FMIC/F200/F300 Ice Cuber-A3
Contents
1. 10 MAINTENANCE CLEANING AND SANITATION 10 1 Icemaker 10 2 Ice Storage Bin 10 3 Cabinet Exterior 10 4 Cleaning Ice Maker U ae D OOO a AAAA FMIC 180 amp 260 Electronic Modular ice Cuber CONTENTS FMIC 180 amp 260 Page 1 SPECIFICATIONS 13 2 FORTHE INSTALLER 14 2 1 Important operating requirements 14 2 2 Select location 14 2 3 Ice machine 14 2 4 Final check list 14 3 FOR THE PLUMBER 15 3 1 Conform to all applicable codes 15 3 2 Water Inlet 15 3 3 Drains 15 4 FORTHE ELECTRICIAN 15 4 1 Electricial Connections 15 5 START UP 15 5 1 Start up 15 16 6 OPERATION 16 6 1 Refrigeration during freeze 16 17 6 2 Water system 17 6 3 Refrigeration system during harvest 17 6 4 Water system 17 6 5 Control sequence 17 18 7 SERVICE SPECIFICATIONS 18 7 1 Component 18 7 2 Operating characteristics 18 7 3 Freeze cycle 18 7 4 Harvest cycle 18 8 COMPONENT DESCRIPTION 18 19 9 REMOVAL AND REPLACEMENT PROCEDURES 20 21 WIRING DIAGRAMS FMIC 180 amp FMIC 260 22 10 SERVICE DIAGNOSIS 23 11 MAINTENANCE AND CLEANING INSTRUCTIONS 23 11 1 Ice maker 23 24 11 2 Ice storage bin 24 11 3 Cabinet exterior 24 11 4 Cleaning Ice maker 24 12 ASSEMBLY INSTRUCTIONS OF CONVEYOR KITS FOR 24 25 ICE MACHINES TO BE FITTED ON STORAGE BIN 13 WIRING DIAGRAM CONCERNING THE CONNECTION 25 OF UPPER ICE MAKER MICRO TO CONVEYOR KIT MICRO 14 GUIDELINES FOR ICEMAKER BIN LIDS 25 F200 amp F300 Modular Ice Cuber 1 Specification Capaciti2. 9 10 9 11 9 12 9 13 CAUTION If the factory seal is broken on the replacement drier exposing it to the atmosphere for more than a few minutes the drier will absorb moisture from the atmosphere and lose substantial ability for moisture removal To replace the drier 1 Remove the factory seals from the replacement drier and install the drier in the refrigerant lines with the arrow positioned in the direction of the refrigerant flow Solder the drier into the lines two places taking precautions NOT TO OVERHEAT the drier body during installation soldering Purge the system and check for leaks Thoroughly evacuate the system to remove moisture and non condensables Charge the system with refrigerant by weight SEE NAMEPLATE Replace and attach front and left side panel OO OD TS Removal and Replacement of the Evaporator Plate Assembly Remove front and top panels Store refrigerant charge in liquid receiver and isolate parts to be opened from the rest of the system Disconnect water distributor tube above the evaporator plate and remove it Unsnap and remove evaporator cover deflector Loosen and remove all screws securing the evaporator frame to the chassis Unsolder and remove the refrigerant lines at the top of the evaporator plate to be replaced Remove nuts at top and left and right side of the evaporator to remove top and side trimming that make up the frame of the evaporator plate The evaporator plate is now free
3. To replace the evaporator plate reverse the removal procedures See nameplate Weight in proper charge of R22 R404A QUE ol ga OUI ES Water Regulating Valve Water Cooled Shut off water Remove front and right side panel Unscrew water inlet fitting connection at the water regulator valve to condenser bracket Purge system of refrigerant Unscrew fitting connection at outlet of valve Unsweat valve connection from T joint on system liquid line Remove valve from machine Reverse to reassemble NOORWN gt Thermostatic Expansion Valve Remove front top and right side panels Purge system of refrigerant Unsweat valve at inlet equaliser and outlet Remove insulation from valve bulb remove mounting straps and valve from cabinet 5 Place new valve bulb in same place as old valve secure with straps and reinsulate Reverse to reassemble nam a le NOTE Always install a replacement drier any time the sealed refrigeration system is opened Do not replace the drier until all other repair or replacement has been completed Thoroughly evacuate the system to remove moisture and non condensables Fan Motor or Blade Left and Right Side Remove left or right side service panels Remove screws and fan motor shroud Unplug fan motor to be removed Remove fan motor bracket from upper tie rod of unit chassis Remove fan blade from motor Note location on motor shaft and hub position To also replace fan motor remove it
4. below 1 bar may cause malfunction of the ice maker unit Water containing excessive minerals will tend to produce cloudy coloured ice cubes plus scale build up on parts in the water system Heavily chlorinated water can be controlled using charcoal or carbon filters Drains AIR COOLED MODELS There is one 20mm dia sump drain fitting at the back of the cabinet the drain lines are gravity type and 3 fall is recommended Insulation in high humidity areas is recommended There must be a vent at the highest point of the drain line and the ideal drain receptacle would be a trapped and vented floor drain WATER COOLED MODELS Besides the above drain a separate condenser drain must be run Connect it to the 3 4in gas condenser drain connection at the back of the cabinet STORAGE BIN A separate gravity type drain needs to be run similar to the air cooled sump drain insulation of this drain line is recommended For The Electrician 5 The unit comes equipped with an electrical cord for power supply The lead wires must be connected to an electrical plug that corresponds to the local electrical codes and requirements or to a separate two pole isolator with opening to the contacts of about 3mm The isolator should be placed close to the selected ice maker Undersized wiring or incorrectly installed electrical circuit will result in major problems and malfunctions Voltage variations should not exceed ten per cent IMPORTANT All plumbing
5. constant Water is coming into the water reservoir through the Water Inlet Solenoid Valve until it reaches the maximum level controlled by the Water Level Sensor After 30 seconds the Water Pump starts up 3 minutes after the start of the freeze cycle the Water Inlet Solenoid Valve is activated for a few seconds until the water reaches the maximum level this is to reduce the possibility of slush ice formation In the meantime the condenser sensor starts to transmit the current to the PC Board keeping in operation the Fan Motor in ON OFF mode or continuously according to the condenser temperature Note Do not remove the evaporator deflector as it will cause the switching off of the machine at FULL STORAGE BIN The machine remains in the freezing cycle with the ice becoming thicker until the two metal fingers of the Ice Thickness Sensor energised at low voltage are covered by the water cascading over the front surface of the ice plate If the contact between the two metal fingers remains established by the water for more than 10 seconds power is transmitted back to the PC Board and the machine enters into the Harvest Cycle mode depending on Fan motor in ON OFF Mode during the previous freezing cycle If the Condenser Sensor detects a rise in temperature to 38 C due to high Ambient the length of the freezing cycle is extended by 30 seconds before entering the harvest mode Fan motor running CONTINUOUSLY during the previous freezing
6. A FOSTER Ice System represent a sizable investment of time and money in any company s business In order to receive the best return for that investment in MUST receive periodic maintenance It is the USER S RESPONSIBILITY and less costly in the long run to avoid possible down time by keeping it clean adjusting it as needed and by replacing worn parts before they can cause failure The following is a list of recommended maintenance that will help keep your machine running with a minimum of problems Maintenance and Cleaning should be scheduled at a MINIMUM of twice per year 11 1 Ice Maker THE FOLLOWING MAINTENANCE SHOULD BE SCHEDULED AT LEAST TWICE A YEAR ON THIS ICE MAKER CALL YOUR AUTHORISED SERVICE AGENCY 1 Check and clean or service any optional water treatment devices if any are installed 2 Clean water strainer 3 Check that the cabinet is level in the side to side and front to back directions 4 Clean the water system evaporator plate and sump assembly using a solution of Ice Machine Cleaner Refer to CLEANING Ice maker NOTE Cleaning requirements vary according to local water conditions and individual user operation Continuous checking of the clarity of ice cubes and visual inspection of the water system parts evaporator plates and the sump assembly before and after cleaning will indicate frequency and procedure to be followed in local areas 23 Wiri Di Check the second and third cube harvest Ensure that they are the c
7. Assembly for recirculation 4 Remove the evaporator deflector cover temporarily and feel inside the ice cube mould of the egg crate evaporator this should feel cold to the touch shortly after ice will begin to form First freezing cycle will range between 20 and 25 minutes Longer for temperature above 25 C and shorter when temperature is below 25 C Average complete cycle time is about 25 minutes 5 Make sure of correct operation of float valve and water pump 6 Check for any irregular noise source and if any eliminate it 7 Replace plastic cover deflector before harvest cycle 8 Observe first ice cube harvest a Check operation of N C microswitch magnetic switch on models controlling the ice maker operation by keeping open the bottom end of the plastic deflector for more than 30 seconds b Check size of ice cubes if an adjustment is required thread down or out screw N 1 as shown in the illustration This screw position determines the distance between the sensor reeds and the egg crate evaporator thus keeping the ice cube at a proper thickness 9 Observe second and third cube harvest Check if size and shape combination is correct In areas where extreme water problem conditions exist filtering or purifying equipment is recommended NOTE If water used is too soft demineralised the ice thickness sensor might not be able to sense the water on its reeds thereby it will not switch the unit on harvest cycle A safety syst
