Marley 440 and 450 Cooling Tower Vibration Switch User Manual
Contents
1. SHUTDOWN 2 2 IN SEC IN SEC Adjustable time delay of 2 15 seconds Factory set at 3 seconds Description Panel Control Test position sets in minimum set point so that any vibration will cause trip condition Light will come on immediately and trip will occur after duration of the time delay proving that the complete system is operational If test position is maintained for less than the duration of the time delay trip will not occur thus permitting system test without shutdown VDE approved terminal strip accepts 12 wire Screw ad justable clamping yoke rather than screw terminal permits easy vibration proof connec The triac or analog switch is tion All hardware is captive independently field settable to open on alarm N C or close on alarm N O Specifications No of Trips 440DR TWO One for alarm and one for shutdown Shut down set in in sec velocity model Analog Output for Trending and Remote Indication 440SR amp 440DR 10 accuracy over 4 20 mA DC range Absolute Option 4 mA 0 vibration 20 mA Full scale range of switch Termination load resistance less than 450 ohms Velocity Set Point 0 1 to 1 5 in in sec or 0 2 to 3 in sec peak Metric ranges 3 to 40 mm sec or 6 to 80 mm sec peak Frequency Range 2 to 1000 Hz Time Delay Field adjustable 2 15 sec Factory set for 3 sec unless specified2. Marley 440 and 450 Vibration Switch User Manual 07 1273 SPX COOLING TECHNOLOGIES Contents Section 1 General DescriptiOn ueooussm mm nana a a aa 3 Section 2 Mechanical Installation oooooooos aa a nanna aaaen 8 Section 3 Electrical Wiring cccussuuuuseii nnen annan nana annan nananana 9 Section 4 Control Sottimgs vvev siis vasaa messa etana aa vv me Sana eines 13 Section 5 System Block Diagram ccuoossossn ma naan ana anne aananen 14 Wiring Diagrarn ccsivuvsasnssavann sekavat enaa kyn aiem EN OAE EENAA E ema ides econ 15 Description Introduction The single set point model contains one trip limit for shutdown The optional dual set point model contains two independent trip limits one for alarm and one for shutdown Shutdown and Alarm trip is set in velocity In addition a 4 20 mA output proportional to vibration level is provided The 440 and 450 performance wiring and specifications are identical ex cept for the enclosure The 440 meets NEMA 3 4 and 12 The 450 meets these and certain explosion proof specifications Protection of Rotating and Reciprocating Machinery A system is required which is responsive to faults which 1 present themselves as low frequency vibrations such as imbalance misalignments defective sleeve bearings broken tie down bolts etc 2 present themselves as higher frequency vibrations such as defective ball or roller beari
3. otherwise Alarm or Shutdown Output s Solid state relay triac Two in 440DR Isolated dry contact Each triac field settable for close on alarm N O or open on alarm N C 5A continuous 100A for 10 msec Max off state leakage current 1 Ma Min holding current 50 mA typical Max voltage across SS relay 140VAC 280VAC on 230V input units If the relay output is connecting to a PLC or DCS DO NOT use 5A Note Triac Description Remote Reset Connection between terminals 5 and 6 latches triac output in alarm state after set point is exceeded Opening the connection will reset the output to non alarm state Set Point Accuracy 10 of setting with repeatability of 2 Circuitry utilizes RMS detector Vibration Sensitive Axis Perpendicular to base Unit can be mounted in any orientation without affecting setting Temperature Limits 20 F to 140 F 30 C to 60 C including in ternal transducer 65 F to 190 F 55 C to 88 C for optional external transducer Humidity 1 to 100 non condensing Input Power 100 130 VAC 50 60 Hz standard 200 260 VAC 50 60 Hz optional DC input power optional Enclosure Rugged water tight dust tight cast aluminum Meets NEMA 3 4 and 12 standards Optional CSA mark for Class Div 2 Gros B D Or explosion proof Model 450 440 NEMA 4X Weight 440 1 6 kg 3 5 Ib 450 2 72 kg 6 Ib Mounting 1 4 hardware 3 mounting bosses Ter
