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OUG
Printed in Japan(H) RE-E208S 0915
INDEX
CHARACTERISTICS AND STRUCTURE OF MACHINE ROOM-LESS ELEVATOR 3・・・・・
Selecting the most suitable elevator configuration
is the key to realizing an effective vertical
transportation system in a building.
Please use the information for Hitachi's OUG
contained herein to serve you
in your overall plans for a building.
OVERHEAD HEIGHT AND PIT DEPTH
DIMENSION OF HOISTWAY AND PIT REACTION LOADING(Counterweight location : Side) 【EN / HKG COP】
DIMENSION OF HOISTWAY AND PIT REACTION LOADING(Counterweight location : Rear) 【EN / HKG COP】
DIMENSION OF HOISTWAY AND PIT REACTION LOADING(Counterweight location : Side) 【SS550 / MS】
DIMENSION OF HOISTWAY AND PIT REACTION LOADING(Counterweight location : Rear) 【SS550 / MS】
(1)
(2)
(3)
(4)
(5)
ELECTRICAL INFORMATION
ENTRANCE DETAILS
OPERATING SYSTEMS
FUNCTIONS
WORK TO BE DONE BY BUILDING CONTRACTORS
(1)
(2)
(3)
(4)
(5)
2
1
3
OUG INFORMATION
CHARACTERISTICS AND STRUCTURE OF MACHINE ROOM-LESS ELEVATOR
COMMON INFORMATION
5
7
9
11
13
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・
・・・・・・・・・・・・・・・・・
・・・・・・・・・・・・・・・・・
・・・・・・・・・・・・・・・・・
・・・・・・・・・・・・・・・・・
15
17
19
20
22
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・
・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・・
・・・・・・・・・・・・・・・・・・・・・・・
1 2
OUG Basic specifications
REDUCTION OF ELECTRICITY CONSUMPTION
OUG Overhead height
OUG Reaction loading
● By locating slim-type gearless traction machineon the lower zone and side of the hoistway,overhead height is reduced.
●
●
●
●
Load : 1150 - 2000 kgSpeed : 60, 90, 105 m/minTravel distance : Maximum 60 mNumber of stop floors : Maximum 25 stops
● Reaction loading (*1) from elevator equipment, transmitted via guide rail, is supported bypit floor.
● OUG Reduction of electricity consumption due to improvement of operation energy efficiency
Remarks1. Concrete values are shown in page8,10,12,14 as RC2,RC3,RW2,RW3.
OUG
(By 3D modeling)
(By 3D modeling)
CHARACTERISTICS AND STRUCTURE OF MACHINE ROOM-LESS ELEVATOR
※Based on 1600kg load and 60m/min speed
8807kWh
2894kWh
2634kWh
Reduction of
70%
Induction MotorInverter Control
PM Motor Inverter Control[OUG , OUG10T]
Alternating CurrentFeedback Control
1150~2000450~1000
Load[kg]
60
90
105
Sp
eed
[m/m
in]
UAG(*1) OUG
Remarks1. For detailed information on UAG model, please refer to Hitachi's UAG catalogue.
