Table of Contents 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44

RAIN GUTTERS

P V C R A I N G U T T E R S Technical Catalogue

I N D E X 4 ® Pag. 5 6 7 8 9/10 11 12/14 15 16 17 18 19 20/21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38/39 39 40 41/42 THE COMPANY QUALITY CONFORMITY WITH “EN 607:2005” STANDARDS QUALITY REQUIREMENTS CHARACTERISTICS OF RAW MATERIALS - PVC CHEMICAL RESISTANCE GUTTER PROFILE SECTIONS GUTTER SYSTEM COMPONENTS GUTTER SYSTEM APPLICATION EXAMPLES HYDRAULIC CALCULATIONS RECOMMENDED USE OF ACCESSORIES ASSEMBLY WITH GLUE ASSEMBLY WITH GASKET INSTALLATION INSTRUCTIONS ASSEMBLING GUTTER GUTTER CHANNEL Mod. 116 GUTTER CHANNEL Mod. 100 GUTTER CHANNEL Mod. 125 GUTTER CHANNEL Mod. 133 GUTTER CHANNEL Mod. 145 SQUARE GUTTER CHANNEL Mod. 100x110 GUTTER CHANNEL Mod. GUTTER CHANNEL Mod. GUTTER CHANNEL Mod. 125 GUTTER CHANNEL Mod. 133 DOUBLE-WALL GUTTER CHANNEL Mod. G86 DOUBLE-WALL GUTTER CHANNEL Mod. G2 GALVANISED METAL BRACKETS FOR GUTTERS PVC DOWNPIPES PVC FITTINGS AND ACCESSORIES RAIN COLLECTOR SIDE HOPPER HEAD DOWNPIPES AND FITTINGS ACCESSORIES ® ®

T H E C O M P A N Y 5 ® Please visit our web site at www.firstcor.com for an overview on our company and our range of products. First Plast, founded in 1966 is a company which specializes in the production of articles of plastic material for the building industry, and more precisely in rain gutter systems, PVC fittings and ground accessories. PLANNING First Plast has achieved world-wide recognition, for its continuous development, of new and inovative products. QUALITY First Plast has obtained since 1995 Quality System Certificate ISO 9002 and it supplies the customer with all the technical support in dealing with consumer’s demands. In order to supply the customers with products in conformity with the obtained national and international certifications, in First Plast’s laboratories there is a continuous control of productive quality utilizing the most sophisticated equipement. PRODUCTION: First Plast due to the most modern extrusion and moulding plants, supplies the customer with the best quality-price related product. SERVICE: A capillary sale network with branches and warehouses in Italy and abroad allows Fist Plast to give customers a range of more than 6000 plastic articles for the building industry.

First Plast quality internal procedure is recognized by international certifications as EN 9001:2008 Environmental care is granted in our manufacturing sites by EN ISO 14001:2004 certification Q U A L I T Y 6 ®

C O N F O R M I T Y W I T H “ E N 6 0 7 : 2 0 0 5 ” S T A N D A R D S 7 ® PROFILES OF RIGID PVC FOR GUTTER CHANNELS ACCORDING TO NORM EN 607:2005 SECTION COLOUR PROFILES GRN 116 GRN 125 GRN 133 GRQ 100x110 GREY SAND BROWN WHITE GREY SAND WHITE GREY BROWN WHITE 267 ACCESSORIES GRN 116 GRN 125 GRN 133 GRQ 100x110 GREY SAND BROWN WHITE

Q U A L I T Y R E Q U I R E M E N T S 8 ® T E S T ME T HOD R E SU L T I NG VA L U E Water sealing test (gutter, unions, angles and stopends) Appearance EN 607:2005 EN 607:2005 NO LEAKS No differences relative to standard Appearance daily Heating effect daily Vicat temperature every 6 months Shape and dimensions daily Colour resistance yearly ACCESSORY REQUIREMENTS LAB TEST FREQUENCY GUTTER SYSTEM QUALITY REQUIREMENTS T E S T ME T HOD R E SU L T I NG VA L U E CONSTANT QUALITY CONTROL Resistance to lateral impact at 0 (Hammer impact): 3 tests Dimensional stability under heat (100° C for 30 minutes) Section EN 607:2005 UNI EN 743 NO BREAKAGE ≤ 3% max ± 0,5 mm CONSTANT QUALITY CONTROL Artificial ageing every 3 years on gutter and accessory Water sealing yearly GUTTER SYSTEM QUAL I TY REQUIREMENTS LAB TEST FREQUENCY Appearance daily Cross section dimension daily Channel length daily Hot shrinkage at 100°C daily Impact resistance daily Vicat temperature every 3 months Tensile impact yearly Tensile resistance and ultimate elongation yearly Colour resistance yearly GUTTER REQUIREMENTS LAB TEST FREQUENCY ACCESSORI ES GUTTERS GUTTER CHANNEL SYSTEM

E A S Y S E T - U P H I G H B R E A K A G E R E S I S TA N C E NON T O X I C A C I D S A N D A L K A L I S NO T I N F L AMMA B L E D I E L E C T R I C S C O R C H I N G S U N I N T E N S E F R O S T V I O L E N T S T O R M S CHARACTERI ST I CS OF RAW MATERIALS 9 ® First Plast has been manufacturing PVC gutter channels since 1974. Millions of meters of gutter channels installed at di f ferent lat i tudes on our planet bear wi tness to the qual i ty, rel iabi l i ty and resistance of our products. Over 30 years of production experience have enabled First Plast to develop materials with extremely high UTS values and excellent resistance to chemicals, physical agents and weather conditions. MECHANICAL AND PHYSICAL CHARACTERISTICS OF PVC (23°C) PVC MAIN QUAL I T I ES Resistance to traction Extension at breakage Resistance to traction at 23°C ±2 EN 638 EN 638 UNI EN ISO 8256 UNI EN ISO 8256 42 MPA 100% 500 KJ/m2 50 % of the initial value 42 MPA Min. Min. 100% Min. 500 KJ/m2 Min. 250 KJ/m2 Resistance to traction at impact at 23°C after exposure xenotest Heat softening VICAT Coefficient of the thermal dilatation EN 727 ISO 4892 - 2 EN 743 75°C level 3 3% Max Tab. 2 EN 607 Variation of colours on the grey scale after exposure to xenotest Min. 78° C mm. 0,04 - 0,08 per m/°C level 3 ÷ 4 - EN 20105 - A02 3% max conformity Heat contraction Effect of heating Met. A - 150° C - 15 Min. EN 763 T E S T ME THOD MECHAN I CAL PROP ER T I E S REQU I RED I NT ERNAT IONAL S TANDARDS VALUE S OF THE PVC US ED T E S T ME THOD MECHAN I CAL PROP ER T I E S REQU I RED I NT ERNAT IONAL S TANDARDS VALUE S OF THE PVC US ED

