EBARA FLOW SWITC CONTROLLED BOOSTER SYSTEM Ebara ydro Booster pressure set type UD is a flow switch control system which prevents frequent start/ stop of pumps, thus ensure constant water supply. Application Domestic : igh-rise buildings, Condominiums, Apartments etc. Coercial : Office buildings, otels, Shopping centres etc. Industrial : igh-rise factories, Manufacturing & Processing industries applications etc. Social Service : Schools, ospitals etc. Construction Features Fully assembled and certified ydro Booster unit consisting of one or two (2) pump arranged in parallel, mounted on a coon baseframe, pipework complete with all hydraulically required parts, EBARA Controller unit, pressure switches and flow switches together with complete internal electrical wiring. Baseframe & Coon Pipework Galvanized pipework to enable easy connection to all coonly used pipe fittings. The pipework is sized suitable for maximum hydraulic unit capacity. Check valves and suitable gate valves are fitted for optimal system operation. Pumps Single or two (2) EBARA pumps arranged for parallel operation. All parts contact with liquid are of stainless steel. Diaphragm Pressure Tank A pre-charged diaphragm tank is fitted to the discharge pipe with a compatible Butyl-rubber diaphragm. Generally this tank serves basic functions of supplying water at a very low flow and minimising effect of water haering. Pressure Switches The pressure switch controls start/stop of pump operation. Stop-value of pressure switch should be.6kgf/cm2 higher than pump supply pressure. Start value of pressure should be set so that the water supply appliance at the highest point of building or the most remote place has sufficient water supply pressure. Flow Switch The primary function of flow switch is to detect low flow condition, and cut off pump operation during very low flow condition. This reduces the frequency of on/off pump to prolong operating life of pumping system.
EBARA FLOW SWITC CONTROLLED BOOSTER SYSTEM Pump Stainless steel casing and impeller provide rusty-free water supply Pressure switches Adjustment type-signal cut-in and cut-out pumps Pre-charge diaphragm tank Flow switch Detects very low flow to cut off No. 1 pump thus reducing frequency of on / off pump at low flow Pressure gauge Indicator of water pressure Isolating Valve Check valve Quick closing action reduces water haer Discharge pipe Galvanize pipework provides to enable easy connection UD - CONTROL SYSTEM Supply Pressure ➅ P4 Q1 Flow switch ➄ Uncontinuous pump operation range ➃ P3 ➀ ➁ Continuous pump operation range P1 P2 Single Operation ➂ Parallel Operation Step 1) Both pumps are stopped when water tank is fully charged. In this condition water is supplied from the pressure tank, and water pressure in tank gradually decreases. Step 2) No. 1 pump starts at pressure P1 (Point 1 ) and water is supplied from pump (and pressure tank). Step 3) When more water is required and water pressure decreases to P2 (Point 2 ), No. 2 pump also starts, operation point shifts to Point 3 and system shifts to parallel operation. Step 4) When water consumption decreases, water pressure in tank increases and when pressure reaches P3 (Point 4 ), No. 2 pump is stopped and operation point shifts to Point 5. Step 5) When water consumption further decreases, water pressure in tank increases and pressure switch is turned off, and the flow switch used to detect small flow, is turned off. When both pressure and flow switches are off, No. 1 pump stops (Point 6 ). Flow switch setting point is at small capacity point, therefore pump continuous operation range is much wider. Accordingly pump start frequency is greatly decreased.
