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16

Instruction Book    

IB182917EN   September 2018   www.eaton.com

DHP-VR

+

VR-Series

+

 Replacement Circuit Breaker

m

 DANGER

FAILURE TO REPLACE THE VACUUM INTERRUPTER ASSEMBLY WHEN 

INDICATED BY THE CONTACT EROSION INDICATOR COULD CAUSE THE 

CIRCUIT BREAKER TO FAIL, LEADING TO DEATH, SEVERE PERSONAL 

INJURY, EQUIPMENT DAMAGE AND/OR IMPROPER OPERATION.

4.1.3   CONTACT WIPE AND STROKE

The circuit breaker mechanism provides a fixed amount of motion 

to the operating rods connected to the moving stem of the vacuum 

interrupter. The first portion of the motion, the stroke, is used to 

close the vacuum interrupter contacts; the remainder of that motion, 

the wipe, is used to further compress the pre-loaded wipe spring. 

Contact stroke and wipe are related; contact wipe is the indication 

of the force holding the vacuum interrupter contacts closed as well 

as the energy available to hammer the contacts open with sufficient 

speed for interruption. Stroke is the gap between the stationary and 

moving contact of the vacuum interrupter when the circuit breaker 

is open. As the stroke increases due to contact erosion inside the 

vacuum interrupter, the wipe decreases. Although these changes 

are taking place as operations accumulate on the vacuum interrupter, 

field adjustment of the wipe or stroke are not necessary during the 

lifetime of the vacuum interrupter. 

m

 WARNING

THERE IS NO PROVISION FOR IN-SERVICE ADJUSTMENTS OF CONTACT 

WIPE AND STROKE. ALL SUCH ADJUSTMENTS ARE FACTORY SET AND 

SHOULD NOT BE ATTEMPTED IN THE FIELD.

4.2   LINE AND LOAD CONDUCTOR ASSEMBLIES

Multiple finger type primary disconnecting contacts at the ends of 

the conductors provide means for connecting and disconnecting 

the circuit breaker to the bus terminals in the circuit breaker 

compartment of the metal-clad switchgear.

4.3   STORED ENERGY MECHANISM

The spring-type stored energy operating mechanism is mounted 

on the circuit breaker frame and in the front of the circuit breaker. 

Manual closing and opening controls are at the front cover (Figure 

Set 3.3). They are accessible while the circuit breaker is in any of its 

basic installation positions. (See Section 5 in this manual)
The mechanism stores the closing energy by charging the closing 

springs. Spring charging is automatically accomplished when control 

power is applied to the circuit breaker secondary disconnect contact. 

When released, the stored energy closes the circuit breaker, charges 

the wipe and resets the opening springs. The mechanism may rest 

in any one of the four positions shown in Figure 4.10 as follows:
a. Circuit breaker open, closing springs discharged.
b. Circuit breaker open, closing springs charged.
c. Circuit breaker closed, closing springs discharged.
d. Circuit breaker closed, closing springs charged.

The mechanism is a mechanically “trip-free” design. Trip-free is 

defined in Section 4.3.4 (Trip-Free Operation).
In normal operation the closing spring is charged by the spring 

charging motor, and the circuit breaker is closed electrically by the 

switchgear control circuit signal to energize the spring release coil. 

Tripping is caused by energizing the trip coil through the control 

circuit.
For maintenance inspection purposes the closing springs can be 

charged manually by using the maintenance tool and the circuit 

breaker can be closed and tripped by pushing the “Push to Close” 

and “Push to Open” operators on the front cover.

m

 DANGER

KEEP HANDS AND FINGERS AWAY FROM CIRCUIT BREAKER’S INTERNAL 

PARTS WHILE THE CIRCUIT BREAKER CONTACTS ARE CLOSED OR THE 

CLOSING SPRINGS ARE CHARGED. THE CIRCUIT BREAKER CONTACTS 

MAY OPEN OR THE CLOSING SPRINGS DISCHARGE CAUSING CRUSHING 

INJURY. DISCHARGE THE SPRINGS AND OPEN THE CIRCUIT BREAKER 

BEFORE PERFORMING ANY MAINTENANCE, INSPECTION OR REPAIR ON 

THE CIRCUIT BREAKER.

