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-0057HPPF2V3EMVAZ30开关

更新时间:2016-06-29

访问量:621

厂商性质:其他

生产地址:德意美

简要描述:
ROTECH-0057HPPF2V3EMVAZ30开关

意大利ODEG 1/8“电磁阀
意大利ODE21A3KR15电磁阀
意大利ODE21A3KR20电磁阀
意大利ODE21A3KR25电磁阀
意大利ODE21A3KR30电磁阀
意大利ODEG 1/4“电磁阀

ROTECH-0057HPPF2V3EMVAZ30    开关

意大利ODE    G 1/8"    电磁阀
意大利ODE    21A3KR15    电磁阀
意大利ODE    21A3KR20    电磁阀
意大利ODE    21A3KR25    电磁阀
意大利ODE    21A3KR30    电磁阀
意大利ODE    G 1/4"    电磁阀

意大利GIVI MISURE    位置控制器    
意大利GIVI MISURE THESI 310    位置控制器
意大利GIVI MISURE    THESI 310 AN   With analog output     位置控制器
意大利GIVI MISURE        位置控制器
意大利GIVI MISURE    THESI 310 DI   With relay outputs (digital)    位置控制器
意大利GIVI MISURE        位置控制器
意大利GIVI MISURE        位置控制器
意大利GIVI MISURE    ? THESI 320    位置控制器
意大利GIVI MISURE    THESI 320 DI   With relay outputs (digital)    位置控制器
意大利GIVI MISURE    THESI 320 AN   With analog outputs      位置控制器
ISA 10   Resolution 100 μm    
Resolution    100 μm
Grating pitch    400 μm
Accuracy grade    ± 10 μm
Max. traversing speed    120 m/min
Reference indexes    in required positions
Output signals    NPN / LINE DRIVER / PUSH-PULL
Protection class    IP 53 standard     IP 64 pressurized

ISA 100   Resolution 10 μm    
Resolution    10 μm
Grating pitch    40 μm
Accuracy grade    ± 5 μm
Max. traversing speed    80 m/min
Reference indexes    in required positions
Output signals    NPN / LINE DRIVER / PUSH-PULL
Protection class    IP 53 standard     IP 64 pressurized

ISA 5   Resolution 5 μm    
Resolution    5 μm
Grating pitch    20 μm
Accuracy grade    ± 3 μm
Max. traversing speed    60 m/min
Reference indexes    in required positions
Output signals    NPN / LINE DRIVER / PUSH-PULL
Protection class    IP 53 standard     IP 64 pressurized

ISA W1   Resolution 1 μm    意大利GIVI MISURE THESI 310    位置控制器
Resolution    1 μm
Grating pitch    40 μm
Accuracy grade    ± 3 μm
Max. traversing speed    25 m/min
Reference indexes    in required positions
Output signals    NPN / LINE DRIVER / PUSH-PULL

ROTECH-0057HPPF2V3EMVAZ30    开关

意大利ODE    G 1/8"    电磁阀
意大利ODE    21A3KR15    电磁阀
意大利ODE    21A3KR20    电磁阀
意大利ODE    21A3KR25    电磁阀
意大利ODE    21A3KR30    电磁阀
意大利ODE    G 1/4"    电磁阀

Protection class    IP 53 standard     IP 64 pressurized

ISA W05   Resolution 0.5 μm    
Resolution    0.5 μm
Grating pitch    20 μm
Accuracy grade    ± 3 μm
Max. traversing speed    12 m/min
Reference indexes    in required positions
Output signals    NPN / LINE DRIVER / PUSH-PULL
Protection class    IP 53 standard     IP 64 pressurized

SCR 10   Resolution 100 μm    
Resolution    100 μm
Grating pitch    400 μm
Accuracy grade    ± 10 μm
Max. traversing speed    120 m/min
Reference indexes    in required positions
Output signals    NPN / LINE DRIVER / PUSH-PULL
Protection class    IP 54 standard     IP 64 pressurized

SCR K50   Resolution 50 μm    
Resolution    50 μm
Grating pitch    400 μm
Accuracy grade    ± 10 μm
Max. traversing speed    120 m/min
Reference indexes    in required positions
Output signals    NPN / LINE DRIVER / PUSH-PULL
Protection class    IP 54 standard     IP 64 pressurized

SCR W10   Resolution 10 μm    
Resolution    10 μm
Grating pitch    400 μm
Accuracy grade    ± 10 μm
Max. traversing speed    120 m/min
Reference indexes    in required positions
Output signals    NPN / LINE DRIVER / PUSH-PULL
Protection class    IP 54 standard     IP 64 pressurized

SCR 100   Resolution 10 μm    
Resolution    10 μm
Grating pitch    40 μm
Accuracy grade    ± 5 μm

ROTECH-0057HPPF2V3EMVAZ30    开关

意大利ODE    G 1/8"    电磁阀
意大利ODE    21A3KR15    电磁阀
意大利ODE    21A3KR20    电磁阀
意大利ODE    21A3KR25    电磁阀
意大利ODE    21A3KR30    电磁阀
意大利ODE    G 1/4"    电磁阀

Max. traversing speed    80 m/min
Reference indexes    in required positions
Output signals    NPN / LINE DRIVER / PUSH-PULL意大利GIVI MISURE THESI 310    位置控制器
Protection class    IP 54 standard     IP 64 pressurized

SCR K5   Resolution 5 μm    
Resolution    5 μm
Grating pitch    40 μm
Accuracy grade    ± 5 μm
Max. traversing speed    80 m/min
Reference indexes    in required positions
Output signals    NPN / LINE DRIVER / PUSH-PULL
Protection class    IP 54 standard     IP 64 pressurized

SCR 5   Resolution 5 μm    
Resolution    5 μm
Grating pitch    20 μm
Accuracy grade    ± 3 μm
Max. traversing speed    60 m/min
Reference indexes    in required positions
Output signals    NPN / LINE DRIVER / PUSH-PULL
Protection class    IP 54 standard     IP 64 pressurized

