RU196796U1 - END PROTECTION ASSEMBLY OF THE PLANE BUILDING STRUCTURE - Google Patents

Abstract

The technical solution relates to the field of construction, namely, to the protection nodes of the ends of building structures, preferably from various types of wood, for example, such as natural wood, engineering wood, Laminated Veneer Lumber, chipboard, MDF, lightweight MDF (low density) , CDF, HDF, and can find application in the construction of building panels of fencing, in the design of door leafs and similar products. The task is to create a protection unit for a flat building structure, preferably partition walls or door leaf, subject to deformation of the impact of the internal and / or external forces wood (wood-containing) material, wherein when attaching a decorative protective end U-shaped laths have not created the conditions for the end of the bundle of material, or changes in the magnitude of its cross section. EFFECT: reduced stresses created at the end of a flat building structure from such wood materials as natural massif, engineering massif, Laminated Veneer Lumber, chipboard, MDF, lightweight MDF (low density), CDF, HDF while protecting it П -shaped, fixed in the grooves of the end face. For this, the end protection unit of the flat building structure includes a U-shaped overlay, the racks of which are placed in the longitudinal grooves formed in the end of the flat building structure, while the said racks are placed with compression of the longitudinal part of the flat building structure located between them, the magnitude of which creates a greater compression stress in it than along the periphery of the flat building structure in the same cross section. In addition, the struts of the U-shaped lining, to enhance the specified technical result, can be made with end bends towards each other ensuring their fixation and have rounding at the ends, eliminating, when placed in longitudinal grooves, their introduction into the longitudinal part of the flat located between them building construction. 9 s.p. f-ly, 2 ill.

Description

The technical solution relates to the field of construction, namely, to the protection nodes of the ends of building structures, preferably from various types of wood, for example, such as natural wood, engineering massif, Laminated Veneer Lumber, chipboard, MDF, lightweight MDF (low density) ), CDF, HDF, and may find application in the design of building panels for fencing, in the design of door leafs and similar products.

Known site of protection (design) of the end face of a flat building structure containing rectilinear and curvilinear profiled longitudinal and transverse rails forming closed along the contour of the cell of the supporting frame, on which decorative tension panels are laid. In this case, the frame of the system consists of one type of universal frame composite profile, consisting of a basic frame profile and a holding face profile. Universal frame composite profiles are interconnected by means of spring connecting clamps and connecting inserts that fix the joints of intersecting universal frame composite profiles by immersing in the upper mounting grooves of the basic frame profiles of universal frame composite profiles having mirrored tending in opposite to each other to each other sides of the walls are fixing hooks directed in opposite directions to each other (RU No. 2694635 C1, IPC E04F 13/09, 07/16/2019).

The closest solution to a similar technical problem is to protect the flat building structure, which is a door leaf installed in the framework formed by protrusions on opposite sides of the profile, with U-shaped overlays with protrusions at the ends installed on the door end and their fastening on the door end made by fixing the tabs of the lining on the tabs of the side of the profile forming the door end (RU No. 131047 U1, 08/10/2013).

A disadvantage of the known technical solutions is the creation of stresses at the ends having slots for attaching the U-shaped plates by forceful introduction of U-shaped plates into them. Such a fastening creates internal permanent stresses in the ends of a flat structure, which ultimately lead to delamination of the end material or to a change in its cross section.

The objective of this technical solution is to create a protection unit for a flat building structure, preferably partition wall panels or door leaf, from such materials that are subject to deformation from the influence of internal and / or external forces of wood (containing wood), such as natural massif, engineering massif, and LVL-beam (Laminated Veneer Lumber), particleboard, MDF, lightweight MDF (low density), CDF, HDF and the like, in which, when attaching a decorative U-shaped lining protecting the end face, conditions would not be created for the delamination of the mate iala end, or changes in the magnitude of its cross section.

The technical result is to reduce the generated stresses at the end of a flat building structure from wood materials such as natural massif, engineering massif, LVL beam (Laminated Veneer Lumber), chipboard, MDF, lightweight MDF (low density), CDF, HDF while protecting it U-shaped pad fixed in the grooves of the end.

