Gebruiksaanwijzing /service van het product 17EX van de fabrikant Carrier
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Start-Up, Operation, and Maintenance Instructions SAFETY CONSIDERA TIONS Centrifugal liquid chillers are designed to provide safe and reliable service when operated within design speci- fications. When operating this equipment, use good judg- ment and safety precautions to avoid damage to equip- ment and property or injury to personnel.
CONTENTS Page SAFETY CONSIDERA TIONS ...................... 1 INTRODUCTION ................................ 5 ABBREVIA TIONS ............................... 5 17EX CHILLER F AMILIARIZA TION ................. 5 Chiller Identification Label ...........
CONTENTS Page Inspect W ater Piping .......................... 50 Check Optional Pumpout Compressor W ater Piping .................................... 50 Check Relief Devices .......................... 50 Inspect Wiring ...............................
CONTENTS (cont) Page Motor Handling/Rigging ........................ 81 Motor Storage ................................ 81 External Gear Storage ......................... 81 • SHOR T -TERM STORAGE (Indoors) • LONG-TERM STORAGE (Indoors) • EXTENDED DOWNTIME Compressor Bearing Maintenance .
INTRODUCTION Before initial start-up of the 17EX unit, those involved in the start-up, operation, and maintenance should be thor- oughly familiar with these instructions and other necessary job data. This book is outlined so that you may become fa- miliar with the control system before performing start-up pro- cedures.
LEGEND NIH — Nozzle-In-Head *Any available cooler size can be combined with any available condenser size. NOTE: For details on motor size designations, see below . ASME ‘U’ ST AMP ARI (Air Conditioning and Refrigeration Institute) PERFORMANCE CERTIFIED (60 Hz Only) Fig.
1 2 3 4 5 6 7 8 9 10 1 1 12 13 14 40 39 37 38 36 35 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 34 33 32 31 LEGEND 1— Condenser 2— Cooler Suction Pipe 3— Compressor Suction Elbow 4— Guide .
The chiller compressor continuously draws large quanti- ties of refrigerant vapor from the cooler at a rate determined by the amount of guide vane opening. This compressor suc- tion reduces the pressure within the cooler , allowing the liq- uid refrigerant to boil vigorously at a fairly low temperature (typically 38 to 42 F [3 to 6 C]).
External Gear Lubrication Cycle (Refer to Item numbers shown in Fig. 5) — Oil reservoir is con- tained in the gear base. The external gear oil pump is mounted below the gear with the cooler/filter . Oil is pumped through an oil cooler/filter to remove heat and any foreign particles.
SHAFT DISPLACEMENT & BRG TEMP . CUTOUT CONNECTIONS COMPRESSOR OIL PRESSURE LEA VING FIL TER LINE JOURNAL BEARING CHECK V AL VE SIGHT GLASSES OIL PUMP & PRESS.
CONTROLS Definitions ANALOG SIGNAL — An analog signal varies in propor- tion to the monitored source. It quantifies values between operating limits. (Example: A temperature sensor is an ana- log device because its resistance changes in proportion to the temperature, generating many values.
PIC System Components — The Product Integrated Control (PIC) is the control system on the chiller . See T able 1. The PIC controls the operation of the chiller by moni- toring all operating conditions. The PIC can diagnose a prob- lem and let the operator know what the problem is and what to check.
LEGEND 1 3— Condenser Pressure Transducer 1 4— Condenser Entering W ater T emperature Sensor 1 5— Condenser Entering and Leaving W ater T emperature Cable 1 6— Oil Suction Pressure Sensor 1 7.
Fig. 6 — 17EX Controls and Sensor Locations (cont) Fig. 7 — Control Sensors (T emperature) Fig. 8 — Control Sensors (Pressure T ransducer , T ypical) LEGEND LID — Local Interface Device PIC .
LEGEND EQUIP GND — Equipment Ground GRD — Ground M— Motor TEW AC — T otally Enclosed W ater-to- Air Cooled Fig. 10 — 17EX Chiller Power Panel and Controls Connections 15.
PROCESSOR/SENSOR INPUT/OUTPUT MODULE (PSIO) — This module contains all the operating software needed to control the chiller . The 17EX uses 5 pressure transducers and 8 thermistors to sense pressures and temperatures. These inputs are connected to the PSIO module.
