RU177234U1 - Kinetic facade module - Google Patents

Abstract

The utility model relates to the field of industrial and civil construction, namely to structures for facing facades of buildings and structures. The module is a flat plate, in the upper part of which at least two mounting holes are made for fixing on the corresponding fasteners mounted on the facade, and these holes are made in such a way as to allow the plate to deviate from the vertical when exposed to the plate . The technical solution improves the reliability of fastening of individual facade elements. 6 zp f-ly.

Description

Technical field

The utility model relates to the field of industrial and civil construction, namely to structures for facing facades of buildings and structures.

State of the art

A kinetic facade module is known from the prior art, consisting of at least one motorized cell which is configured to change its configuration (see Korean patent KR 101402661 B1, published March 6, 2014 IPC B25J 11/00), this facade has a high aesthetic appeal, however sufficiently structurally complex and can be easily damaged by external forces.

Also known from the prior art is the kinetic facade module, which is a plate (panel) equipped with movable elements to create the necessary facade geometry (see KR patent application KR 1020160012345 A, 02.03.2016 published 03.02.2016 IPC EB06 3/92), however, this module also does not have sufficient strength characteristics of its mount.

The closest analogue of the proposed solution is the facade system module, which is a flat panel mounted on fasteners and allows to reduce the negative impact of the external environment (see German utility model DE 202013104418 U1 published on 05.12.2013 IPC E04B 2/88). The disadvantage of the proposed solution is its structural complexity, leading to a decrease in strength characteristics.

The objective of this utility model is to create a kinetic facade module with high aesthetic properties without reducing its reliability characteristics.

Technical result

The technical result achieved in solving the problem is to increase the reliability of fastening of individual facade elements.

Utility Model Essence

To achieve this technical result, a kinetic facade module was developed, which is a flat plate in the upper part of which at least two fastening holes are made, for fixing on the corresponding fasteners installed on the facade, and these holes are made in such a way as to allow deflection plates from the vertical with external influence on the plate. In this case, the module can be made of metal, in addition, the module plate can be perforated. The plate thickness should not exceed 3 mm. The plate may be in the form of a rectangle or square. In addition, the plate can be in the shape of any polygon, including a regular one. The angle of deviation of the plate from the vertical is in the range of 5-30 degrees.

Brief Description of the Drawings

FIG. 1 - The fastener diagram of the kinetic facade module; FIG. 2 - Drawing of a fragment of the kinetic facade; FIG. 3 - Drawing of a modular element of the kinetic facade; FIG. 4 - Section showing the movement of the modular element of the kinetic facade under the influence of wind.

Utility Model Implementation

The kinetic facade module, which is a flat plate, in the upper part of which at least two mounting holes are made, for fixing on the corresponding fasteners mounted on the facade, and these holes are made in such a way as to allow the plate to deviate from the vertical when exposed to plate. The technical result is achieved due to the fact that when an external influence, for example, a wind or impact, occurs on one of the facade elements, it deviates from the vertical, thereby reducing the force of the impact on the fastening elements of the module to the facade. Which in turn reduces the likelihood of damage or destruction and allows you to keep a separate facade element fixed to the enclosed surface. After the cessation of exposure, the element returns to its original position due to gravity.

The plate of each module of the kinetic facade is made, for example, of a trapezoidal shape, and if necessary, the shape of the plate can be any polygon, including an irregular one and determined depending on the design features of the enclosed structure, as well as on the necessary aesthetic effect. The module plate is made of perforated or solid sheet of aluminum or other metals. The material of the module is selected during the design work, depending on the requirements for the assembled facade, climatic conditions, etc. The dimensions of the module plate vary depending on the shape and type of material, while the dimensions of the plate on each side are 100-250 mm and the thickness is 1.0 to 3.0 mm. Each module is installed at a distance of 50-200 mm. from the vertical surface of the structure, on two brackets of cylindrical shape, each of which is 5-20 mm in diameter., at a distance of 10-500 mm. between adjacent elements. These ranges of values were obtained as a result of field tests of the modules and provide the best achievement of the technical result.

In the upper part of the plate are two mounting holes. The possibility of rejecting a single facade element is realized by any of the methods known to the specialist, for example, by making mounting holes of the module with a diameter larger than the diameter of the brackets on which the element is mounted or, for example, due to the fact that the inner faces of the module openings are chamfered allowing the element to be deflected 5-30 degrees from the vertical. The number of mounting holes, as well as the limit values of the deflection angles, were obtained as a result of field tests and provide the greatest reliability of fixing a separate module.

The process of installing the kinetic facade begins with fixing the steel rods of the brackets to the base on a bolted or welded connection, followed by fixing the casing on the rod, installing insulating tabs between the steel rod and the modular element of the kinetic facade, and then installing the fixing elements with a threaded connection on the ends of the brackets .

Brackets for installing a modular element are steel rods 50-200 mm long, which are placed in casings made of plastic or other non-metallic materials, for example, wood to reduce the acoustic effects that occur during operation of the facade, and are fixed to the base by means of a rigid connection

The kinetic facade consists of separate modules, each of which is fixed independently of the others on a vertical surface, with the formation of vertical and / or horizontal rows, and adjacent modules are arranged so that adjacent elements do not touch each other both in horizontal rows and in vertical rows. During the operation of the facade in the event of an external impact, one of the elements deviates from the vertical position, thereby compensating for the strength of the impact on the fastening elements. After the action ceases, the element returns to its original position under the action of gravity.

In addition to solving the main problem - creating an element of the kinetic facade with high reliability of fixing on the facade, an additional problem is being solved - creating a unique dynamic visual image of the facade and increasing the urban significance of the urban planning fabric where the construction object is located, as well as the accompanying increase in the commercial attractiveness of the object for visitors, buyers and tenants , it is also possible to optimize the cost of selling an object through the use of facades of the declared modules, while maintaining high-quality aesthetics of the building.

Claims (9)

1. The kinetic facade module, which is a flat plate, in the upper part of which at least two mounting holes are made, for fixing on the corresponding mounting elements mounted on the facade, and these holes are made in such a way as to allow the plate to deviate from the vertical with external impact on the plate. 2. The module according to claim 1, characterized in that the plate is made of metal. 3. The module according to claim 1, characterized in that the plate is perforated. The module according to claim 1, characterized in that the plate thickness does not exceed 3 mm. 4. The module according to claim 1, characterized in that the plate has the shape of an isosceles trapezoid. 5. The module according to claim 1, characterized in that the plate has the shape of a square. 6. The module according to claim 1, characterized in that the plate has the shape of a polygon. 7. The module according to claim 6, characterized in that the plate has the shape of a regular polygon. 8. The module according to claim 1, characterized in that the angle of deviation of the plate from the vertical provided by the mounting holes is 5-30 degrees.

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