RU20330U1 - STRUCTURE OF OUTDOOR HEAT INSULATION OF THE BUILDING AND THE LATCH PROFILE (OPTIONS) PROVIDED FOR IT; - Google Patents

Abstract

Purpose: the utility model relates to the construction and repair of buildings and structures for civil, industrial and agricultural purposes, in particular, to the fencing systems of buildings with thermal insulation and decoration of external walls and facades. The system can be used when performing wall as well as roofing, forming the coating or roof of fences, both during construction and reconstruction of buildings and structures to ensure the required thermal engineering qualities and ensure moisture removal.

Essence: the building’s external thermal insulation structure contains a crate of Z-shaped profiles attached to the wall of the building, into which insulation plates are installed, a perforated corner profile to protect the edges of the corners from chipping, a perforated socle profile serving as a support for insulation plates in the lower part of the wall and / or on balconies, a protective visor installed in the upper part of the wall, L-shaped profiles framing window and door openings, a grid installed on top of insulation panels, and the outer layer katurki. Moreover, the profile of the lathing of the external thermal insulation of the building has a Z-shaped cross section formed by the wall and shelves, and at least part of the wall is perpendicular to the shelves, and the profile wall is made with two bends at an angle of 130-155 °, oriented with respect to the wall to the side opposite to the limb of the corresponding shelf. In addition, in the profile of the cladding of the external thermal insulation of the building on the bends of the wall and one of the shelves, GG-shaped cuts can be made with bending of the material for the contours of the wall and shelf. It can also be made of galvanized steel, or stainless steel, or an aluminum alloy, and the end ends of the shelves can be bent perpendicular to the shelves in the direction of the profile wall. The profile is a perforated basement external heat from the insulation of a building (the building is in cross section in the form of an unequal channel channel, formed

called wall and perforated shelves, and the ratio of the lengths of the larger shelves to the smaller is from 2.3 to 4, the ratio of the length of the largest shelves to the length of the wall is from 0.30 to 0.55, while the wall in the area of the smaller shelves is made with corrugation, oriented along the longitudinal axis of the profile and directed outward, while the ratio of the height of the corrugation to its width is from 0.65 to 1.1. According to the first variant, the perforated corner external heat insulation profile of the building 11 has shelves oriented at an angle of 90 ° to each other, and at the junction of the shelves a section is formed that has two parallel walls in section, radially bent at an angle of 135 ° relative to the shelves and directed outward of the profile moreover, the indicated walls were interconnected along a cylindrical surface with a radius of at least 2.0 mm, and notches were formed on the shelves, forming tongues, bent 180 ° from the plane of the shelves toward the ends of the shelves. According to the second variant, the perforated angle profile of the building’s external thermal insulation has two shelves oriented at an angle of 100 ° to each other, the shelves being made with bends at the ends directed outward of the profile, and the limb width of one of the shelves made at an angle of 180 ° to contact with the outside surface of the shelf is 15-23% of the total length of the shelf, in addition, the width of the limb of the second shelf is up to 40% of the total length of this shelf, and at the end of the bend of the second shelf there is another bend of 150 ° directed outward. According to the third option, the perforated angle profile of the building’s external thermal insulation has two shelves oriented at an angle of 90 ° to each other, one of which is 90 ° bent, while the section from the bend to the beginning of the second shelf is laid on the second shelf until it is completely in contact with her, and the length of this section is 20-30% of the total length of the shelf. According to the fourth variant, the perforated profile of the corner external thermal insulation of the building has two equal length shelves, oriented at an angle of 90 ° to each other, on

Description

STRUCTURE OF OUTDOOR TENLONZOLATION OF THE BUILDING AND NAROFIL LATCHES (OPTIONS) DESIGNED FOR IT,

NROFIL NERFORIED SOCKET, NROFIL

NORPHORED CORNER (OPTIONS), NROFIL FOR

Expansion Joints, Nrofil Finishing And Rail

The utility model relates to the construction and repair of buildings and structures for civil, industrial and agricultural purposes, in particular, to the fencing systems of buildings with thermal insulation and decoration of external walls and facades. The system can be used when performing wall and roofing works, forming roofs or roofs of fences, both during construction and reconstruction of buildings and structures to ensure the required heat engineering qualities and ensure moisture removal.

Known devices for insulation and decoration of the external walls of buildings in which heat-insulating elements are coated with plaster on top (see DE application No. 3409592 1984, No. 3429251 1986 and 3618457, IPC E 04 B 1/76 1986).

