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3

Safety

01.4IB.50023A

Ch 2  Safety

A.  S

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 W

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 c

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The information in Section A is quoted from  

NFPA 70E 2018 - Article 120, 120.5 Establishing an 

Electrically Safe Work Condition.

120.5 Process or Establishing and Verifying an 

Electrically Safe Work Condition.  

Establishing 

and verifying an electrically safe condition shall 

include all of the following steps, which shall be 

performed in the order presented, if feasible:

1.  Determine all possible sources of electrical 

supply to the specific equipment.  Check 

applicable up-to-date drawings, diagrams, 

and identification tags.

2.  After properly interrupting the load current, 

open the disconnecting device(s) for each 

source.

3.  Wherever possible, visually verify that all 

blades of the disconnecting devices are 

fully open or that drawout-type circuit 

breakers are withdrawn to the fully 

disconnected position.

4.  Release stored electrical energy.

5.  Release or block stored mechanical energy.

6.  Apply lockout/tagout devices in accordance 

with a documented and established 

procedure.

7.  Use an adequately rated portable test 

instrument to test each phase conductor or 

circuit part to verify it is de-energized.  Test 

each phase conductor or circuit part both  

phase-to-phase and phase-to-ground.  

Before and after each test, determine 

that the test instrument is operating 

satisfactorily through verification on any 

known voltage source.

N

 

Exception No. 1:  An adequately rated 

permanently mounted test device shall be 

permitted to be used to verify the absence of 

voltage of the conductors or circuit parts at 

the work location, provided it meets the all 

following requirements: (1)  It is permanently 

mounted and installed in accordance with 

the manufacturer’s instructions and tests 

the conductors and circuit parts at the point 

of work; (2)  It is listed and labeled for the 

purpose of verifying the absence of voltage; 

(3)  It tests each phase conductor or circuit 

part both phase-to-phase and phase-to-

ground; (4)  The test device is verified as 

operating satisfactorily on any known voltage 

source before and after verifying the absence 

of voltage.

N

  Exception No. 2:  On electrical systems over 

1000 volts, noncontact test instruments shall 

be permitted to be used to test each phase 

conductor.

 

Informational Note No. 1:  See UL 61010-1

Safety Requirements for Electrical Equipment 

for Measurement, Control, and Laboratory 

Use, Part 1:  General Requirements, 

for 

rating, overvoltage category, and design 

requirements for voltage measurement 

and test instruments intended for use on 

electrical system 1000 volts and below.

Informational Note No. 2:  For additional 

information on rating and design 

requirements for voltage detectors, refer 

to IEC 61243-1, 

Live Working - Voltage 

Detectors - Part 1:  Capacitive type to be used 

for voltages exceeding 1kV a.c., 

or IEC 61243-

2, 

Live Working - Voltage Detectors - Part 2:  

Resistive type to be used for voltages of 1kV 

to 36kV a.c., or 

IEC 61243-3, 

Live Working - 

Voltage Detectors - Part 3:  Two-pole voltage 

type.

Summary of Contents for PowlVac ARG 4 Series

Page 1: ...Instruction Bulletin 01 4IB 50023A PowlVac Electrically Operated 15kV Ground and Test Device 15kV Electrically Operated G T per Long Island Railroad Specifications Powered by Safety...

Page 2: ...Operated 15kV Ground and Test per Long Island Railroad Specifications 01 4IB 50023A Contact Information Powell Electrical Systems Inc powellind com info powellind com Service Division 7232 Airport Blv...

Page 3: ...may result in minor or moderate injury CAUTION CAUTION used without the safety alert symbol is used to address practices not related to personal injury NOTICE is used to address practices not related...

Page 4: ...Powered by Safety PowlVac Electrically Operated 15kV Ground and Test per Long Island Railroad Specifications 01 4IB 50023A This page is intentionally left blank...

Page 5: ...ption 7 A General 7 B Rating 7 C Primary Disconnect Stabs 7 D Ground Making Switch 7 E Stored Energy Mechanism 8 F Test Ports 16 G Levering In Device 16 H Interlocking 17 I Shutters 17 J Operating Sol...

Page 6: ...ted Position 23 3 Moving the Ground and Test Device from the Connected Position to the Disconnected Position 24 4 Removing the Ground and Test Device from the Upper Switchgear Compartment 24 Ch 5 Oper...

Page 7: ...es 38 1 Grounding Switch Movable Contact 38 2 Grounding Switch Stationary Contacts 38 3 Closing Coil Assembly 39 4 Charging Motor Assembly 39 5 Shunt Trip Coil 40 6 Control Relay 40 7 Latch Check Swit...