C H E M I C A L A G E N T ACETIC, ALDEHYDE ACETIC, ANHYDRIDE ACETIC ACID MONOCOL. ACETIC. ACID ACETIC ACETONE SEAWATER HYDROGEN PEROXIDE ADIPICO ACID ALLILIC ALCOHOL ALLUMINIUM CHLORIDE ALLUMINIUM SULPHATE ACETATE AMILE AMILIC, ALCOHOL AMMONIA (GAS) AMMONIA (LIQUID) AMMONIA SOL. AMMONIUM CHLORIDE AMMONIUM FLOURIDE AMMONIUM NITRATE AMMONIUM SULPHATE ANILINE ANILINE ANILINE CHLORHYDRATE ANTIMONY CHLORIDE NITRATE SILVER ACID ARSENIC BENZALDEHYDE BENZENE GASOLIN GASOLIN (BENZENE) BENZOIC ACID BEER BORAX BORIC ACID BROMIL ACID HYDROBROMIC ACID BROMINE LIQUID BUTADIENE BUTANE ACETATE BUTYLALCOHOL BUTYLFENOL BUTYL BUTYRIC ACID BUTYRIC ACID CALCIUM CHLORIDE CALCIUM NITRATE CARBONIC ANHYDRIDE CARBONSULPHIDE CARBON TETRACLORIDE CYCLOHEXANE CYCLOHEXANONE CITRIC ACID HYDROCHLORIC ACID CHLORINE (OF WATER) CHLORINE (GAS) DRY CHLORINE SULPHONIC ACID CRESYLIC ACIDS CREOSOL CHROMIC ACID CROTONALDCHYD DEXTRIN ETHYLENE-CHLORINE DIGHYCOLIC ACID DIMATHYHAMIN CETYL ALCOHAL TURPENTINE OIL ETYL BENZENE ETYL ACETATE ETYL ACRYLATE ETYL ALCOHOL ETYL ETHER PHENYLHYDRALINE PHENYLHYDRAZINE CHLHYD PHENOL IRON CHLORIDE HYDROFLUORIC ACID FLUORINE PHUOSILIC ACID FORMALDEHYDE FORMALDEHYDE FORMIC ACID PHOSPHINE PHOSPHORIC ORTHOACID PHOSPHORUS TRICHLORIDE FUAFUARYH ALCOHOL DIBUTYH PHTHALATE GLYCERINE C = CORROSIVE • LC = LIMITED CORROSIVE • NC = NOT CORROSIVE 100 100 60 SOL. 100 30 SOL. SAT. 90 SOL. SAT. SOL. SAT. 100 100 100 100 SOL. DIL. SOL. SAT. 20 SOL. SAT. SOL. SAT. 100 SOL. SAT. SOL. SAT. 90 SOL. SAT. SOL. DIL. 0,1 100 80/20 SOL. SAT. SOL. SAT. SOL. DIL. 10 50 100 100 100 100 100 100 20 98 SOL. SAT. 50 100 100 100 100 100 SOL. SAT. >30 SOL. SAT. 100 100 SOL. SAT. SOL. SAT. 1÷50 100 SOL. SAT. 100 18 30 100 100 100 95 100 100 97 90 SOL. SAT. 60 32 SOL. DIL. 40 1÷50 100 30 100 100 100 C C NC NC NC C NC NC NC LC NC NC C NC NC LC NC NC NC NC NC C C C NC NC NC C C NC C LC NC NC NC NC NC C NC NC C C NC NC C NC NC NC C C C C NC NC LC LC LC C - NC C NC C NC NC NC C C NC C C C C NC LC NC NC NC NC NC NC C C NC - C LC LC NC C LC NC LC C NC NC C LC NC C LC NC LC NC NC C C C NC LC - C C NC C C NC LC LC - LC C NC - C C LC LC C NC NC NC C C C C NC NC C C C C C LC C LC C LC - NC C C LC LC C C C NC C NC NC NC LC NC LC - C NC Con c . % Temp.20°C Temp.60°C C H E M I C A L A G E N T Con c . % Temp.20°C Temp.60°C METHYLMETHACRYHATE GLYCOLIC ACID GLUCOSE HYDROGEN HYDROGEN SULPHIDE SODIUM HYPOCHLORITE METHYL ETHYL VETONE MILK LACTIC ACID LACTIC ACID LEAVEN MAGNESIUM CHLORIDE MAGNESIUM SULPHATE MALEIC ACID MOLASSES SUHFURYL CHLORIDE METHYLENE CHLORIDE THIONYL CHLORIDE METHYL ALCOHOL N-NEPTANE NICKEL SULPHATE NICOTIN ACID NITRIC ACID NITRIC ACID OLEIL ACID OLEUM OILS AND GREASSES PARAFFIN OIL OXALIC ACID OXALIC ACID PHOSPHORIC OXYCHLORIDE OXYGEN OZONE PERCHLORIC ACID PERCHLORIC ACID PERCHLORICETHYLENE CRUDE OIL PICRIC ACID LEAD ACETATE TETRAETHYLEAD PYRIDINE BI-CHROMATE POTASSIUM POTASSIUM BROMIDE POTASSIUM CYANIDE POTASSIUM CHLORIDE POTASSIUM CHROMATE POTASSIUM FERRICYANIDE POTASSIUM FERROCIANIDE POTASSIUM HYDROXID POTASSIUM NITRATE POTASSIUM PERMANGANATE POTASSIUM PERSULPHATE PROPAN (LIQUID-GAS) PROPIONIC ACID COPPER CHLORIDE COPPER FLUORIDE SOAP SODIUM BENEOATE SODIUM BISULFITE SODIUM CHLORATE SODIUM CHLORIDE SODIUM FERRICYANIDE SODIUM HYDROXYDE SODIUM HYPOCHLORIDE SODIUM SULPHITE SULPHURIC ACID SULPHURIC ACID TOHUENE SULPHUROUS ANHYDRIDE SULPHUROUS ANHYDRIDE SULPHUROUS ACID TIN CHLORIDE DEVELOPPING POWAER TANNIC ACID TARTARIC ACID THIOPHENE TRICRESYH PHASPATE TRIMETHYHALPROPANE TRICHLOROETHYLENE GLYCOL ISOOCTANE UREA URINE VASELINE VANYL ACETATE WINE XYLENE ZIN CHLORIDE SUGAR CONC. LAV. 30 SOL. SAT. 100 100 10 10÷90 SOL. SOL. SAT. SOL. SAT. SOL. SAT. SOL. LAV. 100 100 100 SOL. SAT. CONC. LAV. <46 46÷98 100 10% di SO3 SOL. DIL. SOL. SAT. 100 100 10 70 SOL. SAT. SOL. SAT. 100 100 40 SOL. SAT. SOL. SOL. SAT. 40 SOL. SAT. SOL. SAT. SOL. SOL. SAT. 20 SOL. SAT. 100 SOL. SAT. 2 SOL. 35 SOL. SAT. SOL. SAT. SOL. SAT. SOL. SAT. SOL. 100(13%CL) SOL. SAT. 40÷90 96 100 liquida 100 secca SOL. SOL. SAT. CONC. LAV. SOL. SOL. 100 100 <10 10 100 100 SOL. SAT. SOL. SAT. NC NC NC NC NC NC NC NC NC NC NC NC NC C C NC NC. NC NC C NC C NC NC NC NC C NC LC NC NC NC C NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC NC LC LC NC NC NC NC NC NC C C NC NC NC C NC C NC NC NC NC LC NC NC NC NC LC NC LC NC LC LC C C LC NC. NC LC C NC C NC LC NC NC C LC C NC NC - - NC NC NC NC NC NC NC NC NC NC LC - NC NC NC LC NC NC NC NC NC LC LC LC C C NC NC NC NC NC NC C C LC LC LC C NC C NC NC P V C C H E M I C A L R E S I S T A N C E 10 ®

