KUF DRIESCHER Indoor Vacuum CircuitBreaker voltage to.5 kv current to 00 A 4kV 746 Get connected http://www.driescher.com V6 ELEKTROTECHNISCHE WERKE FRITZ DRIESCHER & SÖHNE GMBH D8566 MOOSBURG TEL. +49 87 61 6 8 FAX +49 87 61 68 11 7 http://www.driescher.com email: Driescher@aol.com
DRIESCHER Indoor Vacuum CircuitBreaker General, operating conditions Technical data 4 Table of vacuum circuitbreakers and up to A 5 Table of vacuum circuitbreakers and from 5 Table of vacuum circuitbreakers 6 kv and.5 kv 6 Design and principle of operation of the circuitbreaker 7 Schematic diagram of the design 8 Schematic diagram of release mechanisms, maintenance General The new DRIESCHER vacuum circuitbreaker is a technological further development of the wellproven vacuum circuitbreaker series 745. These threepole indoor circuitbreakers are designed for rated voltages of to.5 kv and rated currents of to 00 A. All specified circuitbreakers are delivered for front panel installation. For wallmounted circuitbreakers please refer to prospect 745. Operating conditions The breakers are designed for normal operating conditions in compliance with IEC 60694 (DIN VDE 0670 Part 00), class "minus 5 indoors". A reliable operation is still guaranteed at minus temperatures of 15. The maximum ambient temperature is 40 C; the mean value over 4 hours is max. 5 C. The values on insulation strength are corresponding to VDE 0670 Part 00 related to sea level. For installations at altitudes of up to 00 m any reduction in insulation caused by the reduced insulating property of the air is insignificant and can be ignored. For installation at altitudes > 00 m it is necessary to correct the values given for the rated powerfrequency withstand voltage and the rated lightning impulse withstand voltage (e.g. the insulating property of the clearance at an altitude of 00 m above sea level is reduced by the factor 0.81).
DRIESCHER Indoor Vacuum CircuitBreakers The type testing was carried out by independent, accredited testing institutes (FGH Mannheim and IPH Berlin). The circuitbreakers are in compliance with the DIN VDE 0670 Part 14 and IEC Publication 60056. Technical data voltage power frequency withstand voltage impulse withstand voltage frequency Transient recovery voltage Rate of rise of TRV Closing time approx. Arcing time Opening time approx. short circuit breaking current short circuit making current shorttime current shortcircuit duration peak withstand current current A kv kv kv Hz kv kv/µs ms ms ms ka ka ka s ka 60 1600 00 00 1 4 6.5 8 70 75 1 170 1 1 41 66 70 0.4 0.47 0.57 0.57 <17 <17 <17 <17 70 70 6.5 6.5 6.5 6.5 6.5 6.5 6.5 6.5 Types: V...BKF with coil spring stored energy mechanism, V.. BKF frontpanel mounting V...KUF with coil spring stored energy mechanism V.. KUF V.. KUF V.. KUF V.. KUF and suitable for automatic reclosing, frontpanel mounting voltage kv 1 4 6.5 Possible operating cycles of the vacuum interrupter at rated current of the vacuum interrupter at rated short circuit breaking current of the breaker mechanism 0 000 000 0 000 000 15 000 000 15 000 000 max. contact erosion mm switching action sequence 0 0.s CO min CO for motorized actuator 0 min CO for manual actuator
Vacuum CircuitBreaker Table and up to A Front view Side view Top view Counter ONOFF Display Manual emergency charging of energy storage mechanism Typeplate ON Display for number of operations available OFF Type voltage current short circuit Pole distance c c breaking current p (mm) 1 d H l Part no. 4) Drawing no. V 6 KUF V 1 KUF V 6 KUF V 1 KUF V 6 BKF V 1 BKF V 6 KUF V 8 KUF V 1 KUF V 6 KUF V 1 KUF V 6 KUF V 1 KUF A A A 0 A A A A ka ka 155 6) 155 6) 75 75 0 0 4 4 0 0 460 460 5 5 5 5 5 5 5 6 6 746 0400x 746 0401x 746 14x 746 1411x 746 17x 746 1711x 746 40x 746 44x 746 41x 746 x 746 541x 746 44x 746 4411x LS0947 LS096849 LS096848 LS0968 LS098 LS098 LS096851 LS096854 LS096856 LS09685 LS096858 LS09685 LS096857 1) hexagon bolt M1x40 (from ; M1x) with nut, washer and lock washer ) threaded pin (fixed) with nut, washer and lock washer ) as from A two connecting bolts 4) the last digit of the part numbers indicates the respective motor voltage: 