WO2022119480A1 - Metal post and method for manufacturing and using same - Google Patents

Abstract

The technical solution relates to the field of building, community facilities and farming and is applicable in the creation of metal fence posts. The technical problem solved by the claimed technical solution is the creation of a fence post that is easy to manufacture and install. The technical results achieved by the claimed technical solution are: 1) simplified manufacture of a fence post; 2) a simplified installation process and increased ease of installation of a fence post and, as a result, a simplified installation process and increased ease of installation of a fence as a whole.

Description

METAL POST, METHOD OF ITS MANUFACTURE AND APPLICATION

[0001] TECHNICAL FIELD

[0002] The technical solution relates to the field of construction, utilities or agriculture and can be used in the creation of metal fence posts.

[0003] BACKGROUND OF THE INVENTION

[0004] As you know, the fence is a fence, consisting of supports and canvas, fixed on the supports between them. As a rule, supports (pillars) of fences (fences) are made of metal pipes of rectangular, less often round, section, due to the fact that rectangular pipes have greater bending strength; and are also easier to install due to the fact that they have flat edges, regardless of the method of installation, including installation by welding. Moreover, rectangular pipes are easier and more efficient to transport and store, since in this case more usable area and volume are used. At the same time, the installation of the fence fabric on pillars (supports) of rectangular section can be carried out in many ways, for example, using consoles fixed on the planes of the pillar, brackets for cross members on which the fabric is mounted; using U-shaped strips for fastening between them the lamellas of the canvas; using eyelets with a hole for attaching mesh sheets to them; and in similar ways. At the same time, the flat edges of the posts of rectangular cross section also make it possible to simplify the process of mounting the fence fabric due to the simpler installation of the fasteners for the fabric itself, which makes it possible to simplify and speed up the installation process of the fence (fence) as a whole.

[0005] Based on this, it is necessary to distinguish between supports (pillars) for fences (fences) of round and rectangular sections, that is, such products are products with different installation and operational characteristics, and in some cases they also have different purposes.

[0006] Other characteristics of the pole (support) for the fence (fence) may relate to its height, which, as a rule, does not exceed three to four meters, depending on the characteristics of the fence (fence) canvas. At the same time, it should take into account that when installing high pillars, that is, exceeding about 2.5 m in height, it will not always be possible to install them using an anchor connection with a spot or strip concrete foundation, since in this case the concrete foundation should be deepened too much depth, and therefore it is preferable to mount high pillars by deepening some of them into the ground or concrete, or by making a flange connection with a pre-mounted pile.

[0007] As you know, there are several ways to install fence posts in the ground. In accordance with GOST R 57278 - 2016 "Protective fences. Classification. General Provisions ”, depending on the type of soil, the point foundation for the support is performed: a) by pouring concrete or backfilling with a specially prepared sand and gravel mixture into pre-drilled pits with simultaneous installation of the support; b) as a foundation block in the form of a "shoe", a screw support or a tubular driven support; at the same time, in general, the installation of supports should be carried out in one of the following ways: a) concreted into a strip reinforced concrete foundation; b) fasten the support to the foundation through a flange connection using a flange connection; c) fasten the support to the foundation with anchors. When using a point foundation, the support should be installed: a) in a specially prepared sand and gravel mixture or concreted in pre-drilled well holes; b) either by driving a metal pile into the ground with subsequent fastening of the support to it with bolts through a flange connection; c) or by fastening the support with bolts through a flange connection to a pre-installed screw support. At the same time, screw and driven supports can be used on soils of any type, except for rocky ones. At the same time, it is well known that a ground anchor can serve as an alternative to a driven or screw pile (see, for example, GOST R 57355-2016 / EN 1537:2014 "Ground anchors. Rules for the production of work") - a device consisting of a head, a tensile element (anchor thrust) and root. Ground anchors, as a rule, are installed in a pre-drilled well with subsequent concreting or compaction with a sand-gravel mixture and serve to strengthen the structure or to fasten a building element to the ground on slopes. At the same time, expansion anchors for fastening in concrete are known (see, for example, GOST R 56731 -2015 "Mechanical anchors for fastening in concrete. Test methods"). Such expansion anchors, of course, cannot be used for fixing supports. fences directly into the ground due to their small size, however, this technique can be used to create expansion ground anchors.

