RU219842U1 - C-SHAPED MESH THERMAL PROFILE - Google Patents

Abstract

C-shaped mesh thermal profile refers to the field of construction, in particular to the constructions of thermal mesh thermal profiles of C-shaped cross-section, used as load-bearing elements of frames of prefabricated buildings, roofs, facades and balcony walls, where it is necessary to exclude the influence of "cold bridges". C-shaped mesh thermal profile having a C-shaped cross section, contains: a wall with perforations, having two parallel shelves along the edges with bends inside the profile, and the perforations are made in the form of elongated narrow through holes, equal in length and arranged in a checkerboard pattern with offset by half a step along the length of the profile, additionally contains perforation sections located on the wall of the profile with an equal step along the length of the profile, while each perforation section is a rectangular slot indented from the side flanges and other perforations of the profile, one of the long faces of which has bend inside the profile. The proposed solution increases the transverse rigidity of the wall of the C-shaped mesh thermal profile due to the bends formed during the application of perforations on one of the long edges of each rectangular slot of the profile, which are stiffeners that are oriented across the length of the profile and are located with equal spacing along the length of the profile, while rectangular the slots are also an obstacle to the heat flows coming from inside the building or structure, which maintains a low thermal conductivity of the profile.

Description

C-shaped mesh thermal profile refers to the field of construction, in particular to the constructions of thermal mesh thermal profiles of C-shaped cross-section, used as load-bearing elements of frames of prefabricated buildings, roofs, facades and balcony walls, where it is necessary to exclude the influence of "cold bridges".

Known are C-shaped mesh thermal profiles of the firms "LSTK Stroy GROUP" (https://lstk-msk.ru/termoprofil), "TD INSI" (https://www.insi.ru/production/lstk-profil/termoprofil-i -gnutyy-profil/), generally having a C-shaped cross section and containing a wall with perforations, having two parallel shelves along the edges with bends inside the profile, and the perforations are made in the form of elongated narrow through holes, equal in length and located in staggered with a half step offset along the length of the profile.

The disadvantage of such a C-shaped mesh thermal profile is its low transverse rigidity of the perforated wall, which is caused by the applied perforations. Perforations reduce thermal conductivity, but at the same time reduce the working cross-sectional area of the profile wall, which reduces its rigidity.

The task to be solved by the proposed utility model is to eliminate the above disadvantage.

The technical result, which makes it possible to solve the problem, is to increase the transverse stiffness of the wall of the C-shaped mesh thermal profile.

The technical result is achieved by the fact that a C-shaped mesh thermal profile having a C-shaped cross section and containing a wall with perforations, having two parallel shelves along the edges with bends inside the profile, and the perforations are made in the form of elongated narrow through holes equal in length and located in a checkerboard pattern with an offset of half a step along the length of the profile, additionally contains perforation sections located on the wall of the profile with an equal step along the length of the profile, while each perforation section is a rectangular slot made indented from the side flanges and other perforations of the profile, one of the long the edges of which have a bend inside the profile.

The proposed solution increases the transverse rigidity of the wall of the C-shaped mesh thermal profile due to the bends formed during the application of perforations on one of the long edges of each rectangular slot of the profile, which are stiffeners that are oriented across the length of the profile and are located with equal spacing along the length of the profile, while rectangular the slots are also an obstacle to the heat flows coming from inside the building or structure, which maintains a low thermal conductivity of the profile.

The technical result is illustrated by drawings:

in fig. 1 - general view of the C-shaped mesh thermal profile in isometry;

in fig. 2 - view of the C-shaped mesh thermal profile from above;

in fig. 3 - section of the C-shaped mesh thermal profile.

C-shaped mesh thermoprofile, having a cross-sectional C-shaped section, contains: a wall 1 with perforations, having two parallel shelves 2 along the edges with bends 3 inside the profile, and the perforations are made in the form of elongated narrow through holes 4, equal in length and located in a checkerboard pattern with an offset of half a step along the length of the profile, sections 5 of the perforation located on the wall 1 of the profile with an equal step along the length of the profile, while each section 5 of the perforation is a rectangular slot 6 indented from the side shelves 2 and the remaining perforations of the profile , one of the long faces 7 of which has a bend 8 inside the profile.

The C-shaped mesh thermal profile works as follows: when mounting prefabricated structures, the C-shaped mesh thermal profile has a C-shaped cross section and contains a wall 1 with perforations, having two parallel shelves 2 along the edges with bends 3 inside the profile, and the perforations are made in in the form of elongated narrow through holes 4, equal in length and arranged in a checkerboard pattern with an offset of half a step along the length of the profile, and containing sections 5 of perforation located on the wall 1 of the profile with an equal step along the length of the profile, while each section 5 of the perforation is a rectangular slot 6, made indented from the side shelves 2 and other perforations of the profile, one of the long edges 7 of which has a bend 8 inside the profile, is installed in the design position and fastened to the rest of the structure frame (not shown in the drawing), after which enclosing building structure, for example, a sandwich panel (not shown in the drawing), in this case, in the event of transverse stresses in the wall 1 of the profile, trying to bend it, bends 8, which are stiffeners, take on all the stresses and provide transverse rigidity of the profile.

Claims (1)

C-shaped mesh thermal profile, having a C-shaped cross section and containing a wall with perforations, having two parallel shelves along the edges with bends inside the profile, and the perforations are made in the form of elongated narrow through holes, equal in length and arranged in a checkerboard pattern with an offset half a step along the length of the profile, characterized in that it additionally contains perforation sections located on the profile wall with an equal step along the length of the profile, while each perforation section is a rectangular slot made indented from the side flanges and other perforations of the profile, one of the long the edges of which have a bend inside the profile.