A device is known for a suspension surface for applying plaster (application EP No. 424306, IPC E 04 F 13/04, 1991), in which metal profiles are attached to the wall of the building, then a metal comb is installed, the teeth of which are perpendicular to the wall and enter the heat-insulating material, stackable on the wall and covered with lightweight hanging panels.

Closest to the claimed utility model - the design of the building's external thermal insulation, is a device for warming the external wall of the building (patent of the Russian Federation No. 2145993, IPC E 04 B 1/76, 02.27.2000). This device includes a frame of interconnected horizontal elements stuE 04 F 13/08 Е04В 1/76

a step profile, each of which is equipped with an upper and lower front vertical walls joined by a horizontal shelf, and is fixed by a vertical top wall on a wall to be insulated or on a supporting layer of the external wall so that cavities are formed between the horizontal shelf and the vertical walls of the elements, in which the heat-insulating material is placed supported on horizontal shelves of profiles, and the outer surfaces of the lower walls of the elements are covered with a facing layer, with each element of the stepped profile on top the horizontal shelf is equipped with clamps for fastening on it the lower front vertical wall of adjacent similar upper elements, the horizontal shelf is also equipped with through openings and / or holes, through openings are made in the lower front vertical wall of each element, from the bottom this wall is equipped with sockets for accommodating the latches located on horizontal shelf below the located elements of the stepped profile, and at the contact of the upper vertical shelf of each element with the surface of the insulated walls or heat-insulating layer disposed teploinertsionnogo material.

The profiles of the crate are described in applications EP No. 424306, IPC E 04F 13/04, 1991, and No. 161532, IPC E 04F 13/04, 1985

Closest to the claimed utility model, the profile of the external insulation of the building, is the device that is the closest analogue for the construction of the building's external insulation (RF patent No. 2145993, cited above).

Known profile perforated basement external thermal insulation of the building (application EP No. 161532, IPC No. E 04 F 13/04, 1985).

Closest to the claimed utility model - the profile of the perforated basement outer thermal insulation of the building, is application EP No. 468163, which describes a basement element having a cross-sectional shape of unequal

channel formed by a wall and perforated shelves.

Known profiles are perforated angular external thermal insulation of a building having shelves oriented at an angle of 90 ° to each other (application EP No. 134039, No. 462315, No. 514855, No. 821120, No. 1018582, IPC E 04 F 13/06).

Closest to the claimed utility model is the perforated corner profile, is the profile described in application EP No. 324918, IPC E 04 F 13/06, 1989).

Closest to the claimed utility model is a profile for expansion joints of the building's external thermal insulation is a profile for separating plastered surfaces in the joint zone in structures with full thermal protection (application EP No. 162532, IPC E 04 F 13/04, 1985), in which a profile is described including a perforated corrugated wall and a corrugated shelf

Closest to the claimed utility model - the final profile of the exterior thermal insulation of the building is one of the profiles on the application EP No. 161532 mentioned above. This profile has a sectional shape of an unequal angle and includes two shelves, one of which is made with a bend at the end directed outward of the profile.

Known beacon profile containing a mounting shelf with corrugation (application EP No. 160867, IPC E 04 F 13/04, 1985).

Closest to the claimed utility model, the lighthouse profile, is a profile lighthouse rail having a mounting shelf made with a corrugation (application EP No. 122421, E 04 F 13 / | 06 1984).

Devices known from the prior art, if used (in aggregate) for the thermal insulation of a building, will not be able to provide a number of advantages, namely: the required heat transfer resistance, which is required by the standards

SNiP 11-3-79, as well as the absence of temperature deformations, evaporation of moisture out.

This is due to the fact that they are all designed to solve any one problem.

The claimed utility models will allow us to solve immediately a set of tasks for thermal insulation and moisture removal, while ensuring high-quality finish of the walls of buildings or structures.

The technical results that are achieved using the claimed utility models include the following 11th:

-provision of the required heat transfer resistance;

- ensuring the evaporation of moisture condensed inside the structure, which eliminates the overmoistening of the structure;

-provision of comfortable conditions inside the building due to the accumulation of heat in the building's thermal insulation design;

- absence of temperature deformations of the bearing wall of the building;

-provision of protection for interpanel seams when used in panel housing construction;

-increase in sound insulation of load-bearing walls;

- providing the ability to solve the problems of creating architectural plans of any complexity with any color scheme of facades;

-Providing the possibility of use both on newly constructed and on reconstructed buildings with facades of any complexity and height;

-improving the operating mode of buildings with breathable thermal insulation, including in conditions of 100% humidity, which ultimately determines the durability of buildings and the efficiency of their operation.

