drainage-channels-en-2024

Technical catalogue Drainage channels

INDEX 2 INTRODUCTION The company Quality / Certifications Raw materials Our plastic CE marked products / Capacity of grids and lids Chemical resistance of polyamide - PVC - PP Modular grilled channels Installation Drainage channel laying scheme Techniques and drainage calculations DRAINAGE CHANNELS Drainage channel mod. 100 Drainage channel mod. 130 Drainage channel mod. 200 Drainage channel mod. 300 Drainage channel mod. 400 18 21 25 27 29 POLYPROPYLENE DRAINAGE CHANNELS Shallow drainage channel mod. 130XL Deep drainage channel mod. 130XL Shallow drainage channels with C250 grate Deep drainage channels with C250 grate Drainage channel mod. 100 Drainage channel mod. 130 33 34 35 36 38 39 KIT GARAGE DRAINAGE CHANNELS Kit Garage 100 41 03 04 05 06 07 08 10 11 12 13 ACCESSORIES Integrated systems Grid frames and lids in fiberglass reinforced nylon Flexible grill for swimming pool Frame profile 42 43 44 45

The company 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. 3 Made in Italy MANUFACTURERS SINCE 1966 Planning: First Plast has achieved world-wide recognition, for its continuous development, of new and inovative products. Quality: The First Plast laboratories guarantee continuous and constant quality control of the products made thanks to the use of extremely advanced equipment and technologies, always in compliance with current regulations. Production: First Plast due to the most modern extrusion andmoulding 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.

QUALITY 4 Certifications In 1995 First Plast obtained the first company quality certification UNI EN ISO 9001, since then the company has always maintained a very high level of production andmanagement, in compliance with national and international standards, achieving ISO 9001 and ISO 14001 certifications. UNI EN ISO 9001:2015 UNI EN ISO 14001:2015 First Plast quality internal procedure is recognized by international certifications as UNI EN ISO 9001:2015 Environmental care is granted in our manufacturing sites by UNI EN ISO 14001:2015 certification

5 POLYAM I DE PVC POLYPROPY L ENE RAW MATERIALS WHEN PLASTIC TAKES SHAPE Characteristics of raw materials After years of experimentation & laboratory tests, First Plast manufactures products with a light degree of strenght, and chemical resistance. PROOF SISTEM Max Tensile Enervation unity stress Traction elasticity coefficent Extension to breakage POLYAMIDE PVC POLYPROPYLENE ISO 1183 ISO 306 ISO 527 ISO 527 ISO 527 ISO 527 21 27 1800 15 MPa (N/mm²) MPa (N/mm²) MPa (N/mm²) % 44 47 2800 140 150 85 4200 ~ 2 TECHNICAL CHARACTERISTICS PHYSICAL CHARACTERISTICS MEASURING UNITY Specific weight Softening temperature Thermic expansion coefficent 1,26 75 0,15 kg/dm³ °C mm/m °C 1,42 80 0,06 - 0,08 ~ 1,36 240 0,03 (TYPICAL VALUES) Mechanical and physical characteristics (23°c) SCORCHING SUN INTENSE FROST VIOLENT STORMS ACID AND ALKALIS NOT INFLAMMABLE DIELECTRIC EASY SET-UP NON TOXIC HIGH BREAKAGE RESISTANCE

OUR PLASTIC IS DIFFERENT 6 It is important to precise that the bigger impact on the environment is due to how to dispose the plastic instead of how to produce it. The habit to use more and more plastic for many products, including single use ones, brought to the “plastic pollution” with huge quantities of abandoned waste. For this reason, it is very important to use plastic when it is convenient to and to manage how to recycle it. Our products are long standing and 100% recyclable. REDUCTION IN BUILDING COSTS thanks to both low prices and fast installation; to replace traditional materials with plastic ones also allows to increase works life time. VERY HIGH LIFE TIME high resistance to chemical agents or UV ray and fast application time have positive effects on the final budget. FIRE RESISTANCE One of the main reasons of PVC success is due to its high fire resistance. HYGIENE Plastic pipes are the best solution to move liquids in a safe and hygienic way. LIGHT AND MULTI PURPOSE thus allowing to test innovative products and solutions. 01 02 03 04 05 OUR PLASTIC PRODUCT LIFE TIME THE ADVANTAGES OF LASTING PLASTIC

MARKED PRODUCTS LOAD CLASS OF GRIDS AND COVERS 7 The marking, that is an acronym for Conformité Européenne, was established by the EU to distinguish the products having the characteristics defined in Directive 89/106/EEC on construction products. The Directive was introduced to set common technical criteria that would improve reliability and safety of construction products. The marking is mandatory for products that make the object of an EU Directive, entitles them to free circulation in the European Economic Area and forbids whatever type of restriction on their commerce by Member Countries. The manufacturer is required put into effect strict production control procedures. All products bearing this marking must be lab-tested by Organizations acknowledged on the basis of their competence. Once the tests are successfully completed, the Organizations certify product conformity with the reference standard. The manufacturer must affix the marking onto the products in an undeletable manner. The PRATIKO and PRATIKO-XL drainage channels, grids and covers from the series 100 - 130 - 200 all bear the marking, which guarantees their compliance with the EN 1433:2008 Standard “Drainage channels for vehicular and pedestrian areas”. The breaking load values concerning the PVC Antishock grids and covers were obtained with a test method based on the UNI EN 124 standard. This method provides that the test press be fitted with punches in different diameters depending on the size of the cover or grid being put under pressure.

8 C= CORROSIVE • LC= LIMITED CORROSIVE • NC= NOT CORROSIVE CHEMICAL AGENT Temp. 20°C 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 BIER 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 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 33 100 60 SOL. 100 30 - 96 SOL. SAT. SOL. SAT. 100 100 100 100 SOL. DIL. SOL. SAT. - SOL. SAT. SOL. SAT. 100 SOL. SAT. SOL. SAT. 90 SOL. SAT. SOL. DIL. 100 100 100 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. 100 - 100 SOL. SAT. 100 18 30 100 100 100 95 100 SOL. SAT. 60 100 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 LC LC NC NC NC NC NC NC - NC NC NC C NC NC NC NC NC - NC NC NC NC - NC NC NC NC C C C NC NC NC NC NC - C NC NC C C NC NC C NC NC NC NC C LC LC NC LC C C C C LC - C - C NC NC C C C NC NC NC LC C NC NC LC NC NC LC C NC C C LC LC NC NC LC LC - NC NC NC C LC NC LC LC NC - NC NC LC LC - NC LC - - C C C LC NC LC LC - - C NC - C C LC LC C NC NC NC - C C C NC C C C C C C - C - C LC - C C C LC - NC C C NC NC C LC LC C LC NC Conc. % 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 Temp. 60°C NC NC NC C C C C C C PA66FV Temp. 20°C Conc. % Temp. 60°C PVC Temp. 20°C Conc. % Temp. 60°C PVC CHEMICAL RESISTANCEOF POLYAMIDE - PVC - PP