Page 8: ...in Shipping Carton 21 Figure 11 Control Selector Switch in Off Position 26 Figure 12 Connecting Control Box to Ground and Test Device 26 Figure 13 Inserting Secondary Disconnect Plug 26 Figure 14 Con...

Page 9: ...servicing maintenance or any act requiring the operator to make physical contact with the equipment the power source must be disconnected and the equipment grounded Failure to do so may result in deat...

Page 10: ...illustrations contained in this document may not represent the exact construction details of each particular type of ground and test device The illustrations in this document are provided as general...

Page 11: ...source N Exception No 1 An adequately rated permanently mounted test device shall be permitted to be used to verify the absence of voltage of the conductors or circuit parts at the work location prov...

Page 12: ...emporary protective grounding equipment and connections shall have an impedance low enough to cause immediate operation of protective devices in case of unintentional energizing of the electric conduc...

Page 13: ...insulated 4 Use only the test probes furnished with the device to plug anything into the test ports Use of other plugs may damage the test port or may result in a poor connection which could be danger...

Page 14: ...cribed in this document has DANGER WARNING CAUTION and instruction labels attached to various locations All equipment DANGER WARNING CAUTION and instruction labels shall be observed when the circuit b...

Page 15: ...power circuit breaker it is designed to temporarily replace for grounding and testing purposes The rating nameplate Figure 1 i on the front of the device will give the ratings applicable to any indiv...

Page 16: ...over at the left Figure 4 a is supported from the lower front cover Its output shaft is screwed to a coupler which insert into the eccentric drive shaft This shaft is supported in the needle bearings...

Page 17: ...Probes shown with test leads attached b Key Lock K3 c Racking Assembly d Levering In Shutter e View Window f Power Receptacle g Control Selector Switch h Key Lock K2 i Nameplate j Secondary Disconnec...

Page 18: ...er Long Island Railroad Specifications Figure 2 Ground and Test Device Right View j a b c d e f g h i a Crank Arm Roller b Racking Gear c Racking Crank Arm d Worm Gear e Levering In Shutter Interlock...

Page 19: ...condary trip prop acting on the primary trip prop roller The component of force tends to make the primary trip prop move downward but it is restrained by the secondary trip prop face acting on the pri...

Page 20: ...oad Specifications Figure 3 Mechanism Top View a Grounding Switch Stationary Contacts b Ground Making Switch Moving Contacts c Auxiliary Switch d Ground Bus e Control Relay f Stored Energy Mechanism g...

Page 21: ...Powered by Safety 13 Equipment Description 01 4IB 50023A Figure 4 Mechanism Left View a Charging Motor b Shunt Trip Coil c Motor Cutoff Switch d Connecting Rod e Close Latch Adjusting Screw a b c d e...

Page 22: ...Figure 5 Mechanism and Trip Linkages a Center Phase Operating Lever b Jackshaft c Primary Trip Prop Adjusting Screw d Main Cam Roller e Primary Trip Prop f Main Drive Cam g Primary Trip Prop Roller h...

Page 23: ...ed by Safety 15 Equipment Description 01 4IB 50023A Figure 6 Cam and Fundamental Link Positions A Device Open Springs Charged Links Reset B Device Closed Springs Discharged C Device Open Springs Disch...

Page 24: ...ing gear is rotated by a worm gear on a shaft which is terminated in a hexagon drive nut attached with a shear pin This shaft points in a direction from the front to the back of the ground and test de...

Page 25: ...d with numerous interlocks as standard features and many more can be added if required by a specific user The standard interlocks include 1 The levering in mechanism cannot be operated unless the grou...

Page 26: ...st device end Figure 8 Remote Control Box N Key Locks The ground and test device is provided with numerous key lock interlocks and include 1 Key Lock K1 Key KA The key lock K1 interlock is a one cylin...

Page 27: ...ECONDARY DISCONNECT PL 5 PIN PLUG KT1 KEY INTERLOCK KT2 KEY INTERLOCK MR MOTOR RELAY 43 EG T SELECTOR SWITCH DEVICE IDs 60600G13 125VDC 125VDC 125VDC TRIP CLOSE 125VDC 2 1 2 1 8 6 4 NC NO C 7 5 3 4 3...

Page 28: ...ground and test device is in the CLOSED and locked position Key KB is then inserted in to key lock K3 With the locking bolt retracted and the test port shutters unlocked key KB is retained O Control S...