Speed and Loading Capacity
3 4
■Hoistway section
■Specifications
■Dimension for overhead height (OUG)
■Dimension for pit depth (OUG)
4300(4400)
4300(4400)
4300(4400)
4150(4250)
4350(4450)
4350(4450)
4150(4250)
4200(4300)
4400(4500)
3800(3900)
3800(3850)
4150(4250)
4150(4050)
4300(4350)
4300(4150)
3750(3850)
3750(3800)
4100(4200)
4100(4000)
4200(4250)
4200(4050)
3950(4050)
4150(4250)
4150(4200)
4300(4350)
4300(4250)
3750(3850)
3750(3850)
4050(4150)
4050(4000)
4200(4250)
4200(4050)
60
90
105
1150
1350
1600
1800
2000
1150
1350
1600
1800
2000
1150
1350
1600
1800
2000
EN ENHKG COP HKG COPSS550 SS550MS MS
Load[kg]
Speed[m/min]
Minimum overhead height : OH [mm]Counterweight location : Rear Counterweight location : Side
60
90
105
2150
2150
2150
1650(1700)
1700(1750)
1550
1650
1800(1850)
1850(1900)
1800
1700
1650(1850)
1650(1700)
1650(1900)
1700(1750)
1700(1950)
1550
1650
1150
1350
1600
1800
2000
1150
1350
1600
1800
2000
1150
1350
1600
1800
2000
EN EN/HKG COP/SS550/MSENHKG COP HKG COP MSMSSS550 SS550
Load[kg]
Speed[m/min]
Minimum pit depth : P [mm] Maximum pit depth : P [mm]Counterweight location : Rear Counterweight location : Rear/SideCounterweight location : Side
1700
1800
1800(2000)
1800(1850)
1800(2050)
1850(1900)
1850(2100)
Maximum travel distance
Maximum number of stops
Minimum floor heightEH < 2100mm
EH ≧ 2100mm
60 m(*1)
25 stops
2500mm
EH + 400mm
Remarks1.2.3.
If bare ceiling height is more than 2300mm, please consult to Hitachi or local agent.( ) : For 30 < travel distance ≦60 mIf total number of floors is 2, please consult Hitachi or local agent about minimum travel distance and overhead height.
Remarks1.2.If travel distance exceeds 60m, please consult Hitachi or local agent.If total number of floors is 2, please consult Hitachi or local agent about minimum travel distance and overhead height.
Ent
ranc
e he
ight
[EH
]
Trav
el d
ista
nce (*
1)(*
2)
Ove
rhea
d h
eigh
t[O
H] (*
2)P
it d
epth
[P]
Tota
l hei
ght
100
-100
0mm
300 - 350mm
Hoisting hook for3-tons loading (By others)
In case power outlet can't be provided in PLAN ADuct length from hoistway wall : 50mmWiring length from hoistway wall : 6500mm + floor heightCircuit breaker (By others)
Power supply for motor : 3 Phase, 380-440V, 50Hz×1 circuitPower supply for lighting : 1 Phase, 200-220V, 50Hz,1mmφ×1 circuitDuct length from hoistway wall : 50mmWiring length from hoistway wall : 7500mmCircuit breaker (By others)
Plan B : Power Outlet (By others)[ Around the Ceiling level of lowest floor ]
Plan A : Power Outlet (By others)[ Around the Floor level of lowest floor ]
OVERHEAD HEIGHT AND PIT DEPTH
OUG INFORMATION (1)
5 6
1265(1300)
1265(1300)
■Hoistway dimension (OUG, Counterweight location:Side) ■Pit and reaction loading (OUG, Counterweight location:Side)
■Dimension of hoistway ■Pit and reaction loadingLocation [mm]
Speed[m/min] X2
Load[kg]
Car internal sizeA × B[mm]
Door OP widthW
[mm]
HoistwayX × Y[mm] X1
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
1800 × 1450