9 C= CORROSIVE • LC= LIMITED CORROSIVE • NC= NOT CORROSIVE CHEMICAL AGENT Temp. 20°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. CONC. LAV. 30 SOL. SAT. 100 100 25 100 10 10÷90 SOL. SOL. SAT. SOL. SAT. SOL. LAV. 100 100 100 100 100 SOL. SAT. CONC. LAV. <25 50 100 10% di SO3 100 25 SOL. SAT. 100 SOL. SAT. 100 100 100 100 sol. 20 SOL. SAT. SOL. SOL. SAT. 40 SOL. SAT. SOL. SAT. SOL. SOL. SAT. 20 SOL. SAT. 100 50 SOL. SAT. 2 SOL. SOL. SAT. SOL. SAT. SOL. SAT. SOL. SAT. SOL. 100(13%CL) SOL. SAT. 40÷90 96 100 100 liquida 100 secca SOL. SOL. SAT. CONC. LAV. SOL. SOL. 100 100 100 100 100 10 100 100 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 NC NC NC NC NC LC LC NC NC LC NC NC NC NC C C LC NC LC NC NC LC C LC C LC NC LC LC LC C LC 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 LC C C NC NC NC NC NC NC NC LC C C C LC NC LC LC NC C NC NC LC NC NC C C NC LC LC LC NC LC LC C C C LC C NC NC C C LC C LC LC LC LC LC C C - C NC NC NC NC NC NC NC NC LC NC LC - NC NC NC NC NC NC NC NC NC LC LC LC C C LC NC NC NC NC NC NC LC C C C LC LC LC C NC C Conc. % 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. LC LC LC Temp. 60°C C C NC NC C C NC NC NC C C PA66FV Temp. 20°C Conc. % Temp. 60°C PVC Temp. 20°C Conc. % Temp. 60°C PVC CHEMICAL RESISTANCEOF POLYAMIDE - PVC - PP

10 DRAINAGE CHANNELS Asola scavata sulla parete del canale per accogliere il tassello After cleaning the parts using the special detergent, smear some “First Coll” glue over the connecting block and at channel slot Insert the nut supplied in the BGP kit in its seat in the connecting block The BGP kit includes the screw and nut Position the connecting block in the slot within 2 minutes and make sure that it is aligned with the grid hole 2 Tighten until fully locked 4 3 1 COLLE PVC COLLE PVC The channel has been developed on a modular basis to better suit projects requiring precision lengths. Thanks to its special design, the printed channel offers increased strength and structural compactness. The pre-cut slots available on the channel surface every 10 cmmake cutting the modules into shorter lengths noticeably easier. Thanks to this simple technical solution, can be made ready for projects of any length. When you cut in-between the reinforcement ribs, you maintain coupling continuity and then can assemble whole modules and shortened modules into lengths multiple of 10 cm. Installation will be easy and fast and with a minimum amount of waste. comes in various depths to enable full customization from the design phase. The deep type features considerable load bearing capacity, while the shallow type is particularly suitable where depth constraints are present, such as in terrace floors. Both are ideal for applications in public, industrial and residential buildings and for water drainage in sports facilities, swimming pools, garage entrances, basement premises, road verges, squares, parking lots, silos, roof-gardens, terraces, etc. CUTTING LINE ACCESSORIES FOR FIXING THE GRIDS AND FOR CONNECTIONS TO THE EVACUATION NETWORK ARE AVAILABLE Deep Shallow THE ACCESSORIES The system accessories use the same bayonet coupling system as the channels (see figure on the left), therefore they are easily installed. During assembly, glue the various items using the special welding glue for PVC “First Coll” to obtain perfect sealing against ingress of water. Accessories are fitted with pre-cut outlets that allow flow-through after breaking the diaphragm. On some channels it is possible to fix the grids using a special accessory, the BGP. HOW TO FIX THE GRIDS BGP130

11 Installation is fast and easy as our product is very light to handle and extremely stable and strong once set in position. The components to be installed being very lightweight, the plastic structures to be put in the trenches are not load-bearing, but they become so thanks to the support of the concrete where they are immersed. Carefully adhere to the guidelines given below. To obtain the load class indicated for each channel, refer to the table (A) for sizing of the castings. Situation when trench is much larger than the channel to be installed: INSTALLATION INSTRUCTIONS Dig a trench of at least 5 cmon both sides of the channel. Join the channel together with solvent-cement, to make it water-proof. Place the channel in the semi-dry mix, and fill the rest of the trench with a wet-mix of cement. It is very important that the cement is right up under the shoulder of the channel, as a void or a gap will undermine the strenght of the channel, and will cause problems later on. Place the grid or covers on immediatly, as the setting cement will close in the channel. Put a concrete base (semi-dry mix), 10 cm deep in trench. It is advisable to have the surrounding concrete, some millimeters higher than the edge of the channel. This aids drainage, and in certain circumstances can protect the grid or cover, especially if heavy-goods vehicles tyres are locking directly on top of the grids or covers. It is also advisable to keep boiling tar from coming into contact with the product. 1) Use wood supports to level or position the channel in the trench. 2) Use a wood framework to act as a former on both sides of the channel. Connection with discharge networks can be customized according to project requirements. Areas used only by pedestrians and cyclists. LOAD CLASSES ACCORDING TO UNI EN 1433 STANDARD Areas used only by pedestrians and cyclists. Road areas used for parking, edges of 50 cm. of the roads and the firsts 20 cm. of the pavements. Roads with normal traffic. LOADING CLASSES FIG. 1 FIG. 2 FIG. 3 FIG. 4 NO SI cm.5 cm. 5 cm. 5

12 N.B.: All channels are type 'm', i.e. They require additional support (concrete) to sustain horizontal and vertical loads during installation. The load class of the drainage channel will be the lower of the two elements -channel and grid- that make it up. For instance, if an a15 class grid is installed on a d400 channel, the load class of the composed drainage channel will be A15. The figures for 300-mm channels are based on those for 400-mm channels as there are no direct measures. Similarly, the figures for the shallow channels are taken from the deep channels, with the exception of the PratikoXL channel (cpa130pp/cpb130pp) for which measures were taken on the shallow version and therefore extended to the high version. TABLE A CONCRETE LYING DIMENSIONS: CHANNEL (CODE) LOAD CLASS (EN1433) X [mm] Y [mm] Z [mm] CLASS CONCRETE CSA100 CSM100 CSB100 CSA130 CSB130 CSA200 CSB200 CSA300 CSB300 CSA400 CSB400 CPA130PP CPB130PP C250 C250 C250 D400 D400 D400 D400 B125 B125 B125 B125 D400 D400 103 75 55 148 75 181 114 265 140 265 175 200 100 165 165 165 210 210 210 210 225 225 225 225 210 210 155 155 155 220 220 200 200 245 245 245 245 205 205 C 25/30 C 25/30 C 25/30 C 25/30 C 25/30 C 25/30 C 25/30 C 25/30 C 25/30 C 25/30 C 25/30 C 25/30 C 25/30 DRAINAGE CHANNEL LAYING SCHEME

