Gate Valves 1 Baker maric flow control valves A - W - E -
2 Baker Maric Flow Control Valves Ever since water has been piped there has been a definite need for a practical, accurate, self cleaning and inexpensive form of automatic flow control. The Baker Maric Flow Control Valve was developed to fill all these requirements and more. The Baker Maric Flow Control Valve has been used successfully in many countries since 1960 to give a CONSTANT FLOW irrespective of changing water pressures. The initial valve cost is quickly recovered by reducing wastage of a valuable natural resource. In the South African Mining Industry the Baker Maric is used exclusively as a water saving device. The Wafer pattern fits in between flanges and is totally tamper proof and can handle dirty service water. The Baker Maric Flow Control consists of: A precision moulded flexible control ring A precision machined recess to accept the control ring. Body manufactured to rigid engineering standards. PRINCIPLE OF OPERATION The flexible control ring is made from Nitrile Butadine Rubber meticulously compounded to pass exacting flow tests. The body of the valve may be constructed of various materials including Brass, PVC and Stainless Steel. Accuracy: 10 % HIGH PRESSURE Flexible ring rolls down tapered seat under pressure decreasing orifice, giving constant flow. LOW PRESSURE Flexible ring in normal position. Maximum orifice. IDENTIFICATION All valves are stamped with rate of flow in litres per minute, and an arrow indicating direction of flow. PROPERTIES Self cleaning - the flexing of the control ring during operation prevents the build up of mineral salts and rust flakes. Odour free, taste free and non toxic. Life expectancy - in excess of ten years Automatic - responds instantly to changes in water pressure. Self regulating - install and forget. Economical - low initial cost is quickly recovered. Compact - easily installed Maximum operating temperature of 75ºC. Standard maximum operating pressure 16 bar. (Higher pressure available on request) EXAMPLES OF APPLICATION Irrigation, multi-storey buildings, homes, schools, Industrial - commercial and mining. CONCLUSION Water is rapidly becoming more and more expensive. Start saving today by installing Baker Maric Flow Control Valves.
Baker Maric Flow Control Valves 3 Product Data Screwed Type F.F available in all sizes. Other configurations in limited sizes only. First figure denotes inlet. Available in: DR Brass, Chrome, Gunmetal, UPVC, 303, 304, 316 SS Select desired flow rate from Flow rate data at bottom of page. Sizes: 1/8, 1/4, 3/8, No 15(½ ), No 20(3/4 ), No 25(1 ), No 32(1 1/4 ), No 40(1 ½ ), No 50(2 ) (Max.flow L/M): 9, 9, 9, 23, 54, 114, 233, 233, 342 Wafer Type Designed for mounting between flanged pipe fittings. Any drilling. Flow rates available from 0.4 liters / minute up to the maximum listed below: Available in: UPVC, ABS (plastic), Lg2 Gunmetal & 316 SS Wafers are supplied with an o ring in each face for sealing. 65mm x 4 orifice wafer shown. Sizes: 25, 32, 40, 50, 65, 80, 100, 150, 200, 250, 300 (Max.flow L/M): 233, 233, 233, 342, 456, 699, 1279, 2320, 4427, 6058, 8854 Standard Wafer O.D. Is located by flange bolts. Full Flanged Wafer to order. Insert Type Available in various materials and flow rates from 0.4L/M upwards in various types including : Flanged insert: Tap Insert: Plain insert: For water meter flow control. Fitted into 13 to 40mm tails. For screwing into existing tapware. Flows up to 9 L/M. Various applications including press fitting into OEM s Equipment.
4 Baker Maric Flow Control Valves Flow Rate Data (Flexible control rubber sizes, in litres/minute) Sizes No 6 series suits 1/8 & larger No 15 series suits ½ & larger No 20 series suits ¾ & larger No 25 series suits 1 & larger No 40 series suits 1 ¼ to 2 & larger 0.4 1 8 16 125 0.45 8 9 18 138 0.5 2 10 20 150 0.55 2.3 11 23 162 0.63 2.5 12 25 180 0.7 2.8 13 28 199 0.8 3.2 15 32 216 0.9 4 16 36 233 1 4.5 18 41 1.1 5 20 45 1.2 5.5 23 49 1.3 6.3 25 54 1.5 7 28 59 1.6 8 32 66 1.8 9 36 73 2 10 41 82 2.3 11 45 91 2.5 12 49 102 2.8 13 114 3.2 15 3.5 16 4 18 4.5 20 5 23 5.5 6.3 7 8 9 Smaller flows can be fitted to larger bodies. Kwyflo flow rate options are limited to flows listed in bold type. It is recommended that a strainer be inserted in front of low Flow valves where water may contain solid particles over 1mm in diameter. Pressure drop Type Accuracy Operating range Application Precision ±10% 140-1000kPa Where precision is required within 140-1000kPa range Kwyflo ±10% 175-1000kPa Where quiet operated is required e.g. Homes, hospitals, etc Spotcheck ±20% 140-1000kPa For economy Low pressure ±20% 40-1000kPa Where low "head-loss" is required High pressure ±20% 250-1500kPa Where pressures over 1000kPa are encounted
Baker Maric Flow Control Valves 5 Applications Showers Kitchens Water softeners & Filters Hand basins / washing troughs Gland water control Drinking fountains multi-storey buildings Safety washing equipment Fertilizer / irrigation dosing equipment Sprinklers / irrigation Water treatment Ultraviolet water sterilization Evaporative air conditioners Water heaters and collers Dust suppression Fire-fighting foam mixture control Fire-fighting flow control Water authority / supply metering Mining Distilleries Pump / bore protection HEADLOSS OR PRESSURE DROP (P.D.) ACROSS VALVE Question: What will be the head loss across the Baker Valve? Answer: At least 140 kpa, or between 140 and 1 000 kpa if the system is designed and operating correctly. This is because the function of our PRECISION range of valves is to control the flow when P.D. across the valve is within this range. Therefore, to achieve full rated flow, (accurate to within +/- 10%), the installation must provide for inlet to be at least 140 kpa above outlet pressure. To Calculate Headloss: Assume valve is controlling flow as required. Determine what pressure will be at the inlet, and what pressure will be at the outlet. The P.D. will then simply be the difference between inlet and outlet above. Should this work out to be less than 140 or greater than 1 000 kpa, then this PRECISION valve will not provide full flow and the installation will either require altering, or the use of Low Pressure Valves (40-200 kpa) or High Pressure Valves (250-1 500kPa). Performance Graph TYPICAL OF ALL PRECISION VALVES IRRESPECTIVE OF BODY SIZE OR FLOWRATE 120% 110% Rated Flow 100% Expressed as % of full rated flow 90% 80% 70% 60% kpa 100 200 300 400 500 600 700 800 900 1000 1100
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