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Panasonic CS-ME7QKUA manuale d’uso - BKManuals

Panasonic CS-ME7QKUA manuale d’uso

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Un buon manuale d’uso

Le regole impongono al rivenditore l'obbligo di fornire all'acquirente, insieme alle merci, il manuale d’uso Panasonic CS-ME7QKUA. La mancanza del manuale d’uso o le informazioni errate fornite al consumatore sono la base di una denuncia in caso di inosservanza del dispositivo con il contratto. Secondo la legge, l’inclusione del manuale d’uso in una forma diversa da quella cartacea è permessa, che viene spesso utilizzato recentemente, includendo una forma grafica o elettronica Panasonic CS-ME7QKUA o video didattici per gli utenti. La condizione è il suo carattere leggibile e comprensibile.

Che cosa è il manuale d’uso?

La parola deriva dal latino "instructio", cioè organizzare. Così, il manuale d’uso Panasonic CS-ME7QKUA descrive le fasi del procedimento. Lo scopo del manuale d’uso è istruire, facilitare lo avviamento, l'uso di attrezzature o l’esecuzione di determinate azioni. Il manuale è una raccolta di informazioni sull'oggetto/servizio, un suggerimento.

Purtroppo, pochi utenti prendono il tempo di leggere il manuale d’uso, e un buono manuale non solo permette di conoscere una serie di funzionalità aggiuntive del dispositivo acquistato, ma anche evitare la maggioranza dei guasti.

Quindi cosa dovrebbe contenere il manuale perfetto?

Innanzitutto, il manuale d’uso Panasonic CS-ME7QKUA dovrebbe contenere:
- informazioni sui dati tecnici del dispositivo Panasonic CS-ME7QKUA
- nome del fabbricante e anno di fabbricazione Panasonic CS-ME7QKUA
- istruzioni per l'uso, la regolazione e la manutenzione delle attrezzature Panasonic CS-ME7QKUA
- segnaletica di sicurezza e certificati che confermano la conformità con le norme pertinenti

Perché non leggiamo i manuali d’uso?

Generalmente questo è dovuto alla mancanza di tempo e certezza per quanto riguarda la funzionalità specifica delle attrezzature acquistate. Purtroppo, la connessione e l’avvio Panasonic CS-ME7QKUA non sono sufficienti. Questo manuale contiene una serie di linee guida per funzionalità specifiche, la sicurezza, metodi di manutenzione (anche i mezzi che dovrebbero essere usati), eventuali difetti Panasonic CS-ME7QKUA e modi per risolvere i problemi più comuni durante l'uso. Infine, il manuale contiene le coordinate del servizio Panasonic in assenza dell'efficacia delle soluzioni proposte. Attualmente, i manuali d’uso sotto forma di animazioni interessanti e video didattici che sono migliori che la brochure suscitano un interesse considerevole. Questo tipo di manuale permette all'utente di visualizzare tutto il video didattico senza saltare le specifiche e complicate descrizioni tecniche Panasonic CS-ME7QKUA, come nel caso della versione cartacea.

Perché leggere il manuale d’uso?

Prima di tutto, contiene la risposta sulla struttura, le possibilità del dispositivo Panasonic CS-ME7QKUA, l'uso di vari accessori ed una serie di informazioni per sfruttare totalmente tutte le caratteristiche e servizi.

Dopo l'acquisto di successo di attrezzature/dispositivo, prendere un momento per familiarizzare con tutte le parti del manuale d'uso Panasonic CS-ME7QKUA. Attualmente, sono preparati con cura e tradotti per essere comprensibili non solo per gli utenti, ma per svolgere la loro funzione di base di informazioni e di aiuto.

Sommario del manuale d’uso

  • Pagina 1

    © Panasonic Corporation 2013 Order No: PAPAMY1312045CE Indoor Unit CS-ME7QKUA Destination U.S.A. Canada Please file and use this manual together with the service manual for Model No. CU-5E36QBU, Order No. PAPAMY 1312037CE. PRECAUTION OF LOW TEMPERATURE In order to avoid frostbite, be assured of no refrigerant leak age during the installation or r [...]

  • Pagina 2

    2 TABLE OF CONTENTS 1. Safety Pr ecautions ............................................. 3 2. Specification ....................................................... 5 3. Features ............................................................... 7 4. Location of Controls and Components ............ 8 4.1 Indoor Un it ...................................[...]

