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On-Load Tap-Changer VACUTAP VR® I II III/VR® I HD Technical Data 2188029/02 EN © All rights reserved by Maschinenfabrik Reinhausen Dissemination and reproduction of this document and use and disclosure of its content are strictly prohibited unless expressly permitted. Infringements will result in...
On-Load Tap-Changer VACUTAP VR® I II III/VR® I HD Technical Data 2188029/02 EN © All rights reserved by Maschinenfabrik Reinhausen Dissemination and reproduction of this document and use and disclosure of its content are strictly prohibited unless expressly permitted. Infringements will result in liability for compensation. All rights reserved in the event of the granting of patents, utility models or designs. The product may have been altered since this document was published. We reserve the right to change the technical data, design and scope of supply. Generally the information provided and agreements made when processing the individual quotations and orders are binding. The original operating instructions were written in German. Table of contents Table of contents 1 General................................................................................................................................ 7 1.1 On-load tap-changer designations...................................................................................................... 7 1.2 Summary of the technical data........................................................................................................... 9 1.3 Rated insulation level........................................................................................................................ 16 2 Technical data.................................................................................................................. 17 2.1 Step capacity diagram VRC and VRE.............................................................................................. 17 2.2 Step capacity diagram VRD, VRF, VRG*......................................................................................... 17 2.3 Step capacity diagram VRC, VRE electrical arc furnace operation)*................................................ 18 2.4 Step capacity diagram VRD, VRF, VRG* (electrical arc furnace operation)**.................................. 18 2.5 Step capacity diagram VRC/VRE I HD............................................................................................. 19 2.6 Step capacity diagram VRD/VRF/VRG* I HD................................................................................... 19 2.7 Step capacity diagram VRC/VRE I HD (electrical arc furnace operation)*....................................... 20 2.8 Step capacity diagram VRD/VRF/VRG* I HD (electrical arc furnace operation)**............................ 20 2.9 Rated withstand voltages of the internal insulation........................................................................... 21 2.10 On-load tap-changer VACUTAP® VRC with multiple coarse change-over selector......................... 24 3 Special designs................................................................................................................ 26 3.1 Parallel bridges for parallel connections........................................................................................... 26 3.2 On-load tap-changer combination VACUTAP® VRC I/VR II / VRF I/VRF II for delta connection.... 26 3.3 On-load tap-changer VACUTAP® VRC III 700 Y, VRC I 701/1001/1301 und VRC I HD 701/1001/1301 with multiple coarse change-over selector (up to max. of 5 coarse tap con- nections)........................................................................................................................................... 27 4 Appendix........................................................................................................................... 28 4.1 VACUTAP® VRC/VRE type overview (727017)............................................................................... 28 4.2 VACUTAP® VRD/VRF/VRG, type overview (727016)..................................................................... 30 4.3 VACUTAP® VR, basic connection diagrams, designation of tap selector connection contacts accord- ing to MR standard (719037)............................................................................................................ 32 4.4 VACUTAP® VRF I 1001, VRD/VRF I 1301, VRF I 1001 HD, VRD/VRF I HD 1301, dimensional drawing (899805).............................................................................................................................. 34 4.5 VACUTAP® VRF I 1001/1301 (Um 362 kV), VRF I HD 1001/1301 (Um 362 kV), dimensional draw- ing (899806)...................................................................................................................................... 36 4.6 VACUTAP® VRG I 1001/1301, VRG I HD 1001/1301, dimensional drawing (899810)................... 38 4.7 VACUTAP® VRG I 1001/1301 (Um 362 kV), VRG I HD 1001/1301 (Um 362 kV), dimensional draw- ing (899811)...................................................................................................................................... 40 4.8 VACUTAP® VRF I 1601, 72.5...300 kV, dimensional drawing (786915).......................................... 42 4.9 VACUTAP® VRF I 1601, 362 kV, dimensional drawing (786916).................................................... 44 4.10 VACUTAP® VRG I 1601, 72.5...300 kV, dimensional drawing (786917)......................................... 46 4.11 VACUTAP® VRG I 1601, 362 kV, dimensional drawing (786918)................................................... 48 4.12 VACUTAP® VRF I 2602, dimensional drawing (727033)................................................................. 50 Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 3 Table of contents 4.13 VACUTAP® VRF I 2602 (Um 362 kV), dimensional drawing (727034)............................................ 52 4.14 VACUTAP® VRG I 2602, dimensional drawing (727035)................................................................ 54 4.15 VACUTAP® VRG I 2602 (Um 362 kV), dimensional drawing (727036)........................................... 56 4.16 VACUTAP® VRC I 401/551/701-0/W/G, VRC I HD 401/551/701-0/W/G, dimensional drawing (899990)............................................................................................................................................ 58 4.17 VACUTAP® VRE I 701-0/W/G, VRE I HD 701-0/W/G, dimensional drawing (899991)................... 