RU2695213C2 - Block element of quick-erect protective structure - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to the field of protective structures, mainly to temporary, quick-erected structures intended for protection of servicemen, for example, at checkpoints. Essence of invention consists in the fact that block element contains at least frontal protective wall of rectangular shape, facing towards adverse effect, wherein outer outlines of element limit volume in form of parallelepiped. According to the invention, it comprises a fastening device made in the form of at least two fastening rods arranged parallel to one side of the rectangular frontal wall and projecting outside the element beyond the other, perpendicular to it, side of the rectangular frontal wall, as well as receiving holes on side of parallelepiped, opposite to side, beyond which protruding fastening rods, with possibility of arrangement of said fastening rods of one element in receiving holes of other element during assembly of protective structure.EFFECT: technical result is higher reliability of reinforcement while reducing time for erection of protective structure.9 cl, 12 dwg

Description

The invention relates to the field of protective structures, mainly to temporary, pre-fabricated structures intended for the protection of military personnel, for example, at checkpoints.

Known block element pre-fabricated protective structures, containing at least a front protective wall of a rectangular shape, facing the direction of adverse effects, while the outer contours of the element limit the volume in the form of a parallelepiped (patent document RU 165134 U1, publ. 10.10.2016).

The disadvantages of the known block are the complexity, bulkiness of the block, the impossibility of reliable fastening of the walls in the corners, that is, during the construction of circular protection, as well as the low reliability of fastening the blocks on the ground without attracting additional fasteners.

The technical result is to increase the reliability of the strengthening while reducing the time for the construction of a protective structure.

This object is achieved in that the block element of a pre-fabricated protective structure containing at least a rectangular front protective wall facing in the direction of adverse effects, while the outer contours of the element limit the volume in the form of a parallelepiped, according to the invention, contains a mounting device made in at least two mounting rods parallel to one side of the rectangular front wall and protruding outward of the element beyond the other second, perpendicular to it, the sides of the rectangular front wall, and the receiving openings on the side of the box opposite the side which projects beyond the mounting rods, with the possibility of accommodating the fixing pins of said one element in the other member receiving holes when assembling the protective structure.

The task is also achieved by the fact that the rods and receiving holes can be located in the middle plane of the parallelepiped, parallel to the front wall.

The task is also achieved by the fact that the rods can be located parallel to the smaller side of the front wall, while the shortest distance between the rods is equal to half the distance from each rod to the edge of the rectangle side of the frontal plane, beyond which they protrude.

The task is also achieved by the fact that the rods can be made with decreasing cross-section with increasing distance from the element from which they protrude, with the possibility of jamming of the rod in the receiving hole of another element when assembling the protective structure.

The task is also achieved by the fact that the front wall can be made armored.

The task is also achieved by the fact that on the plane opposite and parallel to the frontal wall can be fixed additional, for example, an armored protective wall within the contour of the parallelepiped.

The task is also achieved by the fact that in the internal volume of the element can be placed at least one anti-ricochet partition located at an angle to the front wall.

The task is also achieved by the fact that the mounting rods can be made removable.

The task is also achieved by the fact that it can be made in the form of a closed container, filled with bulk filler.

The invention is illustrated using the drawings.

In FIG. 1 shows an element with a front protective wall;

In FIG. 2 - an embodiment of a removable rod;

In FIG. 3 - element with an additional protective wall;

In FIG. 4 - element with anti-ricochet partition located at an angle to the horizontal plane;

In FIG. 5 - the same, with a partition located at an angle to the vertical plane;

In FIG. 6 - the same, with two anti-rheumatic partitions;

In FIG. 7 - element with additional walls 8;

In FIG. 8 - element with additional walls 8 and 9;

In FIG. 9 shows an example of compiling a simple protective structure from block elements with one protective wall;

In FIG. 10 is an example of angular docking of block elements with one protective wall;

In FIG. 11 - a protective structure made of block elements with two protective walls;

In FIG. 12 is an example of the angular docking of the block elements shown in FIG. 7 or 8.

The block element contains a frontal protective wall 1 of a rectangular shape facing the side of the adverse effects during the construction of the protective structure and frame elements 2 defining the external contours of the block element in the form of a parallelepiped. In this case, the front wall 1 is predominantly armored. The mounting device is made in the form of mounting rods 3 located parallel to one side of the rectangular wall 1 and protruding outward of the element beyond the other, perpendicular to it, the side of the wall 1. On the side of the parallelepiped, the opposite side, beyond which the mounting rods 3 extend, receiving holes 4 are made in which the mounting rods 3 of the other element are placed when assembling the protective structure. The rods 3 and the receiving holes 4 are preferably located in the middle plane of the parallelepiped, parallel to the front wall. It is also possible to use additional rows of rods 3 and holes 4.