8. Compressor E Toggle switch F Pressostat G Ice sensor REFRIGERATION SYSTEM SCHEMATIC 4 1 Refrigeration during freezing This ice machine employs either air standard or water optional as a condensing media the refrigeration system for either one is as follows The refrigerant metering is by thermostatic expansion valve 4 2 Water System during freezing A combination of the water inlet solenoid valve and water level sensor is used to control the level of the water in the reservoir sump 30 seconds from the start of the freeze cycle the water pump starts forcing water to the top of the evaporator where it is distributed through the water tube and then cascades over the surface of the evaporator by gravity Some of the water will turn to ice with the remainder returning to the water reservoir for redistribution over the evaporator Colour of the Cables bc Light blue gv Yellow green 4 3 Ice harvest cycle When the ice reaches the desired size as determined by the fingers of the ice thickness sensor the hot gas bypass valve is energised allowing the hot gas to warm the evaporator resulting in the ice cube block falling into the storage bin below UNUD YU SF UOD LIII bc ei le Jo a q N ia o ri o eo EN N 5 LZ o Q ihn FT zia m z 4 4 Water system during ice harvest cycle During the harvest cycle the electric water drain valve is energised opening the drain line All of the water rem
9. SHOULD BE SCHEDULED FOR AT LEAST TWO TIMES PER YEAR ON THE ICE MAKER AND 6 2 SHOULD BE CARRIED OUT BY YOUR AUTHORISED SERVICE AGENT i Check and clean or service any optional water treatment devices if installed Clean water strainer Check that the cabinet is level checking from front to back and side to side Clean Sanitise the water system evaporator plate and water reservoir using a solution of Citric Acid refer to Cleaning Icemaker Note Cleaning Sanitising requirements vary according to local water conditions and individual user operation Continuous checks of the clarity of the ice cubes and visual inspection of the water systems parts evaporator plate and the reservoir before and after cleaning will indicate frequency and procedure to be followed Check and tighten all bolts and screws Check for water leaks and secure as necessary Check the bin control to test shut off Holding the evaporator deflector in the open position for more than 30 seconds should cause the ice machine to hut off Once the deflector has been returned to the closed position the ice making process will restart Check cube size make adjustments to the ice thickness sensor as necessary Switch the machine OFF clean the condenser using a vacuum cleaner brush between the fins using a soft brush DO NOT USE AWIRE BRUSH Instruct the user to clean condenser frequently Ice Storage Bin The interior of the ice storage bin is in contact with food products ICE
10. and electrical connections must be made by licensed plumbers and electricians and must follow the electrical specifications printed on the ice maker nameplate NOTE All Foster Cubers require a neutral wire and a solid earth ground wire to prevent possible severe Electrical Shock Injury to individuals or extensive damage to equipment Start Up 5 1 Start Up 1 Remove the screws and pull the Front Panel out 2 Check that the Master ICE OFF WASH toggle switch is in the OFF position on the Control Box side 3 Open the water supply line shut off valve NOTE Observe that the inlet water can be seen flowing into the Sump Assembly Allow water to fill the Sump about three minutes until the water is at the correct level The float should cause the water to stop a few mm from reservoir overflow When the water has filled the Sump Assy and has forced all of the trapped air out of Water Pump and pump tube therefore preventing the pumping of water filled with air bubbles DO NOT start Water Pump when the Sump Assy is filling with water WAIT until the Sump is filled Put unit under power by moving the power line switch to ON position Move the toggle switch to ICE position Third and fourth LEDs on console panel will glow respectively indicating that unit and compressor are under electric power 15
11. and should be cleaned and sanitised regularly Once a week sanitise it with a commercial food grade sanitiser in compliance with the manufacturer instruction Cabinet Exterior Wipe clean the machine and ice bin exterior with a clean cloth or tissue soaked in a mild solution of soapy water Cleaning Ice Maker Empty the bin of ice Remove the front panel Wait till the end of the defrost harvest cycle then push and hold the RESET BUTTON for 6 to 8 seconds The machine will stop with the blinking of the Amber LED slow blink Pour 100gr of citric acid directly into the reservoir then push the RESET BUTTON again for a short while The water pump starts to operate with the fast blinking of the Amber LED the water inlet valve will be energised till the reservoir is full After 15 minutes push the RESET BUTTON for a short while The P C Board will put the machine in automatic rinsing mode with the Amber LED blinking blinking twice and then repeat NOTE Rinsing mode consists of a Energising the water drain valve and the water pump for 40 seconds to empty the reservoir b De energise the water drain valve and the water pump for 1 minute 6 3 c Energise the water inlet valve till the reservoir is full d Energise the water pump for 1 minutes The above sequence is repeated 7 time so as to be sure that all traces of citric acid have been removed At the end of the 7th rinsing cycle the P C gt Board stops the operation of the machine and
12. power to machine Check electrical source Bin Full Amber LED ON Bin Full of Ice None Magnetic Switch inoperative Check and replace 7 Service Specification In servicing a machine it is offen useful to compare individual units operating characteristics to those of a normally operating machine The data that follows gives those characteristics however be aware that these values are for a NEW CLEAN machine USE THESE NUMBERS AS A GUIDELINE ONLY COMPONENT R22 R404A Machines Machine Runs but compressor not running P C Board compressor relay open Test and Replace Reservoir level 30 35 mm Compressor Contactor open Test and Replace Cube Size Control Ice Sensor Compressor relay open Test and Replace distance from evaporator 7mm Compressor Winding open Test and Replace High Pressure Safety Switch Water cooled Fan Pressure Control Air cooled only C IN 13 bar C OUT 20 bar Machine runs makes ice does not try to harvest Ice thickness control open Check sensor fingers to determine if covered with scale or sediment Water electrical conductivity must be higher than 20 uS Machine will not run with demineralized water Built in relay on P C Board open Check and replace P C Board Machine runs makes ice and Low Refrigerant Charge Check system for correct refrigerant charge harvests ice but very slowly Check system for leak High discharge pressure due to under condensing or refrigerant overcharge Inefficie
13. pump replace pump Check refrigeration system pressure check system for leak check condenser condenser for clog or poor air circulation check compressor Test and replace relay must be energised to freeze Machine runs makes ice does not try to Ice thickness control open Check sensor fingers are not covered with scale harvest sediment Built in transformer for ice thickness control Check and replace P C Board open Built in relay on P C Board open Check and replace P C Board Machine runs makes and harvests ice Low refrigerant charge Check system repair leak weigh in charge but very slowly Low ice capacity High discharge pressure due to not Evacuate and weigh in charge condensable or overcharge Inefficient compressor Replace Condenser dirty Clean Low water pressure water cooled Check and repair High air temperature air cooled Check temperature of air entering condenser Machine makes irregular ice Low water supply Check float valve not maintaining proper water level in reservoir Check and repair or replace Clean machine Adjust or replace Adjust check or leak Recharge Water pump not running Plugged water distributor TXV super heat wrong Refrigerant charge low Machine runs makes ice but does not Hot gas valve coil open Test and replace hot gas valve harvest Hot gas valve will not open Test and replace hot gas valve 11 Maintenance and Cleaning Instructions
