RU2616951C1 - Device for concealed fixing of facing panel in mounted ventilated facade - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: device for fixing a facing panel in a mounted ventilated facade comprising the removable element in the form of a cleat and the supporting element made in the form of a bar and comprising the base designed for fixing to the surface to be faced, the supporting element is provided with at least one L-shaped hook, and the removable element is made S-shaped and with the possibility of fixing one its part in the longitudinal groove on the top or the bottom butt portion of the facing panel and the other part - on the supporting element hook. Fixing the removable element in the facing panel groove is made rigid, and fixing on the supporting element hook is made sliding.

EFFECT: improving the operational characteristics and simplifying the design.

4 cl, 5 dwg

Description

The invention relates to the field of industrial and civil engineering, and in particular to structures for cladding ventilated facades (NVF) of buildings and structures, and can be used to fasten facing panels made of ceramic granite or natural stone.

The hinged ventilated facade is a multilayer structure that is attached to the wall of a building or structure. The facing panel is one of the components of illegal armed groups. Fastening of facing panels can be done in a visible or invisible (hidden) way. For the cladding of the frame, special fasteners are used, called clamps, which are respectively for visible or hidden fastening of the cladding.

Installing the cladding in an invisible way is much more complicated and more expensive than visible fastening. In order to make the installation of the cladding precisely with an invisible fastening, end cuts are made on the horizontally oriented edges of each panel, into which fasteners (clamps) of a hidden type are inserted. It is precisely because of this that the panel rests on the frame, the fastening elements do not protrude onto the front surface of the facing panels and therefore become invisible (“Ventilation Pros”, URL: http://ventilationpro.ru/estestvennaya-ventilyatsiya/ventilirovannyjj-fasad-iz-keramogranita- osobennosti-izgotovleniya-i-ustanovki.html).

A device is known for fastening hinged ceramic granite cladding panels on building facades in a hidden way, including upper and lower grips, with the upper grip configured to place a part of it in a longitudinal cut on the upper end of the facing panel, and the lower grip made to accommodate it parts in a longitudinal cut on the lower part of the facing panel, characterized in that the upper and lower grips are rigidly interconnected by a strip with the formation of a modular element to of heating, the bar on the upper grip side is equipped with a bracket, a part of which is intended for fastening to the guide of the hinged ventilated facade, is bent, and on the side of the lower grip the bar is equipped with a hook made with the possibility of sliding connection with the bend of the bracket of the lower bar (patent RU 2403355, E04F 13/00; 05/07/2009).

A disadvantage of the described device for mounting hinged ceramic granite cladding panels on building facades in a hidden way is the difficulty of dismantling damaged cladding panels and installing new cladding panels during facade repair. In this device, the upper grip bracket is rigidly fixed to the guide of the hinged ventilated facade with a rivet. Thus, each facing panel is rigidly bonded to the guides; to remove it, it is necessary to disconnect the bracket for the upper grip bracket from the guide, which requires additional time and labor. Moreover, the upper grip bracket of one cladding panel is a support for the lower grip of the cladding panel located above. It turns out that if it is necessary to replace any one panel, the dismantling of a number of panels is required, since they are all interconnected. In other words, in the proposed technical solution, the replacement of one panel is not possible due to the design features of the grippers, for such a replacement, the dismantling of several facing plates is required, which reduces the usability of this device.

It should also be noted that in the indicated device for fastening hinged ceramic granite cladding panels to building facades in a hidden way, the modular fastening elements of the panels are quite metal-intensive, and the upper and lower grips have different configurations (shapes), which increases the range of parts of the device, and therefore, increases the cost manufacturing process of the entire device.

Another significant drawback of this solution is that atmospheric water can accumulate in the end cuts of the cladding panel, which, when frozen, can cause chipping of the panel edges.

