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Daikin UCJ1000N [22/38] Ucj500p
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20
72
(0.12)
107
(0.16)
128
(0.18)
Evap. air
AFR
(BF)
EWB
EDB
16.0
18.0
19.0
22.0
24.0
16.0
18.0
19.0
22.0
24.0
16.0
18.0
19.0
22.0
24.0
23.0
25.0
27.0
30.0
32.0
23.0
25.0
27.0
30.0
32.0
23.0
25.0
27.0
30.0
32.0
TC
29.7
32.0
33.4
38.0
41.7
32.4
35.0
36.5
41.5
45.6
33.7
36.4
38.0
43.2
47.4
SHC
21.5
21.6
22.9
23.2
23.4
25.9
25.9
27.8
27.9
28.1
28.4
28.4
30.5
30.6
30.8
WFC
98
105
109
122
132
106
114
118
132
143
110
118
123
137
149
PD
36.8
41.7
44.4
54.3
62.4
42.3
48.0
51.2
62.4
71.4
45.1
51.2
55.1
66.4
77.5
PI
7.9
8.4
8.5
8.8
9.0
8.2
8.7
8.8
9.1
9.3
8.4
8.9
9.0
9.4
9.6
TC
29.5
31.8
33.1
37.7
41.6
32.3
34.8
36.2
41.2
45.5
33.5
36.2
37.6
42.8
47.3
SHC
21.4
21.5
22.8
23.1
23.4
25.9
25.9
27.6
27.8
28.1
28.3
28.3
30.4
30.5
30.8
WFC
100
106
110
123
133
108
115
119
133
144
112
119
123
138
150
PD
38.2
42.3
45.1
55.1
63.2
43.7
48.8
51.9
62.3
72.3
46.6
51.9
55.1
67.2
79.4
PI
8.8
9.0
9.1
9.4
9.6
9.0
9.3
9.4
9.7
9.9
9.3
9.5
9.6
10.0
10.2
TC
29.2
31.4
32.8
37.3
40.9
31.9
34.4
35.8
40.8
44.8
33.1
35.7
37.2
42.4
46.5
SHC
21.3
21.3
22.7
22.9
23.1
25.7
25.7
27.5
27.7
27.9
28.1
28.1
30.2
30.4
30.5
WFC
100
107
111
124
134
108
115
119
133
144
112
120
124
139
150
PD
38.2
43.0
45.9
55.9
64.0
43.7
48.8
51.9
63.2
72.3
46.6
52.7
55.9
68.0
79.4
PI
9.4
9.6
9.7
10.1
10.3
9.7
9.9
10.0
10.4
10.6
9.9
10.2
10.3
10.7
10.9
TC
28.6
30.8
32.1
36.4
40.3
31.2
33.7
35.1
39.7
44.0
32.5
35.0
36.5
41.3
45.8
SHC
21.0
21.0
22.3
22.5
22.9
25.4
25.4
27.2
27.2
27.6
27.8
27.8
29.9
30.0
30.3
WFC
100
107
111
123
134
108
115
119
132
144
112
119
124
137
150
PD
38.2
43.0
45.9
55.1
64.0
43.7
48.8
51.9
62.4
72.3
46.6
51.9
55.9
66.4
79.4
PI
10.0
10.2
10.4
10.7
11.0
10.3
10.5
10.7
11.0
11.3
10.6
10.8
11.0
11.3
11.6
25.0
30.0
35.0 40.0
Leaving condenser water temperature (°C)
Notes:
1.Figures in show nominal capacities.
2.Capacity and condenser water flow rate are based on 5.5°C (10°F) temperature rise. There is
no need to correct capacity, if the temperature rise is within 5~9°C, but compute condenser
water flow rate (WFC') using the following formula.
WFC'WFC
However, limit condenser water flow rate to the range of figures for "Pressure drop through
condenser" shown on page 27.
3. Ratings shown are net capacities which do not include a deduction for evaporator fan
motorheat.
4. SHC is based on each EWB and EDB.
Add SHC to SHC.
SHC Capacity correction for SHC for other dry bulb temp.