G U T T E R P R O F I L E S E C T I O N S 11 ® Outflow cross section cm2. 91,88 Width cm. 13,0 Development cm. 33 Outflow cross section cm2. 20,6 Width cm. 7,9 Development cm. 13 GRN 116 Outflow cross section cm2. 55,6 Width cm. 13,5 Development cm. 25 Outflow cross section cm2. 119,18 Width cm. 18,5 Development cm. 33 Outflow cross section cm2. 68,92 Width cm. 14,5 Development cm. 30 Outflow cross section cm2. 37,7 Width cm. 10,3 Development cm. 19 96 59 49 14 GR 100 GRN 125 GRN 133 172 14 104 86 120 14 75 61 GR 145 Outflow cross section cm2. 93,2 Width cm. 12,2 Development cm. 27,1 GRQ GRB 120 125 18 90 60 107 20 104 67 33 11 50 21 78,8 122 97 82 Outflow cross section cm2. 93,2 Width cm. 12,25 Development cm. 27,1 172 14 104 86 120 14 75 61 Outflow cross section cm2. 55,6 Width cm. 13,5 Development cm. 25 Outflow cross section cm2. 119,18 Width cm. 18,5 Development cm. 33 CUPRAELITE GRB 120 R CUPRAELITE GRN 125 R CUPRAELITE GRN 133 R 20,5 76 122,5 97,3 83 GRG 86 GRG 2 103 123 127 38 174 99 Outflow cross section cm2. 128,2 Width cm. 19,2 Development cm. 32,2 Outflow cross section cm2. 100,3 Width cm. 17,4 Development cm. 26,9 Single-wall gutter Double-wall gutter

G U T T E R S Y S T E M C O M P O N E N T S 12 ® GUTTER WITH COPPER EFFECT More than 10 years ago, First Plast introduced CUPRAELITE on the market to confer a copper effect to modern PVC gutter systems and, consequently, making them look very similar to traditional solid-copper components. CUPRAELITE products simulate the colour characteristics and reflections of copper through a PVC "co-extrusion" process that First Plast has developed first in the world. Unlike copper, however, CUPRAELITE is not affected by weather conditions in terms of oxidation or dulling, nor does it suffer from price fluctuations as metals usually do. The PVC gutter with CUPRAELITE copper effect is manufactured in the round types with development 25 (GRN 125 R) or 33 (GRN 133 R) or with a square profile (BEST). It can be matched with a wide range of accessories and downpipes that supplement functionality of the rainwater drainage system. First Plast has been managing the natural water process for 40 years through the creation of dedicated product systems. Water particles that fall under the form of rain are routed from the roof through our gutter channels and downpipes and into the collecting wells to eventually disperse into evacuation networks. Gutters and downpipes are produced through a technologically advanced die-extrusion process. Our various products are available in quite a few colours and come complete with a broad range of accessories to allow full gutter system customisation. GALVANISED BRACKET INTERNAL ANGLE RUNNING OUTLET GUTTER STOPEND BEND DOWNPIPE PVC PIPE-CLIPS GUTTER PROFILE PVC BRACKET EXPANSION UNION PVC SHOCK-RESISTANT DOWNPIPE STOPEND OUTLET EXPANSION UNION TOP FIXING RAFTER EXTERNAL ANGLE ROOF RAFTER RAIN COLLECTOR

G U T T E R S Y S T E M C O M P O N E N T S 13 ® An expansion union (also referred to as straight union) is the accessory used to join gutter profiles to one another. The BI-SYSTEM assembly system, specially developed by First Plast, applies to both glue-on accessories and accessories with gasket. The gasket suits channel expansion caused by temperature changes in the range -30°C to + 65°C. During gutter system installation, the installer is often obliged to divert assembly direction at pitched roof intersections or according to design requirements. In these cases, the First Plast gutter system relies on the special right angle unions (either internal or external) or on universal unions, all of which can be assembled using glue or gasket. A running outlet is an essential accessory to make the gutter system complete. It allows rainwater running in the gutter channel to be drained into the downpipe that is attached under the running outlet . A running outlet accepts downpipes in different diameters and suits expansion when the pipe is installed with a gasket. Thanks to our thirty-year long experience, our PVC gutter channels are the perfect match of beauty and quality. First Plast is the only firm in Italy that holds a EN 607:2005 certification for hard PVC sections and accessories. Each type is manufactured in several profiles and colours, and comes with a range of accessor ies that supplement the gut ter sys tem easily and functionally. The gutter profile and outlet union come complete with stopends. Sometimes unique pieces, other times tailored to the outlet union for some profiles, in all cases stopends not only close the system on the right-hand or left-hand sides, but mainly confer the system the essential feature of water sealing. The gutter system can be secured to the wall or to a roof pitch by different means, depending on project type. Retention can be obtained using PVC brackets (when the profile is mounted directly to the wall), galvanised and painted metal simple or double brackets (when the profile is mounted to the roof pitch), or ET 1000 roof rafters (when the profile is mounted directly to the edge of a roof sheeting). Depending on installation needs, we also supply the ST 1000 top fixing rafters that, once secured directly to the roof pitch, allow mounting PVC brackets for all gutter types (see installation details on page 21). ST 1000 ET 1000 GUTTER PROFILE GALVANISED BRACKETS AND RAFTERS GUTTER STOPENDS AND STOPEND OUTLETS INTERNAL AND EXTERNAL ANGLES RUNNING OUTLET UNIONS

G U T T E R S Y S T E M C O M P O N E N T S 14 ® Ø mm. 50 mm. 63 mm. 80 mm. 82 mm. 100 Ø mm. 80 mm. 100 mm. 80 mm. 100 mm. 92x57 We manufacture round, square or oval downpipes in the same colours and materials as the gutters. A shockresistant DAUPHIN PVC end pipe section replaces metal pipes usually installed at ground level. The downpipe discharge system includes bends, branches couplers and PVC pipe-clips. Using these accessories, that can be supplied in various types and colours, perfectly solves al l of drainage technical problems. The pluvial box is the component through which rainwater from the downpipe is conveyed and drained into underground networks. It is positioned at the end of the gutter system. Our product is designed to allow siphonage and inspection of drain points. DOWNPIPES BENDS, FITTINGS AND PVC PIPE-CLIP PLUVIAL BOX COUPLER MR 86100 from alu pipe mm. 82x56 to PVC downspout pipes 100

