Super Clip Radiant Floor System

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1 Super Clip Radiant Floor System EN

TIEMME, INNOVATION FOR A CONTINUED GROWT Tiemme Fittings is the international leader for international production and

Experience and innovation ability, creativity and production exclusively Made in Italy, tradition and culture, care for

competences and enhanced material quality.

engineering industry as a comprehensive supplier, able to cover the most diverse need in the plumbing sector.

3 TIEMME, INNOVATION FOR A CONTINUED GROWT Tiemme Fittings is the international leader for international production and distribution of plumbing items. Experience and innovation ability, creativity and production exclusively Made in Italy, tradition and culture, care for service and environment are the strengths that shape Tiemme s plumbing engineering, a perfect combination of technical competences and enhanced material quality. This allowed Tiemme to develop an extensive catalogue of items throughout time and to establish themselves in the plumbing engineering industry as a comprehensive supplier, able to cover the most diverse need in the plumbing sector. Tiemme is proudly managing the national production sector, in order to grant a high level of quality, the unquestionable safety and reliability of their products and systems. Furthermore, Tiemme invests significant resources in the fields of research and development of new solutions to anticipate market needs of a market expanding globally. 3

RADIANT FLOOR HEATING SYSTEMS COMFORT WITHOUT COMPARISONS Underfloor heating is a synonym of comfort: the homogenous

the floor; instead when using a heating floor system, the heat propagation is homogeneous throughout its entire surface,

4 RADIANT FLOOR HEATING SYSTEMS COMFORT WITHOUT COMPARISONS Underfloor heating is a synonym of comfort: the homogenous distribution of temperatures inside working and living spaces generates a pleasant feeling of physical wellness allowing for a noticeable energy savings. In premises heated with normal heating systems, the air temperature is higher closer to the ceilings and lower closer to the floor; instead when using a heating floor system, the heat propagation is homogeneous throughout its entire surface, emanating the ideal temperature to match human body needs. For this reason, floor heating is considered the best plant building solution. 22 C 17 C 40 C 18 C 20 C 16 C 22 C Normal Radiator Heating Underfloor Heating 4

RADIANT FLOOR HEATING SYSTEMS WHY CHOOSING THEM?

In the case of underfloor heating, the heat emanation happens via irradiation, a phenomenon that allows for a stable temperature in the whole surroundings.

Underfloor heating requires a much lower temperature to function, around 35 e 40 C and for this reason, it is compatible with energy sources more respectful for the environment, like condensing

Underfloor heating reduces the problem dramatically, as well as reducing the presence of mites and mildew.

5 RADIANT FLOOR HEATING SYSTEMS WHY CHOOSING THEM? Better heating distribution Radiators distribute the heat in a conventional way, pushing hot air upwards and, consequently, cold air downwards. In the case of underfloor heating, the heat emanation happens via irradiation, a phenomenon that allows for a stable temperature in the whole surroundings. Renovation energy compatibility A normal radiator based heating system requires gas or gasoline to bring the water to a 70 C to 80 C. Underfloor heating requires a much lower temperature to function, around 35 e 40 C and for this reason, it is compatible with energy sources more respectful for the environment, like condensing boilers, heating pumps and solar energy systems. Reduction of dust, mites and mildew Heaters produce dust, which spreads in the environment as an effect of the air convention. Underfloor heating reduces the problem dramatically, as well as reducing the presence of mites and mildew. Full freedom of internal spaces organisation Heaters block the walls where they are affixed and limit the organisation of space. Underfloor heating allows saving a lot of space by freeing and making walls usable. Complete freedom of floor material choice The radiant system is compatible with any type of flooring material: from laminates to marbles, carpets to tiles. The only material that deserves careful choice is the wood, for which it is necessary to choose a stable make and small dimensions. SUPER CLIP SYSTEMS WHY USING THEM? Grants optimal energy results Polyurethane isolation granted along time by the production of aluminium sheet double layered sandwich system This system grants optimal energetic results, as it maximises the implants performance and allows a good isolation of the lower parts of the room. Positioning the pipes on the smooth plate, this will have less points of contact with the expanded polystyrene isolating panel, which is paired up with a polyethylene and aluminium sheet. 5

RADIANT FLOOR HEATING SYSTEMS SUPER CLIP Ideal solution for residential and workplace heating and

The thermoperforated book-shaped relief patterned panel offer the possibility of free pose wheelbase

The paring up of panels is granted by the lateral overlapping of the thermo reflexant surface via

6 RADIANT FLOOR HEATING SYSTEMS SUPER CLIP Ideal solution for residential and workplace heating and cooling systems. The thermoperforated book-shaped relief patterned panel offer the possibility of free pose wheelbase installation. The paring up of panels is granted by the lateral overlapping of the thermo reflexant surface via bi-adhesive strips. Maximum protection from heating bridges Baseboard 2 Covering 3 Screed 4 Net-pipe fixing staple 5 Glass fibre net 6 Pipe 7 Isolating Panel 8 Perimeter Stripe 9 PE Sheet Codes A Dimensions B B A

WIDTH CONFORMED TO THE UNI EN 1264:2009 CASE l CASES ll e lll IV I I Dim. A (B) mm Panel code 20 Cod. 450 0500 30 Cod.

