RU2080442C1 - Roller-type reaming device for building cast-in-place piles - Google Patents

Abstract

FIELD: construction and mining industry. SUBSTANCE: device can be used for sinking holes, strengthening of hole walls and building cast-in-place piles and for this purpose it has power-driven hollow shaft with radial outlet passages. Mounted on eccentric reamed necks of shaft are cylindrical rotatable and reversible devices, and mounted at both sides of cylindrical section in opposite directions are tapered rollers and their longitudinal axes are oriented at angle to longitudinal axis of device. Head-piece located in front of leading roller is rigidly connected with shaft and is provided with radial outlet passages and circular groove in surface for discharge of building slurry from inner space of driven shaft. Cross-sectional area of passages is increasing in direction of longitudinal axis of device. EFFECT: widened technological potentialities and increased productivity. 2 cl, 4 dwg

Description

 The invention relates to the mining and construction industries and can be used for driving a well, strengthening the walls of wells and manufacturing bored piles.

 Known equipment for laying piles or anchor ties by way of sealing soil cementation using auxiliary pipes (French application N 2621627, CL E 02 D 3/02, published. 1989), containing a hollow drill auger and auxiliary injection tubes attached to it having radial channels with exits located on the outer cylindrical surface of the screw blades of the screw.

 The disadvantage of this equipment is the interaction with the soil exits of radial channels located on the outer side surface of the screw.

 Closest to the invention in technical essence is a device (ed. St. USSR N 1677221, class E 21 B 3 / 00,7 / 24 published. 1988), containing a rolling working body having a hollow drive shaft deployed around its longitudinal axis eccentric necks mounted on the eccentric necks of the drive shaft with the possibility of rotation of the cylindrical rollers for reversing the device and conical rollers, the generators of which are located at an angle to the longitudinal axis of the drive shaft, the apex of which is oriented towards the head of ochego body casing, the lower end of which is connected to the working body, auger mounted for longitudinal movement relative to the hollow eccentric shaft of working body and the casing, a base machine with a rotation and feed drive mechanism.

The disadvantages of this device are:
reduction of the compaction zone around the originally drilled hole as a result of drilling a portion of the soil with the screw and making piles in two to three working cycles;
the resolution of the wellhead with a plug at the exit of the reamer to the surface.

 The objective of the invention is the expansion of the technological capabilities of the rolling mill and increasing productivity, i.e. getting the opportunity to produce bored piles, as well as fix the walls of the well with mortar, performing these operations with a reverse stroke of the working body in one working cycle.

 The problem is solved in that the rolling device for the manufacture of bored piles, including a hollow drive shaft with eccentric necks deployed around its longitudinal axis, mounted on the eccentric necks of the drive shaft with the possibility of rotation of the cylindrical rollers for reversing the device and conical rollers, the form of which are located to the longitudinal axis of the drive shaft at an angle, the apex of which is oriented towards the head of the device, characterized in that it has mounted on eccentric The drive shaft is rotatable with additional conical rollers, the generators of which are located to the longitudinal axis of the drive shaft at an angle, the apex of which is oriented towards the rear of the device, and the head of the drive shaft located in front of the head roller and made in the form of a tip has lateral surface of the annular groove for the release of mortar from the internal cavity of the drive shaft through channels whose cross-sectional area increases in the direction sion from the longitudinal axis of the device.

 Cylindrical rollers of the rolling device can be located between the main and additional conical rollers.

 The exit of channels for the release of mortar can be located between the rollers.

 In FIG. 1 shows a general view of a rolling device with channels having an exit at the base of the annular groove of the tips; in FIG. 2 is a general view of a rolling device with channels having an exit between the rollers; in FIG. 3, section A A in FIG. one; in FIG. 4 section B B in figure 2.

 The disclosing device for the manufacture of bored piles contains a hollow drive eccentric shaft 1 with a head part 5, channels 2, the cross-sectional area of which increases from the longitudinal axis of the device, and necks 3, which are mounted around the longitudinal axis of the shaft 1, on which cylindrical rollers 4 and conical rollers 6 are installed, the generators of which are located to the longitudinal axis of the drive shaft 1 at an angle, the apex of which is oriented towards the head part 5 of the device, as well as additional conical rollers 7, forming e are located to the longitudinal axis of the drive shaft 1 by an angle, the vertex of which is oriented towards the rear of the device. The head part 5, located in front of the head roller 10, has channels 8, the cross-sectional area of which increases from the longitudinal axis of the device, and an annular groove 9.

 Rolling device for the manufacture of bored piles works as follows.

 The device is connected to a drive having an axial feed and transmitting rotation to the hollow eccentric shaft 1 with the head part 5 rigidly connected to it. The arrangement of the outputs of the channels 8 at the base of the annular groove 9 not interacting with the soil, as well as the shape of the channels 8, whose cross-sectional area increases in the direction from the longitudinal axis of the device, contributing to the emergence of soil blocking the channels of the tube, prevent the penetration of soil into the cavity of the shaft 1.

 When the shaft 1 rotates, the cone rollers 6 and the cylindrical rollers 4 mounted on the expanded necks 3 of the shaft 1, spiral rolling around the bottom, compact the soil and form the walls of the well, and the location of the outlet openings of the channels 2 with the outward extension between the rollers 7 on the surface of the shaft 1 is not interacting with the soil, limits the penetration of soil into the cavity of the shaft 1.

 After the development of the well to a depth of the design elevation, the working body is removed from the well with the simultaneous supply through the cavity of the shaft 1 and the channels 8 of the rotating head 5, a mortar that pushes out, thanks to the expanding outward shape of the channels 8, the soil plug and evenly distributed over well. When applying mortar through the cavity of the rotating shaft 1 and channels 2 between the additional rollers 7 with simultaneous extraction of the working body from the well, the mortar is uniformly introduced into the walls of the well with a subsequent conical roller 7 and cylindrical rollers 4. Additional conical rollers 7 are compacted when the working body moves backward. crumbled soil, form a well tapering when sinking in watered soils and protect the wellhead from destruction when the working body emerges on the surface spine.

Claims (3)

 1. A rolling device for the manufacture of bored piles, comprising a hollow drive shaft with eccentric necks deployed around its longitudinal axis, cylindrical rollers for reversing the device and conical rollers, which are arranged at an angle to the longitudinal axis of the drive shaft, mounted on the eccentric necks of the drive shaft , the top of which is oriented towards the head of the device, characterized in that it has mounted on the eccentric necks of the drive in La with the possibility of rotation additional conical rollers, the generators of which are located to the longitudinal axis of the drive shaft at an angle, the top of which is oriented towards the rear of the device, and the head of the drive shaft, located in front of the head roller and made in the form of a tip, has on the outer side surface annular groove for the release of mortar from the inner cavity of the drive shaft through channels whose cross-sectional area increases in the direction from the longitudinal device axis.  2. The device according to claim 1, characterized in that the cylindrical rollers of the device are located between the main and additional conical rollers.  3. The device according to claim 1, characterized in that the output of the channels for the release of mortar is located between the rollers.

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