13 The modular drainage channels, often combined with other ground products (siphon traps, drain wells with grids or covers), are ideal for rainwater drainage. Rainwater can be collected using two systems: over areas (rectangular or square) or linear. The area drainage system is suitable in case rainwater falls over a surface that can be divided into various inclines going down to a network of drain wells. This system, however, requires higher realization costs due the greater amount of materials and work that is necessary. A linear drainage system is to be installed where the area to be drained consists of one incline (or a double incline as shown in the drawing on the right) that conveys water into a drainage channel. In this case, you select a water collection solution that is less expensive, functional, and nice-looking at a time. Ease of use of First Plast PVC products enables creating drainage networks in all places and surfaces and for all rain types. Whether you select a water drainage system based on points (using traps, grids and drain wells) or on trenches (drainage channels), you should always know very well the rainfall volume to design a suitable system. When the volume of water to be drained is known, it is possible to choose the type of channel and grid with the tables below considering also the planned slope of the drainage net. In this example where the water volume to be evacuated is Lt. 8,33 and the length of the channel is 10 mt. the choice is the following: • PRATIKO 400 SHALLOW (CSB400) =13,29 Lt. /sec WITH NO SLOPE • PRATIKO 100 DEEP (CSA100) = from 8,26 to 10,67 Lt. /sec WITH SLOPE 3%~5% • PRATIKO 200 SHALLOW (CSB200) = from 8,20 to 10,04 Lt. /sec WITH SLOPE 1%~1,5% • PRATIKO 130 DEEP (CSA130) = from 7,20 to 11,29 Lt. /sec WITH SLOPE 0,5%~1% DRAINAGE CALCULATIONS AND TECHNICS V = volume in liters/second to be evacuate H = intensity of rain in mm/hour S = surface to be drain in m² Knowing the intensity of the rain (H) and the surface to be drained (S), the volume of water to be conveyed (V) can be established with the following formula: m. 30 m. 10 EXAMPLE: how to apply the formula on a surface of 300 m² with an average rain fall of 100 mm/h DRAINAGE OVER AREAS LINEAR DRAINAGE V = 100 • 300 = 8,33 l/s 3600 3600 V = S • H LINEAR DRAINAGE H = 100 mm/h S= 300 m 2 8,33 is the volume of water be evacuated for second

14 The quantity in Lt/sec. evacuated by a small channel (PRATIKO 130) can be rised at will installing a gathering ground slanting pipe parallel to the channel, using the side or bottom outlets. When a slanting channel cannot been installed (swimming pools, or interior premises like large kitchens or laundry rooms, sheds used for industrial washings etc.) it is still possible to set up a rational drainage net provided that the water to be evacuated is sufficiently clear without carryingmaterials that when deposited on the bottomof the channel would noticeably reduce the useful section. In this case the dimensioning must be done with the table 2 data from which the capacity of the channels according to lenght of the stretch involved is considered. As far as the connection to the sewerage net is concerned, the same rules apply for the channels laid at a slant. SGN20 SGP20 SGN30 SGP30 SGN40 SGP40 SG45 SGP45 SG55 SGP55 1,6 2,6 3,5 4,0 4,4 SG3050 SGP3050 3,5 SG4050 SGP4050 3,9 CAPACITY OF THE GRIDS FOR CHANNELS TABLE 1 TABLE 2 CAPACITY liter/sec. CAPACITY liter/sec. ITEM 2,7 1,4 2,2 2,5 2,5 3,5 4 CAPACITY OF THE GRIDS FOR WELLS ITEM 3,8 3,1 2,7 2,2 2,6 2,5 1,9 SGR130 GRP130 CGRN130 CGR200 GHC200 CGR30 CGR40 MG40500 MG30500 MG20500 MG13500 GRP200 CGRN20 GHC130 GS13999 2,6 LAYING SOLUTION TO RAISE EVACUATION CAPACITY For a final calculation the values of table 2 concerning non slanting channels added to those of table 3 concerning pipes and their inclination must be considered. capacity in liter/sec. for different channel lenght 2,5m 0,47 0,19 1,24 5,71 13,29 1,02 1,92 2,63 7,06 33,52 48,08 0,99 7,83 0,47 0,47 1,92 1,92 0,38 0,16 1,01 4,66 10,85 0,83 1,57 2,15 5,77 27,37 39,26 0,81 6,39 0,38 0,38 1,57 1,57 0,33 0,13 0,88 4,03 9,40 0,72 1,36 1,86 4,99 23,70 34,00 0,70 5,53 0,33 0,33 1,36 1,36 0,29 0,12 0,79 3,61 8,41 0,64 1,22 1,66 4,47 21,20 30,41 0,63 4,95 0,29 0,29 1,22 1,22 0,93 0,38 2,49 11,43 26,59 2,03 3,84 5,26 14,13 67,03 96,16 1,98 15,65 0,93 0,93 3,84 3,84 0,66 0,27 1,76 8,08 18,80 1,44 2,72 3,72 9,99 47,40 68,00 1,40 11,07 0,66 0,66 2,72 2,72 0,54 0,22 1,44 6,60 15,35 1,17 2,22 3,03 8,16 38,70 55,52 1,15 9,04 0,54 0,54 2,22 2,22 0,27 0,11 0,72 3,30 7,67 0,59 1,11 1,52 4,08 19,35 27,76 0,57 4,52 0,27 0,27 1,11 1,11 0,25 0,10 0,66 3,05 7,10 0,54 1,03 1,40 3,77 17,91 25,70 0,53 4,18 0,25 0,25 1,03 1,03 0,23 0,09 0,62 2,85 6,65 0,51 0,96 1,31 3,53 16,76 24,04 0,50 3,91 0,23 0,23 0,96 0,96 5,0m 7,5m 10m 15m 20m 25m 30m 35m 40m CAPACITY OF CHANNELS FOR FLAT LAYING CPB130PP CPA130PP CSBGSZ10999PP CSBSGR100PP CSAGSZ10999PP CSASGR100PP CSB100 CSB130 CSB200 CSB300 CSB400 CSM100 CSA100 CSA130 CSA200 CSA300 CSA400 DRAINAGE CALCULATIONS AND TECHNICS