EBARA FLOW SWITC CONTROLLED BOOSTER SYSTEM Flow Switch The primary function of flow switch is to detect a very low flow in order to cut off No.1 pump. This reduces the frequency of on/off pump at low flow. The life of pump is thus prolonged. The fundamental working principle is shown graphically as below. At a very low flow, the float of the flow switch positions itself at/almost to its lowest resting position. That is, water pressure force from pump discharge is equivalent/lesser than the weight of the float. The location of the float sends signal out to trigger No.1 pump to stop. Flow Switch Float At higher flow, the float is lifted up by the water pressure force from pump discharge. Its location is determined by the balancing act between its own weight and water pressure force. Signal generates no impact in operation on pump. UD - CONTROLLED UNIT The heart of the system is the EBARA controller unit, which is user-friendly and permit One-touch operation. It controls the sequence of pump operation with signals input from the pressure switch and/or flow switch in Auto & Alternate mode. EBARA controller unit generally provides the below onetouch functioning features: - 1x Selector switch (P1/P2/ALT) - 1x Selector switch (Manual/Auto/Off) - 1x Power incoming indicating light - 2x Pump RUN indicating light - 1x Pump overload indicating light - 1x Alarm (fault) indicating light - 1x Buzzer stop This user-friendly controller unit operates compatible with other electrical components to ensure smooth functioning of booster system. Fig. below shows the display of panel board. Two modes of operation are possible, namely manual and auto & alternate. Various configurations of standard control panel are available. It varies from indoor to outdoor, DOL to star-delta starter and auto transformer type panel.
EBARA FLOW SWITC CONTROLLED BOOSTER SYSTEM - OPERATION METOD Schematic Diagram Operation System Performance Curve Both pumps not operating at very low flow & small demand. Water supplies directly from hydro-pneumatic pressure vessel. N/A At higher flow & higher demand water pressure in hydro-pneumatic pressure vessel decreases to P1 (point 1 ). No. 1 pressure switch initiates start of No. 1 pump. At higher flow & water pressure decreases to P2 (point 2 ). No. 2 pressure switch triggers No. 2 pump to start & system shifts to parallel operation (operation point is at point 3 ). As water consumption decreases & water pressure increases to P3 (point 4 ). No. 2 pressure switch activates No. 2 pump to stop & operation shifts to point 5.
EBARA FLOW SWITC CONTROLLED BOOSTER SYSTEM - OPERATION METOD Schematic Diagram Operation System Performance Curve At higher flow & water pressure decreases to P2 (point 2 ). No. 2 pressure switch triggers No. 2 pump to start & system shifts to parallel operation (operation point is at point 3 ) As water consumption decreases & water pressure increases to P3 (point 4 ). No. 2 pressure switch activates No. 2 pump to stop & operation shifts to point 5. As water consumption further decreases & water pressure increases to P4. No. 1 pressure switch cut off. Flow switch triggers No. 1 pump to stop at very low flow of Q1 (point 6 ). Both pumps not operating at no demand. N/A
EBARA FLOW SWITC CONTROLLED BOOSTER SYSTEM - OPERATION METOD Schematic Diagram Operation As demand increases again & water pressure in hydropneumatic pressure vessel decreases to P1 (point 1 ) No. 1 pressure switch initiates start of No.2 pump. System Performance Curve At higher flow & water pressure decreases to P2 (point 2 ). No. 2 pressure switch triggers No. 1 pump to start & system shifts to parallel operation (operation point is at point 3 ). As water consumption decreases & water pressure increases to P3 (point 4 ). No. 2 pressure switch activates No. 1 pump to stop & operation shifts to point 5. As water consumption further decreases & water pressure increases to P4. No. 1 pressure switch cut off. Flow switch triggers No. 2 pump to stop at very low flow of Q1 (point 6 ). Both pumps not operating at no demand. N/A
ISOMETRIC DRAWING 4 5 3 6 2 1 7 8 9 1 1 11 2 No. 3 4 5 6 7 8 9 1 11 Part Name Control Panel Suction Manifold Gate Valve Pump Diaphragm Tank Pressure Switch Pressure Gauge Discharge Manifold Check Valve
SELECTION GUIDE 7 UD CDX 7 / 9 CURVES 2 POLES 5 z 6 5 4 3 UD CDX 9-1/.75 UD CDX 7-7/.55 2 UD CDX 7-5/.37 1 1.2 2.4 3.6 4.8 6 7.2 8.4 9.6 1.8 12 13.2 3 14.4 m /hr Capacity (m 3 /hr.) UD CDX 12 CURVES 2 POLES 5 z 6 5 4 UD CDX 12-2/1.5 3 2 UD CDX 12-12/.9 UD CDX 12-7/.55 1 3 6 9 12 15 18 21 24 27 3 Capacity (m 3 /hr.)
