RU158889U1 - PILOT SCREW - Google Patents

Abstract

1. Screw pile containing a hollow cylindrical barrel, the outer surface of which is provided with a spiral, the lower end is pointed, and the upper one is equipped with a functional head made with the possibility of fixing the elements of external structures, characterized in that the spiral is placed above the point, while its length is 0, 7-2 steps of the spiral, and the lower edge of the spiral is made in the form of a broken line, for example stepped, with the possibility of cutting impact on the ground, while the lower edge of the spiral is pointed at an acute angle to the lower overhnosti spirali.2. A screw pile according to claim 1, characterized in that the sharpening of the lower end of the pile is made in the form of a slice thereof at an acute angle. A screw pile according to claim 1, characterized in that the sharpening of the lower end of the pile is made in the form of a molded tip rigidly fastened to the pile shaft or in the form of an end of a cylindrical shaft pile rolled with a cone, with a point angle of 45-60.4. A screw pile according to claim 1, characterized in that the functional head of the pile is removable, in the form of a piece of square pipe, or a rectangular or round section, rigidly fastened to the ends of the centering insert, placed on one of the symmetry planes of the head, made in the form oriented up , the tip of the triangular plate, the width of the base of which corresponds to the size of the internal cavity of the pipe segment. 5. A screw pile according to claim 4, characterized in that vertical plates are omitted from the base of the triangular plate, the width of which at the junction with the triangular plate is at least 1 mm greater than the gap between the inner surface of the pipe segment and the outer surface of

Description

The utility model relates to the construction, in particular, to the construction of pile foundations, and can be used for the construction of low-rise houses, baths, terraces, greenhouses, hangars, pipelines, advertising structures, road signs and signs, supports for lighting and communication lines, landscape gardening furniture, fences and fences, the bases of solar panels and wind generators, etc.

Known screw pile, which contains a barrel with a hollow tip, the surface of which is equipped with a screw blade, and a conical funnel is made in the lower part, the longitudinal axis of symmetry of which coincides with the longitudinal axis of symmetry of the pile. The conical funnel is made with the possibility of pressing it into the cavity of the tip when the pile is immersed in the ground (see RU No. 71668, E02D 5/56, 2008).

The disadvantage of this solution is the possibility of its use only in weak, for example, marshy soils, since a highly developed screw blade will not allow the pile to be “screwed” into dense soil, in addition, the internal cavity of the pile is open into the environment, which can lead to intense corrosion internal space or will require the application of a protective coating on the internal cavity of the pipe.

Also known is a screw pile containing a hollow cylindrical barrel, the outer surface of which is provided with a spiral, the lower end is pointed, and the upper end is equipped with a functional head (see RU No. 109161 E02D 5/56, 2010). In this case, the cylindrical shaft of the pile is made from 1500 mm to 3000 mm long, the tip with a spiral is made from 500 mm to 1000 mm long, and the spiral itself is made with a pitch of turns of 35-40 mm and a spiral blade width of 10 mm.

The disadvantage of this solution is the increased complexity of manufacturing the pile due to the large number of technological operations (the operation of forming a conical tip of the pile and the operation of forming a long spiral and welding it to the trunk and the tip; increased energy consumption of manufacture due to the need to heat the billet to form the conical tip of the pile and welding of the spiral, which affects the manufacturability of its production.In addition, when "work" on dense soils or soils with inclusions more e hard rocks, the installation of piles is complicated - preliminary drilling of the soil with bore holes (wells) of a small cross section is required, which affects the manufacturability of its installation.

The task to which the claimed technical solution is directed is expressed in improving the manufacturability of the pile and its installation.

The technical result obtained by solving the problem is expressed in reducing the complexity of manufacturing piles by reducing the number of technological operations necessary for its manufacture (the operation of forming a taper (pile tip) is simplified and the length of the spiral being formed is reduced, respectively, the length of the weld required for welding to the trunk; reduced energy consumption of the manufacture of piles due to the refusal to heat the pipe billet during the formation of a point (tip of the pile) and reduce the length of the weld d For welding the spiral, which improves the manufacturability of its production.In addition, when “working” on dense soils or soils with inclusions of harder rocks, it is possible to effectively cut the soil with the working edge of the spiral, which simplifies the installation of piles - no preliminary drilling of the soil with boreholes (wells ) of small cross-section, since the pile acquires the quality of a “self-tapping screw", which increases the manufacturability of its installation. In addition, a reduction in the torque required for mounting the pile is ensured.