意大利Pressmair传感器    V 83 EL R LP/02151 LP/02152 LP/02151SS LP/02152SS LP/02151.V* LP/02152.V*
意大利Pressmair传感器    V 83 EL P LP/02153 LP/02158 LP/02153SS LP/02158SS LP/02153.V* LP/02158.V*
意大利Pressmair传感器    V 43 EL R LP/02155 LP/02157 LP/02155SS LP/02157SS LP/02155.V* LP/02157.V*
意大利Pressmair传感器    V 43 EL P LP/02156 LP/02158 LP/02156SS LP/02158SS LP/02156.V* LP/02158.V*
意大利Pressmair传感器    V 23 EL R LP/05721 LP/02160 LP/05721SS LP/02160SS LP/05721.V* LP/02160.V*
意大利Pressmair传感器    V 13 EL R LP/02898 LP/02622 LP/02898SS LP/02622SS LP/02898.V* LP/02622.V*
意大利Pressmair传感器    V 13 EL P LP/02620 LP/02621 LP/02620SS LP/02621SS LP/02620.V* LP/02621.V*
意大利Pressmair传感器    V 83 EL EL LP/02161 LP/02162 LP/02161SS LP/02162SS LP/02161.V* LP/02162.V*
意大利Pressmair传感器    V 43 EL EL LP/02163 LP/02164 LP/02163SS LP/02164SS LP/02163.V* LP/02164.V*
意大利Pressmair传感器    V 23 EL EL LP/05720 LP/02166 LP/05720SS LP/02166SS LP/05720.V* LP/02166.V*
意大利Pressmair传感器    V 13 EL EL LP/02618 LP/02619 LP/02618SS LP/02619SS LP/02618.V* LP/02619.V*
意大利Pressmair传感器    V 83 EV R LP/02167 LP/02169 LP/02167SS LP/02169SS LP/02167.V* LP/02169.V*
意大利Pressmair传感器    V 83 EV P LP/02168 LP/02170 LP/02168SS LP/02170SS LP/02168.V* LP/02170.V*
意大利Pressmair传感器    V 43 EV R LP/02171 LP/02173 LP/02171SS LP/02173SS LP/02171.V* LP/02173.V*意大利GIVI MISURE THESI 310    位置控制器
意大利Pressmair传感器    V 43 EV P LP/02172 LP/02174 LP/02172SS LP/02174SS LP/02172.V* LP/02174.V*
意大利Pressmair传感器    V 23 EV R LP/06228 LP/02176 LP/06228SS LP/02176SS LP/06228.V* LP/02176.V*
意大利Pressmair传感器    V 13 EV R LP/03361 LP/03362 LP/03361SS LP/03362SS LP/03361.V* LP/03362.V*
意大利Pressmair传感器    V 13 EV P LP/03363 LP/03364 LP/03363SS LP/03364SS LP/03363.V* LP/03364.V*
意大利Pressmair传感器    V 83 EV EV LP/02177 LP/02178 LP/02177SS LP/02178SS LP/02177.V* LP/02178.V*
意大利Pressmair传感器    V 43 EV EV LP/02179 LP/02180 LP/02179SS LP/02180SS LP/02179.V* LP/02180.V*
意大利Pressmair传感器    V 23 EV EV LP/05722 LP/02182 LP/05722SS LP/02182SS LP/05722.V* LP/02182.V*
意大利Pressmair传感器    V 13 EV EV LP/03365 LP/03366 LP/03365SS LP/03366SS LP/03365.V* LP/03366.V
意大利Pressmair传感器    V 83 N R LP/02183 LP/02185
意大利Pressmair传感器    V 83 N P LP/02184 LP/02186
意大利Pressmair传感器    V 43 N R LP/02187 LP/02189
意大利Pressmair传感器    V 43 N P LP/02188 LP/02190
意大利Pressmair传感器    V 23 N P LP/02740 LP/02361
意大利Pressmair传感器    V 23 N R LP/05725 LP/02192
意大利Pressmair传感器    V 13 N R LP/03367 LP/03368
意大利Pressmair传感器    V 13 N P LP/02675 LP/03369
意大利Pressmair传感器    V 83 N N LP/02193 LP/02194
意大利Pressmair传感器    V 43 N N LP/02195 LP/02196
意大利Pressmair传感器    V 23 N N LP/05724 LP/02198
意大利Pressmair传感器    V 13 N N LP/03370 LP/03371
意大利Pressmair传感器    V 85 EL R LP/02199  LP/02201 LP/02199SS LP/02201SS LP/02199.V* LP/02201.V* 24 AC
意大利Pressmair传感器    V 85 EL P  LP/02200 LP/02202  LP/02200SS LP/02202SS LP/02200.V* LP/02202.V* 24 DC
意大利Pressmair传感器    V 45 EL R LP/02203 LP/02205 LP/02203SS LP/02205SS LP/02203.V* LP/02205.V* 48 AC
意大利Pressmair传感器    V 45 EL P LP/02204 LP/02206 LP/02204SS LP/02206SS LP/02204.V* LP/02206.V* 110 A
意大利Pressmair传感器    V 25 EL R LP/05729 LP/02208 LP/05729SS LP/02208SS LP/05729.V  LP/02208.V* 220 A
意大利Pressmair传感器    V 15 EL P LP/03372 LP/03373 LP/03372SS LP/03373SS LP/03372.V* LP/03373 V*
意大利Pressmair传感器    V 15 EL R LP/03374 LP/03375 LP/03374SS LP/03375SS LP/03374 V* LP/03375 V*
意大利Pressmair传感器    V 85 EL EL LP/02209  LP/02210 LP/02209SS LP/02210SS LP/02209.V* LP/02210.V*
意大利Pressmair传感器    V 45 EL EL LP/02211 LP/02212 LP/02211SS LP/02212SS LP/02211.V* LP/02212.V*
意大利Pressmair传感器    V 25 EL EL LP/05728 LP/02214 LP/05728SS LP/02214SS LP/05728.V* LP/02214.V*
意大利Pressmair传感器    V 15 EL EL LP/03376 LP/03377 LP/03376SS LP/03377SS LP/03376. V* LP/03377 V*
意大利Pressmair传感器    V 85 EV R LP/02215  LP/02217 LP/02215SS LP/02217SS LP/02215.V* LP/02217.V* 24 AC
意大利Pressmair传感器    V 85 EV P  LP/02216 LP/02218 LP/02216SS LP/02218SS LP/02216.V* LP/02218.V* 24 DC
意大利Pressmair传感器    V 45 EV R LP/02219 LP/02221 LP/02219SS LP/02221SS LP/02219.V* LP/02221.V* 48 AC
意大利Pressmair传感器    V 45 EV P LP/02220 LP/02222 LP/02220SS LP/02222SS LP/02220.V* LP/02222.V* 110 A
意大利Pressmair传感器    V 25 EV P LP/04305BSP LP/04305 LP/04305BSPSS LP/04305SS LP/04305BSP.V LP/04305.V* 220 A
意大利Pressmair传感器    V 25 EV R LP/06226 LP/02224 LP/06226SS LP/02224SS LP/06226.V* LP/02224.V*
意大利Pressmair传感器    V 15 EV R LP/03378 LP/03379 LP/03378SS LP/03379SS LP/03378.V* LP/03379.V*
意大利Pressmair传感器    V 15 EV P LP/03380 LP/03381 LP/03380SS LP/03381SS LP/03380.V* LP/03381.V*
意大利Pressmair传感器    V 85 EV EV LP/02225  LP/02226 LP/02225SS LP/02226SS LP/02225.V* LP/02226.V*
意大利Pressmair传感器    V 45 EV EV LP/02227 LP/02228 LP/02227SS LP/02228SS LP/02227.V* LP/02228.V*
意大利Pressmair传感器    V 25 EV EV LP/05730 LP/02230 LP/05730SS LP/02230SS LP/05730.V LP/02230.V*
意大利Pressmair传感器    V 15 EV EV LP/03383 LP/03384 LP/03383SS LP/03384SS LP/03383.V* LP/03384.V*
意大利Pressmair传感器    SINGLE PNEUMATIC CONTROL
意大利Pressmair传感器    COMANDO PNEUMATICO SINGOLO
意大利Pressmair传感器    COMMANDE PNEUMATIQUE SIMPLE
意大利Pressmair传感器    V 85 N R LP/02231  LP/02233
意大利Pressmair传感器    V 85 N P  LP/02232 LP/02234
意大利Pressmair传感器    V 45 N R LP/02235 LP/02237
意大利Pressmair传感器    V 45 N P LP/02236 LP/02238
意大利Pressmair传感器    V 25 N P LP/02741 LP/02746