SELECTION GUIDE 7 UD CDX 2 CURVES 2 POLES 5 z 6 5 4 3 UD CDX 2-25/1.8 UD CDX 2-2/1.5 2 UD CDX 2-12/.9 1 3 6 9 12 15 18 21 24 27 3 33 36 Capacity (m 3 /hr.) 7 UD 2CDX 7 CURVES 2 POLES 5 z 6 UD 2CDX 7-2/1.5 UD 2CDX 7-15/1.1 5 UD 2CDX 7-12/.9 4 3 UD 2CDX 7-1/.75 2 1 1.2 2.4 3.6 4.8 6 7.2 8.4 9.6 1.8 12 13.2 14.4 Capacity (m 3 /hr.)
SELECTION GUIDE 8 UD 2CDX 12 CURVES 2 POLES 5 z 7 UD 2CDX 12-4/3. 6 UD 2CDX 12-3/2.2 5 UD 2CDX 12-2/1.5 4 3 UD 2CDX 12-15/1.1 2 1 3 6 9 12 15 18 21 24 27 3 33 36 8 UD 2CDX 2 CURVES 2 POLES 5 z Capacity (m 3 /hr.) 7 UD 2CDX 2-5/3.7 6 UD 2CDX 2-4/3. 5 UD 2CDX 2-3/2.2 4 3 2 1 3 6 9 12 15 18 21 24 27 3 33 36 Capacity (m 3 /hr.)
SELECTION GUIDE UD 3M 32 CURVES 2 POLES 5 z 1 9 8 7 UD 3M 32-2/5.5 6 5 4 UD 3M 32-2/4. UD 3M 32-2/3. UD 3M 32-2/7.5 UD 3M 32-16/2.2 3 UD 3M 32-16/1.5 2 UD 3M 32-125/1.1 1 3 6 9 12 15 18 21 24 27 3 33 36 39 42 54 1 UD 3M 4 CURVES 2 POLES 5 z 9 8 7 UD 3M 4-2/11 6 5 4 UD 3M 4-2/7.5 UD 3M 4-2/5.5 UD 3M 4-16/4. 3 2 UD 3M 4-16/3. UD 3M 4-125/2.2 UD 3M 4-125/1.5 1 6 12 18 24 3 36 42 48 54 6 66 72 78 84 9
SELECTION GUIDE 8 UD 3M 5 CURVES 2 POLES 5 z 7 UD 3M 5-2/15 6 UD 3M 5-2/11 5 UD 3M 5-2/9.2 4 3 2 UD 3M 5-16/7.5 UD 3M 5-16/5.5 UD 3M 5-125/4. UD 3M 5-125/3. UD 3M 5-125/2.2 1 12 24 36 48 6 72 84 96 18 12 132 144 156 7 UD 3M 65 CURVES 2 POLES 5 z UD 3M 65-2/22 6 UD 3M 65-2/18.5 5 UD 3M 65-2/15 UD 3M 65-16/15 4 3 UD 3M 65-16/11 UD 3M 65-16/9.2 UD 3M 65-16/7.5 UD 3M 65-125/7.5 UD 3M 65-125/5.5 2 UD 3M 65-125/4. 1 3 6 9 12 15 18 21 24 27 3 33
SELECTION GUIDE 11 UD MATRIX 3 CURVES 2 POLES 5 z 1 UD MATRIX 3-9/1.5 9 8 UD MATRIX 3-8/1.3 UD MATRIX 3-7/1.3 7 6 5 4 3 UD MATRIX 3-6/.9 UD MATRIX 3-5/.75 UD MATRIX 3-4/.65 UD MATRIX 3-3/.65 2 UD MATRIX 3-2/.45 1.6 1.2 1.8 2.4 3 3.6 4.2 4.8 5.4 6 6.6 7.2 7.8 8.4 9 9.6 11 UD MATRIX 5 CURVES 2 POLES 5 z 1 UD MATRIX 5-9/2.2 9 UD MATRIX 5-8/2.2 8 UD MATRIX 5-7/1.5 7 6 5 4 3 UD MATRIX 5-6/1.3 UD MATRIX 5-5/1.3 UD MATRIX 5-4/.9 UD MATRIX 5-3/.65 2 UD MATRIX 5-2/.45 1 1.2 2.4 3.6 4.8 6 7.2 8.4 9.6 1.8 12 13.2 14.4 15.6 16.8 18 19.2