This is achieved by the fact that the end protection unit of the flat building structure includes a U-shaped pad, the struts of which are placed in the longitudinal grooves formed in the end of the flat building structure, while the said racks are placed with compression of the longitudinal part of the flat building structure located between them, the value of which creates a compression stress in it greater than on the periphery of a flat building structure in the same cross section. In addition, the struts of the U-shaped lining, to enhance the specified technical result, can be made with end bends towards each other securing them and have rounding at the ends, eliminating, when placed in the longitudinal grooves, their introduction into the longitudinal part of the flat located between them building construction. As a special case, the magnitude of the compression stress along the periphery of the flat building structure from the U-shaped struts in the same cross section is zero. U-shaped struts can be made of metal, preferably aluminum or its alloys, which provides their required elasticity, and of the corresponding polymeric material, preferably polypropylene or polyethylene. As a special case, the shelf of the U-shaped lining can be made at its ends with longitudinal bends directed parallel to its racks in the areas of the ribs of the flat building structure, bordering its end. In addition, the U-shaped pad can be further fixed with glue. And in the case of applying a coating to a flat building structure, for example by lamination, its edges can be brought under the shelf of a U-shaped lining and pressed to it at the end. In this case, the edges of the coating can be inserted into the grooves of the end face of a flat building structure. Also, on the facing surfaces of the U-shaped strut racks facing each other, corrugations can be made forming stress concentrators in the longitudinal part of the flat building structure located between them, providing the ability to adjust the position of the lining shelf relative to the end face of the flat building structure.

The materiality of the features of this technical solution is determined by their causal relationship with the specified technical result. So, to protect the end face of a flat building structure from destruction under the influence of internal stresses, the U-shaped pad has racks located in the longitudinal grooves formed in the end face of the flat building structure with compression of the longitudinal part of the flat building structure located between them, the magnitude of which creates a greater compression stress in it, than on the periphery of a flat building structure in the same cross section. The signs of this solution in their interconnection provide unloading of the peripheral sections of the protected end from the creation of deforming stresses in that part, which is also exposed to external forces. The use of a U-shaped lining (that is, similar in cross section to “P”), makes it possible to fasten it in the deep part of a flat building structure, where the stresses on the middle section located between the racks are distributed in such a way that does not lead to any deformation of the product. This embodiment provides reliable fastening to protect the end face of a flat building structure, both from destruction under the influence of external forces, and from internal stresses that arise in this case only in a part of the building structure remote from the periphery. To enhance the technical result, the U-shaped struts can be made with end bends ensuring their fixation towards each other, which provides additional anchoring of the U-shaped plates. And to ensure their placement without damage (killing) located between the racks of the part of the building structure, the racks have rounding at the ends, providing sliding in the longitudinal grooves. To ensure complete unloading from internal stresses (i.e., the value of the compression stress along the periphery of a flat building structure from the U-shaped struts in the same cross section is zero), the racks may not touch the walls opposite the crimped ones. The closer the racks to the side surface, the less likely it is to “peel” the edges of the bar. The elastic properties necessary for crimping are best manifested when performing a U-shaped strut, for example, by extrusion, from a metal, preferably aluminum or its alloys, which ensures their required elasticity, or from a polymer material corresponding to this requirement, preferably polyvinyl chloride, polypropylene or polyethylene. The choice of a specific polymer material can be determined based on the requirements of the project taking into account all the properties of the material. To protect the end face of a building structure having a coating, or to protect its ribs adjacent to the end face, a U-shaped shelf can be made at its ends with longitudinal bends directed parallel to its racks in the areas of the ribs of a flat building structure bounding its end face. This solution provides additional crimping of the end from its lateral surfaces, which prevents the end from deforming from emerging stresses, for example, in a humid environment (with possible swelling of the material). To exclude the influence of a humid environment and to exclude the occurrence of stresses inside the product, the U-shaped pad can be additionally fixed with glue. At the same time, the coating applied (by lamination) to the flat building structure also prevents the occurrence of stresses from the side of the protected end when its edges are brought under the shelf of the U-shaped cover and pressed to it against the end. Also in this case, reliable fixing of thin cladding materials, such as paper, film, fabric, etc., is ensured. in the area of the ribs of a flat building structure. In this case, the edges of the coating can be inserted into the grooves of the end face of a flat building structure. To enhance the technical result, it is advisable to create stress concentrators by performing on the facing surfaces of the racks of the U-shaped plate of corrugations. An additional property that arises with this solution allows you to adjust the position of the lining shelf relative to the end face of the flat building structure by deepening the racks by any amount while maintaining their ability to anchor the lining.

The essence of the technical solution is schematically illustrated by drawings, where:

- in FIG. 1 is a cross-sectional image of an end-face protection assembly of a flat building structure without a laminating coating (arrows indicate the direction of compression by the struts);

- in FIG. 2 shows a cross-sectional image of the end-face protection unit of a flat building structure with a laminating coating (arrows indicate the direction of compression of the uprights and its size in the case of performing end bends).