The above technical results are ensured due to the fact that the building’s external thermal insulation design contains a Z-profile crate attached to the wall of the building, into which insulation plates are installed, a perforated corner profile to protect the edges of the corners from cleavage, a perforated basement profile that serves as a support for insulation boards in the lower part of the wall and / or at the balconies, a protective visor installed in the upper part of the wall, L-shaped profiles framing the window and door openings, with heel, mounted on top of a heater plate and an outer layer of plaster.

Moreover, the profile of the lathing of the external thermal insulation of the building has a Z-shaped cross section formed by the wall and shelves, and at least part of the wall is perpendicular to the shelves, and the profile wall is made with two bends at an angle of 130-155 °, oriented with respect to the wall to the side opposite to the limb of the corresponding shelf.

In addition, in the profile of the lathing of the external thermal insulation of the building on the bends of the wall and one of the shelves, U-shaped cuts can be made with bending of the material for the contours of the wall and shelf. It can also be made of galvanized steel, or stainless steel, or aluminum alloy, and the end sections of the shelves can be bent perpendicular to the shelves in the direction of the profile wall.

The perforated basement outer heat insulation profile of a building has the cross sectional shape of an unequal channel formed by a wall and perforated shelves, the ratio of the lengths of the larger to the smaller shelves being from 2.3 to 4, the ratio of the length of the largest shelves to the wall length is from 0.30 to 0, 55, while the wall in the area of the smaller shelf is made with a corrugation oriented along the longitudinal axis of the profile and directed outward, while the ratio of the height of the corrugation to its width is from 0.65 to 1.1.

According to the first variant, the perforated profile of the corner external thermal insulation of the building has shelves oriented at an angle of 90 ° to each other, and at the junction of the shelves there is a section having two parallel walls in cross section, radially bent at an angle of 135 ° with respect to the shelves and facing outward of the profile moreover, the indicated walls were interconnected along a cylindrical surface with a radius of at least 2.0 mm, and notches were formed on the shelves, forming tongues, bent 180 ° from the plane of the shelves toward the ends of the shelves.

According to the second variant, the perforated angle profile of the building’s external thermal insulation has two shelves oriented at an angle of 100 ° to each other, the shelves being made with bends at the ends directed outward of the profile, and the limb width of one of the shelves made at an angle of 180 ° to contact with the outside surface of the shelf is 15-23% of the total length of the shelf, in addition, the width of the limb of the second shelf is up to 40% of the total length of this shelf, and at the end of the bend of the second shelf there is another bend of 150 ° directed outward.

According to the third option, the perforated angle profile of the building’s external thermal insulation has two shelves oriented at an angle of 90 ° to each other, one of which is 90 ° bent, while the section from the bend to the beginning of the second shelf is laid on the second shelf until it is completely in contact with her, and the length of this section is 20-30% of the total length of the shelf.

According to the fourth variant, the perforated profile of the corner external thermal insulation of the building has two equal-length shelves, oriented at an angle of 90 ° to each other, on each of which double-row perforation is formed along the length of the profile, and on each shelf between the rows of perforations a longitudinal corrugation is made in the cross section, the profile is curved outward, and the junction of the shelves is made in the form of a cylindrical surface with a radius of 5-8% of the total length of each shelf.

The profile for the expansion joints of the building's external thermal insulation includes a perforated corrugated wall and a corrugated shelf, the corrugation on the wall being made in a U-shaped section with fillets in the corner zone, and the corrugation on the shelf made radial with a tip oriented at an angle of 80 ° to the shelf.

The final profile has the cross section in the shape of an unequal angle and includes two shelves, one of which is made with a bend at the end directed inside the profile, while the bend width is 30-45% of the total length of the bent shelf, and the length of the second shelf is 1.5 - 2.0 total length of the first shelf.

The lighthouse profile is made with two shelves symmetrically located relative to the central axial longitudinal corrugation, while the shelves are made with longitudinal corrugations of a lower height than the central one, the shelves are perforated, while the height of the central axial corrugation determines the thickness of the plaster layer.

The system through the easy construction of metal profiles made of aluminum alloys, stainless or galvanized steel and special vapor-breathable insulation (such as Park and Rockwool) allows you to create ventilation and remove build-up and condensed moisture.