15 With reference to norm EN 12056-3, the capacity related to new pipes have been reduced to take into account the partial obstruction of the pipes especially for low slanting values and for the dirt on the walls caused by cloudy waters. Moreover it is not advisable to use pipes with a diameter less than 100 mm for horizontal collectors especially in the presence of cloudy waters or carrying debris. TABLE 3 capacity in liter/sec. for different gradient setting 0,5% 0,17 0,35 0,71 1,19 1,43 2,76 5,18 6,89 9,72 16,92 30,05 54,44 0,24 0,50 1,01 1,61 2,03 3,90 7,33 9,75 13,75 24,00 42,50 77,00 1% 0,29 0,61 1,24 2,07 2,49 4,78 8,98 11,94 16,84 29,39 52,05 94,30 1,5% 0,34 0,71 1,43 2,39 2,87 5,51 10,37 13,79 19,44 33,94 60,10 108,89 2% 0,41 0,87 1,75 2,93 3,52 6,75 12,69 16,89 23,81 41,57 73,61 133,36 3% 0,54 1,12 2,26 3,78 4,54 8,72 16,39 21,80 30,74 53,66 95,03 172,18 5% 0,76 1,58 3,14 5,34 6,41 12,33 23,18 30,83 43,48 75,89 134,40 243,49 10% CAPACITY OF PVC PIPES FOR DIFFERENT VALUES OF SLANTING LAYING Ø 40 Ø 50 Ø 63 Ø 75 Ø 80 Ø 100 Ø 125 Ø 140 Ø 160 Ø 200 Ø 250 Ø 315 TABLE 4 capacity in liter/sec. for different gradient setting 2% 3,10 2,54 11,60 41,43 85,63 4,72 6,75 15,97 39,88 143,29 213,71 4,99 15,81 3,10 3,10 6,75 6,75 3% 3,79 3,12 14,20 20,75 104,87 5,78 8,26 19,55 48,84 175,49 261,75 6,11 19,36 3,79 3,79 8.26 8,26 5% 4,89 4,02 18,33 65,52 135,39 7,46 10.67 25,24 63,06 226,56 337,90 7,89 25 4,89 4,89 10,67 10,67 0,5% 1,6 1,27 5,80 20,72 42,81 2,36 3,37 7,98 19,94 71,64 106,85 2,6 7,91 1,6 1,6 3,37 3,37 1% 2,19 1,80 8,20 29,30 60,55 3,34 4,77 11,29 28,20 101,32 151,12 3,53 11,18 2,19 2,19 4,77 4,77 1,5% 2,68 2,20 10,04 35,88 74,16 4,09 5,84 13,83 34,53 124,09 185,08 4,32 13,69 2,68 2,68 5,84 5,84 10% 6,92 5,69 25,93 92,65 191,47 10,55 15,09 35,70 89,17 320,40 477,88 11,16 35,35 6,92 6,92 15,09 15,09 PORTATA DEI CANALI PER DIVERSI VALORI DI PENDENZA DI POSA CPB130PP CPA130PP CSBGSZ10999PP CSBSGR100PP CSAGSZ10999PP CSASGR100PP CSB100 CSB130 CSB200 CSB300 CSB400 CSM100 CSA100 CSA130 CSA200 CSA300 CSA400 DRAINAGE CALCULATIONS AND TECHNICS Ø PIPES PVC mm. When the connection of the channal with the sewage is made through the end sockets (art. TCB and TCA) the outlet pipe must be proportionated for diameter and slope to the capacity gathered and evacuated by the channel. In a specific case when the channel CSA 130 which requires an end socket with 100 mm. discharge is used, the slope of the connecting pipe must be of at least 1,5% (tab. 3).

16 TECHNICAL DATA: Connect directly the channel to a well (PZR3050/PZRE3050) without interrupting the end socket. Use a channel which allows a connection with pipes of higher diameter. Use different discharges points in the channel. Example A 130 200 400 300 4.313 134 Lt. 4,3 11.725 277 Lt. 11,7 26.716 441 Lt. 26,7 47.911 598 Lt. 47,9 WET PROFILE mm. INTERNAL SECTION OF PRATIKO mm2 VOLUME OF LIQUID FOR EACH METER ROUGHNESS COEFFICIENT 0,08 S C V 130 200 400 300 CSA 11.613 334 Lt. 11,6 23.425 417 Lt. 23,4 57.916 681 Lt. 57,9 80.136 778 Lt. 80,1 100 100 2.860 145 Lt. 2,9 CSB 100 CSB CSB CSB CSB CSM CSA CSA CSA CSA 4.266 185 Lt. 4,3 6.190 235 Lt. 6,2 S C V CSB S C V CSM S C V CSA 130 14613 374 Lt. 14,6 WET PROFILE mm. INTERNAL SECTION OF PRATIKO mm2 VOLUME OF LIQUID FOR EACH METER ROUGHNESS COEFFICIENT 0,08 S C V 130 4613 174 Lt. 4,6 CPB CPA V S C CPB 2.860 145 Lt. 2,9 WET PROFILE mm. INTERNAL SECTION OF PRATIKO mm2 VOLUME OF LIQUID FOR EACH METER S C V 6.190 235 Lt. 6,2 10999 2.860 145 Lt. 2,9 CSBGSZ 100 CSBSGR 10999 CSAGSZ 100 CSASGR 6.190 235 Lt. 6,2 ROUGHNESS COEFFICIENT 0,08 DRAINAGE CALCULATIONS AND TECHNICS

Product line

18 DRAINAGE CHANNELS 100 dimensions mm DRAINAGE CHANNELS MOD. 100 GRIDS MOD. 100 GS10999 GSZ10999 13 1000 100 SGR100 GS10999 GSZ10999 40 kN 221 260 260 BREAKING LOAD (*) Section cm² water drainage RAW MATERIAL PVC GALVANIZED Breaking load value is in Knewton and must be miltiplied by 100 or 1000 to obtain the value in Kg or in KN respectively. Test according to norm EN 1433:2008 (*) As an alternative to the breaking load, the load class may be specified, in accordance with en 1433. A15 A15 13 500 100 SGR100 Ø 50M Ø 75F-80M Ø 100F-110M Ø mm. 40M - 75F - 80M Ø mm. 40M - 75F - 80M ACCESSORIES 100 Ø mm. 40M - 75F - 80M PVC end socket shallow PVC end socket medium PVC end socket deep Four way union Four way union Four way union TCB100 TCM100 TCA100 RCB100 RCM100 RCA100 Metal INOX AISI 316 A B H C Ø S D A B H C Ø S D CSB100 CSM100 CSA100 106 106 106 A B C D H dimensions mm 100 100 100 13 13 13 105 105 105 55 75 100 40M - 50M - 63M 40M - 63M 40M - 50M - 63M 1000 1000 1000 L ØS MATERIAL: PVC anti-shock. FEATURES: • Bottom outlet ø mm 40m-63m; • Pre cut lines are easy to break through with hammer and spike. COLOR: Grey. CSB100-CSA100 CSM100 L

