13-10-618 Page 35
Figure 4-7 – TURN VALVE ACTUATOR (SECTIONED)
Turn Valve
(Electra-Saver only) (Figure 4-7) - The turn valve is a helical valve which, when rotated,
opens and closes a series of ports cast into the compressor cylinder. When these ports are open, they
direct some of the air which would otherwise be compressed back to the inlet, reducing both capacity and
power consumption.
Turn Valve Actuator
(Electra-Saver only) - The turn valve actuator is a rotary rack and pinion device
which positions the turn valve according to system demand. Filtered oil from the compressor sump is
directed to the outboard end of the two actuating cylinders to move the rack and rotate the valve.
Located on the ends of the cylinders are adjusting screws which limit the travel of the actuator. When
looking at the rear of the compressor, the adjusting screw on the right on the compressor adjusts the fully
closed (full-load) position of the valve. The full load position of the actuator may be checked by removing
the adjusting screw at the unloaded end of the actuator (left side of the compressor) and using a rod to
push the pistons to the full load position. The rod must be clean and free of burrs and scale. Take care
not to scrape the cylinder walls when moving the pistons.
Solenoid Valves TVC and TVO
(Electra-Saver only) - These valves control the position of the turn valve
in response to signals from the “AirSmart” controller. With both valves de-energized, equal pressure is
applied to both ends of the actuator to hold it in its present position. If TVC only is energized, the right
side of the turn valve actuator is exhausted to the compressor inlet cavity, causing the turn valve to move
towards the full load position. If TVO only is energized, the left end of the turn valve actuator is
exhausted to the compressor inlet cavity, causing the turn valve to move towards the unload position.
See “AirSmart” Controller Manual, 13-17-600 for a description of how the turn valve position is controlled
during normal operation.
System Pressure Transducer
- This transducer is connected after the minimum pressure valve. It
converts the pressure in the plant air system into an electrical signal for use by the “AirSmart” controller
for modulation and control.
Reservoir Pressure Transducer
- This transducer is connected to the coolant system. Its signal is used
to prevent loaded starts, monitor reservoir pressure, and monitor the condition of the air/oil separator.
Air Filter Vacuum Switch
- This switch is used to monitor air filter condition and alert the user if the filter
requires service or replacement.
209EAU797
(Ref. Drawing)
Summary of Contents for AirSmart EAU99T
Page 13: ...13 10 618 Page 12 Figure 1 6 PACKAGE AIR OIL FLOW DIAGRAM 202EDM797 Ref Drawing...
Page 39: ...13 10 618 Page 38 Figure 4 8 CONTROL SCHEMATIC COMPRESSOR AT FULL LOAD 206EAU797 B Ref Drawing...
Page 42: ...13 10 618 Page 41 Figure 4 11 WIRING DIAGRAM WYE DELTA 329EAU546 A Ref Drawing Page 1 of 2...
Page 43: ...13 10 618 Page 42 329EAU546 A Ref Drawing Page 2 of 2...
Page 44: ...13 10 618 Page 43 Figure 4 12 WIRING DIAGRAM WYE DELTA 330EAU546 A Ref Drawing Page 1 of 2...
Page 45: ...13 10 618 Page 44 330EAU546 A Ref Drawing Page 2 of 2...
Page 49: ...13 10 618 Page 48 Figure 5 3 FLOW DIAGRAM 210EAU797 B Ref Drawing...