RU2769678C1 - Seam support for seam roof (versions) - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction, in particular to a seam support for a seam roof. Seam support comprises a post made in the form of a plate with a head in the form of a cylinder-shaped body placed on the free end of the plate. Arched concavity is made on at least one side of the cylinder-shaped body of the head. Post plate on the side of its end, opposite to the head, is made on at least part of its height on each side with a toothed comb. Base is made of two L-shaped parts, the horizontal part of each of which is attached to the roof, and on all walls of the vertical part there are toothed combs. Between the vertical parts of the base, located at a distance from each other, a post is installed, teeth of which engage with toothed combs of vertical parts and is clamped between them by means of bolt fastening passed through the post and vertical parts of the base. Between the bolt head and one vertical part of the base and between the nut and the other vertical part of the base, there are plates bearing on the side facing the vertically oriented parts of the base, the teeth mating the teeth of the toothed combs on these parts.

EFFECT: roof leveling.

4 cl, 6 dwg

Description

The invention relates to the field of seam roof construction, in particular to the design of seam supports (or also called clip supports), which are used as supports for metal roofing sheets connected by folding and, at the same time, as a mandrel element that forms on its head double fold - a seam for seaming the edges of sheets. In particular, we are talking about the design of standing seam-supports.

Seam roofing is considered one of the most reliable ways to cover a roof. It got its name due to a special method of joining metal sheets - folding. The seam that results from rolling the edges of the steel is called a seam. It provides a hermetic connection and no need for fastening with self-tapping screws through the surface of the sheet, which eliminates the possibility of moisture penetrating into the under-roof space through the fastening holes. For the manufacture of seam roofing, rolled metal is used (galvanized steel with a polymer coating, copper, aluminum, zinc-titanium), which is initially cut in the longitudinal direction. The material is then fed to a rolling machine, where the lower and upper seam locks are formed (on opposite edges of the sheet) and cross-cut to obtain products of the required dimensions. As a result of production, paintings are obtained - individual elements with edges prepared for joining.

Traditionally, seam roof manufacturing technology implies the need to build a high-quality "roofing pie". It is necessary not only to reduce heat loss during the arrangement of the attic floor, but also to minimize noise from rain and hail. This “roofing cake” includes seam roofing paintings (external roofing), a crate (a base for laying and fixing paintings), a counter-crate (to create a ventilation gap that prevents the formation of condensate in the under-roof space), a waterproofing layer (for protection of the insulation and other elements of the "roofing pie" from possible leaks), insulation (for example, mineral wool), vapor barrier layer (to prevent moisture-saturated vapors from entering the thickness of the insulation), double-sided tape (for hermetic connection of individual sheets of hydro- and vapor barrier) and fine or rough finish of the ceiling on the attic floor on the rafters.

This traditional technology of mounting pictures involves directly laying pictures on a prepared base, in this case a grid-like base, which is fixed to a counter-grid used to provide ventilation under the pictures.

An alternative solution to ventilation problems in rebate roofing is the Kalzip® rebate roof installation technology developed by KALZIP Gmbh (DE). A feature of this technology is that the paintings are mounted at a distance from the base, forming a layer. Under which a space is formed, hermetically sealed from the side of the outer surface of the paintings and which is well ventilated both naturally and with the use of air supply means.

To connect pictures - profiled Kalzip® sheets with the base (bearing structure), special clip-supports (fold-supports) made of aluminum are used, which are attached to the base and inserted into the beaded edge, fixed there and covered with the next element. Fasteners are located under the roofing. The roof maintains integrity and tightness. Support clips do not interfere with deformations that occur with temperature changes. The head of the support clip is formed in such a way that it does not interfere with the elongation and relative shift of the profiled sheets. This allows the use of sheets of great length. Thermal deformations occur from the attachment points to the ends of the profiled sheets. Support clips are attached to a supporting structure made of steel, aluminum or wood. Fastening clip-supports to the supporting structure is carried out using known fastening elements. To connect profiled sheets with supporting structures made of concrete, intermediate elements made of steel, aluminum or wood are used, which are attached to concrete structures using anchors (embedded parts. Clip-supports are mounted on base through polyamide thermal inserts (TC), which can be either connected to clip-supports or mounted on clip-supports at the time of roof installation.

