RU47024U1 - BUILDING ELEMENT (OPTIONS) AND A WALL OF BUILDING ELEMENTS - Google Patents

Abstract

The utility model relates to the field of construction, namely to building elements for the construction of walls with increased resistance to breaking, and can be used for the construction of bank vaults, safe rooms and other similar objects. The building element includes a rectangular concrete body and a reinforcing cage. According to a utility model, the concrete body is made of concrete of class B60-B90, and the reinforcing cage is formed by two rectangular reinforcing elements placed flush with the surface on the inside of the building element and extending to its faces, and at least one reinforcing element V or U -shaped shape, each end of which is rigidly connected with one of the reinforcing elements of rectangular cross section, and the top is directed to the outside of the building element. In the second embodiment, the construction element comprises one rectangular reinforcing element and at least one V or U-shaped reinforcing element, the apex of which is rigidly connected to the rectangular reinforcing element. A building element made in accordance with this utility model is suitable for erecting walls from the V to X class of breaking resistance, while it has a low metal consumption and a simple structure, which significantly reduces the cost of its manufacture and the cost of erecting the storage wall as a whole.

Description

The invention relates to the field of construction, namely to building elements for the construction of walls with high resistance to cracking, and can be used for the construction of bank vaults, safe rooms and other similar objects.

The problem in the construction of these facilities is the transportation of building elements to the installation site, as well as the actual installation, since usually the objects are mounted from massive panels and are located inside the finished buildings, where the use of lifting mechanisms is practically eliminated.

It is known to erect walls from relatively small building elements, such as bricks or blocks, which have increased bearing capacity or strength. A building element is known, for example, including hardening material after molding (for example, concrete) with longitudinal angular reinforcement located along the faces of the building element flush with its surface and rigidly connected to transverse reinforcement made in the form of round rods and thin metal plates with anchors (SU 737586, IPC E 04 C 1/00, 05/30/1980). This design has a high metal consumption and sufficiently large overall dimensions, which means high labor intensity, both in manufacturing and in the construction of walls, while it does not provide the burglary resistance class required for valuables and safe rooms.

Also known is a hollow reinforced block of rectangular cross section having through round holes symmetrically located in plan and reinforcement in the form of a spatial frame, the block being made with sockets on the side of the side surfaces at the corners and in the middle between them with the formation of bare reinforcement sections for connecting adjacent blocks among themselves (RU 2052041, IPC 6

E 04 C 1/00, 01/10/1996). A wall made of these blocks has increased strength and stability due to the provision of rigid connections between the blocks by means of reinforcement in the longitudinal and transverse directions. The disadvantage of this building element is also low resistance to cracking due to the edge effect arising from the impact load and the presence of through holes. This design is easy to crack with a percussion instrument. In addition, the block has a complex shape, which requires expensive equipment for its manufacture, and high metal consumption, which is due to the spatial reinforcement cage.

Known building element for walls I-IX class of resistance to breaking, including a rectangular concrete body made of concrete class B60-B100, and having a thickness of 50-450 mm (patent No. 42048 for utility model, MKI E 04 C 1/00, E 05 G 1/024, 11/20/2004). A wall constructed from such elements does not contain a reinforcing cage and meets the requirements for resistance to burglary, but it is massive, which is undesirable when erecting storage facilities in buildings, as this can lead to overloading the building floors or require additional capital investments in the construction of powerful foundations .

The closest analogue of the invention is a building element comprising a rectangular concrete body and reinforcing cage, the longitudinal reinforcement of which is made in the form of metal corners placed on the edges of the faces of the element flush with concrete, and the transverse is made in the form of prestressed closed spatial elements of circular cross section, each of which from the side of adjacent faces of the rectangle has a V-shape with inflection angles on the edges of the faces of the building element (SU 885490, IPC E 04 3/20, 11/30/1981). This building element has an increased bearing capacity, however, such reinforcement is weak

counteracts hacking, as the material will crumble in large pieces upon impact, in addition, the building element has a high metal consumption.

The technical task of this utility model is to obtain a building element suitable for erecting walls of high resistance to cracking and having a low metal consumption.

The problem is solved in a building element, including a rectangular concrete body and a reinforcing cage, in which, according to a utility model, the concrete body is made of concrete of class B60-B90, and the reinforcing cage is formed by two rectangular elements placed flush with the surface on the inner side of the building element and passing to its faces, and at least one reinforcing element of a V or U-shape, each end of which is rigidly connected to one of the reinforcing elements of a rectangular section And the vertex directed towards the outer side of the construction element.

Advantageously, the V or U-shaped reinforcing element is mounted perpendicular to the inside of the building element.

The reinforcing element V or U-shaped can be made integral (bent from a rod) or from two reinforcing bars that are rigidly interconnected, for example by welding.