[0008] For example, a driven pile is known as described in patent RU 139587 U1 (D1). The driven pile known from D1 consists of a metal perforated pipe with a conical tip, having holes provided with opening and closing metal plates fixed on the pipe, with a removable tee with a metal cover located on the upper part, and the lower part of the perforated pipe has longitudinal slots that form cantilever blades, and the tip is made in the form of a cylinder, turning into a truncated cone, ending with a cone-shaped tip. Immersion and operation of a driven pile known from D1, designed to strengthen the base with a broadened heel and cementation of soils, is carried out as follows. The supply of cement mortar into the pipe and its immersion is carried out simultaneously, which causes the metal tip to move along the longitudinal slots at the end of the pipe and creates the conditions for the formation and symmetrical rotation (bending) of the cantilever blades 6 from the reactive pressure of the base soil to the outside of the pipe, while creating the necessary a gap between the pipe and the surrounding soil, into which, through ellipsoidal holes, squeezing the plates, the solution to be fixed is pumped under pressure. As they sink into the ground, the cantilever blades move apart from the reactive thrust of the soil and are fixed in the cement stone, increasing the area of the pile support, creating a broadened heel and increasing the bearing capacity of the pile.

[0009] At the same time, the anchor pile described in BY 10452 C1 (D2) is known. The driven anchor pile known from D2 includes a rod-rod, around the shaft of which a round-section anchor head is mounted with a gap (see Fig. 3-6), moreover, the rod-rod and the anchor head are rigidly connected to a pointed tip, and the anchor head is made in the form pipes with longitudinal slots in its walls, while the longitudinal slots in the anchor head are made in several tiers along the height of the pipe and deployed in each tier relative to each other at an angle a=(360°/2n), where n is the number of slots in each tier, moreover, between the longitudinal slots, as well as above and below them, there is a continuous continuous section of the pipe of the anchor head. The performance of the anchor pile during immersion is achieved by driving the rod-thrust together with the pipe into the ground, opening the anchor head - by driving it with an inventory pipe in the ground, in during operation - due to the possibility of applying a pulling load to the rod-thrust. In the first case (see, D2: fig. 1), the anchor pile is driven into the ground by means of a rod to the design mark. Due to the presence of a gap between the outer diameter of the anchor head pipe and the outer diameter of the tip (2-5 cm), the pile plunges into the ground without obstacles. Next, the blades of the anchor head are opened in the ground by driving (see D2: Fig. 2) by means of an inventory pipe. The blades of the anchor head (see, D2: Fig. 2) in this case, due to the presence of slots, bend in an unstable or previously weakened place (half the length of the slots) and turn into a "flashlight" in each tier. The anchor pile is capable of receiving a pulling load, turning the rod into a thrust (see, D2: Fig. 2). In the second case (see, D2: Fig. 7) it is directly hammered into the ground by means of a rod or plunged into the first tier of the anchor head previously drilled in the ground. Then the blades of the first tier of the anchor head are opened in the ground (see D2: Fig. 8) by means of an inventory pipe. In a similar way (by driving or lowering into the well), the second and subsequent tiers of the anchor head 2 are immersed in the ground (see, D2: Fig. 7), as well as opening their blades in the ground and turning them into a "flashlight" (see, D2 : Fig. 8).

[0010] At the same time, it is obvious that the main disadvantage of the ground expansion anchors known from the prior art, as well as the expansion piles known from D1 and D2, is that they themselves cannot perform the function of pillars (supports) for fences (fences) . Such devices, however, if they contain a suitable external head, can serve as supports for creating a flange connection with a support (pole) for a fence (fence). At the same time, the following disadvantage of using expansion anchors and expansion piles during the installation of poles (supports) for fences (fences) is obvious, namely, the need to perform an additional installation operation associated with the need to connect, in fact, the pole (support) with the expansion anchor (pile). In particular, when installing a fence (fence) using an expansion anchor (pile) as a foundation, it is necessary, for example, to make the head of the expansion anchor (pile) containing a flange, while the mounted support (pillar) of the fence (fence) itself must also have a flange for coaxial connection with an expansion anchor (pile) using, for example, tie bolts or studs, which significantly lengthens and complicates the process of mounting each such support (pillar) in particular, and the fence (fence) as a whole. [0011] Thus, it is necessary to distinguish between expansion anchors (piles) and, in fact, poles (supports) for fences (fences), since these products not only have different characteristics, but are means for different purposes and cannot be interchanged; moreover, in the case of installation of a fence (fence), these products can only be used as independent products together.