the pvc slotted grid is installable/ can be installed with glue or screws on 100 and 130 PRATIKO drainage channels, maintaining the modularity of 50 cm with pre-cuts every 10 cm; the product allows the evacuation and collection of water in public and private areas, ensuring a high resistance to load and a pleasant aesthetic effect. the shallow version of the pvc slotted grid (h. 20 mm - fig. 1 below) is particularly suitable for domestic areas (showers, terraces, laundry rooms), while the medium/high version (h. 90/140 mm - fig. 2 below) is the best solution for an outdoor application (courtyards car parks, squares). Fig.1 Fig.2 The PVC SLOTTED GRIS has the same modularity features of the PRATIKO drainage channels so that the single elements can be combined together reaching different lengths, but always multiple of 100 mm. The pre-cut points are clearly shown on the product; the cuts can be made with a common hacksaw. 19 dimensions mm L DRAINAGE CHANNELS 100 SLOTTED GRID 100 H A B C PCF1020G PCF1090G PCF1014G 100 100 100 13 13 13 20 20 20 Section cm² water drainage 22,4 22,4 22,4 20 90 140 A B C H 500 500 500 L

20 dimensions mm DRAIN WELL BOX FOR SLOTTED GRID H A L PICF1020G PICF1090G PICF1014G A H L 100 100 100 32 102 153 200 200 200 Section cm² water drainage 8,4 8,4 8,4 DRAINAGE CHANNELS 100 PICF ASSEMBLY INSTRUCTIONS Lay the inspection box (PICF) on the drainage channel and close by slotted grate (PCF). Build a kind of frame around the inspection box using strong enough material (plastic, metal, wood) and 1mm thick. This frame has the purpose to avoid the concrete to stick and to lock the inspection box. Put the concrete around the drainage channel and then use the chosen cover (tiles, marble, brick). Fill the space into the inspection box with the same cover material. 02 01 Once the concrete (or the other chosen material to lock the channel) is dry, remove the inspection box, remove and then throw away the frame. To remove the box, you can use a tool like a hook. 03 MATERIAL: PVC anti-shock. FEATURES: • Drain well box for slotted grid must be filled with the material used for the floor; • It allows the channel inspection and cleaning; COLOR: Grey. Drainwell box for slotted gridmust be filledwith thematerial used for the floor. It allows the channel inspection and cleaning.

21 dimensions mm L DRAINAGE CHANNELS 130 MATERIAL: PVC anti-shock. FEATURES: • pre cut lines are easy to break through with hammer and spike. COLOR: Grey. DRAINAGE CHANNELS MOD. 130 GRIDS AND COVERS MOD. 130 CSB130 CSA130 136 136 A B C D H L 130 130 20 20 115 115 75 150 500 500 A B H C D dimensions mm dimensions mm GS13999 GSZ13999 20 1000 130 Breaking load value is in Knewton and must be miltiplied by 100 or 1000 to obtain the value in Kg or in KN respectively. Test according to norm EN 1433:2008 (*) As an alternative to the breaking load, the load class may be specified, in accordance with en 1433. MG13999 MC13999 GS13999 GSZ13999 >80 kN > 80 kN A15 A15 Breaking load (*) Section cm² water drainage Raw material 330 - 290 290 PA66FV PA66FV Metal Galvanized GRP130 SGR130 CGRN130 TCRP130 GHC130 GHB130 SGRB130 SGRC130 SGRC130N SGRB130N GRGH130N 11 kN 60 kN 60 kN 15 kN C250 B125 B125 C250 C250 65 kN A15 Breaking load (*) Section cm² water drainage Raw material 73 249 232 - 200 200 250 138 138 250 - PVC PVC PVC PVC Cast iron Cast iron PVC PVC B-TECH B-TECH B-TECH 500 130 20 GRP130 130 20 500 SGR130 CGRN130 20 500 130 20 500 130 SGRB130 GHB130 GHC130 20 500 130 20 500 130 TCRP130 20 1000 130 MC13999 20 1000 130 MG13999 SGRC130 20 500 130 GRGH130N 20 500 130

22 ACCESSORIES 130 Ø mm. 75 F - 80 M Ø mm. 50 M Ø mm. 75 F - 80 M Ø mm. 75 F - 80 M Ø mm. 90M - 100F - 110M Ø mm. 90M - 100F - 110M Ø 40 M Ø 100 M PVC end socket shallow PVC end socket deep PVC outlet socket shallow PVC outlet socket deep PVC four way union shallow PVC four way union deep TCB130 TCA130 TCA131 (Ø110) CBGS130 CAGS130 RCB130 RCA130 HOW TO FIX THE GRIDS BGP Grate security clip in PVC for PRATIKO CSA130. BGP130 Grid metal lock for PRATIKO CSA130.

23 the pvc slotted grid is installable/ can be installed with glue or screws on 100 and 130 PRATIKO drainage channels, maintaining the modularity of 50 cm with pre-cuts every 10 cm; the product allows the evacuation and collection of water in public and private areas, ensuring a high resistance to load and a pleasant aesthetic effect. the shallow version of the pvc slotted grid (h. 20 mm - fig. 1 below) is particularly suitable for domestic areas (showers, terraces, laundry rooms), while the medium/high version (h. 90/140 mm - fig. 2 below) is the best solution for an outdoor application (courtyards car parks, squares). Fig.1 Fig.2 The PVC SLOTTED GRIS has the same modularity features of the PRATIKO drainage channels so that the single elements can be combined together reaching different lengths, but always multiple of 100 mm. The pre-cut points are clearly shown on the product; the cuts can be made with a common hacksaw. dimensions mm DRAINAGE CHANNELS 130 SLOTTED GRID 130 PCF1320G PCF1390G PCF1314G 130 130 130 20 20 20 20 20 20 Section cm² water drainage 22,4 22,4 22,4 20 90 140 A B C H 500 500 500 L H A B C L