The end protection unit of a flat building structure 1 (conventionally shown in Figs. 1 and 2 and not limited to just such a design) from such wood materials as natural wood, engineering wood, Laminated Veneer Lumber, chipboard, MDF, lightweight MDF (low density), CDF, HDF and the like, - includes a U-shaped pad 2. Racks 3 and 4 of the pad are placed in the longitudinal grooves 5 formed at the end of a flat building structure. When assembling the racks 3 and 4 are placed with compression (its direction is indicated by the arrows in FIG. 1 and FIG. 2) of the longitudinal part 6 (bar) of the flat building structure located between them. The amount of compression force is chosen so as to create a compression stress in it greater than on the periphery of a flat building structure in the same cross section. (As a special case, the magnitude of the compression stress along the periphery of a flat building structure from the U-shaped struts in the same cross section may be zero). This ensures reliable fastening of the U-shaped lining 1 in the body (bar) of a flat building structure. For this, the posts 3 and 4 of the U-shaped lining 2 can be made with end bends (that is, any point along the length of such a rack) that bend (at an angle “a”, see FIG. 2) towards each other and have fillets at the ends, excluding, when placed in longitudinal grooves, their introduction into the longitudinal part of the flat building structure located between them. Such fillets ensure the formation of indented grooves at their location in the longitudinal part 5, which, in addition to fixing the U-shaped lining, provides the possibility of removing it, for example, when replacing, with little effort, without causing damage to the edges of the panel's finishing material. Racks of the U-shaped lining can be made of metal, preferably aluminum or its alloys, which provides their required elasticity or from the corresponding polymeric material, preferably polypropylene or polyethylene. As a special case, the shelf of the U-shaped lining can be made at its ends with longitudinal bends 7 directed parallel to its racks in the areas of the ribs of the flat building structure, bordering its end. In addition, the U-shaped pad can be further fixed with glue. And in the case of applying a coating to a flat building structure, for example by lamination, its edges can be brought under the shelf of the U-shaped lining and pressed against it to the end, which improves the conditions of isolation of the end from the external environment. At the same time, the edges of the coating can be inserted into the grooves of the end face of a flat building structure, which contributes to the sliding of the lining shelves in the grooves when they are inserted. Also, on the facing surfaces of the U-shaped strut racks facing each other, corrugations can be made forming stress concentrators in the longitudinal part of the flat building structure located between them, providing the possibility of adjusting the position (landing depth) of the plate shelf relative to the end face of the flat building structure.

The assembly of the end protection unit of the flat building structure 1 includes the placement of the racks 3 and 4 of the U-shaped lining 2 in the longitudinal grooves 5, (previously formed at the end of the flat building structure) with a predetermined compression value of the longitudinal part 6 (bar) of the flat building structure located between them. This improves the surface quality and ensures the durability of a flat building structure.

Claims (10)

1. The protection unit of the end face of a flat building structure, including a U-shaped pad, the racks of which are placed in the longitudinal grooves formed in the end of the flat building structure, characterized in that the said racks are placed with compression located between them of the longitudinal part of the flat building structure, the value of which creates in it, the compression stress is greater than on the periphery of a flat building structure in the same cross section. 2. The end protection unit of the flat building structure according to claim 1, characterized in that the U-shaped struts are made with end bends that ensure their fixation towards each other and have fillets at the ends, eliminating, when placed in longitudinal grooves, their introduction into the located between them is the longitudinal part of the flat building structure. 3. The end protection unit of the flat building structure according to claim 1, characterized in that the magnitude of the compressive stress along the periphery of the flat building structure from the U-shaped struts in the same cross section is zero. 4. The end protection assembly of a flat building structure according to claim 1, characterized in that the U-shaped struts are made of metal, preferably aluminum or its alloys. 5. The end protection assembly of a flat building structure according to claim 1, characterized in that the U-shaped struts are made of a polymeric material, preferably polyvinyl chloride, polypropylene or polyethylene. 6. The end-face protection assembly of a flat building structure according to claim 1, characterized in that the U-shaped shelf is made at its ends with longitudinal bends directed parallel to its uprights in the areas of the ribs of the flat building structure bounding its end. 7. The end protection unit of the flat building structure according to claim 1, characterized in that the U-shaped pad is additionally fixed with glue. 8. The end protection unit of the flat building structure according to claim 1, characterized in that in the case of coating it, for example by lamination, its edges are brought under the shelf of the U-shaped lining and pressed against it. 9. The end protection unit of the flat building structure according to claim 8, characterized in that the coating edges are inserted into the end grooves of the flat building structure. 10. The end protection unit of the flat building structure according to claim 1 or 6, characterized in that the U-shaped struts on facing each other surfaces are made with corrugations forming stress concentrators in the longitudinal part of the flat building structure located between them, providing the possibility of adjustment the position of the shelf lining relative to the end of the flat building structure.

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