7 WIDTH CONFORMED TO THE UNI EN 1264:2009 CASE l CASES ll e lll IV I I Dim. A (B) mm Panel code 20 Cod Cod II III CASE lv [T external 0 C] CASE lv [-5 C T external < 0 C] CASE lv [-15 C T external < -5 C] 10 C 30 Cod Cod Cod SUPER CLIP PANEL 4505POL Smooth Isolating thermal panel in PIR polyiso expanded foam (coupled polyurethane) with protecting film and 50mm step serigraphy and multiples. Packed in book shape. Codes Code Thickness R.C. 10% m²/package mm 200 kpa 16,8 m² - 151,2 m² mm 200 kpa 12 m² m² mm 200 kpa 9,6 m² - 76,8 m² mm 200 kpa 7,2 m² - 64,8 m² Technical Characteristics EPS panel technical characteristics Codes % UNI EN 826 [kpa] compression resistance >130 Isolating Surface (mm) Total Surface (mm) UNI EN 1264/3 [mm] total equivalent surface Minimum pose step [mm] 50 UNI EN [W/mK] thermic conductibility 0,023 General Specification Density [kg/m³] 30 Thermic Resistance UNI EN [m²k/w] 0,85 1,30 1,70 2,15 UNI EN % Water Absorbance < 1,0 EN Euroclass Fire Reaction Panel s total dimensions (mm) 1000 x ( ) Usable panel dimension (opened) (mm) 1000 x x x x 2400 Usable panel surface (opened) (m²) 2,4 2,4 2,4 2,4 Panels for package (n) Surface of Panels for package (m²) 16,8 12 9,6 7,2 Expanded polystyrene panel sintered with graphite following European law EN for delayed flame propagation (Euroclass F fire reactions) of 20,30, 40 and 50 mm of thickness, with pressure resistance at 10% > 130 kpa; realised with a superficial coating sheet with an anti- humidity barrier and 50mm pose step provided with self- sticking edges and guide serigraphy. Packaged in a book shape. F 7

3240 m 020 0071 17 x 2,0 mm 200 m / 2800 m 020 0006 17 x 2,0 mm 300 m / 2700 m 020 0002 17 x 2,0 mm 600 m / 3000 m Physical Technical Characteristics All COBRA-PEX Oxistop pipes physical

8 SUPER CLIP PIPE 0200B COBRA-PEX pipe in high-density reticulate polyethylene with EVOH anti oxygen barrier. Codes Code Type Package x 2,0 mm 120 m / 3240 m x 2,0 mm 200 m / 3600 m x 2,0 mm 300 m / 3600 m x 2,0 mm 600 m / 3000 m x 2,0 mm 120 m / 3240 m x 2,0 mm 200 m / 2800 m x 2,0 mm 300 m / 2700 m x 2,0 mm 600 m / 3000 m Physical Technical Characteristics All COBRA-PEX Oxistop pipes physical characteristics are summarised in the Technical data of final product chart (see below). Charge Loss Chart The parameters indicated below, with correspondent standard used in the trial model certify the suitability of COBRA-PEX Oxistop pipes in the plumbing sector. Listed below are the most relevant: Minimal charge losses granted by a very smooth internal surface (see charge loss chart); Optimal mechanical and functional characteristics (length, pressure, temperature, dilatation, uses etc.); Light weight for transportation, movement and storage Non-toxicity, could be used for food items transportation Optimal dielectrics properties; Low thermal conductibility; Soundproof, the plastic material stops sound propagation; Optimal performance in case of scaling and abrasion; Very easy installation; Thermic memory. Portata [l/s] Flow rate [l/s] Dimensioni tubo [mm] Pipe dimensions [mm] Technical data of final product Velocità [m/s] Velocity [m/s] Characteristics Measurements units Dimensions External Diameter mm Thickness mm 2,0 2,0 2,0 2,0 2,3 Weight for linear meter g/m Volume of contained water l/min 0,0785 0,1134 0,1326 0,2009 0,3266 Exercise maximum temperature C Peak temperature C Exercise maximum pressure (95 C) bar Thermic dilatation coefficient mm/m K 0,014 0,014 0,014 0,014 0,014 Internal roughness mm 0,007 0,007 0,007 0,007 0,007 Oxygen diffusion gr/m³ < 0,1 < 0,1 < 0,1 < 0,1 < 0,1 General Specification Expanded polystyrene panel synterised in graphite conformed to European law UNI EN for delay of fire propagation (Euroclass E for fire reaction) of 10, 17, 32, 40 and 55 mm usable surface, compression resistant at 10% of squeezing, 150 e 250 kpa, attached to a 0,16mm width robust rigid shockproof polystyrene film, equipped with pipe guides with a 50 mm pose step and grooves with perimetral male and female joint. 8