4. 5A 16 Millisecond 50A 1 Millisecond 125 A 140 VAC 115V Model Maximum Voltage 280 VAC 230V Model Maximum Off State Leakage 1 mA Isolation 2500 VAC min Required Holding Current 50 mA As you can see from the above specs these are medium power rated devices and are quite useful in controlling relays contactors and most motor starters directly Maximum noise immunity is obtained when used in the open on alarm N C mode Alarm or Shutdown Units with Analog Switch in place of Triac identified by Model NO 440DR 2X22 XXXX For light loads such as computers or PLCs the analog switch is easier to interface since it has virtually no leakage current The analog switch does not require the 50 mA holding current and operates equally well with AC or DC Maximum ratings for units with Analog Switch in place of Triac are as follows Continuous Current 170 mA Maximum Voltage 250V Maximum Off State Leakage 10 Micro amp Required Holding Current None Isolation 2500 V 1111 di Note 12 Installation Open Close on Alarm The alarm and shutdown triacs or analog switches are independently field settable for N O close on alarm or N C open on alarm The switches are accessible with a non conductive screwdriver via the inner side panels Open on alarm is recommended in installations where triac lines are likely to be noisy e g large transient voltage spikes due to unsuppre
5. D PARK KANSAS 66213 UNITED STATES 913 664 7400 spxcooling spx com spxcooling com In the interest of technological progress all products are subject to design and or material change without notice 2009 SPX Cooling Technologies Inc Printed in USA M07 1273
6. e by actuation of the shutdown relay Alarm is similar but has no effect on the 4 20 mA out If the shutdown or alarm knob is returned to a normal setting before the duration of the time delay has been exceeded the LED will come on without energizing the triac Alarm and Shutdown Light Emitting Diodes Since the LEDs activate instantaneously before time delay they can be used to check the machines actual vibration level i e slowly decrease shutdown set point by turning the set point knob counter clockwise until the shutdown LED illuminates Note this setting and return the knob to a higher setting before time delay runs out This is the actual vibration level present System Block Diagram An internal transducer module consisting of a crystal assembly and inte gral charge amplifier senses vibration Thus the electrical output of the transducer is a well buffered low impedance signal directly proportional to acceleration G of the switch The signal goes to a custom hybrid circuit to yield an A C signal now proportional to velocity This signal in turn is routed through an amplifier the gain of which is controlled by the shutdown setpoint Installation Next the signal is processed through a true RMS to DC stage and compared against a preset internal volt age reference If the signal level is higher than reference the shutdown LED is illuminated If the voltage level stays above the reference for the duration of the
7. etpoint is calibrated 10 to 90 of shutdown setpoint 3 4 20 mA output provides continuous monitoring capability on a mil limeter or a programmable controller for data logging or alarm The 4 mA will be present even when there is no vibration thus demonstrating the unit is functioning 4mA No Vibration and 20mA Full Scale 4 A solid state relay triac is provided with contacts that are optically isolated from the input power The optional dual set point has two triacs Each triac is independently settable for open on alarm or close on alarm Optional analog switches or mechanical relays are available 5 Adjustable 2 15 seconds time delay is standard This prevents false tripping on high startup vibrations and also from non repetitive transient events 6 Self test and calibration A light adjacent to the set point control comes on the instant the measured vibration level exceeds the set point The unit can be periodically calibrated on line by turning the set point control down until the light comes on This setting is then compared with the vibration measured with a portable vibra tion meter thus providing a calibration check of the unit If this setting is maintained trip will occur after the duration of the time delay Calibrated setpoint controls Light comes on immediately when enable operator to set specific vibration exceeds setpoint alarm or velocity trip points shutdown will trip after 3 second time delay
