RU2121549C1 - Dismountable assembled wall structure for construction of low buildings - Google Patents

Abstract

FIELD: wall wooden building structures for low building construction. SUBSTANCE: novelty consists in that distance between posts of wall structure equals to 700-1200 mm and may be selected to be equal to size of door or door aperture. Wall panel is composed of standard modules each assembled of longitudinal members laid on one another. Modules height ranges from 200 to 600 mm. Due to it structure is easily assembled and disassembled without use of hoisting devices. Possible also is structure with additional wall panel installed parallel to the first panel to form gap to accommodate warmth-keeping member. The wall structure according to degree of manufacture and mounting is close to concrete panel structure but is highly ecological, attractive in appearance and needs no additional interior and exterior finishing and ergonomic. EFFECT: reduced cost price. 6 cl, 6 dwg

Description

 The invention relates to construction and can be used in low-rise housing construction for the construction of wooden residential buildings and farm buildings.

 The closest analogue is a collapsible wall construction for low-rise construction, including installed at a distance from one another racks and placed between them a wall panel of mounted on top of each other modules, each of which is made in the form of interconnected longitudinal elements (German patent N 1784746 A, 12/14/72).

 A disadvantage of the known design is the complexity and complexity of the assembly, because installation is carried out from modules of significant size, the installation of which requires the use of auxiliary hoisting mechanisms.

 The technical task of the present invention is the creation of a wall panel that does not have the disadvantages of known structures, namely: simplification and cheapening of the structure, reducing the complexity of the assembly, a high degree of industrialization of manufacture while simplicity and high productivity of the assembly, the unification of building elements, allowing the dismantling and easy re-arrangement of the structure .

 The specified technical problem is solved due to the fact that in the wall structure, mainly for low-rise construction, including racks installed at a distance from one another and placed between them, a wall panel of modules mounted on top of each other, each of which is made in the form of longitudinal elements interconnected , the racks are connected to the modules by means of embedded parts, each of which is partially placed in the groove of the rack and partially in the groove of the surface of the module facing the rack, with each module It has a length of from 700 to 1200 mm and a height of 200 to 600 mm.

 The distance between adjacent racks can be equal to the standard size of the door and / or window opening.

 The wall structure can be performed with an additional wall panel mounted parallel to the first wall panel with the formation of a gap between them.

 The wall structure may be provided with insulation material placed in the gap between the wall panels.

 Wall panel modules can be 200-600 mm in height.

 The longitudinal elements that each module consists of can be made of a profile beam with a spike on the upper surface and a recess on the lower surface, while the spike of the underlying beam is placed in the recess of the overlying profile beam.

 Each of the profile bars for the design variant with one wall panel or the bars of the external wall panel for the variant with two wall panels installed in parallel can be made with a longitudinal groove located on the lower surface along the recess, and a corresponding bevel on the upper surface.

 The technical result is a simplification of the design, simplification and increased productivity of the assembly, the ability to exclude lifting mechanisms during installation, high quality fit of building elements to each other and, as a result, increase the thermophysical properties of the wall structure.

 At the same time, a new technical result arises - the maximum unification of the elements, which makes it possible to assemble a wide variety of building structures from the same modules and a set of racks, as well as the ability to easily and quickly dismantle and redevelop the structure while ensuring a high degree of industrial production.

 By choosing the distance between the racks in the range of 700-1200 mm and making a wall panel composed of modules, each of which consists of elements stacked on top of each other and interconnected, the productivity of assembly of the structure is increased, because the assembly is carried out not by individual elements such as bricks, but by enlarged modules, and when the size of the module is not more than 200-600 mm in height, the weight of the module being formed, taking into account its length from 700 to 1200 mm, is such that it can be lifted and mounted by 2 people without lifting mechanisms.

 With a small length of the elements making up the module, about 1 m, the influence of longitudinal nonlinearity and propellers on the gap between the beam elements due to their short length is eliminated. Therefore, the longitudinal elements - beams that fit tightly without a gap to each other can be provided even without sealing material, eliminating the need for compensating devices, i.e. the thermophysical properties of the wall panel increase without the use of insulation materials.