G U T T E R S Y S T E M A P P L I C A T I O N E X A M P L E S 15 ®

If not specifically provided otherwise by local and national regulations, no wind tolerance should be applied when calculating the actual roof area to be served by gutter channels and downpipes. In this case, regulations consider t hat rain fal l s square t o t he roof and, consequently, roof area will be calculated using the following formula: H Y D R A U L I C C A L C U L A T I O N S 16 ® DIAMETER 50 63 80 100 110 125 92x57 80x80 100x100 60 113 155 320 495 545 985 273 460 862 90 68 103 213 330 363 657 164 276 552 120 56 77 160 238 262 492 137 230 460 150 42 62 128 198 218 394 110 172 345 180 34 52 106 165 182 328 82 138 276 210 28 44 91 141 156 281 68 119 238 240 25 39 80 123 136 246 61 103 206 270 22 34 71 110 121 219 54 92 184 300 20 31 64 99 109 197 49 83 166 Tab. B Table B: Select downpipe diameter based on max height of rainfall to be drained and roof area involved This chapter offers guidelines for assessing gutter system suitability to the roof areas that will be served on the basis of the wide range of products available. Using the following tables, you can evaluate on the spot which product best suits the specific micro-climatic conditions where it is to be installed. Reference values were obtained as required by the EN 12056-3:2001 standard on gravity drainage systems for rainwater evacuation. This European standard provides the method for calculating hydraulic adequacy of nonsiphonic rainwater drainage systems and sets the per formance levels required. Table A: Select gutter channel profile depending on the roof area to be served (downpipe and channel should be compatible). Once you know the roof area, select the type according to rainfall intensity GUTTER CHANNEL FLOW-RATE ITEM GRN 116 GR 100 GRN 125 GR 145 GRN 133 GRQ GRB 120 GRG 86 GRG 2 2006 3770 5560 6892 11918 9188 9061 10030 12820 l/s 0,33 0,73 1,19 1,57 3,11 2,81 2,60 2,51 4,27 Section area mm2 ACTUAL ROOF AREA BR L R A A = LR x BR A is the actual roof area in square metres LR is the length of the roof area to be drained BR is the width of the roof area from the gutter channel to roof ridge downpipe per roof area rainfall intensity (mm/h*) LOCATE DOWNPIPE TYPE BASED ON ROOF AREA * Mm/hr = millimetres/hour ITEM rainfall intensity (mm/h*) GRN 116 GR 100 GRN 125 GR 145 GRN 133 GRQ GRB 120 GRG 86 GRG 2 Tab. A 60 19 43 70 92 183 165 158 147 238 90 13 29 47 62 124 112 108 100 162 120 10 22 36 47 94 85 81 76 122 PROFILES AND COLOURS BROWN GREY SAND WHITE COPPER PLATED ANTIQUE COPPER 150 7 17 28 37 74 66 64 59 96 180 6 14 23 31 62 56 54 50 81 210 5 12 20 27 53 48 46 43 69 240 5 12 19 26 51 46 45 41 67 270 4 9 15 20 41 37 36 33 54 300 4 8 14 18 37 33 32 30 48 LOCATE GUTTER TYPE BASED ON ROOF AREA rain gutter per roof area RED BLACK

In case of gutter channels exceeding 12 metres, use an expansion union and then install one every 8 metres, and two running outlets. Keep in mind that the distance between two drain points should not exceed 24 metres. A gutter channel running around a four-pitch roof requires installing both expansion unions and running outlet with gasket. Gutter channels in length 12 metres or less do not require being installed using expansion unions since the profile expands only at the ends. Use a running outlet with gasket and 2 expansion unions for gutter channels shorter than 12 metres that are closed at both ends. RECOMMENDED USE OF ACCESSORIES 17 ® ≤ 12 mt. EXPANSION ≤ 12 mt. EXPANSION > 12 mt. max 24 mt. EXPANSION EXPANSION EXPANSION Installation of considerably long gutter systems usually calls for solutions that on one hand allow improved rainwater drainage and on the other prevent problems due to wide temperature changes that mildly affect PVC expansion. For water to run smoother through the channel and into downpipes, we recommend a slope slightly greater than the 0.33% standard value shown on page 20.

A S S E M B L Y W I T H G L U E 18 ® • Cut gutter profiles in the length desired using an ordinary iron hacksaw and remove burrs using sandpaper. • Clean the surfaces to be glued using the special PVC detergent. • Apply glue to both gutter end and gutter stopend seat using a brush or by squeezing it out from the tube. • Join within 2 minutes and hold the joined pieces firmly together for a few seconds to allow the glue to cure. • Carry out the sealing test not earlier than 24 hours from gluing. COLLA SALDANTE PER PVC 500 g PESO NETTO POIDS NET COLLA SALDANTE PER PVC C O N P E N N E L L O COLLA SALDANTE PER PVC

1 2 3 A S S E M B L Y W I T H G A S K E T 19 ® 4 5 6 The First Plast gutter system is very easy to install. First securely mount the brackets or the rafters, and then install the channel starting from either end. When installing the gutter channel, follow the general directions given below: • Insert and lock the rear edge (unrimmed) of the gutter profile in the bracket inner seat (see Picture 1). • Turn the channel section inside the bracket (Picture 2) and lock it in the bracket outer seat (Picture 3). Gutter channel sections are assembled to one another using the various accessories. According to project requirements, use expansion unions to join two channel sections or running outlet to join a channel section to the downpipe drainage system (see drawing at page end). With the system, gutter channels can be glued together or assembled using gaskets that allow optimum expansion in all climatic conditions. The example below shows a GSN 125 running outlet being fitted with a GU 20 gasket. • Insert the gasket into its seats at both ends of the running outlet (Picture 4). ATTENTION: Each gutter type with BI-SYSTEM can be fitted with gaskets of different sizes to allow improved watersealing. The various types of GU gaskets are illustrated in the pages dedicated to gutter types (pages 23-34). • Insert and lock the rear edge (unrimmed) of the gutter profile into the inner seat of the running outlet so that to obtain a 3 or 4 cm overlap with the gasket (Picture 5). GASKET: I T SHOULD BE F I TTED INTO I TS SEAT (ACCESSORIES FOR GUTTER TYPE GR 145 ARE SUPPLIED COMPLETE WITH THEIR GASKETS) FIRST STEP: INSERTING THE GUTTER PROFILE INTO THE INNER SEAT OF THE OUTLET UNION SECOND STEP: LOCK THE GUTTER CHANNEL CURL RIM INTO THE OUTER SEAT OF THE OUTLET UNION • Turn the channel section into the running outlet and lock it in the outlet outer seat so that the gasket is fully covered by the locked-in gutter.

ROOF PROTRUSION: 1/3 of channel WIDTH 20 ® I N S TA L L AT I O N I N S T R U C T I O N S RECOMMENDED BRACKET TO BRACKET DISTANCE: 50 cm FIRST BRACKET 30 cm FROM EDGE MAX 50 cm. 30 cm. MINIMUM DIFFERENCE IN HEIGHT: 1 cm EVERY 3 metres (0.33%) BEND THE BRACKET FOLLOWING ROOF SLOPE 1) In some types of buildings, thanks to the characteristics of the façade or reduced roof pitch protrusion, the gutter channel can be installed using directly the PVC brackets. These accessories are available for most gutter types (see gutter profile details on pages 23 to 34). 2) In this case, installation is very simple. Just follow installation instructions detailed above and secure the PVC brackets to the façade. 3) Mount the gutter channel by inserting it under the PVC bracket inner seat (B), and then slightly turn it to drive the curl rim into the PVC bracket outer seat (C) to lock the gutter. ASSEMBLING THE PVC BRACKETS For optimum rainwater drainage, consider that the roof protrusion (tiles, roofing sheets, etc.) should cover 1/3 of the gutter channel width. C B The leaf strainer PF 26, adjustable for diameters from 75 to 125 mm, is perfect to prevent wind-borne leaves or fibres from blocking downpipes. Brackets and rafters are ready for instal lation of a safety wire PROTRUSION