9 SUPER CLIP THERMIC RESISTANCE CLIP SUPER - W/m² LOST ACCORDING TO UNI1264-3:2009 Underfloor Local temperature T sott 20 [ C] Hypothetical Thermic Resistance of elements underneath eth panel R sott 2,1 [m²k/w] UNI EN 1264/3Thermic conductibility λ 0,023 [m²k/w] Thermic step dt 5 [ C] 20 MM CLIP SUPER - THERMIC RESISTANCE 0,85 [M²K/W] - W/M² LOST ACCORDING TO UNI1264-3:2009 T Irradiation [ C] 33,0 34,0 35,0 36,0 37,0 38,0 39,0 40,0 41,0 Step [cm] 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 Ceramic [m²k/w] 0,010 2,8 2,4 2,1 3,0 2,6 2,3 3,3 2,9 2,5 3,6 3,1 2,7 3,8 3,3 2,9 4,1 3,6 3,1 4,4 3,8 3,3 4,7 4,1 3,5 4,9 4,3 3,7 1,5 Parquet [m²k/w] 0,060 2,9 2,5 2,3 3,1 2,8 2,5 3,4 3,0 2,7 3,7 3,3 2,9 4,0 3,5 3,2 4,3 3,8 3,4 4,5 4,0 3,6 4,8 4,3 3,8 5,1 4,5 4,1 Legal allowance [m²k/w] 0,100 2,9 2,6 2,4 3,2 2,9 2,6 3,5 3,1 2,8 3,8 3,4 3,1 4,0 3,7 3,3 4,3 3,9 3,6 4,6 4,2 3,8 4,9 4,4 4,0 5,2 4,7 4,2 CLIP SUPER 30 MM - THERMIC RESISTANCE 1,3 [M²K/W] - W/M² LOST ACCORDING TO UNI1264-3:2009 T Irradiation [ C] 33,0 34,0 35,0 36,0 37,0 38,0 39,0 40,0 41,0 Step [cm] 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 Ceramic [m²k/w] 0,010 1,5 0,8 0,2 1,7 1,0 0,3 2,0 1,2 0,5 2,2 1,4 0,7 2,4 1,6 0,9 2,7 1,8 1,0 2,9 2,0 1,2 3,1 2,2 1,4 3,3 2,4 1,6 1,5 Parquet [m²k/w] 0,060 1,7 1,1 0,5 1,9 1,3 0,7 2,2 1,5 0,9 2,4 1,7 1,1 2,7 1,9 1,3 2,5 2,1 1,5 3,1 2,4 1,7 3,4 2,6 1,9 3,9 2,8 2,0 Legal allowance [m²k/w] 0,100 1,8 1,3 0,8 2,1 1,5 1,0 2,3 1,7 1,2 2,6 1,9 1,4 2,8 2,1 1,6 3,0 2,4 1,8 3,3 2,6 2,0 3,5 2,8 2,2 3,8 3,0 2,4 CLIP SUPER 40 MM - THERMIC RESISTANCE 1,7 [M²K/W] - W/M² LOST ACCORDING TO UNI1264-3:2009 T Irradiation [ C] 33,0 34,0 35,0 36,0 37,0 38,0 39,0 40,0 41,0 Step [cm] 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 Ceramic [m²k/w] 0,010 2,1 1,8 1,6 2,3 2,0 1,7 2,5 2,2 1,9 2,7 2,4 2,1 2,9 2,5 2,2 3,1 2,7 2,4 3,3 2,9 2,5 3,5 3,1 2,7 3,7 3,3 2,8 1,5 Parquet [m²k/w] 0,060 2,2 1,9 1,7 2,4 2,1 1,9 2,6 2,3 2,1 2,8 2,5 2,2 3,0 2,7 2,4 3,2 2,9 2,6 3,5 3,1 2,8 3,7 3,3 2,9 3,9 3,5 3,1 Legal allowance [m²k/w] 0,100 2,2 2,0 1,8 2,4 2,2 2,0 2,7 2,4 2,2 2,9 2,6 2,4 3,1 2,8 2,5 3,3 3,0 2,7 3,5 3,2 2,9 3,8 3,4 3,1 4,0 3,6 3,3 CLIP SUPER 50 MM - THERMIC RESISTANCE 2,15 [M²K/W] - W/M² LOST ACCORDING TO UNI1264-3:2009 T Irradiation [ C] 33,0 34,0 35,0 36,0 37,0 38,0 39,0 40,0 41,0 Step [cm] 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 10,0 15,0 20,0 Ceramic [m²k/w] 0,010 1,1 0,5 0,1 1,3 0,7 0,2 1,5 0,9 0,3 1,6 1,0 0,5 1,8 1,2 0,6 2,0 1,3 0,7 2,2 1,5 0,9 2,4 1,6 1,0 2,5 1,8 1,1 1,5 Parquet [m²k/w] 0,060 1,3 0,8 0,4 1,5 1,0 0,5 1,7 1,1 0,7 1,9 1,3 0,8 2,0 1,5 1,0 2,2 1,6 1,1 2,4 1,8 1,3 2,6 2,0 1,4 2,8 2,1 1,6 Legal allowance [m²k/w] 0,100 1,4 1,0 0,6 1,6 1,1 0,7 1,8 1,3 0,9 2,0 1,5 1,0 2,2 1,7 1,2 2,4 1,8 1,3 2,6 2,0 1,5 2,7 2,2 1,7 2,9 2,3 1,8 9