The rods 3 are parallel to the smaller side of the rectangle of the front wall 1, since it is preferable to install a block element with the horizontal orientation of the larger side of the front wall 1. The rods 3 (when using two rods) are positioned so that the shortest distance between them is equal to half the distance from each rod 3 to the edge of the side of the rectangle of the frontal plane 1, beyond which they protrude (with the indicated horizontal orientation of the larger side of the frontal wall 1).

The cross section of the rods 3 is made to decrease with increasing distance from the block element from which they protrude, with the possibility of jamming of the rod in the receiving hole 4 of another block element during the assembly of the protective structure. When the rods 3 are removable, they are performed, for example, in the form of conical pointed rods (see Fig. 2). At the same time, during the assembly of the structure, the removable rod 3 is introduced freely into the technological hole 5 in the frame element 2 of the installed block element and provide an interference fit of the removable rod 3 in the receiving hole 4 of the already installed underneath block element.

The block element can be made with two protective walls. In this case, an additional, for example, armored wall 6 is fixed on a plane opposite and parallel to the front wall 1, within the contour of the box of the block element.

In the internal volume of the element, one (see Fig. 4 and 5) or two (see Fig. 6) anti-rheumatic partitions 7 located at an angle to the front wall 1 and the horizontal plane (Fig. 4), and at an angle can be placed to it and the vertical plane (Fig. 5 and 6).

When performing a block element in the form of a closed container, filled, for example, with a loose filler, it is equipped with additional locking walls 8 and 9.

The protective structure is composed as follows. The first lower row of block elements is fixed directly to the ground by inserting or driving rods 3. The next row of block elements is mounted on the bottom row of elements by inserting fixing rods 3 of the installed block elements into the receiving holes 4 of the already installed block elements. The rods 3 are inserted into the holes 4 with interference, which increases the strength of the connection. In this case, the elements can be installed both with a shift by half the length of the rectangle of the protective wall 1 (see Fig. 9), and exactly one above the other (see Fig. 10). The protective structure can be built in the form of a simple straight wall (see Fig. 9) or with a complex perimeter (see Fig. 10). In the case of using block elements with removable mounting rods 3, the latter are inserted into the holes 5 and 4 after installing the block element in its place in the structure, as already described above.

A stronger and more rigid structure is made up of block elements (see FIG. 7) with additional protective walls 8. And the most durable structure is made up of block elements shown in FIG. 8. In this case, to solve the problem of joining the blocks at the corners of the structure, the length of the walls 8 horizontally (or the width of the block element) is half as long as the length of the front wall 1 horizontally. To enhance protection, these elements can be filled with bulk material, as well as use anti-ricochet partitions 7 inside the block element. It is also possible to fill the internal volume with bulk material and using the block elements shown in FIG. 3, 5 and 6 by filling the formed space with sealing the side slots of the already constructed wall of the structure or of each installed horizontal row of the wall. The advantages of the block element options shown in FIG. 7 and 8, consist in the fact that they allow you to make closed rigid structures of the same type of elements due to their laying with overlap and full protection in the places of corner joints without the use of additional, unified elements.

Thus, the claimed invention allows you to very quickly erect protective structures, for example, checkpoints from simple to manufacture block elements. The simplicity and lightness of the elements allows you to accelerate the construction of the structure, and the described location of the fasteners makes it possible to build with overlapping elements and any form of the perimeter of the structure, which increases its rigidity, strength, as well as the reliability of protection.

Claims (9)

1. The block element of the pre-fabricated protective structure made in the form of a parallelepiped, containing at least a rectangular front protective wall facing the adverse effect, characterized in that it contains frame elements that limit the outer contours of the element and its volume in the form of a parallelepiped as well as fasteners made in the form of at least two fastening rods parallel to one side of the rectangular front wall and protruding outward the element beyond the other side of the rectangular front wall perpendicular to it, as well as the receiving holes made on the frame elements on the side of the parallelepiped, the opposite side beyond which the fixing rods protrude, with the possibility of placing said fixing rods of one element in the receiving holes of another element assembly of the protective structure. 2. The element according to claim 1, characterized in that the rods and receiving holes are located in the middle plane of the parallelepiped, parallel to the front wall. 3. The element according to claim 1, characterized in that the rods are parallel to the smaller side of the front wall, while the shortest distance between the rods is consistent with the distance from each rod to the edge of the rectangle side of the frontal plane, beyond which they protrude. 4. The element according to claim 1, characterized in that the rods are made with decreasing cross-section with increasing distance from the element from which they protrude, with the possibility of jamming of the rod in the receiving hole of another element when assembling the protective structure. 5. The item according to any one of paragraphs. 1-4, characterized in that the front wall is made armored. 6. The element according to claim 1, characterized in that on the plane opposite and parallel to the frontal wall, an additional, for example, armored protective wall is fixed within the contour of the parallelepiped. 7. The element according to claim 1, characterized in that at least one anti-ricochet partition located at an angle to the front wall is placed in the internal volume of the element. 8. The item according to any one of paragraphs. 1-7, characterized in that the mounting rods are removable. 9. The element according to p. 1, characterized in that it is made in the form of a closed container filled with bulk filler.

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