3
1.3 Piping Connections
A. Air Inlet - Connect compressed air line from air source
to air inlet. (Reference markings on dryer for air inlet/
outlet connection locations)
Refer to Serial Number Tag for maximum
working pressure. Do not exceed dryer’s Maximum Working
Pressure.
NOTE:
Install dryer in air system at highest pressure possible
(e.g. before pressure reducing valves).
NOTE
:
Install dryer at coolest compressed air temperature
possible. Maximum inlet compressed air temperature: 110°F
(43°C). If inlet air exceeds this temperature, precool the air
with an aftercooler.
B. Air Outlet – Connect air outlet to downstream air lines.
C. By-pass piping – If servicing the dryer without
interrupting the air supply is desired, piping should
include inlet and outlet valves and an air by-pass valve.
D. Water-cooled models – cooling water inlet and outlet
1. Connect cooling water supply to cooling water inlet.
2. Connect cooling water return line to cooling water
outlet connection.
NOTE:
Strainer and water regulating valve are supplied
on water-cooled models. Also, it is recommended to add
water inlet/outlet temperature and pressure gauges to
the water piping.
1.4 Electrical Connections
IMPORTANT:
Use copper supply wires only.
A. Dryer is designed to operate on the
voltage, phase, and frequency listed on
the serial number tag.
B. If dryer is supplied with a cord and plug,
install in a receptacle of proper voltage.
C. Electrical entry on larger dryers is through a hole in
the cabinet. It is located on the right side panel when
facing the front of the unit. Connect power source to
the terminal strip in the electrical enclosure as shown
on the electrical schematic included with the dryer.
If optional disconnect is supplied, use entry hole in
disconnect enclosure.
NOTE:
Refrigeration condensing unit is designed to run
continuously and should NOT be wired to cycle on/off with
the air compressor.
NOTE: ON MODELS 500, 600, and 750, CHECK FOR CORRECT
PHASING OF UNIT. After starting the dryer, if an unusual
noise is heard, or if the discharge line does not get hot, the
refrigeration compressor may be running in the reverse
direction. Immediately stop the dryer, reverse two of the
power leads, restart the dryer, and verify the unusual noise is
corrected and the refrigerant discharge line is hot. FAILURE
TO DO SO MAY DAMAGE THE COMPRESSOR AND VOID THE
WARRANTY.
1.5 Moisture Separator
A.
Model 100:
Separator (and Oil Removal Filter where
applicable) has an internal drain which
automatically discharges collected
condensate.
Models 125-750:
Separator (and Oil Removal Filter where applicable) has an
external drain which automatically discharges collected
condensate.
NOTE:
It may be desirable to pipe the condensate from
the Automatic Drain outlet to a suitable drain.
B.
Model 100 with standard panel or optional
I-Controller Level 1 ONLY:
Separator has a knurled fitting with flexible drain tubing
attached. Be sure knurled fitting is tightened by turning
counter-clockwise before operating dryer.
TO CLOSE
TURN COUNTERCLOCKWISE
C.
Models 125-750
For manual draining, convenient dryer depressurization,
and drain valve maintenance, a three-way valve assembly
is installed between the drain port on the moisture
separator and the drain valve. Models with the optional
cold coalescing filter are equipped with a separate drain
valve and three-way valve assembly. On Models 125
and 150, the three-way valve is panel mounted inside
the dryer cabinet. On Models 200-750, the three-way
valve is mounted to the bottom of the separator vessel
using a quick disconnect fitting. Review the following
for proper drain function:
• Automatic Draining - Valve handle should be
positioned parallel to the valve body (as shown),
with the arrow on the handle pointing toward the
drain valve. In this position, condensate will flow
from the bowl to the drain valve.
• Drain Isolation (Shutdown) - Valve handle shall be
turned perpendicular to the valve body (rotate
90°). In this position, condensate flow is shutoff.
MRD100-150
Models 125-150