RU2673835C2 - Distance fastening for fastening suspension of facade cover on building wall - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to a distance fastener for fastening a mounted suspension for tiles of a facade covering on a building wall. Technical result is achieved by the fact that the distant fastener for fastening the mounted suspension of a facade covering of a building comprises first and second substantially flat elongated shelf, the first shelf having a first length and a first width, and a second shelf has a second length and a second width, and are arranged relative to each other to form an elongated thin plate structure having an L-shaped section, characterised in that the first shelf has a length which is substantially equal to the length of the second shelf, and the first shelf and the second shelf, respectively, are partially bent, substantially perpendicular to their plane so that both shelves, after being bent, have substantially the same length and are bent together to form a two-layer support plate to install the distance fastener to the wall, each layer being part of the first and second shelves, respectively.

EFFECT: technical result is to provide a distance fastener, which includes improvements in relation to the prior art, taking into account the service life, maintenance and price.

13 cl, 9 dwg

Description

The invention relates to a spacer mount for attaching a facade coating suspension, in particular a spacer mount that is part of a facade coating system, the spacer mounting being adapted to be attached to a building wall for attaching a facade coating suspension, for example, facade tiles, or facade stones to wall, especially stones of the type, which includes horizontally elongated facade tiles made of stone material. In particular, a spacer mount is also provided to support or to be part of the supporting structure for mounting the suspension of the facade coating on the wall, where the facade coating is suspended suspended at a certain distance from the wall. Many distance mountings are provided to support the facade coating, and their number varies depending on the type and, in particular, the weight of the facade coating, while a heavier facade coating requires more distance mountings than a lighter one.

Such facade coatings and facade coating systems are known from, for example, EP 1027507 B1 and EP 0556264 B1.

Typical façade tiles or façade stones that are part of this disclosure are rectangular in shape and usually have a greater width than height. As a rule, the sizes of stones are 600 * 100 mm, but there is also a demand for larger stones, which is why stones with double height, that is, sizes of 600 * 200 mm, have become available. Tiles or stones are installed in such a way that the facade is ventilated, since tiles or stones are installed at a distance from the wall, for example, 250 mm by means of spacers. This distance provides a ventilated space on the facade, but may also contain insulating material, for example, 200 mm of insulating material, such as glass wool, and 50 mm of free ventilated space into which air can enter for ventilation.

The weight of the stones requires that, when they are installed, they are well secured to the wall, and the supporting structure, including spacers, be strong enough to suspend facade tiles or stones, while the facade can have a weight of 50 kg / m ² or even more.

Due to the weight of the façade tiles or façade stones, the supporting structure, in particular the distance fastener, which may encounter a rather large bending torque, must have considerable strength, in particular, the section of modules to support the weight of the facade coating and part of the supporting structure attached to spacing, while the latter is attached to the wall of the building, also for a long period of time, usually tens of years, without causing problems caused by the movement of tiles or stones, to to generally hang down due to the heavy weight, which can cause problems such as water leakage, falling stones or tiles, etc. Also, other types of facade coatings, such as steel sheet facades, require good fixing, even if they are usually lighter than stone facades, for example, to control movements caused by cold, heat, water and wind.

Also, easy and quick maintenance of the supporting structure, including the distance mount, is a desirable feature when installing the facade, i.e. it is often required that the distance mount be easy to mount on the wall for both professionals and non-professionals, and not heavy, but still have considerable strength.

The invention provides a distance mount, which includes improvements in relation to the prior art, taking into account the service life, maintenance and price.

SUMMARY OF THE INVENTION

The invention relates to a spacer mount for mounting a mounted suspension for facade tiles on a building wall. The spacer mount comprises a first and second substantially flat elongated shelf, wherein the first shelf has a first length and a first width, and the second shelf has a second length and a second width, and are spaced to each other to form an elongated thin plate structure having a section L -shaped. The first shelf has a length that is essentially equal to the length of the second shelf, and the first shelf and the second shelf, respectively, are partially bent, essentially perpendicular to their plane, so that both shelves after bending have essentially the same length, and folded together provide a two-layer supporting mounting plate for fastening the distance mount to the wall.

The spacer mount is typically made of a thin plate, such as sheet steel, 0.5-1.5 mm thick. As used herein, the term “thin plate” means a thickness between 0.5-3 mm, preferably 0.5-1.5 mm.

