RU179762U1 - Kinetic facade - Google Patents

Abstract

The utility model relates to the field of construction in the production of curtain walls, in particular to kinetic facades and can be used for cladding the external surfaces of industrial, administrative and domestic buildings, shopping and entertainment centers, at multi-tier car parks, at airports, as well as for cladding screens and other protective and decorative structures along the autobahns, railways and other objects. The technical result of the claimed utility model is to increase the number of planes odvizhnosti to two panels, namely panel make limited alternating oscillatory movements with a sufficiently large amplitude of oscillation about a horizontal axis passing through the panel apertures and small amplitude oscillations about a vertical axis passing through the symmetry axis of the panel. The mobility of the panels in two planes creates the dynamism of the facade with wave-like vibrations of the panels with different amplitudes on the entire surface of the facade, with the corresponding reflective effects from the vibrations of the panels when the wind load is applied to the facade. The technical result is achieved in that the kinetic facade consists of panels made of sheet material arranged in rows and mounted on traverses, each of which is installed with a gap around the perimeter of the panel relative to adjacent panels with the ability to make alternating oscillatory movements with a limited amplitude of oscillation relative to a horizontal axis passing through two panel openings made along one side of the panel for hanging the panel on spacer sleeves mounted on fasteners, and with a limited oscillation amplitude around a vertical axis passing through the vertical axis the symmetry of the panel, while the fasteners are installed at the ends of the spacer sleeve limiters and distance bushings located between limiters and traverses fixed on the metal frame of the facade.

Description

The technical field to which the utility model belongs.

The utility model relates to the field of construction in the production of curtain walls, in particular, to kinetic facades, and can be used for cladding the external surfaces of industrial, administrative and domestic buildings, shopping and entertainment centers, at multi-tier car parks, at airports, as well as for cladding screens and other protective and decorative structures along the autobahns, railways and other facilities.

The level of technology.

The prior art system for facing the facade with metal cassettes (patent RU 2609503 C1, IPC E04F13 / 00, published 02.02.2017), consisting of cladding panels mounted on vertical rails and secured by fasteners on the frame subsystem of the facade.

The disadvantages of the known design of the facade cladding system with metal cassettes include the high complexity and cost of manufacturing the cladding panels, the rigidity of fixing the cladding panels on the frame subsystem of the facade and, accordingly, the static panels facing the facade surface, reducing the effect of its visual perception.

The prior art anti-glare device for buildings (patent NL 2015879 B1, ЕВВ 9/24, published June 16, 2017), consisting of many staircases, which are solar panels rotating around parallel vertical axes, thanks to the drive mechanical system and the corresponding setting on programming the angles of rotation of panels to protect against solar radiation.

The disadvantages of the known design of the anti-glare device for buildings include the high complexity and cost of manufacturing and installation of the electronic-mechanical drive of the panels, the monotony and inexpressiveness created by the facade cladding panels, and the limited functional purpose of the facade arrangement.

The kinetic facade is known from the prior art (application KR 1020160012347 A, ЕВВ 9/24, published 03.02.2016), consisting of a plurality of first and second shading modules, moved up and down the program and containing multiple louvre slots.

The disadvantages of the known design of the kinetic facade include the high complexity and cost of manufacturing and installation of the electronic-mechanical drive of the shading modules, the limited functionality of the facade arrangement.

The prior art “Decorative dynamic panel” (utility model RU 113996 U1, IPC В44С 5/00, published March 10, 2012) is accepted as the prototype and the closest in the set of similar features, consisting of a frame made in the form of mutually intersecting with the formation of a regular lattices of horizontal and vertical plates with holes made in each of the vertical and located under each of the horizontal plates, while axial elements are passed through the holes, on which each frame cell is movable, with With the possibility of rotation, decorative elements, which are rectangular plates, are installed.

The disadvantages of the known design (utility model RU 113996 U1, IPC B44C 5/00, published 03/10/2012) under the name "Decorative dynamic panel" should include:

- a visually open frame made in the form of horizontal and vertical plates intersecting with the formation of a regular lattice, which significantly reduces the perception of the dynamism of the external facade decor and worsens the aesthetic perception of the facade;

- the absence of limiters for the amplitude of oscillation of the panel (decorative element), which can lead to a rotation of the panel inside the facade by 180 degrees and, accordingly, impact of adjacent panels in the vertical row against each other and not to return the panel from its upper position to its original position, and also requires significant removal of the frame from the wall of the building to prevent impact on it, which increases the dimensions of the facade;

- lack of structural ability for the oscillation of the panels (decorative element) in two planes, which significantly reduces the dynamic effect of the facade;

- structurally complex and requiring high precision manufacturing of parts, technologically time-consuming and expensive design of the facade frame, requiring high and special qualifications of the installer when installing the frame to ensure the alignment of axial elements mounted on opposite vertical plates for mounting each panel (decorative element);

- structurally complex and requiring high precision manufacturing of parts, technologically laborious and expensive construction of the panel (decorative element), with holes made and antifriction bushings installed in them;

- structurally heavy panel (decorative element), which requires strong wind pressure to oscillate, and there is the possibility of damage to the frame from the dynamic effects of the panel (decorative element) when it is rotated to its highest position.