Known clammer for attaching cladding plates, containing a bearing element having a first shelf made with the possibility of fixing on the surface to be cladding, and perpendicular to it - the second support shelf, on which an emphasis is made to fix the cladding plate, and a removable element having a L-shaped profile, the first shelf of which is made with the possibility of fastening to the supporting element, and the second shelf is designed to fix the facing plate, characterized in that the supporting and removable elements are made in the form of a plate ok, at the same time, at least two grooves are formed on the outer side of the supporting shelf of the bearing element for receiving the first shelf of the removable element in them, the clamp is provided with a locking element, which is made in the form of a compression spring fixed on the first shelf of the bearing element, between the said elements grooves made a hole or a pair of holes for accommodating the ends of the said spring, and at least one protrusion lying in the plane of the first shelf and having at least re, one groove for receiving the end of said spring therein when the removable element is inserted in the carrier element, and at least two thickened sections are made on the first shelf of the removable element for placing them in said grooves of the support shelf of the carrier element with the possibility of creating a gap between the support the shelf of the bearing element and the first shelf of the removable element, and the slot is located opposite the protrusion of the removable element and is designed to install in it an element for dismantling the removable element from the fixing about the element (patent RU 2327017, E04F 13/00, 11/14/2006). The specified clamp for fastening of facing plates adopted as a prototype.

The main disadvantage of the prototype is also the complexity of the installation and dismantling of tiles. To fix the upper edge of each facing plate, this technical solution proposes to fix using fixing elements made in the form of compression springs that clamp the protrusion of the removable element. This not only complicates the entire structure as a whole due to the presence of additional fixing elements, but also makes the installation and dismantling process longer, since it is necessary to fix each facing panel in at least two places in this way.

In addition, it should be noted that when replacing the cladding panel, it is removed from the support of the supporting element, and during this process the groove of the cladding panel may be damaged. When installing a new panel, the specified groove is also prone to breakage. This can happen due to the fact that the emphasis of the supporting element when installing or removing the cladding panel can with some force exert an effect on the inner surface of the groove. In other words, with an uneven arrangement of the stop in the groove, the edge of the stop will act on the inner surface of the side walls of the groove, exerting pressure on them and thereby destroying them. This can lead to a quick failure of the facing panels, and therefore to the need for their frequent replacement, which in turn leads to a decrease in the operational characteristics of the prototype.

It can also be noted that in the prototype the supporting element and the removable element have a different configuration (shape), and also additional fixing elements are included in the product structure, which increases the range of parts of the device, and therefore, makes the manufacturing process of the entire device more expensive.

The problem to which the claimed invention is directed, is the creation of a fastening device for the cladding panel in a hinged ventilated facade, which allows to achieve the following technical results.

Technical results achieved using the claimed invention:

- improvement of operational characteristics;

- simplification of the design.

Technical results are achieved due to the fact that in the fastening device of the facing panel in a hinged ventilated facade containing a removable element in the form of a clammer and a supporting element made in the form of a bar and containing a base intended for fixing on the surface to be lined, the supporting element is provided with at least one L-shaped hook, and the removable element is made S-shaped and with the possibility of fixing one part of it in a longitudinal groove on the upper or lower end part of the facing panel and the other part thereof on the hook of the supporting element, wherein the fastening of the removable element in the groove of the facing panel is rigid, and the fastening on the hook of the bearing element is sliding.

The supporting element may be provided with two hooks, the first hook attached to the upper edge of the base, and the second hook attached to the lower edge of the base.

Each hook can be equipped with a stop.

The fastening of a part of the supporting element in a longitudinal groove on the upper or lower end part of the facing panel can be done with glue.

The inventive device contains a supporting element and a removable element. These are the two main components of the claimed technical solution.

The supporting element is designed for mounting on the surface to be coated. In the future, after mounting on the surface to be coated, the supporting element acts as a bracket for the tiles.