14. the Amber LED will be blinking slowly Push and hold the reset button for 6 to 8 seconds the machine will restart in the freezing mode Replace the evaporator deflector and front panel Check the next batch of ice to be sure all of the cleaner has gone no sour taste 6 4 Caution DO NOT use ice cubes produced from the cleaning solution Ensure none remain in the storage bin Pour hot water into the storage bin to melt any cubes that may remain and to also clean the bin drain 6 5 12 The thermostatic expansion valve meters how much liquid refrigerant is to be allowed into the evaporator section of the refrigeration system This is determined by the temperature of the TXV sensing bulb located on the suction line manifold at the outlet of the evaporator If the bulb senses a warm suction line more refrigerant is allowed into the evaporator common at the beginning of the freeze cycle and when the temperature begins to fall less refrigerant is allowed through This is why the suction side gauge pressure will decline throughout the freeze cycle At the evaporator the liquid refrigerant released from high pressure boils off in the low pressure environment and absorbs heat thus cooling the evaporator surface and anything near it such as water The low pressure refrigerant vapour then is forced through the heat exchanger where any excess liquid refrigerant boils off allowing only refrigerant vapour to enter the compressor suction tube wher
15. the shoot conveyor No 10 Fig 6 at the edge of the upper ice maker water pan and fix it to the vertical conveyor No 7 previously b the water conductivity value must not 5 Unlock the sensor and the baffle by removing fitted on the lower ice maker as indicated on Fig 6 be below 10 us cm the transit packaging 1and tape 2 which have 7 Connect the upper ice maker micro to the conveyor kit as explained on Fig 5 and on the enclosed wiring diagram c the main water temperature must not been applied to avoid any damage during 8 Place back the panels previously removed iu en B C 40 F or above transportation Fig 16 amp Fig 17 6 The icemaker has been designed for coupling d the main water pressure with another icemaker which can be installed on must not fall below the top of the first one For this installation a kit 1bar 14 PSI or above can be supplied upon request It contains all 5 bar 70 PSI If necessary assembling instructions pressure is above 5 bar Fig 24 a pressure regulator 7 Do not put the machine in a dusty should be fitted to environment as this could cause a fast build up of 13 Air deflector installation Fig 24 The the water supply to the dust etc therefore effecting the efficient working deflector has to be installed in order to machine Fig 11 of the condenser only for air cooled models prevent the re circulation of hot air to the Fig 11 condenser 8 Never keep food bottles or other things in t
16. 1 4 Cleaning Ice Maker WARNING Ice Machine Cleaner contains Phosphoric and Hydroxyacetic acids These compounds are corrosive and may cause ON DANKRWN gt burns If swallowed DO NOT induce vomiting Give large amounts of water or milk Call physician immediately In case of Disassembly of machine and or 2 Match the icemaker to recommended If the Fig 18 external contact flush with water components its storage bin fixing them d 2 San To EE h Adjustment and setting procedures with the two screws rich in minerals and their derivatives the KEEP OUT OF THE REACH OF CHILDREN Machine cleaning and maintenance relative Fig 20 pel with the machine R Sa water bun Is 1 Empty bin of ice to the following parts and components Fig 20 ur c aie 2 Remove front panel l l l ae i 3 Clean the inside of mach d st bin by machine Fig 18 3 Switch the Master switch power line and Unit Toggle switch OFF 20s SENS MISSAE eene d Suum Wace ande edi bI caa i 4 Remove evaporator cover deflectors by lifting up and pulling up dampened sponge rinse with plain water and dy 11 Fit the flexible drain pipes to the 5 Switch the Master switch power line ON Pour 200grs of Ice Machine Cleaner into the reservoir and put the unit toggle switch to fi thoroughly o oo See T WASK ROSMON Muniti tor 2 mutes l l genera spec ICations 4 Locate the icemaker and the drain water backing up For a perfect 6 Using correct brush clean the interior of each evap
17. 2 Unplug water valve 3 Remove clamp securing outlet tube to valve 4 Remove hose clamp and hose from inlet fitting 5 Remove two screws and nuts securing valve to its metal bracket and remove valve Reverse to replace Compressor 1 Remove top panel if possible front panel leff side service panel and left fan motor shroud 2 Store refrigerant charge in liquid receiver 3 Disconnect electrical lines from compressor 4 Isolate parts to be opened from the rest of the system 5 Remove compressor mounting bolts Reverse to reassemble NOTE Always install a replacement drier any time the sealed refrigeration system is opened Do not replace the drier until all other repair or replacement has been completed Condenser Air Cooled 1 Remove both side panels and remove screws of condenser bracket 2 Store most of refrigerant charge in liquid receiver 3 Isolate parts to be opened from the rest of the system 4 Cut or unsweat liquid and discharge lines 5 Unbolt and remove condenser from unit rear side Reverse to reassemble Condenser Water Cooled Shut off water Remove front and left side panels Store most of refrigerant charge in liquid receiver Isolate parts to be opened from the rest of the system Unsweat water and refrigerant lines Unbolt and remove condenser Reverse to reassemble Hot Gas Valve Remove front right side panel and right fan motor shroud Unplug hot gas valve Purge system of
18. Foster Refrigerator Oldmedow Road King s Lynn Norfolk PE30 4JU England Tel 01553 691122 Fax 01553 691447 Website www fosterrefrigerator co uk E mail sales foster uk com a Division of ITW UK Ltd F FMIC SM 03 03 POSTER REFRIGERATOR Service Manual F200 amp F300 Modular Ice Cuber amp FMIC 180 amp 260 Electronic Modular Ice Cuber POSTER REFRIGERATOR Service Manual F200 amp F300 Modular Ice Cuber CONTENTS F200 amp F300 1 SPECIFICATION 1 1 Capacities 1 2 Installation Notes 1 3 Stacking Installation INSTALLATION INSTRUCTIONS 2 START UP CYCLE 2 1 Start Up Cycle 2 2 Freezing Cycle 3 HARVEST CYCLE 4 OPERATION 4 1 Refrigeration During Freezing 4 2 Water System During Freezing 4 3 lce Harvest Cycle 4 4 Water System During Ice Harvest Cycle 4 5 Control Sequence 5 ALARM CONDITIONS 6 P C BOARD SET UP 6 1 Water Error 6 2 Too High Condensing Temperature 7 COMPONENT DESCRIPTION 7 1 Front Console Panel 7 2 P C Board 7 3 Compressor Contactor 7 4 Ice Thickness Sensor 7 5 Magnetic Switch 7 6 Hot Gas Valve 7 7 Condenser Temperature Sensor 7 8 High Pressure Control 7 9 Water Regulating Valve water cooled models only 7 10 Water Distribution System 7 11 Water Drain Solenoid Valve 7 12 Thermostatic Expansion Valve 7 13 Water Pump 7 14 Water Inlet Solenoid Valve male fitting 7 15 Water Level Sensor WIRING DIAGRAM 9 SERVICES DIAGNOSTICS
19. aining in the reservoir at the end of the freezing cycle is pumped out to drain through the water solenoid valve during the last 40 seconds of the defrost cycle eliminating any possible build up and accumulation of mineral concentration and other impurities in the reservoir The water inlet valve is energised for the last 10 seconds whilst the pump is running to allow fresh water to rinse the reservoir When the ice cube block is released from the evaporator it causes the deflector to swing open sufficiently to reset the contactor of the magnetic switch which via the PC Board de energises the water drain valve initiating a new freezing cycle The harvest defrost cycle lasts between 1 and 2 minutes Water drain valve H N C Microswitch Magnetic Switch L Electronic card M Fan motor N Motor pump O P Hot gas valve ESI 180 260 W A As LE SBELEDERA Lb sp af ans 4 5 Control sequence At the start of the freezing cycle the contacts of the magnetic switch mechanically operated by deflector cover are closed via the PC Board thereby closing the circuit to the main contactor coil and consequently the compressor fan motor and after 30 seconds the water pump As the ice reaches the thickness required the film of water flowing over it makes contact with the ice thickness sensor fingers energised at low voltage If contact is maintained for more than 10 seconds a relay on the PC Board is energised controlling simultaneous
20. ating the adjusting screw located on top of the valve can INCREASE or DECREASE the water flow through the water cooled Condenser which in turn will DECREASE or INCREASE the Compressor operating head pressure Water Distribution System The Water Distribution System functions is to evenly supply water to all cells of the evaporator plate The water pump pumps water from the sump to the tee From there water is channelled through the vertical tygon tube to the water distributors above the evaporator plate and from the holes in the distributor tube water flows to the cells on one side of the evaporator plate Gravity flow returns the unfrozen excess portion of water to the sump reservoir for recirculation Water Outlet Solenoid Valve The Water Outlet Solenoid Valve functions in conjunction with the water pump to flush out the sump assembly at every harvest cycle This action cleans up and rinses the sump during each harvest cycle preventing dangerous water mineral concentration Thermostatic Expansion Valve TXV The Thermostatic Expansion Valve regulates the flow of refrigerant to the evaporator and reduces the pressure of the liquid refrigerant from condensing pressure to evaporating pressure 19 At this point the unit initiates the defrost cycle The hot gas circulating into the evaporator serpentine causes a slight melting of the ice cubes which get released from their moulds Once entirely released the ice cubes drop simultaneously into t