NOTE: When an alarm is detected, the LID default screen freezes (stops updating) at the time of alarm. The freeze en- ables the operator to view the chiller conditions at the time of the alarm.
3. Press SELECT to view the desired Point Status table. 4. On the Point Status table press NEXT or PREVIOUS until desired point is displayed on the screen. For Discr ete Points — Press ST AR T or STOP , YES or NO ,O N or OFF , etc. to select the desired state.
CCN LOCAL RESET MENU DEF AUL T SCREEN Start Chiller In CCN Control Start Chiller In Local Control Clear Alarms ST A TUS SCHEDULE SETPOINT SER VICE (SOFTKEYS) Access Main Menu List the Status T ables D.
NEXT PREVIOUS SELECT EXIT SERVICE T ABLE Display Alarm History (The table holds up to 25 alarms and alerts with the last alarm at the top of the screen.
NEXT PREVIOUS SELECT EXIT SERVICE MENU CONTINUED FROM PREVIOUS P AGE EQUIPMENT SERVICE (See T able 2, Examples 8, 9, and 10) Service T ables: (See Note) • SERVICE1 • SERVICE2 • SERVICE3 Select a.
6. a. Press INCREASE or DECREASE to change the time values. Override values are in one-hour incre- ments, up to 4 hours. b. Press ENABLE to select days in the day-of-week fields. Press DISABLE to eliminate days from the period. 7. Press ENTER to register the values and to move horizontally (left to right) within a period.
T able 2 — LID Display Data NOTES: IMPORT ANT : The following notes apply to all T able 2 examples. 1. Only 12 lines of information appear on the LID screen at any one time. Press the NEXT or PREVIOUS softkey to highlight a point or to view items below or above the current screen.
T able 2 — LID Display Data (cont) EXAMPL E2—S T A TUS02 DISPLA Y SCREEN T o access this display from the LID default screen: 1. Press MENU . 2. Press ST A TUS .
T able 2 — LID Display Data (cont) EXAMPL E4—S T A TUS04 DISPLA Y SCREEN T o access this display from the LID default screen: 1. Press MENU . 2. Press ST A TUS .
T able 2 — LID Display Data (cont) EXAMPLE 6 — CONFIGURA TION (CONFIG) DISPLA Y SCREEN T o access this display from the LID default screen: 1. Press MENU . 2. Press SERVICE . 3. Scroll down to highlight EQUIPMENT CONFIGURA TION . 4. Press SELECT .
T able 2 — LID Display Data (cont) EXAMPLE 7 — LEAD/LAG CONFIGURA TION DISPLA Y SCREEN T o access this display from the LID default screen: 1. Press MENU . 2. Press SERVICE . 3. Scroll down to highlight EQUIPMENT CONFIGURA TION . 4. Press SELECT .
T able 2 — LID Display Data (cont) EXAMPLE 8 — SERVICE1 DISPLA Y SCREEN T o access this display from the LID default screen: 1. Press MENU . 2. Press SERVICE . 3. Scroll down to highlight EQUIPMENT SERVICE . 4. Press SELECT . 5. Scroll down to highlight SERVICE1 .
T able 2 — LID Display Data (cont) EXAMPLE 9 — SERVICE2 DISPLA Y SCREEN T o access this display from the LID default screen: 1. Press MENU . 2. Press SERVICE . 3. Scroll down to highlight EQUIPMENT SERVICE . 4. Press SELECT . 5. Scroll down to highlight SERVICE2 .
T able 2 — LID Display Data (cont) EXAMPLE 1 1 — MAINTENANCE (MAINT01) DISPLA Y SCREEN T o access this display from the LID default screen: 1. Press MENU . 2. Press SERVICE . 3. Scroll down to highlight CONTROL ALGORITHM ST A TUS . 4. Press SELECT .
T able 2 — LID Display Data (cont) EXAMPLE 13 — MAINTENANCE (MAINT03) DISPLA Y SCREEN T o access this display from the LID default screen: 1. Press MENU . 2. Press SERVICE . 3. Scroll down to highlight CONTROL ALGORITHM ST A TUS . 4. Press SELECT .