THE DESIGN OF THIS CIRCUIT BREAKER ALLOWS MECHANICAL CLOSING 

AND TRIPPING OF THE CIRCUIT BREAKER WHILE IT IS IN THE ‘CONNECT’ 

POSITION. HOWEVER, THE CIRCUIT BREAKER SHOULD BE CLOSED 

MECHANICALLY ONLY IF THERE IS POSITIVE VERIFICATION THAT LOAD 

SIDE CONDITIONS PERMIT. IT IS RECOMMENDED THAT CLOSING THE 

CIRCUIT BREAKER IN THE ‘CONNECT’ POSITION ALWAYS BE DONE WITH 

THE CUBICLE DOOR CLOSED. FAILURE TO FOLLOW THESE DIRECTIONS 

MAY CAUSE DEATH, SEVERE PERSONAL INJURY, EQUIPMENT DAMAGE 

AND/OR IMPROPER OPERATION.

ELECTRICAL TRIPPING CAN BE VERIFIED WHEN THE CIRCUIT BREAKER IS 

IN THE ‘DISCONNECT / TEST’ POSITION.

4.3.1   CLOSING SPRING CHARGING

Figure 4.9 shows schematic section views of the spring charging 

parts of the stored energy mechanism.
The major component of the mechanism is a cam shaft assembly 

which consists of a shaft to which are attached two closing spring 

cranks (one on each end), the closing cam, drive plate, and a free-

wheeling ratchet wheel.
The ratchet wheel (6) is actuated by an oscillating ratchet lever 

(12) and drive pawl (10) driven by the motor eccentric cam. As the 

ratchet wheel rotates, it pushes the drive plates which in turn rotate 

the closing spring cranks and the closing cam on the cam shaft. 

The motor will continue to run until the limit switch “LS” contact 

disconnects the motor.
The closing spring cranks have spring ends connected to them, 

which are in turn coupled to the closing springs. As the cranks 

rotate, the closing springs get charged.
The closing springs are completely charged, when the spring cranks 

go over dead center and the closing stop roller (9) comes against the 

spring release latch (1). The closing springs are now held in the fully 

charged position.
The closing springs may also be charged manually as follows: Insert 

the end of the maintenance tool into the manual charge socket 

opening and charge the closing springs by moving the handle up 

and down the full range of motion. When charging is complete the 

ratchet will no longer advance and the spring charged / discharged 

indicator displays ‘Charged’. (Figure Set 3.3). Any further motion of 

the maintenance tool will not result into advance of charging.

4.3.2   CLOSING OPERATION

Figure 4.10 shows the positions of the closing cam and tripping 

linkage for four different operational states. In Figure 4.10.a the 

circuit breaker is open and the closing springs are not charged. In 

this state, the trip latch (8) is disengaged from the trip “D” shaft (9) 

(unlatched). After the closing springs become charged, the trip latch 

snaps into the fully reset or latched position (Figure 4.10.b)
When the spring release clapper (Figure 4.9, Item 13) moves into 

the face of the spring release coil (electrically or manually), the lower 

portion of the clapper pushes the spring release latch (1) downward. 

When the spring release latch moves, the cam shaft assembly is 

free to rotate. The force of the closing cam (Figure 4.10.b, Item 5), 

moving the main link (2), rotating the pole shaft (4) (which charges 

the opening spring). This moves the three operating rods (3), closes 

the main contacts and charges the contact loading springs (not 

shown). The operational state immediately after the main contacts 

close but before the spring charging motor recharges the closing 

springs is illustrated in Figure 4.10.c. Interference of the trip “D” 

shaft with the trip latch prevents the linkage from collapsing, and 

holds the circuit breaker closed.

Summary of Contents for DHP VR + Series

Page 1: ...September 2018 Instruction Book IB182917EN DHP VR VR Series Replacement Circuit Breaker Supersedes July 2018 Effective 50DHP VR 250 1200A Shown...

Page 2: ...iations of this equipment do not purport to be covered by these instructions If further information is desired by purchaser regarding his particular installation operation or maintenance of particular...

Page 3: ...SPRING RELEASE INTERLOCKS 19 4 6 5 RAIL LATCH 19 4 7 MISCELLANEOUS ITEMS 20 4 7 1 GROUNDING CONTACT 20 4 7 2 MOC AND TOC OPERATIONS 20 4 7 3 OPERATIONS COUNTER 20 4 7 4 RACKING DEVICE 20 SECTION 5 IN...

Page 4: ...rtant that this installation and maintenance instruction booklet be read and followed closely to achieve optimum performance and a long useful circuit breaker life in its application 1 1 VISUAL INSTRU...

Page 5: ...VR 41 bc 4 76 N A 1200 2000 1 00 19 60 41 41 78 132 75DHP500 75DHP VR 500 8 25 500 1200 2000 1 25 36 95 33 41 66 111 75DVP500 75DVP VR 500 8 25 500 1200 2000 1 25 36 95 33 41 66 111 150DHP500 150DHP...