  • Pagina 3

    3 CA UTION WA RNIN G WA RNIN G 1. Safety Precautions  Read the following “SAFET Y PRECAUTIONS” carefully bef ore perform any servicing.  Electrical work must be installed or serviced by a licens ed electrician. Be sure to use the correct rating of the power plug and main circuit for the model installe d.  The caution items stated here [...]

  • Pagina 4

    4 CA UTION 19. During installation, install the refrigerant piping properly before run the compress or. (Operation of compressor without fi xing ref rigeration piping and valves at opened condition will c ause suck-in of air, abnormal high pressure in refrigeration cycle and result in exp losion, injury etc.). 20. During pump down operation, stop t[...]

  • Pagina 5

    5 2. Specification Model Indoor CS-ME7QKUA Outdoor CU-5E36QBU Performance Test Condition ARI Power Supply Phase, Hz Single, 60 V 208 230 Min. Mid. Max. Min. Mid. Max. Cooling Capacity kW 1.80 2.01 2.90 1.80 2.01 2.90 BTU/h 6100 6900 9900 6100 6900 9900 Running Current A - 2.8 - - 2.5 - Input Power W 340 500 810 340 500 810 EER W/W 5.29 4.02 3.58 5.[...]

  • Pagina 6

    6 Model Indoor CS-ME7QKUA Outdoor CU-5E36QBU Drain Hose Inner Diameter mm (inch) 16.7 (5/8) Length mm (inch) 650 (25 -5/8) Indoor Heat Exchanger Fin Material Aluminium (Pre Coat) Fin Type Slit Fin Row x Stage x FPI 2 x 15 x 21 Size (W x H x L) mm (inch) 25.4 x 315 x 610 (1 x 1 2-3/8 x 24) Air Filter Material Polypropelene Type One-touch Power Suppl[...]

  • Pagina 7

    7 3. Features  Inverter Technology o Wider output power range o Energy saving o Quick Cooling o More precise temperature control  Environment Protection o Non-ozone depletion sub stances refrigerant (R410A)  Long Installation Piping o Long piping up to 82 ft (25 meters) for 1 room  Easy to use remote control  Quality Improvement o Ra[...]

  • Pagina 8

    8 4. Location of Controls and Components 4.1 Indoor Unit 4.2 Outdoor Unit 4.3 Remote Control[...]

  • Pagina 9

    9 5. Dimensions 5.1 Indoor Unit[...]

  • Pagina 10

    10 6. Refrigeration Cycle Diagram[...]

  • Pagina 11

    11 7. Block Diagram[...]

  • Pagina 12

    12 8. Wiring Connection Diagram 8.1 Indoor Unit[...]

  • Pagina 13

    13 9. Electronic Circuit Diagram 9.1 Indoor Unit[...]

  • Pagina 14

    14 10. Printed Circuit Board 10.1 Indoor Unit 10.1.1 Main Printed Circuit Board[...]

  • Pagina 15

    15 10.1.2 Power Printed Circuit Board 10.1.3 Indicator Prin ted Circuit Board[...]

  • Pagina 16

    16 11. Installation Instruction 11.1 Select the Best Location 11.1.1 Indoor Unit  Do not install the unit in excessive oil fume area such as kitchen, workshop and etc.  There should not be any heat source or steam near the unit.  There should not be any ob stacles bl ocking the air circulation.  A place where air circulation in the roo [...]

  • Pagina 17

    17 11.2 Indoor Unit 11.2.1 How to Fix In stallation Plate The mounting wall shall be stron g and solid enough to prevent it from the vibratio n. The center of installation plate sho uld be at more than  at right and left of the wall. The distance from installation plate edge to ceiling sho uld more than  . From installation plate left edge to[...]

  • Pagina 18

    18 11.2.3 Indoor Unit Installation 11.2.3.1 For the right rear piping 11.2.3.2 For the right bottom piping 11.2.3.3 For the embedded piping (This can be used for left rear pipi ng and bottom piping also.)[...]

  • Pagina 19

    19 11.2.4 Connect the Cable to the Indoor Unit 1. The insi de and outside connectio n cable can be connected without remo ving the front grille. 2. Unscre w the conduit cover and fix the conduit connector to conduit cover with lock nut, then secure it against chassi s. 3. Conne c tion cable between indoor u nit and outdoor unit should be UL listed [...]