59 4.18 VACUTAP® VRC I 1001-0/W/G, VRC I HD 1001-0/W/G, dimensional drawing (718306)............... 60 4.19 VACUTAP® VRE I 1001-0/W/G, VRE I HD 1001-0/W/G, dimensional drawing (718307)............... 61 4.20 VACUTAP® VRC I 1301-0/W/G, VRC I HD 1301-0/W/G, dimensional drawing (718308)............... 62 4.21 VACUTAP® VRE I 1301-0/W/G, VRE I HD 1301-0/W/G, dimensional drawing (727040)............... 63 4.22 VACUTAP® VRC I 701/VRC I HD 701 with multiple coarse change-over selector, dimensional draw- ing (718316)...................................................................................................................................... 64 4.23 VACUTAP® VRC I 1001/VRC I HD 1001 with multiple coarse change-over selector, dimensional drawing (718318).............................................................................................................................. 65 4.24 VACUTAP® VRC I 1301/VRC I HD 1301 with multiple coarse change-over selector, dimensional drawing (718321).............................................................................................................................. 66 4.25 VACUTAP® VRF II 1302, dimensional drawing (899814)................................................................ 67 4.26 VACUTAP® VRF II 1302 (Um 362 kV), dimensional drawing (899815)........................................... 69 4.27 VACUTAP® VRG II 1302, dimensional drawing (899816)............................................................... 71 4.28 VACUTAP® VRG II 1302 (Um 362 kV), dimensional drawing (899817).......................................... 73 4.29 VACUTAP® VRC III 400/550/700 Y-0/W/G, dimensional drawing (899981).................................... 75 4.30 VACUTAP® VRE III 700 Y-0/W/G, dimensional drawing (899982).................................................. 76 4.31 VACUTAP® VRD/VRF III 1000/1300 Y, dimensional drawing (899803).......................................... 77 4.32 VACUTAP® VRG III 1000/1300 Y, dimensional drawing (899804).................................................. 79 4.33 VACUTAP® VRC II 402/552/702-0/W/G, dimensional drawing (899989)........................................ 81 4.34 VACUTAP® VRC III 700 Y with multiple coarse change-over selector, dimensional drawing (718314)........................................................................................................................................................... 82 4.35 VACUTAP® VRC III 400/550/700 Y-10191W, detailed connection diagram (ZS030355)................ 83 4.36 VACUTAP® VRE III 700 Y-10193W, detailed connection diagram (ZS030356).............................. 84 4.37 VACUTAP® VRD III 1300 Y-C/D-10191W, detailed connection diagram (ZS030201).................... 85 4.38 VACUTAP® VRG III 1300 Y-E-14271G, detailed connection diagram (ZS030202)........................ 86 4.39 VACUTAP® VRC/VRE, installation drawing (899992)..................................................................... 87 4.40 VACUTAP® VRD/VRF, installation drawing (899898)...................................................................... 88 4.41 VACUTAP® VRG, installation drawing (899945).............................................................................. 89 4.42 VACUTAP® VRC/VRE, connecting leads 3W, 1G, 3G, dimensional drawing (723590).................. 90 4.43 VACUTAP® VR, on-load tap-changer head (720847)...................................................................... 91 4.44 VACUTAP® VR, on-load tap-changer head with flange for pressure relief device (899946)........... 92 4.45 VACUTAP® VR, special design for bell-type tank installation (720781)........................................... 93 4.46 VACUTAP® VRC/VRE, arrangement of contacts on tap selector, tap selector division 10…22 (899993)............................................................................................................................................ 94 4.47 VACUTAP® VRC/VRE I 1001/1301, VRC/VRE I HD 1001/1301, bridges to parallel connection of tap selector connection contacts (727025)............................................................................................. 95 4 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 Table of contents 4.48 VACUTAP® VR, installation position of tap selector connection contacts (727042)........................ 96 4.49 VACUTAP® VR installation position of tap selector connection contacts (743603)......................... 97 4.50 VACUTAP® VRC III 400/550/700 Y, VRE III 700 Y, arrangement of tap selector (899994)............ 98 4.51 VACUTAP® VRC I 401/551/701, VRC I HD 401/551/701, VRE I 701, VRE I HD 701, arrangement of tap selector (899995)........................................................................................................................ 99 4.52 VACUTAP® VRC/VRE I 1001, VRC/VRE I HD 1001, arrangement of tap selector (899996)........ 100 4.53 VACUTAP® VRC/VRE I 1301, VRC/VRE I HD 1301, arrangement of tap selector (727043)........ 101 4.54 VACUTAP® VR, variants of the on-load tap-changer head, gear unit swivel range and drive direction (721216).......................................................................................................................................... 102 4.55 VACUTAP® VR, swivel range of gear unit (728474)...................................................................... 103 4.56 VACUTAP® VR, horizontal drive shaft (899958)............................................................................ 104 4.57 VACUTAP® VRG, horizontal drive shaft, tap selector size (899959)............................................. 105 4.58 VACUTAP® VRC/VRE III, tie-in resistors with or without potential switch (899972)...................... 106 4.59 VACUTAP® VRC II, tie-in resistors with or without potential switch (899986)............................... 107 4.60 VACUTAP® VRC/VRE I, VRC/VRE I HD, tie-in resistors with or without potential switch (718447).... 108 4.61 VACUTAP® VRC/VRE, tie-in resistor cylinder with potential switch without tie-in resistors (899973)......................................................................................................................................................... 109 4.62 VACUTAP® VRD/VRF/VRG, fine tap selector connection contact and change-over selector connec- tion contact (899941)...................................................................................................................... 110 4.63 VACUTAP® VRF, bridges to parallel connection of tap selector connection contacts (786919)... 111 4.64 VACUTAP® VRG, bridges to parallel connection of tap selector connection contacts (786920)... 