10 WINTER THERMIC PERFORMANCE CERAMIC WINTER FUNCTIONS 1 cm CERAMIC (Applicable to all 0, 06 m²k/watt thermic resistance flooring - ceramic, tiles, marble, quartz etc.) Flooring thermic resistance (1CM CERAMIC) R λ,b 0,01 [m²k/w] Screed thermic conductibility (minimum standard value) λ E 1,2 [W/mK] Pipe thermic conductibility (Tiemme Cobra-Pex pipes) λ R 0,38 [W/mK] Pipe external diameter D a 17,0 [mm] Pipe structure thickness S r 2,0 [mm] (Over the pipe) Screed Thickness S μ,0 45,0 [mm] Room Temperature θ i 20,0 [ C] FLOORING SPECIFC POWER AND SURFACE AVERAGE TEMPERATURE (*) Temperature irradiation [ C] [cm] step 5/10 [cm] step 10 [cm] step 10/15 [cm] step 15 [cm] step 20 [cm] step Delta T [ C] Q Tsup Q Tsup Q Tsup Q Tsup Q Tsup Q Tsup [W/m²] [ C] [W/m²] [ C] [W/m²] [ C] [W/m²] [ C] [W/m²] [ C] [W/m²] [ C] 5 72,0 26,7 67,1 26,3 62,5 25,9 58,3 25,5 54,4 25,2 47,5 24,6 6 67,8 26,3 63,1 25,9 58,8 25,6 54,9 25,2 51,2 24,9 44,7 24,3 7 63,3 25,9 59,0 25,6 55,0 25,2 51,3 24,9 47,8 24,6 41,8 24,1 8 58,3 25,5 54,5 25,0 50,8 24,9 47,4 24,6 44,2 24,3 38,6 23,8 5 79,1 27,3 73,7 26,8 68,7 26,4 64,1 26,0 59,8 25,6 52,2 25,0 6 75,0 26,9 69,8 26,5 65,1 26,1 60,7 25,7 56,7 25,4 49,5 24,7 7 70,6 26,6 65,8 26,1 61,3 25,8 57,2 25,4 53,4 25,1 46,6 24,5 8 66,0 26,2 61,5 25,8 57,3 25,4 53,5 25,1 49,9 24,8 43,5 24,2 5 86,2 27,9 80,3 27,4 74,9 26,9 69,8 26,5 65,2 26,1 56,9 25,4 6 82,1 27,5 76,5 27,1 71,3 26,6 66,5 26,2 62,1 25,8 54,2 25,2 7 77,8 27,2 72,5 26,7 67,6 26,3 63,1 25,9 58,8 25,6 51,4 24,9 8 73,4 26,8 68,4 26,4 63,7 26,0 59,5 25,6 55,5 25,3 48,4 24,7 5 93,3 28,4 86,9 27,9 81,0 27,4 75,6 27,0 70,5 26,6 61,5 25,8 6 89,2 28,1 83,2 27,6 77,5 27,1 72,3 26,7 67,5 26,3 58,9 25,6 7 85,1 27,8 79,2 27,3 73,9 26,8 68,9 26,4 64,3 26,0 56,1 25,3 8 80,7 27,4 75,2 26,9 70,1 26,5 65,4 26,1 61,0 25,7 53,2 25, ,4 29,0 93,5 28,5 87,1 27,9 81,3 27,5 75,9 27,0 66,2 26,2 6 96,4 28,7 89,8 28,2 83,7 27,7 78,1 27,2 72,8 26,7 63,6 26,0 7 92,2 28,4 85,9 27,8 80,1 27,4 74,7 26,9 69,7 26,5 60,8 25,7 8 87,9 28,0 81,9 27,5 76,4 27,0 71,2 26,6 66,5 26,2 58,0 25, ,4 29,6 100,1 29,0 93,3 28,4 87,0 27,9 81,2 27,4 70,9 26, ,4 29,3 96,4 28,7 89,8 28,2 83,8 27,7 78,2 27,2 68,3 26,4 7 99,4 28,9 92,6 28,4 86,3 27,9 80,5 27,4 75,1 26,9 65,6 26,1 8 95,1 28,6 88,7 28,1 82,6 27,6 77,1 27,1 71,9 26,7 62,8 25, ,5 30,2 106,7 29,5 99,4 28,9 92,7 28,4 86,5 27,9 75,5 27, ,5 29,9 103,0 29,2 96,0 28,7 89,5 28,1 83,5 27,6 72,9 26, ,5 29,5 99,2 28,9 92,5 28,4 86,3 27,9 80,5 27,4 70,3 26, ,3 29,2 95,3 28,6 88,9 28,1 82,9 27,6 77,3 27,1 67,5 26, ,5 30,7 113,2 30,1 105,5 29,4 98,4 28,9 91,8 28,3 80,2 27, ,6 30,4 109,6 29,8 102,1 29,2 95,3 28,6 88,9 28,1 77,6 27, ,6 30,1 105,8 29,5 98,6 28,0 92,0 28,3 85,9 27,8 74,9 26, ,5 29,8 102,0 29,2 95,1 28,6 88,7 28,1 82,7 27,6 72,2 26, ,5 31,3 119,8 30,6 111,6 29,9 104,1 29,3 97,2 28,8 84,8 27, ,7 31,0 116,2 30,3 108,2 29,7 101,0 29,1 94,2 28,5 82,2 27, ,7 30,7 112,5 30,0 104,8 29,4 97,8 28,8 91,2 28,3 79,6 27, ,6 30,3 108,7 29,7 101,3 29,1 94,5 28,5 88,1 28,0 76,9 27,1 * Values calculated in respect of above listed functional conditions Tsup = Average floor surface temperature Q = Emission in W/m²... Value higher than maximum 29 C floor temperature allowed by UNI regulations in holiday areas. In the perimetral areas the floor temperature can reach up to 35 C 10

