PAGE 2
PRINTED IN THE U.S.A.
ASSEMBLY, LEG INSTALLATION
SECTION 2
2.1 INSTALLING THE LEGS
This unit was shipped without the legs installed. The legs should be
installed before placing the aftercooler in the piping system. Carefully lift
and support the unit several feet from the floor.
Position the legs against the unit and fasten them in place using the
fasteners provided. Make sure the fasteners are tightened in place.
FIGURE 1 LEG INSTALLATION DETAIL
SPECIFICATIONS AND DIMENSIONS
SECTION 3
3.1 SPECIFICATIONS
WEIGHT
AC-50 ...................... 110 LBS
AC-100 .................. 140 LBS
AC-60 ...................... 110 LBS
AC-110 .................. 145 LBS
AC-70 ...................... 120 LBS
AC-120 .................. 200 LBS
AC-80 ...................... 120 LBS
AC-130 .................. 300 LBS
AC-90 ...................... 140 LBS
DIMENSIONS .............. See Section 3.2
INLET/OUTLET CONNECTIONS
AC-50 .............. 1" NPT (F)
AC-100 ........ 1-1/2" NPT (F)
AC-60 .............. 1" NPT (F)
AC-110 ........ 1-1/2" NPT (F)
AC-70 .............. 1-1/2" NPT (F)
AC-120 ........ 2" NPT (F)
AC-80 .............. 1-1/2" NPT (F)
AC-130 ........ 2" NPT (F)
AC-90 .............. 1-1/2" NPT (F)
MAXIMUM WORKING PRESSURE
ALL MODELS .................. 250 PSIG
MAXIMUM WORKING TEMPERATURE
ALL MODELS .................. 350
O
F
MATERIALS OF CONSTRUCTION
CABINET ......................... Galvanized steel
FAN GUARD ................... Steel with baked enamel finish
FAN ................................. Heavy gauge aluminum with steel hub
CORE .............................. Aluminum fins on copper tubes
MOTOR ........................... Open vented
MOTOR SPECIFICATIONS AND DATA
See Wiring Diagram, Figure 5 on page 6.
MAXIMUM CAPACITY (SCFM)
Rated capacities are based on the following conditions: Inlet and approach temperature at inlet pressures 80 to 125 PSIG.
Approach Temperature:
The number of degrees above the temperature of the cooling medium (in this case ambient air) to
which the aftercooler reduces the compressed air. A higher approach does
not
mean better performance.
INLET TEMP.
APPROACH
TEMP.
O
F
MODEL
AC-50
AC-60
AC-70
AC-80
AC-90
AC-100
AC-110
AC-120
AC-130
15
58
79
99
119
140
190
220
380
440
10
42
58
73
87
102
138
160
275
318
5
25
34
42
50
60
81
92
160
184
20
73
99
125
150
177
235
270
425*
480*
5
18
25
32
40
48
61
73
120
145
10
31
43
55
69
81
105
125
207
250
15
43
59
77
94
112
142
172
285
345
20
53
74
95
117
140
177
215
355
430
5
15
21
27
34
43
51
63
100
125
10
25
36
47
59
73
87
110
175
217
15
35
50
65
80
100
120
150
240
300
20
44
62
81
100
124
150
187
300
375
5
13
18
24
30
38
43
55
84
110
10
22
31
41
52
64
75
95
145
190
15
30
42
57
71
87
102
130
204
257
20
37
52
71
89
110
127
160
250
320
5
11
16
22
28
34
40
50
78
100
10
19
27
37
47
59
69
86
135
175
15
26
38
52
65
81
94
120
185
240
20
32
47
65
82
100
116
148
231
300
150
O
F
200
O
F
350
O
F
250
O
F
300
O
F
MAXIMUM PRESSURE DROP LESS THAN 3 PSI.
*
Maximum ratings restricted by pressure drop: actual thermal capacities are higher.
FAN DATA
(AMBIENT AIR FLOW)
AC-50 THRU AC-80 ........ 1375 SCFM
AC-90 THRU AC-100 ...... 2450 SCFM
AC-110 ............................ 2350 SCFM
AC-120 ............................ 4600 SCFM
AC-130 ............................ 4700 SCFM
ELECTRICAL REQUIREMENTS
AC-50-1 thru AC-130-1 .......... 115-1-60 w/ ODP motor
AC-50-2 thru AC-130-2 .......... 115-1-60 w/ TEFC motor
AC-50-3 thru AC-130-3 .......... 230-1-60 w/ TEFC motor
AC-50-4 thru AC-130-4 .......... 230-3-60 w/ TEFC motor
AC-50-5 thru AC-130-5 .......... 460-3-60 w/ TEFC motor