112 4.65 VACUTAP® VRD/VRF, tap selector size C/D, tap selector bottom depiction of the lowest live parts (899968).......................................................................................................................................... 113 4.66 VACUTAP® VRG, tap selector size E, tap selector bottom depiction of the lowest live parts (899969)......................................................................................................................................................... 114 4.67 VACUTAP® VRD/VRF, arrangement of potential switches/tie-in resistors (899950)..................... 115 4.68 VACUTAP® VRD/VRF I WP, VRD/VRF I HD WP, tap selector size C/D, tie-in resistor cylinder and potential switch (899951)................................................................................................................ 116 4.69 VACUTAP® VRD/VRF I WR, VRD/VRF I HD WR, tap selector size C/D, tie-in resistor cylinder (899955).......................................................................................................................................... 117 4.70 VACUTAP® VRD/VRF III WP, tap selector size C/D, tie-in resistor cylinder and potential switch (899962).......................................................................................................................................... 118 4.71 VACUTAP® VRD/VRF III WR, tap selector size C/D, tie-in resistor cylinder (899964).................. 119 4.72 VACUTAP® VRD/VRF I/III WS, VRD/VRF I HD WS, tap selector size C/D, potential switch (899966)......................................................................................................................................................... 120 4.73 VACUTAP® VRG I/III WS, VRG I HD WS, tap selector size E, potential switch (899967)............. 121 4.74 VACUTAP® VRD/VRF I WP, VRD/VRF I HD WP, tap selector size C/D, tie-in resistor cylinder and potential switch (899952)................................................................................................................ 122 4.75 VACUTAP® VRD/VRF I WP, VRD/VRF I HD WP, tap selector size C/D, tie-in resistor cylinder and potential switch (899953)................................................................................................................ 123 4.76 VACUTAP® VRD/VRF I WP, VRD/VRF I HD WP, tap selector size C/D, tie-in resistor cylinder and potential switch (899954)................................................................................................................ 124 4.77 VACUTAP® VRD/VRF I WR, VRD/VRF I HD WR, tap selector size C/D, tie-in resistor cylinder (899960).......................................................................................................................................... 125 4.78 VACUTAP® VRD/VRF I WR, VRD/VRF I HD WR, tap selector size C/D, tie-in resistor cylinder (899956).......................................................................................................................................... 126 Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 5 Table of contents 4.79 VACUTAP® VRD/VRF I WR, VRD/VRF I HD WR, tap selector size C/D, tie-in resistor cylinder (899961).......................................................................................................................................... 127 4.80 VACUTAP® VRD/VRF III WP, tap selector size C/D, tie-in resistor cylinder and potential switch (899963).......................................................................................................................................... 128 4.81 VACUTAP® VRD/VRF III WR, tap selector size C/D, tie-in resistor cylinder and potential switch (899965).......................................................................................................................................... 129 4.82 VACUTAP® VRF II 1302 WP, tap selector size C/D, tie-in resistor cylinder (728691)................... 130 4.83 VACUTAP® VRF II 1302 WR, tap selector size C/D, tie-in resistor cylinder (728690)................... 131 4.84 VACUTAP® VRF I 2602 WP, tap selector size C/D, tie-in resistor cylinder (729538).................... 132 4.85 VACUTAP® VRF I 2602 WR, tap selector size C/D, tie-in resistor cylinder (729537).................... 133 6 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 1 General 1 General 1.1 On-load tap-changer designations Example: VRF I 1301 Y – 245 / C– 10 19 1W R VRF = Type VACUTAP® VRC VRC VACUTAP® VRE VRE VACUTAP® VRD VRD VACUTAP® VRF VRF VACUTAP® VRG VRG I = Number of phases 1 phase I 2 phases II 3 phases III 1301 = Ium [A] VRC 400 VRC 550 VRC, VRE 700 VRC, VRE, VRD, VRF, VRG 1000 VRC, VRE, VRD, VRF, VRG 1300 VRF, VRG 1600 VRF, VRG 2600 1301 = Number of parallel main switching con- 1 (3-phase Y) 0 tacts 1 (1-phase) 1 2 (1-phase) 2 3 (1-phase) 3 Y = Applications For use with neutral point only Y 245 = Um [kV] VRC, VRE, VRD, VRF, VRG 72.5 VRC, VRE, VRD, VRF, VRG 123 VRC, VRE, VRD, VRF, VRG 170 VRC, VRE, VRD, VRF, VRG 245 VRC, VRE, VRD, VRF, VRG 300 VRF, VRG 362 C = Tap selector size VRC, VRE B VRC VRE, VRD, VRF C VRC, VRE, VRD, VRF D VRC, VRE DE VRG E 10 = Maximum number of operating posi- 10 10 tions without change-over selector 12 12 14 14 16 16 18 18 Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 7 1 General 19 = Maximum number of operating posi- 19 19 tions with change-over selector 23 23 27 27 31 31 35 35 1W = Mid-positions 0 mid-positions (without change-over 0 selector) 1 mid-position 1 3 mid-positions 3 1W = Change-over selector Reversing change-over selector W Coarse tap connection G R = Tie-in measures Tie-in resistor R Potential switch S Potential switch with tie-in resistor P Table 1: Explanation of type designation If intended to be used in applications with increased number of tap-change operations, the on-load tap-changer is also available as VACU- TAP® VR I HD. 8 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 1 General 1.2 Summary of the technical data VACUTAP® VRC/VRD I On-load tap-changer VRC I 401 VRC I 551 VRC I 701 VRC I 1001 VRC I 1301 VRD I 1301 Number of phases 1 1 1 1 1 and application Maximum rated 400 550 700 1000 1300 through current Ium(in A) Rated short-time cur- 6 8 10 12 15 rent (kA) Rated duration of 3 3 3 3 3 short-circuits (s) Rated peak withstand 15 20 25 30 37.5 current (kA) Maximum rated step 3300 3300 3300 3300 3300 voltage Vin (V)1) Step capacity (PStN) 1320 1500 1500 1500 1500 (kVA) Table 2: Technical data for VACUTAP® VRC/VRD I 1) The maximum rated step voltage may be exceeded by 10 % due to over- excitation of the transformer if the step capacity is limited to its rated value. Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 9 1 General VACUTAP® VRE/VRF/VRG I On-load tap-changer VRE I 701 VRE I 1001 VRE I 1301 VRF I 1601 VRF I 26021) VRF I 1001 VRF I 1301 VRG I 1601 VRG I 26021) VRG I 1001 VRG I 1301 Number of phases 1 1 1 1 1 and application Maximum rated 700 1000 1300 1600 2600 through current Ium(in A) Rated short-time cur- 10 12 15 19 26 rent (kA) Rated duration of 3 3 3 3 3 short-circuits (s) Rated peak withstand 25 30 37.5 47.5 65 current (kA) Maximum rated step 4000 4000 4000 4000 4000 voltage Vin (V)2) Step capacity (PStN) 2800 3750 3750 3750 6000 (kVA) Table 3: Technical data for VACUTAP® VRE/VRF/VRG I 1) Forced current splitting by two parallel winding branches required (not available for VR I HD). 2) The maximum rated step voltage may be exceeded by 10 % due to over- excitation of the transformer if the step capacity is limited to its rated value. 10 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 1 General VACUTAP® VRC/VRF/VRG II On-load tap-changer VRC II 402 VRC II 552 VRC II 702 VRF II 1302 VRG II 1302 Number of phases and application 2 2 2 2 Maximum rated through current Ium(in 400 550 700 1300 A) Rated short-time current (kA) 6 8 10 15 Rated duration of short-circuits (s) 3 3 3 3 Rated peak withstand current (kA) 15 20 25 37.5 Maximum rated step voltage Vin (V)1) 3300 3300 3300 4000 Step capacity (PStN) (kVA) 1320 1500 1500 3000 Table 4: Technical data for VACUTAP® VRC/VRF/VRG II 1) The maximum rated step voltage may be exceeded by 10 % due to over- excitation of the transformer if the step capacity is limited to its rated value. Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 11 1 General VACUTAP® VRC/VRE III On-load tap-changer VRC III 400 Y VRC III 550 Y VRC III 700 Y VRE III 700 Y Number of phases and application 31) 31) 31) 31) Maximum rated through current Ium(in 400 550 700 700 A) Rated short-time current (kA) 6 8 10 10 Rated duration of short-circuits (s) 3 3 3 3 Rated peak withstand current (kA) 15 20 25 25 Maximum rated step voltage Vin (V)2) 3300 3300 3300 4000 Step capacity (PStN) (kVA) 1320 1500 1500 2800 Table 5: Technical data for VACUTAP® VRC/VRE III 1) neutral point 2) The maximum rated step voltage may be exceeded by 10 % due to over- excitation of the transformer if the step capacity is limited to its rated value. 12 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 1 General VACUTAP® VRD/VRF/VRG III On-load tap-changer VRD III 1000 Y VRD III 1300 Y VRF III 1000 Y VRF III 1300 Y VRG III 1000 Y VRG III 1300 Y 1) 1) Number of phases and appli- 3 3 31) 31) cation Maximum rated through cur- 1000 1300 1000 1300 rent Ium(in A) Rated short-time current (kA) 12 15 12 15 Rated duration of short-cir- 3 3 3 3 cuits (s) Rated peak withstand current 30 37.5 30 37.5 (kA) Maximum rated step voltage 3300 3300 4000 4000 Vin (V)2) Step capacity (PStN) (kVA) 1500 1500 3000 3000 Table 6: Technical data for VACUTAP® VRD/VRF/VRG III 1) neutral point 2) The maximum rated step voltage may be exceeded by 10 % due to over- excitation of the transformer if the step capacity is limited to its rated value. Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 13 1 General VACUTAP® VRC I HD On-load tap-changer VRC I HD VRC I HD VRC I HD VRC I HD VRC I HD 401 551 701 1001 1301 Number of phases 1 1 1 1 1 and application Maximum rated 400 550 700 1000 1300 through current Ium(in A) Rated short-time cur- 6 8 10 12 15 rent (kA) Rated duration of 3 3 3 3 3 short-circuits (s) Rated peak withstand 15 20 25 30 37.5 current (kA) Maximum rated step 3300 3300 3300 3300 3300 voltage Vin (V)1) Step capacity (PStN) 1320 1500 1500 1500 1500 (kVA) Table 7: Technical data for VACUTAP® VRC I HD 1) The maximum rated step voltage may be exceeded by 10 % due to over- excitation of the transformer if the step capacity is limited to its rated value. 14 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 1 General VACUTAP® VRE/VRD/VRF/VRG I HD On-load tap-changer VRE I HD 701 VRE I HD 1001 VRD I HD 1301 VRE I HD 1301 VRF I HD 1001 VRF I HD 1301 VRG I HD 1001 VRG I HD 1301 Number of phases and appli- 1 1 1 1 cation Maximum rated through cur- 700 1000 1300 1300 rent Ium(in A) Rated short-time current (kA) 10 12 15 15 Rated duration of short-cir- 3 3 3 3 cuits (s) Rated peak withstand current 25 30 37.5 37.5 (kA) Maximum rated step voltage 4000 4000 3300 4000 Vin (V)1) Step capacity (PStN) (kVA) 2800 3750 1500 3750 Table 8: Technical data for VACUTAP® VRE/VRD/VRF/VRG I HD 1) The maximum rated step voltage may be exceeded by 10 % due to over- excitation of the transformer if the step capacity is limited to its rated value. For all on-load tap-changer variants Rated frequency (in Hz) 50...60 Operating positions without change-over selector: maximum of 181) with change-over se- lector: maximum of 351) Oil compartment Pressure-tight up to 0.3 bar permanent differential pressure (test pres- sure 0.6 bar), head and cover of the on-load tap-changer are vacuum- proof Temperature range The on-load tap-changer VACUTAP® VR can be operated in the rated load range at oil temperatures of between – 25 °C and + 105 °C and overload up to + 115 °C according to IEC 60214-1. Dimensions Weight, displacement volume and oil content of the diverter switch oil compartment are shown in the relevant dimension drawings. Table 9: Technical data for VACUTAP® VR 1) For more operating positions, see chapter "Special designs [► 26]" Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 15 1 General 1.3 Rated insulation level Rated insulation level On-load tap-changer 72.5 kV…362 kV VRF/VRG I 1001; VRF/VRG I HD 1001 VRF/VRG I 1301; VRF/VRG I HD 1301 VRF/VRG II 1302 VRF/VRG I 1601 VRF/VRG I 2602 72.5 kV…300 kV VRC I 401/551/701; VRC I HD 401/551/701 VRC I 1001; VRC I HD 1001 VRC I 1301; VRC I HD 1301 VRE I 1001; VRE I HD 1001 VRE I 1301; VRE I HD 1301 VRD I 1301; VRD I HD 1301 VRE I 701; VRE I HD 701 VRC II 402/552/702 72.5 kV…245 kV VRC III 400/550/700 Y VRD III 1000 Y; VRD III 1300 Y VRE III 700 Y; VRF/VRG III 1000 Y VRF/VRG III 1300 Y Highest voltage for equipment Vm (kV)1) 72.5 123 170 245 300 362 Rated lightning impulse withstand voltage (kV, 350 550 750 1050 1050 1175 1.2/50 µs) Rated switching impulse voltage (kV) 850 850 950 Rated short-duration power frequency withstand 140 230 325 460 460 510 voltage (kV, 50 Hz, 1 min) 1) According to IEC 60214-1, chapter 3.57: highest effective value for phase- to-phase voltage in a three-phase system for which a on-load tap-changer is designed with respect to its insulation. 