11 SUMMER THERMIC PERFORMANCE CERAMIC SUMMER FUNCTIONS 1 cm CERAMIC (Applicable to all 0, 06 m²k/watt thermic resistance flooring - ceramic, tiles, marble, quartz etc.) Flooring thermic resistance (1CM CERAMIC) R λ,b 0,01 [m²k/w] Screed thermic conductibility (minimum standard value) λ E 1,2 [W/mK] Pipe thermic conductibility (Tiemme Cobra-Pex pipes) λ R 0,38 [W/mK] Pipe external diameter D a 17,0 [mm] Pipe structure thickness S r 2,0 [mm] (Over the pipe) Screed Thickness S μ,0 45,0 [mm] Room temperature θ i 26,0 [ C] FLOORING SPECIFC POWER AND SURFACE AVERAGE TEMPERATURE (*) Temperature irradiated [ C] 14 (51%**) 15 (56%**) 16 (60%**) 17 (64%**) 18 (68%**) 19 (71%**) 10 [cm] step 15 [cm] step 20 [cm] step Delta T [ C] Q Tsup Q Tsup Q Tsup [W/m²] [ C] [W/m²] [ C] [W/m²] [ C] 3 45,9 20,1 40,8 20,5 36,4 20,9 4 43,5 20,3 38,7 20,7 34,5 21,1 5 41,0 20,5 36,4 20,9 32,5 21,3 6 38,3 20,7 34,1 21,1 30,4 21,5 3 41,6 20,4 37,0 20,9 33,0 21,2 4 39,1 20,7 34,8 21,1 31,0 21,4 5 36,6 20,9 32,5 21,3 29,0 21,6 6 33,8 21,0 30,1 21,5 26,8 21,8 3 37,3 20,8 33,1 21,2 29,5 21,5 4 34,8 21,1 30,9 21,4 27,6 21,7 5 32,1 21,3 28,6 21,6 25,5 21,9 6 29,3 21,6 26,1 21,9 23,2 22,1 3 32,9 21,2 29,3 21,6 26,1 21,8 4 30,4 21,5 27,0 21,8 24,1 22,0 5 27,7 21,7 24,6 22,0 21,9 22,2 6 24,6 22,0 21,9 22,2 19,5 22,5 3 28,6 21,6 25,4 21,9 22,7 22,2 4 26,0 21,9 23,1 22,1 20,6 22,4 5 23,1 22,1 20,5 22,4 18,3 22,6 6 19,8 22,4 17,6 22,6 15,7 22,8 3 24,2 22,0 21,5 22,3 19,2 22,5 4 21,5 22,3 19,1 22,5 17,0 22,7 5 18,4 22,6 16,3 22,8 14,6 22,9 6 14,5 22,9 12,9 23,1 11,5 23,2 * Values calculated in respect of above listed functional conditions Tsup = Average floor surface temperature Q = Emission in W/m² ** According to UNI EN norms, the irradiation temperature of the cooling function must not be lower than 1K of dew temperature calculated around a dehumidifying system. For example, considering a room with 26 C temperature and relative humidity of 51%, dew temperature is of 15 C, therefore the temperature of irradiation for the cooling system mustn t be lower than 14 C. 11