21. ause the machine to malfunction 10 Service Diagnosis The table below is intended as a quick reference to aid the Service Agent to determine the cause of a particular type of malfunction as well as the recommended repair It is not intended to be an exclusive list Reference to other portions of this manual including wiring diagrams installation and operation are recommended to better determine the cause of a problem symptom Possible cause Correction Machine does not run at all Master switch open Test and replace Hi pressure safety switch open W C Test and replace E C board inoperative Remove board and check No power to unit Check electrical source Machine does not run Bin full of ice None N C contacts of control switch open Check and replace Magnetic switch inoperative Check and replace Interface P C Board inoperative Check and replace Machine does not run The harvest cycle time is too long causing Press the reset push button to resume safety device to trip off unit operation and check freezing and harvest time Machine runs compressor does not Toggle switch open in ICE position Test and replace Compressor contactor open Test and replace Compressor relay open Test and replace Compressor winding open Test and replace No water in reservoir Water but not pumping Water pumping but does not cool Machine runs makes no ice Check water supply and float valve Check power to
22. available including the correct voltage electrical power e that there is space around the installed machine for service 15cm minimum left right and rear for air cooled models Ice Machine The use of a mechanical lift is recommended for lifting the uncrated ice maker onto the bin Place the unit directly onto the bin align the panels so that the unit is even with the back left and right sides of the of the bin Locate the hardware package take out two mounting screws and use them to secure the ice maker to the bin See illustration A below Remove all shipping material note the locations of the ice sensor and ice deflector Remove ice sensor protection 1 and masking tape 2 from ice deflector See illustrations B amp C below 2 4 Final Check List 1 Isthe cabinet bin level 2 Is the cuber in a location where ambient temperatures are a minimum of 10 C 50 F all year round and will not exceed a maximum of 40 C 100 F 3 Is there atleast a 15cm clearance behind and around the cabinet for all connections and for proper air circulation 4 Have all electrical and piping connections been made 5 Hasthe electrical power supply wiring been properly connected and the voltage tested and checked against the nameplate rating Has the unit been properly grounded 6 Isthe water supply line shutoff valve installed and opened and has the inlet water supply pressure been checked to ensure a minimum of 1 bar without exceeding a maximum
23. current passed to the micro processor is such to cause an immediate and total stopping of the operation with the blinking of the Red Alarm LED 7 8 High Pressure Control The High Pressure Control safety control is factory set to cut out at 30 bar and cut in at 22 bar The control functions as a precautionary device to shut OFF electrical power to the machine should a loss of water occur to water cooled machines condenser or the failure of the 9 Condenser Fan Motor on the air cooled versions The high Pressure Control is manual reset with the reset button at the on the rear of the machine and a monitoring Red LED on the Front Console Panel 7 9 Water Regulating Valve water cooled models only The water Regulating Valve function is to maintain a constant Compressor head pressure by regulating the amount of water flowing through the condenser on water cooled models The valve operates through the refrigeration system high pressure side Rotating the adjusting screw located at the top of the valve will Increase or Decrease the water flow through the water cooled condenser which in turn will Decrease or Increase the Compressor operating head pressure 7 10 Water Distribution System The Water Distribution System functions to evenly supply water to all of the cells of the evaporator plate The water is pumped from the water reservoir to the distributor above the evaporator through the holes and flows over the ice moulds Gravity returns the u
24. cycle Goes straight into the harvest mode The first freezing time will range between 15 and 20 minutes Freeze time will be longer if the ambient temperature is above 25 C and shorter if it is below 25 C The Average cycle time is about 22 minutes Harvest Cycle During the harvest cycle the components in operation are e Hot Gas Valve e Water Drain Purge Valve e Water Pump for the first 40 seconds Compressor And both of Power On LED e Machine In Operation LED 30 seconds from the start of the harvest cycle the Water Inlet Solenoid valve is energised for ten seconds to allow fresh water into the sump whilst the pump is in operation The Fan Motor remains in OFF mode unless the condenser probe detects a rise in temperature above 38 C Same as per the freezing cycle When the Ice Plate falls down from the evaporator the magnetic switch is activated sending a signal back to the PC Board to start a new freeze cycle Check the cubes from the first harvest to determine if any adjustments are required If any adjustments are needed either turn IN or OUT the screw shown as 1 in the illustration The screw position factory set at 6mm determines the distance between the sensor fingers and the front of the evaporator therefore setting the ice cube thickness NOTE This type of machines produces an Ice Plate that breaks when it falls into the storage bin Setting the ice thickness sensor to have single ice cubes may c
25. d for 3 minutes with the blinking of the green Machine In Operation LED Alarm Conditions Power On Green Bin Full Washing Amber High Pressure Red Alarm Red The two Red LED s are glowing constantly Condenser Sensor faulty Machine in Operation Green Reset Washing Push Button The two Red LED s are blinking slowly Water Error The water level inside the reservoir is to low after 3 minutes from start of the water inlet valve being activated The two Red LED s are blinking fast Reset Mode Charging water through the Water Solenoid Valve after tripping OFF on Water Error The Red Alarm LED is glowing continuously Harvest cycle longer than 3 minutes 30 seconds The Red Alarm LED is blinking slowly Too High Condensing Temperature The Condenser Sensor detected a temperature above 65 C The Red Alarm LED is blinking fast Reset Mode Condenser Sensor sensing condenser temperature below 50 C fan motor in operation for 3 minutes then back on to Start Up Cycle Mode Red High Pressure LED is glowing continuously Too High Discharge Pressure exceeding 33 bar 460 PSI Red High Pressure LED is blinking fast RESET MODE After pushing the Red Reset Button of the Pressure Control located at the rear of the machine firstly the fan motor runs for 3 minutes then back on to the Start Up Cycle Mode The PC Board also checks the maximum time of the freeze cycle that may change according to the operat
26. e brain of the system as it governs the ice machine cyclematic through sensors relays and switches The sensor is the ice thickness control which signals to the P C Board to energise the built in relay that controls the Hot Gas Valve and Water Drain Valve The other contactor to which the P C Board supply power is on the compressor line The switches are the Toggle ICE OFF WASH switch and the N C microswitch magnetic switch actuated by the evaporator deflector that signals to the P C Board that ice has been defrosted and released so that the relay controlling the defrost can be disconnected The P C Board is equipped with an electronic safety timer that turns on automatically the unit to defrost cycle when the freezing cycle is longer than 40 minutes and trips off the complete unit when defrost cycle is longer then 4 minutes 18 11 10 Maintenance Cleaning and Sanitation Instructions 10 1 10 2 10 3 10 4 The Foster Modular Ice Cuber represents a sizeable investment of time and money in any company s business In order to receive the best return for the investment periodic maintenance is essential Itis the USER S RESPONSIBILITY to see that the machine is maintained and the following is a list of recommended instruction to keep the machine running with a minimum of problems Maintenance and Cleaning should be scheduled at the minimum twice per year while sanitation at least once per month Icemaker THE FOLLOWING MAINTENANCE
27. e it is recompressed into high pressure high temperature gas again and the cycle repeats Water System A fixed charge of water had been brought into the machine during the harvest or defrost cycle through the float valve A pump running continuously forces the water to the top of the evaporator where it is distributed through a water tube and then cascades down the evaporator surface by gravity As it flows across the refrigerated evaporators some of the water will be chilled enough to change form turn to ice and stay frozen onto the evaporator Most of the water returns to the reservoir to be sucked back into the pump and repumped over the evaporators EVAPORATOR WATER DISTRIBUTOR TUBE WATER DRAIN DEFLECTOR VALVE WATER WATER PUMP OUTLET 4 WATER INLET 5 4 ICE STORAGE BIN Refrigeration System During Harvest The refrigeration system performs the harvest of ice by use of a hot gas bypass valve When the time comes to de ice the evaporators the hot gas valve is energised and the high temperature high pressure gas bypasses the condenser and is allowed directly into the evaporator The high pressure gas is cooled by the cold evaporator so it condenses into a liquid giving up its heat as it does so This heat warms the evaporator and the ice frozen onto the evaporator surface melts releasing the frozen cubes Ice then falls by gravity into the storage bin The liquid refrigerant goes through the suction l