For ease of installation and further operation of the inventive device, the supporting element is made in the form of a horizontal bar. This form allows you to place the facing panels on the supporting element in the desired order without additional measurements and markings. In other words, due to the fact that the supporting element extends along the entire surface to be coated, rather than being located pointwise, the cover panel can be placed anywhere on the surface to be coated. It is also easier and more convenient to move already installed facing plates along such a supporting element.

The supporting element consists of a base and at least one L-shaped hook.

The base is intended for fixing the bearing element to the surface to be coated. It can be a metal bar with holes for fastening with rivets, bolts, screws, etc. The use of precisely a metal strip seems appropriate, since the metal has the necessary strength and durability. The implementation of the base in the form of a rectangular bar simplifies the manufacturing process of the supporting element, since this form is the simplest and cheapest to manufacture.

L-shaped hook is designed for fastening removable elements, and hence the facing panels. It can be made monolithic or welded, for example, from two metal shelves welded to each other. The supporting element may contain one or several L-shaped hooks, in particular two symmetrically oriented L-shaped hooks. The presence of one L-shaped hook is necessary when attaching the top or bottom row of tiles. In this case, the indicated L-shaped hook is located respectively on the lower or upper end of the base strip. A hook placed on the lower end of the base strip will support the upper removable elements of the uppermost row of facing panels. Since there will no longer be a higher facing, the presence of a hook on the upper end of the base is not necessary. The same thing happens with the lining of the lower row. To fix the removable elements of the lower row of facing plates, a base with a hook on its upper end is used. Attaching an additional hook to the lower end of the base is not necessary, since there will be no lower cladding. The presence of two L-shaped hooks is necessary for fastening all the intermediate rows of facing plates. If there are two L-shaped hooks, one of them should be located on the upper end of the base strip, and the second on the lower end. However, it should be noted that in spite of the advisability of having only one hook, the fastening of the upper and lower rows can be carried out with the help of a bearing element containing two hooks. In this case, the second hook will simply be inoperative. This embodiment of the supporting element simplifies the installation and further operation of the claimed technical solution, since the supporting elements are made unified, which also reduces the number of elements in the device and makes it simpler and more universal.

It should also be noted that the bearing elements with one L-shaped hook can be made of a bearing element with two L-shaped hooks by means of its longitudinal cutting. This embodiment of the load-bearing elements simplifies and reduces the cost of manufacturing the claimed technical solution, since all load-bearing elements are made of one unified workpiece.

Fastening the L-shaped hook to the base can be carried out in various ways. Firstly, the hook can be made in the form of a single monolithic part with a base. In other words, the hook and the base can be made of one metal plate in the form of a single part. In particular, the blank of the supporting element with L-shaped hooks can be made of steel strip by bending or of aluminum by extrusion. This method has certain advantages, in particular, it is more durable due to the absence of any compounds and more aesthetically attractive. Secondly, the hook can be attached to the base by welding.

For a stronger attachment of the removable elements, each L-shaped hook is provided with a stop, for example, in the form of the letter U or in the form of the letter L, which is designed to give the construction additional reliability by eliminating the play of the hook in the removable element. The emphasis can be made in different shapes depending on the size and weight of the tiles. So, for example, the emphasis may be a L-shaped element, which is mounted on the hook of the bearing element. The emphasis may also be a figured part connected to the hook of the supporting element. The main condition is that the emphasis contributes to the strong fixation of the removable element on the hook. It is advisable to emphasize in such a way that it is a metal hook, one end of which is fixed to the end of the smaller flange of the hook, and the second, longer end is parallel to the larger flange of the hook. This arrangement of the hook allows you to most rigidly fix the removable element on the hook. It is advisable to make an emphasis of metal, since it is the most durable and wear-resistant material.

Due to the fact that the load-bearing elements are made uniform, the claimed device can be universal and can be used for fastening various facing panels, which makes installation and operation of a hinged ventilated facade more convenient. Due to the simple design of the supporting elements, which does not require complex technology, the simplification of the design of the entire device as a whole is achieved, as well as the cost of its production is reduced.