In addition, the proposed system retains the geometric and thermotechnical homogeneity of the interlayer gap. Thermal protection balance - hygiene is ensured by the convection flow rate, which corresponds to the rate of condensate evaporation.

in FIG. 2 - frontal view of the wall;

in FIG. 3 is a section AA of FIG. 2;

in FIG. 4 is a section BB of FIG. 2;

in FIG. 5 - view of the corner of the building;

in FIG. 6 - perforated corner profile with mesh;

in FIG. 7 - profile perforated basement external thermal insulation of the building;

in FIG. 8 is a sectional view of a perforated basement profile;

in FIG. 9 - profile of the crate of the external thermal insulation of the building;

in FIG. 10 is a cross-sectional profile of the lathing of the external thermal insulation of the building;

in FIG. 11 - profile perforated corner according to the first embodiment;

in FIG. 12 is a cross-sectional view of the profile of FIG. 11;

in FIG. 13 - perforated corner profile according to the second embodiment;

in FIG. 14 is a cross-sectional view of the profile of FIG. thirteen;

in FIG. 15 - profile perforated corner according to the third embodiment;

in FIG. 16 is a cross-sectional view of the profile of FIG. fifteen;

in FIG. 17 - profile perforated corner according to the fourth embodiment;

in FIG. 18 is a cross-sectional view of the profile of FIG. 17;

in FIG. 19 is a profile for the expansion joints of the external thermal insulation of the building;

in FIG. 22 is a cross-sectional view of the profile of FIG. 20;

in FIG. 23 is a cross section of a beacon profile;

in FIG. 24 - beacon profile;

in FIG. 25 is a view of the lower part of the wall with a basement profile.

The external thermal insulation of the building contains a crate of Z-shaped profiles attached to the wall 1 of the building, into which insulation plates 2 are installed. The perforated corner profile 3 serves to protect the edges of the corners of the wall 1 from cleavage. The perforated basement 4 profile acts as a support for the insulation boards 2 in the lower part of the wall and / or at the balconies.

The mesh 5 is installed on top of the insulation boards 2, and an outer layer of plaster 6 is applied to it.

The profile of the crate 7 of the external thermal insulation of the building has a Z-shaped cross section formed by the wall 8 and the shelves 9 and 10. At least part 11 of the wall 8 is perpendicular to the shelves 9 and 10. The wall 8 of profile 7 is made with two bends 12 and 13 on an angle of 130-155 °, oriented with respect to the wall in the direction opposite to the bend of the corresponding shelf 9 and 10.

In the profile 7 of the lathing on the bends 12 and 13 of the wall and at least one of the shelves 9 or 10, U-shaped cuts 14 can be made with bending of the material for the contours of the wall and shelf. The end sections 15 and 16 of the shelves 9 and 10 can be bent perpendicular to the shelves in the direction of the profile wall. Profile 7, like other structural profiles, can be made of galvanized steel, or stainless steel, or aluminum alloy.

The perforated basement profile 4 has in cross section the shape of an unequal channel channel formed by the wall 17 and the perforated shelves 18 and 19, the ratio of the lengths of the larger shelf 18 to the smaller 19 is from 2.3 to 4.

The ratio of the length of the largest of the shelves 18 to the length of the wall 17 is from 0.30 to 0.55, while the wall 17 in the area of the smaller shelf 19 is made with a corrugation 20 oriented along the longitudinal axis of the profile 4 and directed outward, while the ratio of the height of the corrugation 20 to its width is from 0.65 to 1.1. Corrugation 20 (groove-rib) is made throughout the entire length 4 profile 4 and is designed to collect and drain moisture.

According to the first variant, the perforated angle profile of the building’s external thermal insulation has shelves 21 and 22 oriented at an angle of 90 ° to each other. A section is formed at the junction of the shelves, having in cross section two parallel walls 23 and 24, radially bent at an angle of 135 ° with respect to the respective shelves 21 and 22, while the said section is directed outward of the profile. The coupling of these walls 23 and 24 with each other is carried out on a cylindrical surface 25 with a radius of not less than 2.0 mm Slots are made on the shelves 21 and 22, forming tongues 26, bent from the plane of the shelves by 180 ° to the ends of the respective shelves.

