Bartók Member School of the 21st district and the infrastructure development of the members’ crèche of Napragó (Q3958403): Difference between revisions
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THE AIM OF THE PROJECT IS TO: The aim of the tender is to renovate the joint building of the kindergartens and nursery in Budapest XXII. district, Bartók Béla Street 4, and to develop infrastructure in order to maintain the places in the institutions at the right level, and to provide a suitable environment for the care and upbringing of children. In the building to be developed, the Napraforgó Member Crague with 80 seats, the Bartók Member-Kindergarten with 158 seats, and the Halacska Reformed Kindergarten maintained by the Reformed Church with 70 seats. The ecclesiastical maintainer participates in the mandatory task of the Municipality as stipulated in the public education contract. TECHNICAL AND TECHNICAL CONTENT OF THE PROJECT: The plans for the thermal insulation of the building on the façade were prepared in 2009 in accordance with the requirements of thermal engineering at that time. As part of this project, the building is partially accessible (partial physical and info-communication AKM), flat roofs and facades are coated with a retrospective thermal insulation system to meet today’s stricter energy requirements. FACADE THERMAL INSULATION: The doors and windows in the building have been refurbished/replaced, the existing wooden doors and windows are of good quality and there is no reason to replace them. The current outer surface of the building is the orange façade colouring paint applied above the plinth to the reinforced concrete bark panel, the concrete plinth and the strip between the panels. The texture of the surface, with the exception of a few broken heels to be removed, is of good quality and is suitable for receiving the designed thermal insulation system. Neither on the plinth nor inside the building there are traces of wetting resulting from soil moisture, the quality of the waterproofing is adequate, therefore there is no such obstacle to subsequent thermal insulation. The building is covered with 8 cm thick panels mounted on reinforced concrete load-bearing pillars, with an outer surface of reinforced concrete, in front of the 20 cm thick ceramic frame filler brick walls. The total thickness of the wall structure is 30 cm. According to the vapor engineering calculation, regardless of the thickness of the internal insulation, there is no dew point in the wall structure and therefore complies with the relevant standards. The current energy standard requires U=0.24 W/m2K in relation to the external boundaries of the building. To achieve this, the entire exterior masonry is solved with a 12 cm LB Knauf Thermo System Grafit thermal insulation system (12+ 5 cm in thickness between the VB facade panels, 12+ 5 cm in order to disappear between the VB facade panels, and complemented with 17 cm LB Knauf Mineral strips, 20 cm high strips around the facade, 12 cm thick between the Fsz and floor windows and 12 cm thick on the arcade floors) and 12 cm thick PS plate and plaster covering on the plinth. With this technical solution, the facade surfaces everywhere become uniform planes without rhetoric. The attachment shall be carried out in accordance with the dubels and scheme in accordance with the attached protocol and by gluing. Thermal insulation shall be carried out on all outer wall planes from the pavement or terrace floor to the galvanised plate used to cover the attic walls. Non-accessible flat roof layer pattern: — 2 rtgs. Bituminous plate waterproofing (the upper palazuza with spraying) — 1 rtg. Aluminum vapor pressure equaliser — 2x10 cm Ceramic bulkhead plate laid — 1 rtg. Alufoil vapor barrier — 5-10 cm in concrete slope — 19 cm Sym-car slab slab The layer order does not meet the current energy requirements, which requires U=0.17 W/m2K on the flat roof. To remedy this, we create layers on the roof that meet not only the new energy requirements, but also the new fire safety requirements (OTSZ). According to the calculation, the degree of thermal insulation required using rock wool certified as B (t1) in accordance with fire protection regulations (?D? 0.038 W/m2K) 20 cm, the likelihood of condensation on the outer plane of the existing thermal insulation is very low, so we plan to install new air vents as 40 m², so it will be removed during the