746 xxxx1 = 0 V AC 746 xxxx = 1 V AC 746 xxxx = V DC 746 xxxx4 = 1 V DC 746 xxxx5 = 60 V DC 746 xxxx6 = 48 V DC 746 xxxx7 = 4 V DC 5) appropriate additional insulation is required 6) appropriate bar support is required 7) pressin nuts M1 at the top and bottom for mounting switchgear, refer also to c or c1 8) at phase spacing of p=75; 17.5 mm 9) at phase spacing of p=75; 160 mm Type designation Example: V 16 BKF V 16 KUF Vacuum circuit breaker V V current () 16 16 shortcircuit breaking current (ka) with coilspring energy storage mechanism BK Design for frontpanel mounting (e.g. on switchgear truck) F with coilspring energy storage mechanism and suitable for autoreclosing KU Design for frontpanel mounting (e.g. on switchgear truck) F 4
Vacuum CircuitBreaker Table and from Front view Side view Top view Counter ONOFF Display Typeplate Manual emergency charging of energy storage mechanism ON Display for number of operations available OFF Type voltage current short circuit breaking current Pole distance p (mm) c c 1 d H l Part no. 4) Drawingno. V 16 KUF V KUF V KUF V 16 BKF V BKF V BKF V 16 KUF V KUF V 16 KUF V KUF V 16 KUF V KUF 00 A 00 A 00 A 00 A 00 A 00 A 00 A ka ka ka 75 75 0 0 0 0 5 5 5 5 5 5 5 5 6 6 48.5 48.5 746 141x 746 141x 746 1414x 746 171x 746 171x 746 1714x 746 4x 746 4x 746 54x 746 54x 746 441x 746 441x LS098771 LS09877 LS09877 LS0984 LS0985 LS0986 LS0987 LS0988 LS0989 LS09881 LS0988 LS098811 Vacuum CircuitBreaker Table 6 kv and.5 kv Front view Side view Top view Counter ONOFF Display Manual emergency charging of energy storage mechanism Typeplate ON Display for number of operations available OFF Type voltage current short circuit breaking current Pole distance p (mm) c d H l Part no. 4) Drawingno. V 6 KUF V 1 KUF V 6 KUF V 1 KUF V 6 KUF V 1 KUF V 6 KUF V 1 KUF 6 kv 6 kv 6 kv 6 kv.5 kv.5 kv.5 kv.5 kv A A A A ka ka ka ka ka ka ka ka 75 5) 75 5) 400 400 75 5) 75 5) 400 400 890 890 890 890 9 9 9 9 544.5 5.5 544.5 5.5 544.5 5.5 544.5 5.6 746 6444x 746 644x 746 7474x 746 747x 746 6440x 746 6441x 746 7470x 746 7471x LS096859 LS096860 LS096861 LS09686 LS09686 LS096864 LS0968 LS096866 5
Design and principle of operation of the vacuum circuitbreaker The new DRIESCHER vacuum circuitbreaker is a technical further development of our wellproven vacuum circuitbreaker series 745. This vacuum circuitbreaker is made up of the following five (refer also to page 7) subassemblies which are coordinated with maximum precision: Via operating mechnism 1 the coilspring energy storage mechanism is manually or electrically charged. Should the supply voltage fail, the coilspring energy storage mechanism can be charged via the operating shaft using a crank. Feature: an overload coupling now prevents any overloading of the energy storage mechanism. The coilspring energy storage mechnism comprises three coil springs and an end position damping. This stores the energy (display), precisely controls the energy transmission and permits constant operating speeds. Feature: The energy is stored for switching operations The adjusted end position damping permits an optimal switching operation. The mechanism is therefore extremely low in wear, low in maintenance, and has a long service life. Via the switching module it is possible to operate the circuitbreaker manually by pressing the pushbuttons or it can be operated electrically (release mechanism). The motor of the operating mechanism immediately recharges the coilspring energy storage mechanism after operation. In addition to the release mechanisms the switching module also includes the locking mechanisms. Feature: The last possible switching operation is always and OFF switching operation For further electrical operations a second OFF release can be installed Short switching cycles The operating shaft 5 assembled in the breaker frame transmits the operating energy via insulating bars (8) to the vacuum interrupters. Advantage of the breaker frame: compact design possible very lightweight and stable The high quality vaccum interrrupters are housed in moulded parts of Duroplast insulating material (9). The current in the breaker pole flows from the upper