RU2605976C1 - Combined cornice of building face - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction, namely to an external combined cornice of a building face. Combined cornice consists of at least two made from an aluminium alloy longitudinal parts. Each of the longitudinal parts contains at least one part of a locking attachment enabling connection to the other longitudinal part, and together at least two longitudinal parts are interconnected into a locking attachment, which consists of the two parts and is designed so, that at least one longitudinal edge of one part is a ledge, and the other edge is a mating part in the form of a slot, which the ledge is engaged with. Slot and the ledge of the locking attachment are made of a crescent shaped cross-section.

EFFECT: technical result is the possibility of connecting the combined parts in an arbitrary order and changing the cornice configuration.

8 cl, 4 dwg

Description

The technical solution relates to external wall building structures, namely to an external typesetting (prefabricated) cornice of the building facade.

For the purposes of this application, a cornice is understood as a protruding longitudinal element intended for the exterior decoration of buildings.

Relief decoration of building facades with the use of light overhead architectural details has become one of the most effective ways to increase the architectural and artistic expression of buildings ("Recommendations for the relief decoration of large-panel exterior walls of mass-produced residential buildings using light-weight overhead elements of targeted production", Moscow Government, Moskomarchitektura, 2001 ) Light overhead architectural details allow you to individualize the appearance of newly built and reconstructed buildings, make the overall spatial and spatial solution more expressive, and eliminate the monotony and uniformity of residential buildings. Lightweight overhead architectural details can be used for the installation of cornices and belts on the facades of residential buildings.

Currently, overhead architectural details are made of fiberglass concrete, fiber concrete, foam, expanded polystyrene, penoizol, polyurethane foam.

Fiber-reinforced concrete and fiber-reinforced concrete are similar in technology. They are cast into molds to obtain the desired configuration. There are drawbacks to such a production technology: a large mass of products, the high cost of finished products, the mandatory presence of embedded parts for fastening directly to the facade. Due to the fact that the products have a high specific gravity (one fragment can reach 60-70 kg / pc.), And the cornice is located at the highest levels of the building, the installation process itself is very difficult and low-tech. It is of great difficulty to align such elements in a line, since they cannot have a large length due to their considerable weight. The installation of such elements requires mandatory support for the operation to fill the joints between the products, and this work must be performed at a considerable height, sometimes up to 75 meters. And since the basis of the mixture, which is filled with the seams of the cornice, is cement, then at negative temperatures outside the building the ability to work with cement and any other mixing solution based on water is significantly reduced, and sometimes simply impossible. And after the concrete cornice is mounted, each detail of the cornice under the influence of its own weight, wind loads, natural shrinkage of the building can have small displacements, which in turn can lead to loss of joints and loss of appearance. There is a need to repair local sections of the cornice with subsequent coloring of the joints or the entire part to be repaired. And after the winter, autumn period, additional exposure in the form of rain, snow, ice, mechanical stress when cleaning the cornice from ice, local repairs must be performed annually. An additional difficulty is the protection and replacement of embedded parts, which, as a rule, are made of carbon or low-carbon steel, have low corrosion resistance; even in cases of using galvanized steel with a coating thickness of up to 20 microns, the durability of such a coating in an urban environment is 2-3 years. For reliable fastening of the elements, a frame made of ferrous metal and having a high bearing capacity is required. Such a metal frame is welded directly at the installation site, which is very difficult, and additionally requires a welding plan at a height. After the completion of welding, it is necessary to color the structures for corrosion protection.

In particular, the technical solution according to the USSR author's certificate No. 100918 (author - M.E. Lipnitsky), in which the building cornice is made of reinforced concrete blocks, has the stated disadvantages.

Products made of foam and expanded polystyrene are lightweight, but have their drawbacks, the main of which is the combustibility of these materials with the release of a large amount of toxic substances, as well as increased smoke formation during fires. According to Federal Law No. 123 “Technical Regulation on Fire Safety Rules”, the use of such materials on high-rise buildings requires additional compensating measures. In addition, polystyrene and expanded polystyrene when the outer protective and decorative layer is damaged by ultraviolet rays has a very low durability.

The closest technical solution, compared with the proposed one, is described in the invention according to patent 2519029 RU and is a roof eaves of a building containing an extended strip of elastic steel protruding beyond its edge, made with the possibility of retention of ice and snow on its surface, characterized in that the strip is made curved along a multiwave sinusoidal curve using the mechanism of creating a preliminary longitudinal compressive interference with a higher-order critical force corresponding to one of the all forms of relay buckling of the strip with a change in the directions of convexity and concavity of all its half-waves under the action of one of the half-waves of a given transverse force, while one end of the strip is pivotally attached to the cornice using the axis axis cantileverly fixed to the end of the cornice, the preload is also a cantilever-mounted rack on the end of the cornice with adjusting screws and locks inserted into the power sliding contact with the other end of the strip, and the lower surfaces The spans of two adjacent half-waves of the curved strip are connected with flexible cords hanging freely along the wall of the building to the zone of their reach from the ground or from one of the balconies of the building.