0.2960AFR (m
3
/min)(1-BF)(DB-EDB)/860
5. Direct interpolation is permissible. Do not extrapolate.
Symbols:
AFR : Air flow rate (m
3
/min)
BF : Bypass factor
EWB : Entering wet bulb temp. (°CWB)
TC : Total capacity (kW)
SHC : Sensible heat capacity (kW)
WFC : Condenser water flow rate (l/min.)
PD : Pressure drop (kpa)
(Cooling water)
PI : Power input (compressor) (kW)
UCPJ335P
90
(0.06)
135
(0.08)
165
(0.10)
Evap. air
AFR
(BF)
EWB
EDB
16.0
18.0
19.0
22.0
24.0
16.0
18.0
19.0
22.0
24.0
16.0
18.0
19.0
22.0
24.0
23.0
25.0
27.0
30.0
32.0
23.0
25.0
27.0
30.0
32.0
23.0
25.0
27.0
30.0
32.0
TC
43.1
46.5
48.5
55.2
60.5
46.8
50.5
52.7
60.0
65.8
48.7
52.5
54.8
62.4
68.4
SHC
30.5
30.6
32.4
32.9
33.3
36.7
36.8
39.3
39.6
39.9
40.6
40.6
43.6
43.8
44.1
WFC
139
149
155
173
188
150
161
167
187
203
155
167
174
194
211
PD
29.4
32.9
35.2
42.3
49.0
33.3
37.4
39.8
48.5
56.5
35.2
39.8
42.7
52.0
60.5
PI
10.2
10.8
11.0
11.3
11.6
10.6
11.3
11.4
11.8
12.1
11.0
11.6
11.8
12.2
12.5
TC
42.9
46.2
48.0
54.7
60.4
46.6
50.3
52.2
59.5
65.7
48.4
52.3
54.3
61.8
68.3
SHC
30.4
30.5
32.2
32.7
33.2
36.6
36.7
39.1
39.4
39.9
40.5
40.5
43.4
43.6
44.0
WFC
141
151
156
174
190
152
162
168
188
205
158
168
174
195
213
PD
30.1
33.7
35.6
42.7
50.1
34.0
37.8
40.2
49.0
57.5
36.3
40.2
42.7
52.5
61.4
PI
11.3
11.5
11.7
12.1
12.4
11.7
12.0
12.2
12.6
12.9
12.1
12.4
12.5
13.0
13.3
TC
42.3
45.7
47.6
54.2
59.5
46.0
49.6
51.7
58.9
64.6
47.9
51.6
53.8
61.3
67.2
SHC
30.1
30.2
32.0
32.4
32.8
36.4
36.4
38.9
39.2
39.5
40.3
40.2
43.2
43.4
43.6
WFC
142
151
156
175
189
153
163
169
189
204
158
169
175
196
212
PD
30.4
33.7
35.6
43.1
49.5
34.4
38.2
40.7
48.5
57.0
36.3
40.7
43.1
53.0
61.0
PI
12.0
12.3
12.5
13.0
13.2
12.5
12.8
13.0
13.5
13.8
12.9
13.2
13.4
13.9
14.2
TC
41.5
44.8
46.6
52.8
58.5
45.1
48.6
50.7
57.4
63.6
46.9
50.6
52.7
59.7
66.1
SHC
29.7
29.8
31.5
31.8
32.4
35.9
35.9
38.5
38.6
39.1
39.8
39.8
42.8
42.8
43.3
WFC
142
151
156
173
189
152
162
168
187
204
158
168
175
194
212
PD
30.4
33.7
35.6
42.3
49.5
34.0
37.8
40.2
48.5
57.0
36.3
40.2
43.1
52.0
61.0
PI
12.9
13.1
13.4
13.7
14.1
13.4
13.7
13.9
14.3
14.7
13.8
14.1
14.3
14.7
15.1
25.0
30.0
35.0 40.0
Leaving condenser water temperature (°C)
UCJ500P
120
(0.05)
180
(0.07)
220
(0.09)
Evap. air
AFR
(BF)
EWB
EDB
16.0
18.0
19.0
22.0
24.0
16.0
18.0
19.0
22.0
24.0
16.0
18.0
19.0
22.0
24.0
23.0
25.0
27.0
30.0
32.0
23.0
25.0
27.0
30.0
32.0
23.0
25.0
27.0
30.0
32.0
TC
56.5
60.9
63.6
72.3
79.4
62.8
67.7
70.7
80.4
88.2
66.6
71.8
74.9
85.2
93.5
SHC
40.3
40.4
42.9
43.4
43.9
49.4
49.4
52.9
53.2
53.6
55.2
55.2
59.2
59.5
59.8
WFC
185
199
206
231
250
203
218
226
253
274
213
229
238
266
289
PD
47.3
53.9
57.2
70.2
81.1
55.9
63.3
67.5
82.9
96.2
60.8
69.1
74.2
91.0
106.1
PI
14.5
15.4
15.6
16.1
16.5
15.0
15.9
16.1
16.6
17.0
15.1
16.0
16.2
16.8
17.2
TC
56.2
60.6
63.0
71.7
79.2
62.4
67.4
70.0
79.7
88.0
66.2
71.4
74.2
84.5
93.3
SHC
40.1
40.3
42.6
43.1
43.9
49.2
49.3
52.6
52.9
53.5
55.0