According to the second variant, the perforated profile of the corner external thermal insulation of the building has two shelves 27 and 28 oriented at an angle of 100 ° ± 5 ° to each other, and the shelves 27 and 28 are made with bends 29 and 30 at the ends. The bends are directed outward of the profile, and the width of the bend 30 of the shelf 28, made at an angle of 180 ° before contact with the outer surface of the shelf 28, is 15-23% of the total length of the shelf 28. In addition, the width of the bend 29 of the second shelf 27 is up to 40% of the total length this shelf, and at the end of the bend 29 of the second shelf, another bend 31 is made 150 ° ± 5 ° outward.

According to the third variant, the perforated angle profile of the building’s external thermal insulation has two shelves 32 and 33, oriented at an angle of 90 ° to each other. The shelf 32 is made with a 90 ° bend, while j acTOK a from the bend point to the beginning of the second shelf 33 is laid on this second shelf until it is in full contact with it, and the resulting length of this section a is 20-30% of the total length of the shelf.

According to the fourth variant, the perforated profile of the corner external thermal insulation of the building has two equal lengths of shelves 34 and 35, oriented at an angle of 90 ° to each other, on each of which double-row perforation is formed along the length of the profile. On each shelf 34 and 35 between the rows of perforations made longitudinal radial in cross section corrugation 36, curved outward of the profile. The junction of the shelves is made in the form of a cylindrical surface 37 with a radius of 58% of the total length of each shelf.

The profile for expansion joints of the building's external thermal insulation includes a perforated Wall 38 and a shelf 39. A corrugation 40 is made on the wall 38, having a U-shaped cross-section with rounding in the corner zone. The corrugation 41, made on the shelf 39 has the shape of a radial tip 42, oriented at an angle of 80 ° to the shelf 39.

The wrapping profile has a cross-sectional shape of an unequal angle and includes two shelves 43 and 44. The shelf 43 is made with a bend 45 at the end, which is directed inside the profile. The width of the bend 45 is 30-45% of the total length of the shelf 43 with bending, and the length of the second shelf 44 is 1.5 - 2.0 of the total length of the first shelf.

The lighthouse profile has fixing perforated shelves 46 and 47, symmetrical with respect to the longitudinal corrugation 48 and equal in width. On the shelves 46 and 47, corrugations 49 and 50 are made of a lower height than the longitudinal axial corrugation 48. Corrugations 49 and 50 are symmetrically located relative to the central axial corrugation 48.

The installation of the structure is carried out in a thin manner.

A vapor-breathable heat-insulating insulation 2 is attached to the outer wall 1 of the building (or the inner wall) with special glue or dowels using a metal crate.

Insulation plates 2 are laid on the perforated basement 4. Profile width is determined depending on the thickness of the insulation plate 2.

The lath, with which the insulation plates are attached to the wall, is formed by the profiles of the Z-shaped lathing. These profiles, as well as base profiles, are made of stainless or galvanized steel or aluminum alloy.

The insulation 2 is placed on the shelf 9 of the profile of the lathing close to the wall. The bent end sections 15 and 16 of the shelves 9 and 10 are pressed into the soft structure of the insulation and press it against the wall 8, as if increasing the rigidity of the insulation.

Structural elements - bends 11 and 12 are designed to increase the rigidity of the profiles of the crate. U-shaped notches 14 on the wall 8 are necessary for fixing the insulation 2 on the inclined sections of the wall 1. The notches 14 on one of the shelves can also be used when using a metal mesh 5 for insulation 2. When finishing an industrial building, it is possible to apply plaster on the insulation without a mesh.

Perforated corner profiles are used in the corners of the building for their decoration.

These profiles, as described above, can be made of aluminum alloys or steel (galvanized or stainless).

In places where seams are located on the wall, a profile for deformation seams is located, designed to exclude temperature deformations of the wall in the seam zone.

each of which is formed by double-row perforation along the length of the profile, and on

each shelf between the perforation rows has a longitudinal corrugation in the section, curved outward of the profile, and the junction of the shelves is made in the form of a cylindrical surface with a radius of 5-8% of the total length of each shelf. The profile for the expansion joints of the building's external thermal insulation includes a perforated corrugated wall and a corrugated shelf, the corrugation on the wall being made in a U-shaped section with fillets in the corner zone, and the corrugation on the shelf made radial with a tip oriented at an angle of 80 ° to the shelf. The final profile has the cross section in the shape of an unequal angle and includes two shelves, one of which is made with a bend at the end directed inside the profile, while the bend width is 30-45% of the total length of the bent shelf, and the length of the second shelf is 1.5 - 2.0 total length of the first shelf. The lighthouse profile is made with two shelves symmetrically located relative to the central axial longitudinal corrugation, while the shelves are made with longitudinal corrugations of a lower height than the central one, the shelves are perforated, while the height of the central axial corrugation determines the thickness of the plaster layer.