By means of the distance fastening according to the invention, the object is achieved in that the mounted suspension for the facade coating and the components of the facade system contained therein prevent from movement, at least to the extent that the facade coating is damaged. The distance mount according to the invention is strong because of the two-layer mounting plate securing the distance mount to the wall and the strong L-shaped section in the part of the distance mount extending from the wall. The distance mount is also cheap to manufacture and easy to handle compared to the currently known state of the art of distance mount due to the thin plate, which is cheap, and simplicity and ease of handling (e.g., due to its low weight) and processing ( ease of drilling and cutting using hand tools) compared with the known distance mounts, which, as a rule, should be thicker to ensure the same strength. For this reason, they will be more expensive (more material is required), heavier (more difficult to handle) and thicker (more difficult to handle using hand tools such as a drilling machine, sheet metal shears, etc.).

Since the distance mount is made of a thin plate, it can be machined, for example, by cutting with a hand cutting tool, such as sheet metal shears. It is also easy to attach other supporting means to it, such as cross members, mounting profiles, etc., since it is easy to use conventional fastening means, such as screws, rivets, or the like, suitable for thin sheet metal.

Other advantages of the present invention will be apparent from the detailed description and from the dependent claims.

Brief Description of the Drawings

The invention is described below based on specific embodiments with reference to the accompanying drawings, in which:

FIG. 1a is a perspective view of a distance mount according to one embodiment of the invention;

FIG. 1b is a simplified perspective view of a distance mount according to an alternative embodiment of the invention, where the shelves have the same length but different widths;

FIG. 1c is a simplified perspective view of a distance mount according to yet another alternative embodiment of the invention, where both shelves have the same length and width;

FIG. 2a is a side view of the front side of the distance mount shown in FIG. 1, with a mounting plate for mounting on the wall to the right;

FIG. 2b is a rear view of the spacer mounting plate of FIG. 1a and 1c;

FIG. 2c is a side view of the rear side of the distance mount shown in FIGS. 1a and 1c;

FIG. 3 represents the original sheet metal before bending to form the spacer mount of FIG. 1a;

FIG. 4 is a vertical side sectional view of the spacer mount of FIG. 1a, 1b or 1c mounted to the wall of the building; and

FIG. 5 is a perspective view of the spacer mount of FIG. 1a mounted on the cross member and mounting profile with facade stones located on it.

Detailed Description of Embodiments Presented

The following detailed description describes an embodiment of a distance mount according to the invention, configured to be part of an installation system or supporting structure configured to carry facade tiles or stones, as well as a facade coating of sheet metal or other suitable material such as wood material. For the facade coating, an appropriate number of distance fasteners is used, for example, depending on the size and weight of the facade, installed according to the instructions.

The invention relates to a spacer mount, which is shown in the drawings as a spacer mount 1 for attaching a mounted suspension for stones of a facade coating to a building wall. The spacer mount 1 comprises a first 2 and a second 3, essentially flat elongated support or shelf, typically made of corrosion-protected sheet metal having a thickness t from 0.5 to 1.5 mm. The first shelf 2 shown in the drawing in this document has a first length L1 extending in the horizontal direction and the first width W1 presented in this document extending in the vertical direction, and the second shelf has a second length L1 presented in this document extending in the horizontal direction, and a second width W2, here also continuing in the horizontal direction. The shelves 2 and 3 are located with each other, in particular, bent from the same sheet metal to form an elongated thin plate structure having an L-shaped section T. The first length L1 is essentially equal to the second length L2, and the first shelf 2 and the second shelf 3, respectively, in parts 2a, 3a, are bent essentially perpendicular to their plane so that both shelves 2, 3 after bending have substantially the same length and bent together form a two-layer supporting mounting plate 4 for I fasten general fastening 1 to the wall. The first shelf 2 is curved inwardly at approximately the first angle α ₁ 90 ° to its plane, and the second shelf 3 is curved downward approximately 90 ° at the second angle α ₂ to its plane (see Fig. 2a). Thus, a two-layer mounting plate 4 is provided for attaching a distance mount to a wall (not shown in this drawing) of a building (not shown in this drawing) having a double thickness t ₂ = 2 * t ₁ , which has improved strength compared to a single-layer mounting stove acting as a reinforcing and supporting gasket. To further increase the strength, the mounting plate 4 can be riveted or even welded in one or more places (not shown). In the embodiment shown in this drawing, the mounting plate 4 is prepared with fixing means 5, in this document this hole, usually having a diameter of 8-10 mm, for receiving fixing means, such as a screw (not shown), which may be screwed into the wall of the building. Also, the hole 5 and the fastening means provide additional strength for the distance fastening 1 after installation. The hole 5 can be provided in any suitable place, as a rule, offset to another shelf to improve strength. Typically, the hole can be located approximately 25-45 mm from the inner corner 3b of the shelves (see Fig. 2b).

To further increase strength, one or both of the shelves 2, 3 may be provided with additional reinforcements, such as grooves, recesses, or the like.