8. ghtness it will do no good if proper sealing of both cover and wiring entrances are not followed Please remember that a hollow pipe through which wires may enter a switch may conduct moisture as well Electrical Wiring Wiring to the Vibration Switch The following sections refer to the wiring diagrams at the end of this sec tion For 440 450 Models Using Triac or Analog Switch 7 Lockout Optional Not Used 8 6 Remote Reset Not Used 9 5 Common Input Signal Optional 10 4 Shutdown Common 11 3 Circuit 4 20mA Analog Output 12 2 AC Input Alarm 13 1 Power Circuit 14 1110 Note Note 10 Installation For 440 450 Models Using Mechanical Relay 7 Remote Reset 4 20mA Analog Output 8 6 Common Not Used 9 5 Shutdown N C Not Used 10 4 Shutdown Common Input Signal Optional 11 3 Shutdown N O Alarm N C 12 2 AC Input Alarm Common 13 1 Power Alarm N O 14 Alarm circuit is not used for SR versions AC Power Connect a grounding wire to the grounding screw provided in the switch This is important for safety as well as noise Power only with the AC voltage level indicated on the inner cover label Orientation of AC power to terminals 1 and 2 is not important Shutdown Circuit The internal shutdown switch circuit is designed to be wired in series with the external shutdown circu
9. it consideration should be given to either using one of the remote transducers or thermally isolating the switch To ensure accurate switch performance a warm up time of 5 minutes is recommended Cable Wiring The method chosen to electrically connect to the switch or transducer should be mechanically flexible to eliminate the measurement of vibration of material not of interest piping etc and provide a moisture barrier as well Although seal tight and other flexible conduit have been used successfully in areas of extreme humidity or moisture it is recommended that an SO type cable together with a suitable rain tight CGB fitting be used No stress should be possible on the wiring to the terminal block If such protection is not provided by the conduit system some form of stress relief must be installed where the wiring exits the 440 Installation To assure compatibility with EMC standards any signal level wiring such as transducer reset lockout or 4 20 mA wiring should utilize shielded cable in EMI proof conduit separate from any power wiring The signal conduit and power wiring conduit can be connected at the 440 cable entry via a T fitting Sealing In 440 installations where temperature and humidity conditions vary around the dew point it is important that the cover plate be evenly and firmly fastened down with the four screws provided Although the switch enclosures meet NEMA standards for water ti
10. it i e motor starter relay contactor etc Remote Reset Shielded wire is required To avoid creating ground loops the N C remote switch contacts should be electrically isolated from other circuits or grounds Remote reset is disabled if push button reset option is selected Lockout Optional Terminal 7 will be labeled Lockout Shielded wire is recommended To avoid the possibility of ground loops the remote N O lockout switch contacts should be electrically isolated from other external circuitry or grounds 4 20 mA Analog Output To avoid the possibility of ground loops the 4 20 mA remote meter terminals should be electrically isolated from external grounds Shielded wire is recommended to protect against damage due to long wire runs and the possibility of high induced voltage spikes from storms etc The 4 20 mA output is self powered and therefore requires no external power source Alarm Circuits The internal single pole solid state switch between ter minals 13 and 14 is designed to be wired in series with the external alarm circuit e g annunciator lamp relay etc Installation Functional Description and Installation Considerations Alarm or Shutdown Units with Triacs identified by Model No 440DR 2X01 XXXX Maximum ratings for the solid state relays used for alarm and shutdown are as follows Continuous Current Surge and Overload Duty Cycle Less Than 1 j 1 Second 2
11. lass Hazardous Environments Shock Hazard 230 110 Volts The terminal block inside the 440 is connected to AC power 110 VAC or 230 VAC depending on model except DC input power models If adjustments to the device are being made with power applied exercise caution to avoid contact with the terminal block screws by any part of the body or electrically conductive tool If the 440 vibration switch is used in a manner not specified by the manufacturer the protection provided by the unit may be impaired Installation Mechanical Installation Orientation The sensitive vibration measuring axis is perpendicular to the base of the unit vibration switch or transducer Always mount the unit such that the desired vibration of the equipment being monitored will occur along this axis Mounting Surface Choose or fabricate a solid rigid surface on the equipment being moni tored to mount the vibration switch or transducer This will ensure transfer of the vibration to the vibration transducer while not introducing spurious vibrations In addition the surface presented to the base of the unit should be flat Fasten using sturdy hardware at all places provided Temperature Considerations The switch is designed to dissipate internal heat by conduction through its base Hence it is important to keep the mounting surface below the switch max temperature limit of 140 F If the equipment being monitored is going to exceed this lim