Claims (13)

1. The structure of the building’s external thermal insulation, containing a crate of Z-shaped profiles attached to the wall of the building, into which insulation plates are installed, a perforated corner profile to protect the edges of the corners from cleavage, a perforated basement profile serving as a support for insulation plates in the lower part of the wall and / or at balconies, a grid installed on top of insulation boards, and the outer layer of plaster. 2. The profile of the lathing of the external thermal insulation of the building, having in cross section a Z-shape formed by the wall and the shelves, and at least part of the wall is perpendicular to the shelves, characterized in that the wall of the profile is made with two bends at an angle of 130-155 ^o , oriented with respect to the wall in the direction opposite to the limb of the corresponding shelf.  3. The profile of the lathing of the external thermal insulation of the building according to claim 2, characterized in that on the bends of the wall and at least on one of the shelves U-shaped cuts are made with bending of the material for the contours of the wall and shelf.  4. The profile of the lathing of the external thermal insulation of the building according to claim 2, characterized in that it is made of galvanized steel, or stainless steel, or an aluminum alloy.  5. The profile of the lathing of the external thermal insulation of the building according to claim 2, characterized in that the end sections of the shelves are bent perpendicular to the shelves in the direction of the profile wall.  6. A perforated basement outer heat insulation profile of a building, having a cross-sectional shape of an unequal channel formed by a wall and perforated shelves, characterized in that the ratio of the lengths of the larger to the smaller shelves is from 2.3 to 4, the ratio of the length of the largest of the shelves to the length of the wall is from 0.30 to 0.55, while the wall in the area of the smaller shelf is made with a corrugation oriented along the longitudinal axis of the profile and directed outward, while the ratio of the height of the corrugation to its width is from 0.65 to 1.1. 7. A perforated profile of an angular external thermal insulation of a building, having shelves oriented at an angle of 90 ^{° to} each other, characterized in that at the junction of the shelves a section is formed having two parallel walls in section, radially bent at an angle of 135 ^° with respect to the shelves and directed outward of the profile, and the indicated walls were interconnected along a cylindrical surface with a radius of at least 2.0 mm, and notches were formed on the shelves, forming tongues, bent 180 ^o from the plane of the shelves towards the ends of the shelves. 8. The perforated profile of the corner external thermal insulation of the building, having two shelves oriented at an angle of 100 ^{o to} each other, characterized in that the shelves are made with bends at the ends directed outward of the profile, while the width of the bend of one of the shelves made at an angle of 180 ^o before contact with the outer surface of the shelf, it is 15-23% of the total length of the shelf, and the width of the limb of the second shelf is up to 40% of the total length of this shelf, and at the end of the bend of the second shelf there is another bend of 150 ^o directed outward. 9. The perforated profile of the corner external thermal insulation of the building, having two shelves oriented at an angle of 90 ^{o to} each other, characterized in that one of the shelves is made with a 90 ^o bend, while the section from the bend to the beginning of the second shelf is laid on the second shelf to full contact with it, and the length of this section is 20-30% of the total length of the shelf. 10. The perforated profile of the corner external thermal insulation of the building, having two equal length shelves, oriented at an angle of 90 ^{o to} each other, characterized in that on each of the shelves along the length of the profile a double-row perforation is formed, and on each shelf between the rows of perforations there is a longitudinal radial in the corrugation section, the profile is curved outward, and the junction of the shelves is made in the form of a cylindrical surface with a radius of 5-8% of the total length of each shelf. 11. A profile for expansion joints of the building's external thermal insulation, including a perforated corrugated wall and a corrugated shelf, characterized in that the corrugation on the wall is made in a U-shaped section with rounding in the corner zone, and the corrugation on the shelf is made radial with a tip oriented at an angle 80 ^o to the shelf.  12. The final profile, having the cross section in the form of an unequal angle and including two shelves, one of which is made with a bend at the end directed inside the profile, characterized in that the bend width is 30-45% of the total length of the bent shelf, and the length of the second shelf is 1.5-2.0 of the total length of the first shelf. 13. The lighthouse profile, made with a longitudinal axial central corrugation, determining the thickness of the plaster layer, having two fixing shelves, perforated, symmetrical with respect to the central corrugation and equal to each other, characterized in that the shelves are made along the corrugation of a lower height than the main corrugation, symmetrically located on either side of it.