12 WINTER THERMIC PERFORMANCE PARQUET WINTER FUNCTIONS - 1, 5 cm PARQUET (Applicable to all 0, 06 m²k/watt thermic resistance flooring - ceramic, tiles, marble, quartz etc.) Flooring thermic resistance (15 mm parquet) R λ,b 0,06 [m²k/w] Screed thermic conductibility (minimum standard value) λ E 1,2 [W/mK] Pipe thermic conductibility (Tiemme Cobra-Pex pipes) λ R 0,38 [W/mK] Pipe external diameter D a 17,0 [mm] Pipe structure thickness S r 2,0 [mm] (Over the pipe) Screed Thickness S μ,0 45,0 [mm] Room temperature θ i 20,0 [ C] FLOORING SPECIFC POWER AND AVERAGE FLOOR SURFACE TEMPERATURE (*) Temperature irradiated [ C] [cm] step 5/10 [cm] step 10 [cm] step 10/15 [cm] step 15 [cm] step 20 [cm] step Delta T [ C] Q Tsup Q Tsup Q Tsup Q Tsup Q Tsup Q Tsup [W/m²] [ C] [W/m²] [ C] [W/m²] [ C] [W/m²] [ C] [W/m²] [ C] [W/m²] [ C] 5 52,5 25,0 49,5 24,8 46,7 24,5 44,1 24,3 41,6 24,1 37,2 23,7 6 49,4 24,7 46,6 24,5 44,0 24,3 41,5 24,0 39,2 23,8 35,0 23,5 7 46,1 24,5 43,5 24,2 41,1 24,0 38,8 23,8 36,6 23,6 32,7 23,3 8 42,7 24,1 40,3 23,9 38,0 23,7 35,9 23,5 33,9 23,4 30,2 23,0 5 57,7 25,5 54,4 25,2 51,3 24,9 48,5 24,7 45,8 24,4 40,9 24,0 6 54,6 25,2 51,6 24,9 48,6 24,7 45,9 24,4 43,4 24,2 38,7 23,8 7 51,5 24,9 48,6 24,7 45,8 24,4 43,3 24,2 40,8 24,0 36,5 23,6 8 48,1 24,6 45,4 24,4 42,8 24,2 40,4 24,0 38,2 23,8 34,1 23,4 5 62,8 25,9 59,3 25,6 55,9 25,3 52,8 25,0 49,9 24,8 44,5 24,3 6 59,9 25,6 56,5 25,4 53,3 25,1 50,3 24,8 47,5 24,6 42,4 24,1 7 56,7 25,4 53,6 25,1 50,5 24,8 47,7 24,6 45,0 24,4 40,2 23,9 8 53,5 25,1 50,5 24,8 47,6 24,6 45,0 24,4 42,4 24,1 37,9 23,7 5 68,0 26,3 64,2 26,0 60,5 25,7 57,2 25,4 54,0 25,1 48,2 24,6 6 65,1 26,1 61,4 25,8 57,9 25,5 54,7 25,2 51,6 24,9 46,1 24,5 7 62,0 25,8 58,5 25,5 55,2 25,2 52,1 25,0 49,2 24,7 43,9 24,3 8 58,8 25,6 55,5 25,3 52,4 25,0 45,4 24,7 46,7 24,5 41,7 24,1 5 73,2 26,8 69,0 26,4 65,1 26,1 61,5 25,8 58,1 25,5 51,8 25,0 6 70,2 26,5 66,3 26,2 62,5 25,9 59,0 25,6 55,7 25,3 49,8 24,8 7 67,2 26,3 63,4 26,0 59,8 25,6 56,5 25,4 53,3 25,1 47,6 24,6 8 64,1 26,0 60,5 25,7 57,1 25,4 53,9 25,1 50,9 24,9 45,4 24,4 5 78,3 27,2 73,9 26,8 69,7 26,5 65,8 26,2 62,1 25,8 55,4 25,3 6 75,4 27,0 71,2 26,6 67,1 26,3 63,4 25,9 59,8 25,6 53,4 25,1 7 72,4 26,7 68,4 26,4 64,5 26,0 60,9 25,7 57,5 25,4 51,3 24,9 8 69,4 26,5 65,5 26,1 61,7 25,8 58,3 25,5 55,0 25,2 49,1 24,7 5 83,4 27,6 78,7 27,2 74,3 26,9 70,1 26,5 66,2 26,2 59,1 25,6 6 80,6 27,4 76,0 27,0 71,7 26,7 67,7 26,3 63,9 26,0 57,1 25,4 7 77,6 27,1 73,3 26,8 69,1 26,4 65,2 26,1 61,6 25,8 55,0 25,2 8 74,6 26,9 70,4 26,5 66,4 26,2 62,7 25,9 59,2 25,6 52,8 25,0 5 88,6 28,1 83,6 27,6 78,8 27,2 74,4 26,9 70,3 26,5 62,7 25,9 6 85,7 27,8 80,9 27,4 76,3 27,0 72,1 26,7 68,0 26,3 60,7 25,7 7 82,8 27,6 78,1 27,2 73,7 26,8 69,6 26,5 65,7 26,1 58,7 25,5 8 79,8 27,3 75,3 27,0 71,0 26,6 67,1 26,3 65,3 25,9 56,5 25,4 5 93,7 28,5 88,4 28,0 83,4 27,6 78,8 27,2 74,4 26,9 66,4 26,2 6 90,9 28,2 85,8 27,8 80,9 27,4 76,4 27,0 72,1 26,7 64,4 26,0 7 88,0 28,0 83,0 27,6 78,3 27,2 73,9 26,8 69,8 26,5 62,3 25,9 8 85,0 27,8 80,2 27,4 75,7 27,0 71,5 26,6 67,5 26,3 60,2 25,7 * Values calculated in respect of above listed functional conditions Tsup = Average floor surface temperature Q = Emission in W/m²... Value higher than maximum 29 C floor temperature allowed by UNI regulations in holiday areas. In the perimetral areas the floor temperature can reach up to 35 C 12