意大利Pressmair传感器    V 25 N R LP/05727 LP/02240
意大利Pressmair传感器    V 15 N R LP/03385 LP/02955
意大利Pressmair传感器    V 15 N P LP/02676 LP/03386
意大利Pressmair传感器    DOUBLE PNEUMATIC CONTROL
意大利Pressmair传感器    COMANDO PNEUMATICO DOPPIO
意大利Pressmair传感器    COMMANDE PNEUMATIQUE DOUBLE
意大利Pressmair传感器    V 85 N N LP/02241  LP/02242
意大利Pressmair传感器    V 45 N N  LP/02243 LP/02244
意大利Pressmair传感器    V 25 N N LP/05726 LP/02246
意大利Pressmair传感器    V 15 N N LP/03387 LP/03388
意大利Pressmair传感器    EVAX
意大利Pressmair传感器    24 AC
意大利Pressmair传感器    24 DC
意大利Pressmair传感器    48 AC
意大利Pressmair传感器    110 A
意大利Pressmair传感器    220 A
意大利Pressmair传感器    V 45/3 EL EL CO  LP/02247  LP/02248 LP/02247SS LP/02248SS LP/02247.V* LP/02248.V* 24 AC
意大利Pressmair传感器    V 45/3 EL EL CC LP/02249 LP/02250 LP/02249SS LP/02250SS LP/02249.V* LP/02250.V* 24 DC
意大利Pressmair传感器    V 25/3 EL EL CO LP/03392 LP/03391  LP/03392SS LP/03391SS LP/03392.V* LP/03391.V* 48 AC
意大利Pressmair传感器    V 25/3 EL EL CC LP/03389 LP/02466  LP/03389 SS LP/02466SS LP/03389 .V* LP/02466.V* 110 A
意大利Pressmair传感器    V 15/3 EL EL CO LP/03390 LP/03393  LP/03390 SS LP/03393SS LP/03390 .V* LP/03393.V* 220A
意大利Pressmair传感器    V 15/3 EL EL CC LP/03394 LP/03395 LP/03394 SS LP/03395SS LP/03394 .V* LP/03395.V*
意大利Pressmair传感器    DOUBLE ELECTRIC CONTROL
意大利Pressmair传感器    COIL POSITION: VERTICAL
意大利Pressmair传感器    COMANDO ELETTRICO DOPPIO
意大利Pressmair传感器    POSIZIONE BOBINA: VERTICALE
意大利Pressmair传感器    COMMANDE éLECTRIQUE DOUBLE
意大利Pressmair传感器    POSITION BOBINE: VERTICALE
意大利Pressmair传感器    V 45/3 EV EV CO LP/02251 LP/02252 LP/02251SS LP/02252SS LP/02251.V* LP/02252.V* 24 AC
意大利Pressmair传感器    V 45/3 EV EV CC LP/02253 LP/02254 LP/02253SS LP/02254SS LP/02253.V* LP/02254.V* 24 DC
意大利Pressmair传感器    V 25/3 EV EV CO LP/02971 LP/03396 LP/02971SS LP/03396SS LP/02971.V* LP/03396.V* 48AC
意大利Pressmair传感器    V 25/3 EV EV CC LP/02970 LP/03397 LP/02970SS LP/03397SS LP/02970.V* LP/03397.V* 110AC
意大利Pressmair传感器    V 15/3 EV EV CO LP/03398 LP/03399 LP/03398SS LP/03399SS LP/03398.V* LP/03399.V* 220A
意大利Pressmair传感器    V 15/3 EV EV CC LP/04000 LP/03208 LP/04000SS LP/03208SS LP/04000.V* LP/03208.V*
意大利Pressmair传感器    V 45/3 N N CO LP/02255 LP/02256
意大利Pressmair传感器    V 45/3 N N CC LP/02257 LP/02258
意大利Pressmair传感器    V 25/3 N N CO LP/07156 LP/02826
意大利Pressmair传感器    V 25/3 N N CC LP/04001 LP/02825
意大利Pressmair传感器    V 15/3 N N CO LP/04002 LP/04003
意大利Pressmair传感器    V 15/3 N N CC LP/04004 LP/04005
意大利Pressmair传感器    TYPE
意大利Pressmair传感器    TIPO
意大利Pressmair传感器    TYPE
意大利Pressmair传感器    VALVE CODE WITH PILOT & COIL
意大利Pressmair传感器    CODICE VALVOLA CON IL PILOTA & BOBINA
意大利Pressmair传感器    CODE VALVE AVEC PILOTE & BOBINE
意大利Pressmair传感器    V*
意大利Pressmair传感器    E5 V 1A 1/4” LP/07516 LP/07526 LP/07516SS LP/07526SS LP/07516.V* LP/07526.V*
意大利Pressmair传感器    24 AC -  24 DC  -  48 AC
意大利Pressmair传感器    110 A - 220 A
意大利Pressmair传感器    DOUBLE ELECTRIC CONTROL - COIL POSITION: LATERAL
意大利Pressmair传感器    COMANDO ELETTRICO DOPPIO - POSIZIONE BOBINA: LATERALE
意大利Pressmair传感器    COMMANDE éLECTRIQUE DOUBLE - POSITION BOBINE: LATéRALE
意大利Pressmair传感器    TYPE
意大利Pressmair传感器    TIPO
意大利Pressmair传感器    TYPE
意大利Pressmair传感器    VALVE CODE WITH PILOT
意大利Pressmair传感器    CODICE VALVOLA CON IL PILOTA
意大利Pressmair传感器    CODE VALVE AVEC PILOTE
意大利Pressmair传感器    VALVE CODE WITH PILOT & COIL
意大利Pressmair传感器    CODICE VALVOLA CON IL PILOTA & BOBINA
意大利Pressmair传感器    CODE VALVE AVEC PILOTE & BOBINE
意大利Pressmair传感器    V*
意大利Pressmair传感器    E5 L 2A 1/4” LP/07515 LP/07525 LP/07515SS LP/07525SS LP/07515.V* LP/07525.V*
意大利Pressmair传感器    24 AC -  24 DC  -  48 AC
意大利Pressmair传感器    110 A - 220 A
意大利Pressmair传感器    DOUBLE ELECTRIC CONTROL - COIL POSITION: VERTICAL
意大利Pressmair传感器    COMANDO ELETTRICO DOPPIO - POSIZIONE BOBINA: VERTICALE
意大利Pressmair传感器    COMMANDE éLECTRIQUE DOUBLE - POSITION BOBINE: VERTICALE
意大利Pressmair传感器    TYPE
意大利Pressmair传感器    TIPO
意大利Pressmair传感器    TYPE
意大利Pressmair传感器    VALVE CODE WITH PILOT & COIL
意大利Pressmair传感器    CODICE VALVOLA CON IL PILOTA & BOBINA
意大利Pressmair传感器    CODE VALVE AVEC PILOTE & BOBINE
意大利Pressmair传感器    V*
意大利Pressmair传感器    E5 V 2A 1/4” LP/07517 LP/07527 LP/07517SS LP/07527SS LP/07517.V* LP/07527.V*
意大利Pressmair传感器    TYPE
意大利Pressmair传感器    TIPO
意大利Pressmair传感器    TYPE
意大利Pressmair传感器    VALVE CODE WITH PILOT
意大利Pressmair传感器    CODICE VALVOLA CON IL PILOTA
意大利Pressmair传感器    CODE VALVE AVEC PILOTE
意大利Pressmair传感器    NAKED
意大利Pressmair传感器    NUDA
意大利Pressmair传感器    NUE
意大利Pressmair传感器    BSP NPT
意大利Pressmair传感器    VALVE CODE WITH PILOT & COIL
意大利Pressmair传感器    CODICE VALVOLA CON IL PILOTA & BOBINA
意大利Pressmair传感器    CODE VALVE AVEC PILOTE & BOBINE
意大利Pressmair传感器    BSP NPT BSP NPT
意大利Pressmair传感器    V*
意大利Pressmair传感器    V5 1P 1/4” LP/07518 LP/07528
意大利Pressmair传感器    DOUBLE PNEUMATIC CONTROL
意大利Pressmair传感器    COMANDO PNEUMATICO DOPPIO
意大利Pressmair传感器    COMMANDE PNEUMATIQUE DOUBLE
意大利Pressmair传感器    TYPE
意大利Pressmair传感器    TIPO
意大利Pressmair传感器    TYPE
意大利Pressmair传感器    VALVE CODE WITH PILOT
意大利Pressmair传感器    CODICE VALVOLA CON IL PILOTA
意大利Pressmair传感器    CODE VALVE AVEC PILOTE
意大利Pressmair传感器    NAKED
意大利Pressmair传感器    NUDA
意大利Pressmair传感器    NUE
意大利Pressmair传感器    BSP NPT