 Due to the distance between the racks being equal to the standard size of the door or window opening, it becomes possible to change the location of the doors and windows at the request of the developer at any stage of construction, i.e., the functional capabilities of the structure are expanded, its operational qualities are improved.

 The wall structure with an additional wall panel installed parallel to the first with the formation of a gap between them, with the placement of heat-insulating material or without it, has even higher thermal properties, this design can be used for construction in cold regions of the country.

 The longitudinal elements that make up each module can be manufactured industrially, machined and connected to each other in a known manner, for example, using pins passed through round coaxial holes made in parallel bars.

 To ensure a more tight connection of the longitudinal elements of the module to each other, each element is made with a spike on the upper surface and a recess on the lower, and to prevent atmospheric precipitation from the outside of the beam, a longitudinal groove is made on its lower side, the so-called “teardrop”, and a bevel on mating upper surface of an adjacent element.

 In FIG. 1 shows a wall structure in a perspective view, a general view; in FIG. 2 - the same, top view; in FIG. 3 - wall structure with an additional wall panel, top view; in FIG. 4 - a variant of the angular connection of two modules without an angular rack, node A; in FIG. 5 - composite module in a perspective view; in FIG. 6 is a section BB in FIG. 2.

 An embodiment of a collapsible wall structure with one wall panel (Fig. 1,2) includes a lower harness 1 mounted on a foundation (not shown), and an upper harness 2, in which slots for racks, row racks 3, corner racks 4, are provided, corner posts 5, corner (cross) posts 6, embedded parts 7, modules 8, each of which consists of longitudinal elements 9 made in the form of a profile beam and interconnected, for example, using 10 square-shaped insert-nails, passed through coaxial round holes 11 prod ol elements 9.

 Racks 3, 4, 5 and 6 and are made with longitudinal grooves 12 and differ from each other in the number of grooves 12, which are located in different longitudinal planes at different angles to each other (grooves are shown located in mutually perpendicular planes), in the side surfaces of each of module 8, grooves 13 are made, longitudinal elements 9 are made with protrusions (spikes) 14 on the upper surface and recesses 15 on the lower surface, grooves ("teardrops") 16 are also made on the lower surface, bevels 17 are made on the upper surface of longitudinal elements 17. Longitudinal elements may have any other shape in cross-section, for example a parallelepiped shape.

 Stacked one on top of several modules 8 form a wall panel 18.

 An embodiment of a collapsible wall structure with a double wall panel (Fig. 3) includes an additional wall panel 19, which can be installed, for example, from the inside of the structure parallel to the main panel 18 with the formation of a gap 20 in which a heater (not shown) can be placed )

 The wall panel 18 and the inner panel 19 are connected by means of embedded parts 7 to the row posts 21 and the corner posts 4, the corner posts 5, and the corner posts 22. The row posts 21 and the corner posts 22 are oversized and have additional grooves 23.

 The longitudinal elements 9 of the modules 8, of which the internal wall panel 19 is mounted, are made without “teardrops” 16 and bevels 17, because wall panel 19 is not in contact with precipitation.

 In the wall panel 18, a window opening 24 and a doorway 25 are made (Fig. 1).

 A variant of the angular connection without an angular stand 4 is possible, in this case, a groove 26 for the embedded part 7 is made on the front surface of the modules 8 constituting the wall panel 19 (Fig. 4).

 Collapsible wall construction is assembled as follows.

 When constructing a lightweight (not insulated) version of the structure, the lower harness 1 is mounted on the foundation (not shown) and row posts 3 and corner posts 5 are installed, and if there are internal intersecting partitions, corner (cross) posts are also installed 6. The distance between the posts is chosen equal to the standard the size of the window or doorway, it is more convenient if the dimensions of the door and window openings are chosen the same. In this case, the length of all modules 8 will be the same and equal to the distance between adjacent racks. If there is a need for redevelopment, the doorways 25 and the window openings 24 can be interchanged or simply repaired the said openings with modules 8 by making a blank wall.

 The height of the modules is determined by the height of the structure: for example, with a height of 2400 mm, four modules are used with a height of 600 mm each, and a 200 mm high module is used to seal the wall above the window and door.