summer warming. The new layer order is as follows: — 1 rtg. EXTRAFLEX Plus P 5 kg slate powder coated mod. bit. end plate on whole surface with flame melt — 1 rtg. EXTRAFLEX GGV 4 mm SBS mod. bit. plate with glass fabric insert 4-5 pcs/m² — fixed with FDD+ 250 doll and light flame — 10 cm Rockwool Monrock Max E mechanical fastening (through 2 layers) — 10 cm Rockwool Roofrock 40 — Existing structures accessible flat roof SIGETING The thermal insulation of the roof of accessible, covered floor roofs is limited by existing geometric dimensions. Due to the height difference of up to 15 cm between the interior and the outer space and the bonded ceramic casing, these roofs are heat-insulated by laying insulation (with the upper thermal insula... (English) | |||||||||||||||
| Property / summary: THE AIM OF THE PROJECT IS TO: The aim of the tender is to renovate the joint building of the kindergartens and nursery in Budapest XXII. district, Bartók Béla Street 4, and to develop infrastructure in order to maintain the places in the institutions at the right level, and to provide a suitable environment for the care and upbringing of children. In the building to be developed, the Napraforgó Member Crague with 80 seats, the Bartók Member-Kindergarten with 158 seats, and the Halacska Reformed Kindergarten maintained by the Reformed Church with 70 seats. The ecclesiastical maintainer participates in the mandatory task of the Municipality as stipulated in the public education contract. TECHNICAL AND TECHNICAL CONTENT OF THE PROJECT: The plans for the thermal insulation of the building on the façade were prepared in 2009 in accordance with the requirements of thermal engineering at that time. As part of this project, the building is partially accessible (partial physical and info-communication AKM), flat roofs and facades are coated with a retrospective thermal insulation system to meet today’s stricter energy requirements. FACADE THERMAL INSULATION: The doors and windows in the building have been refurbished/replaced, the existing wooden doors and windows are of good quality and there is no reason to replace them. The current outer surface of the building is the orange façade colouring paint applied above the plinth to the reinforced concrete bark panel, the concrete plinth and the strip between the panels. The texture of the surface, with the exception of a few broken heels to be removed, is of good quality and is suitable for receiving the designed thermal insulation system. Neither on the plinth nor inside the building there are traces of wetting resulting from soil moisture, the quality of the waterproofing is adequate, therefore there is no such obstacle to subsequent thermal insulation. The building is covered with 8 cm thick panels mounted on reinforced concrete load-bearing pillars, with an outer surface of reinforced concrete, in front of the 20 cm thick ceramic frame filler brick walls. The total thickness of the wall structure is 30 cm. According to the vapor engineering calculation, regardless of the thickness of the internal insulation, there is no dew point in the wall structure and therefore complies with the relevant standards. The current energy standard requires U=0.24 W/m2K in relation to the external boundaries of the building. To achieve this, the entire exterior masonry is solved with a 12 cm LB Knauf Thermo System Grafit thermal insulation system (12+ 5 cm in thickness between the VB facade panels, 12+ 5 cm in order to disappear between the VB facade panels, and complemented with 17 cm LB Knauf Mineral strips, 20 cm high strips around the facade, 12 cm thick between the Fsz and floor windows and 12 cm thick on the arcade floors) and 12 cm thick PS plate and plaster covering on the plinth. With this technical solution, the facade surfaces everywhere become uniform planes without rhetoric. The attachment shall be carried out in accordance with the dubels and scheme in accordance with the attached protocol and by gluing. Thermal insulation shall be carried out on all outer wall planes from the pavement or terrace floor to the galvanised plate used to cover the attic walls. Non-accessible flat roof layer pattern: — 2 rtgs. Bituminous plate waterproofing (the upper palazuza with spraying) — 1 rtg. Aluminum vapor pressure equaliser — 2x10 cm Ceramic bulkhead plate laid — 1 rtg. Alufoil vapor barrier — 5-10 cm in concrete slope — 19 cm Sym-car slab slab The layer