1800 × 1650
2000 × 1500
2000 × 1700
2100 × 1650
2000 × 1850
2000 × 2000
1800 × 1450
1800 × 1650
2000 × 1500
2000 × 1700
2100 × 1650
2000 × 1850
2000 × 2000
2750 × 2050
2750 × 2050
2800 × 2050
2950 × 2050
3000 × 2050
3000 × 2150
3050 × 2150
3100 × 2100
3150 × 2100
1575
1575
1675
1735
1750
1785
1800
1750
1750
1175
1175
1225
1275
1325
1265
1300
1315
1350
1300
1300
1000
1000
1100
1100
1100
1100
1100
1150
1350
1600
1800
2000
1150
1350
1600
1800
2000
RC1 RC2 RC3 RW1 RW2 RW3
Location [mm] Pit reaction loading [kN]Car side Counterweight side
C D E RGC RGWX2Load[kg]
Speed[m/min]
Car internal sizeA × B[mm] X1
3000 × 2300(3050 × 2400)
3050 × 2300(3050 × 2400)
3050 × 2450(3050 × 2550)
21.5(26.5)
23.5(29)
30(35)
32.5(31.5)
35(33.5)
54(59.5)
58(63)
61(66.5)
65.5(79.5)
69.5(83.5)
3000 × 2450(3050 × 2550)
1735(1750)
1735(1750)
1575
1575
1675
1735
1750
1785
1800
1750
1750
1175
1175
1225
1275
1325
1265
1300
1315
1350
1300
1300
655
655
705
655
855
985
1415
1415
1515
1580
1630
1580
1580
425
425
425
1940
1940
2140
2140
2240
2140
2140
1250
1250
1550
1550
1550
71.5 × 2sets
132.5
138.5
80 × 2sets
148.5
155.5
80 × 2sets
148.5
155.5
120
168
176
120
168
176
61 × 2sets
112.5
117.5
68 × 2sets
125
131
68 × 2sets
125
131
76 × 2sets
140
146.5
76 × 2sets
140
146.5
1735(1750)
1735(1750)
1265(1300)
1265(1300)
425(525)
425(525)
132(135)
184.5(189)
193(197)
105 × 2sets(107.5 × 2sets)
100.5 × 2sets(103 × 2sets)
72 × 2sets(73.5 × 2sets)
56(61.5)
60(65)
66.5(72)
71.5(77.5)
75(81.5)
41.5(46.5)
45(50.5)
50.5(55.5)
54.5(61)
58.5(65)
83 × 2sets(85.5 × 2sets)
152.5(157)
173(177.5)
165(169.5)
90 × 2sets(92.5 × 2sets)
159.5(164)
Remarks1.2.( ) : For 30 < travel distance ≦60 mAbove tables shows the dimensions on the following conditions(1) Single elevator in hoistway (2) 2 panels center opening (3) Fire rated door (4) Without counterweight safetyPlease consult Hitachi or local agent if other specifications are required.
Remarks1.2.( ) : For 30 < travel distance ≦60 mAbove tables shows the dimensions on the following conditions(1) Single elevator in hoistway (2) 2 panels center opening (3) Fire rated door (4) Without counterweight safetyPlease consult Hitachi or local agent if other specifications are required.
E
RG
W
C
Y :
Hoi
stw
ay d
epth
D
X : Hoistway width
X2X1
RW3
RW1
Y :
Hoi
stw
ay d
epth
X : Hoistway width
X2X1Inspection Panel(Bottom floor)
RC1
RGC
RC3RC2
B :
Car
inte
rnal
dep
th
A : Car internal width
W : Door OP In case of 2 buffers
RW2
DIMENSION OF HOISTWAY AND PIT REACTION LOADING 【EN / HKG COP】OUG INFORMATION (2)
7 8
■Hoistway dimension (OUG, Counterweight location:Rear) ■Pit and reaction loading (OUG, Counterweight location:Rear)
■Dimension of hoistway ■Pit and reaction loadingLocation [mm]
Speed[m/min] X2
Load[kg]
Car internal sizeA × B[mm]
Door OP widthW
[mm]
HoistwayX × Y[mm] X1
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
1800 × 1450
1800 × 1650
2000 × 1500
2000 × 1700
2100 × 1650
2000 × 1850
2000 × 2000
1800 × 1450
1800 × 1650
2000 × 1500
2000 × 1700