意大利Pressmair传感器    VALVE CODE WITH PILOT & COIL
意大利Pressmair传感器    CODICE VALVOLA CON IL PILOTA & BOBINA
意大利Pressmair传感器    CODE VALVE AVEC PILOTE & BOBINE
意大利Pressmair传感器    BSP NPT BSP NPT
意大利Pressmair传感器    V*
意大利Pressmair传感器    V5 2P 1/4” LP/07519 LP/07529
意大利Pressmair传感器    TYPE
意大利Pressmair传感器    TIPO
意大利Pressmair传感器    TYPE
意大利Pressmair传感器    VALVE CODE WITH PILOT
意大利Pressmair传感器    CODICE VALVOLA CON IL PILOTA
意大利Pressmair传感器    CODE VALVE AVEC PILOTE
意大利Pressmair传感器    NAKED
意大利Pressmair传感器    NUDA
意大利Pressmair传感器    NUE
意大利Pressmair传感器    BSP NPT
意大利Pressmair传感器    VALVE CODE WITH PILOT & COIL
意大利Pressmair传感器    CODICE VALVOLA CON IL PILOTA & BOBINA
意大利Pressmair传感器    CODE VALVE AVEC PILOTE & BOBINE
意大利Pressmair传感器    BSP NPT BSP NPT
意大利Pressmair传感器    V*
意大利Pressmair传感器    E5 V 2A 1/4” 3P CC LP/04024 LP/04025 LP/04024SS LP/04025SS LP/04024.V* LP/04025.V*
意大利Pressmair传感器    E5 V 2A 1/4” 3P CO LP/04026 LP/04027 LP/04026SS LP/04027SS LP/04026.V* LP/04027.V*
意大利Pressmair传感器    24 AC -  24 DC  -  48 AC
意大利Pressmair传感器    110 A - 220 A
意大利Pressmair传感器    DOUBLE PNEUMATIC CONTROL
意大利Pressmair传感器    COMANDO PNEUMATICO DOPPIO
意大利Pressmair传感器    COMMANDE PNEUMATIQUE DOUBLE
意大利Pressmair传感器    TYPE
意大利Pressmair传感器    TIPO
意大利Pressmair传感器    TYPE
意大利Pressmair传感器    VALVE CODE WITH PILOT
意大利Pressmair传感器    CODICE VALVOLA CON IL PILOTA
意大利Pressmair传感器    CODE VALVE AVEC PILOTE
意大利Pressmair传感器    NAKED
意大利Pressmair传感器    NUDA
意大利Pressmair传感器    NUE
意大利Pressmair传感器    BSP NPT
意大利Pressmair传感器    VALVE CODE WITH PILOT & COIL
意大利Pressmair传感器    CODICE VALVOLA CON IL PILOTA & BOBINA
意大利Pressmair传感器    CODE VALVE AVEC PILOTE & BOBINE
意大利Pressmair传感器    BSP NPT BSP NPT
意大利Pressmair传感器    V*
意大利Pressmair传感器    V5 2P 1/4” 3P CC LP/04028 LP/04029
意大利Pressmair传感器    V5 2P 1/4” 3P CO LP/04030 LP/04031
意大利Pressmair传感器    TYPE - TIPO -  TYPE CODE - CODICE -  CODE
意大利Pressmair传感器    BSP NPT
意大利Pressmair传感器    V 25 N P
意大利Pressmair传感器    STD UNIV STD UNIV
意大利Pressmair传感器    LP/03314.BSP LP/03314.BSPU LP/03314 LP/03314.U
意大利Pressmair传感器    3 WAY - 2 POSITION PNEUMATIC CONTROL
意大利Pressmair传感器    3 VIE - 2 POSIZIONI COMANDO PNEUMATICO
意大利Pressmair传感器    3 VOIES - 2 POSITION COMMANDE PNEUMATIQUE
意大利Pressmair传感器    TYPE - TIPO -  TYPE CODE - CODICE -  CODE
意大利Pressmair传感器    BSP NPT
意大利Pressmair传感器    V 43 N P
意大利Pressmair传感器    STD UNIV STD UNIV
意大利Pressmair传感器    LP/03313.BSP LP/03313.BSPU LP/03313 LP/03072
意大利Pressmair传感器    TYPE - TIPO -  TYPE CODE - CODICE -  CODE
意大利Pressmair传感器    V 43 N P BSP NPT
意大利Pressmair传感器    MECHANICAL LATCH STD UNIV STD UNIV
意大利Pressmair传感器    LP/03105.BSP LP/03105.BSPU LP/03105 LP/03105.U
意大利Pressmair传感器    TYPE - TIPO -  TYPE CODE - CODICE -  CODE
意大利Pressmair传感器    BSP NPT
意大利Pressmair传感器    V 45 N P
意大利Pressmair传感器    STD UNIV STD UNIV
意大利Pressmair传感器    LP/02043.BSP LP/02043.BSPU LP/02043 LP/02043.U
意大利Pressmair传感器    5 WAY - 2 POSITION PNEUMATIC CONTROL
意大利Pressmair传感器    5 VIE - 2 POSIZIONI COMANDO PNEUMATICO
意大利Pressmair传感器    5 VOIES - 2 POSITION COMMANDE PNEUMATIQUE
意大利Pressmair传感器    TYPE - TIPO -  TYPE CODE - CODICE -  CODE
意大利Pressmair传感器    V 45 N P BSP NPT
意大利Pressmair传感器    MECHANICAL LATCH STD UNIV STD UNIV
意大利Pressmair传感器    LP/03315.BSP LP/03315.BSPU LP/03316.NPT LP/03316.NPTU
意大利Pressmair传感器    TYPE - TIPO -  TYPE CODE - CODICE -  CODE
意大利Pressmair传感器    BSP NPT
意大利Pressmair传感器    V 45 EV P
意大利Pressmair传感器    STD UNIV STD UNIV
意大利Pressmair传感器    LP/03338.BSP LP/03338
意大利Pressmair传感器    mension Type BSP NPT BSP NPT BSP NPT BSP NPT
意大利Pressmair传感器    1/8” VRF/8X LP/01743 LP/01743.NPT LP/01747 LP/01747.NPT LP/04048 LP/04048.NPT LP/04047 LP/04047.NPT
意大利Pressmair传感器    1/4” VRF/4X LP/01744 LP/01744.NPT LP/01748 LP/01748.NPT LP/04046 LP/04046.NPT LP/04045 LP/04045.NPT
意大利Pressmair传感器    1/2” VRF/2X LP/01745 LP/01745.NPT LP/01750 LP/01750.NPT LP/04044 LP/04044.NPT LP/04043 LP/04043.NPT
意大利Pressmair传感器    1” VRF/1X LP/04020 LP/04020.NPT LP/04021 LP/04021.NPT LP/04077 LP/04077.NPT LP/04042 LP/04042.NPT
意大利Pressmair传感器    LP/01820.BSP LP/01820
意大利Pressmair传感器    LP/01753 LP/01819
意大利Pressmair传感器    LP/01755 LP/01338.NPT
意大利Pressmair传感器    LP/04022 LP/04022.NPT
意大利Pressmair传感器    BSP NPT B C D E F G  Ch
意大利Pressmair传感器    1/8”
意大利Pressmair传感器    1/4”
意大利Pressmair传感器    1/2”
意大利Pressmair传感器    1”
意大利Pressmair传感器    UNIDIRECTIONAL VALVE - VALVOLA UNIDIREZIONALE - VALVE UNIDIRECTIONNELLE
意大利Pressmair传感器    B Ch
意大利Pressmair传感器    1/8”
意大利Pressmair传感器    1/4”
意大利Pressmair传感器    1/2”
意大利Pressmair传感器    1”
意大利Pressmair传感器    50
意大利Pressmair传感器    50
意大利Pressmair传感器    63
意大利Pressmair传感器    93
意大利Pressmair传感器    19
意大利Pressmair传感器    19
意大利Pressmair传感器    25
意大利Pressmair传感器    40
意大利Pressmair传感器    SHUTTLE VALVE - VALVOLA SELETTRICE - VALVE SéLECTRICE
意大利Pressmair传感器    ORIFICE DIAM. (mm)
意大利Pressmair传感器    DIAM. PASS. (mm)
意大利Pressmair传感器    ? PASSAGE (mm)
意大利Pressmair传感器    INDICATION
意大利Pressmair传感器    SIGLA
意大利Pressmair传感器    INDICATIF
意大利Pressmair传感器    BSP NPT
意大利Pressmair传感器    1/8”
意大利Pressmair传感器    1/4”
意大利Pressmair传感器    7
意大利Pressmair传感器    12
意大利Pressmair传感器    VSC/8 X
意大利Pressmair传感器    VSC/4 X
意大利Pressmair传感器    LP/01958.BSP
意大利Pressmair传感器    LP/01959.BSP
意大利Pressmair传感器    LP/01958.NPT
意大利Pressmair传感器    LP/01959.NPT

