passage).

Due to the possibility of setting the optimal angle of inclination of the longitudinal axis of each roller to the longitudinal axis of the device and the optimal angle of rotation

Each roller around the longitudinal axis of the device can achieve the interaction of the rollers with the ground with different physicomechanical properties along a continuous spiral trajectory 8 (Fig. 5) and thereby increase the time of the impact of the rollers on the ground, thereby increasing the efficiency of formation of the well 9.

The proposed device works as follows

When the engine is turned on (not shown in Fig. 1), the drive shaft 1 rotates the eccentric bushings 2 together with the discs 3, and the rollers 4 begin to screw into the ground along a spiral trajectory 8, forming a well 9 with sealed struts. By reverse rotation of the drive shaft 1, the device is unscrewed from the well.

The proposed device allows to expand the technological capabilities

due to its application in any compressible soil with different physicomechanical properties.

Claims (6)

1. Device for the formation of wells in the ground, including a drive shaft, eccentrically located on the drive shaft connected to the last sleeve, a disk with a spherical bearing surface located on its outer side surface and mounted with a rotatable relative to the drive shaft rollers with spherical bores located at the ends of each roller to accommodate support surfaces of the corresponding disk, characterized in that, in order to increase the efficiency of formation of wells in soils with different physical and mechanical properties by ensuring that the optimum angle of inclination of the longitudinal axis of each roller to the longitudinal axis of the device and the optimum angle of rotation of the roller around the longitudinal axis of the device are set, each disk is fixed ng a corresponding sleeve, and each sleeve is installed with the possibility of rotation around the longitudinal axis of the drive shaft and fixing in intermediate positions, with the longitudinal axis of symmetry of each disk located on the longitudinal axis of symmetry of the corresponding sleeve. 2. The device according to claim 1, wherein the connection of the sleeves with the drive shaft is made in the form of a spline connection. 3. Pop-1 device, characterized by the fact that the forming surface of each roller is convex. 0 4. Pop 1 device, characterized by the fact that it has gaskets of elastic material, which are placed between the sleeves of adjacent rollers. 5. The device according to claim 1, that is, so that the disks are made of antifriction material, for example of fluoroplastic. 6. A device according to claim 1, characterized in that a sealing element is installed between the spherical surfaces of the roller and the disk. four, fi { L V / If) sr u rge R K) ci / 7 / Fig ," five