RU2369707C1 - Low rise building - Google Patents

Abstract

FIELD: construction industry.

SUBSTANCE: invention refers to construction industry and can be used during erection of low rise apartment, social and industrial buildings. Low rise building includes foundation, support pillars, floorings, roof and enclosing wall structures. The latter include internal heat-insulating layer made using flat plate warmth-keeping material, and external layers made from hardening material, which are equipped with reinforcing elements. At that, support pillars are attached to the foundation in the lower part and are used as structural members of the heat-insulating layer, and the gap between support pillars in the areas with no openings is filled with flat plate warmth-keeping material. At that, the pillar surface facing the outer side is covered with strip warmth-keeping material. Internal and external surfaces of the heat-insulating layer of the enclosing wall structure are covered with lath, preferably metal one, which is attached to support pillars. Besides outside the enclosing wall structure throughout its surface area with no openings there formed is a multi-layered reinforcement frame including at least four layers of reinforcing bars, the first of which is directed horizontally and attached directly to pillars, and the second one is directed vertically, and such laying is repeated in subsequent layers and their reinforcing bars are arranged on symmetry axes of the squares formed with the first pair of layers of the reinforcement frame. At that, layers of the bars are attached to each other. Width of foundation is not less than thickness of the enclosing wall structure and vertical bars rest on the foundation surface. Besides as the hardening material, there used is plaster material the layer thickness of which is more than thickness of reinforcing layers on the surfaces of the enclosing wall structure. Besides height of support pillars is less than height of the wall by thickness of horizontal bar comprising the flooring frame, which rests on the end surface of support pillar and is attached to it.

EFFECT: providing high structural strength of heat-insulating layer and owing to that the possibility of making the building wall immediately throughout the whole height with temporary use of heat-insulating layer in order to retain reinforcement elements of external layers of the wall, as well as increasing heat-insulating characteristics of the wall because there are no cold joints in it.

8 cl, 6 dwg

Description

The invention relates to the construction and can be used in the construction of low-rise buildings for residential, social and industrial purposes.

A low-rise building is known, including a foundation, support racks, floor slabs and coatings enclosing wall structures (see, for example, RF patent No. 2046909, class Е04С 3/02, 1993).

To improve the performance of the building and its resistance to external energy influences, the well-known building is equipped with angular support posts, upper and lower profiled beams connected to each other and with support posts using overlays, as well as coating plates interconnected on the cantilever shelves of the upper beams, interconnected using wooden blocks to form a frame type frame. However, such a solution does not provide the necessary strength of the finished building structure in extreme conditions, for example, during an earthquake, and installation work is notable for its increased laboriousness with significant use of manual labor, which, in turn, leads to an increase in the construction time and cost of a known building.

A low-rise building is also known, including a foundation, supporting stands, ceilings, roof and walling (see RU No. 2295010, IPC Е04В 1/18, 2006).

The disadvantages of the known device are the increased complexity of the construction of the building due to the need for heavy construction equipment and the presence of significant cold bridges, which reduces the energy efficiency of the building.

The task to which the stated solution is directed is expressed in ensuring the possibility of building a building without the use of heavy construction equipment and preventing the formation of cold bridges.

The technical result is the provision of high structural strength of the insulating layer and due to this, the possibility of forming the wall of the building immediately to the entire height, with the temporary use of the insulating layer to hold the reinforcing elements of the outer layers of the wall (until the hardening of their constituent material). In addition, the heat-insulating characteristics of the wall increase due to the lack of “cold bridges” in it. In addition, it is possible to construct a building without the use of heavy construction equipment.