To solve this problem, a screw pile containing a hollow cylindrical barrel, the outer surface of which is equipped with a spiral, the lower end is pointed, and the upper one is equipped with a functional head made with the possibility of fixing the elements of external structures, characterized in that the spiral is placed above the sharpening, while its length is 0.7-2 steps of the spiral, and the lower edge of the spiral is made in the form of a broken line, for example, stepped, with the possibility of cutting impact on the ground, while the lower edge of the spiral composition angles from 0 to 90 ° in a projection onto a plane perpendicular to the longitudinal axis of the pile; moreover, the lower edge of the spiral is pointed at an acute angle to the lower surface of the spiral. In addition, the sharpening of the lower end of the pile is made in the form of a slice at an acute angle. In addition, the sharpening of the lower end of the pile is made in the form of a molded tip rigidly fastened to the pile shaft or in the form of an end of a cylindrical pile shaft rolled to a cone, with an angle of sharpening of 45-60 °. In addition, the functional head of the pile is removable, in the form of a segment of a pipe of square, or rectangular or round cross section, rigidly fastened to the ends of the centering insert, placed on one of the planes of symmetry of the head, made in the form oriented upward, with the tip of a triangular plate, the base width of which corresponds to the size of the internal cavity of the pipe segment. In addition, vertical plates are omitted from the base of the triangular plate, which are spaced apart from the ends of its base by the pile wall thickness, and the width of these plates at the junction with the triangular plate is at least 1 mm larger than the gap between the inner surface of the pipe segment and the outer surface of the trunk piles, and their width at the free end is 1 mm less than this value. In addition, at least one through hole is provided in the wall of the head, threaded to accommodate a locking bolt. In addition, the width of the spiral is 0.25-1.5 diameter of the pile shaft.

A comparative analysis of the features of the claimed solution with the signs of the prototype and analogues indicates the conformity of the claimed solution to the criterion of "novelty."

The combination of features of the utility model formula provides a solution to the stated problem, namely, improving the manufacturability of the pile and its installation.

The claimed technical solution is illustrated by drawings where in Fig 1 shows a longitudinal section of a screw pile; in FIG. 2 - FIG. 3 shows volumetric views of piles; in FIG. 4 shows an embodiment of a pile sharpening.

The drawings show a hollow cylindrical trunk 1 of a pile, spiral 2, pointed 3, step 4 of the spiral, its lower edge 5, radial line 6 in projection onto plane 7, longitudinal axis 8 of the pile, lower surface 9, cut 10, molded tip 11, rolled on the cone end 12, a pipe segment 13, its wall 14, a through hole 15 with a thread, a locking bolt 16, a triangular centering insert 17, rectangular plates 18, a rotary hole 19, a fixed element 20 of external structures.

The diameter of the cylindrical trunk of 1 pile is from 60 to 300 mm, the wall thickness of the pile shaft is from 3 to 15 mm and remains constant over the entire length of the pile. The total length of the pile varies from 1000 to 4500 mm, while the cut 10, the cast tip 11 or the end 12 rolled onto a cone can be made from 200 to 500 mm long (an increase in this parameter is undesirable, since it does not affect the bearing capacity piles, will only lead to additional metal consumption). The sharpening of the lower end of the pile can be performed either in the form of its slice 10 at an acute angle (45-60 °) or in the form of a molded tip 11 rigidly fastened to the pile shaft or in the form of a cylindrical pile shaft rolled up onto the cone. It is advisable to use used drill pipes for the manufacture of pile piles.

Slice 10 is formed by trimming the end of the pile shaft on the guillotine or on another machine. The molded tip 11 is formed by casting, as a separate part, and rigidly fastened by welding with the lower end of the barrel 1. The end of pile 12, rolled onto a cone, is formed in a known manner by rolling the end of the pile when it is heated. The presence of tapering at an angle of 45-60 ° of the tip 11 or the end 12 rolled onto a cone reduces the laboriousness of immersing the piles in the ground.

