Section 4 Refrigeration
4-2
1. All joints to be soldered must have proper fit.
Clearance between tubes to be soldered should be
from .001” to .006”. It is not practical to actually
measure this; however, you do not want a dry fit or
loose fit. Tubing joints should overlap about the
distance of their diameter except for restrictor tubes,
which should be inserted 1.25”.
2. Clean all joint areas with fine steel wool or
preferably an abrasive cloth, such as grit cloth
No. 23 or Scotch-Brite.
3. Apply a thin film of liquid flux recommended for
silver soldering to surfaces to be joined and to
surfaces immediately adjacent to joint.
4. Align tubing so no stress is on joint. Do not move
tubing while solder is solidifying or leaks will result.
5. Use a torch of adequate capacity so joint can be
quickly heated with a minimum of heat travel to
other points. Use a good grade of silver solder.
6. Solder connections. If tubing is properly cleaned
and fluxed, solder will flow readily. Use only enough
solder to make a good bond.
7. Allow joint to cool, then wash exterior with water to
remove flux.
Basic Components
The basic components of a refrigerator are a compressor,
condenser, evaporator, heat exchanger (capillary tube
and suction line) and drier.
Refrigerant Cycle
The refrigerant cycle is a continuous cycle that occurs
whenever the compressor is in operation. Liquid
refrigerant is evaporated in the evaporator by the heat
that enters the cabinet through the insulated walls and
by the heat from product load and door openings. The
refrigerant vapor is then drawn from the evaporator,
through the suction line to the compressor. Compression
raises the pressure and temperature of the vapor in the
compressor and the vapor is then forced through the
discharge valve into the discharge line and into the
condenser. Air passing over the condenser surface
removes heat from the high pressure vapor which then
condenses to a liquid. The liquid refrigerant then flows
from the condenser to the evaporator through the small
diameter liquid line (capillary tube). Before it enters the
evaporator, the liquid refrigerant is sub-cooled in the
heat exchanger by the low temperature suction vapor in
the suction line. When refrigerant is added, the frost
pattern will improve, the suction and discharge
pressures will rise, the condenser will become hot and
the wattage will increase.
Wear approved safety glasses when working with or
on any pressurized system or equipment. Have an
approved dry type fire extinguisher handy when using
any type of gas operated torch.
WARNING
During application of heat, use wet cloths to
prevent heat from conducting to areas other than the
soldered joint. Use a sheet of metal or torch guard
pad as a heat deflector to keep flame away from
inflammable materials and painted surfaces.
CAUTION
Summary of Contents for FFH17F8HW0
Page 2: ......
Page 14: ...Section 2 Installation Information 2 6 Notes ...
Page 18: ...Section 3 Electronic Control 3 4 Notes ...
Page 33: ...Section 4 Refrigeration 4 15 HFC 134a CFC 12 Pressure Temperature Chart ...
Page 36: ...Section 4 Refrigeration 4 18 Notes ...
Page 48: ...Section 5 Component Teardown 5 12 Notes ...
Page 53: ...Section 7 Wiring Diagram 7 1 ...
