RU64224U1 - DEVICE FOR MANUFACTURE OF PUNCHED PILES - Google Patents

Abstract

The alleged invention relates to construction equipment and can be used for the manufacture of printed piles mainly in water-saturated unstable and sandy soils, crumbling or floating away in an unsecured well. The technical problem solved in the proposed invention is to expand the scope of the device while reducing the energy consumption of the process of production of a printed pile in a melt or collapse well. The problem is solved in that the device for the manufacture of printed piles, including a rotatable soil compacting working body with an axial channel, in which at least one outlet is made, is further provided with a tubular stopper commensurate with its length and commensurate with its length, connected to the ground sealing working body with the ability to move along the axis of the device. The tubular limiter can be installed with the possibility of rotation relative to the soil-sealing working body. The tubular limiter can be installed with the possibility of joint rotation with soil compaction working body. The tubular limiter may be provided with a spiral winding made on its outer surface. The tubular limiter can be installed concentrically to the axis of the soil-sealing working body. The tubular limiter can be installed eccentrically to the axis of the soil compacting working body.

The soil-sealing working body can be made in the form of a drive shaft and at least one cylinder and at least two cones mounted on it, the generators of which are located at angles with the vertices of the drive shaft at the vertices of which are directed to the head and tail parts of the device, respectively. 6 c.p. f-lf, 3 fig.

Description

The alleged invention relates to construction equipment and can be used for the manufacture of printed piles mainly in water-saturated unstable and sandy soils, crumbling or floating away in an unsecured well.

A device for the formation of bored piles (AS USSR No. 1677221, CL. E 21 B 3/00, 7/24, publ. 09/15/1991, Bull. No. 34), comprising a base machine with a mast having guides, working a body made in the form of a hollow shaft raiser, a drill auger mounted with the possibility of longitudinal movement relative to the razor hollow shaft, installed coaxially to the boring auger and a casing pipe connected to the mast guides, placed with the possibility of longitudinal displacement relative to the drive of the working body and connected by a lower end with a roll.

A disadvantage of the known device is its low productivity, due to the fact that the manufacture of piles with the required bearing capacity occurs in several working cycles, in view of the reduction of the compaction zone around the originally completed well as a result of partial excavation of the soil. In addition, when using this device, there are additional energy costs for transporting soil installed inside the casing screw from the bottom to the wellhead and dry mortar in the opposite direction.

Known equipment for the manufacture of bored piles (Lebedev M.V., Osokin A.I. and others. New types of bored piles. Collection of articles of the International scientific - practical conference. "Actual problems of design and

devices of foundations and foundations of buildings and structures ”, - Penza, 2004. - p.153-155.), which includes a base machine with a mast and a double rotation system mounted on the mast guides, connected with the casing and the hollow auger installed inside the casing with the possibility of simultaneous lifting of the casing with the auger and forcing the mortar into the formed well.

The disadvantages of the known equipment are the lack of a compaction zone around the formed well and high energy costs due to overcoming the friction forces on the surface of the contact with the soil of the casing body length from the wellhead to the bottom of the well and excavating the soil with a screw to the wellhead.

The closest analogue to the proposed invention in technical essence and the achieved result is a rolling device for the manufacture of bored piles (RF patent No. 2080442, CL. E 02 F 5/20, E 21 B 7/28, publ. 27.05.97, Bull. No. 15), including a drive shaft hollow with radial output channels, on the eccentric unfolded necks of which cylindrical rollers are mounted with the possibility of rotation and on both sides of the cylindrical rollers the main and additional conical rollers, the generators of which are located to the longitudinal axis the drive shaft at angles, the vertices of which are oriented respectively to the head and tail parts of the device and located in front of the head roller rigidly connected to the shaft tip having output channels for the release of mortar.

A disadvantage of the known rolling device is the impossibility of its use for the manufacture of printed piles in water-saturated unstable and sandy soils. This is explained by the inability of the device to form a well with dense stable walls in such soils, which leads to slipping or collapse

well walls. In this case, contact with the wall of the well of the mortar discharged under pressure from the hollow shaft of the device leads to the destruction of the well wall and mixing of the mortar with the soil. As a result, a shapeless pile is formed, in the body of which there are soil inclusions and caverns, which significantly reduces the stability, strength, and, consequently, the bearing capacity of the pile.