24 dimensions mm MATERIAL: PVC anti-shock. FEATURES: • Drain well box for slotted grid must be filled with the material used for the floor; • It allows the channel inspection and cleaning; COLOR: Grey. DRAINAGE CHANNELS 130 DRAIN WELL BOX FOR SLOTTED GRID PICF1320G PICF1390G PICF1314G Section cm² water drainage 8,4 8,4 8,4 130 130 130 A 40 110 160 H 200 200 200 L H A Drainwell box for slotted gridmust be filledwith thematerial used for the floor. It allows the channel inspection and cleaning. PICF ASSEMBLY INSTRUCTIONS Lay the inspection box (PICF) on the drainage channel and close by slotted grate (PCF). Build a kind of frame around the inspection box using strong enough material (plastic, metal, wood) and 1mm thick. This frame has the purpose to avoid the concrete to stick and to lock the inspection box. Put the concrete around the drainage channel and then use the chosen cover (tiles, marble, brick). Fill the space into the inspection box with the same cover material. 02 01 Once the concrete (or the other chosen material to lock the channel) is dry, remove the inspection box, remove and then throw away the frame. To remove the box, you can use a tool like a hook. 03 L

25 dimensions mm L DRAINAGE CHANNELS 200 MATERIAL: PVC anti-shock. FEATURES: • Pre cut lines are easy to break through with hammer and spike. COLOR: Grey. DRAINAGE CHANNELS MOD. 200 GRIDS AND COVERS MOD. 200 CSB200 CSA200 207 207 A B C D H L 200 200 20 20 175 175 111 181 500 500 Breaking load value is in Knewton and must be miltiplied by 100 or 1000 to obtain the value in Kg or in KN respectively. Test according to norm EN 1433:2008 (*) As an alternative to the breaking load, the load class may be specified, in accordance with en 1433. MG20999 MC20999 GS20999 GSZ20999 >50 kN > 50 kN A15 A15 Section cm² water drainage Raw material 665 - 440 440 PA66FV PA66FV Metal Galvanized GRP200 CGRN20S CGRN20L CGR200S CGR200L TCR200 TCRP200 GHC200 12 kN 60 kN 18 kN 75 kN 23 kN 82 kN 33 kN C250 Breaking load (*) Breaking load (*) Section cm² water drainage Raw material 118 340 340 321 321 - - 350 PVC PVC PVC PVC PVC PVC PVC Cast iron A B H D C 20 1000 200 MG20999 500 200 20 GRP200 CGRN20S 20 500 200 CGRN20L 20 500 200 500 200 20 CGR200S 500 200 20 CGR200L 500 200 20 GHC200 20 500 200 TCR200 20 500 200 TCRP200 20 1000 200 MC20999 GS20999 GSZ20999 20 1000 200 dimensions mm dimensions mm

26 ACCESSORIES 200 PVC end socket shallow PVC end socket deep PVC outlet socket shallow PVC outlet socket deep TCB200 TCA200 CBGS200 CAGS200 PVC shallow angle right PVC shallow angle left PVC deep angle right PVC deep angle left CBAND200 CBANS200 CAAND200 CAANS200 Ø 75 M -80 M Ø 100 M -110 M 125 M Ø mm. 75 F - 80 M - 125 M Ø mm. 75 F - 80 M Ø mm. 125 M Ø mm. 125 M mm. 500 mm. 500 mm. 500 mm. 500 HOW TO FIX THE GRIDS BGP Grid metal lock for PRATIKO CSA200.

27 DRAINAGE CHANNELS 300 MATERIAL: PVC anti-shock. FEATURES: • Pre cut lines are easy to break through with hammer and spike. COLOR: Grey. DRAINAGE CHANNELS MOD. 300 GRIDS AND COVERS MOD. 300 CSB300 CSA300 311 311 A B C D H L 300 300 20 20 270 270 140 265 500 500 Breaking load value is in Knewton and must be miltiplied by 100 or 1000 to obtain the value in Kg or in KN respectively. Test according to norm EN 1433:2008 (*) As an alternative to the breaking load, the load class may be specified, in accordance with en 1433. MG30999 MC30999 MT30500 50 kN 60 kN - Section cm² water drainage Raw material 840 - - PA66FV PA66FV PA66FV CGR30L CGR30S TCR3050 TCRP3050 MG30500 MC30500 9 kN 32 kN 65 kN 14 kN 50 kN 60 kN Breaking load (*) Section cm² water drainage Raw material 540 540 - - 420 - PVC PVC PVC PVC PA66FV PA66FV A B H D C CGR30L 20 500 300 CGR30S 20 500 300 MT30500 MC30500 500 300 20 MG30500 500 300 20 MG30999 1000 300 20 MC30999 1000 300 20 TCR3050 500 300 20 TCRP3050 500 300 20 dimensions mm Breaking load (*) dimensions mm dimensions mm L 300 500

28 ACCESSORIES 300 PVC end socket shallow PVC end socket deep TCB300 TCA300 Ø 100 M-110 M-125 M Ø 100 M-110 M-125 M HOW TO FIX THE GRIDS BGP Grid metal lock for PRATIKO CSA300 - CSB300.

29 DRAINAGE CHANNELS 400 MATERIAL: PVC anti-shock. FEATURES: • Pre cut lines are easy to break through with hammer and spike. COLOR: Grey. DRAINAGE CHANNELS MOD. 400 GRIDS AND COVERS MOD. 400 CSB400 CSA400 412 412 A B C D H L 400 400 20 20 370 370 175 265 500 500 Breaking load value is in Knewton and must be miltiplied by 100 or 1000 to obtain the value in Kg or in KN respectively. Test according to norm EN 1433:2008 (*) As an alternative to the breaking load, the load class may be specified, in accordance with en 1433. MG40999 MC40999 MT40500 40 kN 50 kN - Section cm² water drainage Raw material 1.260 - - PA66FV PA66FV PA66FV CGR40L CGR40S MG40500 MC40500 7 kN 47 kN 40 kN 50 kN Section cm² water drainage Raw material 702 702 630 - PVC PVC PA66FV PA66FV MT40500 400 500 A B H D C MC40500 500 400 20 MG40500 500 400 20 CGR40S 500 400 20 CGR40L 500 400 20 MG40999 1000 400 20 MC40999 1000 20 400 dimensions mm L Breaking load (*) Breaking load (*) dimensions mm dimensions mm

30 ACCESSORIES 400 PVC end socket shallow PVC end socket deep TCB400 TCA400 Scarico Ø 125 M Scarico Ø 160 M -200 M HOW TO FIX THE GRIDS BGP Grid metal lock for PRATIKO PRATIKO CSB400 - CSA400