terminal (1) to the fixed contact () of the vacuum interrupter. The laminated contact ribbon (4) is screwed to the moving contact () of the vacuum interrupter. The spring (5) provides the required contact pressure and compensates the permissible contact burn (M) during the entire service life. The burn of the contacts in the vacuum interrupter can be monitored using the "M" mark. This can be carried out without necessitating dismantling. The pressure welded end of the contact ribbon forms the lower pole contact surface (7) which is supported by the contact arm (6). Advantage: small spacing between phases without additional insulation (phase separation plates) the vacuum interrupters are protected against extreme ambient conditions and damage the entire pole can be removed as one piece Summary: The subassemblies and their optimal arrangement have made it possible to provide an extremely compact design. This circuitbreaker is therefore extremely flexible in its application and meets all customer requirements to the full. This new, optimised mechanical design also permits a minimum amount of maintenance and guarantees an extremely long service life. The electrical components 4 with their displays (operations counter, switch position) operate the circuitbreaker depending on the respective circuit layout (e.g. auto reclosing). The pin plug connector is positioned on the top of the breaker frame. For withdrawable techniques it is only necessary to attach an easytoinstall coupler connector. Feature: fast electrical conversion is possible (e.g. KU auto reclosing) 6
Schematic diagram of assembly design and operating principle Basic equipment: 4 5 Pushbutton for On and Off switching on site Display of breaker position ON/OFF Display of charging condition of coilspring energy storage mechanism Operations counter 1 Possible equipment: Electric motor Pump suppresser Auxiliary switch for motor, controls and locking mechanisms Additional releases (refer to Page 8) Very high mechanical service life through optimised power transmission of precisioncoordinated subassemblies with end position damping Flexible application through compact design Shorter delivery times Fast retrofitting possible (e.g. motor operating mechanism, auto reclosing) Exceptionally high service life Minimum amount of maintenance Previous models can be replaced at any time Motoroperated mechanisms Motors can optionally be delivered for AC or DC systems. The max. power input is approx. 0 W. The motors operate in shorttime duty (S). The supply voltage is not to deviate from the rated supply voltage by more than 15% to +%. Motor voltage (V) 1 AC 0 AC 4 DC 48 DC 60 DC 1 DC DC Current input (A).8 1. 1. 4.6 4,9. 1. Charging time (s) 8. 7.8 9. 7. 5.7 8. 8.8 Motor protection switch..a (A).5 4.5 1 1.6 1 16 11 4 6. 4.4 4 6. 4.6.5 4 1 1.6 1.1 7
Schematic diagram of release mechanisms Strikerpin arresting bolt M 5 only in Type (remove for commissioning!) Manual operation (only in type and WSA) Type current (A) voltage (V) AC operation Consumption (VA) Part no. voltage (V) DC operation Consumption (W) Part no. Shunt release 0/1 0 5 1 77 01 77 0 1 4 48 60 1 56 56 88 56 57 77 0401 77 0404 77 04048 77 04060 77 041 77 04 Undervoltage release 0/1 0 19,5 19,5 77 051 77 05 4 48 60 1 77 04 77 048 77 060 77 05115 77 05 Indirect release WSA WSA WSA 0,5 1,0 5,0 18 18 18 77 06005 77 060 77 060 Maintenance These new Driescher circuitbreakers boast extremely lowmaintenance. We recommend an annual visual inspection and occasional cleaning of the insulating parts. It is only necessary to lubricate the operating mechanism. The manufacturers of the vacuum interrupters guarantee that the vacuum is maintained for at least years, when handled correctly. For more detailed specifications please refer to the operating and maintenance instructions B746. Dimensions, weights, diagrams and descriptions in the list are nonbinding. Subject to change without notice. switching electricity safely ELEKTROTECHNISCHE WERKE FRITZ DRIESCHER & SÖHNE GMBH D8566 MOOSBURG TEL. +49 87 61 6 8 FAX +49 87 61 68 11 7 http://www.driescher.com infoservice@driescher.de Bestellnr. 1707461 0