[0012] Thus, in order to simplify the installation process and speed it up while maintaining other positive properties inherent in expansion anchors (piles), such as, for example, the reliability of fixing in the ground, it is necessary that the fence (fence) pole (support) itself be inherent properties of a reliable connection with the ground. In this regard, a method of mounting a screw post, mainly for a fence, and a screw post, mainly for a fence, are known, described in patent RU 133181 U1 (DZ). A metal pole known from DZ, mainly for a fence, contains a support post and a part loaded into the ground, which is made of a cylindrical pipe and equipped with a cutting helical blade, characterized in that the support post is made of a profile pipe with flat edges, the upper end is buried in its lower part said cylindrical pipe to form contact with the male surface, and the pipes are connected by welding along the contour. As indicated in the DZ and does not fully correspond to reality, to facilitate the screwing of a column known from the DZ, you can use a crank that acts as a lever, which is a short piece of pipe, the cross section of which is similar to the cross section of a profile pipe, for example, a square-square, with a transverse dimension, slightly larger than the transverse dimension of the rack. Radial levers are attached to the pipe section. Such a pole known from DZ does not have the disadvantages of conventional poles (supports) for fences (fences), and is also able to eliminate the need for an additional installation operation associated with the need to connect the expansion anchor (pile) and, in fact, the pole (support).

[0013] At the same time, the pillar known from remote sensing has a number of significant drawbacks. Firstly, the pole known from the DZ is difficult to manufacture - to create it, it is necessary not only to make the recessed part with cutting blades, but also to ensure its connection with the profile pipe of the support post (that is, with a square metal pipe, in fact, a pole (support ) for the fence). Secondly, the column known from the remote sensing is connected to the ground through screw connection, which reveals the following disadvantages: 1) unreasonably large efforts are required to screw the post into the ground, and the possibility of using manual screwing devices is excluded - such suitable manual devices simply do not exist, and known manual devices for screwing piles cannot be used, since they can be used, in fact, only for screwing piles of small length - for piles of large length, the use of special heavy equipment is required; 2) the denser the soil, the more leverage is required for manually screwing the screw post into the ground, which can be a critical disadvantage, since with a large length of the fence (fence) web, spans between the posts (supports) should be less frequent to create greater operational reliability of the fence (fence) as a whole, and thus the required length of the lever may exceed the length of the span, which will lead to the impossibility of mounting such a screw post; 3) the longer the recessed part of the screw post, the higher the height of the wrench should be placed, which leads to the fact that in some situations, installation in principle will be impossible due to the lack of a workforce of suitable height; or this circumstance may require the manufacture of additional levers on the lever, reducing its effectiveness due to the indirect effect of the load on the lever; 4) in most cases, several people are required to mount the column known from remote sensing, since, as a rule, one person is not able to simultaneously withstand the weight of the screw column when screwing it, position it in the required center and, in fact, screw the screw column; 5) when screwing the screw post, a stone may be found in its path, which will require the removal of the post to excavate the stone or crush it. Thus, the screw column known from DZ has an increased complexity of installation; in addition, the installation of such a screw post is not convenient enough and may require the selection of a workforce of high stature, as well as a large number of labor; in addition, the installation process of the screw post is longer. Thirdly, the pole known from the remote sensing provides insufficiently reliable fixation in the ground, since such a pole can easily be subjected to unauthorized extraction by simply twisting it in the opposite direction, which is critical for situations where the fence (fence) is not under constant supervision; in particular, the ease of extracting the screw post can attract unauthorized assemblers scrap metal. Fourthly, the installation of the column known from the remote sensing does not imply the possibility of strengthening the connection created with the soil with reinforcing mortars or reinforcing bulk materials, since such a connection and the design of the column known from the remote sensing do not imply their use at all and there are no opportunities to fill or fill connection with reinforcing solutions or bulk materials, in particular, the column known from the DZ in the recessed part is solid, without holes, which does not allow spilling (spilling) the solution (material) through the column into the junction, and the installation of the column known from the DZ does not imply the creation of any - or a well through which access to the ground connection is possible.

[0014] The method of mounting the screw column and the screw column known from the DZ are selected as the closest analogues of the claimed technical solutions.

[0015] SUMMARY

[0016] The technical problem solved by the claimed technical solution is the creation of the closest analogue of the method of mounting a fence post, which does not have disadvantages, provided by the creation of a fence post with the possibility of anchoring with the ground, providing: 1) ease of its manufacture, including directly in the process installation; 2) ease of installation and, as a result, ease of installation of the fence as a whole, as well as, as a result, increased ease of installation of each pole separately and, as a result, the fence as a whole, as well as, as a result, reduced labor requirements and less labor to install one fence post; 3) a more reliable connection of the fence post with the ground and a significant complication of its unauthorized extraction.