  • Pagina 20

    20 11.2.5 Wiring Stripping and connecting requirement 11.2.5.1 Cutting and flaring the piping 1 Please cut using pipe cutter and then remove the burrs. 2 Remove the burrs by using reamer. If burrs are not removed, gas leakage may be caused. Turn the piping end down to avoid the metal powder entering the pipe . 3 Please make flare after inserting th[...]

  • Pagina 21

    21 12. Operation Control 12.1 Basic Function Inverter control, which equipped with a microcomputer in determining the most suitable operation mode as time passes, automatically adjusts output power fo r maximum comfort always. In order to achieve the suitable operation mode, the microcomputer maintains the set temperatur e by measuring the temperat[...]

  • Pagina 22

    22 12.1.4.2 Automatic Operation  This mode can be set using remote cont rol and the operation is decided by remote control setting temperature, remote control operation mode and indoor inta ke air temperature.  During operation mode ju dgment, indoor fan motor (with spee d of Lo-) is running for 30 second s to detect the indoor intake air tem[...]

  • Pagina 23

    23 [Heating] o According to indoor pipe temperature, a u tomati c heating fan speed is determi ned as follows.  Feedback control o Immediately after the fan motor started, f eedback control is performed on ce every second. o During fan motor on, if fan motor feedba ck ≥ 2550 rpm or < 50 rpm continue for 10 second s, then fan motor error cou[...]

  • Pagina 24

    24 12.4.2 Horizontal Airflow The horizontal airflow direction l ouvers can be adj usted manually by hand. 12.5 Quiet Operation (Cooling Mode /Cooling Area of Dry Mode)  Purpose o To provide quiet cooling operation compare to normal operation.  Control condition o Quiet operation start condition  When “Quiet” button at remote cont rol i[...]

  • Pagina 25

    25  Control contents o Fan speed auto  Indoor FM RPM depends on pipe temperature sensor of indoor he at exchanger. Auto fan speed is changed from normal settin g to quiet setting of respective fan speed. This is to reduce sound o f Hi, Me, Lo for 3dB. o Fan speed manual  Manual fan speed for quiet operation is -1 step from setting fan spee[...]

  • Pagina 26

    26 12.10 Indication Panel Note:  If POWER LED is blinking, the possible operation of t he unit are Hot Start, during Dei c e operation, operation mode judgment, or ON timer sampling.  If Timer LED is blinking, there is an abnormality operati on occurs.[...]

  • Pagina 27

    27 13. Operation Control (For Multi Split Connection) During multi split connection, indoor unit’s ope ration controls are same with single split conne ction unless specified in this chapter. 13.1 Cooling operation 13.1.1 Thermostat control  Capability supply to indoor unit is OFF (Expansion valve closed) when Intake Air Temperatur e — Inter[...]

  • Pagina 28

    28  For the 2nd judgment onwards o If indoor intake temperature - remote control setting temperature  5.4°F, if previous o perate in DRY mode, then continue in DRY mode, otherwise COOL mode is decided. o If -3.6°F ≤ indoor intake temperature - remote control setti ng temperature < 5.4°F, maintain with previous mode. o If indoor intake[...]

  • Pagina 29

    29 14. Servicing Mode 14.1 Auto Off/On Button 1 AUTO OPERATION MODE The Auto operation will be activated immediately once the Auto OFF/ON button is pressed. This operation can be used to operate air conditioner wi th limited func tion if remote control is misplace d or malfunction. 2 TEST RUN OPERATION (FOR PU MP DOWN/SERVICING PURPOSE) The Test Ru[...]

  • Pagina 30

    30 4 REMOTE CONTROL RECEIVING SOUND OFF/ON MODE The Remote Control Receiv ing Sound OFF/ON Mode will be activated if the Auto OFF/ON butt on is pressed continuously for more than 16 seco nds (4 “beep” sounds will occur at 16 th seconds to identify the Remote Control Receiving Sound OFF/ON Mo de is in standby co ndition) and pre ss “AC Reset?[...]

  • Pagina 31

    31 15. T roubleshooting Guide 15.1 Refrigeration Cycle System In order to diagnose malfunctions, make sure that there are no electrical problems before inspectin g the refrigeration cycle. Such problems include in sufficient insulation, problem with the power source, malfunction of a compressor a nd a fan. The normal outlet air temperature and p r [...]

