WO2015160323A1 - System for insulating contours of buildings (variants) - Google Patents
System for insulating contours of buildings (variants) Download PDFInfo
- Publication number
- WO2015160323A1 WO2015160323A1 PCT/UA2015/000034 UA2015000034W WO2015160323A1 WO 2015160323 A1 WO2015160323 A1 WO 2015160323A1 UA 2015000034 W UA2015000034 W UA 2015000034W WO 2015160323 A1 WO2015160323 A1 WO 2015160323A1
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- WIPO (PCT)
- Prior art keywords
- type
- building
- recesses
- insulation
- contour
- Prior art date
Links
- 239000000853 adhesive Substances 0.000 claims abstract description 16
- 230000001070 adhesive effect Effects 0.000 claims abstract description 16
- 239000000203 mixture Substances 0.000 claims abstract description 4
- 238000009413 insulation Methods 0.000 claims description 40
- 238000009434 installation Methods 0.000 claims description 9
- 239000007787 solid Substances 0.000 claims description 5
- 238000010422 painting Methods 0.000 claims description 2
- 230000000694 effects Effects 0.000 abstract description 2
- 239000012212 insulator Substances 0.000 abstract 7
- 239000003973 paint Substances 0.000 abstract 1
- 239000006260 foam Substances 0.000 description 5
- 238000010276 construction Methods 0.000 description 4
- 238000009422 external insulation Methods 0.000 description 3
- 229920006248 expandable polystyrene Polymers 0.000 description 2
- 229910052751 metal Inorganic materials 0.000 description 2
- 239000002184 metal Substances 0.000 description 2
- 229910052782 aluminium Inorganic materials 0.000 description 1
- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 description 1
- 238000005253 cladding Methods 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 239000004795 extruded polystyrene foam Substances 0.000 description 1
- 239000011810 insulating material Substances 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 230000005855 radiation Effects 0.000 description 1
- 239000007858 starting material Substances 0.000 description 1
Classifications
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B1/00—Constructions in general; Structures which are not restricted either to walls, e.g. partitions, or floors or ceilings or roofs
- E04B1/62—Insulation or other protection; Elements or use of specified material therefor
- E04B1/74—Heat, sound or noise insulation, absorption, or reflection; Other building methods affording favourable thermal or acoustical conditions, e.g. accumulating of heat within walls
- E04B1/76—Heat, sound or noise insulation, absorption, or reflection; Other building methods affording favourable thermal or acoustical conditions, e.g. accumulating of heat within walls specifically with respect to heat only
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04F—FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
- E04F13/00—Coverings or linings, e.g. for walls or ceilings
- E04F13/07—Coverings or linings, e.g. for walls or ceilings composed of covering or lining elements; Sub-structures therefor; Fastening means therefor
- E04F13/072—Coverings or linings, e.g. for walls or ceilings composed of covering or lining elements; Sub-structures therefor; Fastening means therefor composed of specially adapted, structured or shaped covering or lining elements
- E04F13/075—Coverings or linings, e.g. for walls or ceilings composed of covering or lining elements; Sub-structures therefor; Fastening means therefor composed of specially adapted, structured or shaped covering or lining elements for insulation or surface protection, e.g. against noise or impact
Definitions
- the invention relates to the field of construction, and more precisely, can be applied to all already built buildings and structures, as well as in new design solutions.
- the objective of this invention is to create a new system of insulation of buildings and structures based on inexpensive modern materials and also fully finished components with a finishing surface, allowing to warm buildings and structures with a design design and any fantasy of the architect in the external design.
- the building insulation system consists of solid contour heaters at the corners of the building to be insulated, window openings, plane fracture points, solid heaters on a flat surface, that’s all with a finishing primer and painting of the front surface ready for installation, protected from the effects of ultraviolet radiation and other external factors, in which on the adjoining surface, to the external base of the building, there are recesses of the “dovetail” type with adhesive composition as well as recesses and bulges located diagonally in the end face of the insulation, characterized in that one part contains recesses of the “mother” type and the other of the convexity of the “father” type, and through the recesses of the “mother” type, the insulation is attached to the insulated base of the buildings dowels and recesses face on these thermal insulating materials such as "dad” includes tightly into the end recess of the "mother” and is hermetically connected to it with an adhesive solution, protecting the dowel from the external environment, and forming a continuous outer surface finish sealed.