SELECTION GUIDE 8 UD MATRIX 1 CURVES 2 POLES 5 z 7 UD MATRIX 1-6/2.2 6 UD MATRIX 1-5/2.2 5 4 3 UD MATRIX 1-4/1.5 UD MATRIX 1-3/1.3 2 UD MATRIX 1-2/.75 1 3 6 9 12 15 18 21 24 27 3 33 36 UD MATRIX 18 CURVES 2 POLES 5 z 8 7 UD MATRIX 18-6/4. 6 UD MATRIX 18-5/4. 5 4 3 UD MATRIX 18-4/3. UD MATRIX 18-3/2.2 2 UD MATRIX 18-2/1.5 1 6 12 18 24 3 36 42 48 54 6 66
SELECTION GUIDE 16 UD-EVM3 14 12 1 8 6 UD EVM 11N5/1.1 UD EVM 9N5/1.1 UD EVM 7N5/.75 UD EVM 6N5/.75 4 2 UD EVM 5N5/.55 UD EVM 4N5/.55 UD EVM 3N5/.37 UD EVM 2N5/.37 1.5 3 4.5 6 7.5 9 16 UD-EVM5 14 12 1 UD EVM 1N5/2.2 8 6 4 2 UD EVM 8N5/1.5 UD EVM 7N5/1.5 UD EVM 6N5/1.1 UD EVM 5N5/1.1 UD EVM 4N5/.75 UD EVM 3N5/.55 UD EVM 2N5/.37 2.5 5 7.5 1 2.5 15
SELECTION GUIDE 16 UD-EVM1 14 12 1 UD EVM 1N5/4. 8 6 4 2 UD EVM 8N5/3. UD EVM 6N5/2.2 UD EVM 5N5/2.2 UD EVM 4N5/1.5 UD EVM 3N5/1.1 UD EVM 2N5/.75 5 1 15 2 25 3 16 UD-EVM18 14 12 UD EVM 7F5/7.5 1 UD EVM 6F5/5.5 8 6 UD EVM 5F5/5.5 UD EVM 4F5/4. 4 UD EVM 3F5/3. UD EVM 2F5/2.2 2 8 16 24 32 4 48
SELECTION GUIDE 16 UD-EVM32 14 12 1 8 6 4 2 UD EVM 5-F5/11 UD EVM 5-3F5/11 UD EVM 4-F5/7.5 UD EVM 4-3F5/7.5 UD EVM 3-F5/5.5 UD EVM 3-3F5/5.5 UD EVM 2-F5/4. UD EVM 2-2F5/3. UD EVM 1-F5/2.2 14 28 42 46 7 84 16 UD-EVM45 14 UD EVM 5-F5/18.5 12 UD EVM 5-2F5/18.5 UD EVM 4-F5/15 1 8 UD EVM 4-2F5/15 UD EVM 3-F5/11 6 UD EVM 3-2F5/11 UD EVM 2-F5/7.5 4 UD EVM 2-2F5/5.5 2 UD EVM 1-F5/4. UD EVM 1-1F5/3. 2 4 6 8 1 12
SELECTION GUIDE 12 UD-EVM64 11 1 UD EVM 4-1F5/22 UD EVM 4-2F5/18.5 UD EVM 4-3F5/18.5 9 8 7 6 5 4 UD EVM 3-F5/18.5 UD EVM 3-1F5/15 UD EVM 3-2F5/15 UD EVM 3-3F5/15 UD EVM 2-F5/11 UD EVM 2-1F5/11 UD EVM 2-2F5/7.5 3 2 UD EVM 1-F5/5.5 UD EVM 1-1F5/4. 1 28 56 84 112 14 168
No. 1 PUMP No. 2 PUMP RUN RUN MAN OFF AUTO OVERLOAD ALARM BZ STOP No. 1 ALT No. 2 UD DIMENSIONAL DRAWING UD SYSTEM (CDX) D W `X' YDRO BOOSTER 5 NPT DISCARGE 5 NPT DISCARGE 5 NPT SUCTION 5 NPT SUCTION 75 F L3 E CDX PUMP VIEW X MODEL DIMENSION D W L3 E F LITER PIPE CONNECTION UD-2 x CDX 2 45 1525 13 86 35 25 18 18 NPT