[0017] Based on the formulation of the technical problem, the technical results achieved by implementing the claimed technical solution are: 1) simplifying the manufacture of a fence post; 2) simplifying the installation process and increasing the ease of installation of the fence post and, as a result, simplifying the installation process and increasing the ease of installation of the fence as a whole; as well as, as a result, reduced labor requirements for the installation of a fence post and, as a result, the fence as a whole; 3) reducing the amount of labor required to install one fence post; 4) as a result - an increase in the speed of installation of each fence post, and, as a result, the entire fence as a whole; 5) increasing the operational reliability of the fence post and significantly complicating its unauthorized removal. [0018] The above technical results are achieved by the same set of essential features, namely: a method of mounting a rectangular metal pole with an expansion anchor into the ground, which consists in the fact that the said pole, which is a rectangular metal pipe, having a part buried in the ground , containing longitudinal slots made in the ribs at the same level, which ensure the formation of an expansion anchor by deformation of the sections of the pipe faces, the perimeters of which are limited by the beginning and end of the corresponding slots, is placed in a pre-prepared hole for the column and a longitudinal force is applied to the pipe walls or applied to the internal surfaces of the sections transverse force directed towards the ground until the sections are deformed with the formation of an anchor connection of the column with the ground.

[0019] More specifically, the technical result 1) is achieved due to the fact that it is not required to manufacture the recessed part of the fence post with a cutting blade and, as a result, it is not necessary to manufacture the fence post in two parts, but it is enough to use a rectangular metal pipe of the required length and make longitudinal slots at the same level in the ribs of its buried part, which will make it possible to create an anchor connection with the ground by deforming pipe sections, the perimeters of which are limited by the beginning and end of the corresponding slots, in the direction of the ground. In comparison with the general level of technology, in particular, with anchor joints of expansion piles of circular cross section, the manufacturing process is simplified due to the fact that it is not necessary to make unnecessary calculations and markings for making slots, since the slots are made in the elements inherent in a rectangular section of a metal pipe - ribs - of which there are only four and which even the most unskilled personnel can detect.

[0020] In turn, the technical results 2), 3) and 4) are achieved due to the fact that it is not required to perform the operation of screwing the column for the fence into the ground, but it is enough to prepare the well, place the claimed column in it and create an anchor connection with the ground by deformation of pipe sections, the perimeters of which are limited by the beginning and end of the respective slots, in the direction of the ground, which can be carried out by one of the tools described in detail below; at the same time, it is not required to use any levers that are mandatory when screwing the screw post; at the same time, obstacles for installing a pillar in the form of, for example, stones can be detected even when well drilling and eliminated prior to post erection, without requiring removal of the post to access the obstruction; in this connection: a) only one person is required for the installation of one declared pole, and the installation of high poles does not require a workforce of high growth, since the installation is carried out using specialized tools; b) since only one person is required to install one declared pole, other employees of the installation team can install other fence poles; c) since the installation is carried out in pre-prepared wells, which can be performed quickly using drilling devices, while the installation itself is carried out using a specialized tool, the installation speed of the unit of the declared column increases significantly; d) since several poles can be installed at the same time, and the speed of mounting one pole is significantly increased, the speed of mounting the fence as a whole increases.

[0021] In turn, the technical result 5) is achieved due to the fact that created by deformation of pipe sections, the perimeters of which are limited by the beginning and end of the corresponding slots, in the direction of the ground, the anchor connection with the ground provides increased operational reliability due to the reliability of the connection of the column with the ground , as it provides at least four engagement surfaces (by the number of deformable sections), the area of which can vary in the length of the slots even after the manufacture of the column, in contrast to the screw connection, where the engagement surface is limited by the width of the cutting blade, which cannot significantly exceed the limits of the section of the screw column , as this, when screwing, will lead to the formation of a too wide well; in addition, the proposed anchor connection does not involve the extraction of the claimed fence post by simply pulling it out (this is prevented by the petals formed by the deformed sections), or unscrewing (this is prevented by the absence of any cutting blade in the recessed part), and therefore the unauthorized extraction of the claimed post after its installation, it is significantly complicated and requires excavation to a depth exceeding the depth of the created anchor connection with the soil; in addition, after the installation of the proposed fence post, it remains possible to further strengthen the anchor connection with the ground by pouring the anchor connection with a reinforcing mortar or by filling the anchor connection with a reinforcing loose material, since the design of the proposed fence post provides the possibility of pouring (falling asleep) a reinforcing solution (bulk material) through the column pipe into the junction with the ground.

[0022] BRIEF DESCRIPTION OF THE DRAWINGS

[0023] Exemplary embodiments of the claimed technical solution are described below in detail with reference to the accompanying drawings, which are incorporated herein by reference, and in which:

[0024] FIG. 1 shows an exemplary version of the claimed rectangular metal pole with an expandable fence anchor.

