RU2112115C1 - Building construction - Google Patents

Abstract

FIELD: construction, applicable for erection of walls of buildings and structures. SUBSTANCE: building construction has two parallelepipeds put together in such a way that on two adjacent faces they form grooves, and on the two others- bosses. One of the parallelepipeds is a rectangular one, and the faces of the other are bevelled, owing to which triangular grooves are formed on the two adjacent sides, and triangular bosses- on the opposite sides. At erection of walls of buildings and structures the bosses of one construction enter the grooves of the two adjacent ones. In the first place, the grooves of this construction receive the recesses of the two other adjacent constructions. The end face of the boss adjoining the rectangular parallelepiped may be made flat, due to it, a system of interconnected ducts is formed in the wall. For the sake of efficiency the rectangular parallelepiped may be made broken - in the form of right angles. When it is necessary to form a window opening, the parallelepiped with bevelled faces is made in the form a frame. EFFECT: reduced labour content, simplified production, enhanced reliability and isolation of rooms. 3 cl, 8 dwg

Description

 The invention relates to the construction and relates to the device of building structures for the construction of buildings and structures.

 Known building structure made of wood or other materials, made in the form of a parallelepiped [1].

 A disadvantage of the known building structure is the complexity of fastening it with other similar structures to form a continuous wall, the need to use cementing (gluing) materials or fasteners for this.

 Also known are building structures having protrusions in the form of triangles, trapezoids on some adjacent faces and corresponding grooves on others [2, 3, 4].

 The closest analogue is the building structure, the shape of which is composed of three parallelepipeds in such a way that the middle one creates a rectangular protrusion from two adjacent ends, and the two extreme ones form rectangular grooves on the other two sides of the structure [5]. A solid wall using such structures is formed by crushing or driving protrusions of one structure into the grooves of another.

 The disadvantage of this analogue is the busyness and complexity of tight connection of rectangular protrusions and grooves and their reverse connector, especially when performing structures of brittle materials. This leads to an increase in the complexity of both the production of these structures and the installation and dismantling of structures from them. In addition, in some cases, for reliability, there is a need to strengthen or seal the joining of structures. Such a possibility is not provided for in this design. In addition, it is not translucent.

 The objective of the invention is to reduce the complexity of the production of structures, as well as the installation and dismantling of structures on them.

 The task is achieved in that the building structure, the shape of which is composed of several parallelepipeds with the formation of protrusions on two adjacent faces and grooves equal to them on the other two, is made of two parallelepipeds, one of which is rectangular, and the second face is beveled. The end face of the protrusion adjacent to the rectangular box can be made flat. The parallelepipeds can be made in the form of translucent frames, and the rectangular parallelepiped is made in the form of metal corners.

 In FIG. 1 shows a building structure with a flat end face of the protrusion, front view; figure 2 is the same side view; figure 3 is the same, a top view; in FIG. 4 - building structure with a non-continuous rectangular parallelepiped; figure 5 is the same side view; figure 6 is the same, a top view; Fig.7 - articulation of adjacent structures with the formation of holes or seal or fastener; on Fig - building structure with a hole (window).

 The shape of the building structure is composed of two parallelepipeds - from a rectangular 1 and with beveled faces 2. The parallelepipeds are connected so that they form protrusions 3 and grooves 4 on adjacent faces.

 The connection of the structures into a continuous wall is performed by combining the protrusions and grooves of each of them with the grooves and protrusions of adjacent ones in horizontal and vertical directions. Moreover, due to the flat ends of the protrusions 3, a system of interconnected grooves 5 is formed (Fig. 7). The formation of windows 6 in the structure is possible (Fig. 8).

 Horizontal protrusions for a lesser probability of wetting the wall, it is advisable to do at the upper ends of the constituent structures. The monolithicity (rigidity) of the assembled wall is ensured by combining the protrusions 3 and the grooves 4. For critical structures, cementitious grout is pumped into the gutter system 5.

 For heat, hydro and sound insulation, elastic material, for example rubber, is laid in the gutters 5. The gasket can be made of a material that combines fastening and heat-insulating functions, for example, compositions based on epoxy resin.

 Structures are made of clay or silicate masses by the method of semi-dry pressing, giving them the proposed shape with further processing in autoclaves - for silicate mixtures or by drying by firing - for ceramic. In this case, the design is complete.

 When performing a wooden structure, it is advisable to make parallelepipeds separately - rectangular and with beveled faces, and then connect them.

 On Fig shows the construction of two non-continuous parallelepipeds - frames. This solution is used for the device of translucent fences, for example, greenhouses. Translucent film or glass is strengthened between the frames. To save material, a rectangular frame can also be made non-continuous in the form of metal corners, the thickness of which is substantially less than the thickness of a wooden frame with beveled edges.

 When performing a wooden structure, only one plate with ends trimmed according to the proposed shape is sufficient, or in the case of light-conducting fencing, two: with rectangular and beveled faces.

 The proposed sectional shape of the faces is the most rational. For example, with the closest form to it - triangular, the building structure must be prepared from two parallelepipeds with faces beveled towards each other. In the proposed solution, only one parallelepiped has beveled faces. The second is rectangular. To make such a design is easier - it is easier to cut a flat face than beveled one way, and less material is wasted.

 The presence of a system of gutters in the walls of the proposed structures makes it possible to ensure their reliability (by injecting a bonding solution into the gutters), as well as hydro, heat, and sound insulation.

Claims (3)

 1. A building structure, the shape of which is composed of several parallelepipeds with the formation of protrusions on adjacent faces and grooves equal to them on the other two, characterized in that it is made of two parallelepipeds, one of which is rectangular, and the second face is beveled.  2. The construction according to claim 1, characterized in that the end face of the protrusion adjacent to the rectangular parallelepiped is made flat.  3. The construction according to claim 1, characterized in that the parallelepipeds are made in the form of translucent frames, and the rectangular parallelepiped is made in the form of metal corners.

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