1
Centrifugal Fans
double inlet with direct drive
backwardcurved true airfoil blades
Issue 1.4
September 2013
A
ηe = Pu(s) / Pe(d) · Cc
ηm ηT ηr
ηe
P
e(d) Pe Pu(s)
C
c
2013 58 58 61 37 42
2015 62 61 64 44 49
ηe = Pu(s) / Pe
Depending on the model of the fan, the efficiency grade “N” set in
accordance with the ErP Directive must be achieved from 2013 and
2015 respectively.
The efficiency grade designates a parameter in the calculation
of the target energy efficiency of a fan depending on the electric
input power when operating at the optimal energy efficiency point.
The figure of parameter “N” corresponds to the target energy
efficiency with a power of 10 kW.
To make the selection easier for our customers, we offer
complete systems as defined by the ErP Directive!
In order to compare the systems, the total efficiency ηe of the fan
without speed regulation is considered.
If the system has speed regulation, it will be taken into account with
the “part load compensation factor” Cc (see below):
without speed regulation: Cc = 1
with speed regulation Ped ≥ 5 kW: Cc = 1.04
with speed regulation Ped < 5 kW: Cc = -0.03 ln(Ped) + 1.088
In order to take the speed regulation into account via the part load
compensation factor Cc, the following mathematical losses arise
in accordance with the formula prescribed by ErP for the following
typical motor powers:
Ped = 4.00 kW: Cc = 1.05 (5 %)
Ped = 2.20 kW: Cc = 1.06 (6 %)
Ped = 0.75 kW: Cc = 1.10 (10 %)
Efficiency grade “N” to ErP-Directive
P
ed = Input power of speed regulator when operating at the optimal energy efficiency point
C
c = part load compensation factor
Complete systems by Nicotra Gebhardt
Nicotra Gebhardt can supply complete systems in all product
categories which meet the ErP requirements. We offer highly efficient
fan systems
with matching components and “high efficiency drives” –
belt and direct drive.
with integrated or external control to regulate speed.
with IEC standard motors (IE2) or internal rotor motors with
brushless DC technology.
and with AC external rotor motors or brushless DC external
rotor motors.
Building blocks for best values
Thanks to the decades-long experience of Nicotra Gebhardt all the
components of our fans contribute to their high performance.
Impellers and blades are optimised for turbulence and therefore
particularly efficient. An example: With the latest development,
the RLM Evo impeller, the free-running centrifugal fans of
Nicotra Gebhardt achieve system efficiency grades never reached
before.
In addition, the brushless DC drives which Nicotra Gebhardt
offers for its direct drive fans improve the system efficiency grades.
The fan technology of Nicotra Gebhardt delivers highly
efficient systems for all applications.
Year
Centrifugal fans
with backward curved blades
without
housing
static
with
housing
static total
Centrifugal fans with forward
curved blades
with
housing
static total
The overall picture will decide
ηe = Total efficiency
P
u(s) = Fan gas power when operating at the optimal
energy efficiency point
P
e = Electric input power when operating at the
optimal energy efficiency point
B
6.000 m3/h
10.000 m3/h
18.000 m3/h
35.000 m3/h
100.000 m3/h
200.000 m3/h
40 °C
60 °C
80 °C
ATEX
RZM RZP RZA
P P P P P P P P
≤ 0280
P
≥ 0315
P
P P P P P P P
P P P P P P P P P P P P P
≤ 1000
P
≥ 1120
P
ErP 2015 ErP 2015 ErP 2015
Flow rate Media
temperature
Speed
control
Impeller Casing
material
Inlet
type
Voltage
Brushless-DC
External Inverter
Forward curved blades
galvanised sheet steel
Backward curved blades
coated steel
Galvanised steel
Coated steel
Single inlet
Double inlet
ErP status
2
proSELECTA II
ErP 2015 ErP 2015 ErP 2015
proSELECTA II is a technical selection program that allows you to
configure your own individually designed fan. It provides you with
the opportunity to choose from the entire range of fan types and
their associated options.
Simple and reliable selection
The result from proSELECTA II is the provision of all the technical
data for your fan, including sound level data, dimension
specifications and accessories. Apart from that, as a registered
user, your purchase prices are provided. Additionally fully
dimensioned drawings in dxf format are available, which can be
downloaded and transferred straight into your CAD system.
So that you can be sure. Models and options that are technically
not permissible, are automatically excluded in proSELECTA II.
So there is no chance that you will configure a “wrong” device
option.
You can register as a proSELECTA II user with us, which enables
us to offer you faster order processing. What this means for you is:
The complete configuration of your fan with its associated system
accessories and belt drive layout.
The possibility to produce fans that operate via a frequency
inverter.
The option of saving your own fan configuration on our server.
The opportunity to modify your saved configuration, even over the
phone to your Nicotra Gebhardt representative.
Nicotra Gebhardt technologies like ...
Automated manufacture of compact scroll and impeller with forward curved blades Own motor production for optimal tuniung
of motor and fan!
ErP status
3
Fittings RZM RZP RZA
Accessories
Technical
Description
High performance centrifugal fans RZA rotavent
double inlet,
with built-in, low-slip external rotor motor,
made of galvanised sheet steel or welded and coated,
with multi position feet and connecting flange at discharge;
Impeller with true aerofoil blades, welded and painted – system rotavent
High performance centrifugal fans RZP rotavent
double inlet,
with built-in, brushless DC external rotor motor and external commutation unit,
made of galvanised sheet steel;
with multi position feet and connecting flange at discharge;
Impeller with true aerofoil blades, welded and painted – system rotavent
High performance centrifugal fans RZM rotavent
double inlet,
fan with directly coupled motor fitted on pedestal and base frame,
made of galvanised sheet steel with heavy duty reinforced side frame,
connecting flange at discharge,
Impeller with true aerofoil blades, welded and painted – system rotavent
Fittings / Accessories
complete system accessories
fittings and options
Technical Description
Descriptions
Operating limits
Notes
4
ηe(s)
ηe(s)d
2013 2015
A, C
0.125 ≤ P ≤ 10
58 61
10 < P ≤ 500
B, D
0.125 ≤ P ≤ 10
61 64
10 < P ≤ 500
ηm ηr
P
ed Pe Pu(s)
C
c
The RZA rotavent serie
Economic, quiet and compact.
Through the combination of two pioneering technologies - the aerodynamics of the
rotavent impeller combined with energy efficient integral motors, Nicotra Gebhardt
has developed a series of controllable direct drive centrifugal fans setting new
standards for economy and quiet operation.