2100 × 1650
2000 × 1850
2000 × 2000
2500 × 2300
2500 × 2300
2700 × 2300
2750 × 2400
2850 × 2350
2750 × 2550
2750 × 2650
1350
1350
1425
1460
1550
1460
1460
1150
1150
1275
1290
1300
1290
1290
1000
1000
1100
1100
1100
1100
1100
1150
1350
1600
1800
2000
1150
1350
1600
1800
2000
RC1 RC2 RC3 RW1 RW2 RW3
Location [mm] Pit reaction loading [kN]Car side Counterweight side
C D E RGC RGWX2Load[kg]
Speed[m/min]
Car internal sizeA × B[mm] X1
1350
1350
1425
1460
1550
1460
1460
1150
1150
1275
1290
1300
1290
1290
655
655
705
655
855
985
1465
1465
1505
1505
1505
345
345
445
295
345
295
295
1940
1940
2140
2140
2240
2140
2140
1250
1250
1550
1550
1550
71.5 × 2sets
132.5
139
80 × 2sets
148.5
155.5
80 × 2sets
148.5
155.5
120
168
176
120
168
176
61 × 2sets
112.5
117.5
68 × 2sets
125
131
68 × 2sets
125
131
76 × 2sets
140
146.5
76 × 2sets
140
146.5
132(135)
35(40.5)
42(47.5)
45.5(51.5)
48(54.5)
38(43.5)
59.5(65)
70.5(76)
76(83)
80.5(87)
64(69.5)
41.5(46.5)
50.5(55.5)
54.5(61)
58.5(65)
45(50.5)
37(42.5)
45.5(50.5)
48.5(54.5)
51.5(57)
39.5(45)
184.5(189)
105 × 2sets(107.5 × 2sets)
100.5 × 2sets(103 × 2sets)
72 × 2sets(73.5 × 2sets)
193(197)
83 × 2sets(85.5 × 2sets)
152.5(157)
173(177.5)
165(169.5)
90 × 2sets(92.5 × 2sets)
159.5(164)
Remarks1. Above tables shows the dimensions on the following conditions(1) Single elevator in hoistway (2) 2 panels center opening (3) Fire rated door (4) Without counterweight safetyPlease consult Hitachi or local agent if other specifications are required.
Remarks1.2.( ) : For 30 < travel distance ≦60 mAbove tables shows the dimensions on the following conditions(1) Single elevator in hoistway (2) 2 panels center opening (3) Fire rated door (4) Without counterweight safetyPlease consult Hitachi or local agent if other specifications are required.
X2X1
DC
RGWE
RGC
X2X1
RC1 RC3RC2
RW2 RW3RW1
X : Hoistway widthX : Hoistway width
Y :
Hoi
stw
ay d
epth
Y :
Hoi
stw
ay d
epth
B :
Car
inte
rnal
dep
th
A : Car internal width
W : Door OP In case of 2 buffers
Inspection Panel(Bottom floor)
DIMENSION OF HOISTWAY AND PIT REACTION LOADING 【EN / HKG COP】OUG INFORMATION (3)
9 10
■Hoistway dimension (OUG, Counterweight location:Side) ■Pit and reaction loading (OUG, Counterweight location:Side)
■Dimension of hoistway ■Pit and reaction loadingLocation [mm]
Speed[m/min] X2
Load[kg]
Car internal sizeA × B[mm]
Door OP widthW
[mm]
HoistwayX × Y[mm] X1
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
1800 × 1500
1800 × 1750
2000 × 1550
2000 × 1750
2000 × 1950
2000 × 1900
2000 × 2100
1800 × 1500
1800 × 1750
2000 × 1550
2000 × 1750
2000 × 1950
2000 × 1900
2000 × 2100
2750 × 2050
2750 × 2150
2800 × 2150
2950 × 2050
3000 × 2050
3000 × 2200
3050 × 2200
1575
1575
1675
1735
1750
1750
1750
1750
1175
1175
1225
1275
1325
1265
1300
1300
1300
1300
1000
1000
1100
1100
1100
1100
1100
1150
1350
1600
1800(Only SS550)
1800(Only MS)
2000
1150
1350
1600
1800(Only SS550)
1800(Only MS)
2000
RC1 RC2 RC3 RW1 RW2 RW3
Location [mm] Pit reaction loading [kN]Car side Counterweight side