To achieve this objective, a low-rise building, including a foundation, supporting posts, ceilings, roof and walling, is characterized in that walling includes an internal heat-insulating layer made using a flat plate insulation, and external layers made of hardening material, equipped with reinforcing bars elements, while the support racks are fastened with a foundation in its lower part and are used as structural elements of a heat-insulating layer, moreover, the gap between the supporting posts, in areas without openings, is filled with a flat plate insulation, the surface of the rack facing outwardly covered with tape insulation, while the inner and outer surfaces of the heat-insulating layer of the wall structure are covered with a stucco mesh, preferably metal, bonded to the supporting posts, in addition, on the outside of the enclosing wall structure, over its entire area devoid of openings, a multilayer reinforcing cage is formed, including at least Four layers of reinforcing bars, the first of which is oriented horizontally and fastened directly to the uprights, and the second is oriented vertically, with the repetition of such laying in subsequent layers and the placement of their reinforcing bars on the symmetry axes of the squares formed by the first pair of layers of the reinforcing cage, while the layers of the bars are fastened with each other, and the width of the foundation is not less than the thickness of the enclosing wall structure, and the vertical rods are supported on the surface of the foundation, in addition, as a hardening material la is used for plastering material, whose thickness exceeds the thickness of reinforcement layers on the surfaces of the partition wall structure, furthermore, the height of the struts is less than the wall height on the thickness of a horizontal bar forming the ceiling frame simply supported on the end of the support column and fastened to it. In addition, a Mauerlat is passed along the perimeter of the building above its upper edge, fastened with horizontal bars that form the ceiling frame. In addition, the openings for windows and / or doors in the wall of the building are contoured from above and below by horizontal beams of thickness equal to the thickness of the support posts and connected to them in the tooth, while their surface facing outward is covered with tape insulation and used to fix the plaster grid. In addition, the horizontal bars forming the floor frame are connected to the tooth with support legs. In addition, the size of the square formed by the rods of a pair of reinforcing layers is 0.2-0.3 of the height of the wall. In addition, the length of the end of the vertical embedded bar is not less than 0.4-0.5 of the height of the wall. In addition, penoizol was used as a tape insulation.

A comparative analysis of the features of the claimed solution with the features of the prototype and analogues indicates the conformity of the claimed solution to the criterion of "novelty."

The features of the characterizing part of the claims provide the solution to the following functional problems.

The signs “enclosing wall structures include an internal heat-insulating layer made using a flat plate insulation and outer layers made of hardening material” provide a combination of high heat-shielding properties and high strength in the enclosing structure.

Signs indicating the presence of reinforcing elements in the wall structure provide strength characteristics of the wall and reliable adhesion of the outer layers of the wall to the inner heat-insulating layer.

The signs “support posts are fastened with a foundation in its lower part and used as structural elements of the heat-insulating layer” provide the possibility of using the internal heat-insulating layer of the wall as a “temporary” structural element, ensuring that the stucco mesh and reinforcing elements are kept on them until they are monasticized by the plaster (external ) layers of the wall.

The signs “the gap between the supporting posts, in areas without openings, is filled with a flat plate insulation, and the surface of the rack facing outward is covered with tape insulation” provide high heat-shielding properties of the heat-insulating layer of the wall and at the same time its high strength.

The signs “the inner and outer surfaces of the heat-insulating layer of the wall covering are covered with a stucco mesh, preferably metal, bonded to the supporting posts” ensure that the grid is held on the surface of the heat-insulating layer and it adheres reliably to the plaster layer additionally reinforced with such a grid.

The signs “a multilayer reinforcing cage comprising at least four layers of reinforcing bars is formed outside the enclosing wall structure over its entire area devoid of openings” ensures the formation of a high-strength supporting layer with a high degree of reinforcement on the outer surface of the enclosing wall structure.

The signs governing the placement of layers of reinforcing bars, “the first of which is oriented horizontally and fastened directly to the uprights, and the second is oriented vertically, with the repetition of such laying in subsequent layers and the placement of their reinforcing bars on the symmetry axes of the squares formed by the first pair of layers of the reinforcing cage” provide “Tying” the perimeter of the building with horizontal rods (when fastened with racks) and the formation of vertical supporting reinforcing bars with the formation of a reinforcing mesh a relatively large mesh each pair of reinforcing layers. In this case, subsequent pairs of reinforcing layers are formed with exactly the same mesh, but due to the displacement of the pairs of reinforcing layers, a mesh is formed that is half as much as the original. At the same time, the relatively small diameter of the reinforcing rods makes it possible to fairly evenly distribute the “reinforcing rods” over the thickness and area of the outer surface of the enclosing wall structure.

The signs “bar layers are bonded to each other” and the signs “foundation width is not less than the thickness of the enclosing wall structure, and vertical rods supported on the foundation surface” reduce the load on the support posts.

Signs “plaster material is used as the hardening material, the layer thickness of which exceeds the thickness of the reinforcing layers on the surfaces of the enclosing wall structure” increase the durability of the reinforcing elements of the plaster layers.