order does not meet the current energy requirements, which requires U=0.17 W/m2K on the flat roof. To remedy this, we create layers on the roof that meet not only the new energy requirements, but also the new fire safety requirements (OTSZ). According to the calculation, the degree of thermal insulation required using rock wool certified as B (t1) in accordance with fire protection regulations (?D? 0.038 W/m2K) 20 cm, the likelihood of condensation on the outer plane of the existing thermal insulation is very low, so we plan to install new air vents as 40 m², so it will be removed during the summer warming. The new layer order is as follows: — 1 rtg. EXTRAFLEX Plus P 5 kg slate powder coated mod. bit. end plate on whole surface with flame melt — 1 rtg. EXTRAFLEX GGV 4 mm SBS mod. bit. plate with glass fabric insert 4-5 pcs/m² — fixed with FDD+ 250 doll and light flame — 10 cm Rockwool Monrock Max E mechanical fastening (through 2 layers) — 10 cm Rockwool Roofrock 40 — Existing structures accessible flat roof SIGETING The thermal insulation of the roof of accessible, covered floor roofs is limited by existing geometric dimensions. Due to the height difference of up to 15 cm between the interior and the outer space and the bonded ceramic casing, these roofs are heat-insulated by laying insulation (with the upper thermal insula... (English) / rank | |||||||||||||||
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| Property / summary: THE AIM OF THE PROJECT IS TO: The aim of the tender is to renovate the joint building of the kindergartens and nursery in Budapest XXII. district, Bartók Béla Street 4, and to develop infrastructure in order to maintain the places in the institutions at the right level, and to provide a suitable environment for the care and upbringing of children. In the building to be developed, the Napraforgó Member Crague with 80 seats, the Bartók Member-Kindergarten with 158 seats, and the Halacska Reformed Kindergarten maintained by the Reformed Church with 70 seats. The ecclesiastical maintainer participates in the mandatory task of the Municipality as stipulated in the public education contract. TECHNICAL AND TECHNICAL CONTENT OF THE PROJECT: The plans for the thermal insulation of the building on the façade were prepared in 2009 in accordance with the requirements of thermal engineering at that time. As part of this project, the building is partially accessible (partial physical and info-communication AKM), flat roofs and facades are coated with a retrospective thermal insulation system to meet today’s stricter energy requirements. FACADE THERMAL INSULATION: The doors and windows in the building have been refurbished/replaced, the existing wooden doors and windows are of good quality and there is no reason to replace them. The current outer surface of the building is the orange façade colouring paint applied above the plinth to the reinforced concrete bark panel, the concrete plinth and the strip between the panels. The texture of the surface, with the exception of a few broken heels to be removed, is of good quality and is suitable for receiving the designed thermal insulation system. Neither on the plinth nor inside the building there are traces of wetting resulting from soil moisture, the quality of the waterproofing is adequate, therefore there is no such obstacle to subsequent thermal insulation. The building is covered with 8 cm thick panels mounted on reinforced concrete load-bearing pillars, with an outer surface of reinforced concrete, in front of the 20 cm thick ceramic frame filler brick walls. The total thickness of the wall structure is 30 cm. According to the vapor engineering calculation, regardless of the thickness of the internal insulation, there is no dew point in the wall structure and therefore complies with the relevant standards. The current energy standard requires U=0.24 W/m2K in relation to the external boundaries of the building. To achieve this, the entire exterior masonry is solved with a 12 cm LB Knauf Thermo System Grafit thermal insulation system (12+ 5 cm in thickness between the VB facade panels, 12+ 5 cm in order to disappear between the VB facade panels, and complemented with 17 cm LB Knauf Mineral strips, 20 cm high strips around the facade, 12 cm thick between the Fsz and floor windows and 12 cm thick on the arcade floors) and 12 cm thick PS plate and plaster covering on the plinth. With this technical solution, the