The reinforcing element V or U-shaped can be made of strip or square.

The building element can be equipped with an additional reinforcing element connecting the branches of the reinforcing element V or U-shaped, made, for example, from a reinforcing bar.

The building element can be equipped with an additional reinforcing element of rectangular cross-section, placed flush with the surface on the outside of the building element and rigidly connected to the top of the reinforcing element V or U-shaped, with

this one end of the additional reinforcing element extends to one of the faces of the building element.

Advantageously, elements of rectangular section are arranged vertically or horizontally relative to the upper and lower sides of the building element at a distance from its faces, equal to _^1/4 the distance between these faces, the ends of the reinforcing element V or U-shaped are connected with rectangular elements in their central part . This arrangement of reinforcing elements most simply provides the required step between the reinforcing elements in the wall, however, it does not exclude other options for their location, for example, the arrangement of rectangular elements at an angle to the side faces of the building element.

A building element may contain two or more reinforcing elements of a V or U-shape, the ends of which are rigidly connected with reinforcing elements of a rectangular section. The number of reinforcing elements of a V or U-shape depends on the required breaking resistance class.

In the second embodiment, the building element includes a rectangular concrete body and a reinforcing cage, the concrete body being made of concrete of class B60-B90, and the reinforcing cage is formed by one rectangular reinforcing element placed flush with the surface on the inside of the building element and extending to its faces, and at least one reinforcing element V or U-shaped, the top of which is rigidly connected with the element of rectangular cross section, and the ends are directed to the outside of the builder Foot member. This element can be used in the construction of the wall as an independent element or as an additional element in the construction of the wall of the elements made according to the first embodiment.

The ends of the reinforcing element V or U-shaped in the building element, made according to the second embodiment, mainly go to the corners (faces) of the building element or it is equipped with an additional reinforcing element connecting the branches of the reinforcing element V or U-shaped made from a rod . This embodiment provides the reinforcing cage with additional rigidity.

In the second embodiment, the reinforcing element of rectangular section is located from the faces of the building element mainly at a distance equal to ^1/2 _{of the} distance between these faces, while the top of the reinforcing element of a V or U-shape is rigidly connected with the reinforcing element of a rectangular section in its central part. As in the first embodiment of the invention, such an arrangement of reinforcing elements does not exclude other options for their placement.

A building element may also contain two or more elements of a V or U-shape, the vertices of which are rigidly connected with the reinforcing element of rectangular cross section.

In building elements made according to any of the options, the rectangular elements are made of square with a side of 10-16 mm or strips 4-10 mm thick and 20-40 mm wide, and reinforcing elements made of rods have a diameter of 6-12 mm .

The third object of this utility model is a wall, including building elements laid in horizontal rows on a mortar with dressing of joints, which is made of building elements made according to any of the above options in any combination of them, and laid on a cement adhesive of class B40-B50 in strength compression, and metal strips placed on the inner side of the wall at horizontal or vertical joints (depending on the orientation of the reinforcing elements of rectangular cross section) and related

by welding with rectangular elements of each building element.

A wall made of building elements according to any of the described options has an optimal thickness with minimal reinforcement. For example, when a wall is made of blocks without reinforcement (see patent No. 42048 for a utility model), when breaking at the last 1/3 of the thickness of an element, concrete ceases to work, since the joint (seam between the elements) becomes weaker than concrete, and the whole element is knocked out of masonry dynamic kick. The construction of the building element with the minimum reinforcement made according to the present invention reduces the wall thickness by 1/3 compared to the wall without reinforcement, and compared with the wall made of building elements described in SU 885490, reduce the metal consumption of each block by approximately three times.

The essence of the utility model is disclosed in the examples of its specific implementation with reference to the accompanying drawings, which show the following.

Figure 1 is a building element made according to the first embodiment, isometric view.

Figure 2 - the same with the reinforcing element V-shaped from two rods, top view.

Figure 3 is the same with a bent reinforcing element of a V-shaped.

Figure 4 is the same with a bent reinforcing element of a U-shape.

5 is the same, with an additional reinforcing element in the form of a rod connecting the ends of the V-shaped element.

6 is the same, with an additional reinforcing element of rectangular cross section located on the outside of the building element, isometric view.

Fig.7 is the same, with two reinforcing elements of a V-shaped form, isometric view.

Fig. 8 is an isometric view of a building element constructed according to a second embodiment.

Fig.9 is the same, a top view.

Figure 10 is the same with the ends of the V-shaped reinforcing element located in the corners of the building element.

11 is the same, with an additional element in the form of a rod.

12 is a fragment of a wall made of elements according to the first embodiment, a view from the inside.

Fig.13 is the same, a top view.

Fig. 14 is a fragment of a wall made of elements according to the second embodiment, a view from the inside.

Fig is the same, top view.