 The wall panel 18 assembled from the modules 8 is secured with embedded parts 7. The grooves 12 of the uprights and the grooves 13 of the modules 8 can be opened inside the room, in this case the embedded parts 7 are installed from the inside (and not from above) and fixed with clamps (not shown), in In this case, disassembling the wall panel is simplified.

 At the end of the assembly of the walls, the upper trim 2 is installed.

 To perform an extension to an existing structure, replace, for example, the corner post 4 with the corner post 5 having an additional groove 12.

 To assemble the wall structure with a double panel (insulated version, Fig. 3), after installing the lower trim 1, install the uprights 21 with a step equal to the standard size of the door and window openings chosen by the developer, install the corner posts 22 and / or corner posts 4 and corner posts 5, after which the sequential installation of modules 8 is carried out one on top of the other, leaving window and door openings in accordance with the project. After mounting the outer wall panel 16, the wall panel 19 is mounted, installing it approximately parallel to 18, and insulation material is placed in the gap as desired. Modules 8 are fixed using embedded parts 7, and then perform the upper strapping 2.

 Examples of the use of the invention are not limited to those described above.

 The proposed wall structure can be easily and quickly assembled and disassembled in reverse order to transfer the structure to another location or to partially or completely redevelop and complete it in accordance with the capabilities or desire of the builder. For example, to an existing building with double insulated wall panels, an easy extension with single walls or a light attic superstructure can be attached.

 The modularity of the design allows you to build a wide variety of structures from the standard set of modules and racks, as from a children's "designer", which provides great opportunities for individualizing the appearance and internal structure of the structure.

The proposed collapsible wall structure has the advantages of well-known structures made of elements manufactured by an industrial method:
sufficiently high accuracy and quality due to manufacturing in the factory with the provision of deep antiseptic, fire and water repellent impregnation;
ease of delivery to the construction site;
reducing requirements for the quality of the feedstock: the so-called "wood wood" can be used to make the blocks - pieces of wood that were rejected during the cutting of long timber, logs or trunks of tree trunks that are waste products from the woodworking industry, while solving the environmental problem associated with recycling wood waste.

 At the same time, the proposed collapsible wall structure exceeds the well-known structures made by industrial methods in consumer properties: the use of the claimed structure dramatically increases productivity and reduces the complexity of manufacturing and construction, opens up great opportunities for the builder to design and redesign buildings, allowing maximum efficiency use available opportunities.

 The design has an attractive appearance, high thermophysical properties, is highly environmentally friendly, does not require additional costs for interior and exterior decoration, and at the same time it is close in terms of industrialization of manufacturing and installation to concrete panel building structures.

 Using for the production of the proposed simple modular design unloaded capacities of wood processing plants will solve a number of social issues: employment, the development of new regions, etc.

 Currently, in connection with the expansion of individual and garden construction, the proposed low-cost design with high ergonomic, environmental properties and wide functional capabilities can be in great demand.

Claims (6)

 1. Collapsible wall structure for low-rise construction, including installed at a distance from one another racks and placed between them wall panel of mounted on top of each other modules, each of which is made in the form of interconnected longitudinal elements, characterized in that the racks are connected with modules by means of embedded parts, each of which is partially placed in the groove of the rack and partially in the groove of the surface of the module facing the rack, with each module having a length of 700 - 1200 mm and a height of 200 - 600 mm.  2. The construction according to claim 1, characterized in that the size of each of the blocks in length is equal to the standard size of the door and / or window opening.  3. The construction according to claim 1 or 2, characterized in that it is provided with at least one additional wall panel mounted parallel to the first wall panel with the formation of a gap between them.  4. The design according to claim 3, characterized in that it is equipped with insulation material placed in the gap between the wall panels.  5. Design according to any one of paragraphs. 1 to 4, characterized in that each longitudinal element of the block is made of a profile beam with a spike on its upper surface and a recess on the bottom, and the spike of the underlying profile beam is placed in the recess of the overlying profile beam.  6. A construction according to any one of claims 1 to 5, characterized in that a longitudinal groove is made on the lower surface of each profile beam along the recess, and a bevel is formed on its upper surface.

Images