The removable element is designed to fix the facing panel on the supporting element. S-shape allows you to quickly and easily fix any cladding panel on the supporting element. So, one end of the removable element is intended for mounting on the facing panel. The end of the removable element is placed in a groove formed by cutting in the end of the facing panel. Such fastening of the removable element will make the fastening of the facing panel invisible, but at the same time it will reliably hold it in the right place. It should be noted that when fixing the removable element to the facing panel, it is necessary to ensure its strong fixation. This can be achieved by making a groove in the end of the facing panel strictly in accordance with the dimensions of the removable element, which will allow you to rigidly fix one end of the removable element in this groove. Additional fastening of the removable element of the cladding panel can be carried out using glue, such as epoxy. In this case, glue can be applied to the entire surface of the removable element in contact with the facing panel, and it can also fill a longitudinal groove on the upper and lower end of the panel. Such an additional fixation eliminates any possibility of the removable element falling out of the groove of the facing panel, which improves not only ease of use, but also provides additional security. The use of epoxy glue is due to the need to provide hidden joints during installation.

The second end of the removable element is intended for mounting on a supporting element, namely on the L-shaped hook. The implementation of such a sliding mount allows you to increase the speed of installation and dismantling of the hinged ventilated facade, as well as to improve the usability of the claimed technical solution. Due to its shape, the removable element hangs as it were on the hook of the supporting element, and the loss of the removable element from the hook is excluded due to the design of the hooks. Such an installation process requires a small amount of time and labor, since no additional fastening of the removable element to the bearing element is required, the design of the bearing element and the design of the removable element provide their reliable coupling, and additional strength gives emphasis.

A particular advantage of the claimed technical solution lies in the simplicity of replacing damaged tiles. Since fastening of each facing plate to the supporting element is carried out only by means of a sliding hook, replacing any facing plate does not require significant time and labor costs - you only need to remove the facing plate from the L-shaped hooks of the bearing element and reposition it to a new place. In addition, due to the design features of the claimed device, when replacing one facing plate, it is not necessary to dismantle all facing plates that are nearby, since each facing plate is individually attached to the supporting element.

To replace a damaged cladding panel, a new panel is being prepared, in which the lower removable elements are glued in advance, and the upper ones are glued during its installation. After removing the remnants of the old damaged panel, the upper removable elements of the new panel are installed in the right place on the L-shaped hooks of the bearing profile. Then, the surface of the upper removable elements in contact with the facing plate is lubricated with epoxy glue, the grooves on the upper end of the new facing panel are filled with glue, after which the new facing panel is engaged with the lower removable elements by the hooks of the underlying bearing profile and pressed against the upper removable elements, lubricated with glue. Then, with a sharp object, such as a screwdriver, the upper removable elements are pressed against the upper end of the facing panel so that their hooks engage in the grooves on the upper end of the facing panel. During the hardening of the glue, the upper removable elements can be additionally pressed to the end of the facing panel with wooden wedges, which are then removed.

