RU194016U1 - Screw anchor - Google Patents

Abstract

The utility model includes a hollow cylindrical steel drive pipe 1 with a diameter of 110-325 mm and a wall thickness of 10-20 mm. On the lower immersion part of the pipe 1, a screw blade 2 is installed from a steel strip for cutting grooves in the ground while screwing the anchor into the leader hole of rocky soil. The submersible end of the pipe 1 from a height exceeding the height of the lower end of the lower screw blade 2 on the pipe 1 is made tapering towards the submersible end of the anchor with a taper angle α = 15-20. The screw blade 2 on the cylindrical bearing part of the anchor is made with a pitch of turns of 140-240 mm and in the transition to the tapering part of the pipe 2 with a pitch of 190-320 mm from a steel strip 3 with a width of 40-50 mm and a thickness of 10-20 mm. On the end of the turns 2 of the steel strip, cuts 3 are made with a depth of 10-25 mm with a slope of 60-80 with respect to the tangent to the surface of the turn in the direction of rotation of the anchor when screwing it into rocky soil, forming side knives for cutting into rocky soil. The lower end of the narrowed part of the pipe 2 is equipped with end cutters 4 with a height of 15-20 mm. End cutters 4 are made in the form of triangular protrusions or sawtooth teeth, evenly distributed around the circumference of the end part of the lower end of the pipe 1 of the anchor. The upper part of the cylindrical pipe 1 is provided with through holes 5 for connecting to the shaft of the rotation drive of the anchor. A useful model allows to increase the structural strength and cutting capabilities of the screw anchor for the construction of pile foundations on rocky soils without the use of concrete. 1 s.p. f-ly, 3 ill.

Description

The field of technology.

The utility model relates to the field of construction on rocky soils without concrete, specifically to screw anchors, immersed in the leader hole of rocky soils and which is part of the foundation for the subsequent installation of critical structures.

The most effective utility model can be used in foundation engineering for fastening structures for various purposes to rocky soil: prefabricated buildings and structures, antenna masts and phased antenna arrays (PAR), pipelines for various purposes, moorings, retaining walls, bridges, buildings and structures of capital construction in mountainous terrain with rocky soils, increased wind and snow loads, including areas of the Far North.

The level of technology.

Known screw anchors / SU 1649039, 114693, RU 15350, RU 2034956, RU 2164980, RU 2489548, RU 2548283 /, including a hollow barrel for vacuum suction of drilling products of soil or feeding into the drilling zone cement slurry or compressed air. The lower end of the screw anchor is equipped with screw blades placed on its lower end for automatic immersion of the anchor in the ground during its rotation.

The closest in design to the claimed utility model includes a screw anchor / RU 2548283, Е02D 5/56, 06/27/2013 /, including a hollow cylindrical steel drive pipe, on the lower submersible part of which there is a screw blade for screwing the anchor into the ground.

In this case, the screw blade is mounted on a separate, pointed pipe head. The head is connected to the drive pipe by a threaded connection and is provided with lateral openings communicating with the cavity of the pipe to bring the cement slurry to the ground. The upper part of the pipe is equipped with a fitting for supplying cement slurry to the head through the cavity of the pipe. Cementing agents such as petroleum bitumen, liquid sodium glass and / or cement mortars are used as grouting mortar.

A disadvantage of the known screw anchor / RU 2548283 / is the difficulty of drilling rocky soils.

This is due to the presence of a pointed tip that prevents the anchor from being screwed in when the end surface of the butt is supported on rocky ground. In addition, the relatively large relative sizes of the head blades and its screw connection with the drive tube lead to breakage of the screw anchor when drilling rocky soils.

The technical task of the utility model is to create a screw anchor suitable for screwing into rocky soils in the direction of the leader hole and installing on them a pile foundation of increased strength without using concrete, which is the connecting link between the pile and rocky soil in known anchors.

The technical result that provides the solution to this problem is the simultaneous increase in the structural strength and cutting capabilities of the screw anchor when screwing it into the leader hole of rocky soil.

The essence of the utility model.