ASSEMBLING THE GALVANISED BRACKET 1) The galvanised and painted metal bracket has the same installation characteristics as shown in the picture in the upper part of page 20. 2) After mounting the metal bracket to the roof, bend it to angle A to match roof pitch slope. 3) Mount the gutter channel by inserting it under the metal bracket inner seat (B) and then slightly turn it to drive the curl rim into the metal bracket outer seat (C) to lock the gutter. Bend the metal slot (D) towards the gutter channel inside for perfect locking. C B A ASSEMBLING THE DOUBLE GALVANISED BRACKET 1) The galvanised and painted metal double bracket has the same installation characteristics as shown in the picture in the upper part of page 20. 2) A double bracket consists of two pieces: the support bracket (bottom) and the tie-rod element (top). Start by fixing the support bracket to the roof bending it to angle A to match roof pitch slope. 3) Place the gutter into the support bracket, hook the tie-rod into slot C and fix it to the roof to lock the gutter. C B A tie-rod element support bracket MOUNTING THE “ST 1000” TOP FIXING RAFTERS 1) After mounting the ST 1000 metal top fixing rafters to the roof, bend them to angle A to match roof pitch slope and install the PVC brackets. 2) The height of the PVC bracket (position P) can be adjusted along the metal rafter slot. Secure PVC brackets along the gutter line so that the gutter channel difference in height is minimum 1 cm every 3 metres. 3) Install metal top fixing rafters starting from the roof outer edge, the first one after 30 cm and the others 50 cm from one another. P A 21 ® I N S TA L L AT I O N I N S T R U C T I O N S 1) The ET 1000 roof rafter is secured directly to the edge of roofing sheets. 2) Fix the ET 1000 roof rafter at wave crest, then bend it to angle A to match roof pitch slope. 3) Fix the PVC bracket to the roof rafter so that you can adjust the distance of the gutter from the roofing sheet. MOUNTING THE “ET 1000” ROOF RAFTER A C B C B A D

4 5 6 1 A S S EMB L I N G G U T T E R 22 ® Install the Best gutter following these simple instructions: • Start by fixing the PVC brackets; remember to position the first one 30 cm from the roof outer edge. Calculate gutter incline for improved water drainage so that difference in height is one centimetre every 3 metres (Fig.1). • Fix PVC brackets keeping a 50cm distance from one another (Fig. 2). • Once the brackets assembled, install the Best gutter channel and remember to always insert the profile in the brackets inside first (see A in the illustrations above) until you clearly hear it click locked (Fig. 3). • After hooking the inner part, lock the outer part same way until the hook is fully seated (Fig. 4). • Once installed, the Best gutter looks like an uninterrupted profile (Figs. 5-6). 2 3 A B A B THE GUTTER The Best type is characterised by an innovative assembly system that allows a simple and aesthetically per fect installation. The channel section is mounted to specially designed PVC brackets with two hooks at the bottom (see box on the right side), which elegantly results in the gutter holding brackets being concealed to the sight from the ground.

G U T T E R C H A N N E L Mo d . 1 1 6 GRN 116 Gutter channel Mod. 116 GSN 116 Running outlet Ø 50 GNE 116 Union GU 12 Gasket GRN 116 Outflow section area 20,6 cm2 Width 7,9 cm. Development 13 cm. Junction by gasket and/or glue Colours brown - grey - sand - white GU 12 GSN 116 GN 116 120 60 60 Ø 50 60 140 CIP 116 18 21 93 83 44 CIP 116 PVC bracket CIPM 116 PVC Roof rafter + PVC Bracket TU 116 Gutter stopend GN 116 Expansion union TU 116 57 10 86 86 4000 50 GNE 116 55 40 CIPM 116 - 86 67 72 AEN 116 90° Angle 86 112 60 35 AEN 116 67 33 11 50 23 ® 79

G U T T E R C H A N N E L Mo d . 1 0 0 GR 100 Expansion union GR 100 Gutter channel Mod. 100 GS 100 Running outlet Ø 80 - 63 TGS 100 Stopend outlet T 100 Gutter stopend CIP 100 PVC bracket GU 14 Gasket AN 100 90° Angle GR 100 Outflow section area 37,7 cm2 Width 10,3 cm. Development 19 cm. Junction by gasket and/or glue Colours brown - grey AN 100 CIP 100 GU 14 GS 100 G 100 T 100 TGS 100 145 96 59 49 14 4000 103 59 25 57 104 65 110 113 63 27 105 Ø 63-80 67 180 100 30 30 113 101 50 113 185 68 82 96 24 ®

GN 125 Expansion union GRN 125 Gutter channel Mod. 125 GSN 125 Running outlet Ø 100-80 GNE 125 Union TGS 125 Stopend outlet TN 125 Gutter stopend CIP 125 PVC bracket GU 20 Gasket AN 125 90° Angle AIN 125 Internal angle AEN 125 External angle GRN 125 Outflow section area 55,6 cm2 Width 13,5 cm. Development 25 cm. Junction by gasket and/or glue Colours brown - grey - sand - white red - black AN 125 CIP 125 GU 20 GSN 125 GN 125 GNE 125 TN 125 TGS 125 120 14 75 61 Ø 80-100 84 125 220 84 120 125 125 50 83 125 30 80 154 123 20 75 135 4000 135 75 120 183 125 80 29 AIN 125 43 50 90° 43 AEN 125 43 50 43 24 30 140 105 64 210 GUTTER CHANNEL Mod. 125 25 ® AN 125135 135° Angle AN 125135 95 80 125 35

G U T T E R C H A N N E L Mo d . 1 3 3 GRN 133 Gutter channel Mod. 133 GSN 133 Running outlet Ø 110-100 GNE 133 Union TN 133 Gutter stopend CIP 133 PVC bracket GU 30 Gasket AN 133 90° Angle AN 133 CIP 133 GSN 133 GNE 133 TN 133 TGS 133 172 14 104 86 173 26 113 175 20 104 190 4000 172 232 180 114 52 25 30 200 110 64 TGS 133 Stopend outlet 185 104 Ø 110-100 113 360 182 173 50 113 190 GRN 133 Outflow section area 119,18 cm2 Width 18,5 cm. Development 33 cm. Junction by gasket and/or glue Colours grey - sand - white GN 133 Expansion union 116 130 182 GN133 GU 30 310 26 ®

G U T T E R C H A N N E L Mo d . 1 4 5 GR 145 Gutter channel Mod. 145 GS 145 Running outlet Ø 100-80 with gasket T 145 Gutter stopend CIP 145 PVC bracket AE 145 90° External angle with gasket AI 145 CIP 145 G 145 125 18 90 60 4000 30 30 144 136 50 145 GR 145 Outflow section area 68,92 cm2 Width 14,5 cm. Development 30 cm. Junction by gasket Colours brown - grey G 145 Expansion union with gasket AI 145 90° Internal angle with gasket 125 90 150 98 132 129 80 96 210 129 80 96 210 AE 145 27 ® TGS 145 Stopend outlet GS 145 Ø 80-100 100 220 132 T 145 130 20 90 TGS 145 130 20 90