  • Pagina 32

    32 15.1.1 Relationship between the condition of the air conditioner and pressure and electric current  Carry out the measurements of pressure, electric cu rrent, and tempe rature fifteen minutes after an operation is started.[...]

  • Pagina 33

    33 15.2 Breakdown Self Diagnosis Function 15.2.1 Self Diagnosis Function (Thr ee Digits Alphanumeric Code)  Once error occurred during operatio n, the uni t will stop its operation, and Timer LED blinks.  Although Timer LED goes off when power supply is turn ed off, if the unit is ope rated under a breakdown condition, the LED will ON again. [...]

  • Pagina 34

    34 15.3 Error Code Table[...]

  • Pagina 35

    35 Note: “ ○ ” – Frequency measured and fan spee d fixed The memory data of error code is erased when the powe r supply is cut off, or press the Auto Switch until “beep” sound heard following by pressing the CHECK button at remote control. Although operation forced to stop when abnormality d e tected, emergency operation is possible for[...]

  • Pagina 36

    36 15.4 Self-diagnosis Method 15.4.1 H11 (Indoor/Outdoor Abnormal Communication) Malfunction Decision Conditions  During startup and operati on of cooling and heating, t he data received from outdoor unit in indoor unit signa l transmission is checked whether it is no rmal. Malfunction Caused  Faulty indoor unit PCB.  Faulty outdoor unit P[...]

  • Pagina 37

    37 15.4.2 H12 (Indoor/Outdoor Cap acity Rank Mismatched) Malfunction Decision Conditions  During startup, error code appears when different ty pes of indoor a nd outdoor units are interconnected. Malfunction Caused  Wrong models interconnected.  Wrong indoor unit or outdoor unit PCBs mounted.  Indoor unit or outdoor unit PCBs defective.[...]

  • Pagina 38

    38 15.4.3 H14 (Indoor Intake Air Temp erature Sensor Abnormality) Malfunction Decision Conditions  During startup and operati on of cooling and heating, t he temperatures detected by the indoor intake air temperature sensor are used to determine sensor e r rors. Malfunction Caused  Faulty connector connecti on.  Faulty sensor.  Faulty P[...]

  • Pagina 39

    39 15.4.4 H15 (Compressor Temper ature Sensor Abnormality) Malfunction Decision Conditions  During startup and operati on of cooling and heating, t he temperatures detected by the outdoor compresso r temperature sensor are used to determine sensor e r rors. Malfunction Caused  Faulty connector connecti on.  Faulty sensor.  Faulty PCB. T[...]

  • Pagina 40

    40 15.4.5 H16 (Outdoor Current Transformer Open Circuit) Malfunction Decision Conditions  A current transformer (CT) is detected by checking the comp ressor running frequency ( ≥ rated frequency ) and CT detected input current (less than 0.65A) for continuou sly 20 seconds. Malfunction Caused  CT defective  Outdoor PCB defective  Comp[...]

  • Pagina 41

    41 15.4.6 H19 (Indoor Fan Motor – DC Motor Mechanism Locked) Malfunction Decision Conditions  The rotation speed detected by the Hall IC during fan motor operati on is used to determine abnormal fan motor (feedback of rotation > 2550rpm or < 50rpm) Malfunction Caused  Operation stops due to short circuit insid e the fan motor winding.[...]

  • Pagina 42

    42 15.4.7 H23 (Indoor Pipe Temperature Sensor Abnormality) Malfunction Decision Conditions  During startup and operati on of cooling and heating, t he temperatures detected by the indoor heat exchanger temperature sensor are used to determine sensor e r rors. Malfunction Caused  Faulty connector connecti on.  Faulty sensor.  Faulty PCB.[...]

  • Pagina 43

    43 15.4.8 H27 (Outdoor Air Temper ature Sensor Abnormality) Malfunction Decision Conditions  During startup and operati on of cooling and heating, the temperatures detected by the outdoor air temperature sensor are used to determine sensor errors. Malfunction Caused  Faulty connector connecti on.  Faulty sensor.  Faulty PCB. Troubleshoo[...]