28. eat the gas condenses into a high pressure liquid This liquid travels through the liquid line to the metering device a thermostatic expansion valve 16 FMIC 180 amp 260 Electronic Modular ice Cuber 1 Specification FMIC180 1 20mm WATER OUTLET 20mm WATER OUTLET WATER COOLED ONLY 3 Y in GAS WATER INLET 4 CORD SET Accessories KSC 18 Cube stacking kit Dimensions HEIGHT 530mm 207 in WIDTH 800mm 3114 in DEPTH 600mm 25 in WEIGHT 77kg 600 530 FMIC 180 Machine Specifications R22 Machines Cond unit Finish Water reg It 24hr FMIC 180 Machine Specification R404A Machines Water Cond unit Comp consumption Air Aircooled Stainless steel 16 t litreperhr t litreperhr hr Basic Elec Power Elect Cons kWh Euh MM 24hr Cubes per Harvest 204 Full Subject to variations according to different water and ambient temperature conditions Amb 32 C Water 15 C FMIC 180 Electric power cons kWh per 24hr FMIC 180A FMIC 180W 220 240 50 1 FMIC260 600 1 20mm WATER OUTLET 2 20mm WATER OUTLET WATER COOLED ONLY 3 Y in GAS WATER INLET 4 CORD SET Accessories KSC 25 Cube stacking kit Dimensions HEIGHT 680mm 26 in WIDTH 800mm 3114 in DEPTH 600mm 25 in WEIGHT 100kg 680 FMIC 260 Machine Specifications R22 Machines Cond unit Finish Water reg FMIC 260 Machine Specification I 24hr R404A Machines Wate
29. em built in the E C board switches the unit on harvest cycle whenever the freezing period gets longer than 40min 10 Replace all cabinet panels and screws previously removed 11 Thoroughly explain to owner user the significant specifications of the ice maker start up reset and operation going through the procedures in the operating instructions Answer all questions about the ice maker by the owner and inform the owner himself of the name and telephone number of the authorised service agency serving him Operation ul HEAT EXCHANGER THERMOSTATIC LS EXP VALVE HOT GAS VALVE CLOSED COMPRESSOR CONDENSER LIQUID RECEIVER PRESSURE SWITCH FAN CONTROL REFRIGERATION SYSTEM SCHEMATIC Refrigeration During Freeze This ice machine employs either air or water as a condensing media the refrigeration system for either is as follows At the hermetic compressor Refrigerant is compressed into a high temperature high pressure gas This gas contains the heat removed from the evaporator as well as compressor motor heat The gas moves through the discharge line into the condenser air or water cooled If air cooled the discharge pressure will change with the heat load and the ambient air temperature If water cooled the discharge pressure is controlled by the amount of water flowing through the condenser which is determined by the water regulating valve After the gas is cooled in the condenser giving up much of its h
30. es Output kg 24 hours Bin Storage Capacity kgs Cubes Per Cycle kgs Standard Cube Size Cycle Time minutes Amps start run Watts Consumption Machine Weight net gross kgs Refrigerant Refrigerant Charge Discharge Pressure Freeze Cycle High Pressure Cut Out High Pressure Safety Switch Suction Pressure Freeze Cycle Compressor Amps Freeze Mode Voltage Reservoir Water Level Water inlet Connection 1 2 1 3 3 gas 3 gas Installation Notes Allow 15cm minimum space at the sides and back for ventilation Bin Installation The F200 and 300 fit the New SB150 Bin The F200 and F300 can be fitted to the New SB210 Bin but a KN311 Lid is required The F200 and F300 can be fitted to the Old SB150 Bin but a SB150 frame is required as the F200 and F300 are smaller than the Old SB150 Bin The F200 and the F300 can be fitted to the Old SB210 Bin provided the KN310 lid is fitted first However it is necessary to re drill the lid to secure the machine to it Stacking Installation To stack a Modular Cuber onto the present one first remove the top panel from the lower machine Add a bead of food grade silicone sealer to the top edges of the lower units freezing compartment Lift the top machine onto the bottom machine the use of a mechanical lift is recommended Align the two machines and using the two screws supplied in the hardware package supplied with the top machine fasten the two together through the fixing
31. evaporator the water flowing over the evaporator makes contact between the two sensors If contact is made for 10m seconds the P C Board receives the signal and starts the defrost cycle 7 5 Magnetic Switch Located in the plastic deflector plate in front of the evaporator the switch sends a pulse to the P C Board which switches the machine back into the freezing cycle 7 6 Hot Gas Valve The Hot Gas Solenoid Valve functions only during the Harvest Cycle to divert the Hot Discharge Gas from the Compressor bypassing the Condenser and Expansion Valve for a direct flow to the Evaporator to release the ice cubes from the moulds The Hot Gas Solenoid Valve is comprised of two parts the Body and Plunger and the Coil Assembly Installed in the discharge line from the compressor the energised coil lifts the valve stem within the body to cause the hot gas to be diverted when the ice Thickness Sensor signals the P C Board to start the Harvest Cycle 7 7 Condenser Temperature Sensor The condenser temperature sensor probe located in contact with the condenser coil detects the condenser temperature variations and signals them to the P C Board at low voltage In the air cooled versions in relation to the different current received the microprocessor of the P C Board supplies through a TRIAC the power at high voltage to the condenser fan motor to cool the condenser and reduce the temperature If the condenser temperature rises and reaches 65 C 150 F the
32. forming A flow control is fitted in the feed pipe to reduce the pressure of the water 7 15 Water Level Sensor The Water Level Sensor located in the upper right side of the reservoir works in conjunction with the P C Board in order to control the water level at the beginning of the freeze cycle by receiving a low power current through the water When the current reaches the P C Board the water inlet solenoid valve is de energised If the P C Board doesn t receive any signal from the Water Level Sensor within the first 3 minutes of the freeze cycle the P C Board trips OFF the operation of the machine with the switching ON of the two Red LED s blinking slowly 8 Wiring Diagram F200 amp F300 F200 F300 Wiring Diagram 220V 50Hz iph brown light blue yellow green white black red orange TTD Oa FS lt O Input terminal board Compressor contactor Compressor ce sensor End defrosting switch Water level sensor Condenser temperature probe Led card P C Board HI pressure switch Manual Automatic reset jumper Water pump Water inlet valve Water drain purge valve Hot gas valve Fan Motor only AIR cooled unit Q Fan Motor only WATER cooled unit RC Compressor relay CS Start capacitor CM Run capacitor Peni UOZZzZl AC IOTITOOU T 8 3 8 4 8 5 8 6 8 7 8 9 8 10 8 11 8 12 Compressor Contactor Located in the control box the compressor co
33. from bracket Reverse to reassemble DIPUN NOTE When replacing a refrigeration component the exact refrigerant charge must be WEIGHED or metered into a completely evacuated system because the FMIC is a CRITICALLY charged system 21 9 9 1 9 2 9 3 9 4 9 5 9 6 9 7 9 8 9 9 Removal and Replacement Procedures WARNING Be sure the electrical power supply circuit breaker and the inlet water supply are OFF BEFORE starting any of the following REMOVAL AND REPLACEMENT procedures as a precaution to prevent possible personal injury or damage to equipment Water Pump 1 Remove front panel 2 Remove front interior metal strip 3 Unplug pump 4 Remove one screw holding pump bracket to reservoir right side 5 Pull pump forward and lift up 6 Remove discharge hose from pump outlet Reverse to replace Reservoir 1 Close water valve on water supply line 2 Perform above steps and remove water pump 3 Remove reservoir drain plug and flush reservoir out 4 Remove the float valve from the reservoir 5 Remove screws securing reservoir 6 Liff up and pull forward to remove reservoir Reverse to replace Distributor Water Tube 1 Remove front panel 2 Locate water distributor at the top of the evaporator 3 Pull distributor forward to unsnap it from its holding clamps 4 Remove hose clamp and water hose Reverse to replace Outlet Water Valve 1 Remove front and right side panel
34. he e machine is bin in order to avoid the stored ice becoming away from sources of heat tainted aig um 9 Connect machine to the water supply first and enar then to a suitable electricity supply ventilated area A distance of at least 20cm must be allowed between the sides back and the walls of the machines Fig 12 Fig 14 f the machine will not work with demineralized water Fig 1 24 5 2 Start Up 2 1 2 2 Start up Cycle Open the water valve and switch on the power to the machine The machine enters the Start Up mode with the energising of the PC Board with the green LED Power On illuminated It is necessary to remove the front cover of the machine to see all of the LED s The Green LED of Machine In Operation is also energised blinking fast for 40 seconds prior to the start up of the machine Power On Green Bin Full Washing Amber High Pressure Red Machine in Operation Green Alarm Red Reset Washing Push Button During the start up cycle the following components in operation are Hot Gas Valve Water drain valve Water pump Freezing Cycle After the Start Up cycle the machine enters directly into the Freezing cycle with the following components in operation Water Inlet Valve Compressor Fan Motor running continuous for the first three minutes The LED s energised are Machine Power On Machine in Operation