The signs "the height of the support posts is less than the height of the wall by the thickness of the horizontal beam that forms the floor frame, supported on the end of the support post and fastened with it" simplify the design of the interface of the building wall with horizontal floors and increase the reliability of thermal insulation of the junction of the attic floor and the wall.

The features of the second claim provide for the connection of the wall and the attic floor.

The signs of the third claim provide for the formation of openings (door and / or window) in the wall of the building.

The features of the fourth claim provide for the formation of the floor of the building.

The features of the fifth claim set the optimal mesh size of the reinforcing cage formed by a pair of reinforcing layers.

The signs of the sixth claim provide reliable fastening of the support posts with the foundation.

The signs of the seventh claim provide an increase in the insulating properties of the support posts to the level of a plate insulation.

The signs of the eighth claim provide reliable fastening of the support posts with the foundation.

Figure 1 shows a view of the wall of the building from the outside during the formation of the frame; figure 2 shows the same in the process of forming a heat insulating layer; figure 3 shows the same at the final stage of the process of forming the insulating layer; figure 4 shows the same at the stage of formation of the second pair of reinforcing layers; figure 5 shows a vertical cross section of a wall of a building; figure 6 shows a vertical cross section through the wall of the building after laying the horizontal bars of the attic floor.

The drawings show the internal heat-insulating layer of the walling, including a flat plate insulation 1 and vertical support posts 2, the lower ends of which are embedded in the foundation 3 (the lower end of which is fastened to the end of the vertical embedded wire 4, protruding from the foundation 3 to a height of about 1 m, which is 0.4-0.5 of the height of the wall taken equal to 2.5 m, and sealed into it) while the gap between the posts 2 is up to 2-3 m and filled with a flat plate insulation 1, and the surface of the rack 2, facing out Coated with the insulation of the ribbon 5, preferably penoizol. Be sure to place the vertical support posts 2 at the corners of the building. The cross-sectional dimensions of the vertical frame racks 2 - 15 × 15 or 20 × 20 cm. The inner 6 and outer 7 surfaces of the wall are covered with a stucco mesh 8, preferably metal, fastened with vertical support posts 2, in addition, a multilayer layer is formed outside the wall over its entire area reinforcing cage, comprising at least four layers of reinforcing bars with a diameter of up to 5 mm, the first layer 9 of which is oriented horizontally and fastened directly to the posts 2, and the second layer 10 is oriented vertically. Moreover, the layers of the rods are bonded to each other, and the width of the foundation 3 is not less than the total wall thickness, and the vertical rods 10 and 11 are supported with their lower ends on the surface of the foundation 3 facing them. A known plaster material applied in a known manner is used as a hardening material, the layer thickness of which is such that the reinforcing elements are completely covered with a layer of plaster. The height of the vertical support racks 2 is less than the height of the wall by the thickness of the horizontal beam 12, which forms the ceiling frame, placed on top of the end of the rack 2 and fastened with it, therefore, before plastering the wall, an embedded (removable) element made in the form of a short segment is laid on the end of the rack 2 timber of the corresponding cross section.

The openings for windows and / or doors in the wall of the building are contoured with horizontal bars 13 of thickness equal to the thickness of the vertical support posts 2 and connected with them in a tooth, while the surface of the horizontal bars 13 facing outward is covered with a foam insulation tape 5, the same as that used for insulating racks 2. The surface of the horizontal bars 13 is also used to attach the plaster mesh. In addition, mortgage bars 14 and horizontal rods 15 of the second pair of reinforcing layers are shown.

When forming the claimed wall, in a known manner, a foundation 3 is formed with embedded rods 4, vertical support posts 2 are fastened with it, with the formation of predetermined door and window openings, after which a flat plate heater 1 is placed between the posts 2 and the corresponding horizontal bars 13, and the outer surfaces of the posts 2 and horizontal bars 13 are covered with tape 5 from a heater, preferably penoizol. Next, the inner 6 and outer 7 surface of the wall is covered with a plaster mesh 8, which is fastened with vertical frame racks 2.