[0025] FIG. Figure 2 shows an exemplary use of a rectangular metal post with an expansion fence anchor to create an anchor connection in the ground with one variation of the expansion tool.

[0026] FIG. Figure 3 shows an exemplary ground anchor connection made with one variation of an expansion tool and a rectangular metal post with an expansion fence anchor.

[0027] In FIG. 4 shows an exemplary use of a rectangular metal post with an expansion fence anchor to create an anchor connection in the ground with another expansion tool.

[0028] In FIG. 5 shows an exemplary ground anchor connection made with another expansion tool and a rectangular metal post with a fence expansion anchor.

[0029] FIG. 6 shows an exemplary use of a rectangular metal post with an expansion fence anchor to create an anchor connection in the ground with a pull tool.

[0030] FIG. 7 shows an example of an anchor connection in the ground, obtained using a pull tool and a rectangular metal post with an expandable fence anchor.

[0031] CARRYING OUT THE INVENTION

[0032] The possible implementations of the claimed technical solutions described in this section are presented on non-limiting examples of the scope of legal protection, in relation to specific embodiments of the claimed technical solution, which in all their aspects are assumed to be illustrative and not restrictive. Alternative options for implementing the claimed technical solution that do not go beyond the scope legal protection are obvious to specialists in the field, having the usual qualifications, for which this technical solution is designed.

[0033] FIG. 1 shows an exemplary version of the claimed rectangular metal pole with an expansion anchor for the fence (anchor pole

100 for the fence). Preferably, but not limited to, the claimed fence post 100 is a metal pipe of rectangular section, preferably, but not limited to, square section, having edges 101 and ribs 102. Preferably, but not limited to, the metal pipe is mainly a standard metal profile pipe, in terms of dimensions and geometric parameters mainly corresponding to GOST 8645-68 or GOST 8639-82. Preferably, without limitation, said metal pipe has an anti-corrosion coating, for example, zinc-based, which increases the operational reliability of the claimed column 100. Preferably, without limitation, longitudinal slots 103 are made at one end of the said pipe in the ribs 102. Preferably, not limited, the slots 103 are formed in such a way that they form sections 104 of the faces, which are able, with sufficient longitudinal action on the respective faces

101 bulge outward towards the ground when the fence post 100 is installed in the post hole, whereby, as seen from FIG. 1, the perimeter of the sections is defined by the beginning and end of the respective slots 103, and the slots 103 themselves are preferably, but not limited to, at the same level. Preferably, but not limited to, the slots 103 are configured to form facet sections 104 which are capable, with sufficient predominantly transverse action on them from the inside, to bulge outward towards the ground when the fence post 100 is installed in the post hole. Preferably, but not limited to, the predominantly transverse action is directed predominantly toward the center of the facet sections 104. Preferably, but not limited to, the sections 104 are pre-curved partially outward, which, preferably, but not limited to, simplifies the process of mounting the post 100 in the ground. At the same time, it should be obvious to a person of ordinary skill in the art, for whom the claimed technical solution is designed, that the aforementioned partial camber of sections 104 should not significantly exceed the expected diameter of the hole for the column 100. Preferably, without limitation, the said slots 103 are made according to length, providing a total sufficient length of anchor expansion (that is, the sum of the lengths thrust surfaces formed by opposite deformed sections). It should be apparent to one of ordinary skill in the art, for whom the claimed solution is intended, that sufficient anchor expansion length can depend on a variety of factors such as, but not limited to, the density of the soil in which the fence post 100 will be used, and geometric parameters of the column 100. It should be obvious to the above-mentioned specialist that the length of the anchor expansion on each side of the column approximately corresponds to half the corresponding length of the corresponding slots 103, which mainly follows from the fact that the section 104 arches in the direction of the ground mainly in its middle part , since this part is the most weakened. At the same time, it should also be obvious to the above-mentioned specialist that, depending on the geometric parameters of the column 100, as well as on the characteristics of the soil, one or another anchor expansion length can be selected on each side of the column 100; moreover, preferably, without being limited, the total length of the anchor expansion, and, consequently, the length of the slots 103 is chosen in such a way as to provide a sufficiently reliable anchor connection in the ground. In this case, if the soil, for example, without limitation, has a high density and a low degree of frost heaving, then a reliable anchor connection of the column 100 can be formed by a shorter length of the anchor expansion on the respective sides of the column 100 and, therefore, a shorter length of the corresponding slots 103 in the column 100 ; however, if the soil, for example, without limitation, has a low density and a high degree of frost heaving, then a reliable anchor connection of the column 100 can be formed by a greater length of the anchor expansion from the respective sides of the column 100 and, consequently, a greater length of the corresponding slots 103 in the column 100. Preferably, but not limited to, the edge sections 104 have additional holes and/or bulges and/or concavities at the preferred fold sections 104. At the same time, a person of ordinary skill in the art, for whom the claimed technical solution is designed, should be obvious that the presence of the aforementioned holes and/or bulges and/or concavities in the places of preferred bending of the sections 104 will ensure, without limitation, the bending of the section 104 in the required place and simplify the installation process as a whole, which will also affect the speed of installation. Preferably, but not limited to, the fence post 100 is longitudinally through to allow spillage (sprinkle) a reinforcing mortar (bulk material) through it to create additional support for the 100 post and to strengthen the anchor connection.