Your benefits:
A highly efficient system through the use of energy optimised components: fans,
motors and frequency inverters, operating together in harmony.
high efficiency
low energy costs
low noise
compact and maintenance free fans
flexible in its operation
Highest system performance and best energy efficiency
System efficiency
The given System Efficiency is the efficiency of the whole system and includes the
individual efficiencies of the component Fan – Motor – Frequency inverter.
ErP conformity
Depending on the model of the fan, the efficiency grade "N" set in accordance with
the ErP Directive must be achieved from 2013 and 2015 respectively.
The efficiency grade designates a parameter in the calculation of the target energy
efficiency of a fan depending on the electric input power when operating at the
optimal energy efficiency point. The figure of parameter "N" corresponds to the target
energy efficiency with a power of 10 kW.
Efficiency grade "N" to ErP Directive
Centrifugal fans with backward curved blades with housing
Year
static
total
Measurement
category
Efficiency
category
Efficiency grade
"N"
Power range P
Frequency [kW]
inverter
Motor Impeller
ηtarget = 4.56 · ln(Ped) - 10.5 + 61
ηtarget = 4.56 · ln(P) - 10.5 + N
ηtarget = 1.10 · ln(P) - 2.60 + N
ηtarget = 4.56 · ln(P) - 10.5 + N
ηtarget = 1.10 · ln(P) - 2.60 + N
Target energy efficiency
Calculation example for fan type: RZA 11-0355-4D
Measurement category / Efficiency category = B / TOTAL
Power range at optimum Pe = 3.6 kW (<10 kW)
Efficiency grade according to ErP Directive N2015 = 64
Calculation of the ErP energy efficiency ηtarget required 2015:
ηtarget = 4.56 · ln(3.6) - 10.5 + 64 ηtarget ≈ 59.3 %
Fan energy efficiency ηe:
System efficiency (total) by proSELECTA II ηe ≈ 62.7 %
Calculation of the Fan efficiency grade "NF":
N
F = 62.7 - [4.56 · ln(3.6)] + 10.5 NF = 67.4
Result: ηe 60.9 % > ηtarget 59.3 % resp. NF 67.4 > N2015 64
The energy efficiency of the fan surpasses the requirements of the ErP for 2015.
A technical data list according to ErP-REGULATION 327/2011/EU of all fans is
available at the end of this chapter "RZA".
Make use of our technical selection program
proSELECTA II. You receive all technical data for your
fan, easy–quick–reliable.
5
RZA 11-0225/-0560
The compact pioneering technology
Optimal aerodynamics
Low turbulance velocity for both inlet and discharge due to the
large free cross section and minimal flow restraint of the impeller, an
example of aerodynamics and performance of the rotavent.
Acoustics
Reduction of high frequency noise levels is just one of the advantages
of the rotavent, together with optimised motors and frequency
inverters.
Minimal sound levels due to low blade passing frequencies from the
optimised impeller geometry of the rotavent. The impeller has obliquely
inclined blades with trailing edges, and the throat plate is inclined
opposingly.
High efficiencies
Nicotra Gebhardt fans of the RZA rotavent range are operating at high
efficiency in wide area of the fan curve.
Your benefits:
negligible sensitivity to built in disturbances
minor pressure loss with free discharge operation
smaller, yet greater energy performance
Your benefits:
reduced size and costs of attenuation and silencers
Your Benefits:
low running costs
high efficiency
The high value and precisely manufactured components of rotavent, manufactured with most modern machinery for demanding tolerance
standards, are the basis for a product range satisfying highest quality requirements.
The motors
The motors are designed for high efficiencies with frequency inverter control, with inbuilt
PTC-thermistors and aerodynamically optimised.
Benefits:
improved economical operation
high safety standard
optimised motor protection
Lock formed scroll made of galvanised steel sheet, equipped with multi-position bolted
brackets and discharge flange.
High performance impeller with backward curved true aerofoil blades, welded and coated.
The vibration-free
motor suspension
The anti-vibration system, specially developped for this application, ensure smooth running
of the unit whithout transmission of vibration to other parts of the installation or to the
building.
The easy
connection through easy access to the metal connection box fitted to motor shaft.
The trouble-free
speed regulation
from 0 to 100 % by an efficient frequency inverter.
Benefits:
high flexibility
easy adaptation to varying operational conditions
high efficiency at part load
Version Description Figure
6
RZA 11-0225
2000
1000
600
400
200
100
40
Pa
500
300
800
60
50
80
1500
150
1200
120
2000 3000 4000 m3/h
psF
1000 1200 1500
3000
2600
2300
2000
1800
1600
N
1/min 110
91
80
69
62
55
f
Hz
qV
0.15 0.2
500 600 800
m3/s
qV
0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0
ηesd (Nmax)
20
30
41 %
44
45
40
44
81
72
69
78
75
L
WA6;7
84 dB
P
S
0.3
0.4
0.6
0.5
0.15
0.2
kW
63 125 250 500 1000 2000 4000 8000 Hz
≤ 1.4 qVopt -9 -8 -4 -3 -4 -7 -12 -17 dB
> 1.4 qVopt -11 -12 -6 -4 -4 -6 -12 -21 dB
63 125 250 500 1000 2000 4000 8000 Hz
≤ 1.4 qVopt -10 -8 -5 -1 -5 -9 -16 -26 dB
> 1.4 qVopt -12 -12 -8 -1 -5 -8 -15 -27 dB
Direct driven centrifugal fans / RZA / Technical Data
Density of media 1.15 kg/m3.
Tolerance class 2 according to DIN 24166.
Measured in installation A according to ISO 5901 (unducted).
Technical Data
Determination of the Octave level
Inlet side
Discharge side Relative sound power level LWrel6 at octave band correction factors fc.
Relative sound power level LWrel7 at octave band correction factors fc.
Duty point
Duty point
Normal operation area
7
RZA 11-0225
RZA 11- V Hz kW kW A Hz 1/min °C kg
0225-4D 3 400 87 0.60 0.87 1.6 110 3000 40 17
RZA 11- V Hz kW A Hz 1/min 1/min °C kg
0225-4D-50 * 400 50 0.12 0.55 110 1460 3000 40 17
0225-4D-60 * 460 60 0.17 0.52 110 1740 3000 40 17
399
26
191 212
447
270
220
26
26
255
468
194 100
130
348
10.5 322
348
322
286
2 x 100
244
10
288
30
176
176
ZKF 15-1717 ZKE 15-1717 ZSG 03-0225
RZA 11- ESH 22- MM420 3AC 400V 6SE6400- ZBD 01-
0225-4D ESH 22-075-32 MM420 3AC 400V 0.75KW EMV B 6SE6400-3CC00-4AD3 ZBD 01-0506-A
RZA 11- ESH 22- MM420 3AC 400V 6SE6400- ZBD 01-
0225-4D-50 ESH 22-075-32 – – ZBD 01-0506-A
0225-4D-60 ESH 22-075-32 – – ZBD 01-0506-A
LG 0 LG 90 LG 180 LG 270 RD 0 RD 90 RD 180 RD 270
Direct driven centrifugal fans / RZA / Technical Data
Technical Data
Technical Data
Frequency Inverter Parameters
The following curves show the fans operating with frequency control:
The nominal frequency of the inverter is 87 Hz, i.e. the input frequency
400 V is increased to 87 Hz. The performance curves plot speed/frequency against volume and pressure, and the total efficiency
(ηinverter × ηmotor × ηimpeller) is expressed as a parabola.