The specified cornice according to patent 2519029 RU is strictly utilitarian (has a different purpose), flat, not designed for decoration, made movable to dump snow and ice, requires adjustment of its tension to meet the parameters of elasticity, made of steel, consists of (not including fasteners) from a single longitudinal element - one strip and is not intended for connection with other plane elements of the cornice (strips, rails, etc.).

The task to which the claimed technical solution is directed is to expand the arsenal of technical means in this area, as well as to increase the technical and economic characteristics of overhead architectural structures used in the design of building facades.

This task is achieved due to the fact that the typeset cornice proposed for patenting consists of several (two or more) longitudinal parts made of aluminum alloy, each of which is capable of fastening (joining) with the other part with longitudinal edges in an arbitrary order.

The possible execution of the cornice is such that each of the named longitudinal parts contains at least one part of a unified fastener (lock, lock fastener) that allows connecting to another part, while the unified special fastener (lock) consists of two parts and is made so that one the longitudinal edge of the part (the first part) is the outlet (“tongue”, protrusion) of a crescent-shaped (in cross section), and the other edge is the mating portion in the form of a groove-shaped cavity (recess, groove, recess) a sickle-shaped cross-section, with the specified release ("tongue") is capable of elastic fixing in the above cavity.

For the best engagement, it is desirable to perform both the protrusion (exhaust) and the groove (counterpart) of a curved (sickle-shaped) section in the form.

A lock fastening (lock connection) for the purposes of this application is understood to mean a fastener, parts of which engage with each other and are kept from being disengaged (slip) by mechanical forces, including friction.

It is optimal to carry out a cornice when each of its longitudinal parts contains on each of its longitudinal edges a part of a unified fastening (lock), which allows connecting to another part. In this case, any configurations of such parts within one part are possible, for example, it is possible that on one longitudinal part both parts are parts of the same type and represent a cavity, and on the other both parts are parts of the same type and represent a tongue. It is also possible that one edge of one part contains two parts of a unified fastener (lock) located at different angles.

Of course, as part of one assembled product (one typeset cornice) containing at least two longitudinal parts, there must be parts with both types of parts of a unified fastening (fastening, lock), otherwise the lock will not arise as such.

A possible embodiment of the lock is one in which the longitudinal edge of the part has a thickening (relative to the section of the part), in which a groove of the longitudinal edge of the part is made, or from which the protrusion extends. Thus, the edges containing the groove or protrusion of the cornice part can be made thicker with respect to the overall section (total thickness) of the part (applicable to at least one longitudinal part of the cornice).

A possible implementation of the groove is one in which the groove at the entry point of the protrusion (and, accordingly, the place of abutment to the base of the protrusion) has an even flat end (flat longitudinal edge of the part). Thus, the groove edge of at least one longitudinal part of the cornice is flat at the point of abutment to another part (applicable to at least one longitudinal part of the cornice).

For the purpose of choosing the material for the product, the most successful design is one in which the cornice parts are extruded.

For the purpose of selecting the material for the product, the most successful design is one in which the cornice parts are made of aluminum alloys A6060, A6063, AD31T1, or their analogues (applicable to at least one longitudinal part of the cornice).

A possible choice of material for the product may also be aluminum alloys AD31T, AD31T1 in accordance with GOST 22233-2001 “Profiles extruded from aluminum alloys for translucent enclosing structures. Technical conditions ”or their analogues (applicable to at least one longitudinal part of the cornice).

Each part can be painted with powder paint in an electrostatic field to obtain a given color, or anodized (applicable to at least one longitudinal part of the cornice).

Under the anodizing of parts for the purposes of this application, we mean anodic oxidation (anodic oxidation), that is, the process of creating an oxide film on the surface of parts by their anodic polarization in a conductive medium.

For the purposes of this application, under the aluminum alloy A6060 (aka: "EN 573-1: EN AW-6060"; US standard ANSI H35.1: 6060; classification of the American Aluminum Association AA6060, classification UNS A96060), as well as under the aluminum alloy A6063 (aka "EN 573-1: EN AW-6063", US standard ANSI H35.1: 6063; American Aluminum Association classification: AA 6063; UNS classification A96063) refers to alloys based on aluminum (with a tolerance of minor impurities) for the following content of additional elements:

The most successful implementation is one in which the groove and protrusion intended for engagement are located continuously along the entire edge of the longitudinal part of the stacked cornice. However, the execution of grooves and / or protrusions only on any part of the longitudinal edge (i.e., intermittently) is also possible. Especially such a design is successful for performing protrusions, which entails material savings.

The stacked cornice proposed in the present description may additionally be provided with a cast (separate upper flat part), and may include a longitudinal part of such a profile in which the cast will be an integral part of such a longitudinal part.

The technical result provided by the given set of features is the creation of a built-in facade cornice, characterized by high corrosion resistance, lightness (compared with steel and concrete), fire safety, durability, the presence of a unified fastening of the cornice parts, which allows you to connect the cornice parts in an arbitrary order, which allows you to change the cornice configuration depending on the architecture of the building (changing the cornice configuration without losing its properties).

Thanks to the proposed solution, the variability of obtaining different forms of typeset cornice is expanded, and if necessary, it is possible to establish a different longitudinal part to obtain a cornice of a different desired configuration.

