RU202003U1 - CLADDING PANEL FOR VENTILATED BUILDING FACADE - Google Patents

Abstract

The present utility model relates to cladding panels of the external surface of a building with a ventilated facade, including the front and rear sides connected to each other, attached by fastening elements to the guides fixed on the external surface of the building, and can be used for facing various buildings and structures. According to the utility model, the front side is made in the form of a volumetric element with a curved surface, and the back side is made in the form of a monolithic slab of laminated material mounted on a frame, connected by fastening elements to the guides. The achieved technical result is the ability to clad the facades of buildings with a ventilated facade with decorative volumetric elements of various architecture and design.

Description

The technical field to which the utility model belongs.

The present utility model relates to cladding panels of the external surface of a building with a ventilated facade, including the front and rear sides, connected to each other, attached by fastening elements to the guides fixed to the external surface of the building and can be used for cladding various buildings and structures.

State of the art.

A cladding panel of a ventilated facade of a building is known, which includes a front side and a back side connected to fasteners to guides fixed on the outer surface, see patent RU 2470126, published in 2012)

This device is the closest in technical essence to the claimed utility model and is taken as a prototype for the proposed utility model.

The disadvantage of this device is that such panels cannot be used to clad the facades of buildings with a ventilated facade with decorative volumetric elements of various architecture and design.

Disclosure of the utility model.

Based on this observation, the present utility model mainly aims to propose a cladding panel of a ventilated facade of a building, including the front and rear sides connected to each other, attached by fastening elements to the guides fixed on the outer surface, allowing at least to smooth, the above disadvantage, namely, to provide the possibility of facing the facades of buildings with a ventilated facade with decorative volumetric elements of various architecture and design, which is the technical task of the present utility model.

To achieve this goal, the front side is made in the form of a volumetric element with a curved surface, and the back side is made in the form of a monolithic slab of laminated material mounted on a frame connected by fastening elements to the guides.

Thanks to such advantageous characteristics, it becomes possible to clad the surface of the building with volumetric slabs made of laminated material, and fix them by means of a frame to the guides fixed to the outer surface of the building.

There is a variant of the utility model, in which the frame is made of a perforated facade cassette. Thanks to this advantageous characteristic, it becomes possible to make a specific frame, namely from a perforated facade cassette. Such a frame is lightweight and highly durable.

There is a possible embodiment of the utility model, in which the frame is made in the form of a frame from interconnected aluminum or metal corners. Thanks to this advantageous characteristic, it becomes possible to make a specific frame, namely from interconnected aluminum or metal corners. Such a frame also has a low weight and high strength.

There is another possible embodiment of the utility model, in which the frame is made of a honeycomb cassette. Thanks to this advantageous characteristic, it becomes possible to make a specific frame, namely from a honeycomb cassette. Such a frame also has a low weight and high strength.

There is also a variant of the utility model, in which the frame is made of a corrugated cassette. Thanks to this advantageous characteristic, it becomes possible to make a specific frame, namely from a corrugated cassette. Such a frame also has a low weight and high strength.

In addition, there is such a variant of the utility model, in which a volumetric element with a curved surface is made of filled polyester resin. Thanks to this advantageous characteristic, it becomes possible to make a specific implementation of the volumetric element, namely from a filled polyester resin. Such a bulky element also has a low weight and high strength.

Finally, there is such an embodiment of the utility model, in which a monolithic plate of laminated material is made of a filled polyester resin. Thanks to this advantageous characteristic, it becomes possible to make a concrete slab, namely from a filled polyester resin. This monolithic slab is lightweight and highly durable.

The set of essential features of the proposed utility model is unknown from the prior art for devices of a similar purpose, which allows us to conclude that the criterion of "novelty" is met for the utility model.

Brief description of the drawings.

Other distinctive features and advantages of the utility model clearly follow from the description given below by way of illustration and not being limiting, with references to the accompanying drawings, in which:

- fig. 1 schematically depicts the installation of a cladding panel of a ventilated facade of a building on rails, according to a utility model,

- fig. 2 schematically depicts the device of the cladding panel of the ventilated facade of the building, according to the utility model,

- fig. 3 schematically depicts the device of the cladding panel of the ventilated facade of the building, in the variant of the frame in the form of a corrugated cassette, according to the utility model,

- fig. 4 schematically depicts the device of a cladding panel of a ventilated facade of a building, in the variant of a frame in the form of a perforated facade cassette, according to the utility model,

- fig. 5 schematically depicts the fastening of the cladding panel of the ventilated facade of the building, in the variant of the frame in the form of a perforated facade cassette, according to the utility model,

- fig. 6 schematically depicts the device of the cladding panel of the ventilated facade of the building, in the variant of the frame in the form of a hollow slab, according to the utility model,

- fig. 7 schematically depicts the fastening of the cladding panel of the ventilated facade of the building, in the variant of the frame in the form of a hollow slab, according to the utility model,

- fig. 8 schematically depicts the device of a cladding panel of a ventilated facade of a building, in the variant of a frame in the form of a honeycomb cassette, according to the utility model,

- fig. 9 schematically depicts the final cladding of a building wall made of volumetric panels, according to the utility model.

The figures indicate:

1 - front side of the facing panel;

2 - back side of the facing panel;

3 - fastening elements (conventionally not shown, these are ikli, rivets, and so on);

4 - guides of the ventilated facade;

5 - cladding panel frame;

6 - building wall;

7 - gasket.