G U T T E R C H A N N E L Mo d . 1 0 0 x 1 1 0 GRQ Gutter channel Mod. 100x110 GSQ Running outlet 100 - Ø 80 TQ Gutter stopend AEQ 90° External angle AIQ GSQ GQ 4000 130 GRQ Outflow section area 91,88 cm2 Width 13,0 cm. Development 33 cm. Junction by gasket and/or glue Colours brown - grey - white GQ Expansion union AIQ 90° Internal angle 140 116 109 Ø 80 109 220 113 95 113 215 TGSQ Stopend outlet 107 20 104 111 97 104 111 100x100 140 GU 27 Gasket GU 27 265 TGSQ 99 25 130 140 95 102 215 AEQ 107 TQ 26 102 111 154 28 ®

GSB 120 Running outlet TB 120 Gutter stopend AEB 120 90° External angle AIB 120 GSB 120 GB 120 4000 122 GRB 120 Outflow section area 93,2 cm2 Width 12,2 cm. Development 27,1 cm. Junction by gasket and/or glue Colours brown - sand - white GB 120 Expansion union AIB 120 90° Internal angle 135 110 105 105 220 102 145 TGB 120 Stopend outlet 97 GU 27 Gasket GU 27 265 TB 120 92 118 125 102 AEB 120 G U T T E R C H A N N E L Mo d . CIPB 120 PVC bracket 21 78,8 122 82 97 99 99 20 TGB 120 95 122 25 125 65 93 30 145 78,8 82 29 29 138 105 65 CIPB 120 135 29 ® GRB 120 Gutter channel Mod.

GSB 120 R Running outlet TB 120 R Gutter stopend AEB 120 R 90° External angle AIB 120 R GSB 120 R GB 120 R 4000 122,5 GRB 120 R Outflow section area 93,2 cm2 Width 12,25 cm. Development 27,1 cm. Junction by gasket and/or glue Colour copper plated GB 120 R Expansion union AIB 120 R 90° Internal angle 135 110 105 105 220 102 145 TGB 120 R Stopend outlet 97,3 GU 27 Gasket GU 27 265 TB 120 R 92 118 125 102 AEB 120 R CIPB 120 R PVC bracket 76 122,5 83 97,3 20,5 99 99 20 TGB 120 R 95 122 25 125 65 93 30 145 76 83 29 29 138 105 65 CIPB 120 R 135 30 ® G U T T E R C H A N N E L Mo d . GRB 120 R Gutter channel Mod.

G U T T E R C H A N N E L Mo d . 1 2 5 GN 125 R Expansion union GSN 125 R Running outlet Ø 100-80 GNE 125 R Union TGS 125 R Stopend outlet TN 125 R Gutter stopend CIP 125 R PVC bracket GU 20 Gasket AN 125 R 90° Angle GRN 125 Outflow section area 55,6 cm2 Width 13,5 cm. Development 25 cm. Junction by gasket and/or glue Colours copper plated - antique copper AN 125 R CIP 125 R GU 20 GSN 125 R Ø 80-100 84 125 220 GN 125 R 84 120 125 GNE 125 R 125 50 83 TN 125 R 125 30 80 154 TGS 125 R 123 20 75 135 4000 135 75 120 183 125 80 29 24 30 140 105 64 210 120 14 75 61 31 ® GRN 125 R Gutter channel Mod. 125 AN 125135 R AN 125135 R 135° Angle 95 80 125 35

G U T T E R C H A N N E L Mo d . 1 3 3 GN 133 R Expansion union GSN 133 R Running outlet Ø 100-110 GNE 133 R Union TGS 133 R Stopend outlet TN 133 R Gutter stopend CIP 133 R PVC bracket GU 30 Gasket AN 133 R 90° Angle GRN 133 R Outflow section area 119,18 cm2 Width 18,5 cm. Development 33 cm. Junction by gasket and/or glue Colour copper plated AN 133 R CIP 133 R GU 30 GSN 133 R GN 133 R GNE 133 R TN 133 R TGS 133 R 116 130 182 173 50 113 173 26 113 154 175 20 104 190 4000 185 104 172 232 180 114 52 25 30 200 110 64 310 190 172 14 104 86 Ø 110-100 113 360 182 32 ® GRN 133 R Gutter channel Mod. 133

DOUBLE - WALL G U T T E R C H A N N E L Mo d . G86 GRG 86 Gutter channel Mod. G86 TSG 86 Left gutter stopend GAG 86 Union AIG 86 90° Internal angle GRG 86 Outflow section area 100,3 cm2 Width 17,4 cm. Development 26,9 cm. Junction by glue Colour brown CGG 86 TSG 86 99 100 200 155 99 ® AEG 86 90° External angle CGG 86 Union cover TDG 86 Right gutter stopend GAG 86 TDG 86 AIG 86 AEG 86 180 115 155 100 177 18 105 155 174 5000 530 95 720 560 740 105 180 33 ®

DOUBLE - WALL G U T T E R C H A N N E L Mo d . G2 GRG 2 Gutter channel Mod. G2 TSG 2 Left gutter stopend GAG 2 Union AIG 2 90° Internal angle GRG 2 Outflow section area 128,2 cm2 Width 19,2 cm. Development 32,2 cm. Junction by glue Colour brown CGG 2 TSG 2 AEG 2 90° External angle CGG 2 Union cover TDG 2 Right gutter stopend GAG 2 TDG 2 AIG 2 AEG 2 120 112 193 - 121 525 120 735 540 740 120 199 103 123 127 38 192 5000 123 185 205 131 151 17 199 128 ® 34 ®

G A LVA N I S E D ME T A L B R A C K E T S F O R G U T T E R S ET 1000 Roof rafter CI 100 20 269 111 CID 120 25 265 250 92 CIG 86 195 370 29 270 370 185 CIG 2 210 130 25 300 180 35 ® ST 1000 Top fixing rafter 85 290 20 ST 1000 CI 100 Galvanised and painted metal bracket for GR 100 CID 120 Galvanised and painted double metal bracket for GRB 120 CIG 86 Galvanised and painted double metal bracket for GRG 86 CIG 2 Galvanised and painted double metal bracket for GRG 2 CI 145 Galvanised and painted metal bracket for GR 145 CID 145 Galvanised and painted double metal bracket for GR 145 CIQ Galvanised and painted double metal bracket for GRQ CIN 125 CI 145 20 260 165 25 250 145 315 CID 145 25 215 116 237 CIQ ET 1000 97 75 17 90 70 CIN 125 Galvanised and painted metal bracket for GRN 125 CIN 133 R Galvanised and painted metal bracket for GRN 133 R 28 242 195 CIN 133 R 25 245 128