Page 6: ...on com DHP VR VR Series Replacement Circuit Breaker Table 2 Available DHP VR Dimensions Circuit Breaker Type Existing Circuit Breaker Rated Continuous Current at 60 Hz Amps A B C D E F 50DHP VR 1200 2...

Page 7: ...cuit Breaker E F D C C B A Table 3 Available DHP VR Dimensions Circuit Breaker Type Existing Circuit Breaker Rated Continuous Current at 60 Hz Amps A B C D E F 75 150DHP DVP VR 500 750 1200 2000 60 71...

Page 8: ...test coupler engaged Failure to disconnect the test coupler could result in an electrical shock leading to death severe personal injury equipment damage and or improper operation Do not work on a clo...

Page 9: ...items or hardware are not discarded with the packing material Check the contents of each package against the packing list Examine the circuit breaker for any signs of shipping damage such as broken m...

Page 10: ...breaker is free from shipping damage and is in satisfactory operating condition before placing it in to storage The circuit breaker is shipped with its contacts open and closing springs discharged Th...

Page 11: ...250 1200A Shown Front External View 1 Operations Counter 6 Secondary Disconnect Contact Operating Rod 11 Racking Shaft 2 Spring Charged Discharged Indicator 7 Front Cover 12 Turning Dolly Bracket 3 C...

Page 12: ...re 3 3 b Rear External View of DHP VR 50DHP VR 250 1200A Shown Rear External View 1 Lifting Point 4 Primary Disconnect Contact 7 Secondary Disconnect Contact Block 2 Vacuum Interrupter 5 Snubber Bolts...

Page 13: ...VR 150DHP VR 500 1200A Shown Front External View 1 Front Cover 5 Secondary Disconnect Contact Operating Rod 9 Spring Charged Discharged Indicator 2 Racking Shaft 6 Turning Dolly Bracket 10 Operations...

Page 14: ...iew of DHP VR 150DHP VR 500 1200A Shown Rear External View 1 Lifting Point 5 Rail Latch 9 Secondary Disconnect Contact Block 2 Vacuum Interrupter 6 Primary Disconnect Contact 10 Ground Contact 3 Shutt...

Page 15: ...BLY Each vacuum interrupter assembly also referred to as pole unit is assembled at the factory as a unit to assure correct dimensional relationships between working components Three interrupter assemb...

Page 16: ...EAKER CONTACTS ARE CLOSED OR THE CLOSING SPRINGS ARE CHARGED THE CIRCUIT BREAKER CONTACTS MAY OPEN OR THE CLOSING SPRINGS DISCHARGE CAUSING CRUSHING INJURY DISCHARGE THE SPRINGS AND OPEN THE CIRCUIT B...

Page 17: ...ircuit so that even though the circuit breaker would subsequently open it could not be reclosed before CS C was released and remade This is the anti pump function 4 4 1 TIMING The opening and closing...

Page 18: ...Test and Connect positions OPERATION C and NO C and NC C and NO C and NO C and NC C and NO Brown Switch Black Switch Black Switch Brown Switch SWITCH TERMINAL LS1 bb LS2 aa LS2 bb LC PS1 PS2 Circuit...

Page 19: ...is that the circuit breaker must not be inserted into or removed from a live circuit while the main contacts are closed Also considered in the interlocking is that the circuit breaker should pose no...

Page 20: ...Truck Operated Cell Switch TOC is operated by movement of the circuit breaker truck into or out of the Connect position 4 7 3 OPERATIONS COUNTER All DHP VR circuit breakers are equipped with a mechan...

Page 21: ...Removed VR Series Circuit Breaker Element Mechanism 50DHP VR Shown 1 Charging Motor 5 Reset Opening Spring 9 Closing Cam 2 Operations Counter 6 LH Closing Spring 10 Motor Cutoff Switch 3 Ratchet wheel...

Page 22: ...Front Cover Removed 5 1 2 3 4 5 6 7 8 9 10 11 12 VR Series Circuit Breaker Inverted Element Mechanism 150DHP VR Shown 1 LH Closing Spring 5 Spring Release Assembly 9 Reset Opening Spring 2 Auxiliary S...

Page 23: ...ircuit Breaker Closed Springs Charged Closing Cam and Trip Linkage 1 Spring Release Close Latch 6 Ratchet Wheel 11 Anti Close Interlock 2 Pole Shaft 7 Spring Crank 12 Motor Ratchet Lever 3 Closing Spr...