Disclosure of a utility model.

The objective of the claimed utility model is to create a multifunctional, not expensive to manufacture and material costs, with easy and quick installation, reliable and simple design of the curtain wall with kinetic, movable, panels.

The technical result of the claimed utility model is to increase the number of planes of mobility of the panels to two, namely, the panels make limited alternating oscillatory movements with a sufficiently large amplitude of oscillation relative to the horizontal axis passing through the panel openings and a small amplitude of vibration around the vertical axis passing through the axis of symmetry of the panel. The mobility of the panels in two planes creates the dynamism of the facade with wave-like vibrations of the panels with different amplitudes on the entire surface of the facade, with the corresponding reflective effects from the vibrations of the panels when the facade is exposed to wind load.

The specified technical result is achieved in that the kinetic facade consists of panels made of sheet material arranged in rows and mounted on traverses, each of which is installed with a gap around the perimeter of the panel relative to adjacent panels with the ability to make alternating oscillatory movements with a limited amplitude of oscillation relative to the horizontal an axis passing through two panel openings made along one of the sides of the panel for mounting the panel on spacer sleeves nnye on the fastening elements and with a limited amplitude oscillation about a vertical axis passing through the vertical axis of symmetry of the panel, while on the fastening elements mounted at the ends of the spacer stops and spacer sleeves arranged between the stops and cross members fixed to the metal frame of the facade.

The dimensions of the panel opening are significantly larger than the diameter of the spacer sleeve.

The length of the spacer sleeve is many times greater than the thickness of the panel and is directly proportional to the amplitude of oscillation of the panel.

The length of the spacer sleeve is directly proportional to the dimensions and amplitude of the panel.

A brief description of the drawings.

FIG. 1 - a general view of the facade with a static state of the panels.

Figure 2 is a vertical section of the facade with a static state of the panels without exposure to wind load.

Figure 3 is a vertical section of the facade in the kinetic state of the panels when exposed to wind load.

Figure 4 is a vertical section through a panel in a static state without exposure to wind load.

Implementation of a utility model .

The claimed kinetic facade consists essentially of rows of panels 1 made of sheet material, each of which is mounted on a traverse 2 with a gap around the entire perimeter of the panel relative to adjacent panels 1, with two holes made along one side of the panel 1 3. On the traverse 2 two fasteners for each panel 1 are rigidly fixed, fasteners 4 on which spacer sleeves 5 are installed, the length of which is many times greater than the thickness of the panel 1 and depends on the given amplitude of vibration of the panel. The panels 1 are hung on the spacer sleeves 5 with holes 3, the size of which is significantly larger than the diameter of the spacer sleeve 5. At the ends of the spacer sleeve 5 are the stops 6 mounted on the fastener 4. The size of the hole 3 of the panel 1 is much larger than the diameter of the spacer sleeve 5 and the ends are installed the spacer sleeve 5 of the limiters 6 provides the panel mobility in two planes, namely, it provides the ability to make alternating oscillatory movements of the panel 1 with a sufficiently large limited amp an oscillation about a horizontal axis passing through two openings 3 of panel 1 and with a small limited amplitude of oscillation around a vertical axis passing through a vertical axis of symmetry of panel 1. Also, a spacer 7 is installed on the fastener 4, located between the limiter 6 and the traverse 2, fixed on the frame metalwork of the facade 8. In this case, to ensure free oscillation of the panel 1 and to prevent its impact on the wall of the building, the set length of the distance sleeve 7 is set to Thoraya depends on the dimensions of panels 1 and a predetermined oscillation amplitude of the facade structure of the panel 1.

Thus, the proposed technical solution for the construction of the hinged kinetic facade, which contains movable panels, allows you to create a multifunctional, not expensive to manufacture and material costs, with easy and quick installation, reliable and simple design of the hinged facade with kinetic panels, which when exposed over the entire area of the facade, a wave-like wind load with a variable-pressure head provides multiple wave-like vibrations of panels with different amplitudes in two planes s on the entire surface of the facade, which creates dynamic facade with respective reflective effects of the panels fluctuations.

Claims (4)

1. Kinetic facade, consisting of panels made of sheet material, arranged in rows and mounted on traverses mounted on a frame metal structure, characterized in that each panel is installed with a gap around the perimeter of the panel relative to adjacent panels with the ability to make alternating oscillatory movements with a limited amplitude vibrations with respect to the horizontal axis passing through two panel openings made along one of the sides of the panel for hanging the panel on spacers ulki mounted on the fastening elements and with a limited amplitude oscillation about a vertical axis passing through the vertical axis of symmetry of the panel, while on the fastening elements mounted at the ends of the spacer stops and spacer sleeves arranged between the stops and traverses. 2. The facade according to claim 1, characterized in that the dimensions of the panel opening are larger than the diameter of the spacer sleeve. 3. The facade according to claim 1, characterized in that the length of the spacer sleeve is greater than the thickness of the panel. 4. The facade according to claim 1, characterized in that the length of the spacer sleeve is directly proportional to the dimensions and amplitude of the panel oscillation.

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