Ø mm. Grey Brown Sand Copper Plated Antique Copper White Red ROUND PIPE-CLIPS 63 CNM63N CNM63M 80x80 CNQ80N CNQ80M 50 CNLM50N CNLM50M CNLM50S 100x100 CNQ10N CNQ10M SQUARE PIPE-CLIPS P V C D OWN P I P E S TJ PVC shock-resistant downpipe TD Round downpipe Ø mm. Working lenght mm. Grey Brown Sand Copper Plated Antique Copper White Red ROUND DOWNPIPES 63 1000 TDN61 TDM61 63 2000 TDN62 TDM62 63 3000 TDN63 TDM63 80 1000 TDN81 TDM81 TDS81 TRT8010 TRAT8010 TDB81 80 2000 TDN82 TDM82 TDS82 TRT8020 TRAT8020 TDB82 50 1000 TDN51 TDM51 TDS51 50 2000 TDN52 TDM52 TDS52 50 3000 TDN53 TDM53 TDS53 Ø mm. Working lenght mm. Grey Brown SQUARE DOWNPIPES 80x80 1000 TQGN81 TPQM81 80x80 2000 TQGN82 TPQM82 80x80 3000 TQGN83 TPQM83 100x100 1000 TQGN11 TPQM11 100x100 2000 TQGN12 TPQM12 100x100 3000 TQGN13 TPQM13 PVC SHOCK-RESISTANT DOWNPIPE Ø mm. Lenght mm. Black 80 2000 TJ8020N 100 1500 TJ1015N 80 1500 TJ8015N 100 2000 TJ1020N CNM Pipe-clip for round downpipe CNQ Pipe-clip for square downpipe CNLM 50 Pipe-clip for round downpipe Ø 50 TQGN Square downpipe 36 ® TRT - TRAT Round downpipe CN Round downpipe Ø 50 100 CNM10N CNM10M CNM10S CNM10R CNM10B CNM10O 80 CNM80N CNM80M CNM80S CNM80R CNM80RA CNM80B CNM80O 80 3000 TDN83 TDM83 TDS83 TRT8030 TRAT8030 TDB83 TDO83 100 1000 TDN11 TDM11 TDS11 TRT1010 TDB11 TDO11 100 2000 TDN12 TDM12 TDS12 TRT1020 TDB12 TDO12 100 3000 TDN13 TDM13 TDS13 TRT1030 TDB13 TDO13

P V C F I T T I N G S A N D A C C E S S O R I E S 37 ® BRG - DLR 45° Branch BRSQ 45° Branch CL 45° Bend CL 67°30’ Bend CL 87°30’ Bend FFQ Coupler FF 080 - FF 100 Coupler SQUARE BENDS 100x100 67°30’ CQGN167 CUQM167 100x100 87°30’ CQGN187 CUQM187 80x80 87°30’ CQGN887 CUQM887 80x80 67°30’ CQGN867 CUQM867 Ø mm. Angle Grey Brown CQ 87°30’ Bend CQ 67°30’ Bend Ø mm. Angle Grey Brown Sand Copper Plated Antique Copper White Black Red ROUND BENDS 63 67°30’ CUGN667 CUM667 63 87°30’ CUGN687 CUM687 80 67°30’ CL67080N CL67080M CL67080S CLR67080 CLRA67080 CL67080B 63 67°30’ CUGN667 CUM667 50 67°30’ CS67050N CS67050M CS67050S 50 45° CS45050N CS45050M CS45050S 50 87°30’ CS87050N CS87050M CS87050S Ø mm. Angle Grey Brown Sand Copper Plated Antique Copper White Ø mm. Grey Brown 80x80 FFQ8080N FFQ8080M 100X100 FFQ1010N FFQ1010 M SQUARE COUPLER Ø mm. Grey Brown Sand Copper Plated Antique Copper White Red ROUND COUPLER 50 FFN050050 FFM050050 FFS050050 MR 86100 Rectangular/round coupler from alu pipe mm. 82x56 to PVC downspout Ø 100 DL 67°30’ Branch F M ROUND BRANCHES 80 45° BRGN80 BRSM80 BRSS80 DLR45080 DLRA45080 BRSB80 63 45° BRGN63 BRSM63 80x80 67°30’ BRSQ867N BRSQ867M SQUARE 80 67°30’ DL67080N DL67080M DL67080S DLR67080 DL67080B 100 45° BRGN100 BRSM100 BRSS100 DLR45100 BRSB100 BRSO100 Ø mm. Grey Sand ADAPTER 82x56--> Ø 100 MR 86100 N MR 86100 S 50 45° BRGN50 BRSM50 BRSS50 80 45° CL45080N CL45080M CL45080S CLR45080 CLRA45080 CL45080B CSTJ45080 CL45080O 80 87°30’ CL87080N CL87080M CL87080S CLR87080 CLRA87080 CL87080B CSTJ87080 CL87080O 100 67°30’ CL67100N CUM167 CL67100S CLR67100 CL67100B CL67100O 100 45° CL45100N CUM145 CL45100S CLR45100 CL45100B CSTJ45100 CL45100O 100 87°30’ CL87100N CUM187 CL87100S CLR87100 CL87100B CSTJ87100 CL87100O 80 FFN080080 FFM080080 FFS080080 FFR080080 FFRA080080 FFB080080 FFO080080 100 FFN100100 FFM100100 FFS100100 FFB100100 FFO100100

Ø mm. 100 COUPLING THE BOTTOM DOWNPIPE 38 ® RAIN COLLECTOR ADAPTABILITY R A I N C O L L E C T O R RA 186 Rain collector RAIN COLLECTOR Ø mm. Grey Brown Sand Copper Plated White THE IMPORTANCE OF THE PRINCIPLE OF COMMUNICATING VESSELS Ø 3/4” The rain collector transforms rainfalls into a great savings opportunity. Through a very simple change to the downpipe, you can route rainwater into external containers, thereby optimising water reserves for household or garden usages. The rain collector is supplied complete with a 20 mm diameter hose fitting The rain collector cap is necessary for inspection purposes. It is fitted with pre-cuts that allow adapting it to downpipes in diameter 100 - 80 - 63 mm and to the Best oval pipe in size 92x57 mm. The principle of communicating vessels establishes that a liquid held into two communicating vessels, reaches the same level in both vessels and takes on their shape. While rushing down the downpipe, water is channelled through the rain collector and into an external container (of whatever shape and size). Water can be differently affected by the effects of the principle of communicating vessels depending on rain collector mounting height and container height. After offering these general highlights on hydraulics, we suggest evaluating the effects of the principle of communicating vessels starting from the design phase so that you can select product mounting height (H) and maximise water collection relative to container height. mm. 105 mm. 55 mm. 105 mm. 42 mm. 20 mm. 20 mm. 65 mm. 30 Ø mm. 80 Oval mm. 92x57 Ø mm. 63 Ø mm. 100 Ø mm. 80 Oval mm. 92x57 Ø mm. 63 hose fitting 63 - 80 - 100 - oval pipe 92x57 RA186N RA186M RA186S RA186R RA186B

39 ® SIDE HOPPER HEAD Ø mm. Grey Brown Sand Copper Plated White 80 CTP80N CTP80M CTP80S CTP80R CTP80B SIDE HOPPER HEAD The side hopper head is a supplementary component of the gutter system that is used to channel together several downpipes installed at different roof pitches. This product is particularly suitable for applications where the gutters and the downpipes are positioned at different heights. The side hopper head allows drainage of a remarkable amount of rainwater. It can accept two max 80 mm. diameter downpipes or bends. CTP Side hopper head for downpipes The rain collector can be assembled to newly installed or existing downpipes. In the latter case, proceed as follows: RAIN COLLECTOR INSTALLATION TO EXISTING DOWNSPOUTS mm. 70 ø mm. 80 mm. 250 mm. 55 mm. 225 The cap comes with inner pre-cuts to match all First Plast downpipes. Cut a downpipe section (min 3 cm - max 6 cm) Loosen or slide out the pipe-clips near rain collector installation height, move outwards the two pipe sections obtained from cutting the downpipe. Using the pre-cuts, shape the cap to obtain a hole same size as the pipe diameter. Slide on the cap to the upper pipe. Assemble the rain collector onto the lower pipe using the seats specially provided. Realign the downpipes, tighten the pipe-clips previously loosened and add any extra pipe-clips that might be required near the rain collector. Fix the cap (do not glue it to allow for inspection) and screw on the hose fitting. 1 2 4 5 6 1 2 3 4 3 5 6 section