For such rebate supports, paintings are used in the form of metal sheets, on the opposite edges of which bends are made, while on one edge this bend is made of a larger transverse size than on the other. When mounting pictures, first, on one side of the fold of the support, the picture is laid so that its smaller transverse bend is located on the head, covering it along its outer surface. And the picture on the other side of the fold-support, joined with the first picture, is positioned so that its larger cross-sectional size is located above the bend of the first picture. When passing, the folding machine presses the folds to the head with rollers so that the fold of a smaller transverse size fits on the head and, deforming, fits into the concavity on the head, and the fold of the other picture covers the first fold along the arcuate surface and closes the first fold by turning the edge. Thus, a double standing seam is formed with complete sealing of the joint area of the pictures. The concavity on the head of the folding support, on the one hand, is used to position the painting on the head to prevent its displacement during folding, and on the other hand, this concavity is an element of compensation for the linear expansion of the metal of the paintings.

Thus, a Kalzip® seam support for a roof roof is known, which is a T-shaped metal element in which a horizontal rectangular shelf is the base to be attached through a sheet form of a thermal insert to the supporting structure of the roof, and a vertical post with a length equal to the length of the specified shelf , is made at the free end with a spherical head, the transverse dimension of which exceeds the thickness of the rack, measured in the same direction, and on the opposite sides of which there are arcuate concavities stretched in the direction of the length of the shelf, while holes are made in the shelf for elements of its attachment to load-bearing structure (publication of KALZIP Gmbh (DE) "KALZIP® Systems, Technology, Design and Construction Guide", August 2008, pages 7 and 43 (copy attached).

This decision was taken as a prototype for the declared objects.

A special feature of the Kalzip® technology for roofing is that the supporting structure for attaching pictures, regardless of its type and manufacturing features, requires strict leveling of the surface to eliminate local slopes and inclinations, dips, etc. This is due to the fact that the seam-supports are made unadjustable in height. The Kalzip® technology for the roof roof provides for several standard sizes of rebate supports, which coincide in design, but differ in height (to form ventilated openings under the paintings of different heights). But the fact is that for each roofing roof only falts-supports of only one standard size are used. Since the fold-supports hold the paintings on themselves, in order to obtain an even coating without dips, it is necessary that the surface of the supporting structure also meets the conditions of a flat surface that does not have local dips.

In reality, the preparation of such an even base - a supporting structure for roof paintings - is an expensive and complex technology, the use of which is not always justified economically and practically. The entire “roofing cake”, in fact, is mounted on rafters, for example, in a wooden house, which do not always correspond to the strict geometry of a long bar or are damaged by the external environment or temporary fatigue. The use of a crate does not always solve the problem of equalizing the deflections of the rafters, since the crate itself is created by sequentially attaching its elements to the rafters. This problem is less pronounced in buildings with the use of metal profiles to create a roof frame, but for the bearing structures developed in terms of area, the loss of geometry remains.

The present invention is aimed at achieving a technical result, which consists in expanding the performance of the fold-support by providing the possibility of changing its height to align the position of the pictures with respect to the supporting base.

The specified technical result for the first embodiment is achieved by the fact that in the seam support for a seam roof, containing a rack connected to the base to be attached to the supporting structure of the roof, made in the form of a plate, fixed perpendicular to the base on this base and made with a cap, in shape representing is a cylindrical body placed at the free end of the rack plate along this plate, while at least on one side of the cylindrical body of the head there is an arcuate concavity stretched along the length of this body, and the transverse dimension of the cylindrical body is made larger than the thickness of the rack plate in the area below a head, a stand plate on the side of its end opposite to the head, at least on a part of its height, is made on each side with a toothed comb, the teeth of which are located along the longitudinal axis of the cylindrical body of the head, the base is made consisting of two L-shaped parts her, the horizontally oriented parts of which are elements to be attached to the supporting structure of the roof, and the vertically oriented parts of which are located at a distance from each other and on all walls of which toothed combs are made, while the rack with its part, which carries the toothed combs, is located between vertically oriented parts of the base, is engaged with the teeth of the combs on the walls of these parts of the base facing towards each other and is clamped between them by a bolt fastener passed through the rack and vertically oriented parts of the base, between the bolt head of which and one vertically oriented part of the base and between the nut of which and the other vertically oriented part of the base there are plates bearing teeth on the side facing the vertically oriented parts of the base, corresponding to the teeth of the toothed combs on these parts.