C D E RGC RGWX2Load[kg]
Speed[m/min]
Car internal sizeA × B[mm] X1
3000 × 2350(3050 × 2450)
3050 × 2350(3050 × 2450)
3000 × 2400(3050 × 2500)
3050 × 2400(3050 × 2500)
3050 × 2500(3050 × 2600)
21.5(26.5)
23.5(29)
30(35)
32.5(31.5)
35(33.5)
32.5(31.5)
54(59.5)
58(63)
61(66.5)
65.5(79.5)
65.5(79.5)
69.5(83.5)
41.5(46.5)
45(50.5)
50.5(55.5)
54.5(61)
58.5(65)
54.5(61)
56(61.5)
60(65)
66.5(72)
71.5(77.5)
71.5(77.5)
75(81.5)
3000 × 2500(3050 × 2600)
1735(1750)
1735(1750)
1265(1300)
1265(1300)
1735(1750)
1265(1300)
1735(1750)
1735(1750)
1735(1750)
1575
1575
1675
1735
1750
1750
1750
1750
1265(1300)
1265(1300)
1265(1300)
1175
1175
1225
1275
1325
1265
1300
1300
1300
1300
655
755
655
755
955
905
1035
1415
1415
1515
1580
1580
1580
1580
425(525)
425(525)
425(525)
425
425
425
1940
1940
2140
2140
2140
2140
2140
1250
1250
1550
1550
1550
1550
132(135)
184.5(189)
105 × 2sets(107.5 × 2sets)
100.5 × 2sets(103 × 2sets)
72 × 2sets(73.5 × 2sets)
193(197)
184.5(189)
193(197)
132(135)
71.5 × 2sets
132.5
138.5
80 × 2sets
148.5
155.5
80 × 2sets
148.5
155.5
120
168
176
61 × 2sets
112.5
117.5
68 × 2sets
125
131
68 × 2sets
125
131
76 × 2sets
140
146.5
83 × 2sets(85.5 × 2sets)
152.5(157)
173(177.5)
165(169.5)
90 × 2sets(92.5 × 2sets)
159.5(164)
83 × 2sets(85.5 × 2sets)
152.5(157)
159.5(164)
Remarks1.2.
3.
( ) : For 30 < travel distance ≦60 mAbove tables shows the dimensions on the following conditions(1) Single elevator in hoistway (2) 2 panels center opening (3) Fire rated door (4) Without counterweight safetyPlease consult Hitachi or local agent if other specifications are required.Load of Malaysia is based on F&M.
Remarks1.2.
3.
( ) : For 30 < travel distance ≦60 mAbove tables shows the dimensions on the following conditions(1) Single elevator in hoistway (2) 2 panels center opening (3) Fire rated door (4) Without counterweight safetyPlease consult Hitachi or local agent if other specifications are required.Load of Malaysia is based on F&M.
X2X1
Y :
Hoi
stw
ay d
epth
X : Hoistway width
B :
Car
inte
rnal
dep
th
A : Car internal width
W : Door OP
E
RG
W
C
Y :
Hoi
stw
ay d
epth
D
X : Hoistway width
X2X1
RW3
RW1
RC1
RGC
RC3RC2
RW2
In case of 2 buffers
DIMENSION OF HOISTWAY AND PIT REACTION LOADING 【SS550 / MS】OUG INFORMATION (4)
11 12
■Hoistway dimension (OUG, Counterweight location:Rear) ■Pit and reaction loading (OUG, Counterweight location:Rear)
■Dimension of hoistway ■Pit and reaction loadingLocation [mm]
Speed[m/min] X2
Load[kg]
Car internal sizeA × B[mm]
Door OP widthW
[mm]
HoistwayX × Y[mm] X1
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
1800 × 1500
1800 × 1750
2000 × 1550
2000 × 1750
2100 × 1950
2000 × 1900
2000 × 2100
2500 × 2300
2500 × 2400
2700 × 2300
2750 × 2500
2750 × 2650
2750 × 2600
2750 × 2750
1350
1350
1425
1460
1460
1460
1460
1150
1150
1275
1290
1290
1290
1290
1000
1000
1100
1100
1100
1100
1100
1150
1350
1600
1800(Only SS550)
1800(Only MS)
2000
Location [mm] Pit reaction loading [kN]Car side Counterweight side
1150
1350
1600