FIG. 1b and 1c, respectively, represent alternative widths W1, W2 of shelves 2, 3, for example, a first width W1 of approximately 100 mm, a second width of W2 approximately 70 mm; or a first width W1 of approximately 80 mm, a second width of W2 approximately 70 mm. Both shelves 2, 3 can also have the same width, for example, 80 mm, i.e. W1 = W2, as shown in FIG. 1s

Now, with reference to FIG. 3, the original sheet metal 1 ′ is shown prior to bending to form the distance mount 1. The bending lines are indicated by dashed lines and are indicated by “bending lines”. An incision is also presented and marked “cut”. A typical length L1, L2 of the starting sheet metal 1 ′ is approximately 100 + 150 mm = 250 mm, and a typical width W1 + W2 is approximately 100 + 50 mm = 150 mm. The sheet metal is made of 0.5-3.0 mm, preferably 1.5 mm Aluzink sheet metal in accordance with AZ 185 DIN (Deutsche Industrie Norm) 10142, 10147 or any other suitable corrosion-resistant sheet metal or composite material.

FIG. 4 represents the distance mount 1 of FIG. 1a mounted to the wall 20 of building 22. The fastener 21, as used herein, is screwed into the wall 20, securing the distance mount by a screw passing through the hole 5 and, thus, the mounting plate 4 obtained from both shelves 2 and 3.

Turning now to FIG. 5, representing the spacer mount 1 of FIG. 4 mounted on the wall 20 of building 22 and mounted on the cross member 24 by means of fastening means, such as screws 24a, securing the cross member 24 on the upper side of the distance fastening 1, in this document, the second shelf 3 of the distance fastening 1. Stones 23 are attached to the cross member 24 coverings. Each stone 23 of the facade coating has a rectangular front side 25, which is configured to be facing away from the building, and is a visible part of the facade of the building. The back side 26 of the stone 23 has a downwardly supporting means (not shown) for hanging the stone, and on the front side of the stone there is an allowance (not shown) and a downward-facing tongue (not shown). The facade coating stones 23 are arranged to be installed one above the other on the wall of the building 22 with vertically adjoining stones overlapping each other with their upper and lower edges so that the tongue of each stone continues into the allowance for the lower adjoining stones. Such stones are known per se and therefore are not described in detail here. The invention is in no way limited to facade stones, but also includes other types of facades covering a material, such as facade tiles or other sheet materials, such as large facade boards, as well as sheet metal (plates), as well as for internal use . In addition, the supporting structure, in addition to the (non) spacer mount 1 according to the invention, is known and therefore will not be described in more detail.

The above invention has been described with reference to presented and not presented embodiments. These embodiments are, however, non-limiting of the invention, which instead is limited only by the attached claims.

Claims (13)

1. A spacer mount (1) for securing a mounted suspension of a building facade, comprising a first (2) and a second (3) substantially flat elongated shelf, the first shelf (2) having a first length (L1) and a first width (W1 ), and the second shelf has a second length (L2) and a second width (W2), and are arranged to each other to form an elongated thin plate structure having an L-shaped section (4), characterized in that the first shelf (2) has length (L1), which is essentially equal to the length (L2) of the second shelf (3), while the first shelf (2) and second the second shelf (3), respectively, partially (2a, 3a) are bent essentially perpendicular to their plane so that both shelves (2, 3) after bending have essentially the same length and are bent together to form a two-layer supporting a mounting plate (4) for installing the distance mount (1) to the wall, with each layer being part of the first and second shelves, respectively. 2. A distance mount according to claim 1, characterized in that the second shelf (3) is also bent along its length (L1) in the outer part (3b). 3. A spacer mount according to claim 2, characterized in that the second shelf (3) is bent 30-45 degrees to its plane in the outer part. 4. Remote mount according to any one of the preceding paragraphs, characterized in that the first width (W1) is wider than the second width (W2). 5. Remote mount according to any one of claims 1 to 3, characterized in that the first width (W1) is essentially equal to the second width (W2). 6. Remote mount according to claim 1, characterized in that the mounting plate (4) is provided with fixing means (5). 7. The spacer mount according to claim 6, characterized in that the fastening means (5) is an opening for receiving the fastening means. 8. The spacer mount according to claim 7, characterized in that the mounting means (5) is located in the outer upper part of the mounting plate (4). 9. The distance mount according to claim 1, characterized in that the distance mount (1) is made integral. 10. The spacer mount according to claim 9, characterized in that the spacer mount (1) is made of sheet metal with a thickness of up to 1.5 mm. 11. The spacer mount according to claim 9, characterized in that the spacer mount (1) is made of a multilayer material. 12. Spacer mount according to claim 10, characterized in that the spacer mount (1) is made of sheet metal protected against corrosion to 1.5 mm. 13. The distance mount according to claim 12, characterized in that the distance mount (1) is made of galvanized aluminum sheet metal.

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