PIC System Functions NOTE: In the rest of this manual, words not part of para- graph headings and printed in all capital letters can be viewed on the LID (e.
NOTE: This schedule is for illustration only , and is not in- tended to be a recommended schedule for chiller operation. Depending on its operating mode, the chiller uses the fol- lowing occupancy schedules: • LOCAL mode — Occupancy Schedule 01(OCCPC01 on the SCHEDULE screen).
T able 3 — Protective Safety Limits and Control Settings MONITORED P ARAMETER LIMIT APPLICABLE COMMENTS TEMPERA TURE SENSORS OUT OF RANGE –40 to 245 F (–40 to 1 18.3 C) Must be outside range for 2 seconds PRESSURE TRANSDUCERS OUT OF RANGE 0.08 to 0.
2. The motor load ramp loading rate is an operator-configured value that limits the rate at which the compressor motor current or compressor motor load increases. ( LOAD PULL- DOWN %/MIN on the CONFIG screen). T o select the ramp type, highlight the SELECT RAMP TYPE parameter on the CONFIG screen and select either 0( TEMP )o r1( LOAD ).
Oil Cooler — The oil for the external gear and the com- pressor must be cooled while the compressor is running. The compressor oil cooler is a water-cooled, helical, tube-in- shell type heat exchanger . A plug valve is manually set to maintain proper temperatures.
W ater/Brine Reset — Three types of chilled water/ brine reset are available, Reset T ype 1, Reset T ype 2, and Reset T ype 3. They can be viewed or modified on the CON- FIG screen (accessed from the EQUIPMENT CONFIGU- RA TION table). See T able 2, Example 6.
Surge Protection — Compressor surge can be de- tected by the PIC based on operator configured settings. Surge causes amperage fluctuations of the compressor motor . The PIC monitors these amperage swings, and if the swing is greater than the configured setting ( SURGE DELT A PERCENT AMPS ) in one second, then one surge event has occurred.
LEAD/LAG OPERA TION — The PIC control has the ca- pability to operate 2 chillers in the lead/lag mode. It also has the additional capability to start a designated standby chiller when either the lead or lag chiller is not operating and capacity requirements are not being met.
F AUL TED CHILLER OPERA TION — If the lead chiller shuts down because of an alarm (*) condition, it stops com- municating with the lag and standby chillers. After 30 sec- onds, the lag chiller becomes the acting lead chiller and starts and stops the standby chiller , if necessary .
TEMPERA TURE CONTROL DURING ICE BUILD —During ice build, the capacity control algorithm uses the W A TER/BRINE CONTROL POINT minus 5 F (2.7 C) to con- trol the LEA VING CHILLED W A TER temperature. The ECW CONTROL OPTION (see CONFIG screen), the 20 mA DEMAND LIMIT , and any temperature reset option are ig- nored during ice build.
NOTE: The LID does not automatically re-attach to the PSIO module on the chiller . Access the A TT ACH TO NETWORK DEVICE table, scroll to LOCAL , and press the A TT ACH softkey to upload the local device. The software for the local chiller will now be uploaded.
7. Press SELECT to access the holiday table. The LID screen now shows the holiday start month and day , and how many days the holiday period will last. See Fig. 24. 8. Press NEXT or PREVIOUS to highlight HOLIDA Y ST ART MONTH, ST ART DA Y ,o r DURA TION .
If any of these requirements are not met, the PIC aborts the start and displays the applicable pre-start mode of failure on the LID default screen. A pre-start failure does not ad- vance the ST ARTS IN 12 HOURS counter (ST A TUS01 screen).
Safety Shutdown — A safety shutdown is identical to a manual shutdown with the exception that the LID displays the reason for the shutdown, the alarm light blinks continu- ously , and the spare alarm contacts are energized. A safety shutdown requires that the RESET softkey be pressed in order to clear the alarm.
The rotation direction of the motor is shown either on the motor nameplate or on the certified drawing. Information on the required phase rotation of the incoming power for this motor may also be found on the nameplate or drawing. If either is unknown, the correct sequence can be determined as follows.
Fig. 25 — 17EX Leak T est Procedures 47.