- An example of a building insulation system consists of contour angular guide rails of insulation 11, window 6, and at the points of fracture of the planes of the building to be insulated. Insulation 1, with a given finish face, is inserted into the starting corner contour insulation 11, mounted on the side of the building. Moreover, it is advisable to start the installation from the upper corner of the building (there is less chance of damage to the finish face of the insulation), completely closing the external contour around the perimeter.
- figure 1. depicts the surface of a building with monolithic heaters of type 1 (extruded polystyrene foam).
- Fig.Z a plate of foamed polystyrene foam insulation 2 is shown, with a single retainer, and the “father” and “mother” contours along the diagonal, along the entire contour.
- FIG 4. a plate of foamed polystyrene foam insulation 1 is shown, with double clamps at the ends of the contour of the “father” and “mother” type diagonally, along the entire contour.
- Fig.5. the variant of joining two monolithic insulation sheets 1 mounted with a dowel 7 on the mounting strip 3 is shown. As well as the outer base of the building 4 and adhesive 5 on the insulation.
- Fig.6 The second version of the connection of two monolithic insulation sheets 2 is shown, with double clamps at the ends of the circuit, mounted with a dowel 7 on the mounting strip 3. As well as the outer base of the building 4 and adhesive 5 on the insulation. 7. shows a section of the plane of contact of monolithic insulation sheets 2 with adhesive 5 on the surface of the building 4.
- Fig. depicted is a corner window starter 6, fixed on the facade base with a dowel 7, and connected to the facade heater 2, as well as a window latch 8 fixed on the surface of the base 4 with the dowel 9.
- Fig.9. shows a section of the starting corner connector 11 with an oval external corner, with double bulges “father” and concavities “mother” along the starting contours, adhesive 5 and fixing dowels 7, facade insulation 2 on the surface of the building 4.
- depicted is a sectional view of the starting contour corner connector 13 with recesses on the outer surface, with double bulges “male” and concavities “female” along the contour, adhesive 5, with fixing dowels 7, and insulation 2 on the surface of the base 4 .
- Fig. depicts a sectional view of the starting contour corner connector 14 with an oval external angle, bulges on the outer surface, with double bulges, “male” and concavities “mother” along the contour, adhesive 5, with fixing dowels 7, and insulation 2 based on 4.
- window unit 15 with a starting window. insulation 16.
- the window block 15 is shown, fixed on the external surface of the building 4 with construction foam 17, insulation 16 with an oval angle attached to the surface of the building 4 with dowels 7, and an internal slope 18.
- the window block 10 is shown, fixed on the external surface of the building 4 with construction foam 17 and the starting insulation 16 with a solid cast-in window sill attached to the surface of the building 4 with dowels 7, and an internal slope 18.
- the starting window block 10 is shown, fixed on the external surface of the building 4 with construction foam 17, a monolithically molded insulation 16 with a window sill 19, attached to the surface of the building 4 with dowels 7, and an internal slope 18.
- the building insulation system is mounted, starting from the contour angular guide rails of insulation 11, windows 6, 16, and at the points of fracture of the planes of the building to be insulated. Insulation 1 or 2, with a given finishing face, is inserted into the starting corner contour insulation 11, 13, or 14 fixed on the side of the building. Moreover, it is advisable to start the installation from the upper corner of the building (there is less likelihood of damage to the finish face) completely closing the external contour around the perimeter.
Landscapes
- Engineering & Computer Science (AREA)
- Architecture (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Physics & Mathematics (AREA)
- Acoustics & Sound (AREA)
- Electromagnetism (AREA)
- Building Environments (AREA)
Abstract
A system for insulating the contours of buildings consisting of single-piece contour insulators positioned at the angles of a building to be insulated, at window openings, and at places where planes are broken, and consisting of single-piece insulators positioned on even surfaces, wherein all insulators are coated in finishing primer and paint on the front surface which is ready to be installed, which is protected against the effects of ultraviolet light and other external factors; the surfaces of the insulators which abut the outer foundation of a building are provided with "dovetail"-type recesses, with an adhesive composition; recesses and convexities are positioned diagonally at the end contour of an insulator and are characterized in that one portion thereof contains "female"-type recesses and another portion thereof contains "male"-type convexities; wherein an insulator is secured, by means of the "female"-type recesses, to building foundations to be insulated, with the help of dowels, and the "male"-type end recesses on the following insulators fit snugly in the "female"-type end recesses and are connected thereto hermetically by means of an adhesive solution, thus protecting the dowels from the external environment and forming a continuous hermetic finished outer surface.