13 SUMMER THERMIC PERFORMANCE PARQUET Summer Functions - 1,5 cm PARQUET (Applicable to all 0, 06 m²k/watt thermic resistance flooring - ceramic, tiles, marble, quartz etc.) Flooring thermic resistance (15 mm parquet) R λ,b 0,06 [m²k/w] Screed thermic conductibility (minimum standard value) λ E 1,2 [W/mK] Pipe thermic conductibility (Tiemme Cobra-Pex pipes) λ R 0,38 [W/mK] Pipe external diameter D a 17,0 [mm] Pipe structure thickness S r 2,0 [mm] (Over the pipe) Screed Thickness S μ,0 45,0 [mm] Room temperature θ i 26,0 [ C] FLOORING SPECIFIC POWER AND AVERAGE FLOOR SURFACE TEMPERATURE (*) Temperature irradiated [ C] 14 (51%**) 15 (56%**) 16 (60%**) 17 (64%**) 18 (68%**) 19 (71%**) 10 [cm] step 15 [cm] step 20 [cm] step Delta T [ C] Q Tsup Q Tsup Q Tsup [W/m²] [ C] [W/m²] [ C] [W/m²] [ C] 3 37,1 20,8 33,6 21,2 30,5 21,4 4 35,2 21,0 31,9 21,3 28,9 21,6 5 33,2 21,2 30,0 21,5 27,7 21,7 6 31,0 21,4 28,1 21,7 25,5 21,9 3 33,7 21,2 30,5 21,4 27,6 21,7 4 31,7 21,3 28,7 21,6 26,0 21,9 5 29,6 21,5 26,8 21,8 24,3 22,0 6 27,4 21,7 24,8 22,0 22,5 22,2 3 30,2 21,5 27,3 21,7 24,8 22,0 4 28,1 21,7 25,5 21,9 23,1 22,1 5 26,0 21,9 23,6 22,1 21,4 22,3 6 23,7 22,1 21,5 22,3 15,5 22,5 3 26,7 21,8 24,1 22,0 21,9 22,2 4 24,6 24,6 22,3 22,2 20,2 22,4 5 22,4 22,2 20,3 22,4 18,4 22,6 6 19,9 22,4 18,1 22,6 16,4 22,8 3 23,1 22,1 21,0 22,3 19,0 22,5 4 21,0 22,3 19,0 22,5 17,3 22,7 5 18,7 22,5 16,9 22,7 15,4 22,9 6 16,0 22,8 14,5 22,9 13,2 23,1 3 19,6 22,5 17,8 22,6 16,1 22,8 4 17,4 22,7 15,7 22,8 14,3 23,0 5 14,9 22,9 13,5 23,0 12,2 23,2 6 11,7 23,2 10,6 23,3 9,6 23,4 * Values calculated in respect of above listed functional conditions Tsup = Average floor surface temperature Q = Emission in W/m² ** According to UNI EN norms, the irradiation temperature of the cooling function must not be lower than 1K of dew temperature calculated around a dehumidifying system. For example, considering a room with 26 C temperature and relative humidity of 51%, dew temperature is of 15 C, therefore the temperature of irradiation for the cooling system mustn t be lower than 14 C 13

SUPER CLIP OTHER COMPONENTS 4507 Expanded PE Perimetry strip With adhesive back and mortar holder PE Sheet.

1480P Plastic 90 bent holder to protect and support the COBRAPEX pipe. Pipes in the proximity of the distribution manifold.

90 bent holder in plastic materials to protect and support pipes in the proximity of the distribution manifold.

Helps to reduce hygroscopic shrinking and implement heat resistance and improve thermal conductivity.

Concrete chemical liquid addictive. Improves plasticity and processability.

4503 Anti-humidity Isolating PE Sheet. Width 1, 2 m, thickness 0, 15 mm. Distributed in 100 m length rolls.

Steam barrier made of 0, 15 mm width of PE sheet, 50 mm serigraphy step and multiple width of 1, 2 m, length 100 m.

Also available in iron version, 2mm thread.

Anti-alkaline glass fibre net for concrete screed treatment. 40x 40 mesh size, 1m height.