The rebate support for this example can be provided with a plate-shaped thermal liner made of a material with low thermal conductivity, used for the base as a spacer when attaching the base to the supporting structure.

The specified technical result for the second embodiment is achieved by the fact that in the folded support for the folded roof, containing a rack connected to the base to be attached to the supporting structure of the roof, made in the form of a plate, perpendicular to the base fixed on this base and made with a head, in shape representing is a cylindrical body placed at the free end of the rack plate along this plate, while at least on one side of the cylinder-shaped body of the head there is an arcuate concavity stretched along the length of this body, and the transverse dimension of the cylindrical body is made larger than the thickness of the rack plate in the area below the head, the stand plate on the side of its end opposite to the head, at least at part of its height, is made on each side with a toothed comb, the teeth of which are located along the longitudinal axis of the cylindrical body of the head, the base is made T-shaped in transverse section, the horizontally oriented part of which is made with elements for attaching to the supporting structure of the roof, and the vertically oriented part is made of two flat walls located at a distance from each other, on the outer surface of which toothed combs are made, while the stand with its part carrying the toothed combs , is located between the vertically oriented flat walls of the base and is clamped between them by a bolt with a nut passed through the rack and the vertically oriented walls of the base, between the bolt head of which and one vertically oriented base wall and between the nut of which and the other vertically oriented base wall there are plates bearing on the side facing the vertically oriented walls of the base of the teeth, the reciprocal teeth of the toothed combs on these parts.

The fold-support for the second embodiment can be equipped with flattened C-shaped thermal inserts, each of a material with a low thermal conductivity, put on the edges of the horizontally oriented part of the base when attaching the base to the supporting structure.

These features are essential and interconnected with the formation of a set of essential features sufficient to achieve the desired technical result.

The invention is illustrated by specific examples of implementation, which, however, are not the only possible ones, but clearly demonstrate the possibility of achieving the desired technical result.

In FIG. 1 - General view of the first example of the execution of the seam-support;

fig. 2 - stand with head;

fig. 3 - the base of the fold-support for the first example of execution;

fig. 4 - junction of the rack with the base;

fig. 5 - general view of the second example of the execution of the seam-support; Fig.6 - the base of the fold-support.

According to the invention, a device is considered for a standing fold-support used to hold paintings at a distance from the supporting structure, to form a fold of connected paintings on the head of this support and to align the position of the paintings with respect to the surface of the supporting structure.

In the general case, the seam support for seam roofing for all examples of execution contains a base 1, which is subject to attachment to the supporting structure of the roof through a thermal insert 2 (Fig. 1) or thermal inserts 3 (Fig. 3).

A thermal insert or thermal pad is a piece of material with a low thermal conductivity to increase the heat transfer resistance of a wall or roof structure. For example, PENOPLEX® thermal liners (XPS - extruded polystyrene foam) in the form of sheet (lamellar) gaskets have a low thermal conductivity coefficient (0.032 W / (m × ° K), unchanged throughout the entire service life, high material strength (20 tons per square meter ), almost zero water absorption and high biostability (the material is not a matrix for the development of unwanted microorganisms).It is possible to use thermal inserts from other manufacturers.

Thermal liners, as an option, are used to significantly reduce the transfer of cold or heat from paintings exposed to the temperature effects of the external environment to the supporting structure and from it to the rest of the elements of the "roofing pie".

The base 1 is connected to the rack 4, made in the form of a plate, perpendicular to the base, fixed on this base. The rack plate at the free end is made with a cap 5, which is in the form of a cylinder, placed at the free end of the rack plate along the rack plate.

At least on one side of the cylinder head there is an arcuate concavity 6 stretched along the length of the cylinder, and the transverse size of the cylinder is made larger than the thickness of the rack plate in the area below the head (Fig. 1, 2).