No. 1 PUMPNo. 2 PUMP RUN RUN MAN OFF AUTO OVERLOADALARM BZ STOP No. 1 ALT No. 2 UD DIMENSIONAL DRAWING UD SYSTEM (MATRIX) D W `X' YDRO BOOSTER DISCARGE DISCARGE SUCTION SUCTION F L3 E 1 MATRIX PUMP VIEW X MODEL DIMENSION D W L3 E F LITER PIPE CONNECTION UD-2 x MATRIX 3/5/1 2 45 1525 13 86 35 25 18 18 5 NPT UD-2 x MATRIX 18 2 45 1525 18 91 35 25 18 24 75 NPT
No. 1 PUMP RUN MAN OFF AUTO OVERLOAD ALARM BZ STOP No. 1 ALT No. 2 UD DIMENSIONAL DRAWING UD SYSTEM (3M 32) D W `X' No. 2 PUMP RUN YDRO BOOSTER DN 5 DISCARGE DN 65 SUCTION 75 F L3 E 3M PUMP VIEW X MODEL DIMENSION D W L3 E F LITER PIPE CONNECTION UD-2 x 3M32 2 55 1525 12 92 44 25 21 24 FLANGE
No. 1 PUMP RUN No. 2 PUMP RUN MAN OFF AUTO OVERLOAD ALARM BZ STOP No. 1 ALT No. 2 UD DIMENSIONAL DRAWING UD SYSTEM (3M 4) D W `X' YDRO BOOSTER DN 5 DISCARGE DN 8 SUCTION F L3 E 1 3M PUMP VIEW X MODEL DIMENSION D W L3 E F LITER PIPE CONNECTION UD-2 x 3M4 2 55 1525 146 15 5 31 25 24 FLANGE
No. 1 PUMP No. 2 PUMP RUN RUN MAN OFF AUTO OVERLOAD ALARM BZ STOP No. 1 ALT No. 2 UD DIMENSIONAL DRAWING UD SYSTEM (3M 5) D W `X' YDRO BOOSTER DN 65 DISCARGE DN 8 SUCTION F L3 E 1 3M PUMP VIEW X MODEL DIMENSION D W L3 E F LITER PIPE CONNECTION UD-2 x 3M5 2 55 1525 146 15 5 31 25 24 FLANGE
No. 1 PUMP RUN No. 2 PUMP RUN MAN OFF AUTO OVERLOAD ALARM BZ STOP No. 1 ALT No. 2 UD DIMENSIONAL DRAWING UD SYSTEM (3M 65) D W `X' YDRO BOOSTER DN 8 DISCARGE DN 1 SUCTION F L3 E 1 3M PUMP VIEW X MODEL DIMENSION D W L3 E F LITER PIPE CONNECTION UD-2 x 3M65 2 55 1525 146 15 5 31 25 24 FLANGE
No.1 PUMP No.2 PUMP RUN RUN MAN OFF AUTO OVERLOAD ALARM BZ No.1 ALT No.2 STOP UD DIMENSIONAL DRAWING UD SYSTEM (EVM) `X' YDRO BOOSTER DISCARGE SUCTION B3 1 B1 B2 VIEW `X' EVM PUMP MODEL DIMENSION B1 B2 B3 SUCTION MANIFOLD 2UD-EVM 3 4 7 35 1525 13 88 18 5 5 NPT 2UD-EVM 5 4 7 35 1525 13 88 18 5 5 NPT 2UD-EVM 1 42 72 35 1525 11 14 24 65 65 NPT 2UD-EVM 18 42 72 35 1525 1245 14 24 8 8 FLANGE 2UD-EVM 32 44 74 4 1525 1755 136 1 1 1 FLANGE 2UD-EVM 45 44 74 4 1525 186 153 1 15 15 FLANGE 2UD-EVM 64 44 74 4 1525 186 153 1 15 15 FLANGE LITER DISCARGE MANIFOLD PIPE CONNECTION