facade surfaces everywhere become uniform planes without rhetoric. The attachment shall be carried out in accordance with the dubels and scheme in accordance with the attached protocol and by gluing. Thermal insulation shall be carried out on all outer wall planes from the pavement or terrace floor to the galvanised plate used to cover the attic walls. Non-accessible flat roof layer pattern: — 2 rtgs. Bituminous plate waterproofing (the upper palazuza with spraying) — 1 rtg. Aluminum vapor pressure equaliser — 2x10 cm Ceramic bulkhead plate laid — 1 rtg. Alufoil vapor barrier — 5-10 cm in concrete slope — 19 cm Sym-car slab slab The layer order does not meet the current energy requirements, which requires U=0.17 W/m2K on the flat roof. To remedy this, we create layers on the roof that meet not only the new energy requirements, but also the new fire safety requirements (OTSZ). According to the calculation, the degree of thermal insulation required using rock wool certified as B (t1) in accordance with fire protection regulations (?D? 0.038 W/m2K) 20 cm, the likelihood of condensation on the outer plane of the existing thermal insulation is very low, so we plan to install new air vents as 40 m², so it will be removed during the summer warming. The new layer order is as follows: — 1 rtg. EXTRAFLEX Plus P 5 kg slate powder coated mod. bit. end plate on whole surface with flame melt — 1 rtg. EXTRAFLEX GGV 4 mm SBS mod. bit. plate with glass fabric insert 4-5 pcs/m² — fixed with FDD+ 250 doll and light flame — 10 cm Rockwool Monrock Max E mechanical fastening (through 2 layers) — 10 cm Rockwool Roofrock 40 — Existing structures accessible flat roof SIGETING The thermal insulation of the roof of accessible, covered floor roofs is limited by existing geometric dimensions. Due to the height difference of up to 15 cm between the interior and the outer space and the bonded ceramic casing, these roofs are heat-insulated by laying insulation (with the upper thermal insula... (English) / qualifier | |||||||||||||||
point in time: 9 February 2022
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Revision as of 18:26, 9 February 2022
Project Q3958403 in Hungary
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Bartók Member School of the 21st district and the infrastructure development of the members’ crèche of Napragó |
Project Q3958403 in Hungary |
Statements
108,383,436 forint
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592,559.471 Euro
0.0027336256 Euro
15 December 2021
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216,766,872.0 forint
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49.999999 percent
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1 December 2017
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2 November 2019
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BUDAFOK-TÉTÉNY BUDAPEST XXII. KERÜLET ÖNKORMÁNYZATA
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47°29'30.62"N, 18°58'44.15"E
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A PROJEKT CÉLJA: A pályázat célja a Budapest XXII. kerületi Bartók Béla utca 4. szám alatt található óvodák és bölcsőde közös épületének felújítása, infrastruktúra fejlesztése annak érdekében, hogy az intézményekben levő férőhelyeket a megfelelő színvonalon fenn tudjuk tartani, megfelelő környezetet tudjunk biztosítani a gyermekek gondozásához, neveléséhez. A fejlesztendő épületben működik az önkormányzati fenntartású Napraforgó tagbölcsőde 80 férőhellyel, az önkormányzati fenntartású Bartók tagóvoda 158 férőhellyel, és a Református Egyház által fenntartott Halacska Református Óvoda 70 férőhellyel. Az egyházi fenntartó köznevelési szerződésben rögzítettek szerint vesz részt az Önkormányzat kötelező feladatának ellátásában. A PROJEKT SZAKMAI-MŰSZAKI TARTALMA: Az épület utólagos homlokzati hőszigetelésének tervei 2009-ben az akkori hőtechnikai elvárásoknak megfelelően készültek el. Jelen projekt keretében az épületet részben akadálymentesítjük (részleges fizikai és info-kommunikációs AKM), a lapostetőket és a homlokzatokat utólagos hőszigetelő rendszerrel vonjuk be megfelelve a mai, szigorúbb energetikai követelményeknek. HOMLOKZATI HŐSZIGETELÉS: Az épületen a nyílászárók felújítása / cseréje megtörtént, a meglévő faszerkezetű ajtók és ablakok minősége megfelelő, azok cseréje nem indokolt. Az épület jelenlegi külső felülete a lábazat felett vasbeton kéregpanelre felhordott narancssárga