[0034] The claimed technical solution works as follows. A person of ordinary skill in the art, for whom the claimed technical solution is intended, should be obvious that the methods described below for making an anchor connection in the ground using the claimed column 100 follow the same principle that ensures the deformation of the corresponding section 104 in the direction of the ground, and such deformation is achieved either due to the longitudinal force on the walls of the column 100, which in the area of sections 104 due to the existing weakening in the ribs 102 in the form of slots 103 longitudinally incompletely converge with the formation of an anchor connection in the ground due to the outward curvature of each section 104, and such a longitudinal force, which is obvious to a specialist, it can be directed both downward (deep into the well of the column) and upward (from the well of the column); or due to a transverse force on the sections 104 from the inside, which similarly bend in the direction of the ground and provide a similar longitudinal convergence of the walls of the column 100. that methods and tools other than those described below with reference to FIG. 2-7, for example, but not limited to, explosive methods and methods, or methods and methods associated with heating, or any other methods and methods, in connection with which are described below with reference to FIG. 2-7 methods and methods cannot be used as limiting examples of the implementation of the claimed technical solution.

[0035] All described below with reference to FIGS. 2-7 cases, for the installation of the pillar 100, a well of the pillar is preliminarily formed, into which the claimed anchor pillar 100 is inserted for the fence. Preferably, but not limited to, the hole of the column is made in a width not exceeding the width of the column 100, but not limited to pre-bending sections 104. placement of a column in a well or placement with a manipulator) are known from the prior art and, accordingly, are not described in further detail. [0036] FIG. 2 shows an exemplary use of a fence post 100 to create an anchor connection in the ground with one variation of expansion tool 200. FIG. 3 shows an exemplary anchor connection in the ground, obtained using one version of the expansion tool 200. Such an expansion tool 200 is, for example, without limitation, an expansion tool having, as a rule, a supported rod, on which a common pusher is strung, articulated with cranked pushers 201 , which are connected at the other end to the support of the rod of the tool 200, and the pushers 201 are oriented with protruding knees towards the middle of the sections 104 when using the tool 200. corresponding to the location of the sections 104, for which the corresponding control marks can be made on the handle or cable. After the fence post 100 is driven into the preformed borehole to the desired depth, the spacer 200 is driven in to the desired level, after which the common pusher is actuated hydraulically or otherwise, for example, but not limited to mechanically (through the use of a lever or leverage system). , or rack and pinion) method, and forces the protruding knees of the pushers across the column to act on the sections 104, forcing them to buckle outward in the direction of the ground, thus forming a reliable anchor connection with the ground. Preferably, in the case of formation in connection with the convergence of the walls of the column 100 of a cavity in the well, this cavity can be filled with a reinforcing solution (for example, without limitation, concrete mix) or a reinforcing bulk material (for example, without limitation, soil, crushed stone, gravel, sand concrete) , or a combination of them. By way of example, and not limitation, if the column bore is wider than the width of the column 100, the anchor of the column 100 can be brought into working condition in the above way, after which it is further strengthened by the above-mentioned reinforcing mortar or reinforcing bulk material. .