Page 24: ...sing Spring Not Charged 4 10 c Circuit Breaker Closed and Closing Spring Not Charged 4 10 b Circuit Breaker Open and Closing Spring Charged 4 10 d Circuit Breaker Closed and Closing Spring Charged Cha...

Page 25: ...Cam and Trip Linkage 1 Spring Release Close Latch 6 Ratchet Wheel 11 Anti Close Interlock 2 Pole Shaft 7 Spring Crank 12 Motor Ratchet Lever 3 Closing Spring Fixed End 8 Cam Shaft 13 Spring Release C...

Page 26: ...Open and Closing Spring Charged A 2 c Circuit Breaker Closed and Closing Spring Not Charged A 2 d Circuit Breaker Closed and Closing Spring Charged Charging Schematic 1 Main Link Roller 5 Closing Cam...

Page 27: ...recorded force Should the forces be less than that proceed with the following steps to increase the circuit breaker force m DANGER MEASUREMENTS AND ADJUSTMENTS SHOULD NEVER BE ATTEMPTED IN AN ENERGIZ...

Page 28: ...sure the distance from the floor plate of the circuit 0 00 to 0 031 Figure 5 4 Snubber Bolt Adjustment Note N Reference Section 3 for the specific location of the Snubber Bolt for each DHP VR Rating m...

Page 29: ...breaker near the floor with the guide rail on the right hand side of the circuit breaker compartment floor Once the circuit breaker is aligned with the circuit breaker compartment floor guide push th...

Page 30: ...breaker toward the rear of the circuit breaker compartment as far as it will go Be sure the circuit breaker is pushed in until it stops This will bring the racking nut on the circuit breaker up to the...

Page 31: ...ce Insulation Integrity Main circuit to ground Withstand 15kV 60Hz for 1 Minute 5kV Rating 27kV 60Hz for 1 Minute 8 25kV and 15kV Ratings Hi pot Tester Clean and retest or replace Control circuit to g...

Page 32: ...is recommended that the equipment be capable of delivering 25 milliamperes for one minute The current delivery capability of 25 mA ac applies when all three vacuum interrupters are tested in parallel...

Page 33: ...osition Measure the voltage drop across the terminals The resistance can be calculated from Ohm s Law and is expressed in micro ohms Repeat for the remaining two poles The resistance should not exceed...

Page 34: ...2 CloSure Tool Mounting Testing Locations by Circuit Breaker Type CIRCUIT BREAKER DESIGNATION APPROXIMATE MECHANISM CHASSIS WIDTH INCH LOWER MOUNTING HOLE LOWER MOUNTING HOLE MARKER PLACEMENT HOLE 50D...

Page 35: ...lace it on a sheet of paper that can be kept as a record of the test Record the date of the test person conducting the test circuit breaker serial number and the operations counter on the tape or pape...

Page 36: ...ker CloSure Tool TM 15 O 15 O Figure 6 13 Determining the Distance Traveled Figure 6 14 Illustrative Testing Tape Sample Figure 6 12 Evaluate the CloSure Performance Date of Breaker Operations CloSure...

Page 37: ...rocedures Assuming that the circuit breaker is safely removed from the circuit breaker compartment enclosure and positioned in an area outside the arc fault boundary follow this procedure to perform t...

Page 38: ...he pen opening If it is not aligned this indicates a problem with the circuit breaker stop the test and consult the factory Figure 6 17 c Typical Circuit Breaker Front View with CloSure Tool Attached...

Page 39: ...in Hole C While Closing Circuit Breaker Figure 6 21 Pole Shaft Located On Left Side Of Circuit Breaker Figure 6 22 Move the Sharpie 15o Left and Right Figure 6 23 Top view of Cam and Marker Interface...

Page 40: ...tic lubricant When applied in usual service conditions as defined by IEEE C37 04 1999 the VR Series circuit breaker element requires maintenance only once every ten years or ten thousand operations wh...

Page 41: ...burned Motor Cut Off Contacts open or burned Trip Coil Assembly Clapper fails to reset Closing sound but no close Pole Shaft Not open fully Trip Latch Reset Spring Damaged or missing Trip Bar D Shaft...

Page 42: ...SWITCH Circuit Breaker Auxiliary Switch 94C9525G13 5 POSITION SWITCH Circuit Breaker Position Switch PS1 94C9525H06 6 POSITION SWITCH Circuit Breaker Position Switch PS2 94C9525H07 7 LATCH CHECK SWIT...

Page 43: ...vard Cleveland OH 44122 United States Eaton com 2018 Eaton All Rights Reserved Printed in USA Publication No IB182917EN September 2018 Eaton is a registered trademark All trademarks are property of th...

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