The set up parameters for each inverter are provided in the accompanying literature.
Calculations formula
P
S = psF × qV / ηsS
L
Wokt7 = LWA6/7 + LWrel7
L
Wokt6 = LWA6/7 + LWrel6
3 = Stepless speed controllable via frequency converter
* = No speed control available
Dimensions in mm, Subject to change.
Accessories
Speed
control
Nominal
voltage
Nominal frequency
Nominal motor
power
Max. power
consumption
Max. output
current (FC)
Max. operating
frequency Max. fan speed
Max. media
temperature Weight
Speed
control
Nominal
voltage
Mains
frequency
Max. power
consumption
Nominal
motor
current
Max. operating
frequency
Nominal motor
speed Max. fan speed
Max. media
temperature Weight
Isolator
(metal casing)
Frequency Inverter Unit MM420
for 3~
Line Choke
for 3~ Anti Vibration Rubber Buffers
8
RZA 11-0250
63 125 250 500 1000 2000 4000 8000 Hz
≤ 1.4 qVopt -9 -8 -4 -3 -4 -7 -12 -17 dB
> 1.4 qVopt -11 -12 -6 -4 -4 -6 -12 -21 dB
63 125 250 500 1000 2000 4000 8000 Hz
≤ 1.4 qVopt -10 -8 -5 -1 -5 -9 -16 -26 dB
> 1.4 qVopt -12 -12 -8 -1 -5 -8 -15 -27 dB
2000
1000
600
400
200
100
40
Pa
500
300
800
60
50
80
1500
150
1200
120
2000 3000 4000 m3/h
psF
1000 1200 1500 5000
3010
2600
2300
2000
1700
1500
N
1/min 110
90
79
69
59
52
f
Hz
qV
2.0
600 800
m3/s
qV
0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0
ηesd (Nmax)
20
40
42 % 46
48
30
46
80
83
86
68
71
77
74 L
WA6;7
89 dB
P
S
0.3
0.2
1.0
0.4
0.6
0.5
0.8
kW
Direct driven centrifugal fans / RZA / Technical Data
Density of media 1.15 kg/m3.
Tolerance class 2 according to DIN 24166.
Measured in installation A according to ISO 5901 (unducted).
Technical Data
Determination of the Octave level
Inlet side
Discharge side Relative sound power level LWrel6 at octave band correction factors fc.
Relative sound power level LWrel7 at octave band correction factors fc.
Duty point
Duty point
Normal operation area
9
RZA 11-0250
RZA 11- V Hz kW kW A Hz 1/min °C kg
0250-4D 3 400 87 0.95 1.4 2.5 110 3010 40 21
RZA 11- V Hz kW A Hz 1/min 1/min °C kg
0250-4D-50 * 400 50 0.21 0.90 110 1460 3010 40 21
0250-4D-60 * 460 60 0.29 0.87 110 1740 3010 40 21
438
28
206 234
490
270
220
28
28
282
511
210 110
130
381
10.5 356
382
356
320
3 x 100
244
10
322
30
194
ZKF 15-1818 ZKE 15-1818 ZSG 03-0250
LG 0 LG 90 LG 180 LG 270 RD 0 RD 90 RD 180 RD 270
RZA 11- ESH 22- MM420 3AC 400V 6SE6400- ZBD 01-
0250-4D ESH 22-075-32 MM420 3AC 400V 1.10KW EMV B 6SE6400-3CC00-4AD3 ZBD 01-0506-A
RZA 11- ESH 22- MM420 3AC 400V 6SE6400- ZBD 01-
0250-4D-50 ESH 22-075-32 – – ZBD 01-0506-A
0250-4D-60 ESH 22-075-32 – – ZBD 01-0506-A
Direct driven centrifugal fans / RZA / Technical Data
Technical Data
Technical Data
Frequency Inverter Parameters
The following curves show the fans operating with frequency control:
The nominal frequency of the inverter is 87 Hz, i.e. the input frequency
400 V is increased to 87 Hz. The performance curves plot speed/frequency against volume and pressure, and the total efficiency
(ηinverter × ηmotor × ηimpeller) is expressed as a parabola.
The set up parameters for each inverter are provided in the accompanying literature.
Calculations formula
P
S = psF × qV / ηsS
L
Wokt7 = LWA6/7 + LWrel7
L
Wokt6 = LWA6/7 + LWrel6
3 = Stepless speed controllable via frequency converter
* = No speed control available
Dimensions in mm, Subject to change.
Accessories
Speed
control
Nominal
voltage
Nominal frequency
Nominal motor
power
Max. power
consumption
Max. output
current (FC)
Max. operating
frequency Max. fan speed
Max. media
temperature Weight
Speed
control
Nominal
voltage
Mains
frequency
Max. power
consumption
Nominal
motor
current
Max. operating
frequency
Nominal motor
speed Max. fan speed
Max. media
temperature Weight
Isolator
(metal casing)
Frequency Inverter Unit MM420
for 3~
Line Choke
for 3~ Anti Vibration Rubber Buffers
10
RZA 11-0280
63 125 250 500 1000 2000 4000 8000 Hz
≤ 1.4 qVopt -7 -3 -2 -1 -4 -10 -15 -21 dB
> 1.4 qVopt -12 -7 -5 -1 -5 -9 -13 -21 dB
63 125 250 500 1000 2000 4000 8000 Hz
≤ 1.4 qVopt -4 -8 -6 -1 -5 -11 -15 -24 dB
> 1.4 qVopt -8 -12 -8 -1 -5 -9 -13 -23 dB
2000
1000
600
400
200
100
40
Pa
500
300
800
60
50
80
1500
150
1200
120
2000 3000 4000 m3/h
psF
1000 1200 1500 5000
2900
2700
2300
1900
1700
1500
N
1/min 100
93
79
65
58
51
f
Hz
qV
1.5
800
m3/s
qV
0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0
6000
1400 48
2100 72
2500 86
ηesd (Nmax)
20
40
44 %
50
52
30
50
81
84
87
72
78
75 L
WA6;7
90
93 dB
P
S
0.3
1.3
1.0
0.4
0.6
0.5
0.8
kW
Direct driven centrifugal fans / RZA / Technical Data
Density of media 1.15 kg/m3.
Tolerance class 2 according to DIN 24166.
Measured in installation A according to ISO 5901 (unducted).
Technical Data
Determination of the Octave level
Inlet side
Discharge side Relative sound power level LWrel6 at octave band correction factors fc.
Relative sound power level LWrel7 at octave band correction factors fc.
Duty point
Duty point
Normal operation area
11
RZA 11-0280
RZA 11- V Hz kW kW A Hz 1/min °C kg
0280-4D 3 400 87 1.50 1.9 3.7 100 2900 40 29
RZA 11- V Hz kW A Hz 1/min 1/min °C kg
0280-4D-50 * 400 50 0.33 1.36 100 1480 2900 40 29
0280-4D-60 * 460 60 0.49 1.35 100 1770 2900 40 29
484
30
226 263
548
270
220
30
30
315
570
236 123
130
421
10.5 395
421
395
358
3 x 100
286
10
361
30
216
222
ZKF 15-1919 ZKE 15-1919 ZSG 03-0280
LG 0 LG 90 LG 180 LG 270 RD 0 RD 90 RD 180 RD 270
RZA 11- ESH 22- MM420 3AC 400V 6SE6400- ZBD 01-
0280-4D ESH 22-075-32 MM420 3AC 400V 1.50KW EMV B 6SE6400-3CC00-6AD3 ZBD 01-0506-A
RZA 11- ESH 22- MM420 3AC 400V 6SE6400- ZBD 01-
0280-4D-50 ESH 22-075-32 – – ZBD 01-0506-A
0280-4D-60 ESH 22-075-32 – – ZBD 01-0506-A
Direct driven centrifugal fans / RZA / Technical Data
Technical Data
Technical Data
Frequency Inverter Parameters
The following curves show the fans operating with frequency control:
The nominal frequency of the inverter is 87 Hz, i.e. the input frequency
400 V is increased to 87 Hz. The performance curves plot speed/frequency against volume and pressure, and the total efficiency
(ηinverter × ηmotor × ηimpeller) is expressed as a parabola.
The set up parameters for each inverter are provided in the accompanying literature.
Calculations formula
P
S = psF × qV / ηsS
L
Wokt7 = LWA6/7 + LWrel7
L
Wokt6 = LWA6/7 + LWrel6
3 = Stepless speed controllable via frequency converter
* = No speed control available
Dimensions in mm, Subject to change.
Accessories
Speed
control
Nominal
voltage
Nominal frequency
Nominal motor
power
Max. power
consumption
Max. output
current (FC)
Max. operating
frequency Max. fan speed
Max. media
temperature Weight
Speed
control
Nominal
voltage
Mains
frequency
Max. power
consumption
Nominal
motor
current
Max. operating
frequency
Nominal motor
speed Max. fan speed
Max. media
temperature Weight