35. he ice storage bin below in doing so they move apart from the evaporator bottom end of the plastic deflector This plastic deflector has on its upper left corner a metal actuator which on account of the deflector s swinging motion caused by the ice dropping in the bin pushes the microswitch plunger to open and close the N C contacts This will in turn de activate the relay contacts that control the hot gas and water drain valve which get de energised allowing the unit to start a new freezing cycle On later models the sequence is controlled by a magnetic switch attached to the bottom right 9 Service Diagnosis The table below is intended as a quick reference to aid the service engineer to determine the cause of a particular malfunction as well as the recommended repair It is not intended to be an exclusive list Reference to other portions of the manual inclusive of wiring diagrams installation and operating instructions are recommended to better determine the cause of a problem hand side of the deflector When the ice bin is full of ice the last batch of ice cubes released from the evaporator accumulates to keep the bottom end of the plastic Symptom J Possiblecause Correction i deflector in open position with the N C microswitch magnetic switch contact open for longer than 30sec the entire unit stops Warning RED LED ON See Page 20 See Page 20 No Warning RED LED ON P C Board inoperative Remove board and check No
36. holes on either side of the machines Fit the Stacking Kit KS into the bottom machine as per the instructions supplied with the kit Using food grade silicone sealer seal the edges between the freezing compartments of the top and bottom machine so as to avoid any possible leakage of water through the join Dimensions P race Fie ki Fig 4 Fig 5 Fig 6 13 Wiring Diagram Concerning The Connection Of Upper ice Maker Micro To Conveyor Kit Micro 1 Detach the light blue No 13 cable of the upper ice maker this cable is connected to the NC contact usually closed of the micro Connect it to the light blue No 14 cable which is joined to the NO contact usually opened of the conveyor kit micro 2 Connect the brown No 16 cable which comes from the COM common contact of the conveyor kit micro to the NC contact usually closed of the upper ice maker micro Upper icemaker micro 14 NO BIN LID KN 310 BIN LID NO BIN LID FMIC 180 HEAD FMIC 260 HEAD KN 310 BIN LID NKF 200 BIN LID NKF 310 BIN LID NKF 310 BIN LID FMIF 550 HEAD SB 210 BIN 25 5 Check and tighten all bolts and screws Installation Instructions 6 Check for water leaks and make corrections 7 Check the bin control to test shut off Holding the evaporator deflector in open Position for more that 30secs should cause the ice maker to shut off at the end of harvest cycle Once the evaporator deflector is released in its closed positio
37. ine into the heat exchanger where it boils off so that only refrigerant vapour is drawn into the suction tube of the compressor Water System During the harvest cycle the electric water drain valve is energised thereby opening the drain line All water remaining in the reservoir at the end of freezing cycle is pumped out to the waste through the water solenoid and drain line during the entire defrost cycle eliminating any possible build up and accumulation of minerals concentration and impurities in the water reservoir As the pump stops the incoming water passing through the float valve has still sufficient time before beginning the next freezing cycle to properly fill up the sump reservoir so that there would not be any cavitation problem when the water pump resumes its operation granting thereby a beffer ice formation inside the cooling cells When the released ice cubes drop into the bin they open up for a fraction of a second the bottom end of the plastic deflector The deflectors swinging motion is enough to reset the contact of the N C microswitch magnetic switch which via electronic control board de energises the water drain valve allowing the unit to initiate a new freezing cycle NOTE If the interface P C Board does not receive the pulse from the second microswitch magnetic switch after 30 32 seconds from the first pulse it will send the signal to the main Board to switch the unit from defrost to freezing cycle The harves
38. ion of the fan motor during the freezing cycle relative to room temperature Fan motor in ON OFF Mode Maximum Freeze Cycle length equal to 30 minutes Fan motor ON All of the time Maximum Freeze Cycle length equal to 40 minutes Whenever the machine remains in the Freezing Cycle for the Maximum time 30 or 40 minutes the PC Board moves the unit directly into the Harvest Cycle PC Board Set Up 6 1 6 2 The PC Board can be set up for Manual Reset Mode with the Jumper In Place Manual Reset Mode Jumper in place To Restart the Machine it is necessary to Push the Reset Button The PC Board can be set up for Automatic Reset Mode with the Jumper Out Of Place Automatic Reset Mode Jumper out of place The Automatic Reset Mode is activated only for the following ALARM CONDITIONS WATER ERROR TOO HIGH CONDENSING TEMPERATURE e TOO LONG HARVEST CYCLE Water Error The machine remains in OFF mode for 30 minutes then it tries to re fill with water Fills with water Machine remains in operation Fails to fill with water Machine again in the OFF mode for a further 30 minutes Too High Condensing Temperature As soon as the temperature registered by the Condenser Sensor is above 50 C the PC Board starts up firstly the condenser fan motor for 3 minutes then the entire machine through the normal Start UP Cycle Mode After the 3 minutes 30 seconds of the Harvest Cycle the PC Board moves the machine into a new Freezing Cycle
39. le FMIC 180 4 4 4 0 recharge with correct amount Freeze Cycle FMIC 260 End 4 6 5 5 l Suction Pressure at the end of the Freeze Cycle 1 5 1 7 7 3 Harvest Cycle R22 Machines R404A Machines Average Discharge Pressure 9 bar 13 15 bar Average Suction Pressure 7 5 bar 7 5 bar The values listed are representative of values seen at a wide range of air and water temperatures and are for a normal cube size When comparing these figures to field data allow a variation from each end of the range given Refrigerant charge R22 Machines R404A Machines Model FMIC180 FMIC260 FMIC180 FMIC260 Air cooled l000gr I500gr 1200gr 1700gr Water cooled 650gr 700gr 1200gr 900gr Refrigerant metering device Expansion valve NOTE Always check nameplate on individual ice machine for special refrigerant charge before charging the refrigeration system Such refrigerant charge is the average charge for the Modular Cubers However it is important to check nameplate for each machine 8 Component Description 8 1 Toggle Switch ICE OFF WASH Is a double pole double throw switch In OFF position keeps the electric circuit open through the P C Board built in ON OFF switch In ICE position the unit electric circuit is closed for normal operation of electric component In WASH position opens the electric circuit to the compressor contactor and fan motors and closes the circuit for the water pump 8 2 Electronic Control Board Located in the control box this board is th
40. ly the hot gas valve and the water drain valve B Terminal block C Contactor D Compressor E Toggle switch F Pressostat G Ice sensor NOTE In the event of failure of the ice thickness sensor the PC Board automatically turns the unit into the defrost cycle when the freezing cycle reaches 30 or 40 minutes depending on the operation of the fan motor during the freezing cycle At this point the unit initiates the defrost cycle The hot gas circulating into the evaporator serpentine causes a slight melting of the ice cube 22 7 5 block releasing it from the mould Once released the ice block drops into the storage bin below and breaks into individual cubes in the process it moves the deflector plate forwards The defector has on its side a magnetic switch that when it moves forward it opens and closes the contacts This motion deactivates the relay contacts that control the hot gas and water drain valve allowing the unit to start a new freezing cycle When the ice bin is full of ice the last batch of ice released from the evaporator cannot continue into the bin and so it stops the deflector from returning to its position With the magnetic switch contacts remaining open for more than 30 seconds the entire unit stops with the glowing of the Amber bin full LED The machine will restart when the deflector returns to its normal position provided the machine has been of for more than 3 minutes if not the start will be delaye
41. n the ice maker will restart 8 Check cube size adjust if required through setting screw of ice thickness control sensor 9 With unit out of operation clean the condenser using vacuum cleaner whisk broom or brush Before bringing the icemaker into action 10 Connect the Instruct customer to clean condenser frequently DO NOT USE A WIRE BRUSH prefa ce perform the following operations cu fone pipe supplied to the Warning l 11 2 Ice Storage Bin It is expressly forbidden for the users of 1 Check that ice cuber has ee ane to the The interior liner of the bin is in contact with a food product ice and should be cleaned regularly Once a week clean with soap and water the equipment to carry out the following NOt been damaged during meta Mrd tin and after that a hot water rinse and dry thoroughly Commercial food grade sanitisers are available and may be used operation or those marked by the sym transportation Fig 1 EP EA iode aia bol Such operations must be performed R toftvalve not 11 3 Cabinet Exterior exclusively by qualified personnel a hee water feed pipe If the feed water contains impurities Fig 1 the installation ofa filter system is Wipe clean unit and bin cabinet exterior with a clean cloth or disposable paper wipers soaked in warm water with mild detergent solution xBiactrical cornmioetiotis Water mains connections Machine installation Machine test run Repairing machine components and parts 1