16 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 2 Technical data 2 Technical data 2.1 Step capacity diagram VRC and VRE Figure 1: Step capacities (rated voltage Vi, rated through current Iu) 2.2 Step capacity diagram VRD, VRF, VRG* * VRG: Versions identical to VRF but with tap selector size "E" Figure 2: Step capacities (rated step voltages Vi, rated through current Iu) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 17 2 Technical data 2.3 Step capacity diagram VRC, VRE electrical arc furnace op- eration)* * Please contact MR Figure 3: Step capacities electrical arc furnace and ladle furnace operation (EAF/LF), (rated step voltages Vi, rated through current Iu) 2.4 Step capacity diagram VRD, VRF, VRG* (electrical arc fur- nace operation)** * VRG: Versions identical to VRF but with tap selector size "E" ** Please contact MR Figure 4: Step capacities electrical arc furnace and ladle furnace operation (EAF/LF), (rated step voltages Vi, rated through current Iu) 18 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 2 Technical data 2.5 Step capacity diagram VRC/VRE I HD Figure 5: Step capacities (rated step voltages Vi, rated through current Iu) 2.6 Step capacity diagram VRD/VRF/VRG* I HD * VRG: Versions identical to VRF but with tap selector size "E" Figure 6: Step capacities (rated step voltage Vi, rated through current Iu) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 19 2 Technical data 2.7 Step capacity diagram VRC/VRE I HD (electrical arc furnace operation)* * Please contact MR Figure 7: Step capacities electrical arc furnace and ladle furnace operation (EAF/LF), (rated step voltage Vi, rated through current Iu) 2.8 Step capacity diagram VRD/VRF/VRG* I HD (electrical arc furnace operation)** * Please contact MR ** VRG: Versions identical to VRF but with tap selector size "E" Figure 8: Step capacities electrical arc furnace and ladle furnace operation (EAF/LF), (rated step voltage Vi, rated through current Iu) 20 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 2 Technical data 2.9 Rated withstand voltages of the internal insulation The following diagrams show the voltage stress present on the tap winding of the three primary basic connections of three-pole on-load tap-changers and single-pole on-load tap-changers. When selecting the on-load tap-changer, you must check that the highest stress on the tap selector does not exceed the related rated withstand vol- tages. without change-over selector with reversing change-over selector with coarse change-over selector in (+) posi- with coarse change-over selector in (-) position tion 1* Notice: Observe maximum rated lightning impulse withstand voltage stress at a0 in mid-position! a0 = between selected and preselected tap on the diverter switch a1 = between fine tap selector contacts of the winding of one tap position (connected or not connected) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 21 2 Technical data a = between start and end of a tapped winding and, in version with coarse winding, between start and end of a coarse winding Note for coarse tap selector connection (-) position of the change-over selector: When loading with impulse voltage, note the permissible withstand voltage "a" between the end of a coarse winding connected with the K fine tap selector contact and the fine tap selector contact at the end of the tapped winding of the same phase. b = between the fine tap selector contacts of different phases and between change-over selector con- tacts of different phases, which are connected with the beginning/end of a tapped winding or with a fine tap selector contact f = between diverter switch output terminal and ground Additionally for coarse tap selector connection in (+) position of the change-over selector: c1 = from one (-) change-over selector contact to take-off lead of the same phase c2 = between (-) change-over selector contacts of different phases Insulation distances Tap selector size C Tap selector size D1) Tap selector size E kV kV kV kV kV kV 1.2/50 µs 50 Hz 1.2/50 µs 50 Hz 1.2/50 µs 50 Hz 1 min 1 min 1 min a0 Maximum 20 Maximum 20 Maximum 20 1502) 1502) 1502) a1 150 30 150 30 150 30 a 400 85 5003) 110 670 180 b4) 400 100 5003) 150 670 180 c1 550 180 590 210 820 250 c24) 550 195 590 225 820 280 Table 10: On-load tap-changer VRD, VRF, VRG, rated withstand voltages of the internal on-load tap-changer insulation 1) Tap selectors according to basic connection diagram 10 09 1 W, 12 11 1W, 14 13 1 W are designed as 18 09 1 W, 18 11 1 W, 18 13 1 W. Tap se- lectors according to basic connection diagram 16 15 1 W and 18 17 1 W are not available. 2) Varistor response voltage at 1.2/50 µs lightning impulse: as of 55 kV (U100% (t)standardized ≠ U75%(t)standardized, residual voltage at 3 kA peak current: 70 kV 3) Higher values up to 550 kV on request 4) Insulation distance omitted for single-pole on-load tap-changers Insulation distan- Tap selector size Tap selector size Tap selector size Tap selector size ces B C D DE kV kV kV kV kV kV kV kV 1.2/50 50 Hz 1.2/50 50 Hz 1.2/50 50 Hz 1.2/50 50 Hz µs 1 min µs 1 min µs 1 min µs 1 min a0 Maxi- 20 Maxi- 20 Maxi- 20 Maxi- 20 mum mum mum mum 1501) 1501) 1501) 1501) a1 150 30 150 30 150 30 150 30 a 265 50 350 82 490 105 550 120 22 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 2 Technical data Insulation distan- Tap selector size Tap selector size Tap selector size Tap selector size ces B C D DE b2) 265 50 350 82 490 146 550 160 c1 485 143 545 178 590 208 660 230 c22) 495 150 550 182 590 225 660 250 Table 11: On-load tap-changer VRC, VRE, rated withstand voltages of the internal on-load tap-changer insulation 1) Varistor response voltage at 1.2/50 µs lightning impulse: as of 55 kV (U100% (t)standardized ≠ U75%(t)standardized, residual voltage at 3 kA peak current: 70 kV 2) Insulation distance omitted for single-pole on-load tap-changers The tap selector size (ID letters B, C, D, DE, E) characterizes the internal in- sulation of the tap selector, whose rated withstand voltages must be match- ed to the requirements of the transformer winding. The admissible maximum operating voltage on the individual tap selector distances corresponds to half the value of the above mentioned rated short- duration power frequency withstand voltages. without change-over selector with reversing change-over se- with coarse change-over selec- lector tor Tap-change Tap selector size Tap-change Tap selector size Tap-change Tap selector size operation operation operation 10050 B/C/D/DE 10071W B/C/D/DE 10071G B/C/D/DE 10060 B/C/D/DE 10081W B/C/D/DE 10081G B/C/D/DE 10070 B/C/D/DE 10091W