RU92886U1 - BLOCKS FOR THE ESTABLISHMENT OF A LAYER ABLE TO BE LOADED - Google Patents

Abstract

 1. A one-piece block for the construction of a load-bearing masonry, moreover, on the sides of the block there are persistent protrusions and / or devices in the form of a groove-comb, characterized in that the block is made of reproducible raw materials, in particular in the form of chips obtained from plant fibers , and from an astringent, moreover, reproducible raw materials using cement as an astringent and using lime as an additive are combined into a single whole. ! 2. The one-piece unit according to claim 1, characterized in that on the upper and lower sides there are persistent projections (5) and / or a groove-comb device. ! 3. The whole block according to claim 1, characterized in that the fibers of wood, bamboo, hemp or similar materials are used as plant fibers. ! 4. A hollow block for the construction of a load-bearing masonry, moreover, on the sides of the block there are persistent protrusions and / or devices in the form of a groove-comb, characterized in that the block is made of reproducible raw materials, in particular in the form of chips obtained from plant fibers and from an astringent, moreover, reproducible raw materials using cement as an astringent and using lime as an additive are combined into a single unit, and the hollow space (8) of the hollow block (4) is divided into compartments, orye via contact holes connected to one another with the possibility of filling the hollow space (8) with liquid material, providing a high bearing capacity unit. ! 5. The hollow block according to claim 4, characterized in that on the upper and lower sides there are persistent protrusions (5) and / or a groove-comb device. ! 6. The hollow block according to claim 4, from

Description

2420-162481EN / 032

BLOCKS FOR THE ESTABLISHMENT OF A LAYER ABLE TO BE LOADED

DESCRIPTION

The invention relates to blocks for the construction of a load-bearing masonry, in particular a solid block and a hollow block, and in the first row of such a masonry, at least one hollow block is laid next to the massive solid blocks, which has on its upper side and its lower side at least one hole in which at least one hollow block is respectively laid in successive rows of masonry between solid blocks in such a way that the holes in the hollow blocks in adjacent rows of masonry overlap at least partially, and in which a material with a higher bearing capacity is introduced into the connected space formed by the hollow blocks.

The prior art has already known methods for how construction workers, for example, masons, can masonry directly at the construction site using blocks of mineral materials. In the prior art, there was already a proposal, instead of blocks of mineral materials, to use blocks of reproducible biological raw materials, which, however, have the disadvantage that they cannot produce a masonry that can bear the load, and therefore in EP 0838575 B1 contains proposal to create a supporting structure of wood and fill the intermediate cavities in the supporting structure with the appropriate blocks. The construction system presented in this print edition has proven itself in practice, however, it has the disadvantage of increased costs associated with the construction of a load-bearing structure, and which are not necessary when laying traditional blocks. In addition, there is no possibility of manufacturing a monolithic concrete floor.

In this regard, the objective of the utility model is the creation of solid and hollow blocks from reproducible plant materials, which, although they do not have high bearing capacity, can be used to erect masonry, the bearing capacity of which can vary in accordance with the requirements, in particular, it can be promoted.

The task in a single block for the construction of a load-bearing masonry, and on the sides of the block there are persistent protrusions and / or devices in the form of a groove-comb, according to a utility model, it is solved by the fact that the block is made of reproducible raw materials, in particular in the form of chips, obtained from plant fibers, and from an astringent, and reproducible raw materials using cement as an astringent and using lime as an additive are combined into a single whole.

On the upper and lower sides of the block there are additionally persistent protrusions and / or groove-comb devices.

As plant fibers, fibers of wood, bamboo, hemp or similar materials are used.

For a hollow block, suitable for the construction of a load-bearing masonry, on which there are thrust protrusions and / or devices in the form of a groove-comb on the side of the block, the task according to the utility model is solved in that the block is made of reproducible raw materials, in particular in the form of shavings obtained from plant fibers and from a binder, and reproducible raw materials using cement as a binder and using lime as an additive are combined into a single eloe, wherein the hollow space of the hollow block is divided into compartments that via the contact holes are connected to each other with the possibility of filling the cavity with liquid material, providing a high bearing capacity unit.