homlokzati színezőfesték, a beton lábazat és a panelek közötti sáv bordó. A felület állaga néhány eltávolítandó letört sarok kivételével jó minőségű, a tervezett hőszigetelő rendszer fogadására alkalmas. Sem a lábazaton, sem az épület belsejében nem látni a talajnedvességből eredő vizesedés nyomait, a vízszigetelés minősége megfelelő, ezért az utólagos hőszigetelésnek ilyen jellegű akadálya sincs. Az épületet vasbeton teherhordó pillérekre felerősített, vasbeton külső felületű, 8 cm vastag panelek burkolják a 20 cm vastag kerámia vázkitöltő téglafalak előtt. A falszerkezet teljes vastagsága 30 cm. A páratechnikai számítás szerint a belső szigetelés vastagságától függetlenül a falszerkezetben nem alakul ki harmatpont, tehát a vonatkozó szabványoknak megfelel. Az épület külső határolófalaival szemben a hatályos energetikai szabvány U=0,24 W/m2K értéket ír elő. Ennek teljesítésére a teljes külső falazatot 12 cm-es LB Knauf Thermo System Grafit hőszigetelő rendszerrel (a terveken jelölt helyeken 12+5 cm vastagságban hogy a VB homlokzati panelek közötti nútok eltűnjenek, illetve 17 cm-es LB Knauf Mineral csíkokkal kiegészítve 20 cm magas csíkban a homlokzaton körben, illetve 12 cm vastagságban a fsz-i és emeleti ablakok között, valamint az árkádfödémeken alulról 12 cm vastag felülettel) és a lábazatra elhelyezett 12 cm vastag formahabosított PS lemezzel és lábazati vakolat fedőréteggel oldjuk meg. Ezzel a műszaki megoldással a homlokzatfelületek mindenütt nútok nélküli, egyenletes síkokká válnak. A felerősítést a csatolt jegyzőkönyv szerinti dűbelekkel és séma szerint, valamint ragasztással kell végezni. A hőszigetelést minden külső falsíkon el kell végezni a járda-, illetve teraszszinttől az attika falak lefedésére szolgáló horganylemezig. NEM JÁRHATÓ LAPOSTETŐ SZIGETELÉS A lapostető rétegrendje: - 2 rtg. Bitumenes lemez vízszigetelés (a felső palazuzalék szórással) - 1 rtg. Alufóliás páranyomás kiegyenlítő - 2x10 cm Kerámia válaszfallap fektetve - 1 rtg. Alufóliás párazáró - 5-10 cm Kavicsbeton lejtésben - 19 cm Szim-kár födémpalló A rétegrend nem felel meg a hatályos energetikai követelményeknek, amely a lapostetőre U=0,17 W/m2K értéket ír elő. Ennek orvoslására a tetőn olyan rétegrendet alakítunk ki, ami nem csak az új, energetikai előírásokat, hanem az új tűzvédelmi követelményeket (OTSZ) is kielégíti. A számítás szerint, a szükséges hőszigetelés mértéke a tűzvédelmi előírásoknak megfelelő B (t1) minősítéssel rendelkező kőzetgyapot szigetelés használatával (?D ? 0,038 W/m2K) 20 cm, a meglévő hőszigetelés külső síkján a kondenzáció megjelenésének valószínűsége igen csekély, ezért új páraszellőzőket 40 m2-ként tervezünk beépíteni, így az a nyári felmelegedés alkalmával ezeken keresztül távozik. Az új rétegrend a következő: - 1 rtg. Extraflex Plus P 5kg-os palaőrlemény bevonatú mod. bit. zárólemez teljes felületen lángolvasztva - 1 rtg. Extraflex GGV 4mm SBS mod. bit. lemez üvegszövet betéttel 4-5 db/m2 - Ejot FDD+ 250 dübellel és enyhe lánggal olvasztva rögzítve - 10 cm Rockwool Monrock Max E mechanikai rögzítéssel (a 2 rétegen át) - 10 cm Rockwool Roofrock 40 - Meglévő szerkezetek JÁRHATÓ LAPOSTETŐ SZIGETELÉS A járható, fedett emeleti terasztetők tetejének hőszigetelését a meglévő geometriai méretek határolják be. A belső és a külső tér közötti, max. 15 cm-es szintkülönbség és a ragasztott kerámia burkolat miatt ezeket a tetőket 10 cm vastagságú Rockwool Monrock Max E kőzetgyapot szigetelés lefektetésével hőszigeteljük (a nem járható zárófödémek felső hőszigetelő rétegével) leterheléses rögzítéssel, páraszellőzők beépítése (Hungarian)
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THE AIM OF THE PROJECT IS TO: The aim of the tender is to renovate the joint building of the kindergartens and nursery in Budapest XXII. district, Bartók Béla Street 4, and to develop infrastructure in order to maintain the places in the institutions at the right level, and to provide a suitable environment for the care and upbringing of children. In the building to be developed, the Napraforgó Member Crague with 80 seats, the Bartók Member-Kindergarten with 158 seats, and the Halacska Reformed Kindergarten maintained by the Reformed Church with 70 seats. The ecclesiastical maintainer participates in the mandatory task of the Municipality as stipulated in the public education contract. TECHNICAL AND TECHNICAL CONTENT OF THE PROJECT: The plans for the thermal insulation of the building