The arrows indicate the direction in which the installation is made.

According to figures 1-9, the cladding panel of the ventilated facade of the building includes a front side 1 and a back side 2 connected by fastening elements 3 to guides 4 fixed to the outer surface of the building. The front side is made in the form of a volumetric element with a curved surface, and the back side is made in the form of a monolithic slab of a laminated material mounted on the frame 5, connected to the fastening elements 3 to the guides 4.

Optionally, the frame 5 can be made of a perforated facade cassette.

Optionally, the frame 5 can be made in the form of a frame made of aluminum or metal corners connected to each other.

Optionally, the frame 5 can be made of a honeycomb cassette.

Optionally, the frame 5 can be made of a corrugated cassette.

Optionally, the frame 5 can be made of a hollow slab.

Optionally, the volumetric element with a curved surface can be made of filled polyester resin.

Optionally, the monolithic laminate board can be made of filled polyester resin.

Implementation of the utility model.

The cladding panel of the ventilated facade of the building is manufactured in the following way.

The production of panels consists in the manufacture of a volumetric element with a curved surface - the 3D panel itself - and the base, that is, a monolithic slab of laminated material, which are fastened together.

For the production of a volumetric element with a curved surface (3D panel) made of fiberglass, a master mold is used. The production process consists of stages:

1. Preparation of the master mold: cleaning, reliable fixation of the mold, processing with a release agent.

2. Preparation of the molding composition: the components are added to the polyester resin according to the technological map, evacuated.

3. The casting mixture is poured into the master mold, vibrated, the temperature of the mixture and air is controlled, and the stages of polymerization are monitored.

4. Post-cure the panel.

5. The panel is machined.

Production of monolithic slab from laminated material and fiberglass sheets. The production process consists of stages:

1. Carry out the preparation of the formwork corresponding to the shape of the panel.

2. Prepare belt inserts for the formation of cavities (if necessary, their presence in the finished product.)

3. Prepare the composition: add components to the polyester resin according to the flow chart, evacuate.

4. Reinforcing material and binder are laid alternately.

5. Control the temperature of the workpiece and air, monitoring the stages of polymerization.

6. Post-cure the panel.

7. The panel is machined.

The process of gluing a volumetric element with a curved surface and a monolithic slab of laminated material:

Preparation of 3D panels and bases: cleaning and removing the paraffin film.

Preparation of the composition: the components are added to the polyester resin according to the technological map.

The composition is applied to the 3D panel and the base with an even layer.

The 3D panel and the base are pressed and fixed, smudges are removed.

3D panels on a monolithic slab.

A 3D panel made in the form of a three-dimensional pattern made of fiberglass is glued into a monolithic fiberglass plate.

Installation is carried out on a subsystem for ventilated facades.

The mount can be:

- visible (by means of blind rivets through the slab body).

- hidden (by means of clamps, ikli, agraphs, etc.)

Industrial applicability.

The proposed facing panel of the ventilated facade of the building can be carried out by a specialist in practice and, when implemented, ensures the implementation of the declared purpose. The possibility of implementation in practice follows from the fact that for each feature included in the formula of a utility model based on the description, a material equivalent is known, which allows us to conclude that the criterion "industrial applicability" for the utility model and the criterion "completeness of disclosure" for the utility model are met.

In accordance with the proposed solution, the applicant made a prototype of the cladding panel of the ventilated facade of the building. A variant of the frame was used from a perforated facade cassette, from interconnected aluminum or metal corners, from a honeycomb cassette, from a corrugated cassette and from a hollow plate.

Tests of variants of all these prototypes of the ventilated building facade cladding panel have shown that they provide the possibility of quick installation of the panel and its reliable fixation. All this, ultimately, ensures the achievement of the achieved technical result - the possibility of facing the facades of buildings with a ventilated facade with decorative volumetric elements of various architecture and design.

In addition, the achieved technical result: with these technical solutions, it is possible to execute a utility model (facade cassettes) instead of expensive natural facade materials (marble, granite, travertine), and also allows you to avoid large labor costs when installing a small-piece facade "Clinker, brick" (since such works are carried out by the piece of each element), and also to avoid the "seasonality" of the work (only at a positive temperature not lower than + 5 ° С).

Claims (8)

1. Facing panel of the ventilated facade of the building, including the front and back sides, connected to each other, attached by fastening elements to the guides fixed on the outer surface of the building, characterized in that the front side is made in the form of a volumetric element with a curved surface, and the back side is made in in the form of a monolithic slab made of laminated material, installed on the frame, attached by fastening elements to the guides. 2. A cladding panel according to claim 1, characterized in that the frame is made of a perforated facade cassette. 3. A cladding panel according to claim 1, characterized in that the frame is made in the form of a frame from interconnected aluminum or metal corners. 4. Cladding panel according to claim. 1, characterized in that the frame is made of a honeycomb cassette. 5. The facing panel according to claim 1, characterized in that the frame is made of a corrugated cassette. 6. A cladding panel according to claim 1, characterized in that the frame is made of a hollow slab. 7. A cladding panel according to claim 1, characterized in that the volumetric element with a curved surface is made of filled polyester resin. 8. A cladding panel according to claim 1, characterized in that the monolithic laminated board is made of filled polyester resin.

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