Page 29: ...oved the ground and test device may be removed from the shipping pallet Refer to Ch 4 Installation B Handling for more information Figure 10 Ground and Test Device in Shipping Carton B Handling After...

Page 30: ...c conditions it should be cleaned and dried before being placed into service 4 The device should be covered with a cloth or plastic cover to prevent dust accumulation on the device during long term st...

Page 31: ...ated device into the switchgear these coding plates will interfere with each other and deter the insertion of the device The interference occurs before the device reaches the DISCONNECT position Do no...

Page 32: ...ing it to its normal closed position The trip paddle will be released by this action and will return to its normal position The maximum force required on the racking handle for normal insertion of the...

Page 33: ...against a short circuit current within its rating it should not be used to deliberately apply a ground to an energized line or bus The operator should ensure that the circuit to be grounded is deener...

Page 34: ...lug clockwise to lock Figure 12 Figure 12 Connecting Control Box to Ground and Test Device 5 Connect the compartment secondary disconnect plug to the secondary disconnect receptacle on the ground and...

Page 35: ...al Push to Trip paddle The OPEN circuit is now electrically disabled and cannot be electrically or mechanically tripped OPEN Key KA is now available Figure 16 Figure 16 Key KA in Lock K1 2 Insert Key...

Page 36: ...est probes in the test ports Key KB is now available 6 Transfer Key KB to Key Lock K2 and rotate Key KB is now captive and Key KA is available 7 Transfer Key KA to Key Lock K1 and rotate Figure 16 The...

Page 37: ...ssible when the test probes are inserted in the test receptacles the stud will be energized if the ground and test device is connected to an energized circuit It is imperative that the operator insula...

Page 38: ...ns If the ground and test device is used relatively infrequently the interval between inspections may be longer than a year but may include only a few operations When the ground and test device has be...

Page 39: ...the mechanism for loose damaged or excessively worn parts Operate the grounding switch several times Operate the levering in mechanism through one or two complete cycles and check for smoothness of op...

Page 40: ...Oil Crank Pins Figure 22 j Anderol 456 Oil Motor Drive Shaft Roller Needle Bearings Figure 22 k Anderol 456 Oil Pawls Figure 22 l Anderol 456 Oil Close Latch Shaft Face Figure 22 m Rheolube 368A Grea...

Page 41: ...ing Guide Rod q Primary Trip Prop Shaft Support Bearing r Primary Trip Prop Shaft Roller a Main Primary Disconnect Fingers b Grounding Switch Hinges c Grounding Switch Contacts d Levering In Device Wo...

Page 42: ...the primary trip prop roller and the secondary trip prop is 0 005 to 0 015 With a 0 015 wire gauge between the trip bar lever and the secondary trip prop adjusting screw the latch check switch should...

Page 43: ...eplacement of contact parts Do not adjust these settings unnecessarily a Initial Kick Off Spring Height Adjustment The initial height setting of the kick off springs is measured with the ground making...

Page 44: ...gh Voltage Insulation Integrity With the grounding switch OPEN wire the three upper primary stabs of the device to a high potential test set and ground the three lower primary stabs and the frame of t...

Page 45: ...e parts may be improved periodically renewal parts may not be identical to the original parts Table B Recommended Renewal Parts lists the recommended spare parts to be carried in stock by the user The...

Page 46: ...is deenergized disconnected by means of a visible break and securely grounded Do NOT start to work on a closed ground and test device or a ground and test device with the main closing spring charged...

Page 47: ...test device or a ground and test device with the main closing spring charged CAUTION Perform these steps to replace the closing coil assembly a Remove the upper portion of the ground and test device...

Page 48: ...of the ground and test device front cover b Unplug the trip coil from the wiring harness c Remove the two bolts holding the trip coil assembly to the mechanism frame and remove the assembly d Insert...

Page 49: ...this instruction bulletin f Close the grounding switch electrically several times to ensure that the mechanism is working properly g Replace the upper front cover 8 Trip Paddle Interlock Switch The t...

Page 50: ...ates smoothly f Replace the upper front cover 10 Auxiliary Switch The auxiliary switch is located on the left hand side panel of the ground and test device Figure 3 c Ensure that the control circuits...

Page 51: ...t in fingers top center and bottom The second and fourth slots are empty 12 Ground Shoe Finger Assembly The ground shoe assembly is located at the rear edge of the ground and test device floor pan bet...

Page 52: ...irport Blvd Houston TX 77061 Tel 800 480 7273 powellind com info powellind com 2006 Powell Industries Inc All rights reserved 15kV Electrically Operated G T per Long Island Railroad Specifications 01...

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