The weight of the proposed typeset cornice can range from 8 to 12 kg per linear meter (4-8 kg / m ² ) with a sweep area of up to 1.5 m ² .

The durability of the proposed parts without additional protection is more than 50 years in an urban environment, staining increases the durability to 100 years.

The device of the cornice is illustrated in the drawings.

The figure 1 shows a special case of the cornice assembly (view in section, i.e. view of the section). The presented cornice consists of four parts 1, 2, 3, 4. Each part shown has two unified parts of the lock (fastening). The cornice has a tide 9 on top in the form of a separate part and is mounted on a decorative facade panel 11 of the wall 10.

The figure 2 shows two connected parts of the cornice (sectional view) of a different profile, each having on each of its longitudinal edges a part of a unified fastening (lock) that allows connecting to another part, namely one cavity 6 and one outlet (protrusion, “tongue” ) 5.

The figure 3 shows a special case of the longitudinal part of the cornice (sectional view), which has on both its longitudinal edges only the counterpart of a unified fastening (lock), that is, a cavity (recess).

Figure 4 (sectional view) shows a particular case of the execution of one longitudinal edge of the cornice part with a thickening (relative to the section of the part) 7, in which two parts of the unified fastening (lock) are located, namely two cavities 6 of a crescent shape (in cross section) ending in flat edge 8.

The assembly and installation of the cornice is as follows. The cornice parts, fasteners and, if required, the tide are delivered disassembled to the installation site. The longitudinal parts of the cornice and other elements by means of lifting mechanisms are delivered to the mounting location on the wall of the building. A feature of this design of a stacked cornice is that each part has two standardized mounts that allow you to connect the parts together. Joining parts can be in random order. For example, a sequence of connecting parts as 1-2-3-4, 1-3-3-4, etc. is possible. The longitudinal parts of the cornice can be either more or less than four (but not less than two). The unified special mount has two parts. One is performed as a protrusion, the second (counterpart) - as a groove. The protrusion is designed in such a way that it engages with the groove.

The assembly and installation of the entire product is as follows: the part with the "tongue" (protrusion) is inserted into the mating part (groove), and engagement occurs. If the groove and protrusion are made curved (sickle-shaped), then the part with the “tongue” (protrusion) is inserted into the mating part (groove) at an angle of 30-45 degrees and lowered into the working position; then engagement occurs. In this case, the analysis of the connection is possible only in the reverse sequence, that is, the part is rotated in the opposite direction by 30-45 degrees and the gear disengages.

This design solution involves the collection of structures directly at the facility.

In the manufacture of products that are part of the cornice of different lengths, for example 6 meters and 4 meters, the adhesion of the products to each other will occur in a checkerboard pattern.

The already assembled cornice can subsequently be attached directly to the wall, for example, to brackets, or directly to the wall, or to decorative elements attached to the wall.

It is also possible that at first some of the longitudinal parts of the cornice are attached to the wall, while other longitudinal parts are engaged with them. This last method is primarily appropriate when replacing any longitudinal part of the cornice.

The proposed technical solution of the stacked cornice of the facade of the building is feasible and provides the ability to create products characterized by high corrosion resistance, lightness (compared to steel and concrete), fire safety, durability, maintainability, the ability to connect typesetting parts in any order and change the configuration of the cornice without losing it properties.

Claims (8)

1. A stacked curtain rod of the building facade, characterized in that it consists of at least two longitudinal parts made of aluminum alloy, each of which is capable of fastening (joining) with the other part by at least one longitudinal edge, each of the longitudinal parts comprising there would be one part of the lock fastening, which allows connecting to another longitudinal part, and together at least two longitudinal parts are connected into a lock fastener, which consists of two parts and is made so that at least one longitudinal edge of one part is a protrusion, and the other edge is the counterpart in the form of a groove with which the protrusion engages, and the groove and the protrusion of the lock fastening are made sickle-shaped in section, and the protrusion is made with the possibility of introducing into the groove under angle of 30-45 degrees. 2. A stacked cornice of the building facade according to claim 1, characterized in that the edges containing the groove or protrusion of the at least one longitudinal part of the cornice are thickened relative to the overall section of the part. 3. The typeset cornice of the building facade according to claim 1, characterized in that the edge of the groove of at least one longitudinal part of the cornice is flat at the junction with another part. 4. Stacked curtain rod of the building’s facade according to claim 1, characterized in that at least one of its longitudinal parts is made by extrusion. 5. The typesetting curtain rod of the building’s facade according to claim 1, characterized in that at least one of its longitudinal parts is made of aluminum alloys A6060, A6063. 6. The typesetting of the building facade according to claim 1, characterized in that at least one of its longitudinal parts is made of aluminum alloys AD31T, AD31T1. 7. Stacked curtain rod of the building’s facade according to claim 1, characterized in that at least one of its longitudinal parts is painted with powder paint in an electrostatic field. 8. Stacked curtain rod of the building’s facade according to claim 1, characterized in that at least one of its longitudinal parts is covered with an oxide film obtained by anodic oxidation.

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