General Information and Installation Instructions

1.General Information and Installation Instructions

1.1Introduction

The Electronic Cubers are quality designed, engineered and manufactured.

Their ice making systems are thoroughly tested providing the utmost in ﬂexibility to ﬁt the needs of a particular user. These icemakers have been engineered to our own rigid safety and performance standards.

The VDE – SEV – WRC seals signify that it is listed with them and that it complies with the materials and manufacturing standards of them.

Note. To retain the safety and performance built into this icemaker, it is important that installation and maintenance is conducted as outlined in this manual.

1.2Unpacking and Inspection.

1.Visually inspect the exterior of the packaging and pallet. Report any damage to the delivery carrier and your distributor.

2.a) Cut and remove the plastic strip securing the carton to the pallet.

b)Cut open the top of the carton and remove the polystyrene protection sheet.

c)Pull out the polystyrene posts from the corners and then remove the carton.

3.	Remove the front and rear panels of the unit and inspect for any concealed damage. Report the damage to the distributor.

4.Remove all internal support packing and masking tape.

5.Check that refrigerant lines do not rub against or touch other lines or surfaces, and that the fan blade moves freely.

6.Use a clean damp cloth to wipe the surfaces inside the storage bin and the exterior of the cabinet.

7.See the data plate on the rear of the machine and check that the local mains voltage corresponds with the voltage speciﬁed on the plate.

CAUTION. INCORRECT VOLTAGE APPLIED TO THE MACHINE WILL INVALIDATE THE WARRANTY.

1.3Location and Leveling.

Warning. This Ice Cuber is designed for indoor installation only. Extended periods of operation at temperatures exceeding the following limitations will constitute misuse under the terms of the Manufacturers Limited Warranty resulting in Loss of warranty coverage.

1.Position the machine in the selected permanent location. The criteria for the location includes:

a)Minimum room temperature 10°C (50°F) and maximum room temperature 40°C (100°F°

b)Water inlet temperatures: minimum 5°C (40°F) and maximum 40°C (100°F)

c)Well ventilated location for air cooled models. Clean the air cooled condenser at regular intervals.

d)Service access: adequate space must be left for all service connections through the rear of the ice maker. A minimum clearance of 15cm (6in) must be left at the sides of the machine for routing cooling air drawn into and exhausted out of the compartment to maintain proper condensing operation of the air cooled models.

NOTE. With the machine in ‘built-in’ conditions, the ice product is gradually reduced in respect of the levels shown in the table, up to a maximum of 10% at room temperatures higher than 32°C.

The daily ice-making capacity is directly related to the condenser air inlet temperature, water temperature and also the age of the machine. To keep the CUBER at peak performance levels, periodic maintenance checks must be carried out as indicated in the Cleaning Section of this manual.

2.Level the unit in both left to right and front to rear directions.

3.ELECTRICAL CONNECTIONS.

See data plate for current requirements to determine wire size to be used on electrical connections. All ice makers require solid earth wire.

The ‘F’ series ice machines are supplied from the factory pre- wired and are ﬁtted with a suitably fused thirteen Amp UK plug. The FCI models have a power cable that requires electrical connections to be made to the cable at the back of the machine, making sure that it is connected to its own circuit and individually fused (see data for the correctly fuse size).

The maximum allowable voltage variation should not exceed –10% and +6% of the data plate rating. Low voltage can cause faulty functioning and may be responsible for serious damage to the overload switch and motor windings.

NOTE. All external wiring should conform to national, state and local standards and regulations. Check voltage on the line and the ice machines data before connecting the unit.

1.4Water Supply and Drain Connections.

GENERAL.

When choosing the water supply for the ice cuber consideration should be given to:

a)Length of run.

b)Water clarity and purity.

c)Adequate water supply pressure.

Since water is the most important single ingredient in producing ice you cannot emphasize too much the three items listed above. Low water pressure below 1bar may cause the malfunction of the machine.

Water containing excessive minerals will tend to produce cloudy coloured ice cubes, plus scale build-up on parts of the water system

WATER SUPPLY.

Connect the male ﬁtting of the solenoid water inlet valve, using the ﬂexible tubing supplied, to the cold water supply line with regular plumbing

FCI60, FCI30, FCI20, FCI40, FCI85 specifications

Foster F85, F20, F40, and F60 represent a remarkable lineup of industrial and commercial engines, celebrated for their reliability, efficiency, and advanced technology. These models cater to various applications, striking a balance between performance and economy.

The Foster F85 is designed for smaller machinery and equipment, perfect for light-duty tasks. It features a compact design that allows for easy installation in tight spaces. With a robust power output and energy-efficient operation, the F85 engine is coupled with advanced fuel injection technology that enhances performance and reduces emissions. Its low-maintenance requirements make it a favorite among operators looking for dependable machinery without extensive upkeep.

The Foster F20 escalates the performance, making it suitable for medium-duty applications. It boasts a higher torque output, allowing it to handle more demanding tasks while maintaining excellent fuel efficiency. The F20 integrates cutting-edge electronic control systems that optimize engine performance in real time. This model also features noise reduction technology, contributing to quieter operation in urban or sensitive environments.

Progressing to the Foster F40, this engine shines in heavy-duty applications, offering significant power and efficiency. With a robust design, the F40 is capable of withstanding harsh working conditions without compromising on performance. It features advanced thermal management systems that ensure optimal operating temperatures, enhancing engine lifespan and reliability. Moreover, the F40 incorporates modular components, promoting ease of repair and maintenance.

Lastly, the Foster F60 is the flagship model in this lineup and stands out for its exceptional power-to-weight ratio. It is engineered with the latest innovations in turbocharging, which provides increased horsepower while maintaining low fuel consumption. The F60 also integrates sophisticated diagnostic tools that help operators monitor performance and anticipate maintenance needs, thus minimizing downtime.

Across this range, Foster engines emphasize sustainability through reduced emissions and noise output, adhering to strict industry regulations. From the entry-level F85 to the high-performance F60, each model showcases Foster's commitment to engineering excellence and the evolving needs of industries. Whether for construction, agriculture, or commercial use, the Foster F series represents a wise investment for efficiency and reliability.