RU157293U1 - ASSEMBLY OF RIDGE ROOF COMPONENTS - Google Patents

Abstract

1. The connection node of the ridge elements, including the end edge of one ridge element and the end edge of the other ridge element, characterized in that the end edge of one ridge element is made with a protrusion located along the end edge to the bends of the longitudinal edges of the shelves and coinciding with the profile of the ridge element, and the end edge of another ridge element with bends of the longitudinal edges of the shelves, while the protrusion of one ridge element is introduced into the bends of the longitudinal edges of the shelves of the other ridge element, forming with union .2 the type of "thorn-groove". The ridge connection node according to claim 1, characterized in that each shelf of the ridge element has at least one ledge-shaped profile bend. The junction of the ridge elements according to claim 2, characterized in that at least one ledge-shaped profile bend passes between the middle and the longitudinal edge of the shelf parallel to the axis of the ridge element. The junction of the ridge elements according to claim 2, characterized in that the profile of each shelf of the ridge element between the upper edge and the ledge-like bend is an alternation of straight sections and recesses. 5. The junction of the ridge elements according to claim 4, characterized in that the recesses have a trapezoidal cross section. A ridge connection unit according to claim 2, characterized in that each shelf of the ridge element has at least one trapezoidal profile bend extending between the step-like profile bend and the longitudinal edge of the shelf. The junction of the ridge elements according to claim 1, characterized in that the angle formed by two p

Description

The utility model relates to the field of building materials, in particular to roofing skates designed to protect the upper intersection of roof slopes from atmospheric precipitation and to give it a complete aesthetic appearance.

Rectangular ridge elements are known from the prior art, which are a bent metal sheet formed by two equal shelves located at an angle to each other close to 120 ° and made with the longitudinal edges bent inward (see Internet http: // dmprofil .ru / k% 20dob.html). The connection of such ridge elements among themselves is carried out by laying the end edge of one ridge element on the end edge of another ridge element with an overlap and then screwing it with screws, with a pitch of approximately 300 mm through the upper corrugation of the roofing material (profiled flooring or metal tile) to the bars previously attached under the roofing material running parallel to the axis of the ridge.

Also known are semicircular ridge elements that are used for metal tiles and can have different rib diameters (see information on the Internet http://lmetallocherepica.ru/elementy-krovli/montezh-konka.html). Such ridge elements are interconnected by joining along the stamping line.

Curly ridge elements are also known, which are a bent metal sheet with a U-shaped upper rib and two equal shelves made with the bend of the longitudinal edges inward (see information on the Internet http://dmprofil.ru/k%20dob.html). Their interconnection is carried out by applying the end edge of one ridge element to the end edge of another element with an overlap and then screwing the U-shaped rib to the ridge beam with roofing screws (see information on the Internet http://lprofnastil.ru/montazh/ustanovka-konka. html).

These types of ridge elements have low strength and stiffness characteristics, and laying the ridge elements on top of each other with an overlap does not allow tightness and aesthetics to be achieved along the junction line of the two elements. This technology of connecting the elements does not provide the exact geometry of the shapes of the ridge, and also requires the installer to be on the roofing material, which leads to damage, reduction of waterproofing, aesthetic properties and the life of the coating.

The task to which the claimed utility model is directed is the development of an improved node connecting ridge elements to each other, devoid of the disadvantages of the above analogues.

The technical result of the claimed utility model is to increase the waterproofing properties of the roofing ridge at the junction of the ridge elements. In addition, the aesthetic properties of the product are enhanced.

The claimed technical result is achieved due to the fact that the node connecting the ridge elements includes the end edge of one ridge element and the end edge of the other ridge element, while the end edge of one ridge element is made with a protrusion located along the end edge to the bends of the longitudinal edges of the shelves, and matching with the profile of the ridge element, and the end edge of the other ridge element with bends of the longitudinal edges of the shelves, and the protrusion of one ridge element is introduced into the bends of the longitudinal edges Oloka another ridge member, forming a compound of the type of "tongue and groove".

It is advisable that each shelf of the ridge element had at least one ledge-shaped profile bend.

It is advisable that at least one ledge-shaped bend of the profile of the ridge element flange passes between the middle and the longitudinal edge of the flange parallel to the axis of the ridge element.

It is advisable that the profile of each shelf of the ridge element between the upper edge and the ledge-shaped bend is an alternation of straight sections and recesses. The recesses may have a trapezoidal cross section.

It is advisable that each shelf of the ridge element had at least one trapezoidal profile bend extending between the step-like profile bend and the longitudinal edge of the shelf.

It is advisable that the angle formed by two equal shelves of the ridge element was close to 120 °.

It is advisable that the bends of the longitudinal edges of the shelves of the ridge elements were made at an angle close to 30 °, or U-shaped.

The claimed utility model is illustrated by the following illustrations.