Description
Система утепления Insulation system
контура зданий (варианты). contour of buildings (options).
Изобретение относится к области строительства, а точнее может быть применено для всех уже построенных зданиях и сооружениях, а также в новых проектных решениях. The invention relates to the field of construction, and more precisely, can be applied to all already built buildings and structures, as well as in new design solutions.
Известны различные системы утепления зданий, нап- ример (патент Украины UA 94720 С2), содержащий вертикаль- ные направляющие в которые вставляется утеплитель. Но дан- ное устройство утепления, также как и практически все осталь- ные, содержат направляющие из металла (плюс ко всему и ме- таллическую либо алюминиевую облицовку) что также является экраном для воздушной связи. Плюс ко всему различные обли- цовки не в полной мере соответствуют пожарным и экологичес- ким нормам (например, пожар в Грозненской высотке). Various building insulation systems are known, for example (Ukrainian patent UA 94720 C2) containing vertical guides into which the insulation is inserted. But this insulation device, like almost all the others, contains metal guides (plus metal and aluminum cladding), which is also a screen for air communication. In addition, various facings do not fully comply with fire and environmental standards (for example, a fire in the Grozny high-rise).
Данные устройства внешнего утепления зданий также имеют немалую стоимость и не полностью утепляют контур здания (балконы лоджии пожарные переходы). Известные уст- ройства внешнего утепления зданий зачастую имеют сложную и дорогостоящую систему, требующую длительную установку. These devices for external insulation of buildings also have a considerable cost and do not completely insulate the contour of the building (loggia balconies fire passages). Known devices for the external insulation of buildings often have a complex and expensive system that requires a long installation.
Задачей данного изобретения является создание новой системы утепления зданий и сооружений основанной на недорогих современных материалах и также полностью готовых комплектующих с финишной поверхностью, позволяющих утеп- лять здания и сооружения с проектным дизайном и любой фан- тазии архитектора во внешнем оформлении. The objective of this invention is to create a new system of insulation of buildings and structures based on inexpensive modern materials and also fully finished components with a finishing surface, allowing to warm buildings and structures with a design design and any fantasy of the architect in the external design.
Данная задача достигается тем, что система утепления контура зданий состоит из цельных контурных утеплителей по углам утепляемого здания, оконным проёмам, местах перелома плоскостей, цельных утеплителей на ровной поверхности, при-
чём все с финишной грунтовкой и покраской лицевой поверх- ности готовой к монтажу, защищенной от воздействия ультра- фиолета и других внешних факторов, у которых на поверхности примыкания, к внешней основе здания, содержатся выемки ти- па «ласточкина хвоста», с клеящим составом, а также выемки и выпуклости расположенные по диагонали, в торцевом контуре утеплителя отличающиеся тем, что одна их часть содержит выемки типа «мама», а другая выпуклости типа «папа», причём через выемки типа «мама» утеплитель крепится к утепляемой основе зданий при помощи дюбелей, а торцевые выемки на следующих утеплителях типа «папа» входят плотно в торцевые выемки типа «мама» и соединяются с ней герметично клеящим раствором, защищая дюбеля от внешней среды и образуя сплошную герметичную финишную внешнюю поверхность. This task is achieved by the fact that the building insulation system consists of solid contour heaters at the corners of the building to be insulated, window openings, plane fracture points, solid heaters on a flat surface, that’s all with a finishing primer and painting of the front surface ready for installation, protected from the effects of ultraviolet radiation and other external factors, in which on the adjoining surface, to the external base of the building, there are recesses of the “dovetail” type with adhesive composition as well as recesses and bulges located diagonally in the end face of the insulation, characterized in that one part contains recesses of the “mother” type and the other of the convexity of the “father” type, and through the recesses of the “mother” type, the insulation is attached to the insulated base of the buildings dowels and recesses face on these thermal insulating materials such as "dad" includes tightly into the end recess of the "mother" and is hermetically connected to it with an adhesive solution, protecting the dowel from the external environment, and forming a continuous outer surface finish sealed.