42. nfrozen water to the reservoir for recirculation 7 11 Water Drain Solenoid Valve The Water Drain Solenoid Valve functions in conjunction with the water pump to flush out the reservoir assembly at the beginning first 40 seconds of every harvest cycle This action cleans up and rinses the reservoir during each harvest cycle preventing dangerous water mineral concentration 7 12 Thermostatic Expansion Valve The Thermostatic Expansion Valve regulates the flow of refrigerant to the evaporator and reduces the pressure of the liquid refrigerant from condensing pressure to evaporating pressure 7 13 Water Pump The water pump primes the water from the reservoir to the distributor tube and through the holes in the distributor it cascades over the evaporator moulds by gravity to be frozen into clear ice cubes The water pump remains OFF during the first 30 seconds of the freezing cycle whilst it continues to run for the first 40 seconds of the defrost harvest cycle to drain the remaining water in the reservoir 7 14 Water Inlet Solenoid Valve male fitting The P C Board energises the Water Inlet Solenoid Valve during the beginning of the freezing cycle until the water reaches the maximum level in the reservoir controlled by the Water Level Sensor After 3 minutes from the start of the freezing cycle the Water Inlet Valve is energised again for a short period to re fill the reservoir to the maximum level to minimise the possibility of slush ice
43. nt Compressor C IN 15 bar C OUT 13 bar Water Too soft 7 1 Operating Characteristics On air cooled models during the freezing cycle the discharge pressure is maintained between 13 and 15 bar by means of fan pressure control and at the same time the suction pressure will also decline reaching its lowestpoint just before harvest Compressor amps experience a similar drop On water cooled models the discharge pressure is constantly maintained during the freeze cycle by the water regulating valve at 13 bar However suction pressure and compressor amps will still decline as the machine freezes ice Low ice capacity Reclaim refrigerant and recharge with the correct amount Replace compressor 7 2 Freeze Cycle R22 Machines R404A Machines Suction Pressure at the beginning of the Freeze Cycle 2 8 2 5 bar 3 5 bar Dirty condenser Clean Condens r ped D EI We n a a ae Low water flow water cooled only Check and repair High air t t Air cool ly Check t t f air enteri d Suction Pressure at the end of the Freeze Cycle 1 5 1 3 bar 1 7 bar T i a any ai ie aa ME dad Freeze Time 20 25 Minutes 20 25 Minutes Machine makes irregular ice Water distributor blocked Clean water distributor Amps drawn at the beginning of the Freeze Cycle FMIC 180 5 5 5 0 Expansion valve superheat wrong Adjust or replace Freeze Cycle FMC 260 Beginning e enn Low refrigerant charge Check for leak reclaim refrigerant and Amps drawn at the end of the Freeze Cyc
44. ntactor functions is to carry the compressor line current The contactor is wired to receive power from the ICE OFF WASH switch through the P C Board Ice Thickness Sensor Located in the front upper right side off the evaporator the sensor is made with two metal reeds in which passes power at low voltage The two metal reeds which are individually insulated are set through a setting screw to maintain a minimum clearance from the evaporator 7mm Once ice is formed into each mould and is thick enough to fill up that minimum clearance existing between the two sensor reeds and the evaporator the water that cascades over the ice has gradually increased to make contact between the two sensor reeds Contact remains there for about 6 seconds the P C Board receives the signals to put the ice machine on defrost N C Microswitch Magnetic Switch Signalling the ice cubes release Located in the upper left side corner of the evaporator this low voltage switch single pole single throw mechanically operated by the evaporator deflector actuator signals to the P C Board the end of the defrost cycle and to re start a new freezing cycle The swinging motion to which the ice deflector is subject to when the ice cubes drop into the bin below causes the deflector actuator to press open the contact and the release close the contact microswitch plunger This OFF and ON situation of the N C contact is enough to signal to the P C Board that the timed defros
45. of 5 bars 7 Have the compressor hold down bolts been checked to be sure the compressor is snug on the mounting pads 8 Check all refrigerant lines and conduit lines to guard against vibration and possible failure 9 Have the cuber and the bin been wiped clean with clean damp cloths 10 Has the owner user been given the User Manual and instructed on how to operate the ice maker and the importance of periodic maintenance 11 Has the owner user been given the name and telephone number of the Authorised Foster Distributor or Service Agency serving him 14 3 For The Plumber 3 1 3 2 3 3 Conform To Applicable Codes Water Inlet AIR COOLED MODELS The recommended water supply is cold water 3 4in O D copper tubing connected a 3 4in gas male fitting at the back of the cabinet Install a hand operated valve near the machine to control the water supply Switch Electrical socket Electrical plug Water inlet Shut off valve Water filter water outlet line Bin water outlet line Oo o vop ode Ub dele dw Open vented water drain e Water outlet from the condenser water cooled version only When choosing the water supply for the Foster Cuber consideration should be given to A Length of run B Water clarity anf purity C Adequate water supply pressures Since water is the most important single ingredient in producing ice you cannot over emphasise the three items listed above Low water pressure
46. or BLUE two jumpers one J1 for factory use only and the second J2 for the selection between manual or automatic reset mode One outlet connector front LED display BLACK one serial port connector BLACK and four plug in terminals for input and output power With J2 closed the P C Board is set up for Manual reset mode When J2 is open the P C Board is set up for Automatic Reset mode The P C Board includes a electronic safety timer that turns on the unit automatically to the defrost cycle when the freeze cycle is longer than 30 or 40 minutes and trips off the unit when the defrost cycle is longer than 3 minutes and 30 seconds red alarm LED on A trimmer located close to the transformer can be used to change the current received from the Ice Thickness Sensor in relationship to the Electrical Conductivity of the water 7 3 Compressor Contactor Located in the control box the compressor contactor function is to carry the compressor line current The contactor is wired to receive power from the P C Board 7 4 Ice Thickness Sensor Located in the front upper right side of the evaporator the sensor is constructed of two metal reeds through which passes current at a low voltage The two metal reeds which are individually insulated are set through a setting screw to maintain a minimum clearance from the evaporator 3 to 6mm Once ice is formed in the moulds plus sufficient to bridge the minimum clearance between the two sensor reeds and the
47. orator egg crate using the cleaning solution from the water reservoir the storage bin in the final water outlet from the machine a minimum 7 Switch to OFF remove the drain plug from the water reservoir to flush cleaning solution out of the reservoir Replace the plug and allow Models 200 KG 300 KG place making sure that the incline of 396 of the pipes is advisable The icemaking machines two are perfectly level in are approved by VDE GS order to obtain an even and the relative symbols distribution of the water all are put on the packing over the evaporator and a serial plate and body of uniform filling of the cube the machine Fig 10 plate Fig 13 The storage bin is equipped with adjustable feet which allow for easy levelling and Check also that the pipes are not throttled or siphoned It is advisable that the pipes discharge in an open vented drain Fig 18 fresh water through float valve to fill up the reservoir to thoroughly rinse it 8 Repeat the reservoir flushing out two or three times 9 Switch the toggle switch to ICE position 10 Replace the evaporator cover deflector and front panel 11 Check the next batch of cubes to be sure all the cleaner has gone no sour taste 12 Connect the machine to the electricity supply after having checked that the voltage corresponds CAUTION DO NOT use ice cubes produced from the cleaning solution Be sure none remains in the bin Fig 10 12 Pour hot water into the