The design of removable elements, proposed in the claimed technical solution, is universal and to a large extent allows to reduce the range of components of the system required for facing hinged ventilated facades, and therefore, reduce the cost of manufacture. The proposed S-shape is suitable for fixing both the upper and lower ends of each facing panel. It is advisable to use at least four removable elements for one facing panel - two removable elements are fixed on the upper end of the facing panel, and two on the lower. In this case, the removable elements that are mounted on the lower end of the cladding panel are engaged with the hook of the supporting element, hang on it and fix the lower part of the cladding panel. Removable elements that are mounted on the upper end of the cladding panel also mesh with the hook of the supporting element and support the upper part of the cladding panel. Thus, in the claimed technical solution, the main and supporting are removable elements that are mounted on the lower end of the cladding panel, and the removable elements mounted on the upper end of the cladding panel are only supportive, the entire weight of the cladding panel falls on the lower removable elements. This allows you to increase the convenience and safety during operation. In similar devices, where both the lower and upper removable elements are load-bearing, in case of fire from the effects of fire and high temperature after the glue burns out, which the removable elements are glued to the facing plate, the facing plate may shift down and its groove will disengage from the protrusion of the upper removable elements , after which it will fall out of the facade, which inevitably leads to a significant deterioration in the fire hazard class of the entire device of the hinged ventilated facade and significantly limits its scope. In the inventive device, the upper removable elements are supportive, and not bearing, and when the adhesive layer is destroyed, displacement and loss of the cladding plate does not occur, which is confirmed by the results of fire tests of the sample of the claimed device for attaching the cladding panel in a hinged ventilated facade, conducted by the Laboratory for Fire Research, Certification Tests and expertise in construction TsNIISK them VA Kucherenko (Test report No. 10F-15 of 11/25/2015), the results of which give an expert opinion relating the hinged facade system with the claimed device to the fire hazard class K0 according to GOST31251 (the safest), which can significantly expand its scope, as well as make the process of its operation more convenient and safe.

The total number of removable elements on one cladding panel may be different and depends on the weight and dimensions of this cladding panel.

In general, it can be noted that the combination of essential features of the proposed solution allows for quick installation and dismantling of cladding panels, convenient and safe operation, and also allows to simplify the entire structure due to universal and uniform elements for reliable fastening of cladding panels of any type. Moreover, the design of the supporting elements and removable elements allows for reliable and safe fixation of the cladding panels on the cladding surface.

The invention is illustrated by drawings, where:

In FIG. 1 shows the inventive device.

In FIG. 2 shows a horizontal section of the device.

In FIG. 3 shows the attachment of removable elements to the facing panel.

In FIG. 4 shows a removable member.

In FIG. 5 shows the bearing element, (a) universal, (b) for fastening the upper row of the facing tile; (c) - for fixing the bottom row of tiles.

According to the drawings, the claimed device for fastening the facing panel in a hinged ventilated facade contains metal supporting elements 1, mounted on the surface to be coated with rivets or threaded joints, and metal removable elements 2, mounted on the facing panels 3.

Each bearing element 1 is made in the form of a bar and contains a base 4, with the help of which the bearing element 1 is attached to the facing surface.

The supporting element also contains L-shaped hooks 5, which are made of one sheet of metal with a base 4, that is, in the form of a single part. The number of hooks 5 may be different. For fastening the lower row of cladding panels 3, the supporting element 1 can contain only one hook 5 made on the upper edge of the base 4. For fastening the upper row of cladding panels 3, the bearing element 1 can contain only one hook 5 made on the lower edge of the base 4. For fastening intermediate cladding panels 3, the supporting element may contain two hooks 5, one of which is fixed on the lower edge of the base 4 and is designed to secure the upper end of the underlying cladding panel, and the second is fixed on the upper edge of the base 4 and is intended for fastening the lower end of the overlying facing panel.

Each L-shaped hook 5 is equipped with a stop 6 designed for more rigid fixation of the removable elements 2 on the hooks 5 of the load-bearing elements 1. The stop 6 is made of the same sheet of metal as the hook 5, that is, they are made in the form of one monolithic part, which gives the whole structure additional strength due to the absence of seams. The external form of the stop 6 - in the form of a hook - provides a strong backlash-free fixation of the removable elements 2 and additionally ease of use, namely, the installation of the removable element 2 on a rounded element that does not have sharp corners is simpler, more convenient and safe.