T able 5A — HFC-134a Pressure — T emperature (F) TEMPERA TURE (F) PRESSURE (psi) 0 6.50 2 7.52 4 8.60 6 9.66 8 10.79 10 1 1.96 12 13.17 14 14.42 16 15.72 18 17.06 20 18.45 22 19.88 24 21.37 26 22.90 28 24.48 30 26.1 1 32 27.80 34 29.53 36 31.32 38 33.
4. Leak Determination — If an electronic leak detector in- dicates a leak, use a soap bubble solution, if possible, to confirm it. T otal all leak rates for the entire chiller . Leak- age for the entire chiller at rates greater than the EP A (En- vironmental Protection Agency) guidelines or local codes must be repaired.
Inspect W ater Piping — Refer to the piping diagrams provided in the certified drawings and the piping instruc- tions in the 17EX Installation Instructions manual. Inspect the piping to the cooler and condenser . Be sure that flow directions are correct and that all piping specifications have been met.
2. Direct current (as from a welder) can be passed through the winding. The total current should not exceed approxi- mately 50% of the rated full load current. If the motor has only 3 leads, 2 must be connected together to form one circuit through the winding.
Fig. 27 — External Gear Lubrication System 52.
T able 7 — Recommended Compressor and External Gear Fastener Tightening T orques F ASTENER DIAMETER (in.) TORQUE* Lb.-Ft. (N • m) UNC Minimum Maximum 1 ⁄ 4 7 (9.5) 9 (12.2) 5 ⁄ 16 14 (19.0) 17 (23.1) 3 ⁄ 8 25 (33.9) 31 (42.0) 7 ⁄ 16 40 (54.
1. Check that all wiring connections are properly termi- nated to the starter . 2. V erify that the ground wire to the starter is installed prop- erly and is of suf f icient size. 3. V erify that the motors are properly grounded to the starter . 4. Check that all the relays are properly seated in their sockets.
5. After the last digit is changed, the LID goes to the BUS # parameter . Press the EXIT softkey to leave the screen, record your password change, and return to the SER VICE menu. BE SURE TO REMEMBER YOUR PASSWORD. Retain a copy of the password for future reference.
If surge prevention occurs too soon or too late, make the following adjustments: LOAD SURGE PREVENTION SURGE PREVENTION OCCURS TOO SOON OCCURS TOO LA TE At low loads ( , 50%) Increase P1 by 10 psid (70 kPad) Decrease P1 by 10 psid (70 kPad) At high loads ( .
T able 8 — Control T est Menu Functions TESTS TO BE DEVICES TESTED PERFORMED 1. Automated T ests* Operates the second through seventh tests 2. PSIO Thermistors Entering chilled water Leaving chilled water Entering condenser water Leaving condenser water Discharge temperature Bearing temperature Motor winding temperature Oil sump temperature 3.
3. Chiller is charged with refrigerant and all refrigerant and all oil valves are in their proper operating position. 4. Gear oil, compressor oil, and motor bearing oil are at the proper levels in the reservoir sight glasses. 5. Compressor oil reservoir temperature is above 140 F (60 C) or refrigerant temperature plus 50° F (28° C).
Under normal conditions, for the self-lubricating bear- ing, the rate of temperature rise should be from 20° to 25° F (11° to 14° C) during the first 10 minutes after starting up and approximately 40° F (22° C) over 30 minutes. The rate of bearing temperature rise is a function of the natural ventilation and operating conditions.
2. Of fset and Angular Alignment — Reverse dial indication or optical methods of alignment (such as lasers) are rec- ommended. A cold alignment and a hot check (with cor- rections, if necessary) are required. The hub flange OD can be used to mount the alignment equipment and is ma- chined to be concentric to the coupling bore.
4. General Recommendations a. Both disc couplings are designed to operate for ex- tended periods without the need for lubrication or main- tenance. V isual inspection of the disc packs is enough to assess the operational condition of the coupling. b. All machinery should be monitored to detect unusual or changing vibration levels.
Instruct the Operator — Check to be sure that the op- erator(s) understands all operating and maintenance proce- dures. Point out the various chiller parts and explain their function as part of the complete system.
NOTE: If the chiller fails to stop, in addition to action that the PIC initiates, the operator should close the guide vanes by overriding the guide vane target to zero (to reduce chiller load) and then by opening the main disconnect. Do not at- tempt to stop the chiller by opening an isolating knife switch.