The rack is used to maintain the level of roof paintings at a given level above the supporting structure in order to form an air cavity under the paintings, ventilated naturally or using forced air mass movement systems. This empty space is the basis of all roof ventilation, through which excess moisture must be removed from the roof. Moisture appears inside the roof due to the collision of air currents with different temperatures. The collision of warm air from the house with cold air from the street leads to the formation of condensation. If the roof was built in compliance with the technology, then excess moisture will settle on the waterproofing, if the builders have departed from building codes, then water will get on the insulation and the rafter system. Moisture negatively affects not only the insulation, but also the rafter system, which in a humid environment begins to rot and loses its bearing capacity. Another negative aspect of the lack of ventilation relates to winter time. Excess moisture in the roof space under the influence of cold air will inevitably freeze and turn into ice, increasing the load on the truss system. In addition, as a result of this, icicles are formed on the cornices, which pose a threat when falling. In the summer, the lack of ventilation will lead to heating of the roof and constant heat in the attic.

The head of the upright is used as a mandrel to form a double standing seam in the same way as described for the seam on the KALZIP® system seam supports.

A feature of the execution of the seam-support for all examples is that it is made adjustable in height relative to the plane of attachment of the support to the supporting structure of the roof. In the absence of flatness in the supporting structure, the presence of local dips and deflections in its end sections, it is necessary to change the height of the folded supports in order to maintain the flatness of the display of pictures.

The change in the height of the folded support is ensured by the fact that this support is made of two interconnected parts: a base and a stand with a head, which can change its position in height relative to the base fixed on the supporting structure.

To do this, for all examples of the execution of the rack 4 (Fig. 2), the rack plate from the side of its end opposite to the head 5, at least part of its height, is made on each side with a toothed comb 7, the teeth of which are located along the longitudinal axis of the cylinder-shaped body of the head .

According to the first embodiment (Figs. 1, 3 and 4), the base 1 is made up of two L-shaped parts, the horizontally oriented parts 8 of which are elements to be attached to the supporting structure of the roof, and the vertically oriented parts 9 of which are located at a distance from each other. from each other and on all walls of which (parts 9) toothed combs 10 are made. Horizontally oriented parts 8 are attached through a thermal insert 2 to the supporting structure. For attachment, for example, anchor bolts 11 are used.

A feature of this base is that it consists of two parts 8 and 9, which are assembled into the base when installing the rack. Rack 4 with its part, bearing toothed combs 7, is located between the vertically oriented parts of the base 9 and engages with the teeth of the combs 10 on the walls of these parts 9 of the base facing towards each other. The rack is positioned taking into account the required height of the seam support, which is achieved by shifting the rack relative to the vertically oriented parts 9 of the base. After that, the rack is clamped between the parts 9 passed through the rack and the vertically oriented parts of the base with a bolt fastener (Fig. 1 and 4). And between the head 12 of the bolt bolt and one vertically oriented part of the base and between the nut 13 of this bolt and the other vertically oriented part of the base, plates 14 are placed, bearing on the side facing the vertically oriented parts of the base, the teeth corresponding to the teeth of the toothed combs 10 on these parts.

For this embodiment, it is advisable to use a plate-shaped or sheet-shaped thermal insert made of a material with a low thermal conductivity coefficient used for the base as a gasket when attaching the base to the supporting structure.

According to the second embodiment (FIGS. 5 and 6), the base 1 is T-shaped in cross section. The horizontally oriented part 15 of the base is made with elements for attaching to the supporting structure of the roof, and the vertically oriented part is made of two flat walls 16 located at a distance from each other, on the outer surface of which toothed combs 17 are made. The inner surfaces of the walls, facing towards each other, made flat (Fig. 6).

The stand with its part, carrying the toothed combs 7, is placed between the vertically oriented flat walls 16 of the base and is clamped between them (walls) by a bolt with a nut passed through the stand and the vertically oriented walls of the base, as described for fixing the stand according to the first embodiment. In this example, the rack with combs 7 is clamped between the flat surfaces of the walls 16 of the base. This makes it possible to increase the accuracy of removing the tip from the base due to the lack of discreteness, which is provided by the combs in the first embodiment.