The building element 1 includes a rectangular concrete body 2 made of concrete of class B60-B90, and a reinforcing cage. In the first embodiment (Figs. 1-7), the reinforcing cage is formed by two rectangular elements 3, placed flush with the surface on the inner side 4 of the building element and extending to its faces, and one reinforcing element 5 or 6 (V or U-shaped , respectively), each end of which is rigidly connected with one of the reinforcing elements 3, and the top is directed to the outer side 7 of the building element 1.

The reinforcing element 5 or 6 is installed mainly perpendicular to the inner side 4 of the building element, while it can be made of a rod, strip or square (Fig.3, 4) solid or formed from two parts 8 welded together (Fig.2).

The reinforced block 1 can be equipped with an additional reinforcing element 9, connecting the branches of the reinforcing elements 5 or 6 (Fig. 5) to each other to give additional reinforcement to the reinforcing cage.

Advantageously, the additional reinforcing element 9 is made of a reinforcing bar, but can also be made of a strip or square, and is installed end-to-end or overlapping relative to the ends of the elements 5 or 6.

Building element 1 (Fig.6) can be equipped with an additional reinforcing element 10 of predominantly rectangular cross-section. Element 10 is flush with the surface on the outside 7 of the building element 1 and is rigidly connected to the top of the element 5 or 6. One end of the element 10 extends to one of the faces of the building element 1 to provide additional rigidity to the reinforcing cage and to secure it in shape during the manufacture of the building item.

Advantageously, the elements 3 are of rectangular cross section are arranged vertically or horizontally (not shown) at a distance from the faces of the construction element 1 equal to ^{a _1/4} 1, where 1 - distance between these faces, of from 100 to 400 mm. The ends of the reinforcing member 5 or 6 with the elements 3 are connected in their central portion, i.e. at a distance equal to _^1/2 h, where h - height of the construction element 1, which is equal to 150-250 mm. The dimensions of the building element 1 (including the horizontal or vertical spacing of the reinforcing elements 3 and the thickness) are selected from the conditions for ensuring the required resistance class to breaking the walls being built from them.

For walls from V to X class of resistance to breaking, the thickness of the building element 1 varies from 145 to 400 mm, while it may contain one or two elements 5 or 6 (V or U-shaped), the ends of which are rigidly connected with reinforcing elements 3 rectangular section. In the second embodiment (Figs. 11-11), the building element 11 also includes a rectangular concrete body 2 made of concrete of class B60-B90, and a reinforcing cage (in the drawings, similar elements are indicated by the same numbers as in the first

option). The difference is that the reinforcing cage is formed by one rectangular reinforcing element 3 placed flush with the surface on the inner side 4 of the building element 11 and extending to its faces, and at least one reinforcing element 5 or 6 (V or U- shaped). In this case, not the ends of element 5 or 6 are rigidly connected to the element 3, but its top, the ends being directed towards the outer side 7 of the building element 11.

To give greater rigidity to the reinforcing cage, the ends of the reinforcing element 5 or 6 extend to the corners (faces) of the building element 11 or are interconnected by means of an additional reinforcing element 9. Element 9 is made similar to element 9 described in the first embodiment.

When using the construction element 11 as a final assembly of a construction element 1, the reinforcing member 3 of a rectangular cross-section located on the faces of the construction element 11 a distance equal to _^1/2 k, where k - the distance between the faces of which is equal to _^half 1 and the apex of the reinforcing 5 or 6 member associated with the element 3 in its central portion, i.e. at a distance from the faces equal _^1/2 h, where h - height of the construction element 1, 11.

As in the first embodiment, the building element 11 may contain two or more elements 4, 6 of a V or U-shape, the vertices of which are rigidly connected to the reinforcing element 3 of a rectangular section.

In all cases, reinforcing elements 3, 10 of rectangular cross-section are made of square with a side of 10-16 mm or strips 4-10 mm thick and 20-40 mm wide, and reinforcing elements 4, 5, 9 made of reinforcing bars have a diameter of 6 -12 mm.

On Fig-15 shows fragments of walls 12, 13 of building elements made according to the first or second options, respectively (a mixed version is not shown in the drawings). Wall 12, 13 includes building elements 1, 11, laid horizontally

in rows on cement glue of class 14 B40-B50 in compressive strength with dressing of joints, and metal strips 15 placed on the inside of the wall on horizontal joints (the vertical arrangement is similar, therefore not shown in the drawings) and connected by welding with rectangular elements 3 each building element 1 or 11 at points 16.

Building elements and walls are made of them as follows.