REFRIGERA TION LOG CARRIER 17EX EXTERNALL Y GEARED CENTRIFUGAL CHILLER Plant Chiller Serial No. Chiller Model No. Refrigerant T ype REC. 1 REC. 2 REC. 3 REC.
NOTE: Location of pumpout compressor may vary depending on ma- chine arrangement. DRIVE END COMPRESSOR END REAR VIEW COOLER ISOLA TION VA LV E 9 10 7 11 CHILLER CHARGER V AL VE Fig.
2. T o determine economizer/storage vessel pressure, attach a 30 in.-0-400 psi (-101-0-2760 kPa) gage to the vessel. 3. Refer to Fig. 32 for valve locations and numbers.
T ransferring Refrigerant into the Cooler/ Condenser/Compressor Section — These steps de- scribe how to transfer refrigerant from the economizer/ storage vessel into the cooler/condenser/compressor section. This is normally done to prepare for service work on the economizer/storage vessel.
Refrigerant HFC-134a MUST NOT be mixed with air or oxygen and pressurized for leak testing. In general, this refrigerant should not be allowed to be present with high concentrations of air or oxygen above atmo- spheric pressures, because the mixture can undergo combustion.
LEGEND 1— Lubricating Tube 2A — O-Ring 2B — O-Ring 3— Seal Housing 4— Coupling Guard Mounting Ring 5— Plain 1 ⁄ 2 -in. W asher (8 Required) 6— Hex Head Bolt, 1 ⁄ 2 - 1 3×4l g( 8 Req.
9. Place a clean, lint-free cloth on a smooth, sturdy work surface. Place the seal housing assembly on the cloth with the face of the contact sleeve in contact with the cloth. While one person pushes down on the housing to compress the spring, another person must remove the snap ring.
Chiller Alignment ALIGNMENT METHODS — There are several established procedures for aligning shafts. The dial indicator method is presented here since it is considered to be one of the most accurate and reliable. Another faster and easier method for alignment involves using laser alignment tools and comput- ers.
2. Parallel in elevation — This alignment is also made with shims, but it cannot be made while there is angular mis- alignment in elevation. 3. Angular in plan — This position can easily be lost if placed ahead of the two adjustments in elevation.
If the larger opening remains the same but changes from side to side, the shafts are in perfect alignment. The change in opening is due entirely to coupling runout, as above, or to a burr or other damage to the coupling face. If the larger opening remains the same, and remains on the same side, the amount is entirely shaft (net) misalignment.
4. Loosen all holddown bolts except the pivot bolt. T urn the screw jack until the rear end of the equipment moves against the indicator by the desired amount. 5. T ighten the holddown bolts and recheck the indicator . If the reading has changed, loosen the three bolts and re- adjust.
When using brackets, the diameter in the alignment for- mula (see Near Final Alignment, Connecting Angular Mis- alignment section) will be that of the circle through which the dial indicator rotates. 1. Shut down the chiller . 2. W ith chiller at operating temperature, quickly install brackets.
WEEKL Y MAINTENANCE Check the Lubrication System — Mark the oil level on the compressor reservoir sight glass, and observe the level each week while the chiller is shut down. If the level goes below the lower sight glass, the oil re- claim system will need to be checked for proper operation.
5. Open the drain located on the shell of the cooler/filter . Run a hose from the drain to a bucket to catch the oil. 6. Once the pressure has been relieved and the oil drained, loosen the bolts that hold the cover on the filter body . Remove the old filter cartridges and replace with a new filter cartridge.
The lubricant should be drained while the gear is at op- erating temperature. The gear drive should be cleaned with a flushing oil. Used lubricant and flushing oil should be com- pletely removed from the system to avoid contaminating new oil. T o change the oil in the external gear: 1.
CLEANLINESS — On open ventilated motors, screens and louvers over the inlet air openings should not be allowed to accumulate any build-up of dirt, lint, etc.
7. When removing the labyrinth seals, note the position of the anti-rotation button located on the inside of the top half of the seal. Pull up the garter spring surrounding the floating labyrinth seal and carefully slip out the top half. Rotate the garter spring until the lock is visible.