The technical problem solved in the proposed invention is to expand the scope of the device while reducing the energy consumption of the process of production of a printed pile in a melt or collapse well.

The problem is solved in that the device for the manufacture of printed piles, including a rotatable soil compacting working body with an axial channel in which at least one outlet is made, is further provided with a tubular stopper commensurate with its length and commensurate with its length, connected to the ground sealing working body with the ability to move along the axis of the device.

The supply of the device with a tubular limiter enclosing it, which is installed with the possibility of moving along the axis of the device, will allow the tubular limiter to be in the transport position when forming the well and compaction of the soil, and then in the working position when removing the device and calibrating the well while producing piles. The ability of a rotatable soil compacting working body to form and calibrate a well when immersing and removing a device, which excludes soil excavation to the wellhead, will make it possible to use a tubular limiter only for pile formation, which will significantly reduce the length of the tubular limiter. The proposed length of the tubular limiter, commensurate with the soil-sealing working body,

in the mortar outlet zone, it will prevent sanding or collapse of the wall of the well, and also prevent direct contact of the mortar with the wall of the well, which will prevent its destruction and mixing of the mortar with the soil. In this case, the maximum possible compaction for a given soil is achieved, since the tubular limiter is lowered into the well simultaneously with its formation. In addition, the proposed design will provide a uniform exit formed by the mass of mortar from the tubular limiter when removing the device. This will make it possible to produce a calibrated pile of the correct cylindrical shape, to ensure its straightness, and, consequently, stability. Moreover, the proposed length of the tubular limiter helps to reduce friction on the contact surface with the soil of the housing of the tubular limiter, which will reduce the energy consumption of the manufacturing process of piles.

The tubular limiter can be installed with the possibility of rotation relative to the soil-sealing working body. This will ensure the absence of rotation of the tubular limiter relative to the well wall, due to the action of friction forces on the contact surface with the soil of the tubular limiter body. In this case, a uniform distribution of the mortar emerging from the rotating outlet occurs inside the tubular limiter, which contributes to the faster formation of piles.

The tubular limiter can be installed with the possibility of joint rotation with the soil compacting working body, which will ensure rotation of the tubular limiter relative to the well wall, and, therefore, will increase the speed of immersion of the device while aligning and smoothing the well wall.

The tubular limiter may be provided with a spiral winding made on its outer surface. This will ensure that when the tubular limiter is rotated together with the soil-sealing working body, the tubular limiter is screwed into the soil and the borehole is further increased in speed, as well as when the device is removed, the manufacture of a pile having a screw winding on its outer surface, significantly increasing the bearing capacity of the pile.

The tubular limiter can be installed concentrically to the axis of the soil-sealing working body. This installation of a tubular limiter helps to center the device along the axis of the well and to ensure the linearity of the movement of the device, which leads to the production of a straight, and, therefore, more stable pile.

The tubular limiter can be installed eccentrically to the axis of the soil compacting working body, which will lead to lateral oscillation of the tubular limiter when immersing and removing the device. This will reduce the friction of the outer surface of the tubular limiter against the wall of the well, and, consequently, will lead to an increase in the rate of penetration of the well and the speed of manufacture of piles.

The soil-sealing working body can be made in the form of a drive shaft and at least one cylinder and at least two cones mounted on it, the generators of which are located at angles with the vertices of the drive shaft at the vertices of which are directed to the head and tail parts of the device, respectively. This embodiment of the soil-sealing working body is necessary for the formation and calibration of the well, respectively, when immersing and removing the device in the event of collapse or swelling of the wall of the well.

The alleged invention is illustrated by drawings. Figure 1 presents the proposed device is in the working position of the tubular limiter, a longitudinal section; figure 2 - device

for the manufacture of printed piles with a soil sealing working body, made in the form of a drive shaft with rotating soil sealing elements, and located in the transport position, with a tubular limiter, a longitudinal section; figure 3 - a device for the manufacture of printed piles with soil compaction working body, made in the form of a drive shaft with rotating soil compaction and elements, and in the working position of the tubular limiter, a longitudinal section.

The proposed device for the manufacture of printed piles includes a rotatable soil compaction tool 1 with an axial channel 2, in which at least one outlet 3 is made. Additionally, the device is equipped with a pipe compaction device 1 that spans and is commensurate with its length by a tubular stop 4 connected to the soil compaction tool 1 with the ability to move along the axis of the device.