48. orrect size and make adjustments to the Ice Sensors Fingers as iring Diagrams bon A necessary In certain areas where there are extreme water problems it may be necessary to fit a filter or purifying equipment NOTE If the water is too soft demineralized the Ice Thickness Sensor may not be able to sense the water on its fingers thereby not switching the unit onto the harvest cycle In the event of this occurring a safety system built into the PC Board will automatically switch the unit into the harvest mode if the freezing period goes beyond 30 or 40 minutes NOTE To ensure a correct operation of the machine the water must have a minimum electrical conductivity level of 20 us Open the bottom end of the plastic ice deflector for 30 seconds to check the operation of the magnetic switch The machine will switch OFF and the Amber LED will glow to indicate machine OFF at full storage bin Releasing the deflector will restart the machine in the freezing mode commencing with the 3 minute delay Replace all panels and screws previously removed ANMINAN OD LLLLTIT T JR TI b be sj 4 Operation Colour of the Cables bc Light blue gv Yellow green Air Cooled 220 V 50 Hz 1 ph HEU et As HERRES ELENE E H N C Microswitch Magnetic Switch Water drain valve L Electronic card M Fan motor N Motor pump O P Hot gas valve 180 260 W EI RS ESRUENGES B Terminal block C Contactor D
49. r Cond unit Comp consumption Air Aircooled Stainless steel 2 t95lteperhr 19 5 19 5 litre per hr per hr Basic Elec Power mme za FMIC 260W 23050 9 49A 1600 384 Cubes per Harvest 289 Full Subject to variations according to different water and ambient temperature conditions Amb 32 C Water 15 C Freeze Cycle R404A Machines Discharge Suction Evap Ambient Pressure Pressure Temp Temp FMIC 260 Electric power Basic electr FMIC 260AS 459 o4 50 FMIC 180 18 20 Bar 1 5 Bar FMIC 260 18 20 Bar 1 5 Bar 13 2 For The Installer 2 1 2 2 2 3 Important Operating Requirements MINIMUM MAXIMUM Air Temperature 10 C 50 F 38 C 100 F Water Temperature 5 C 40 F 38 C 100 F Water Pressures 1 bar gauge 5 bar gauge Electrical Voltage Variations Voltage Rating Specified on Nameplate 1096 10 Extended periods of operation exceeding these limitations constitute misuse under the terms of manufacturer s Limited Warranty resulting in a loss of warranty coverage INSTALLATION NOTE Allow 15cm minimum space at sides and back for ventilation and utility connections Select Location The first step in installing the equipment is to select the location The purchaser of the unit will have a desired spot in mind ensure that it is indoors in an environment that does not exceed the air and water temperature limitations for the equipment that the necessary utilities are
50. refrigerant Cut or unsweat valve remove from machine To replace heat sinking the valve is CRITICAL Wrap the replacement valve in wet rags and sweat into place Leave rags on until joints cool Reverse steps 3 1 to reassemble Se pe ec MIS 9 pes Removal and Replacement of the Drier To remove the drier 1 Remove front and left side panel 2 Remove screws and remove left side fan motor shroud 3 Store most of the refrigerant charge in liquid receiver 4 Unsolder refrigeration lines at both ends of the drier and remove the drier 20 7 Component Description 7 1 Front Console Panel Power On Green Bin Full Washing Amber High Pressure Red Machine in Operation Green Alarm Red Reset Washing Push Button pc OA Fe Se HZT eee B WALET Aib DAAH VALVE atem LE lessee is ATS Fi z aM See Ts Lad FREIE DMTEXL i i Hc LN LFI EU FEL E mc Hc JEMP H EL aL L MIS i ATTE SFR Apu LS TE AT fi eo LII e ee i nr Aes 5 WATA LEVEL erii rura we ini 7 2 P C Board Located in the control box this board is the brain of the system as it governs the ice machine cyclematic through sensors relays and switches It consists of two separated printed circuits one at high and the other at low voltage integrated with a fuse four connectors for the sensors switches Condenser sensor BLACK Magnetic switch GREEN ice thickness sensor RED water level Sens
51. storage bin to melt the cubes and to also clean the bin drain sufficient height for cleaning C OUR PRODUCTS ARE GOVERNED BY EC under the machine q a LOW VOLTAGE DIRECTIVE 73 23 EEC to that on the plate 12 Assembly Instructions of Conveyor Kits for Ice Machines ERA CC G9 336 EEC AND THE COVER OF m DRE AS ELT to be fitted on Storage Bin THE MANUAL IS MARKED ACCORDINGLY the machine Fig 5 The maximum ee variation should not indi Ei adi exceed 6 of that stated on the rating 1 Fit the cover kit on the storage bin of 300kg as indicated in Fig 1 and put the lower ice maker on the bin as indicated in the instruction insta lation plate A fused isolator must be included in manual the electrical circuit to the machine with its 2 Remove the cover and the 4 bushes No 3 of the lower ice maker Fig 2 then apply the support gaskets No 4 T Note own bipolar main switch at least 3 mm of 3 Remove the front and the 2 lateral panels of the lower ice maker and fit the conveyor support No 5 Fig 3 Before installing the machine make contacts opening The machine should be 4 Fitthe conveyor kit No 7 Fig 4 sure that et i suitable power supply with 5 Apply the upper ice maker after having removed the front and the 2 lateral panels and fix it to the lower ice maker through 2 screws on stipes He elaterakadaes a the room temperature must not fall Fig 16 Fig 17 i below 10 c 50 F or above 100 F 6 Hook
52. t cycle is over On later models the sequence is controlled by a magnetic switch attached to the bottom right hand side of the deflector If the bin is full of ice the evaporator deflector will be left in the open position by the last batch of released cubes This means that the deflector actuator will keep the N C microswitch plunger pressed or the magnet and switch separated as long as the deflector remains in open position If the N C contact are open for more that 30 seconds the switch signals to the built in time delay of the P C Board to turn the unit OFF NOTE In case the Interface P C Board does not receive the second pulse from the microswitch magnetic switch after 30 to 32 seconds from the first pulse it will send a signal to the main Board to switch the unit from defrost to freezing cycle It is possible to vary the maximum waiting time for starting a new freezing cycle after the pulse sent by the first switch by adjusting a trimmer The waiting time variation ranges from 22 to 45 seconds Hot Gas Solenoid Valve The Hot Gas Solenoid Valve functions only during the Harvest Cycle to divert the hot discharge gas from the Compressor bypassing the Condenser and thermostatic expansion valve for direct flow to the Evaporator Platen Assembly to release ice cubes from the ice cube moulds The Hot Gas Solenoid Valve is comprised of two parts the Body Plunger and the Coil assemblies Installed in the discharge line of the Compressor
53. t cycle lasts about 1 1 2 to 2 minutes Control Sequence At the start of the freezing cycle the N C contacts of the microswitch magnetic switch mechanically operated by the actuator plate of the deflector cover are closed via electronic control board closing the circuit to the main contact or coil and consequently to the compressor fan motors and to the water pump motors Then as the ice thickness reaches the value that corresponds to the full cube size the film of water that constantly cascades over the slab of ice formed on the evaporator arrives to establish a contact between the two fingers energised at low voltage of the ice sensor control located on the front upper right side of the evaporator If the contact between the two fingers of the ice sensor remains established by the film of water for more than 10 seconds a small relay on the electronic board energises controlling simultaneously both the hot gas valve and the water drain valve NOTE In case of failure of the ice level sensor the P C Board automatically turns the unit to the defrost cycle if the freezing cycle is longer than 40 minutes 17 6 6 1 Check operation of the freezing cycle a Compressor is operating b Water pump is operating as seen by water moving through the tygon tube up to the water distributor at the top of evaporator plate where water is uniformly dispensed and cascades down over the egg crate evaporator and drains back into the Sump
54. the energised solenoid coil liffs the valve stem within the valve body to cause the hot discharge gas to be diverted when the ice Thickness sensor has signalled to the P C Board to start the Harvest Cycle High Pressure Fan Control Air Cooled Models A reverse acting automatic reset high pressure control is electrically connected to the two condenser fan motors and by a capillary tube to the liquid line Its function is to maintain the head pressure during the freezing cycle between the preset values and the head pressure during the harvest cycle ensuring sufficient heat to release the cubes from the cube moulds The control contacts are set to open at 13 bar cutting off the electrical power supply to the fan motors and to close at 15 bar High Pressure Control Water Cooled Models The High Pressure Control a safety control is factory set to cut out at 20 bar and cut in at 13 bar The control functions as a precautionary device to shut OFF electrical power to the Ice maker should a loss of water occur to the water cooled Condenser In addition to being a manually reset Control there is an adjusting screw for raising or lowering the CUT IN pressure Water Regulator Valve Water Cooled Models The Water Regulator Valve functions maintain a constant Compressor head pressure by regulating the amount of incoming water flowing through the Condenser on water cooled models The valve operates through the refrigerant system high side pressure Rot
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