14. Reinstall the bearing housing split bolts. Before torqu- ing bearing housing cap bolts, rotate the shaft by hand while bumping the bearing housing with a rubber or raw- hide mallet in the horizontal and axial planes to allow the bearings to align themselves to the shaft journals.
Fill the gear drive to the recommended oil level with heated Shell VSI grade 68 oil or its equivalent, heated between 1 10 and 120 F (43 and 49 C). Do not overfill.
Water must be within design flow limits, clean, and treated to ensure proper chiller performance and reduce the po- tential of tube damage due to corrosion, scaling, ero- sion, and algae. Carrier assumes no responsibility for chiller damage resulting from untreated or improperly treated water.
temperature control overrides, hot gas bypass, surge al- gorithm status, and time schedule operation. Refer to Fig. 14 and T able 2, Examples 1 1-14. • The control test feature checks for proper ope.
4. A high pressure point can also be calibrated between 240 and 260 psig (1655 and 1793 kPa) by attaching a regu- lated 250 psig (1724 kPa) pressure (usually from a ni- trogen cylinder).
LEGEND FOR T ABLE 12, A - N 1CR AUX — Compressor Start Contact CA P — Compressor Current CCN — Carrier Comfort Network CDFL — Condenser W ater Flow CHIL S S — Chiller Start/Stop CHW — Chil.
T able 12 — LID Primary and Secondary Messages and Custom Alarm/Alert Messages with T roubleshooting Guides (cont) D. PRE-ST ART ALERTS: These alerts only delay start-up.
T able 12 — LID Primary and Secondary Messages and Custom Alarm/Alert Messages with T roubleshooting Guides (cont) G. ST ART -UP F AILURES: This is an alarm condition.
T able 12 — LID Primary and Secondary Messages and Custom Alarm/Alert Messages with T roubleshooting Guides (cont) I. NORMAL RUN WITH RESET , TEMPERA TURE, OR DEMAND PRIMAR Y MESSAGE SECONDAR Y MESSAGE PROBABLE CAUSE/REMEDY RUNNING — RESET ACTIVE 4-20MA SIGNAL Reset program active based on CONFIG screen setup.
T able 12 — LID Primary and Secondary Messages and Custom Alarm/Alert Messages with T roubleshooting Guides (cont) L. CHILLER PROTECT LIMIT F AUL TS Excessive numbers of the same fault can lead to severe chiller damage.
T able 12 — LID Primary and Secondary Messages and Custom Alarm/Alert Messages with T roubleshooting Guides (cont) L. CHILLER PROTECT LIMIT F AUL TS (cont) Excessive numbers of the same fault can lead to severe chiller damage. Seek service expertise.
T able 12 — LID Primary and Secondary Messages and Custom Alarm/Alert Messages with T roubleshooting Guides (cont) N. OTHER PROBLEMS/MALFUNCTIONS DESCRIPTION/MALFUNCTION PROBABLE CAUSE/REMEDY Chilled W ater/Brine T emperature T oo High (Chiller Running) Chilled water set point set too high.
T able 13 — External Gear T roubleshooting Guide PROBLEM POSSIBLE CAUSE — ITEM NO.s* Excessive Operating T emperature 1,2,3,4,5,6,7,9,12,18,20,21 Oil Leakage 1,2,3,4,5,7,9,12,13,18,19,21 Gear Wear.
T able 14A — Thermistor T emperature (F) vs Resistance/V oltage Drop TEMPERA TURE VOL T AGE RESIST ANCE (F) DROP (V) (Ohms) −25.0 4.821 98010 −24.0 4.818 94707 −23.0 4.814 91522 −22.0 4.806 88449 −21.0 4.800 85486 −20.0 4.793 82627 −19.
T able 14B — Thermistor T emperature (C) vs Resistance/V oltage Drop TEMPERA TURE VOL T AGE RESIST ANCE (C) DROP (V) (Ohms) −40 4.896 168 230 −39 4.889 157 440 −38 4.882 147 410 −37 4.874 138 090 −36 4.866 129 410 −35 4.857 121 330 −34 4.
Control Modules Turn the controller power of f before servicing the con- trols. This ensures safety and prevents damage to the controller. The Processor/Sensor Input/Output module (PSIO), 8-input (Opt.