12. max and should not create any problems even when interfaced with a load as light as a programmable controller Minimum load required to keep the triac on is 20 mA typical and 50 mA max due to the holding current specifications If the load is less than this a resistor may have to be placed in parallel with the load i e for Installation 115 VAC light load 50 mA or less a 2K ohm 10 watt power resistor is recommended D C Loads with Triacs Although most applications use AC input power and AC on the triac outputs alarm and shutdown these triacs may be used in DC applications providing minimum loading requirements are met When DC is used a triac will automatically latch in the on condition after trip thus only close on alarm N O can be used To reset an external reset switch the rest switch must be wired in series with the load To avoid large voltage drops during DC operation the triac should be connected as follows Term 4 POS Term 14 POS Shutdown Alarm Term 3 NEG Term 13 NEG 120 mA Analog Switch Option The special requirements of the above two sections Light Loads and D C Loads with Triacs do not apply How ever maximum current is limited to 170 mA Control Settings Setting Trip Points The Model 440DR provides two trips one for alarm and one for shutdown The first trip alarm is set at a vibration alarm level to provide early warning that the condition of the machine is deteriora
13. minals All terminals will accept 12 AWG wire in clamping type yoke without need for termination hardware All hardware is captive Self Test Test position on set point control and light emitting diode provide functional test of trip circuitry time delay and triac closure Also permits on line calibration of switch Circuitry Proprietary hybrid circuitry throughout for minimum size and maximum reliability in vibration environment Remote Transducer Option The standard 440 includes a built in trans ducer A separate transducer can be specified Please request separate transducer when placing order The SA6200A accelerometer 100 mV g is recommended Analog Switch Option Recommended in place of triac for DC operation or light loads such as computer or PLCs AC DC Solid State Contacts are optically isolated from input power Field settable N O or N C 170 mA continuous Maximum off state leakage 10 micro amps No holding current required Maximum voltage 250V Note A Warning A Caution Description Mechanical Relay Option SPDT Version 8 amp at 250 VAC or 24 VDC DPDT Version 1 DPDT 2 amp each half at 250 VAC or 24 VDC 2 SPDT 8 amp each half at 250 VAC or 24 VDC The N O N C slide switch is not available on the mechanical relay versions Additional Environment Specifications Operating Altitude up to 2000 meters Main voltage fluctuation up to 10 Approvals CSA General Safety CSA C
14. ngs gear mesh blade pass frequencies and in the case of reciprocating machinery detonation and broken parts Velocity is the optimum parameter for both high and low frequencies since it is equally sensitive to both Acceleration as with mechanical switches is over sensitive to the high frequencies and very insensitive to the low frequencies On machines operating at very low RPM 100 200 RPM displacement may also be suitable Time delay is absolutely essential in any usable vibration monitor Virtually all machines will exhibit high vibration for several seconds during startup If time delay is not provided the operator must turn up the trip point to get thru startup The resultant setting will be too high to provide protection during normal running This is one reason there are so many cases where machines with mechanical type vibration switches have not tripped Time delay is included in the Solid State Model 440 Summary of Capabilities Refer to Panel Control 1 Trip is based on vibration severity The internal sensor unless the external sensor option has been purchased is a piezoelectric crystal with built in microelectronics to reduce noise sensitivity The output signal is Description electronically integrated to measure and trip on velocity or displacement 2 Calibrated set point controls permit adjusting set points to known values of vibration level Shutdown and Alarm set point range is in velocity Alarm s