B/C/D/DE 10091G B/C/D/DE 10080 B/C/D/DE 12101W B/C/D/DE 12101G B/C/D/DE 10090 B/C/D/DE 12111W B/C 12111G B/C 10100 B/C/D/DE 14111W D/DE 14111G D/DE 12110 B/C/D/DE 14121W B/C 14121G B/C 12120 B/C/D/DE 14131W B/C 14131G B/C 14130 B/C/D/DE 16121W D/DE 16121G D/DE 14140 B/C/D/DE 16131W D/DE 16131G D/DE 16150 B/C/D/DE 16141W B/C/D/DE 16141G B/C/D/DE 16160 B/C/D/DE 16151W B/C 16151G B/C 18170 B/C/D/DE 18151W D/DE 18151G D/DE 18180 B/C/D/DE 18161W B/C 18161G B/C 22190 B/C/D/DE 18171W B/C 18171G B/C 22200 B/C/D/DE 10191W B/C/D/DE 10191G B/C/D/DE 22210 B/C 12231W B/C/D/DE 12231G B/C/D/DE 22220 B/C 14271W B/C/D/DE 14271G B/C/D/DE 16311W B/C/D/DE 16311G B/C/D/DE 18351W B/C/D/DE 18351G B/C/D/DE Table 12: Available connections (also available as 3 W, 3 G) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 23 2 Technical data 2.10 On-load tap-changer VACUTAP® VRC with multiple coarse change-over selector Extremely fine voltage adjustment requires a great number of operating posi- tions which sometimes can only be achieved with a multiple coarse tapping arrangement. The multiple coarse change-over selector is attached to both sides of the fine tap selector. Multiple coarse change-over selector Figure 9: Designation and definition of insulation distances a0 = between selected and preselected tap on the diverter switch a1 = between fine tap selector contacts of the winding of one tap posi- tion (connected or not connected) a = between beginning and end of a tapped winding and between the connected K contact and any points of the tapped winding of the same phase b = between the fine tap selector contacts of different phases and be- tween the connected K contact of one phase and any points of the tapped winding of another phase c1 = between any coarse tappings of one phase to the diverter switch output terminal of the same phase c2 = between identically-named, unconnected coarse tappings of differ- ent phases d1 = between connected and adjacent coarse tap contacts in one phase d2 = between unconnected, adjacent coarse tap contacts in one phase d3 = between beginning and end of all coarse tap connections of one phase f = between diverter switch output terminal and ground 24 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 2 Technical data Insulation distan- Tap selector size B Tap selector size C Tap selector size D ces kV kV kV kV kV kV 1.2/50 µs 50 Hz 1.2/50 µs 50 Hz 1.2/50 µs 50 Hz 1 min. 1 min. 1 min. a0 Maximum 20 Maximum 20 Maximum 20 1501) 1501) 1501) a1 150 30 150 30 150 30 a 265 50 350 82 450 105 B2) 265 50 350 82 450 146 c1 455 127 525 165 590 210 c22) 455 127 525 165 590 215 d1 265 50 350 82 450 105 d2 350 82 450 105 450 105 d3 350 82 450 105 490 120 Table 13: On-load tap-changer VACUTAP® VRC with multiple coarse change-over selector, rated withstand voltages of the internal on-load tap-changer insulation 1) Varistor response voltage at 1.2/50 µs lightning impulse: as of 55 kV (U100% (t)standardized ≠ U75%(t)standardized, residual voltage at 3 kA peak current: 70 kV 2) Insulation distance omitted for single-pole on-load tap-changers The admissible maximum operating voltage on the individual tap selector distances corresponds to half the value of the above mentioned rated short- duration power frequency withstand voltages. Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 25 3 Special designs 3 Special designs 3.1 Parallel bridges for parallel connections Current division on the connection contacts of 2 tap selector planes only for on-load tap-changers VACUTAP® VR I 1001 [► 95], VACUTAP® VR I 1601 [► 111] and of 3 tap selector planes only for on-load tap-changers VACUTAP® VR I 1301 [► 95]. Parallel bridges on the tap selector connection contacts are then mandatory if the tap winding has been wound in two or more branches and each of these branch taps is connected to the contacts of the tap selector. This measure reliably prevents the following: ▪ Introduction of circulating currents into the current paths of tap selector and diverter switch ▪ Commutating arc on movable tap selector contact bridges ▪ Overvoltage between adjacent tap selector connection contacts con- nected in parallel 3.2 On-load tap-changer combination VACUTAP® VRC I/VR II / VRF I/VRF II for delta connection The on-load tap-changers VRC II 402, VRF II 1302 and VRG II 1302 can al- so be used with the single-pole on-load tap-changers VRC I 401, VRF I 1301 and VRG I 1301 as two-column on-load tap-changer combinations VRC I 401/VRC II 402, VRF I 1301/VRF II 1302 and VRG I 1301/ VRG II 1302 to set the voltage for transformer windings in delta connections (the same is true with VRC I 551/VRC II 552 und VRC I 701/VRC II 702). The tap developments for this should be provided as shown below. 26 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 3 Special designs Figure 10: On-load tap-changer combination VRC I 401 and VRC II 402 for delta con- nection a VRC I 401 b VRC II 402 3.3 On-load tap-changer VACUTAP® VRC III 700 Y, VRC I 701/1001/1301 und VRC I HD 701/1001/1301 with mul- tiple coarse change-over selector (up to max. of 5 coarse tap connections) Extremely fine voltage adjustment requires a great number of operating posi- tions which sometimes can only be achieved with a multiple coarse tapping arrangement. For instance, 107 operating positions can be obtained by using a coarse 5- tap winding and a tapped winding with 18 taps. The multiple coarse change-over selector is attached to both sides of the fine tap selector. The on-load tap-changers are available (on request) for Vm = 72.5 up to max. 300 kV and for 2...5 coarse tap connections (tap selector sizes B, C) or 2 and 3 coarse tap connections (tap selector size D). Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 27 4 Appendix 4 Appendix 4.1 VACUTAP® VRC/VRE type overview (727017) 28 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 29 4 Appendix 4.2 VACUTAP® VRD/VRF/VRG, type overview (727016) 30 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 31 4 Appendix 4.3 VACUTAP® VR, basic connection diagrams, designation of tap selector connection contacts according to MR standard (719037) 32 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 33 4 Appendix 4.4 VACUTAP® VRF I 1001, VRD/VRF I 1301, VRF I 1001 HD, VRD/VRF I HD 1301, dimensional drawing (899805) 34 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 35 4 Appendix 4.5 VACUTAP® VRF I 1001/1301 (Um 362 kV), VRF I HD 1001/1301 (Um 362 kV), dimensional drawing (899806) 36 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 37 4 Appendix 4.6 VACUTAP® VRG I 1001/1301, VRG I HD 1001/1301, dimen- sional drawing (899810) 38 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 39 4 Appendix 4.7 VACUTAP® VRG I 1001/1301 (Um 362 kV), VRG I HD 1001/1301 (Um 362 kV), dimensional drawing (899811) 40 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 41 4 Appendix 4.8 VACUTAP® VRF I 1601, 72.5...300 kV, dimensional drawing (786915) 42 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 43 4 Appendix 4.9 VACUTAP® VRF I 1601, 362 kV, dimensional drawing (786916) 44 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 45 4 Appendix 4.10 VACUTAP® VRG I 1601, 72.5...300 kV, dimensional drawing (786917) 46 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 47 4 Appendix 4.11 VACUTAP® VRG I 1601, 362 kV, dimensional drawing (786918) 48 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 49 4 Appendix 4.12 VACUTAP® VRF I 2602, dimensional drawing (727033) 50 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 51 4 Appendix 4.13 VACUTAP® VRF I 2602 (Um 362 kV), dimensional drawing (727034) 52 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 53 4 Appendix 4.14 VACUTAP® VRG I 2602, dimensional drawing (727035) 54 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 55 4 Appendix 4.15 VACUTAP® VRG I 2602 (Um 362 kV), dimensional drawing (727036) 56 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 57 4 Appendix 4.16 VACUTAP® VRC I 401/551/701-0/W/G, VRC I HD 401/551/701-0/W/G, dimensional drawing (899990) 58 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.17 VACUTAP® VRE I 701-0/W/G, VRE I HD 701-0/W/G, dimen- sional drawing (899991) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 59 4 Appendix 4.18 VACUTAP® VRC I 1001-0/W/G, VRC I HD 1001-0/W/G, di- mensional drawing (718306) 60 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.19 VACUTAP® VRE I 1001-0/W/G, VRE I HD 1001-0/W/G, di- mensional drawing (718307) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 61 4 Appendix 4.20 VACUTAP® VRC I 1301-0/W/G, VRC I HD 1301-0/W/G, di- mensional drawing (718308) 62 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.21 VACUTAP® VRE I 1301-0/W/G, VRE I HD 1301-0/W/G, di- mensional drawing (727040) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 63 4 Appendix 4.22 VACUTAP® VRC I 701/VRC I HD 701 with multiple coarse change-over selector, dimensional drawing (718316) 64 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.23 VACUTAP® VRC I 1001/VRC I HD 1001 with multiple coarse change-over selector, dimensional drawing (718318) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 65 4 Appendix 4.24 VACUTAP® VRC I 1301/VRC I HD 1301 with multiple coarse change-over selector, dimensional drawing (718321) 66 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.25 VACUTAP® VRF II 1302, dimensional drawing (899814) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 67 4 Appendix 68 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.26 VACUTAP® VRF II 1302 (Um 362 kV), dimensional drawing (899815) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 69 4 Appendix 70 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.27 VACUTAP® VRG II 1302, dimensional drawing (899816) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 71 4 Appendix 72 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.28 VACUTAP® VRG II 1302 (Um 362 kV), dimensional drawing (899817) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 73 4 Appendix 74 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.29 VACUTAP® VRC III 400/550/700 Y-0/W/G, dimensional drawing (899981) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 75 4 Appendix 4.30 VACUTAP® VRE III 700 Y-0/W/G, dimensional drawing (899982) 76 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.31 VACUTAP® VRD/VRF III 1000/1300 Y, dimensional drawing (899803) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 77 4 Appendix 78 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.32 VACUTAP® VRG III 1000/1300 Y, dimensional drawing (899804) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 79 4 Appendix 80 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.33 VACUTAP® VRC II 402/552/702-0/W/G, dimensional drawing (899989) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 81 4 Appendix 4.34 VACUTAP® VRC III 700 Y with multiple coarse change-over selector, dimensional drawing (718314) 82 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.35 VACUTAP® VRC III 400/550/700 Y-10191W, detailed con- nection diagram (ZS030355) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 83 4 Appendix 4.36 VACUTAP® VRE III 700 Y-10193W, detailed connection dia- gram (ZS030356) 84 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.37 VACUTAP® VRD III 1300 Y-C/D-10191W, detailed connec- tion diagram (ZS030201) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 85 4 Appendix 4.38 VACUTAP® VRG III 1300 Y-E-14271G, detailed connection diagram (ZS030202) 86 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.39 VACUTAP® VRC/VRE, installation drawing (899992) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 87 4 Appendix 4.40 VACUTAP® VRD/VRF, installation drawing (899898) 88 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.41 VACUTAP® VRG, installation drawing (899945) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 89 4 Appendix 4.42 VACUTAP® VRC/VRE, connecting leads 3W, 1G, 3G, di- mensional drawing (723590) 90 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.43 VACUTAP® VR, on-load tap-changer head (720847) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 91 4 Appendix 4.44 VACUTAP® VR, on-load tap-changer head with flange for pressure relief device (899946) 92 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.45 VACUTAP® VR, special design for bell-type tank installa- tion (720781) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 93 4 Appendix 4.46 VACUTAP® VRC/VRE, arrangement of contacts on tap se- lector, tap selector division 10…22 (899993) 94 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.47 VACUTAP® VRC/VRE I 1001/1301, VRC/ VRE I HD 1001/1301, bridges to parallel connection of tap selector connection contacts (727025) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 95 4 Appendix 4.48 VACUTAP® VR, installation position of tap selector con- nection contacts (727042) 96 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.49 VACUTAP® VR installation position of tap selector connec- tion contacts (743603) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 97 4 Appendix 4.50 VACUTAP® VRC III 400/550/700 Y, VRE III 700 Y, arrange- ment of tap selector (899994) 98 