If all modules indicate a communications failure, check the communications plug on the PSIO module for proper seating. Also check the wiring (CCN bus — 1:red, 2:wht, 3:blk; Sensor bus — 1:red, 2:blk, 3:clr/wht). If a good connection is assured and the condition persists, replace the PSIO module.
Options Modules (8-Input) — The options modules are optional additions to the PIC, and are used to add tem- perature reset inputs, spare sensor inputs, and demand limit inputs. Each option module contains 8 inputs, each input meant for a specific duty .
6. Restore control system power (the LID displays, COM- MUNICA TION F AILURE at the bottom of the screen). 7. Access the SER VICE menu. Highlight and select the A TT ACH TO NETWORK DEVICE screen. Press the A TT ACH softkey . (The LID displays, UPLOAD- ING T ABLES.
T able 15 — 17EX Heat Exchanger Economizer/Storage V essel, Piping, and Pumpout Unit W eights* COOLER SIZE† COOLER TOT AL WEIGHT COOLER CHARGE ECONOMIZER/ STORAGE VESSEL ECONOMIZER REFRIGERANT MIS.
T able 17 — Additional Condenser Weights* COMPONENT HEA T EXCHANGER SIZE W A TERBOX TYPE NUMBER OF P ASSES DESIGN MAXIMUM W A TER PRESSURE ADDITIONAL DR Y WEIGHT ADDITIONAL W A TER WEIGHT psig kPa l.
T able 20A — T otal Motor W eight, English (lb) ENCLOSURE TYPE HERTZ VOL T AGE SIZE (HP) Open-Drip Proof (ODP) 60 Hz F A, FF (1250) FB, FG (1500) FH (1600) FC, FJ (1750) FD, FK (2000) 2400 4836 5721.
T able 21 — Marine W aterbox Cover Weights* HEA T EXCHANGER SIZE DESIGN MAXIMUM W A TER PRESSURE COOLER CONDENSER psi kPa lb kg lb kg 4 5-4 8 150 1034 2236 1015 1275 579 300 2068 3060 1389 1660 754 .
T able 24 — Auxiliary Systems, Electrical Data POWER SOURCE ITEM A VERAGE kW DESIGN CENTER VOL T AGE SUPPL Y V -PH-Hz FLA LRA 1 Seal Leakage Pump 0.23 1 15 1 15-1-50/60 4.78 21.7 Motor Space Heater 0.50 1 15 1 15-1-50/60 4.35 4.35 Control Module and Actuator 0.
NOTE: Refer to T able 26 for item number references. Fig. 57 — Compressor Fits and Clearances 105.
T able 26 — Compressor Fits and Clearances ITEM DESCRIPTION CLEARANCE TYPE OF MEASURE Minimum Maximum in. mm in. mm 1 1st Stage Impeller to Diaphragm See T abulation Axial 2 Interstage Labyrinth 0.012 0.305 0.016 0.406 Diametral 3 2nd Stage Impeller to Discharge W all See T abulation Axial 4 Thrust End Journal Bearing 0.
T abulation — Impeller Clearances (Open-Drive Compressors) COMPRESSOR SIZE SHROUD DIAM CODE IMPELLER DIAMETER DIMENSION* Item 1 Item 3 in. mm in. mm in. mm 17FX 3 1 12.00 304.8 .837 21.26 .638 16.21 3 12.38 314.5 .797 20.24 .609 15.47 5 12.75 323.8 .
LEGEND BRG — Bearing C— Contactor CB — Circuit Breaker CH — Channel COM — Communications COMP’R — Compressor COND — Condenser DETR — Detector DIFF — Differential DISCH — Discharge ENT — Entering EV AP — Evaporator EXT — External G.
LEGEND PH — Phase PRESS. — Pressure PSIO — Processor/Sensor Input/Output Module R— T erminal Designation SMM — Starter Management Module T— T erminal t* — Thermistor TB — T erminal Blo.
LEGEND CB — Circuit Breaker COMM — Communications N.O. — Normally Open N.C. — Normally Closed O.L. — Overload PR — Pilot Relay RLA — Rated Load Amps SMM — Starter Management Module TB .
Fig. 59 — Elementary Wiring Diagram for Starter Management Module (SMM) and Control Interface Between Starter and Chiller Power Panel (For Low and Medium V oltage Free-Standing Starters) (cont) 111.