The achievement of the claimed technical result, and as a result, the solution of the problem is ensured by the fact that the screw anchor includes a hollow cylindrical steel drive pipe, on the lower submersible part of which there is a screw blade for screwing the anchor into the ground.

New in the utility model is

the immersion end of the anchor pipe tapering with a taper angle α = 15-20 ^about towards the immersion end of the anchor from a height exceeding the height of the fastening of the end of the lower turn of the screw blade on the pipe;

the execution of a helical blade with a pitch of turns of 140-240 mm and in the transition to the tapering part of the pipe - with a pitch of 190-320 mm from a steel strip 40-50 mm wide and 10-20 mm thick;

execution on the end of the turns of the steel strip of cutouts with a depth of 10-25 mm, a slope of 60-80 ^about relative to the tangent to the surface of the coil in the direction of rotation of the anchor;

supplying the lower end of the narrowed part of the pipe with end cutters 15–20 mm high, in the form of triangular protrusions or sawtooth teeth evenly distributed around the circumference of the end part of the lower end of the anchor pipe.

the execution of the anchor pipe with a diameter of 110-325 mm and with a wall thickness of 10-20 mm.

The rationale for achieving the claimed technical result and solving the technical problem.

The execution of the steel pipe 1 of optimal sizes, namely, diameters of 110-325 mm and with a wall thickness of 10-20 mm, and its helical blades with a pitch of turns of 140-240 mm on the cylindrical part of the anchor and with a step of 190-320 mm in transition to the tapering part tube with a cone angle α = 15-20 ^of steel strips 40-50 mm wide and 10-20 mm thick possible to increase the strength of the helical anchor structures and to increase its bearing capacity and mounting in the rock without the use of concrete.

Running on an end portion of the steel strip turns deep recesses 10-25 mm, inclination ^of 60-80 relative to the tangent to the surface of the coil in the direction of rotation of the anchor, and - supplying the lower end of the tapered portion of the tube end cutters 15-20 mm height of the triangular protrusions or sawtooth teeth evenly distributed around the circumference of the end part of the lower end of the anchor pipe allowed to increase the cutting ability of the anchor and the possibility of cutting it into the walls of the leader hole of rocky soil.

The increase in strength and cutting ability of the proposed anchor for the first time allowed us to solve the problem of building a pile foundation of increased strength on rocky soils without the use of concrete.

The exclusion of concrete during the construction of the pile foundation additionally allowed us to solve the problems associated with the preparation, delivery and freezing of cement mortars and to ensure year-round construction of pile structures in the Far North.

The essence of the utility model is illustrated by the drawings shown in FIG. 1 - FIG. 3.

In FIG. 1 is a drawing explaining an example of a design of a screw anchor from materials of existing GOSTs, FIG. 2 is a photograph of an example of its design, and in FIG. 3 is a photo of a rotational drive of a screw anchor on a car chassis.

In FIG. 1 - FIG. 2 positions marked:

1 - hollow cylindrical steel drive pipe;

2 - a screw blade from a steel strip;

3 - cutouts (side knives for cutting rock);

4 - end cutters (knives) loosening rocky soil;

5 - through holes for connecting a screw anchor to the shaft of the drive of rotation of the anchor and the support of the pile foundation.

Disclosure of the essence of the utility model with reference to the position numbers of the elements of the screw anchor.

According to FIG. 1-3 screw anchor includes a hollow cylindrical steel drive pipe 1. On the lower immersion part of pipe 1, a screw blade 2 is installed from a steel strip for cutting grooves in the ground while screwing the anchor into the leader hole of rocky soil.