In FIG. 1 presents a roofing horse, where:

1 - ridge element;

2 - strip for fastening the ridge element to the roof;

3 - roofing material (profiled flooring or metal);

In FIG. 2 shows a ridge element - side view, where:

4 - shelf ridge element;

5 - step-like bending of the profile profile of the ridge element;

6 - trapezoidal bend of the profile of the ridge element shelf;

7 - bending of the longitudinal edge of the shelf of the ridge element;

8 - profile deepening;

9 - straight section of the profile;

In FIG. 3 and 4 presents the connection node of the ridge elements, where:

10 - protrusion of the end edge of the ridge element;

The node connecting the ridge elements 1 to each other includes the end edge of one ridge element and the end edge of the other ridge element, while the end edge of one ridge element is made with a protrusion 10 located along the end edge to the bends 7 of the longitudinal edges of the shelves and coinciding with the profile of the ridge element, and the end edge of another ridge element with bends 7 of the longitudinal edges of the shelves, and the protrusion of one ridge element is introduced into the bends of 7 longitudinal edges of the shelves of the other ridge element, forming Inonii type "tongue and groove" (FIG. 3 and FIG. 4).

In a preferred embodiment, the ridge element of the roof 1 is a bent metal sheet formed by two equal shelves 4 located to each other at an angle close to 120 °, and made with the bending of the longitudinal edges 7 inward at an angle close to 30 °, while each shelf 4 has one ledge-shaped 5 and one trapezoidal bend of profile 6 (Fig. 2). Also, the bend of the edge 7 can be made U-shaped. The profile of each shelf 4 between the upper rib and the ledge-shaped bend 5 is an alternation of straight sections 9 and recesses 8 of a trapezoidal cross section. In other embodiments, the recesses 8 may also have a semicircular, oval, triangular or rectangular cross section. One end edge of the ridge element 1 is made with a protrusion 10 located along the end edge to the bends 7 of the longitudinal edges of the shelves, allowing connecting the ridge elements 1.

Installation of ridge elements can be carried out as follows.

Roofing material 3 is mounted to the roof, by attaching it with screws to the battens. The first ridge element 1 is attached to the lathing beam with roofing screws through the roofing material 3. The second and subsequent ridge elements are connected to the fixed ridge element by introducing the protrusion 10 of the fixed ridge element 1, at a distance close to 100 mm, into the bends 7 of the longitudinal edges of the shelves 4 of the next ridge element, and then mounted to the lathing beam through the roofing material with self-tapping screws.

Also, the installation of the ridge elements can be carried out using a bracket for fastening the ridge element.

The strap 2 for attaching the ridge element to the roof is connected to the ridge element 1 and is one finished product. Finished products are interconnected by introducing the protrusion 10 of the fixed ridge element 1, at a distance close to 100 mm, into the bends 7 of the longitudinal edges of the shelves 4 of the next ridge element, with its subsequent fixation with the help of a wide shelf of the plank 2 by fixing elements to the roof battens. After the installation of all finished products between the wide and narrow shelves of the strap 2, roofing material 3 (profiled sheet, metal tile) is placed along two slopes of the roof.

The claimed connection node of the ridge elements ensures tightness at the junction of two ridge elements, and also improves the aesthetic properties of the product due to the absence of a visible connection between the ridge elements.

Claims (8)

1. The connection node of the ridge elements, including the end edge of one ridge element and the end edge of the other ridge element, characterized in that the end edge of one ridge element is made with a protrusion located along the end edge to the bends of the longitudinal edges of the shelves and coinciding with the profile of the ridge element, and the end edge of another ridge element with bends of the longitudinal edges of the shelves, while the protrusion of one ridge element is introduced into the bends of the longitudinal edges of the shelves of the other ridge element, forming with "Tongue and groove" unity of type. 2. The junction of the ridge elements according to claim 1, characterized in that each shelf of the ridge element has at least one ledge-shaped profile bend. 3. The junction of the ridge elements according to claim 2, characterized in that at least one ledge-shaped profile bend passes between the middle and the longitudinal edge of the shelf parallel to the axis of the ridge element. 4. The junction of the ridge elements according to claim 2, characterized in that the profile of each shelf of the ridge element between the upper edge and the ledge-like bend is an alternation of straight sections and recesses. 5. The junction of the ridge elements according to claim 4, characterized in that the recesses have a trapezoidal cross section. 6. The junction of the ridge elements according to claim 2, characterized in that each shelf of the ridge element has at least one trapezoidal bend of the profile passing between the step-like bend of the profile and the longitudinal edge of the shelf. 7. The junction of the ridge elements according to claim 1, characterized in that the angle formed by two equal shelves of the ridge element is close to 120 °. 8. The junction of the ridge elements according to claim 1, characterized in that the bends of the longitudinal edges of the shelves of the ridge elements are made at an angle close to 30 °, or U-shaped.

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