Isolator
(metal casing)
Frequency Inverter Unit MM420
for 3~
Line Choke
for 3~ Anti Vibration Rubber Buffers
12
RZA 11-0315
63 125 250 500 1000 2000 4000 8000 Hz
≤ 1.4 qVopt -7 -3 -2 -1 -4 -10 -15 -21 dB
> 1.4 qVopt -12 -7 -5 -1 -5 -9 -13 -21 dB
63 125 250 500 1000 2000 4000 8000 Hz
≤ 1.4 qVopt -4 -8 -6 -1 -5 -11 -15 -24 dB
> 1.4 qVopt -8 -12 -8 -1 -5 -9 -13 -23 dB
2000
1000
600
400
200
100
40
Pa
500
300
800
60
50
80
1500
150
1200
120
2000 3000 4000 m3/h
psF
1000 1200 1500 5000 6000 8000
2750
2300
2100
1900
1700
1500
1300
N
1/min 95
86
79
72
65
58
52
f
Hz
qV
2500
45
m3/s
qV
0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.5 2.0
83
86
89
71
74
80
77 L
WA6;7
92 dB
P
S
0.3
2.0
1.0
0.4
0.6
0.5
0.8
kW
1.5
2.5 η
esd (Nmax)
20
40
47 %
52
54
30
50
Direct driven centrifugal fans / RZA / Technical Data
Density of media 1.15 kg/m3.
Tolerance class 2 according to DIN 24166.
Measured in installation A according to ISO 5901 (unducted).
Technical Data
Determination of the Octave level
Inlet side
Discharge side Relative sound power level LWrel6 at octave band correction factors fc.
Relative sound power level LWrel7 at octave band correction factors fc.
Duty point
Duty point
Normal operation area
13
RZA 11-0315
RZA 11- V Hz kW kW A Hz 1/min °C kg
0315-4D 3 400 87 2.20 2.9 5.3 95 2750 40 36
RZA 11- V Hz kW A Hz 1/min 1/min °C kg
0315-4D-50 * 400 50 0.54 1.89 95 1480 2750 40 36
0315-4D-50 * 460 60 0.82 1.94 95 1770 2750 40 36
536
33
247 294
603
270
220
33
33
355
624
253 139
130
463
10.5 438
464
438
401
3 x 100
286
10
404
30
242
ZKF 15-2020 ZKE 15-2020 ZSG 03-0315
LG 0 LG 90 LG 180 LG 270 RD 0 RD 90 RD 180 RD 270
RZA 11- ESH 22- MM420 3AC 400V 6SE6400- ZBD 01-
0315-4D ESH 22-075-32 MM420 3AC 400V 2.20KW EMV B 6SE6400-3CC01-0BD3 ZBD 01-0506-A
RZA 11- ESH 22- MM420 3AC 400V 6SE6400- ZBD 01-
0315-4D-50 ESH 22-075-32 – – ZBD 01-0506-A
0315-4D-60 ESH 22-075-32 – – ZBD 01-0506-A
Direct driven centrifugal fans / RZA / Technical Data
Technical Data
Technical Data
Frequency Inverter Parameters
The following curves show the fans operating with frequency control:
The nominal frequency of the inverter is 87 Hz, i.e. the input frequency
400 V is increased to 87 Hz. The performance curves plot speed/frequency against volume and pressure, and the total efficiency
(ηinverter × ηmotor × ηimpeller) is expressed as a parabola.
The set up parameters for each inverter are provided in the accompanying literature.
Calculations formula
P
S = psF × qV / ηsS
L
Wokt7 = LWA6/7 + LWrel7
L
Wokt6 = LWA6/7 + LWrel6
3 = Stepless speed controllable via frequency converter
* = No speed control available
Dimensions in mm, Subject to change.
Accessories
Speed
control
Nominal
voltage
Nominal frequency
Nominal motor
power
Max. power
consumption
Max. output
current (FC)
Max. operating
frequency Max. fan speed
Max. media
temperature Weight
Speed
control
Nominal
voltage
Mains
frequency
Max. power
consumption
Nominal
motor
current
Max. operating
frequency
Nominal motor
speed Max. fan speed
Max. media
temperature Weight
Isolator
(metal casing)
Frequency Inverter Unit MM420
for 3~
Line Choke
for 3~ Anti Vibration Rubber Buffers
14
RZA 11-0355
63 125 250 500 1000 2000 4000 8000 Hz
≤ 1.4 qVopt -9 -2 -3 0 -7 -9 -15 -25 dB
> 1.4 qVopt -12 -6 -6 0 -7 -7 -13 -25 dB
63 125 250 500 1000 2000 4000 8000 Hz
≤ 1.4 qVopt -5 -7 -5 -1 -6 -9 -16 -26 dB
> 1.4 qVopt -7 -11 -8 -1 -6 -8 -13 -26 dB
2000
1000
600
400
200
100
40
Pa
500
300
800
60
50
80
1500
150
1200
120
2000 3000 4000 m3/h
psF
1500 5000 6000 8000
2620
2200
2000
1800
1600
1400
1200
N
1/min 90
83
76
69
62
55
48
f
Hz
qV
2400
42
m3/s
qV
0.5 0.6 0.7 0.8 0.9 1.0 1.5 2.0 3.0
10000
ηesd (Nmax)
30
50
53 %
56
58
40
56
20
83
86
89
71
74
80
77
L
WA6;7
95 dB
92
P
S
2.7
2.0
1.0
0.4
0.6
0.5
0.8
kW
1.5
Direct driven centrifugal fans / RZA / Technical Data
Density of media 1.15 kg/m3.
Tolerance class 2 according to DIN 24166.
Measured in installation A according to ISO 5901 (unducted).
Technical Data
Determination of the Octave level
Inlet side
Discharge side Relative sound power level LWrel6 at octave band correction factors fc.
Relative sound power level LWrel7 at octave band correction factors fc.
Duty point
Duty point
Normal operation area
15
RZA 11-0355
RZA 11- V Hz kW kW A Hz 1/min °C kg
0355-4D 3 400 87 3.60 4.6 7.9 90 2620 40 48
RZA 11- V Hz kW A Hz 1/min 1/min °C kg
0355-4D-50 * 400 50 0.79 2.20 90 1480 2620 40 48
0355-4D-60 * 460 60 1.3 2.40 90 1770 2620 40 48
598
36
273 329
668
270
220
36
36
297
689
275 157
130
513
10.5 487
513
487
450
4 x 100
334
10
453
30
271
275
ZKF 15-2121 ZKE 15-2121 ZSG 03-0355
LG 0 LG 90 LG 180 LG 270 RD 0 RD 90 RD 180 RD 270
RZA 11- ESH 22- MM420 3AC 400V 6SE6400- ZBD 01-
0355-4D ESH 22-075-32 MM420 3AC 400V 4.00KW EMV B 6SE6400-3CC01-4BD3 ZBD 01-0606-A
RZA 11- ESH 22- MM420 3AC 400V 6SE6400- ZBD 01-
0355-4D-50 ESH 22-075-32 – – ZBD 01-0606-A
0355-4D-60 ESH 22-075-32 – – ZBD 01-0606-A
Direct driven centrifugal fans / RZA / Technical Data
Technical Data
Technical Data
Frequency Inverter Parameters
The following curves show the fans operating with frequency control:
The nominal frequency of the inverter is 87 Hz, i.e. the input frequency
400 V is increased to 87 Hz. The performance curves plot speed/frequency against volume and pressure, and the total efficiency
(ηinverter × ηmotor × ηimpeller) is expressed as a parabola.
The set up parameters for each inverter are provided in the accompanying literature.
Calculations formula
P
S = psF × qV / ηsS
L
Wokt7 = LWA6/7 + LWrel7
L
Wokt6 = LWA6/7 + LWrel6
3 = Stepless speed controllable via frequency converter
* = No speed control available
Dimensions in mm, Subject to change.
Accessories
Speed
control
Nominal
voltage
Nominal frequency
Nominal motor
power
Max. power
consumption
Max. output
current (FC)
Max. operating
frequency Max. fan speed
Max. media
temperature Weight
Speed
control
Nominal
voltage
Mains
frequency
Max. power
consumption
Nominal
motor
current
Max. operating
frequency
Nominal motor
speed Max. fan speed
Max. media
temperature Weight
Isolator
(metal casing)
Frequency Inverter Unit MM420
for 3~
Line Choke
for 3~ Anti Vibration Rubber Buffers
16
RZA 11-0400
63 125 250 500 1000 2000 4000 8000 Hz
≤ 1.4 qVopt -9 -2 -3 0 -7 -9 -15 -25 dB
> 1.4 qVopt -12 -6 -6 0 -7 -7 -13 -25 dB
63 125 250 500 1000 2000 4000 8000 Hz
≤ 1.4 qVopt -5 -7 -5 -1 -6 -9 -16 -26 dB
> 1.4 qVopt -7 -11 -8 -1 -6 -8 -13 -26 dB
2000
1000
600
400
200
100
40
Pa
500
300
800
60
50
80
1500
150
1200
120
2000 3000 4000 m3/h
psF
5000 6000 8000
2330
2000
1800
1600
1400
1300
1200
N
1/min 80
76
69
62
55
48
45
f
Hz
qV
2200
41
m3/s
qV
0.6 0.7 0.8 0.9 1.0 1.5 2.0
10000 12000
3.0
1100 38
15000
4.0
83
86
89
74
80
 

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