1800(Only SS550)
1800(Only MS)
2000
Load[kg]
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
Speed[m/min]
1800 × 1500
1800 × 1750
2000 × 1550
2000 × 1750
2100 × 1950
2000 × 1900
2000 × 2100
Car internal sizeA × B[mm] X1
1350
1350
1425
1460
1460
1460
1460
X2
1150
1150
1275
1290
1290
1290
1290
C
655
755
655
755
955
905
1035
D
1465
1465
1505
1505
1505
1505
E
345
345
445
295
295
295
295
RGC
1940
1940
2140
2140
2140
2140
2140
RGW
1250
1250
1550
1550
1550
1550
RW3
35(40.5)
42(47.5)
45.5(51.5)
48(54.5)
38(43.5)
45.5(51.5)
RW2
59.5(65)
70.5(76)
76(83)
76(83)
80.5(87)
64(69.5)
RC3
41.5(46.5)
54.5(61)
54.5(61)
58.5(65)
45(50.5)
50.5(55.5)
RC2
37(42.5)
48.5(54.5)
45.5(50.5)
48.5(54.5)
51.5(57)
39.5(45)
RC1
71.5 × 2sets
132.5
139
80 × 2sets
148.5
155.5
80 × 2sets
148.5
155.5
120
168
176
105 × 2sets(107.5 × 2sets)
100.5 × 2sets(103 × 2sets)
72 × 2sets(73.5 × 2sets)
132(135)
184.5(189)
193(197)
132(135)
184.5(189)
193(197)
RW1
61 × 2sets
112.5
117.5
68 × 2sets
125
131
68 × 2sets
125
131
76 × 2sets
140
146.5
83 × 2sets(85.5 × 2sets)
152.5(157)
173(177.5)
165(169.5)
90 × 2sets(92.5 × 2sets)
159.5(164)
83 × 2sets(85.5 × 2sets)
152.5(157)
159.5(164)
Remarks1.
2.
Above tables shows the dimensions on the following conditions(1) Single elevator in hoistway (2) 2 panels center opening (3) Fire rated door (4) Without counterweight safetyPlease consult Hitachi or local agent if other specifications are required.Load of Malaysia is based on F&M.
Remarks1.2.
3.
( ) : For 30 < travel distance ≦60 mAbove tables shows the dimensions on the following conditions(1) Single elevator in hoistway (2) 2 panels center opening (3) Fire rated door (4) Without counterweight safetyPlease consult Hitachi or local agent if other specifications are required.Load of Malaysia is based on F&M.
X2X1
DC
RGWE
RGC
X2X1
RC1 RC3RC2
RW2 RW3RW1
X : Hoistway widthX : Hoistway width
Y :
Hoi
stw
ay d
epth
Y :
Hoi
stw
ay d
epth
B :
Car
inte
rnal
dep
th
A : Car internal width
W : Door OP In case of 2 buffers
DIMENSION OF HOISTWAY AND PIT REACTION LOADING 【SS550 / MS】OUG INFORMATION (5)
13 14
Wiring diagram
*In case building management office has only one interphone unit.
Lighting power supply The lighting power supply for car lighting indicators and maintenance work shall be provided by others.
Interphone Pipes and wires located outside and hoistway shall be provided by others.Number of wiring from hoistway to building management office shall be "7+ Number of Elevators"
(for 1unit of master interphone).
When the wire size is 0.9mm2, the length shall be 200m or less.
When the wiring distance exceeds 200m, please consult Hitachi for details.
Pit inspection receptacle 10A power outlet for maintenance shall be provided by others under the entrance floor level.
Main power supply Building contract installs facilities to ensure that power does not fluctuate outside the range of ‒10% to +10% of the normal voltage rating and to ensure that the unbalance factor of voltage does not exceed 5%.