Then, a multilayer reinforcing cage is formed outside the wall over its entire area, including at least four layers of reinforcing bars with a diameter of up to 5 mm, the first layer 9 of which is oriented horizontally and fastened directly to the posts 2, and the second layer 10 is oriented vertically (with the formation of a square grid of order 50 × 50 cm, which is 0.2-0.3 of the height of the wall taken equal to 2.5 m). In subsequent layers, this laying is repeated, while the reinforcing bars of the subsequent layers are placed on the symmetry axes of the squares formed by the first pair of layers (9 and 10) of the reinforcing cage. Thus, with 4 layers of reinforcing cage, the outer surface of the wall is covered with a frame with 25 × 25 cm cells, and with 6 layers, the cells will be 16.7 × 16.7 cm. In this case, the layers of the bars are bonded to each other, and the foundation width 3 is not less than the total wall thickness, and the vertical rods 10 and 11 are supported by their lower ends on the surface of the foundation 3 facing them.

Next, the inner 6 and outer 7 surface of the wall is plastered in a known manner using known plaster materials, which are applied until the reinforcing elements are completely coated with a layer of plaster (before plastering the wall, on the end of the rack 2 and in the recesses, which are further intended to accommodate the ends of the horizontal beams 12 forming supporting frame of the floor, stack the embedded (retrievable) elements 14, made in the form of a short section of the beam of the corresponding cross section). Next, after hardening the layers 16 and 17 of the stucco (70% strength set), approximately 1 week at a temperature of + 15 ° C, they begin to equip the ceiling and other structural elements of the building, remove the mortgages 14, place horizontal bars 12 on them, on which they lay on top of the board, ceiling, on the bottom the space between the horizontal bars 12 of the ceiling is filled with a flat plate heater 1, after which the ceiling is plywood or drywall. Then, in a known manner, the floor is laid (not shown in the drawings), if necessary, by warming it as described above.

A belt of planks (Mauerlat) is fixed along the outer perimeter of the building from the top of the wall to fix the respective ends of the rafters and equip the roof in a known manner.

Claims (8)

1. Low-rise building, including the foundation, supporting racks, ceilings, roof and enclosing wall structures, characterized in that the enclosing wall structures include an internal heat-insulating layer made using a flat plate insulation, and outer layers made of hardening material, equipped with reinforcing elements wherein the supporting posts are fastened to the foundation in their lower part and are used as structural elements of the heat-insulating layer, the gap between the supporting and racks in areas without openings, filled with a flat plate insulation, and the surface of the rack facing outward is covered with tape insulation, while the inner and outer surfaces of the heat-insulating layer of the enclosing wall structure are covered with a stucco mesh, preferably metal, bonded to the supporting racks, in addition, on the outside of the enclosing wall structure, over its entire area devoid of openings, a multilayer reinforcing cage is formed, including at least four layers of reinforcing bars, the first of which is oriented horizontally and fastened directly to the uprights, and the second is oriented vertically, with the repetition of such laying in subsequent layers and placing their reinforcing bars on the symmetry axes of the squares formed by the first pair of layers of the reinforcing cage, while the layers of the rods are bonded to each other, the width of the foundation is not less than the thickness of the enclosing wall structure, and the vertical rods are supported on the surface of the foundation, in addition, a plaster mat is used as a hardening material A series whose layer thickness exceeds the thickness of the reinforcing layers on the surfaces of the enclosing wall structure, in addition, the height of the support posts is less than the height of the wall by the thickness of a horizontal beam that forms the ceiling frame, supported on the end of the support column and fastened with it. 2. The low-rise building according to claim 1, characterized in that a Mauerlat is passed along the perimeter of the building above its upper edge, fastened to horizontal bars forming a floor frame. 3. The low-rise building according to claim 1, characterized in that the openings for windows and / or doors in the wall of the building are contoured from above and below by horizontal bars with a thickness equal to the thickness of the supporting posts, and connected to them by a tooth, while their surface facing out , covered with tape insulation and used to fix the plaster mesh. 4. The low-rise building according to claim 1, characterized in that the horizontal bars forming the floor frame are connected to the tooth with supporting posts. 5. Low-rise building according to claim 1, characterized in that the size of the square formed by the rods of a pair of reinforcing layers is 0.2-0.3 of the height of the wall. 6. Low-rise building according to claim 1, characterized in that the length of the end of the vertical embedded bar is not less than 0.4-0.5 of the height of the wall. 7. The low-rise building according to claim 1, characterized in that penoizol is used as a tape insulation. 8. The low-rise building according to claim 1, characterized in that the length of the end of the vertical embedded bar is not less than 0.4-0.5 of the height of the wall.

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