Пример системы утепления зданий состоит из контур- ных угловых направляющих утеплителей 11, оконных 6, и в местах перелома плоскостей утепляемого здания. Утеплитель 1, с заданной финишной лицевой поверхностью вставляется в стартовый угловой контурный утеплитель 11, закреплённый на боковой грани здания. Причём монтаж желательно начинать с верхней угловой части здания (меньше вероятность повреж- дения финишной лицевой поверхности утеплителей) полностью замыкая внешний контур по периметру. При монтаже цельного утеплителя 1 или 2, с клеящим составом в пазы стартовых угловых направляющих утеплителей 11 либо оконных 6, 16, уже зафиксированных на поверхности здания вставляется часть утеплителя с выпуклостями типа «папа», а вогнутости типа «мама» крепятся к внешней утепляемой основе здания при помощи дюбелей 7, причём угол наклона дюбеля в сторону
монтажа, позволяет плотно прижать выпуклости типа «папа», предварительно смазанные клеящим составом, к выемкам типа «мама». Дальнейший монтаж монолитного либо 1 или 2 произ- водится поперек здания до полного замыкания поперечного пояса утепления. Далее производится монтаж следующего ряда утеплителя 1 до окончания монтажа на вертикальной нулевой отметке здания (возможен также вариант и вертикального монтажа, более быстрый, но требующий аккуратности). An example of a building insulation system consists of contour angular guide rails of insulation 11, window 6, and at the points of fracture of the planes of the building to be insulated. Insulation 1, with a given finish face, is inserted into the starting corner contour insulation 11, mounted on the side of the building. Moreover, it is advisable to start the installation from the upper corner of the building (there is less chance of damage to the finish face of the insulation), completely closing the external contour around the perimeter. When mounting an integral heater 1 or 2, with an adhesive, in the grooves of the starting corner guides of the insulation 11 or window 6, 16, already fixed on the surface of the building, a part of the insulation with bulges of the "father" type is inserted, and the concavities of the "mother" type are attached to the external insulation base buildings with dowels 7, and the angle of the dowel to the side installation, allows you to firmly press the bulge type "father", pre-lubricated with adhesive, to the recesses of the type "mother". Further installation of monolithic either 1 or 2 is carried out across the building until the transverse insulation belt is completely closed. Next, the installation of the next row of insulation 1 is carried out until the installation is completed at the vertical zero mark of the building (vertical mounting is also possible, which is faster, but requires accuracy).
На фиг.1. изображена поверхность здания с монолит- ными утеплителями типа 1 (экструдированным пенополистро- лом). In figure 1. depicts the surface of a building with monolithic heaters of type 1 (extruded polystyrene foam).
На фиг.2. изображена поверхность здания с моно- литными утеплителями типа 1, смонтированных со сдвигом относительно, стартового первого утеплителя. In figure 2. the surface of the building with monolithic heaters of type 1, mounted with a shift relative to the starting first heater, is shown.
На фиг.З. изображена плита вспененного пенополисти- рола утеплителя 2, с одиночным фиксатором, и контурами «папа» и «мама» по диагонали, по всему контуру. In Fig.Z. a plate of foamed polystyrene foam insulation 2 is shown, with a single retainer, and the “father” and “mother” contours along the diagonal, along the entire contour.
На фиг.4. изображена плита вспененного пенополисти- рола утеплителя 1, с двойными фиксаторами по торцам контура плиты типа «папа» и «мама» по диагонали, по всему контуру. In figure 4. a plate of foamed polystyrene foam insulation 1 is shown, with double clamps at the ends of the contour of the “father” and “mother” type diagonally, along the entire contour.
На фиг.5. изображён вариант соединения двух моно- литных утеплительных листов 1 смонтированных с помощью дюбеля 7 на монтажной полосе 3. А также внешняя основа здания 4 и клеящий состав 5 на утеплителях. In Fig.5. the variant of joining two monolithic insulation sheets 1 mounted with a dowel 7 on the mounting strip 3 is shown. As well as the outer base of the building 4 and adhesive 5 on the insulation.
На фиг.6. изображён второй вариант соединения двух монолитных утеплительных листов 2, с двойными фиксаторами по торцам контура, смонтированных с помощью дюбеля 7 на монтажной полосе 3. А также внешняя основа здания 4 и клеящий состав 5 на утеплителях.
На фиг.7. изображён разрез плоскости прилегания монолитных утеплительных листов 2 с клеящим составом 5 на поверхность здания 4. In Fig.6. The second version of the connection of two monolithic insulation sheets 2 is shown, with double clamps at the ends of the circuit, mounted with a dowel 7 on the mounting strip 3. As well as the outer base of the building 4 and adhesive 5 on the insulation. 7. shows a section of the plane of contact of monolithic insulation sheets 2 with adhesive 5 on the surface of the building 4.