55.0
58.9
59.2
59.8
WFC
188
201
207
232
252
206
220
227
254
277
216
231
238
267
291
PD
48.8
54.9
57.7
70.8
82.3
57.2
64.4
68.0
83.5
98.2
62.3
70.2
74.2
91.7
107.5
PI
16.0
16.4
16.6
17.2
17.6
16.5
16.9
17.1
17.7
18.2
16.7
17.1
17.3
17.9
18.3
TC
55.5
59.9
62.4
71.1
78.0
61.7
66.5
69.3
79.0
86.6
65.4
70.5
73.5
83.7
91.8
SHC
39.8
39.9
42.3
42.9
43.4
48.9
48.9
52.3
52.7
53.0
54.6
54.6
58.6
58.9
59.3
WFC
189
202
209
233
252
207
220
228
255
276
217
231
240
268
290
PD
49.2
55.4
58.7
71.3
82.3
57.7
64.4
68.5
84.1
97.5
62.8
70.2
75.3
92.3
106.8
PI
17.1
17.5
17.8
18.5
18.8
17.7
18.1
18.3
19.0
19.4
17.8
18.3
18.5
19.2
19.6
TC
54.4
58.7
61.1
69.2
76.7
60.4
65.2
67.9
76.9
85.2
64.1
69.1
72.0
81.5
90.4
SHC
39.2
39.4
41.7
42.1
42.8
48.3
48.3
51.7
52.4
52.5
54.1
54.0
58.0
58.1
58.8
WFC
189
202
209
231
252
207
220
228
253
276
217
231
239
265
290
PD
49.2
55.4
58.7
70.2
82.3
57.7
64.4
68.5
82.9
97.5
62.8
70.2
74.8
90.5
106.8
PI
18.3
18.6
19.0
19.5
20.1
18.8
19.2
19.6
20.1
20.7
19.0
19.4
19.8
20.3
20.9
25.0
30.0
35.0 40.0
Leaving condenser water temperature (°C)
UCJ670P
[60Hz]
5.5
Temp.rise
Содержание
- Engineering data 1
- Contents 2
- Ucpj 100n ucj 500p 170p 670p 250p 850n 335p 1000p 1320p 1600n 2000n 2
- Water cooled packaged air conditioners 2
- Features 3
- Water cooled packaged air conditioners uc p series 3
- Specifications 4
- Ucj500p 4
- Ucpj100n 4
- Ucpj170p 4
- Ucpj250p 4
- Ucpj335p 4
- Ucj1000p 5
- Ucj1320p 5
- Ucj1600n 5
- Ucj670p 5
- Ucj850n 5
- Safety devices 6
- Unit size compressor thermal protector overcurrent relay comp overcurrent relay fan motor high pressure switch fusible plug reverse phase protector 6
- Optional accessories 7
- Power supply 7
- Standard accessories 7
- A 950 1170 1470 8
- B 695 870 1140 8
- C 280 330 430 8
- D 27 35 20 8
- Dimensions 8
- E 924 1144 1444 8
- F 974 1194 1494 8
- Model ucpj170p ucpj250p ucpj335p 8
- Ucpj100n 8
- Ucpj170p 250p 335p 8
- A 1600 1760 9
- A 540 680 9
- B 115 180 9
- B 1570 1730 9
- C 1495 1835 9
- C 1620 1780 9
- D 1400 1560 9
- D 1470 1810 9
- E 1445 1785 9
- Model ucj500p ucj670p 9
- Model ucj850n ucj1000p 9
- Ucj500p 670p 9
- Ucj850n 1000p 9
- 1 main and control circuits 11
- Symbols 11
- Ucpj100n 11
- Ucpj170p 250p 335p 11
- Wiring diagrams 11
- Function of 23a part shows on 12
- If the evaporating pan type humidifier is used connect the humidifiying circuit between 4 and 6 7 if the electric heater is used remove the jumper between 7 and 8 and connect the heating circuit 26ah 52h1 2 eh1 2 tfu the power supply for eh should not be connected to tes1 12
- Notes 1 terminal of tes jumper additional wiring for remote control 2 the wiring to interlock with condenser water pump remove the jumper wire between 1 and 2 on tes and connect axp axp should be supplied separately 12
- Symbols 12
- The devices shown in are attached outside of the switch box 4 connection of transformer is as follows 12