The removable elements 2 are made in an S-shape, which allows you to quickly and easily fix the cladding panel 3 on the hooks 5 of the load-bearing elements 1. One part of the removable element 2 is designed for fastening on the cladding panel 3. To perform flush mounting, the grooves for fastening removable elements 2 - two grooves on the upper end and two grooves on the lower end. The fastening of the removable elements 2 in the grooves of the facing panel is made using epoxy glue 7. This additional fixation improves the reliability of fastening. Moreover, it should be noted that for fixing the upper and lower ends of the facing panel 3, the same removable elements 2 are used, which simplifies the design and makes it more universal. Filling with epoxy glue 7 grooves on the ends of the facing panels eliminates further accumulation of atmospheric water in these grooves and chipping of the edges of the facing panel in these places when water freezes, which is not excluded in other similar systems of hidden fastening of facing panels using end cuts.

The claimed device operates as follows.

On the surface prepared for facing (vertical metal frame guides of the ventilated facade), the carrier 1 is fastened to install the first row of facing panels. Supporting elements can be fastened with rivets, screws, self-tapping screws, etc. In the above example, the supporting elements 1 are fixed on the surface to be coated with rivets.

The fastening of the removable elements 2 on the facing panel 3 is made using epoxy glue 7.

To install the cladding panels 3 on a hinged ventilated facade, the lower removable elements 2 of each cladding panel 3 are hooked onto the L-shaped hooks 5 of the underlying load-bearing element 1. A hook 5 is placed in the removable elements 2 mounted on the upper end of the cladding panels 3 located at the bottom overlying supporting element 1, leaving a small vertical gap to compensate for temperature deformations (the size of the gap is indicated in the draft ventilated facade), after which the overlying supporting element secures I have to surface to be covered rivets. In this case, the stops 6 provide reliable backlash-free fixing of the removable elements 2.

If it is necessary to replace some of the cladding panels, it is only necessary to remove the required cladding panels by removing the removable elements 2 from the hooks 5 of the supporting elements. The dismantling of nearby cladding panels is not required. Such an operation can be performed by one person, which greatly simplifies the operation of the inventive device, and therefore, improves its operational characteristics.

It should also be noted that the presence of removable elements significantly extends the life of the cladding panels. In the absence of such removable elements, such as, for example, in the prototype, the installation of the facing panel is carried out directly in the grooves made at its ends. This option of mounting ventilated facades leads to the fact that the internal walls of the grooves are constantly exposed to mechanical effects of fastening elements caused by thermal deformations, which can lead to the destruction of the groove walls - chips, cracks, etc. - and, therefore, to the gradual destruction of the facing panel itself. In the claimed technical solution, removable elements are fixed in the grooves of the facing panel, which, due to the sliding fit on the supporting elements and the vertical clearance, protect the facing panel from the negative effects of temperature deformations. Thus, the facing panel practically does not contact with the elements of the frame and can last longer, which also improves the operational characteristics of the claimed device.

The claimed technical solution eliminates the shortcomings existing today in such solutions, and allows for the production of devices for fastening cladding panels in hinged ventilated facades that can provide easy, quick and safe installation of cladding panels in a hidden way. In addition, the inventive device for mounting the cladding panel in a hinged ventilated facade is quite simple to manufacture and convenient to operate.

The fastening device for the cladding panel in the ventilated facade can be made in experimental or mass production.

Claims (4)

1. The fastening device of the cladding panel in a hinged ventilated facade, containing a removable element in the form of a clammer and a bearing element made in the form of a strap and containing a base designed to be fixed on the surface to be lined, characterized in that the bearing element is provided with at least one G- shaped hook, and the removable element is made S-shaped and with the possibility of fixing one part in a longitudinal groove on the upper or lower end part of the facing panel, and the other part on the hook n a supporting element, and the mounting of the removable element in the groove of the facing panel is rigid, and the mounting on the hook of the supporting element is sliding. 2. The device according to p. 1, characterized in that the supporting element is provided with two hooks, the first hook attached to the upper edge of the base, and the second hook attached to the lower edge of the base. 3. The device according to p. 1, characterized in that each hook is equipped with a stop. 4. The device according to p. 1, characterized in that the mounting part of the supporting element in a longitudinal groove on the upper or lower end part of the facing panel is made with glue.

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