CZ2006283A3 - Structural building element - Google Patents

Abstract

For military and civil engineering purposes, in particular the construction of temporary structures, a structural element is provided with a disk-shaped central part (1) from which at least three arms (2), whose longitudinal axes lie in a plane parallel to the customs surface of the central part, extend radially. (1) a recess (4) having a width corresponding to the thickness of the central part (1) and a depth of engagement of one to two thirds of the central part (1) at the recess location (4) is provided between the two adjacent arms (2) in the central part (1); . Each arm (2) is terminated with a metal foot (10) with a base (11) from which an anchor plate (12) extends substantially perpendicular to the customs surface of the central part (1) and is at least two reinforced by the base (11) the wedge-shaped ribs (15, 16), wherein the arms (2) and the central part (1) are provided with an integral internal reinforcement with which the shoe (10) is firmly connected. Each arm (2) is provided with at least one through-hole mounting hole (18) lined with a metal housing which is rigidly connected to the inner reinforcement of the member.

Description

CONSTRUCTION CONSTRUCTION ELEMENT

Technical field

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a structural component provided with a disc-shaped central part, from which at least three arms extend radially, whose longitudinal axes lie in a plane parallel to the front surface of the central part. and the depth reaches one to two thirds of the center piece at the recess,

BACKGROUND OF THE INVENTION

Building a resilient defense of troops in the field is in many ways dependent on the creation of roadblocks that will effectively protect the defending troops and make it difficult or impossible for the enemy to move, or direct it to a pre-defined area. Roadblock systems consist of a complex of natural barriers and artificial, non-explosive and explosive engineer roadblocks. These roadblocks have seen great progress especially in the area of explosive roadblocks, but non-explosive roadblocks have remained out of the area of interest, although in the early military conflict, when attacked by an adversary, they are of particular importance for securing the border and building resilient terrain . With the significant reduction in the use of explosive roadblocks, especially mines of various types and uses, due to the international activities of their opponents, the importance of non-explosive roadblocks is increasing. These non-explosive, artificially created roadblocks are divided into three basic groups with more detailed subgroups. The basic division recognizes anti-tank barricades such as walls, precipices, ditches, tree sewers, reinforced concrete pyramids, road traffic barriers, which include damage to destruction of existing roads, ditches, ditches, caving, barriers, further anti-personnel barricades, especially various wire systems, ditches , ratchets and hedgehogs of wood or iron. Another criterion is the division into obstacles, portable or non-portable. As the experience of the latest military conflicts in the world has shown, as well as the results of tests carried out in specialized testing rooms or military exercises, the resources used to date have been lost due to the constantly improving parameters of current military technology. E.g. Anchored concrete pyramids anchored in the ground against the latest tank technology are not suitable. In addition, the current roadblocking technology is very demanding in terms of technology, human resources and investment, as these are always structural elements that can only be used for roadblocks, but in no other area. When building on site, extensive use of earth moving machinery, mechanical loaders, cars or railway wagons and engineer tools is always essential.

From PCZ CZ 98/00044 there is known an element which is provided with a disc-shaped central part, from which at least three arms extend, arranged in a plane perpendicular to the transverse axis of the central part, radially with respect to this axis. a front recess having a width corresponding to the thickness of the central part and a depth extending to one to two thirds of the central part at the recess. In the central part there is a first through hole lying in the recess axis and perpendicular to the shoulder plane, and a second through hole extending frontally and perpendicular to the recess axis. Elements of this type can be used singly or joined to each other as pairs as barriers.

The purpose of the present invention is to increase the stiffness of existing structural components for the construction of roadblocks of higher effects than the previous types and to increase their resistance against undesirable displacement.

SUMMARY OF THE INVENTION

The above object is achieved and the problem is solved by a structural element provided with a disc-shaped central part, from which at least three arms extend radially, whose longitudinal axes lie in a plane parallel to the front surface of the central part and between the two adjacent arms according to the invention, characterized in that the arm is terminated by a metal foot with a base from which an anchor plate extends substantially perpendicular to the front face of the central part and reinforced with at least two wedge ribs relative to the base, the arms and the central part are provided with integral inner reinforcement with which the foot is firmly connected. Also according to the invention, the central part is at least partially provided with a metal protective sheath firmly connected to the inner reinforcement. In a preferred embodiment, the anchor plate is reinforced by two lateral ribs and two central ribs which extend from the lowest point of the concave free edge of the anchor plate and are provided with at least one a through-hole provided at the edge adjacent to the base. In a further preferred embodiment, the foot base has a square U-shaped cross-section. Further according to the invention, the central part is provided with a first through hole lying in the recess axis perpendicular to the shoulder plane and a second through hole extending frontally and perpendicular to the recess axis. the distance between the axes of the two through holes from the transverse axis of the center piece is the same. According to another preferred embodiment, each arm is provided with at least one through-hole assembly lined with a metal sleeve which is fixedly connected to the inner reinforcement of the element.