For this embodiment, depending on the shape of the horizontally oriented part 15, a sheet thermal spacer can be used, as for the example in FIG. 1 if this part is flat supported. If part 15 is shaped and has support parts such as legs, then flattened C-shaped inserts (as shown in Figs. 5 and 6) from a material with a low thermal conductivity can be used, put on the edges of the horizontally oriented part of the base when attaching the base to supporting structure.

The elements of the seam support - the base and the stand - are made of metal, for example, from aluminum or aluminum-containing alloys. This allows you to increase the service life of the rebate supports in conditions of constantly changing seasonal temperatures and humidity.

The claimed invention allows the installation of the roofing roof system on any unprepared surface of the supporting structure of the "roofing pie". During installation, the directions of the paintings are marked along the lines of their future folds, the attachment points of the bases of the fold supports are determined, located at a distance from each other along the lines of the future folds, and then the fold supports are fixed at these points. During the installation of paintings, the level of their position is monitored and by adjusting the extension of the racks, this level is ensured with respect to the surface of the supporting structure. This allows to reduce the amount of work on the installation of the roofing system, to reduce the time for its installation, which is ensured by the extended performance of the seam support by providing the possibility of changing its height to align the position of the paintings with respect to the supporting base.

Claims (4)

1. Seam-support for a seam roof, containing a rack connected to the base to be attached to the supporting structure of the roof, made in the form of a plate, fixed perpendicular to the base on this base and made with a head, which is a cylindrical body in shape, placed on the free end of the rack plate along this plate, at the same time, at least on one side of the cylindrical body of the head, an arcuate concavity is made, stretched along the length of this body, and the transverse dimension of the cylindrical body is made larger than the thickness of the rack plate in the area below the head, characterized in that the plate is rack on the side of its end , opposite to the head, at least part of its height is made on each side with a toothed comb, the teeth of which are located along the longitudinal axis of the cylindrical body of the head, the base is made consisting of two L-shaped parts, the horizontally oriented parts of which represent elements to be attached to the supporting structure of the roof, and the vertically oriented parts of which are located at a distance from each other and on all walls of which toothed combs are made, while the rack with its part, which carries the toothed combs, is located between the vertically oriented parts of the base, engaged with the teeth combs on the walls of these parts of the base facing towards each other and is clamped between them by a bolt fastening passed through the rack and the vertically oriented parts of the base, between the bolt head of which and one vertically oriented part of the base and between the nut of which and the other vertically oriented part of the base there are plates bearing on side facing the vertically oriented parts of the base of the teeth, the reciprocal teeth of the gear combs on these parts. 2. Fold-support according to claim 1, characterized in that it is equipped with a plate-shaped thermal insert made of a material with a low coefficient of thermal conductivity, used for the base as a gasket when attaching the base to the supporting structure. 3. Seam-support for a seam roof, containing a rack connected to the base to be attached to the supporting structure of the roof, made in the form of a plate, fixed perpendicular to the base on this base and made with a head, which in shape is a cylinder-shaped body, placed on the free end of the rack plate along this plate, at the same time, at least on one side of the cylindrical body of the head, an arcuate concavity is made, stretched along the longitudinal axis of this body, and the transverse dimension of the cylindrical body is made larger than the thickness of the rack plate in the area below the head, characterized in that the rack plate on the side of its the end opposite the head, at least part of its height, is made on each side with a toothed comb, the teeth of which are located along the longitudinal axis of the cylindrical body of the head, the base is made T-shaped in cross section, the horizontally oriented part of which is completed with elements for attachment to the supporting structure of the roof, and the vertically oriented part is made of two flat walls located at a distance from each other, on the outer surface of which toothed combs are made, while the rack with its part, which carries the toothed combs, is located between the vertically oriented flat walls base and is clamped between them by a bolt with a nut passed through the post and vertically oriented walls of the base, between the bolt head of which and one vertically oriented wall of the base and between the nut of which and the other vertically oriented wall of the base there are plates bearing on the side facing the vertically oriented walls of the base teeth that match the teeth of the toothed combs on these parts. 4. Fold-support according to claim 1, characterized in that it is equipped with flattened C-shaped thermal inserts, each of a material with a low thermal conductivity, put on the edges of the horizontally oriented part of the base when attaching the base to the supporting structure.

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