Spiral 2 is made with a pitch of 40-200 mm and the width of the spiral blade 0.25-1.5 of the diameter of the barrel 1. Given the variation in the diameter of the pile shaft, the width of the spiral can be from 12-15 mm to 350-400 mm (large values of the width spiral and the diameter of its trunk correspond to smaller values of the diameter of the pile). The lower edge 5 of the spiral 2 is made in the form of a broken line, for example, stepped, with the possibility of cutting action on the soil and makes up with a radial line 6, in the projection onto the plane 7 (perpendicular to the longitudinal axis 8 of the pile), the angle is from 0 to 90 °, in addition , it is pointed at an acute angle (45-60 °) to the bottom surface 9 of the spiral. The upper end of the pile is made in the form of a cut of the trunk 1 at an angle of 90 ° to its longitudinal axis 8. A functional head is removably fixed to it, made with the possibility of fixing the fixed elements 20 of the external structures. At the same time, the functional tip of the pile is made in the form of a section of pipe 13 of square or round cross section installed on it, the dimensions of the cavity of which allow it to be put on with a small clearance on the upper end of the pile shaft and fastened with a bolt or welded joints, ensuring their reliable connection. Moreover, the lower edge of the triangular centering insert 17 (devoid of rectangular plates 18), rigidly fastened to the inner surface of the head, the latter is supported on the end of the barrel 1.

It is possible to use piles as the tip of a pipe segment 13 with a diameter significantly larger than the barrel diameter 1, but in this case it is necessary to use a triangular centering insert 17 oriented upward with its tip from the base of which vertical rectangular plates 18 are omitted, while the width of the base the triangular plate corresponds to the width of the internal cavity of the pipe segment 13, and the vertical rectangular plates 18 are spaced from the ends of the base of the triangular plate by the wall thickness of the shaft 1 of the pile. The width of these plates at the junction with the triangular plate is at least 1 mm larger than the gap between the inner surface of the pipe segment and the outer surface of the barrel 1 piles, and their width at the free end is 1 mm less than this value.

At least one (preferably three for round heads and four for square) through hole 15 is provided in the wall 14 of the pipe segment 13, threaded with the possibility of placing a locking bolt 16 therein.

Such embodiments of the functional head are used to secure the support posts (fixed elements 20 of the external structures), while the part inserted into the head cavity, for example, the support pipe of the road sign, is fastened to the pile with the help of locking bolts 16, screwed until they abut the surface of the elements 20 .

A variant is possible when the functional head of the pile is made in the form of a flange rigidly fastened to it (a round, square or hexagonal plate), equipped with fixing holes, designed to support the crossbar or other design (they are not shown in the drawings). In this case, the elements 15-18 are not used. The flange is made of sheet steel with a thickness of 8 mm to 12 mm and is provided with fixing holes for bolts or studs (with a diameter of 10 mm to 15 mm), and is also equipped with a cylindrical glass from the bottom (not shown in the drawings), the diameter of which is close to the diameter of the pile shaft . The presence of a flange simplifies and facilitates maintenance work on the installation of the foundation, ensures the stability of the structure. The various flange options available expand the range of application of piles.

To enable rotational installation of piles, in the wall of the barrel 1, at its upper end, a through rotary hole 19 is made through which the end of the lever (for example, scrap) is passed. If there is a head, such a hole is formed both through the walls of the barrel 1 and through the walls of the pipe segment 13 (in the lower part of the head). After completion of the installation of the pile, the through rotary hole 19 can be used to improve the fixation of the head on the pile shaft, for example, passing a bolt through it and securing it with a nut (not shown in the drawings).

The execution of the trunk 1 piles with the stated parameters is optimal to ensure high bearing capacity of the screw foundation, in a wide range of bearing characteristics of the soil which is due to the fact that when the tip is immersed in the ground, the inter-turn gaps of the soil do not loosen, but rather are compacted by a spiral of a screw pile, tightly adjoining her, increasing the reliability of the foundation, especially for complex soils.

The small area of contact with the soil of the front end of the pile (taper 3, made at an angle of 45-60 °) reduces its resistance to immersion. The same contributes to the implementation of the lower edge of the spiral in the form of a broken line, for example, stepped, its pointedness and the possibility of its deviation from radiality provides the possibility of cutting effects on the ground, and also provides a concentration of cutting loads on the occurring solid inclusions, due to the "point" contact with them and the effect of "sawing".

The presence of a developed area of the support, significantly exceeding the cross-sectional area of the trunk 1 of the pile, together with its geometric dimensions, does not create critical pressure even on soft peat and sandy soils and does not allow the foundation to sag or extrude upward, even with deep freezing of the soil.