На фиг.8. изображён угловой оконный стартовый утеплитель 6, закреплённый на фасадной основе дюбелем 7, и входящий в соединение с фасадным утеплителем 2, а также оконный фиксатор 8 закреплённый на поверхности основы 4 при помощи дюбеля 9. Клеящий состав 5 на внешней поверх- ности здания 4, и рама окна 10. On Fig. depicted is a corner window starter 6, fixed on the facade base with a dowel 7, and connected to the facade heater 2, as well as a window latch 8 fixed on the surface of the base 4 with the dowel 9. Adhesive 5 on the outer surface of the building 4, and window frame 10.
На фиг.9. изображен разрез стартового углового соединителя 11 с овальным внешним углом, с двойными выпуклостями «папа» и вогнутостями «мама» по стартовым контурам, клеящий состав 5 и крепёжные дюбели 7, фасадным утеплителем 2 на поверхности здания 4. In Fig.9. shows a section of the starting corner connector 11 with an oval external corner, with double bulges “father” and concavities “mother” along the starting contours, adhesive 5 and fixing dowels 7, facade insulation 2 on the surface of the building 4.
На фиг.10. изображен вогнутый монолитный утепли- тель 12 с клеящим составом 5, на поверхности основы 4. 10. a concave monolithic insulation 12 with an adhesive composition 5 is shown on the surface of the base 4.
На фиг.11. изображен вариант разреза стартового кон- турного углового соединителя 13 с выемками на внешней по- верхности, с двойными выпуклостями «папа» и вогнутостями «мама» по контуру, клеящим составом 5, с крепёжными дюбе- лями 7, и утеплителем 2 на поверхности основы 4. 11. depicted is a sectional view of the starting contour corner connector 13 with recesses on the outer surface, with double bulges “male” and concavities “female” along the contour, adhesive 5, with fixing dowels 7, and insulation 2 on the surface of the base 4 .
На фиг.12. изображен вариант разреза стартового кон- турного углового соединителя 14 с овальным внешним углом, выпуклостями на внешней поверхности, с двойными выпуклос- тями, «папа» и вогнутостями «мама» по контуру, клеящим сос- тавом 5, с крепёжными дюбелями 7, и утеплителем 2 на основе 4. On Fig. depicts a sectional view of the starting contour corner connector 14 with an oval external angle, bulges on the outer surface, with double bulges, “male” and concavities “mother” along the contour, adhesive 5, with fixing dowels 7, and insulation 2 based on 4.
На фиг.13. изображен оконный блок 15 со стартовым оконным .утеплителем 16.
На фиг.14. изображен оконный блок 15 зафиксирован- ный на внешней поверхности здания 4 строительной пеной 17, утеплителем 16 с овальным углом, прикреплённым к поверх- ности здания 4 дюбелями 7, и внутренним откосом 18. On Fig. depicted window unit 15 with a starting window. insulation 16. On Fig. The window block 15 is shown, fixed on the external surface of the building 4 with construction foam 17, insulation 16 with an oval angle attached to the surface of the building 4 with dowels 7, and an internal slope 18.
На фиг.15. изображен оконный блок 10 зафиксирован- ный на внешней поверхности здания 4 строительной пеной 17 и стартовым утеплителем 16 с цельнолитым подоконником, прикреплённым к поверхности здания 4 дюбелями 7, и внутрен- ним откосом 18. On Fig. the window block 10 is shown, fixed on the external surface of the building 4 with construction foam 17 and the starting insulation 16 with a solid cast-in window sill attached to the surface of the building 4 with dowels 7, and an internal slope 18.
На фиг.16. изображен стартовый оконный блок 10 зафиксированный на внешней поверхности здания 4 строи- тельной пеной 17, монолитно сформованный утеплитель 16 с подоконником 19, прикреплённый к поверхности здания 4 дюбелями 7, и внутренним откосом 18. On Fig. the starting window block 10 is shown, fixed on the external surface of the building 4 with construction foam 17, a monolithically molded insulation 16 with a window sill 19, attached to the surface of the building 4 with dowels 7, and an internal slope 18.
Система утепления контура зданий монтируется, начиная с контурных угловых направляющих утеплителей 11, оконных 6, 16, и в местах перелома плоскостей утепляемого здания. Утеплитель 1 или 2, с заданной финишной лицевой поверхностью вставляется в стартовый угловой контурный утеплитель 11, либо 13, или 14 закреплённый на боковой грани здания. Причём монтаж желательно начинать с верхней угловой части здания (меньше вероятность повреждения финишной лицевой поверхности) полностью замыкая внешний контур по периметру.