[0037] FIG. 4 shows an exemplary use of a fence post 100 to create an anchor connection in the ground with another expansion tool 300. FIG. 5 shows an exemplary ground anchor connection made with another expansion tool 300. Such another spacer tool 300 is a rod, at one end of which movable fingers 301 are fixed, containing stops, made with the possibility of engaging with protrusions and / or slots (holes of any section) pre-formed on the inner walls of sections 104, or with the possibility resting on said protrusions and/or slots (holes of any section). Such other spacer tool 300 has a handle or cable configured to bring the working member of the tool 300 to a level corresponding to the location of the protrusions of the sections 104, for which appropriate control marks can be made on the handle or cable. After the fence post 100 has been driven into the preformed borehole to the desired depth, such other spacer tool 300 is driven inward to the desired level where the finger abutments of the tool 300 rest against the preformed protrusions and/or slots on the sections 104. Thereafter, upon necessary, while holding the column 100 in the mounting position, begin to press the tool 300 in any way, for example, but not limited to hydraulic or mechanical (through a system of levers or rack and pinion), inside the column 100, due to which the stops of the fingers acting on the protrusions affect the sections 104, forcing them to buckle outward in the direction of the ground, thus forming a secure anchor connection to the ground. Alternatively, such a spacer tool 300 is advanced (before placing the column in the well) inside the column 100 from the bottom side so that the stops of the fingers of the tool rest against the protrusions of the sections 104 in the "bottom-up" direction. After that, if necessary, while holding the column 100 in the mounting position, begin to pull the tool 300 in any way, for example, but not limited to hydraulic or mechanical (through a system of levers or rack and pinion), out of the column 100, due to which the stops acting on the projections the fingers act on the sections 104, forcing them to buckle outward in the direction of the ground, thus forming a secure anchor connection to the ground. Preferably, in the case of formation in connection with the convergence of the walls of the column 100 of a cavity in the well, this cavity can be filled with a reinforcing solution (for example, without limitation, concrete mix) or a reinforcing bulk material (for example, without limitation, soil, crushed stone, gravel, sand concrete) , or a combination of them. By way of example, and not limitation, if the column well is wider than the column width 100, the post anchor 100 can be brought into service in the above manner beforehand, after which it is further strengthened by the above-mentioned reinforcing mortar or reinforcing bulk material.

[0038] FIG. 6 shows an exemplary use of a post to create an anchor connection in the ground using a pull tool 400. FIG. 7 shows an example of an anchor connection in the ground, obtained using a pull tool 400. Such a pull tool 400 is a rod, at one end of which protrusions 401 are formed, for example, but not limited to, due to a hard metal plate, the width of which is greater than the width of the tool rod. , but slightly less than the width of the internal section of the column 100. Preferably, the width of such a plate or the length of the protrusions is designed to freely pass inside the column 100 in the first position, for example, not limited to when the sides of the plate are parallel to the internal walls of the column 100, and with the impossibility of free passing inside the post 100 in a second position, for example, but not limited to, when the sides of the plate are at an angle to the inner walls of the post 100. drawing tool 40 0 to the full depth, after which the fence post 100 is raised in the hole, and the pull tool 400 is rotated so that after lowering the post 100 into the reverse position, the protrusions of the tool 400 act as a support for the ends of the walls of the post 100. Alternatively, the pull tool 400 can be used as a support when driving the post 100 into the post hole, for which the aforementioned actions for setting it up and turning it can be carried out in advance. After that, if necessary, holding the post 100 in the mounting position, preferably resting on the edge of the post, begin to pull the pulling tool 400 in any way, for example, but not limited to, hydraulic or mechanical (through a lever system or rack and pinion), from the post 100 outward, which creates a longitudinal upward force on the walls of the column 100, and at the same time, due to the pressing of the column 100 against the bottom of the well, a downward force is also created on the walls of the column 100, which causes the sections 104 to bend outward in the direction of the ground, thus forming a reliable anchor ground connection. Preferably, in case formation in connection with the convergence of the walls of the column 100 of the cavity in the well, this cavity can be filled with a reinforcing mortar (for example, without limitation, concrete mix) or reinforcing bulk material (for example, without limitation, soil, crushed stone, gravel, sand concrete), or a combination of both . By way of example, and not limitation, if the column bore is wider than the width of the column 100, the anchor of the column 100 can be brought into working condition in the above way, after which it is further strengthened by the above-mentioned reinforcing mortar or reinforcing bulk material. .

[0039] This description of the claimed technical solution demonstrates only private embodiments and does not limit other options for its implementation, since possible other alternative embodiments that do not go beyond the scope of the information set forth in this application should be obvious to a person skilled in the art, having the usual qualifications for which the claimed technical solution is designed.

Claims

Claim

1. A metal post of rectangular cross section with an expansion anchor for the fence, characterized in that it is a metal pipe of rectangular cross section through the longitudinal direction, having a part buried in the ground, containing longitudinal slots made in the ribs at the same level, ensuring the formation of an expansion anchor by deformation of the sections pipes, the perimeters of which are limited by the beginning and end of the corresponding slots, in the direction of the ground.

2. Pillar according to claim 1, characterized in that said pipe has an anti-corrosion coating.

3. The pillar according to claim 1, characterized in that the sections of the faces of the said pipe are made in such a way that the transverse force of the installation tool is directed mainly to the preferred place of deformation of the section to ensure deformation of the sections in the direction of the ground by bending.