LEGEND D P— Differential Pressure C— Contactor COMP’R — Compressor G— Ground L— Line T erminal LL — Control Power Line T erminal M— Motor OL ’ s — Overloads OS — 3-Phase Current .
NOTES FOR FIG. 60 I GENERAL 1.0 Starters shall be designed and manufactured in accordance with Carrier Engineering requirement Z-375. 1.1 All field-supplied conductors and devices, field-installation wir- ing, and termination of conductors and devices must be in com- pliance with all applicable codes and job specifications.
LEGEND EQUIP — Equipment GND — Ground HGBP — Hot Gas Bypass S— Switch T1-T4 — Power Panel Transformers TS — T erminal Strip Fig. 61 — Oil Pump and Control Power Panel (Interior View) 11 .
INDEX Abbreviations, 5 Access the Service Screen, T o (Service Operation), 42 Accidental Start-Up, T o Prevent, 61 Accuracy , Check Sensor (Checking T emperature Sensors), 84 Adding Refrigerant, 67 Adjusting the Refrigerant Charge, 67 After Extended Shutdown, 63 After Limited Shutdown, 63 After Power Failure, Auto.
INDEX (cont) Control, Auxiliary Compressor Oil Pump, 33 Auxiliary Gear Oil Pump, 33 Capacity , 32 Condenser Pump, 36 Entering Chilled W ater, 32 High Discharge T emperature, 35 Ice Build, 40 Lead/Lag,.
INDEX (cont) Initial Start-Up, Before, 45 Motor , 58 Initiation, Ice Build (Ice Build Control), 40 Input Equipment Service Parameters If Necessary , 55 Input/Output Module (PSIO), Processor/Sensor , 1.
INDEX (cont) OCCPC01S, Input the Local Occupied Schedule, 54 Occupancy Schedule, 32 Occupied Schedule (OCCPC01S), Input the Local, 54 Oil, Compressor , 77 External Gear , 77 Oil Auxiliary Relay (4C), .
INDEX (cont) Refrigerant Float System, Inspect (Scheduled Maintenance), 78 Refrigerant Leak T esting, 67 Refrigerant Pressures, Reading, 63 Refrigerant Properties, 67 Refrigerant T racer (T est After .
INDEX (cont) T est, Control (T roubleshooting Guide), 85 Perform and Automated Control, 56 Standing V acuum, 49 T esting, Refrigerant Leak, 67 This Manual (Instruct the Operator), 62 Threshold, Automa.
Een belangrijk punt na aankoop van elk apparaat Carrier 17EX (of zelfs voordat je het koopt) is om de handleiding te lezen. Dit moeten wij doen vanwege een paar simpele redenen:
Als u nog geen Carrier 17EX heb gekocht dan nu is een goed moment om kennis te maken met de basisgegevens van het product. Eerst kijk dan naar de eerste pagina\'s van de handleiding, die je hierboven vindt. Je moet daar de belangrijkste technische gegevens Carrier 17EX vinden. Op dit manier kan je controleren of het apparaat aan jouw behoeften voldoet. Op de volgende pagina's van de handleiding Carrier 17EX leer je over alle kenmerken van het product en krijg je informatie over de werking. De informatie die je over Carrier 17EX krijgt, zal je zeker helpen om een besluit over de aankoop te nemen.
In een situatie waarin je al een beziter van Carrier 17EX bent, maar toch heb je de instructies niet gelezen, moet je het doen voor de hierboven beschreven redenen. Je zult dan weten of je goed de alle beschikbare functies heb gebruikt, en of je fouten heb gemaakt die het leven van de Carrier 17EX kunnen verkorten.
Maar de belangrijkste taak van de handleiding is om de gebruiker bij het oplossen van problemen te helpen met Carrier 17EX . Bijna altijd, zal je daar het vinden Troubleshooting met de meest voorkomende storingen en defecten #MANUAl# samen met de instructies over hun opplosinge. Zelfs als je zelf niet kan om het probleem op te lossen, zal de instructie je de weg wijzen naar verdere andere procedure, bijv. door contact met de klantenservice of het dichtstbijzijnde servicecentrum.