On the upper and lower sides of the block there are persistent protrusions and / or groove-comb devices.

As plant fibers, fibers of wood, bamboo, hemp or similar materials are used.

The proposed solution gives the advantage that masonry can be carried out in a traditional way that is usual for a bricklayer with ordinary dressing of masonry in increments of the 25th block by joint installation of solid and hollow blocks, and the load-bearing capacity of masonry after completion of masonry work is increased to the required level with filling of hollow blocks, so that with a homogeneous masonry visible from the outside installed on top of each other, hollow blocks inside the masonry are constructed capable of withstanding high loads of columns of high-density material ability.

It is preferable that concrete blocks are used as solid blocks and / or hollow blocks, which are made from reproducible raw materials, in particular from plant fibers such as wood, bamboo, hemp or similar plants and cementitious material. There is a great advantage associated with this embodiment, namely that masonry open to diffusion can be constructed from environmentally friendly building materials, which, along with favorable qualities for housing, also has the required strength without the use of separate load-bearing structures made of steel, concrete or wooden racks.

To eliminate weaknesses in masonry and to give maximum load-bearing capacity, it is provided that the openings of the hollow blocks of adjacent rows of masonry completely overlap. To ensure that the edges of solid blocks located one above the other do not lie on one straight line, the hollow block is made of at least two sizes in width. The positive thing is that the width of the narrower solid blocks is equal to half the width of the wider solid block, so that the offset of the edges of adjacent rows of masonry is determined by half the width of the block. The ability to absorb the load of masonry increases even more when the side surfaces of solid blocks and hollow blocks are equipped with a profile that provides a geometric circuit.

In order to vary the thermal conductivity of the masonry, in particular to reduce it, there is the possibility that an insulating gasket is placed in the hollow space.

A particularly preferred embodiment of the utility model is characterized in that the hollow space can be filled with liquid. Liquids tend to fill the entire available volume, so that the hollow space is completely filled and air bubbles can be avoided in the area of displacement of the concrete blocks. It is advisable that a cured or settable fluid is selected that not only increases the bearing capacity of the masonry due to the incompressibility of the fluid in terms of hydraulics, but also in the usual way, for example, concrete columns are made using it. These concrete columns can also be reinforced with fibers, by laying metal or glass fibers in still liquid concrete.

Further, an advantageous possibility is that a reinforcing column is placed in the hollow space before being filled with liquid, so that a reinforced concrete device can be used as a supporting column in masonry.

In terms of streamlining the method of constructing masonry, it is also possible that a segment of masonry in the form of a wall module is made from solid blocks and hollow blocks in advance and delivered to the construction site for combination with other wall modules, while, what is appropriate, then at the construction site the method step of filling the hollow space is carried out. This also makes it possible then that the hollow space is poured together with the floor.

The problem in the part related to solid blocks and hollow blocks is solved due to the fact that on the side surfaces there are persistent protrusions and / or devices in the form of a groove-comb. Advantageously, these blocks are made in the form of concrete blocks, which are made from reproducible raw materials, in particular from shavings obtained from plant fibers, bonded with cement as a binder and with lime as an added material.

Improved masonry adhesion is achieved when there are thrust projections and / or groove-comb devices on the upper and lower sides.

In the framework of the utility model, there is the possibility that the hollow space of the hollow block is divided into compartments that are connected to each other using contact holes. The contact holes ensure that when filling the hollow space with liquid, the entire volume formed by the hollow spaces is filled, while the material separating into compartments is suitable to change the mechanical properties of the hollow block.