The new Best gutter channel is complete with a wide range of accessories that satisfy all kinds of design requirements. The downpipe, bend and coupler system is designed based on the oval shape to maintain perfect continuity of appearance with the gutter profile. All accessories are equipped with a female inlet where the oval pipe is coupled, and a male out let that enters the downpipe underneath to obtain perfect water seal ing. The Best gutter accessories male end is smaller than the oval pipe inner width: thanks to this technicality, once connected, seamless continuity of the assembly is guaranteed. The Best accessor ies should always be connec ted to oval pipes ( see pic ture B) . MB 96 Coupler MRB 96 Oval/round downpipe adapter D OWN P I P E S A N D F I T T I N G S TOV - TOVR Oval downpipe mm. 92x57 CNMOV Oval pipe-clips COV 67096 67° 30’ Oval bend COV 87096 87° 30’ Oval bend Ø mm. Brown Sand Copper Plated White OVAL ADAPTORS 92x57--> Ø 80 MRB96M MRB96S MRB96R MRB96B 92x57 MB96M MB96S MB96R MB96B OVAL DOWNPIPES 92x57 2000 TOV962M TOV962S TOV962B TOV962R Ø mm. Lungh. mm. Brown Sand White Copper Plated 92x57 3000 TOV963M TOV963S TOV963B TOV963R 92x57 4000 TOV964M TOV964S TOV964B TOV964 R Ø mm. Brown Sand Copper Plated White OVAL PIPE-CLIPS 92x57 CNMOV96M CNMOV96S CNMOV96R CNMOV96B 40 ® CHARACTERISTICS OF THE ACCESSORIES F F F F M M M M A B C To allow Best system integration with all the other downpipe types, First Plast has developed the special oval/round adaptor MRB 96 that allows using an 80 mm diameter round downpipe to drain the Best profile (see picture A), or to connect an oval pipe into the round inlet of a rainwater (see picture C). Ø mm. Angle Brown Sand Copper Plated White OVAL BENDS 92x57 67° COV67096M COV67096S COV67096R COV67096B 92x57 87° COV67096M COV87096S COV87096R COV87096B

A C C E S S O R I E S PSP - PSQ Rainwater drain well with horizontal outlet GSP 140 Grid RQ P140 Adapter for square pipes 80-100 RTP 140 Adapter for round pipes Ø 80-100 ITEM PSP 140 PSP 114 PSQ 140 RTP 140 RTP 114 RQP 140 GSP 140 CSP 140 265 265 265 185 185 185 100 100 100 129 129 129 129 129 129 223 223 223 A B C D E F H Ø 100 Ø 110 100 Ø 100 Ø 110 100 Ø 80 Ø 90 80 Ø 80 Ø 90 80 RAINWATER DRAIN WELL - TYPE 140 PSP 160 PSP 161 320 320 311 311 165 165 156 - - A B C D D 1 D 2 E Ø 125 Ø 110 Ø 100 - RTP 160 Adapter for round pipes Ø 80-100 GSP 160 Grid CSP 160 Cover PSPV 160 PSPV 161 PSPV 1611 Rainwater drain well with vertical outlet PSP 160 PSP 161 Rainwater drain well with horizontal outlet CSP 140 Cover 41 ® A C B H D2 E D2 D1 D1 PSPV 160 - PSPV 161 C G H A B C G GSP 140 CSP 140 D F E RTP 140 RTP 114 RQP 140 PSP 140 - PSP 114 - PSQ 140 D1 A B C D D1 D2 H D2 PSP 160 - PSP 161 PSPV 160 PSPV 161 320 320 97 97 110 110 156 50 50 Ø 110 Ø 110 Ø 125 PSPV 1611 RTP 160 320 97 110 50 Ø 110 RTP 116 CSP 160 CSP 116 RAINWATER DRAIN WELL - TYPE 160-161 135 135 135 129 129 G 210 210 H 159 159 159 C GSP 160 CSP 160 ITEM RTP 116 Adapter for round pipes Ø 90-110 RTP 114 Adapter for round pipes Ø 90-110 RTP 160 - RTP 116 M N HO = horizontal outlet / VO = Vertical outlet HO OUTLET HO HO HO = horizontal outlet / VO = Vertical outlet HO OUTLET HO VO VO VO leaf strainer PSPV 160 (vertical outlet) M 154 154 N Ø 80 Ø 90 Ø 100 Ø 110 Al l i tems are avai lable in Grey colour, PSPV161 is avai lable in Brown or Grey colour. Al l i tems are avai lable in Grey colour Inlet: Ø 80 - Ø 100 - Ø 125 (Inlet: Ø80 - Ø100 - Ø125) (Inlet: Ø80 - Ø100 - Ø125) (Inlet: Ø90 - Ø110 - Ø125) MATERIAL: POLYPROPYLENE COLOUR: Grey Siphonnage plate

A C C E S S O R I E S 42 ® H E C D B T A G MODELLO CHAN 20 G 200x200 A B PVC CORNER GULLY TRAP Ø 130 Ø 80 Ø 100 Ø 110 115 75 80-100 90-100 C D E G H T CHAN 20 H S Ø Ø 80-82-100 80-82-100 80-82-100-110-125 CE 20 CE 30 CE 40 MODELLO A B C D 100 95 100 120 115 118 - - 128 - - 145 E F - - 125 - - 110 G I 102 102 100 83 83 81 20 22 25 187 285 383 S H LIGHT COVER WITH PRE-CUT FOR DOWNPIPES D C B A pre-cut CE 40 E G I F pre-cut CE 30 - CE 20 I A B CE PP Light cover with pre-cut for downpipes PZD - PZDE Drain well box CHAN 20 PVC Corner gully trap CE PF 26 Leaf strainer da Ø 75 a Ø 125 A B C mm. 15 mm. 16 RQP 140 Adapter for square pipes RTP 140 Adapter for round pipes FP 7 FP 11 FP 15 I T EM A B C 500 500 500 70 110 150 25 25 40 SPARROW GUARD COLOURS: GREY SAND COLOURS: GREY SAND G The strainer, available in white or black, is the ideal accessory to prevent wind-borne leaves or fibres from blocking the drainage pipes. FP 7 - FP 11 - FP 15 Sparrow guard The sparrow guard positioned between the roof and the gutter prevents birds or other animals from entering the loft and nesting there, which would damage the roof. (dimensions in mm.)

Lo c a l i t à I s o l a G r a nd e • ALTARE ( SV ) • I TALY TEL . + 3 9 0 1 9 5 8 5 1 1 • FAX + 3 9 0 1 9 5 8 2 8 6 e -ma i l : i n f o f i r s t @ f i r s t c o r. c om • www. f i r s t c o r. c om distributed by: produced by:

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