The advantage of the present invention is high resistance of individual and assembled elements against bending moment, shear force or torque resulting from dynamic and impact loading and combinations of these loads. In the case of military use, the assembly shows high resistance to overcoming heavy combat techniques. The arrow-shaped feet fulfill two, mutually contradictory tasks, both increasing the resistance to displacement on solid substrates and, on the other hand, significantly reducing the possibility of burying the element by its own weight on soft substrates. The elements can also be used in the construction of anti-flood defensive walls as a basis for anchoring the bulwark in the field. The elements can also serve as preventive protective pillars on watercourses. They can also be used separately or in assemblies for reinforcement of subsoil for permanent or temporary constructions. Once the reasons for deploying the elements have passed, the assemblies can be easily disassembled and removed for storage. Thus, the use of elements does not pose a burden to the ecology of the environment.

The elements have a great versatility of use, while handling them is simple, fast, without the need for heavy mechanization. Thanks to its construction the element exhibits long-term stability and resistance to weathering.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be explained in more detail with reference to the accompanying drawings, in which: FIG. 1 is a front view of a four-arm structural member, and FIG. · · 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4

9 4 4 4

4 94 944 ·· ·· a plan view of the element of Fig. 1. Fig. 3 is a perspective view of an anchor foot of each arm.

Exemplary embodiment

The structural component, preferably made of reinforced concrete, consists of a disc-shaped central part 1, from which four arms 2 project radially. The central part 1 and the arms 2 are provided with integral inner reinforcement. The inner reinforcement is not shown in the drawings since its design is not essential to the subject matter of the invention. All arms 2 have their longitudinal axes arranged in a plane parallel to the face 3 of the central part 1. Between two adjacent arms 2, a side recess 4 is provided in the central part 1 extending up to the transverse axis 5 of the central part 1, i.e. The longitudinal axis 6 of the recesses 4 intersects the transverse axis 5 of the central part 1. The width of the recesses 4 corresponds to the thickness of the central part 1.

The through hole 1, the longitudinal axis 8a of which is parallel to the transverse axis 5 of the central part 2 and intersects the longitudinal axis 6 of the recess 4, extends through the central part 1 and the second through hole 7 extending laterally across the recess 4 and its longitudinal axis 7a. on the axis 6 of the recess 4, lies in the plane of the longitudinal axes of the arms 2, that is, in a plane perpendicular to the transverse axis 5 of the central part 1. The distance between the longitudinal axis 6 of the recess 4 and the intersection 7 with the longitudinal axis 6 of the recesses 4 from the transverse axis 5 of the center piece 1 are the same, allowing the assembly of the individual elements as described below.

The central part 1 is at least partially provided with a metal protective sheath 9, preferably steel, which is fixedly connected to the inner reinforcement. In the embodiment shown, the housing 9 completely covers the inner walls of the recess 4 and the two front faces of the center piece 2 in a band extending beyond the width of the recess 4. The casing of the front face of the center piece 1 aligns with the face of this part.

Further, according to the present invention, each of the four arms 2 is terminated by a metal foot 10 of an arrow-shaped shape. For higher mechanical strength of the connection of the arm 2 and the foot 10, the foot base H has both its opposed front edges 13 bent so that their outer surfaces are flush with the face of the respective arm 2, • vt · · · vt vt «vt vt vt vt vt vt vt vt vt vt vt vt vt vt vt vt vt vt So that the cross-section of the base 11 has an angular U-shape. An anchor plate 12 extends substantially from the base H in the direction of the adjacent arm 2, which is substantially perpendicular to the front face of the center piece 1. The free edge 14 of the anchor plate 12 The edge opposite of this plate to the base 1 is V-shaped, so that the two edges of the free edge 14 form spikes to improve the anchoring of the elements at the installation site. In general, the free edge 14 of the anchor plate 12 may be concave. The anchor plate 12 is reinforced with at least two wedge-shaped ribs relative to the base 11. In the present example, two outer ribs 15 and one central rib 16 are used, dividing the shoe into two halves. In each half of the foot, the anchor plate 12, at the edge adjacent to the base 11, is provided with a passage 17 which serves to drain rain water from the foot W during installation or storage in the open. The foot 10, which is preferably designed as a weldment of flat parts, base 11, anchor plate 12 and ribs 13, is firmly connected by its base 11 to the inner reinforcement of the arms 2 and the central part 1.