on the façade were prepared in 2009 in accordance with the requirements of thermal engineering at that time. As part of this project, the building is partially accessible (partial physical and info-communication AKM), flat roofs and facades are coated with a retrospective thermal insulation system to meet today’s stricter energy requirements. FACADE THERMAL INSULATION: The doors and windows in the building have been refurbished/replaced, the existing wooden doors and windows are of good quality and there is no reason to replace them. The current outer surface of the building is the orange façade colouring paint applied above the plinth to the reinforced concrete bark panel, the concrete plinth and the strip between the panels. The texture of the surface, with the exception of a few broken heels to be removed, is of good quality and is suitable for receiving the designed thermal insulation system. Neither on the plinth nor inside the building there are traces of wetting resulting from soil moisture, the quality of the waterproofing is adequate, therefore there is no such obstacle to subsequent thermal insulation. The building is covered with 8 cm thick panels mounted on reinforced concrete load-bearing pillars, with an outer surface of reinforced concrete, in front of the 20 cm thick ceramic frame filler brick walls. The total thickness of the wall structure is 30 cm. According to the vapor engineering calculation, regardless of the thickness of the internal insulation, there is no dew point in the wall structure and therefore complies with the relevant standards. The current energy standard requires U=0.24 W/m2K in relation to the external boundaries of the building. To achieve this, the entire exterior masonry is solved with a 12 cm LB Knauf Thermo System Grafit thermal insulation system (12+ 5 cm in thickness between the VB facade panels, 12+ 5 cm in order to disappear between the VB facade panels, and complemented with 17 cm LB Knauf Mineral strips, 20 cm high strips around the facade, 12 cm thick between the Fsz and floor windows and 12 cm thick on the arcade floors) and 12 cm thick PS plate and plaster covering on the plinth. With this technical solution, the facade surfaces everywhere become uniform planes without rhetoric. The attachment shall be carried out in accordance with the dubels and scheme in accordance with the attached protocol and by gluing. Thermal insulation shall be carried out on all outer wall planes from the pavement or terrace floor to the galvanised plate used to cover the attic walls. Non-accessible flat roof layer pattern: — 2 rtgs. Bituminous plate waterproofing (the upper palazuza with spraying) — 1 rtg. Aluminum vapor pressure equaliser — 2x10 cm Ceramic bulkhead plate laid — 1 rtg. Alufoil vapor barrier — 5-10 cm in concrete slope — 19 cm Sym-car slab slab The layer order does not meet the current energy requirements, which requires U=0.17 W/m2K on the flat roof. To remedy this, we create layers on the roof that meet not only the new energy requirements, but also the new fire safety requirements (OTSZ). According to the calculation, the degree of thermal insulation required using rock wool certified as B (t1) in accordance with fire protection regulations (?D? 0.038 W/m2K) 20 cm, the likelihood of condensation on the outer plane of the existing thermal insulation is very low, so we plan to install new air vents as 40 m², so it will be removed during the summer warming. The new layer order is as follows: — 1 rtg. EXTRAFLEX Plus P 5 kg slate powder coated mod. bit. end plate on whole surface with flame melt — 1 rtg. EXTRAFLEX GGV 4 mm SBS mod. bit. plate with glass fabric insert 4-5 pcs/m² — fixed with FDD+ 250 doll and light flame — 10 cm Rockwool Monrock Max E mechanical fastening (through 2 layers) — 10 cm Rockwool Roofrock 40 — Existing structures accessible flat roof SIGETING The thermal insulation of the roof of accessible, covered floor roofs is limited by existing geometric dimensions. Due to the height difference of up to 15 cm between the interior and the outer space and the bonded ceramic casing, these roofs are heat-insulated by laying insulation (with the upper thermal insula... (English)
9 February 2022
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Budapest, Budapest
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Identifiers
VEKOP-6.1.1-15-BP1-2016-00003
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