The proposed device for the manufacture of printed piles works as follows.

The device is connected to a drive having an axial feed and transmitting rotation to the soil compaction tool 1. When the soil compaction tool 1 is rotated and the device is immersed in the soil, the soil compaction tool 1 compacts the soil and forms a well. Due to the fact that the friction forces on the surface of contact with the borehole wall of the tubular limiter body 4 are much greater than the friction forces between the inner surface of the tubular limiter 4 and the soil-sealing working body 1, the latter moves inside the tubular limiter 4 until it is locked in the transport position. Then the tubular limiter 4 is immersed in the soil, following the soil-sealing working body 1.

After driving the well to the required depth, the device is removed. While the tubular stop 4 takes

working position and is fixed in it. Then, the device is further lifted with a tubular limiter 4 next to the soil compacting working body 1. At the same time, the mortar is discharged through the channel 2 and the outlet 3 of the soil compacting working body 1 into the inner cavity of the tubular limiter 4 and pile formation. When lifting the device, the soil that has crumbled into the borehole is compacted or the sowing well is calibrated by the soil-tightening working body 1. When the device comes to the surface, the soil-tightening working body 1 protects the wellhead from destruction, and the tubular limiter 4, in the working position, promotes the formation of the pile head.

An example of a specific implementation.

The device is connected to a drive having an axial feed and transmitting rotation to the drive shaft 5 with an axial channel 2 and an outlet 3. When the drive shaft 5 is rotated and immersed in the device’s soil, the conical soil compaction elements 6 and 7, rolling along the bottom, compact the soil and form a well. The tubular limiter 4, due to the action of friction forces on its lateral surface, is in contact with the soil, remaining stationary. In this case, the fingers 8 of the cylindrical mounting element 9 move in the longitudinal grooves 10 of the tubular stop 4 to the stop, after which the tubular stop 4 occupies a transport position in which it is immersed in the ground, following the soil compaction elements 6 and 7.

After driving the well to the required depth, the device is removed. In this case, the fingers 8 of the cylindrical mounting element 9 move in the grooves 10 of the fixed tubular stop 4 in the opposite direction also to the stop, which fixes the working position of the tubular stop 4. Then the device is further lifted with the tubular stop 4 following the soil sealing elements 11. At the same time this is carried out

the release of mortar through the axial channel 2 and the outlet 3 of the drive shaft 5 into the inner cavity of the tubular limiter 4 and the formation of piles. The rotation of the drive shaft 5 relative to the wall of the non-rotating tubular limiter 4 provides a uniform distribution of mortar in the cavity of the tubular limiter 4. When lifting the device, the soil crumbled into the well is compacted or the flooded well is calibrated by soil compaction elements 11. When the device reaches the surface, the soil compaction elements 11 protect the wellhead from destruction, and the tubular limiter 4, being in the working position, contributes to the formation of the head of the pile .

A particular advantage of the proposed device is the ability to use for the formation of printed piles in water-saturated unstable and sandy soils of a rotating soil-sealing working body, which is used to strengthen the foundations of buildings and reconstructed buildings and structures.

Claims (7)

1. A device for the manufacture of printed piles, comprising a rotatable soil compacting working body with an axial channel, in which at least one outlet is made, characterized in that it is additionally provided with a tubular stopper covering its working body and commensurate with its length, connected to the ground sealing a working body with the ability to move along the axis of the device. 2. The device according to claim 1, characterized in that the tubular limiter is mounted to rotate relative to the soil-sealing working body. 3. The device according to claim 1, characterized in that the tubular limiter is mounted with the possibility of joint rotation with soil compaction working body. 4. The device according to claim 1 or 3, characterized in that the tubular limiter is equipped with a spiral winding made on its outer side surface. 5. The device according to claim 1, characterized in that the tubular limiter is installed concentrically to the axis of the soil compacting working body. 6. The device according to claim 1, characterized in that the tubular limiter is mounted eccentrically to the axis of the soil compacting working body. 7. The device according to claim 1, characterized in that the soil-sealing working body is made in the form of a drive shaft and installed on it at least one cylinder and at least two cones, the generators of which are located at angles to the longitudinal axis of the drive shaft , the vertices of which are directed respectively to the head and tail parts of the device.