The construction of the foot 10, in particular the anchor plate 12 and the pockets, which are formed in the spaces between the anchor plate 12 and the ribs, prevents both the horizontal displacement of the element and the terrain due to the element's own weight.

In each arm 2 at least one through hole 18 is formed, the axis of which is, but need not necessarily, be parallel to the transverse axis 3 of the center piece 1. The hole 18 is lined with a metal sleeve that is fixedly connected to the inner reinforcement of the element. shoulder rigidity 2.

The recess 4 serves to assemble the base assembly by snapping the two elements together. The two elements are pivoted by the recesses 4 with respect to each other, their transverse axes 5 are rotated 90 ° relative to each other, and the first element is inserted into the recesses 4 of the second element by the recess 4 of its central part 1. The connection is then provided by a rod inserted into the second opening 7 of the second element, which then passes through the first opening 8 of the first element and then continuing through the second opening 7 of the second element. Total recess width 4, incl. the sheathing of each element must always be at least as large as the total thickness of the base part 1, i.e. again including the sheathing. It is advisable to allow for some clearance to facilitate assembly of assemblies.

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The base assemblies may be coupled to each other either directly as described above or by means of another element whereby two adjacent elements are connected by a mandrel inserted into the mounting holes 18 of the adjacent arms.

The second opening 7 and the mounting openings 18 also serve to manually manipulate the elements by inserting a steel bar forming the grip for the workers into the selected opening.

The element may also have three or more arms 2 than four as used in the above-described case. The number of arms 2 depends on the use of the element, for military technology, especially the construction of roadblocks, however, the number of four arms 2 seems optimal. It is precisely for roadblocks with the above-described basic set, ie two elements locked together. This assembly represents an arrangement of elements in two planes perpendicular to each other, showing high stability and resistance to direct impact.

Industrial applicability

The invention is intended for military purposes, but also has wide application in the field of civil engineering, especially in the construction of temporary structures, eg flood protection dikes.

Claims (6)

1. A structural component provided with a disc-shaped central part (1), from which at least three arms (2) project radially, whose longitudinal axes lie in a plane parallel to the front surface of the central part (1) and are centrally located between two adjacent arms (2). a side recess (4) having a width corresponding to the thickness of the central part (1) and a depth extending to one to two thirds of the central part (1) at the recess (4), characterized in that each arm (2) is terminated by a metal foot (10) with a base (11) from which an anchor plate (12) extends, which is substantially perpendicular to the front face of the central part (1) and reinforced with at least two wedge ribs (15), 16), wherein the legs (2) and the central part (1) are provided with integral inner reinforcement lowered, the foot (10) being fixedly connected. Structural component according to claim 1, characterized in that the central part (1) is at least partially provided with a metal protective sheath (9) firmly connected to the inner reinforcement. Structural component according to claim 1 or 2, characterized in that the anchor plate (12) is reinforced by two lateral ribs (15) and two central ribs (16) which extend from the lowest point of the concave free edge (14) of the anchor plate (1) · Structural component according to claim 1, 2 or 3, characterized in that the base (11) of the foot (10) has a square U-shaped cross-section. Structural component according to one of the preceding claims, characterized in that the anchor plate (12) is provided with at least one passage (17) at its base (11) adjacent to the edge. Structural component according to one of the preceding claims, characterized in that the central part (1) is provided with a first through hole (5) located in the axis (6) of the recess (4) and perpendicular to the plane of the arms (2) and a second ·· · ·· · * ·· ·· ·· 9 9 9 9 9 9 9 9 9 9 9 999 9 9 999 9 9 9999 99 9 999 9 9 9 9 9 9 9 9 9 9 9 9 99 through a through hole (7) extending front and perpendicular to the recess axis, wherein the distance between the axes of the two through holes (8,7) from the transverse axis (5) of the center piece (1) is the same. Structural component according to claim 1, characterized in that each arm (2) is provided with at least one through-hole mounting hole (18) lined with a metal sleeve which is fixedly connected to the inner reinforcement of the element.