4. The pillar according to claim 1, characterized in that the sections of the faces of the said pipe are made in such a way that, when a longitudinal force is applied to the walls of the pillar, they deform by bending in the direction of the ground.

5. Pillar according to claim 1, characterized in that the lengths of the slots in the ribs of said pipe correspond to approximately half the length of the anchor expansion, selected depending on the characteristics of the soil in which the well is drilled for the pillar.

6. Post according to any one of paragraphs. 1-5, characterized in that the sections of the faces of said pipe have holes in the places where the sections are expected to be bent.

7. Post according to any one of paragraphs. 1-5, characterized in that the sections of the faces of the mentioned pipe have bulges in the places of the supposed bend of the sections.

8. Post according to any one of paragraphs. 1-5, characterized in that the sections of the faces of the mentioned pipe have concavities in the places of the alleged bending of the sections.

9. Post according to any one of paragraphs. 1-5, characterized in that the sections of the faces of said pipe are partially curved outward.

10. A method for manufacturing a rectangular metal pole with an expansion anchor for a fence, which consists in the fact that in a rectangular metal pipe in its part buried in the ground, longitudinal slots are made in the ribs at the same level, ensuring the formation of an expansion anchor by deforming the sections of the pipe faces, the perimeters of which are limited by the beginning and end of the corresponding slots, in the direction of the soil due to the application of a longitudinal force to the pipe walls or due to the application of a transverse force directed towards the soil to the inner surfaces of the pipe faces sections.

11. The method according to claim 10, characterized in that said pipe has an anti-corrosion coating.

12. The method according to claim 10, characterized in that said sections of the pipe faces are made in such a way that the transverse force of the installation tool is directed mainly to the preferred deformation point of the section to ensure that the sections are deformed in the direction of the ground by bending.

13. The method according to claim 10, characterized in that said sections of the pipe faces are made in such a way that when a longitudinal force is applied to the pipe walls, they are deformed by bending in the direction of the ground.

14. The method according to claim 10, characterized in that said longitudinal slots of the pipe ribs are made along a length corresponding to approximately half the length of the anchor expansion, selected depending on the characteristics of the soil in which the well is drilled for the post.

15. The method according to claim 10, characterized in that said pipe is through in the longitudinal direction.

16. The method according to any one of paragraphs. 10-15, characterized in that in the mentioned sections of the pipe faces, holes are made in the places of the alleged bending of the sections.

17. The method according to any one of paragraphs. 10-15, characterized in that in the mentioned sections of the pipe faces, bulges are made in the places of the supposed bend of the sections.

18. The method according to any one of paragraphs. 10-15, characterized in that in the said sections of the pipe faces, concavities are made in the places of the supposed bend of the sections.

19. The method according to any one of paragraphs. 10-15, characterized in that said sections of the pipe faces are partially curved outwards

20. The use of a metal pipe of rectangular cross section, having a part buried in the ground, containing longitudinal slots made in the ribs at the same level, ensuring the formation of an expansion anchor by deformation of pipe sections, the perimeters of which are limited by the beginning and end of the corresponding slots, in the direction of the soil due to the application of a longitudinal force to the pipe walls or due to the application of a transverse force directed towards the soil to the internal surfaces of the sections, as a fence post.

21. Use according to claim 20, characterized in that said pipe has an anti-corrosion coating.

22. The use according to claim 20, characterized in that said sections of the pipe faces are made in such a way that the transverse force is directed mainly to the preferred deformation point of the section to ensure that the sections are deformed in the direction of the ground by bending.

23. Application according to claim 20, characterized in that said sections of the pipe faces are designed in such a way that, when a longitudinal force is applied to the pipe walls, they deform by bending in the direction of the ground.

24. Application according to claim 20, characterized in that said longitudinal slots of the pipe ribs are made along a length corresponding to approximately half the length of the anchor expansion, selected depending on the characteristics of the soil in which the well is drilled for the post.

25. Application according to claim 20, characterized in that said pipe is through in the longitudinal direction.

26. Application according to any one of paragraphs. 20-25, characterized in that said sections of the pipe faces have holes in the places where the sections are expected to be bent.

27. Application according to any one of paragraphs. 20-25, characterized in that the mentioned sections of the pipe faces have bulges in the places of the alleged bend of the sections.

28. Application according to any one of paragraphs. 20-25, characterized in that the mentioned sections of the pipe faces have concavities in the places of the alleged bending of the sections.

29. Application according to any one of paragraphs. 20-25, characterized in that said sections of the pipe faces are made partially outwardly curved.