For building elements of the V class of resistance to breaking, pre-cut blanks for the reinforcing cage: a square of 14 × 14 mm, reinforcing bars with a diameter of 12 mm. From the cut billets, the reinforcing cage of the required type was welded and placed in the form. Then the mold was filled with concrete of class B90 and subjected to vibration compaction and heat treatment. From the finished blocks, a storage of valuables of the V class of resistance to breaking was built. A compressive strength layer of class B50 cement glue was applied to the prepared base and the first horizontal row of building elements 1 was laid. Then, a layer of cement glue was applied and the second row of building elements 1 was laid with ligation of joints. Further, the masonry of the wall was carried out similarly. Metal strips were installed on the seams, welding each of them to all elements of a rectangular section located in adjacent rows of masonry. A fragment of the wall was tested in accordance with GOST R 50862-96. Tests have shown that a fragment of the wall corresponds to the V class of resistance to breaking. The weight of the reinforcing cage of one element was 1.4 kg, which is approximately two times less than in known structures. The manufacture of building elements according to any of the options described above and the erection of walls from them is carried out similarly, therefore, manufacturing examples for each option are not given.

From the foregoing, it follows that the building element, made according to this utility model, is suitable for the construction of walls from V to

X class of resistance to breaking, at the same time has a low metal consumption and simple design, which significantly reduces the cost of its manufacture and the cost of erection of the storage wall as a whole.

Claims (17)

1. A building element, comprising a rectangular concrete body and a reinforcing cage, characterized in that the concrete body is made of concrete of class B60-B90, and the reinforcing cage is formed by two rectangular reinforcing elements placed flush with the surface on the inside of the building element and extending to it faces, and at least one reinforcing element of V or U-shape, each end of which is rigidly connected to one of the reinforcing elements of rectangular cross section, and the vertex is directed outwardly th side of the building element. 2. The building element according to claim 1, characterized in that the reinforcing element V or U-shaped is installed perpendicular to the inner side of the building element. 3. The building element according to claim 1, characterized in that the reinforcing element V or U-shaped is made of two reinforcing rods rigidly interconnected. 4. The building element according to claim 1, characterized in that the reinforcing element V or U-shaped is made of strip or square. 5. The building element according to claim 1, characterized in that it is equipped with an additional reinforcing element connecting the branches of the reinforcing element V or U-shaped to each other. 6. The building element according to claim 5, characterized in that the additional reinforcing element is made of a reinforcing bar. 7. The building element according to claim 1 or 5, characterized in that it is provided with an additional reinforcing element placed flush with the surface on the outside of the building element and rigidly connected to the top of the reinforcing element in a V or U-shape, with one end of the additional reinforcing element passes to one of the faces of the building element. 8. Construction element according to claim 1, characterized in that the rectangular section elements are arranged vertically or horizontally spaced from the edges of the building element, equal to ^{_one fourth} the distance between the edges and the ends of the reinforcing element V or U-shaped elements are connected with rectangular sections in their central part. 9. The building element according to claim 7, characterized in that the rectangular elements are made of square with a side of 10-16 mm or strips 4-10 mm thick and 20-40 mm wide, and reinforcing elements made of rods have a diameter of 6 -12 mm. 10. The building element according to claim 1, characterized in that it contains two or more elements of a V or U-shape, the ends of which are rigidly connected with reinforcing elements of a rectangular section. 11. A building element comprising a rectangular concrete body and a reinforcing cage, characterized in that the concrete body is made of concrete of class B60-B90, and the reinforcing cage is formed by a rectangular reinforcing element placed flush with the surface on the inside of the building element and extending to its edges , and at least one reinforcing element V or U-shaped, the top of which is rigidly connected with the element of rectangular cross section, and the ends are directed to the outside of the building element. 12. The building element according to claim 11, characterized in that the ends of the reinforcing element V or U-shaped pass to the corners of the building element. 13. The building element according to claim 11, characterized in that the reinforcing element of rectangular section is located from the faces of the building element at a distance equal to ^1/2 _{of the} distance between these faces, and the top of the reinforcing element V or U-shaped is rigidly connected with the reinforcing element of a rectangular sections in its central part. 14. The building element according to claim 11, characterized in that it is provided with an additional reinforcing element connecting the branches of the reinforcing element V or U-shaped to each other. 15. The building element according to claim 11, characterized in that it contains two or more elements of a V or U-shape, the vertices of which are rigidly connected to the reinforcing element of rectangular cross section. 16. The building element according to any one of paragraphs.11-15, characterized in that the reinforcing elements of rectangular cross section are made of square with a side of 10-16 mm or strip 4-10 mm thick and 20-40 mm wide, and reinforcing elements made of reinforcing bars, have a diameter of 6-12 mm. 17. A wall including building elements laid in horizontal rows on a mortar with dressing of joints, characterized in that it is made of building elements according to any one of claims 1-10 and / or 11-16, laid on a cement adhesive of class B40-B50 according to compressive strength, and metal strips placed on the inner side of the wall at horizontal or vertical seams and connected by welding with rectangular elements of each building element.