- Transformer 12
- Ucj500n 670p 12
- Ucj850n 12
- Notes 1 terminal field wire jumper printed circuit board 2 the wiring to interlock with the cooling water pump remove the jumper between 1 and 2 on tes2 and connect axp 3 change the connection of transformer and reverse phase protection according to the table 2 4 function of 23a part shows on 13
- Symbols 13
- Table1 13
- Table2 13
- Temperature l h 13
- Ucj1000p 13
- Function of 23a part shows on 14
- Notes 1 terminal of tes jumper relay board additional wiring for remote control 2 the wiring to interlock with condenser water pump remove the jumper wire between 1 and 2 on tes and connect axp axp should be supplied separately 3 the devices shown in are attached outside of the switch box 4 connection of transformer is as follows 14
- Symbols 14
- Transformer 14
- Ucj1320p 14
- Ucj1600n 14
- Function of 23a part shows on 15
- Notes 1 terminal of tes jumper additional wiring for remote control 2 the wiring to interlock with condenser water pump remove the jumper wire between 1 and 2 on tes2 and connect axp 3 connection of transformer is as follows 15
- Symbols 15
- Temperature l h 15
- Ucj2000n 15
- 2 switch box and control panel 16
- Capacity tables 17
- Ucpj100n 17
- Ucpj170p 17
- Ucpj250p 17
- Ucj500p 18
- Ucj670p 18
- Ucpj335p 18
- Ucj1000p 19
- Ucj1320p 19
- Ucj850n 19
- Ucj1600n 20
- Ucj2000n 20
- Ucpj100n 21
- Ucpj170p 21
- Ucpj250p 21
- Ucj500p 22
- Ucj670p 22
- Ucpj335p 22
- Ucj1000p 23
- Ucj1320p 23
- Ucj850n 23
- Ucj1600n 24
- Ucj2000n 24
- Pressure drop 25
- Fan performance 26
- 2 adjusting range of fan motor pulley 30
- How to adjust the variable pitch pulley after stopping loosen the belt remove the screw from the movable pulley piece and turn the movable piece in the direction shown by the required number of turns tabulated in the table insert the screw into one of two holes from which it can contact the flat face of the fixed pulley piece when it is tightened retighten the screw align the pulleys of the fan and the motor and adjust the tension of the v belt 30
- Max dia 30
- Min dia 30
- Nomenclature 30
- Pulley adjusting method 30
- Refer to gap in the table on the left 30
- Turn the movable pully piece clockwise in case of ucpj170p 335p counterclockwise in case of ucpj100n ucj500p 670p viewed from the side opposite the motor by the number of turns tabulated 30
- Operation limit 31
- Ucj500p 670p 850n 1000p 1320p 1600n 2000n 31
- Ucpj100n ucpj170p ucpj335p 31
- 1 overall 32
- 2 octave band level 32
- Indoor units 32
- Sound level data 32
- Electric characteristics 34
- Center of gravity 35
- Note the location of centre of gravity shown is for a unit which is not in operation 35
- Service space 36
- Wiring connections 36
- Caution 37
- Dealer 38
- Ed 46 1a printed in japan 01 2002 k ak this book is made of recycled paper 38
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