15. ssed relay solenoid or other inductive loads Auto Reset Mode In this mode alarm and shutdown switches are au tomatically reset to the non alarm condition when the vibration level falls below the set point Latch Mode Inthis mode alarm and shutdown switches remain latched in alarm shutdown condition when the vibration level exceeds the set point for the duration of the time delay The unit is in this condition when the reset terminal is connected to common Remote Reset Mode When wired in this mode the alarm and shutdown switches latch in trip but can be reset to the non alarm mode by mo mentarily interrupting the connection from terminal Reset to Common This can be accomplished with a normally closed momentary switch The switch contacts should be isolated from other circuits potentials or grounds Remote reset is disabled if push button reset option is selected 20 Second Lockout optional With this option the shutdown and or alarm triacs will not be permitted to actuate for 20 seconds after Lock out is connected to Common 4 20 mA Output This self powered loop provides a 4 20 mA output current proportional to vibration For absolute option 4mA O vibration 20mA full scale of the switches vibration range Special Considerations Light Loads The solid state triacs used in the standard 440 series are a special high transient immunity medium power type Off state leakage is 1 mA
16. time delay an output trip occurs and the shutdown solid state relay will trip Alarm trip is derived in much the same manner branching from the output of the RMS to DC stage Likewise the DC output is directed to the voltage to current hybrid Wiring Diagram Fully Configured SHIELDED CABLE OPTIONAL Lockout pn RED AL 7 20 seo NOL USD Te l SA6200 OPTIONAL REMOTE RESET LOCKOUT OPT BLUE oio Il 6 RESET NOT USED 9 S 5 COMMON INPUT SIGNAL 10 9 EXTERNAL SHUTDOWN CIRCUIT 4 SHUT COMMON t 4 20 MA LOAD EQUIPMENT i DOWN NO EXTERNAL 5 ANALOG POWER REQ D 2 ALARM CIRCUIT H BOWER ALARM ALARM POWER AC yif PONER POWER GROUND WIRE i gt OPTIONAL 20 SECOND LOCKOUT Inhibits limits for 20 sec after SHIELDING REQUIRED GROUNDING SCREW remote lockout contact is closed Normally used during start up Note Alarm terminals are used only for DR Models SHIELDED CABLE 4 20 MA LOAD NO EXTERNAL oio POWER REQ D ANALOG OPTIONAL REMOTE RESET 7 RESET OUTPUT COMMON NOT USED R1 N C RED SA6200 RELAY 1 SHUT DOWN R1 COM RELAY 2 ALARM INPUT POWER 5 4 3 R1 NO 2 1 A C POWER GROUND WIRE SHIELDING REQUIRED LOO NAE 15 SP COOLING TECHNOLOGIES 7401 WEST 129 STREET OVERLAN
17. ting If the machine condition continues to deteriorate the shutdown trip provides protection against catastrophic failure The shutdown and alarm is set directly in inches seconds or mm sec Setting of Time Delay An important feature of PMC BETA switches is the built in time delay This prevents triggering of the alarm or shutdown functions from transient increases in vibration levels It also avoids shutdown due to transitory vibrations occurring during start up The time delay is adjustable It will have been set at the factory for three 3 seconds unless your order specified otherwise 1111 13 14 Installation The time a vibration must be above set point before trip occurs is individu ally adjustable for shutdown and alarm from 2 to 15 seconds To readjust the time delay turn the shutdown set point or alarm set point for alarm time delay knob CCW until the LED illuminates The time from this point to relay actuation is the time delay Change the time delay via a nylon non conductive screwdriver Set CW to increase time delay one complete turn is approximately 0 5 seconds Then recheck and readjust until the desired time delay is achieved Test Mode The test position of both shutdown and alarm knobs is used to test the switch functions without the need for vibration When the shutdown knob is turned to test the shutdown LED should immediately illuminate the 4 20 mA should exceed 20 mA followed after the delay tim
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