14 SUPER CLIP OTHER COMPONENTS 4507 Expanded PE Perimetry strip With adhesive back and mortar holder PE Sheet. Notes: Adhesive back H=100mm, pre-cut, Adhesive back H=40/50mm Code Type Package H 140 x 5 mm 50 m H 150 x 8 mm 25 m General Specification. Expanded PE perimeter strip with adhesive back and mortar holder PE sheet, height 140/150 mm, width 6/8 mm. 25/50 m rolls available. 1480P Plastic 90 bent holder to protect and support the COBRAPEX pipe. Pipes in the proximity of the distribution manifold. Code Type Package pipe Ø /200 General Specification. 90 bent holder in plastic materials to protect and support pipes in the proximity of the distribution manifold Acrylic polymers screed additive diluted in water. Helps to reduce hygroscopic shrinking and implement heat resistance and improve thermal conductivity. Code Type Package Kg 0,96 l 10 Kg Tank Kg 0,96 l 25 Kg Tank General Specification. Concrete chemical liquid addictive. Improves plasticity and processability. Thermic and mechanic features: doses of 1% x 100kg of concrete. UNI EN classification. EN (<3%). Alkaline content Anti-humidity Isolating PE Sheet. Width 1, 2 m, thickness 0, 15 mm. Distributed in 100 m length rolls. Code Type Package ,2 m x 100 m 120 m² General Specification. Steam barrier made of 0, 15 mm width of PE sheet, 50 mm serigraphy step and multiple width of 1, 2 m, length 100 m. Available in 120 m² rolls Anti-alkaline glass fibre net for concrete screed treatment. Available in rolls, 40x 40 mesh size. Also available in iron version, 2mm thread. Code Weight Type Package g/m² 1 m x 50 m 50 m² g/m² 1 m x 100 m 100 m² General Specification. Anti-alkaline glass fibre net for concrete screed treatment. 40x 40 mesh size, 1m height. Available in 50 m² or 100 m² packages, 130 g/m² weight Anti- corrosion treatment for metallic parts with universal bactericide and fungicide for heating and cooling systems. N.B. it is advised to use 1 lt of protective treatment for each 100 lt of running water Code Type Package ml 1/12 General Specification. Liquid chemical addictive to prevent metallic parts corrosion, with universal bactericide and fungicide for heating and cooling systems Expansion union in PE, with self-adhesive base for smooth and patterned panel. H Code Type Package H = 90 mm x L = 2 m 20/180 m General Specification. Expanded PE enforcement for screed elastic dilatation with self-adhesive base. Height 90 mm, length 2 m, packaged in 20 m standard. 14

SUPER CLIP OTHER COMPONENTS 4521 Manual insertion pipe fixing staple.

Made in plastic material to fix pipes to the smooth isolating panel. Equipped with anchoring wings. Packaged in 200 pieces boxes. 4520G Manual insertion pipe fixing staple.

Manual insertion pipe fixing staple. Made in plastic material to fix pipes to the smooth isolating panel. Equipped with anchoring wings. Packaged in 900 pieces boxes.

15 SUPER CLIP OTHER COMPONENTS 4521 Manual insertion pipe fixing staple. Made in plastic material and equipped with anchoring wings Code Type Package H = 45 mm 200/ H = 50 mm 200/1000 General Specification. Manual insertion pipe fixing staple. Made in plastic material to fix pipes to the smooth isolating panel. Equipped with anchoring wings. Packaged in 200 pieces boxes. 4520G Manual insertion pipe fixing staple. Made in plastic material and equipped with anchoring wings, 30 pcs. stripes to be used with the automated staple gun. Code Type Package H = 45 mm 900 General Specification. Manual insertion pipe fixing staple. Made in plastic material to fix pipes to the smooth isolating panel. Equipped with anchoring wings. Packaged in 900 pieces boxes. CLIP SUPER HIGHLIGHTS Panels Super Clip radiant panels allow to carry thermic energy in hot and cold environments according to the season s need Air treatment machine These machines are used for air treatment, to grant maximal temperature and humidity comfort in underfloor radiant air-conditioned premises. Tiemme presents a complete range of machine for air circulation and summer dehumidification. A channelled distribution system, Tiemme will build an air circulation net to allow for balance distribution to suit any kind of premises. Climav 2.0 Tiemme thermoregulation solutions, CLIMAV 2.0 modular, innovative and versatile allows to easily and effectively monitor the temperature. The electronic control panel, equipped with expandable control units and temperature/ humidity sensors, allow for the optimal functioning of all implant parts to facilitate a high level of system efficiency 15

SUPER CLIP A COMPLETE SOLUTION The Super Clip system does not include only radiant

heat pumps for an improved management of water and premises temperatures, but also to

and offer a high level of environmental comfort.

16 SUPER CLIP A COMPLETE SOLUTION The Super Clip system does not include only radiant panels, but also an integrated thermoregulation solution, air treatment machines and heat pumps for an improved management of water and premises temperatures, but also to consistently manage the humidity and quality of air to optimise energy consumption and offer a high level of environmental comfort. In this way, premises temperatures are specifically designed to match each season s needs. SUPER CLIP SUCCESFUL EXAMPLES Residential Complex Turin Underfloor heating Climav 2.0 Thermoregulation Detached Villa Mantua Underfloor heating and cooling Dehumidification Climav 2.0. Thermoregulation 16

17 NOTES 17

18 NOTES 18

TIEMME RACCORDERIE S.p.A. Via Cavallera, n. 6/A - 25045 Castegnato (BS) - Italy Tel.

20 TIEMME RACCORDERIE S.p.A. Via Cavallera, n. 6/A Castegnato (BS) - Italy Tel Fax info@tiemme.com Customer Service Fax customerservice@tiemme.com