  • Pagina 44

    44 15.4.9 H28 (Outdoor Pipe Temperature Sensor Abnormality) Malfunction Decision Conditions  During startup and operati on of cooling and heating, the temperatures detected by the outdoor pipe temperature sensor are used to determine sensor errors. Malfunction Caused  Faulty connector connecti on.  Faulty sensor.  Faulty PCB. Troublesho[...]

  • Pagina 45

    45 15.4.10 H30 (Compressor Discharge T emperature Sensor Abnormality) Malfunction Decision Conditions  During startup and operati on of cooling and heating, t he temperatures detected by the outdoor discharge pi pe temperature sensor are used to determine sensor e r rors. Malfunction Caused  Faulty connector connecti on.  Faulty sensor. ?[...]

  • Pagina 46

    46 15.4.11 H32 (Outdoor Heat Exchanger Temperature Sensor 2 Abnormality) Malfunction Decision Conditions  During startup and operati on of cooling and heating, t he temperatures detected by the outdoor heat exchanger temperature sensor are used to determine sensor e r rors. Malfunction Caused  Faulty connector connecti on.  Faulty sensor. [...]

  • Pagina 47

    47 15.4.12 H33 (Unspecified Voltag e between Indoor and Outdoor) Malfunction Decision Conditions  The supply power is detec ted for its requir ement by the indoor/out door transmission. Malfunction Caused  Wrong models interconnected.  Wrong indoor unit and outdoor unit PCB s used.  Indoor unit or outdoor unit PCB defective. Troubleshoo[...]

  • Pagina 48

    48 15.4.13 H36 (Outdoor Gas Pipe Sensor Abnormalit y) Malfunction Decision Conditions  During startup and operati on of cooling and heating, the temperatures detected by the outdoor gas pipe temperature sensor are used to determine sensor e r rors. Malfunction Caused  Faulty connector connecti on.  Faulty sensor.  Faulty PCB. Troublesho[...]

  • Pagina 49

    49 15.4.14 H37 (Outdoor Liquid Pipe Te mperature Sensor Abnormality) Malfunction Decision Conditions  During startup and operati on of cooling and heating, t he temperatures detected by the outdoor liquid pipe temperature sensor are used to determine sensor e r rors. Malfunction Caused  Faulty connector connecti on.  Faulty sensor.  Fau[...]

  • Pagina 50

    50 15.4.15 H97 (Outdoor Fan Motor – DC Motor Mechanism Locked) Malfunction Decision Conditions  The rotation speed detected by the Hall IC during fan motor operati on is used to determine abnormal fan motor. Malfunction Caused  Operation stops due to short circuit insid e the fan motor winding.  Operation stops due to breaking of wire i [...]

  • Pagina 51

    51 15.4.16 H98 (Indoor High Pressure Pr otection) Error Code will not display (no Time r LED blinking) but store in EEPROM Malfunction Decision Conditions  During heating operation, the temperature dete cted by the indoor pipe temperature sensor i s above 140°F. Malfunction Caused  Clogged air filter of the indoor unit  Dust accumulation [...]

  • Pagina 52

    52 15.4.17 H99 (Indoor Freeze Prevention Pr otection: Cooling or Soft Dry) Malfunction Decision Conditions  Freeze prevention control take s place (when in door pipe temperature is lo wer than 35.6°F) Malfunction Caused  Clogged air filter of the indoor unit  Dust accumulation on the indoor unit he at exchanger  Air short circu it  [...]

  • Pagina 53

    53 15.4.18 F11 (Indoor Pipe Temperature Sensor Abnormality) Malfunction Decision Conditions  When cooling operation, when ind oor pipe temperature or indoor heat excha nger temperature sensor is ab ove 113°F. Malfunction Caused  Faulty connector connecti on.  Faulty indoor pipe temperature sensor.  Faulty indoor main PCB. Troubleshooti[...]

  • Pagina 54

    54 15.4.19 F17 (Indoor Standby Un its Freezing Abnormality) Malfunction Decision Conditions  When the different between indoor intake air tempe r ature and indoor pipe tem perature is above 50°F or indoor pipe temperature is below 30.2°F Remark: When the indoor standby unit is free zing, the outdoor unit transfers F17 error code to the corresp[...]

  • Pagina 55

    55 15.4.20 F90 (Pow er Factor Correction Protection) Malfunction Decision Conditions  During startup and operati on of cooling and heating, when Power Factor Correction (P FC) protection circuitry at the outdoor unit main PCB senses abnormal high DC voltage level. Malfunction Caused  DC voltage peak due to power supply surge.  DC voltage p[...]