PP DRAINAGE CHANNELS

32 THE MODEL The polypropylene modular channel achieves the wide range of PVC patented modular channels bearing the marking. Developed to meet the requirements of technical specifications involving installation of PP piping, the PratikoXL model is 1 meter long and available only in the 130 series as a shallow type channel (CPB130PP) measuring 100 mm in height and a deep type (CPA130PP) measuring 200 mm. The channel is fitted with reinforcement fins and ribs all along its outer length that ensure high adherence to concrete after installation. Bothmodels are fitted with side and bottomoutlets in different diameters. The channel is designed with a double-bayonet coupling system (see figure on the left) where 2 male elements match 2 female elements in the other component for improved water sealing. Pre-cut slots available every 10 cmhelp identifying the different module lengths that can be obtained (as in figure at positions 1 and 2). Once cut to measure, shorter components are easily assembled. All modular elements of are already fitted with outlets, which enables faster installation when connecting the channels to evacuation systems. Type comes with 2 side outlets in diameter 40 mm (one either side); the deep type has 2 double side outlets in diameter 75 mm F - 80 mmM - 100 mm F - 110 mmM (the largest) and in diameter 40 mm F - 50 mm M (the smallest). Both types are fitted with a bottom outlet in diameter 100 mm F - 110 mm M. is complete with a number of accessories that support all types of projects. The CPB 130 PP shallow type has a single end socket with a 50 mm diameter outlet, and a four-way union with bottom outlet in diameter 90 mmM - 100 mm F - 110 mm M. The four-way union has an M inlet and three F outlets with the same double-bayonet coupling system as the modular channel (see picure on the left). Therefore, the union can be used as a right hand corner (Pic. 1 bottom), left hand corner (Pic. 2), T-coupling (Pic. 3) or cross-coupling (Pic. 4). The CPA 130 PP deep type has a single end socket with outlet in diameter 100 mm M - 110 mm M. F F F M Double-bayonet coupling system 2 cm. 10 Pre-cut slots Fig. 1 Fig. 2 Fig. 3 Fig. 4 End socket Four-way union Application example of PratikoXL with a GHC130 cast-iron grid Bottom outlet CPB130 side outlets CPA130 side outlets 1

33 SHALLOW DRAINAGE CHANNELS 130XL SHALLOW DRAINAGE CHANNEL 20 500 130 SGRB130N 20 500 130 SGRB130 GHC130 KB125XL KB250XL KBZ15XLG KB125XLG 20 500 130 GSZ13999 20 1000 130 A B H D C D1 Double-bayonet coupling system Pre-cut Pre-cut Pre-cut slots 1 2 10 cm. MATERIAL: PP. FEATURES: • Bottom outlet Ø mm. 100F - 110M; • Double side outlets Ø mm. 32F - 40M; • Pre- cut slots; • Double bayonet coupling system. COLOR: Grey, Black cast iron. CPB130PP 138 A B C D D1 H L 130 20 110M 100F 100 1000 SGRB130 SGRB130N GHC130 GSZ13999 B125 65 kN C250 A15 Section cm² water drainage Raw material 250 250 200 290 PVC B-TEK CAST IRON GALVANIZED Breaking load value is in Knewton and must be miltiplied by 100 or 1000 to obtain the value in Kg or in KN respectively. Test according to norm EN 1433:2008 (*) As an alternative to the breaking load, the load class may be specified, in accordance with en 1433. HOW TO FIX THE GRIDS dimensions mm dimensions mm Breaking load (*) L BGP130 Grid metal lock for PRATIKO XL 130.

34 DEEP DRAINAGE CHANNELS 130XL DEEP DRAINAGE CHANNEL 20 500 130 SGRB130N 20 500 130 SGRB130 GHC130 KA125XL KA250XL KAZ15XLG KA125XLG 20 500 130 GSZ13999 20 1000 130 MATERIAL: PP. FEATURES: • Bottom outlet Ø mm. 100F - 110M; • Double side outlets Ø mm. 75F - 80M - 100F - 110M; • Double side outlets Ø mm. 40F - 50M; COLOR: Grey, Black cast iron. CPA130PP 138 A B C D D1 H L 130 20 110M 100F 200 1000 A B H C D1 D dimensions mm SGRB130 SGRB130N GHC130 GSZ13999 B125 65 kN C250 A15 Section cm² water drainage Raw material 250 250 200 290 PVC B-TEK CAST IRON GALVANIZED Breaking load value is in Knewton and must be miltiplied by 100 or 1000 to obtain the value in Kg or in KN respectively. Test according to norm EN 1433:2008 (*) As an alternative to the breaking load, the load class may be specified, in accordance with en 1433. dimensions mm Breaking load (*) L HOW TO FIX THE GRIDS BGP130 Grid metal lock for PRATIKO XL 130.

HOW TO FIX THE GRIDS BGP130 Grid metal lock for PRATIKO XL 130. 35 SHALLOW DRAINAGE CHANNELS WITH C250 GRATE 130XL SHALLOW DRAINAGE CHANNEL PKB250XL KB250XLG A B H D C D1 MATERIAL: PP. FEATURES: • Bottom outlet Ø mm. 100F - 110M; • Double side outlets Ø mm. 32F - 40M; • Possibility of cutting; • Double bayonet mounting system. COLOR: Grey and Black. CPB130 138 A B C D D1 H L 130 20 110M 100F 100 1000 dimensions mm L SGRC130G SGRC130N C250 C250 Section cm² water drainage Raw material 138 138 PVC B-TECH Breaking load value is in Knewton and must be miltiplied by 100 or 1000 to obtain the value in Kg or in KN respectively. Test according to norm EN 1433:2008 (*) As an alternative to the breaking load, the load class may be specified, in accordance with en 1433. dimensions mm Breaking load (*) SGRC130 20 500 130 C250 C250

HOW TO FIX THE GRIDS BGP130 Grid metal lock for PRATIKO XL 130. SGRC130G SGRC130N C250 C250 Section cm² water drainage Raw material 138 138 PVC B-TECH Breaking load value is in Knewton and must be miltiplied by 100 or 1000 to obtain the value in Kg or in KN respectively. Test according to norm EN 1433:2008 (*) As an alternative to the breaking load, the load class may be specified, in accordance with en 1433. dimensions mm Breaking load (*) SGRC130 20 500 130 36 130XL DEEP DRAINAGE CHANNEL DEEP DRAINAGE CHANNELS WITH C250 GRATE MATERIAL: PP. FEATURES: • Bottom outlet Ø mm. 100F - 110M; • Side outlets Ø mm. 75F - 80M - 100F - 110M; • Side outlets Ø mm. 40F - 50M - 75F - 80M - 100F - 110M; COLOR: Grey and Black. CPA130 138 A B C D D1 H L 130 20 110M 100F 200 1000 dimensions mm A B H C D1 D L PKA250XL KA250XLG C250 C250

37 ACCESSORIES 130XL Ø 50 M Ø 100 M-110 M Shallow end socket Color: grey and black Deep end socket Color: grey and black Four way union Color: grey and black TPB130PP TPB130PPN TPA130PP TPA130PPN RPB130PP RPB130PPN Ø 90 M - Ø 100 F - Ø 110 M F F F M Left corner “T” “Cross” Right corner