The inventive screw pile is used as follows

The inventive screw pile is installed strictly vertically. Further, holding it in this position, they strike at the upper end of the pile shaft. Due to the presence of a spiral, the shock load is converted into rotational. At the same time, due to the pointedness of the lower edge of the spiral, the piles are screwed into the soil without much destruction of the latter, which contributes to the high value of the pulling resistance of the pile. During installation, use a hand tool (if the length and cross section of the piles are relatively small and the soil is not very dense). If the length of the piles exceeds 2 m, and the diameter of the cross section is more than 100-120 mm, then well-known specialized improvised tools or machines are used.

When rotating the piles, the screw pile is installed vertically, then several blows are applied to the upper end of the pile (directly, on the free surface of its head). Then, into the pivot hole 19, the end of the lever (for example, scrap) is passed, by which the pile is rotated around the longitudinal axis. For large lengths and diameters of piles, well-known specialized tools or machines are used.

Further on the upper end of the trunk piles put on a head. If it is put on with a small gap, then it is put on until the lower edge of the centering insert 17 abuts on the upper end of the barrel 1, after which the head is fixed by welding or a bolt is passed through the rotary hole 19 and fixed with a nut (not shown in the drawings). If the head is put on with a large gap, then it is put on until the bottom of the vertical rectangular plates 18 gets into the gap between the inner surface of the pipe segment 13 and the outer surface of the barrel 1 and the entrance to a part of their length, after which the vertical rectangular plates are additionally sent with blows to the upper end of the head 18 deeper into the named gap until the holes 19 coincide on the head and on the pile shaft, after which the head is fixed by welding or a bolt is passed through the rotary holes 19 and fixed with a nut (on tags are not shown).

Installation time takes only a few minutes.

After the piles are inserted into the ground, a fixed element 20 of the external structure is introduced into the cavity of the head, for example, a support pipe for a road sign or billboard and fastened to the pile head using locking bolts 16 screwed into the holes 15 until they abut against the surface of the fixed element. The centering of the tubular locking elements 20 provides a sharpening of the centering insert 17.

When making the head in the form of a flange, the latter is put with its glass on the upper end of the barrel, after which the head is fixed by welding or a bolt is passed through the rotary holes 19 and the head and secured with a nut (not shown in the drawings). Then, a fixed element 20 of external structures, for example, a crossbar, a beam or a rack, is supported on a flange and fastened with it in a known manner, using its mounting holes and mounting holes of the fixed element 20 (not shown).

Claims (7)

1. Screw pile containing a hollow cylindrical barrel, the outer surface of which is provided with a spiral, the lower end is pointed, and the upper one is equipped with a functional head made with the possibility of fixing the elements of external structures, characterized in that the spiral is placed above the point, while its length is 0, 7-2 steps of the spiral, and the lower edge of the spiral is made in the form of a broken line, for example stepped, with the possibility of cutting impact on the ground, while the lower edge of the spiral is pointed at an acute angle to the lower overhnosti spiral. 2. A screw pile according to claim 1, characterized in that the sharpening of the lower end of the pile is made in the form of a slice at an acute angle. 3. A screw pile according to claim 1, characterized in that the sharpening of the lower end of the pile is made in the form of a molded tip rigidly fastened to the pile shaft or in the form of an end of a cylindrical shaft pile rolled with a cone, with a point angle of 45-60 ⁰ . 4. Screw pile according to claim 1, characterized in that the functional tip of the pile is removable, in the form of a piece of pipe of square, or rectangular or circular cross section, rigidly fastened to the ends of the centering insert placed on one of the planes of symmetry of the tip, made in the form oriented upward, the tip of a triangular plate, the width of the base of which corresponds to the size of the internal cavity of the pipe segment. 5. A screw pile according to claim 4, characterized in that vertical plates are omitted from the base of the triangular plate, the width of which at the junction with the triangular plate is at least 1 mm larger than the gap between the inner surface of the pipe segment and the outer surface of the pile shaft, and the width at the free end is 1 mm less than this value. 6. A screw pile according to claim 1, characterized in that at least one through hole is provided in the head wall, provided with a thread with the possibility of placing a locking bolt in it. 7. Screw pile according to claim 1, characterized in that the width of the spiral is 0.25-1.5 diameter of the pile shaft.

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