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.51 VACUTAP® VRC I 401/551/701, VRC I HD 401/551/701, VRE I 701, VRE I HD 701, arrangement of tap selector (899995) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 99 4 Appendix 4.52 VACUTAP® VRC/VRE I 1001, VRC/VRE I HD 1001, arrange- ment of tap selector (899996) 100 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.53 VACUTAP® VRC/VRE I 1301, VRC/VRE I HD 1301, arrange- ment of tap selector (727043) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 101 4 Appendix 4.54 VACUTAP® VR, variants of the on-load tap-changer head, gear unit swivel range and drive direction (721216) 102 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.55 VACUTAP® VR, swivel range of gear unit (728474) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 103 4 Appendix 4.56 VACUTAP® VR, horizontal drive shaft (899958) 104 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.57 VACUTAP® VRG, horizontal drive shaft, tap selector size (899959) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 105 4 Appendix 4.58 VACUTAP® VRC/VRE III, tie-in resistors with or without po- tential switch (899972) 106 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.59 VACUTAP® VRC II, tie-in resistors with or without potential switch (899986) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 107 4 Appendix 4.60 VACUTAP® VRC/VRE I, VRC/VRE I HD, tie-in resistors with or without potential switch (718447) 108 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.61 VACUTAP® VRC/VRE, tie-in resistor cylinder with potential switch without tie-in resistors (899973) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 109 4 Appendix 4.62 VACUTAP® VRD/VRF/VRG, fine tap selector connection contact and change-over selector connection contact (899941) 110 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.63 VACUTAP® VRF, bridges to parallel connection of tap se- lector connection contacts (786919) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 111 4 Appendix 4.64 VACUTAP® VRG, bridges to parallel connection of tap se- lector connection contacts (786920) 112 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.65 VACUTAP® VRD/VRF, tap selector size C/D, tap selector bottom depiction of the lowest live parts (899968) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 113 4 Appendix 4.66 VACUTAP® VRG, tap selector size E, tap selector bottom depiction of the lowest live parts (899969) 114 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.67 VACUTAP® VRD/VRF, arrangement of potential switches/ tie-in resistors (899950) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 115 4 Appendix 4.68 VACUTAP® VRD/VRF I WP, VRD/VRF I HD WP, tap selector size C/D, tie-in resistor cylinder and potential switch (899951) 116 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.69 VACUTAP® VRD/VRF I WR, VRD/VRF I HD WR, tap selector size C/D, tie-in resistor cylinder (899955) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 117 4 Appendix 4.70 VACUTAP® VRD/VRF III WP, tap selector size C/D, tie-in re- sistor cylinder and potential switch (899962) 118 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.71 VACUTAP® VRD/VRF III WR, tap selector size C/D, tie-in re- sistor cylinder (899964) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 119 4 Appendix 4.72 VACUTAP® VRD/VRF I/III WS, VRD/VRF I HD WS, tap selec- tor size C/D, potential switch (899966) 120 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.73 VACUTAP® VRG I/III WS, VRG I HD WS, tap selector size E, potential switch (899967) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 121 4 Appendix 4.74 VACUTAP® VRD/VRF I WP, VRD/VRF I HD WP, tap selector size C/D, tie-in resistor cylinder and potential switch (899952) 122 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.75 VACUTAP® VRD/VRF I WP, VRD/VRF I HD WP, tap selector size C/D, tie-in resistor cylinder and potential switch (899953) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 123 4 Appendix 4.76 VACUTAP® VRD/VRF I WP, VRD/VRF I HD WP, tap selector size C/D, tie-in resistor cylinder and potential switch (899954) 124 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.77 VACUTAP® VRD/VRF I WR, VRD/VRF I HD WR, tap selector size C/D, tie-in resistor cylinder (899960) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 125 4 Appendix 4.78 VACUTAP® VRD/VRF I WR, VRD/VRF I HD WR, tap selector size C/D, tie-in resistor cylinder (899956) 126 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.79 VACUTAP® VRD/VRF I WR, VRD/VRF I HD WR, tap selector size C/D, tie-in resistor cylinder (899961) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 127 4 Appendix 4.80 VACUTAP® VRD/VRF III WP, tap selector size C/D, tie-in re- sistor cylinder and potential switch (899963) 128 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.81 VACUTAP® VRD/VRF III WR, tap selector size C/D, tie-in re- sistor cylinder and potential switch (899965) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 129 4 Appendix 4.82 VACUTAP® VRF II 1302 WP, tap selector size C/D, tie-in re- sistor cylinder (728691) 130 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.83 VACUTAP® VRF II 1302 WR, tap selector size C/D, tie-in re- sistor cylinder (728690) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 131 4 Appendix 4.84 VACUTAP® VRF I 2602 WP, tap selector size C/D, tie-in re- sistor cylinder (729538) 132 VACUTAP VR® I II III/VR® I HD 2188029/02 EN Maschinenfabrik Reinhausen 2013 4 Appendix 4.85 VACUTAP® VRF I 2602 WR, tap selector size C/D, tie-in re- sistor cylinder (729537) Maschinenfabrik Reinhausen 2013 2188029/02 EN VACUTAP VR® I II III/VR® I HD 133 MR worldwide Australia Malaysia Reinhausen Australia Pty. 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Phone: +1 731 784 7681 Via Alserio, 16 Fax: +1 731 784 7682 20159 Milano E-Mail: [email protected] Phone: +39 02 6943471 Fax: +39 02 69434766 United Arab Emirates E-Mail: [email protected] Reinhausen Middle East FZE Dubai Airport Freezone, Building Phase 6 Japan 3rd floor, Office No. 6EB, 341 Dubai MR Japan Corporation Phone: +971 4 2368 451 German Industry Park Fax: +971 4 2368 225 1-18-2 Hakusan, Midori-ku Email: [email protected] Yokohama 226-0006 Phone: +81 45 929 5728 Fax: +81 45 929 5741 Luxembourg Reinhausen Luxembourg S.A. 72, Rue de Prés L-7333 Steinsel Phone: +352 27 3347 1 Fax: +352 27 3347 99 E-Mail: [email protected] Maschinenfabrik Reinhausen GmbH +49 (0)941 4090-0 www.reinhausen.com Falkensteinstrasse 8 +49(0)941 4090-7001 93059 Regensburg [email protected] 2188029/02 EN ▪ 06/13 ▪ F0216102