The building insulation system is mounted, starting from the contour angular guide rails of insulation 11, windows 6, 16, and at the points of fracture of the planes of the building to be insulated. Insulation 1 or 2, with a given finishing face, is inserted into the starting corner contour insulation 11, 13, or 14 fixed on the side of the building. Moreover, it is advisable to start the installation from the upper corner of the building (there is less likelihood of damage to the finish face) completely closing the external contour around the perimeter.
Claims
1. Система утепления контура зданий состоит из цельных контурных утеплителей по углам утепляемого здания, оконным проёмам, местах перелома плоскостей, цельных утеплителей на ровной поверхности, причём все с финишной грунтовкой и покраской лицевой поверхности готовой к монтажу, защищен- ной от воздействия ультрафиолета и других внешних факторов, у которых на поверхности примыкания, к внешней основе зда- ния, содержатся выемки типа «ласточкина хвоста», с клеящим составом, а также выемки и выпуклости расположенные по диагонали, в торцевом контуре утеплителя отличающиеся тем, что одна их часть содержит выемки типа «мама», а другая выпуклости типа «папа», причём через выемки типа «мама» утеплитель крепится к утепляемой основе зданий при помощи дюбелей, а торцевые выемки на следующих утеплителях типа «папа» входят плотно в торцевые выемки типа «мама» и соединяются с ней герметично клеящим раствором, защищая дюбеля от внешней среды и образуя сплошную герметичную финишную внешнюю поверхность.
1. The building contour insulation system consists of solid contour heaters at the corners of the building to be insulated, window openings, plane fracture points, solid heaters on a flat surface, all with a finish primer and painting of the front surface ready for installation, protected from UV and other external factors, which on the adjoining surface, to the external basis of the building, contain notches of the "dovetail" type with adhesive composition, as well as notches and bulges located diagonally in the end face insulation lines characterized in that one of their parts contains recesses of the “mother” type, and the other convexities of the “father” type, moreover, through the recesses of the “mother” type, the insulation is attached to the insulated base of buildings with dowels, and the end recesses on the following insulation of the “father” type "Enter tightly into the end recesses of the" mother "type and are connected to it by a hermetically adhesive solution, protecting the dowels from the external environment and forming a continuous sealed finishing external surface.
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
RU2014114683/03A RU2014114683A (en) | 2014-04-14 | 2014-04-14 | BUILDING CIRCUIT WARMING SYSTEM (OPTIONS) |
RU2014114683 | 2014-04-14 | ||
UAA201405092 | 2014-05-13 | ||
UA201405092 | 2014-05-13 |
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WO2015160323A1 true WO2015160323A1 (en) | 2015-10-22 |
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PCT/UA2015/000034 WO2015160323A1 (en) | 2014-04-14 | 2015-04-14 | System for insulating contours of buildings (variants) |
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EA000272B1 (en) * | 1995-07-14 | 1999-02-25 | Партек Парок Ой Аб | A device for attaching a wall element to a backing structure |
RU24485U1 (en) * | 2002-01-11 | 2002-08-10 | Скрипкин Борис Константинович | FACING THE WALLS OF BUILDINGS |
RU2241102C1 (en) * | 2004-01-14 | 2004-11-27 | Морозов Геннадий Яковлевич | Method and device for vented facade mounting without marks and conducting unit for assembling and feeding multi-layered heat insulation for wall enclosure forming |
RU126730U1 (en) * | 2012-11-30 | 2013-04-10 | Общество с ограниченной ответственностью "Артель Ф" (ООО "Артель Ф") | HEAT FRONT PANEL |
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2015
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EA000272B1 (en) * | 1995-07-14 | 1999-02-25 | Партек Парок Ой Аб | A device for attaching a wall element to a backing structure |
RU24485U1 (en) * | 2002-01-11 | 2002-08-10 | Скрипкин Борис Константинович | FACING THE WALLS OF BUILDINGS |
RU2241102C1 (en) * | 2004-01-14 | 2004-11-27 | Морозов Геннадий Яковлевич | Method and device for vented facade mounting without marks and conducting unit for assembling and feeding multi-layered heat insulation for wall enclosure forming |
RU126730U1 (en) * | 2012-11-30 | 2013-04-10 | Общество с ограниченной ответственностью "Артель Ф" (ООО "Артель Ф") | HEAT FRONT PANEL |
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