Further, within the framework of the utility model, it is preferable that the natural fibers are processed into chips, which are bonded together with cement as a binder and lime as an additive. The manufacture of chips from reproducible raw materials contributes to the homogenization of the properties of the concrete block, since it does not give any preferred direction in the orientation of plant fibers.

Below, the utility model is explained in more detail using the exemplary embodiment shown in the drawing; where show:

FIG. 1 is an isometric image of a part of masonry made of solid blocks and hollow blocks,

FIG. 2 is a section along II-II in FIG. one,

FIG. 3 is a section along III-III in FIG. one,

FIG. 4 is the same image as in FIG. 1, another embodiment,

FIG. 5 is a section along V-V in FIG. four,

FIG. 6 is an image corresponding to FIG. 1, masonry with increased bearing capacity due to the adjacent location of the second hollow block in each row of masonry, and

FIG. 7 is a section according to VII-VII in FIG. 6.

The drawings show masonry 1, which consists of concrete blocks formed from reproducible raw materials, namely plant fibers such as wood, bamboo, hemp or similar materials, while the plant fibers are processed into shavings that are connected into a single unit using cement in as an astringent and lime as an additive. Concrete blocks are made in two versions, namely, firstly, in the form of a solid block 3 and secondly, in the form of a hollow block 4, and in the embodiment shown in the drawings, thrust projections 5 are made on the lateral surfaces, so that the solid blocks 3 and hollow blocks 4 may be assembled to form a row of masonry 6 shown in FIG. 3 way. According to the proposed method, each row 6 of the masonry contains at least one hollow block 4, while in the subsequent adjacent rows 6 of the masonry between the solid blocks 3, respectively, there is one hollow block 4 so that the openings 7 of the hollow blocks 4 overlap in adjacent rows 6. This thus formed cohesive hollow space 8 is filled with a curing or curing fluid, which involves the use of concrete. Further, it should be noted that in the hollow space 8, reinforcing posts or insulating spacers 9 can be installed before filling with concrete, so that a reinforced concrete column passes through the overlapping hollow blocks 4 to the entire height of the masonry 1, due to which the masonry 1 made of concrete blocks 2 made of reproducible raw materials obtain properties that determine the bearing capacity, while the level of perception of the load of masonry 1 can be changed by changing the quantities and in the number 6 masonry hollow blocks 4 and their location (Fig. 1, Fig. 6). Since the solid blocks 3 are made of different widths (Fig. 5), an offset can be created between adjacent rows of masonry 6, which increases stability. The solid blocks 3 can be equipped with additional insulating gaskets 9 of any thickness to increase the insulation coefficient.

Claims (6)

1. A one-piece block for the construction of a load-bearing masonry, moreover, on the sides of the block there are persistent protrusions and / or devices in the form of a groove-comb, characterized in that the block is made of reproducible raw materials, in particular in the form of chips obtained from plant fibers , and from an astringent, moreover, reproducible raw materials using cement as an astringent and using lime as an additive are combined into a single whole. 2. The one-piece unit according to claim 1, characterized in that on the upper and lower sides there are persistent projections (5) and / or a groove-comb device. 3. The whole block according to claim 1, characterized in that the fibers of wood, bamboo, hemp or similar materials are used as plant fibers. 4. A hollow block for the construction of a load-bearing masonry, moreover, on the sides of the block there are persistent protrusions and / or devices in the form of a groove-comb, characterized in that the block is made of reproducible raw materials, in particular in the form of chips obtained from plant fibers and from an astringent, moreover, reproducible raw materials using cement as an astringent and using lime as an additive are combined into a single unit, and the hollow space (8) of the hollow block (4) is divided into compartments, orye via contact holes connected to one another with the possibility of filling the hollow space (8) with liquid material, providing a high bearing capacity unit. 5. The hollow block according to claim 4, characterized in that on the upper and lower sides there are persistent protrusions (5) and / or a groove-comb device. 6. The hollow block according to claim 4, characterized in that the fibers of wood, bamboo, hemp or similar materials are used as plant fibers.