TPI Series onstant Inverter ontrol System Power: 0. - P : Up to kg/cm² Flow: Up to L/min : " -" pplications partment buildings, houses, villa water supply, factories, water supply systems, drinking water systems, RO water treatment equipment, supermarkets, motels, SP, etc. Operating onditions. mbient temperature: Max. +0. Liquid temperature: + ~+0. Suitable liquids:potable water or other clean, thin or non-aggressive liquids.. pressure: Lower than the constant pressure setting limit (see page ~) code xample: TP T K S I V x Pump series TP flow rate [m³/h] head [kg/cm²] Stainless steel series I: I inverter series eluxe Number of pumps in parallel Product Features The pump will start smoothly when water is consumed. The inverter controller has a pressure sensor to detect down-stream pressure and adjust the motor speed to keep it at the required psi. onstant and stable pressure control: The pump will maintain a constant operating pressure at the pressure setting. This ensures a stable water supply even though occasionally the output flow is over the capacity. ry-run protection: The pump will automatically shut down to protect against dry running. Once the pump starts to operate, the pressure sensor will automatically detect the pressure limit. utomatic stop when flow stops: The pump will automatically cycle down as water usage decreases. compensation for pipeline leaks: Should the down steam pressure drop due to leaks in the piping system, the microcomputer will detect the pressure loss automatically and operate the pump to maintain the pressure setting limit. Single or parallel unit operation: Parallel operation: When water usage is low, one unit will begin to operate until the water usage increases, when it can no longer handle the required water pressure, the other unit will start functioning in parallel. The duplex unit will switch to single unit operation automatically with the decrease in water demand. Interchangeable operation: When a pump has operated through the preset interval (adjustable at 0- hours) the system will automatically switch to the other unit. This cycle will continue through time. 0
TPI Series Performance curves - Single unit.0 /z PRSSUR kg/cm².0.0.0 TK TK TK TK TK TK TK TK 8TK 8TK 8TK TK TK TK TK TK TK TK TK T.K.0 TK TK 8TK TK TK 0 0 0 0 80 00 0 0 80 00 0 80 0 00 0 0 00 800 PITY L/min 0 000 Performance curves - uplex.0 /z PRSSUR kg/cm².0.0.0 TK TK TK TK TK TK TK TK 8TK 8TK 8TK TK TK TK TK TK TK TK TK T.K.0 TK TK 8TK TK TK 0 0 0 80 0 00 0 80 0 00 80 0 800 000 00 00 0 800 000 PITY L/min
T/T I Specifications - Single unit Inverter ontroller reaker TPTKI TPTKI TPTKI TPTKI TPTKI Ø Ø Ø Ø Ø 00-0V 00-0V 00-0V 00-0V 00-0V 0 0 0 0 0 0.0.0.0 0 0 0 0 0 0 0 0 TPTKI TPTKI TPTKI TPTKI TPTKI Ø Ø Ø Ø Ø 00-0V 00-0V 00-0V 00-0V 00-0V 0 0 0 0 0 0 0.0.0.0 ½ ½ ½ ½ ½ ½ ½ ½ ½ ½ 0 0 0 Fig. TPT /T - I T: " T: ½" TPTKI TPTKI 0 99 tank (L) Fig TPTKI T: " T: ½" TPTKI TPTKI 00 8 8 8 TPTKIV 89 99 0 8 8 0 TPTKIV TPTKIV TPTKIV TPTKIV 8 8 0 0 0 0 8 8 8 8 Fig. TPT /T - IV TPTKI 08 8 8 TPTKI 8 8 8 T: " T: ½" TPTKI TPTKI 09 0 89 8 8 8 8 TPTKI 9 8 8 T: " T: ½" TPTKIV TPTKIV 98 08 0 0 TPTKIV TPTKIV 9 0 89 0 0 0 80 0 80 TPTKIV 0 0
8T/T I Specifications - Single unit Inverter ontroller reaker TP 8 T KI TP 8 T KI TP 8 T KI TP 8 T KI Ø Ø Ø Ø 00-0V 00-0V 00-0V 00-0V 0 0 0 0 0 0 0.0.0.0 0 0 0 0 0 0 TPT KI TPT KI Ø Ø 00-0V 00-0V 0 0 0.0.0 0 0 0 0 TPT KI 0 0.0 0 0 Fig. TP8T /T - I tank (L) Fig " TP8TKI TP8TKI. 8. 0 " TP8TKI TP8TKI 9 9 0 TPTKI TPTKI. 8. 0 0 80 0 80 TPTKI 0
T/T I Specifications - Single unit Inverter ontroller reaker TPT KI 0.0 0 TPT KI 0.0 0 TPT KI ½ 0 0.0 0 TPT KI 0 0 0 TPT KI 0 0 TPT.KI ½ 0 0. 80 TPT KI 0 0.0 0 80 TPT KI 0 80 Fig. TP TKI / TP TKI tank (L) Fig " TPTKI TPTKI 8 88 9 8 8 TPTKI 8 8 " TPTKI TPTKI 0 0 8 8 8 0 80 TPT.KI TPTKI TPTKI 8 9 0 0 Fig. TP TKI ~ TPTKI Fig. TP T - I 8 8 " " " 8 08 " 8 8 0 80 0 00 0 80 0 00
T/T Ix Specifications - uplex Inverter ontroller reaker TPTKI x TPTKI x TPTKI x TPTKI x TPTKI x x x x x x Ø Ø Ø Ø Ø 00-0V 00-0V 00-0V 00-0V 00-0V 0 0 0 0 0 0.0.0.0 0 0 0 TPTKI x TPTKI x TPTKI x TPTKI x TPTKI x x x x x x Ø Ø Ø Ø Ø 00-0V 00-0V 00-0V 00-0V 00-0V 0 0 0 0 0 0 0.0.0.0 ½ ½ ½ ½ ½ 0 0 0 0 0 0 0 0 tank (L) TPTKI x 0 99 x " TPTKI x TPTKI x TPTKI x 00 x x x 0 T:" 00 T:½" TPTKI x 8 x 80 8 TPTKI x TPTKI x TPTKI x TPTKI x 8 09 08 89 x x x x TPTKI x 9 x
8T/T Ix Specifications - uplex Inverter ontroller reaker TP 8 T KI x TP 8 T KI x TP 8 T KI x TP 8 T KI x x x x x Ø Ø Ø Ø 00-0V 00-0V 00-0V 00-0V 0 0 0 0 0 0 0 0 0 0.0.0.0 0 0 0 0 TPT KI x TPT KI x x x Ø Ø 00-0V 00-0V 0 0 0 0 0.0.0 0 0 TPT KI x x.0 0 " tank (L) TP8TKI x. x TP8TKI x 08. 0 x 0 0 TP8TKI x. 0 x " TP8TKI x 9. x TPTKI x. x 0 800 000 TPTKI x TPTKI x.. 0 0 x x
T/T Ix Specifications - uplex Inverter ontroller reaker TPT KI x x 0 0.0 0 80 TPT KI x x 0.0 0 80 TPT KI x ½ x 0.0 0 80 TPT KI x 0 x 00 80 TPT KI x 0 x 00 80 TPT.KI x ½ x. TPT KI x 0 x.0 0 TPT KI x x 00 Fig. TP T - I x 9 tank (L) Fig TPTKI x 8 x (8) 9 8 TPTKI x TPTKI x 8 8 x x TPTKI x 0 8 x 8 TPTKI x 0 8 x 0 Fig. 8 TP T - I x 0 9 800 000 TPT.KI x TPTKI x TPTKI x 8. 9.. x x x 8 8 8 8 8 0 0 800 000