38 L DRAINAGE CHANNELS 100 ACCESSORIES 100 PRATIKO EASY DRAINAGE CHANNEL SHALLOW MATERIAL: PP. FEATURES: • Bottom outlet Ø mm. 40M - 50M - 63M; • Complete with A15 grids; COLOR: Grey. A B H C Ø S D CSBGSZ10999PP CSASGR100PP 106 106 100 100 13 13 105 105 55 100 1000 1000 A B C D H L PP modular element shallow 100 mm. 100x55x1000 complete with 1 galvanized grid PP modular element shallow 100 mm. 100x55x1000 complete with 2 PP grids DEEP PP modular element deep 100 mm. 100x100x1000 complete with 1 galvanized grid PP modular element deep 100 mm. 100x100x1000 complete with 2 PP grids Ø 50 M Ø 100 M end socket shallow color: grey end socket deep color: grey TCB100PP TCA100PP CSBGSZ10999PP CSBSGR100PP CSAGSZ10999PP CSASGR100PP dimensions mm

39 DRAINAGE CHANNELS 130 ACCESSORIES 130 PRATIKO EASY DRAINAGE CHANNEL MATERIAL: PP. FEATURES: • Bottom outlets Ø mm. 75M - 110M; • Bottom outlets Ø mm. 80M - 100M; • Complete with A15 grids; COLOR: Grey. Ø 50 M Ø 80 M end socket shallow color: grey Ø 63 M end socket shallow color: grey end socket deep color: grey Ø 90 M end socket deep color: grey Ø 75 M - 110 M end socket deep color: grey TCB13050PP TCB13063PP TCA13080PP TCA13090PP TCA130711PP H1 C H A B CSBGSZ13999PP CSASGN130PP 138 138 A B C H H1 130 130 20 20 70 110 50 90 SHALLOW PP modular element shallow 130 mm. 130x70x1000 complete with 1 galvanized grid PP modular element shallow 130 mm. 130x70x1000 complete with 1 PP grid DEEP PP modular element deep 130 mm. 130x110x1000 complete with 1 galvanized grid PP modular element deep 130 mm. 130x110x1000 complete with 1 PP grid CSBGSZ13999PP CSBSGN130PP CSAGSZ13999PP CSASGN130PP dimensions in mm L

Drainage channels

41 KIT GARAGE 130 MATERIAL: PP. FEATURES: • 3 channels drain kit with grids 130x1000 and 2 end sockets; • Load class A15; • Easy to install; • Easy to transport; • Resistant to chemicals; • It can be installed in garages, gardens, pedestrian areas. COLOR: Grey, Black. H1 C H A B 138 138 A B C H H1 130 130 20 20 70 110 50 90 K1305BPP-K1306BPP K1308APP COMPOSITION KIT: K1305BPP - 3 modular element mm. 130x1000x70 - 3 PP grids - 2 end sockets Ø mm. 50 K1306BPP - 3 modular element mm 130x1000x70 - 3 PP grids - 2 end sockets Ø mm. 63 COMPOSITION KIT: K1305BPPZ - 3 modular element mm 130x1000x70 - 3 galvanized grids - 2 end sockets Ø mm. 50 K1306BPPZ - 3 modular element mm 130x1000x70 - 3 galvanized grids - 2 end sockets Ø mm. 63 COMPOSITION KIT: K1308APP - 3 modular element mm 130x1000x110 - 3 PP grids - 2 end sockets Ø mm. 80 COMPOSITION KIT: K1308APPZ - 3 modular element mm 130x1000x110 - 3 galvanized grids - 2 end sockets Ø mm. 80

42 INTEGRATEDSYSTEMS The PZR3050 and PZRE3050 rectangular wells have the peculiarity that they can be installed either as normal collecting wells or to supplement the Pratiko drainage channel system. Coupling the channels (CSA130 and CSA200) to these rectangular wells is obtained by means of the PVC U-shaped CAIN adapters, as shown in the sequence below: The new Serie2000 collecting wells system enables connecting channels with different flow-rates to the same well. The evacuation network is made more versatile and accepts coexistence of linear and area drainage systems. 2) Insert adapters into the 2 precut seats: - CAIN13 for CSA130 - CAIN 20 for CSA 200 - You can insert adapters of same or other size. 3) Assemble and secure the drainage channel. The figure highlights the possibility of connecting a CSA130modular drainage channel at inlet and a CSA200 modular drainage channel at outlet. 1) Break the pre-cut marks to insert the adapters. CAIN 20 CAIN 13 200 CAIN 20 CAIN 13 130 D6 D8 D7 D9 D10 D1 D2 D3 D4 A H D5 B C E PZR3050 GUD3050 SCB3050G PZR3050 310 A B C E H D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 300 510 500 400 80 100 125 140 80 90 100 110 125 140 ® ® ® ® ® ®

43 GRIDFRAMES ANDLIDS IN FIBERGLASS REINFORCEDNYLON Tensile stress tests were carried out under extreme conditions and with a concentrated load in the middle of the cross-members (see testingmethod of ISTITUTO GIORDANO). Using suchmethod further increased the safety margin since, in real conditions a wheel load is distributed all over its print, therefore on a greater number of cross-members. Full load tonnage 12 tons per axis (3 tons per wheel) n° 10 cross members involved CONCENTRATED LOAD DISTRIBUTED LOAD DISTRIBUTED LOAD mm.250 BREAKING LOAD DIMENSION Kg. 800 Kg. 500 Kg. 600 Kg. 500 Kg. 600 mm. 130 mm. 200 mm. 300 mm. 400 mm. 650 SECURITY LOAD Kg. 400 Kg. 250 Kg. 300 Kg. 250 Kg. 300 is a trademark for grids and covers made of a special and very strong patentedmaterial based on fiberglass polyamide. Virtually numberless customizations can be obtained by assembling the cross-members (the single items that will make up the grids or covers) in a sequence. , is available in same widths as the drainage channels, and perfectly integrates in the PRATIKO system to cover drainage works. is the only drive-over grating with double-T beam structure. This is why this product can stand even the maximum loads defined in EU standards, namely 120 quintals per axis, within safety limits. Limits provided for this type of material are equal to 50% of the ultimate breaking load. As you can notice in the illustrations below (that show the product reversed), the load-bearing structure of bottom i s specially reinforced. This characteristic allows all grid and cover types bearing this trademark to guarantee considerably high resistance. MG13 - MC13 MG20 - MC20 MG30 - MC30 MG40 - MC40 MG65 - MC65 25 25 25 25 25 A B C 20 20 20 20 20 130 200 300 400 650 A B C L Cross-members are retained to one another very simply. Just align the double male/female couplings and snap them closed to lock the cross-members into a single component (see figure on the left). LOAD BEARING CAPACITY OF

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