  • Pagina 56

    56 15.4.21 F91 (Refrigeration Cycle Ab normality) Malfunction Decision Conditions  During cooling, compresso r frequency = Fcmax.  During cooling and heating operatio n, running current: 0.65A < I < 1.65A.  During cooling, indoor intake - indoo r pipe < 39.2°F. Malfunction Caused  Refrigerant shortage (refrigerant leakage) [...]

  • Pagina 57

    57 15.4.22 F93 (Compressor Rotation Failure) Malfunction Decision Conditions A compressor rotation failure is detected by checkin g the compressor running condition thro ugh the position detection circuit. Malfunction Caused  Compressor termin al disconnect  Outdoor PCB malfunction Troubleshooting[...]

  • Pagina 58

    58 15.4.23 F95 (Cooling High Pressure Ab normality) Malfunction Decision Conditions During operation of cooli ng, when outdoor unit heat exchanger high temperature data (141.8°F) is detecte d by the outdoor pipe temperature sensor. Malfunction Caused  Outdoor pipe temperature rise due to sh ort circuit of hot discharge air flow.  Outdoor pip[...]

  • Pagina 59

    59 15.4.24 F96 (IPM Overheating) Malfunction Decision Conditions During operating of cooli n g and heating, when IPM temper ature da ta (212°F) is detected by the IPM temperature sensor . Malfunction Caused  IPM overheats due to short circuit of hot discharge ai r flow.  IPM overheats due to defective of outdoor fan motor.  IPM overheats [...]

  • Pagina 60

    60 15.4.25 F97 (Compressor Overheating) Malfunction Decision Conditions During operation of cooli n g and heating, when com pressor tank temperature data (233.6°F) i s detected by the compressor tank temperature sen s or. Malfunction Caused  Refrigerant shortage (refrigerant leakag e).  2/3 way valve closed.  Detection error due to faulty[...]

  • Pagina 61

    61 15.4.26 F98 (Input Over Current Detection) Malfunction Decision Conditions During cooling and heating operatio n, when an input over-curr ent (16.8A) is detected by checking the input current value being detected by current tran sformer (CT) with the compressor running. Malfunction Caused  Over-current due to compressor failure.  Over-curr[...]

  • Pagina 62

    62 15.4.27 F99 (Output Over Current Detection) Malfunction Decision Conditions During operation of cooli n g and heating, when an outp ut over-cur rent (18.5A) is detected by checking the current that flows in the inverter DC peak sensing circuitry. Malfunction Caused  DC peak due to compre ssor failure.  DC peak due to defective powe r trans[...]

  • Pagina 63

    63 WA RNIN G 16. Disassembly and Assembly Instructions High Voltage is generated in the electrical parts area by the capacitor. Ensure that t he capac itor has discharged sufficiently before proceeding with repair work. Failure to heed this cauti on may result in electric shocks. 16.1 Indoor Electronic Controllers, Cro ss Flow Fan and Indoor Fan Mo[...]

  • Pagina 64

    64 16.1.1.2 To remove discharge grille[...]

  • Pagina 65

    65 16.1.1.3 To remove control board 16.1.1.4 To remove cross flow fan and indoor fan motor[...]

  • Pagina 66

    66[...]

  • Pagina 67

    67 17. Exploded V iew and Replacement Parts List 17.1 Indoor Unit Note The above exploded view is for the purp os e of parts disassembly and repl acement. The non-numbered pa rts are not kept as standard service parts.[...]

  • Pagina 68

    68 SAFETY REF. NO. PART NAME & DESCRIPTION QTY. CS-ME7QKUA REMARK 1 CHASSIS COMPLETE 1 CWD50C1633 2 FAN MOTOR 1 L6CBYYY L0055 O 3 CROSS-FLOW FAN COMPLE TE 1 CWH02C1076 4 BEARING ASSY 1 CWH64K007 5 SCREW - CROSS-FL OW FAN 1 CWH551146 7 EVAPORATOR 1 CWB30C3504 8 FLARE NUT (LIQUID) 1 CWT251030 9 FLARE NUT (GAS) 1 CWT251031 12 CONTROL BOARD CASING [...]