According to a utility model, the steel pipe 1 of the anchor is made with a diameter of 110-325 mm and with a wall thickness of 10-20 mm. Immersion pipe end 1 with a height exceeding the height of the lower end of the lower mounting screw blade 2 on the tube 1 is formed tapered (for guiding during immersion in the leader hole) towards the immersion end of the anchor with a taper angle ^of α = 15-20. The screw blade 2 on the cylindrical bearing part of the anchor is made with a pitch of turns of 140-240 mm and in the transition to the tapering part of the pipe 2 with a pitch of 190-320 mm from a steel strip 3 with a width of 40-50 mm and a thickness of 10-20 mm. On the end portion of the steel strip vitkov2 cutouts 3 depth of 10-25 mm with an inclination ^of 60-80 relative to the tangent to the surface of the coil in the direction of rotation of the anchor when screwing it into rocky ground, forming the side knives for cutting into rocky ground. The lower end of the narrowed part of the pipe 2 is equipped with end cutters 4 with a height of 15-20 mm. End cutters 4 are made in the form of triangular protrusions or sawtooth teeth, evenly distributed around the circumference of the end part of the lower end of the pipe 1 of the anchor. The upper part of the cylindrical pipe 1 is provided with through holes 5 for connecting to the shaft of the drive of rotation of the anchor.

Work screw anchor.

For cutting into rocky soil, before installing the anchor using a special drilling technique such as URB2-IST, a leader hole is drilled in the rock along the diameter of the upper part of the pipe 1. To capture the anchor with special equipment, the upper part of the pipe 1 is connected through the through holes 5 (not shown in the figures) with an anchor rotation drive shaft. A hydraulic drilling machine of the UBM-85 type can be used as a rotation drive for the anchor.

Next, the arrow of the drive (Fig. 3) in the place of installation of the support piles in the pre-drilled leader hole sets the tapered end of the screw anchor in a vertical position and includes a hydraulic drive of rotation with simultaneous hydraulic pressure on the upper part of the pipe 1 along its axis of rotation.

In this case, the lateral incisors 3 of the conical part of the pipe 1 bite into the rocky soil and begin to cut into it grooves sufficient to screw the first turn of the screw blade 2 into it. There is an automatic immersion and screwing of the anchor along the cut coils into the rock due to the rotation of the anchor in the direction of the leader hole and end loosening of the cutters 4, sprinkled rocky soil into the leader hole. At the same time, the lateral knives 3 for cutting rocky soil of the blade 2 cut the coils in the rocky soil, making it easier to screw the anchor into the rocky soil to the required immersion depth calculated according to the design.

At the same time, the slurry of rocky soil, which is formed when cutting rock with side knives 3 blades 2 in the direction of immersion of the anchor in the cavity of the leader hole under the action of the pressure force of the rotating helical blades and the oncoming movement of the crushed rock, fills the cavity of the pipe 1.

After screwing the screw anchor into the rocky soil, the shaft for driving the anchor rotation drive is disconnected from the pipe 1 and the pile foundation support is installed in its place and fastened in accordance with the design decision.

Industrial applicability.

The utility model is developed at the level of a technical design and a prototype screw anchor (Fig. 2). Tests of the prototype showed the possibility of year-round construction of reliable pile foundations for radar antenna systems and structures on rocky ever-frozen soils without the use of cement mortars.

Claims (2)

1. A screw anchor, comprising a hollow cylindrical steel drive pipe, on the lower immersion part of which a screw blade is installed for screwing the anchor into the ground, characterized in that the immersion end of the pipe from a height exceeding the height of the end of the lower turn of the screw blade on the pipe is tapering side of the immersion end of the anchor with an angle of conicity α = 15-20 ^o, screw blade on the cylindrical part is provided with anchor pitch of 140-240 mm and in the transition to the tapered portion of the pipe - with a pitch of 190-320 mm width steel strip oh 40-50 mm and 10-20 mm thick, on an end portion of the steel strip turns cutouts depth of 10-25 mm with an inclination ^of 60-80 relative to the tangent to the surface of the coil in the direction of rotation of the anchor when screwing it into rocky ground, the lower end of the neck parts of the pipe are equipped with end cutters with a height of 15-20 mm, the upper part of the cylindrical pipe is equipped with through holes for connecting to the shaft of the drive of rotation of the anchor. 2. A screw anchor according to claim 1, characterized in that the end cutters are made in the form of triangular protrusions or sawtooth teeth evenly distributed around the circumference of the end part of the lower end of the anchor, and the anchor pipe is made with a diameter of 110-325 mm and with a wall thickness of 10-20 mm

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