It should be noted that insufficient circuit breaker capacity and transformer capacity may adversely
affect elevator control and/or cause trouble with electrical equipment installed in the building.
( ) and ( ) shows the works to be done by others.
3 Phase
1 Phase
Car Lighting
Cage
Pit Inspection Receptacle
(Hoistway)
Grounding Wire
Lighting Supply
Interphone
Inspection Receptacle
Traction Motor
(Building Manager Office)
(Minimum inside Diameter of Piping : 22.2 mm)*
(Power Supply Room)
Power Supply
Piping & Wiring for InterphoneInterphone
■Required capacity of circuit breaker, transformer & starting power at building side
Transformer capacity[kVA]Speed
[m/min]
60
90
105
60
90
105
60
90
105
60
90
105
60
90
105
2 units
60
40
100
50
100
50
75
40
100
50
125
60
75
40
125
60
150
75
100
50
125
60
150
75
100
50
150
75
150
100
3 units
100
40
125
60
150
75
100
50
150
75
150
75
125
60
150
75
150
100
125
60
150
100
150
100
150
75
150
100
150
125
1 unit
38
8
60
14
60
14
38
8
60
14
100
14
60
14
100
14
100
22
60
14
100
22
100
22
60
14
100
22
150
22
2 units
60
14
100
22
150
22
100
14
150
22
150
38
100
22
150
38
200
38
100
22
200
38
200
38
150
22
200
38
250
38
3 units
100
22
150
38
200
38
100
22
200
38
250
38
150
22
250
38
325
60
200
38
325
38
400
60
200
38
400
60
500
60
Supplyvoltage
[V]
200~220
380~440
200~220
380~440
200~220
380~440
200~220
380~440
200~220
380~440
200~220
380~440
200~220
380~440
200~220
380~440
200~220
380~440
200~220
380~440
200~220
380~440
200~220
380~440
200~220
380~440
200~220
380~440
200~220
380~440
1 unit
7
9
11
8
11
12
9
12
15
10
14
16
11
15
18
2 units
12
16
19
14
19
21
16
21
26
17
24
28
19
26
31
3 units
17
22
26
19
26
29
22
29
36
24
33
38
26
36
43
Startingpower[kVA]
24
34
40
27
40
45
31
46
54
37
51
60
40
57
65
Calorificvalue
[kcal/hr]
1540
2300
2700
1800
2700
3150
2140
3200
3740
2380
3600
4200
2670
4000
4670
1150
1350
1600
1800
2000
Load[kg]
Breaker capacity[A]
7.1
11
13
8.3
13
15
9.9
15
18
12
17
20
13
19
22
Motorcapacity
[kW]
50
40
60
40
75
50
50
40
75
50
100
50
60
40
100
50
125
50
75
40
100
50
125
60
75
50
125
60
125
60
1 unit
Lead-in wire for drive[mm2]
3.5
3.5
5.5
3.5
5.5
3.5
3.5
3.5
5.5
3.5
5.5
3.5
5.5
3.5
5.5
3.5
5.5
3.5
5.5
3.5
5.5
3.5
5.5
5.5
5.5
3.5
5.5
5.5
5.5
5.5
Earthwire
[mm2]
Remarks1. Maximum length of lead-in wire is 150m.
ELECTRICAL INFORMATION
COMMON INFORMATION (1)
15 16
10 10
B B
10
1,20
0
A
A
200
Door opening, width
Ent
ranc
e he
ight
2,1
00
10
100 100
200
10
85
5350
30
Jam
b
wid
th
Wal
l fini
sh
Door opening, width
Hall button
Wal
l wid
th
B-BSection
10
5
50
100
5020
0
30˚
85
Jamb width
Doorsill
Doorsill
Doorsill
Floor finish
Wall finish
Ent
ranc
e he
ight
2,1
00
A-ASection
100
10
10
50
5020
0
85
30˚
Jam
b w
idth
Floor finish
Ent
ranc
e he
ight
2,1
00
A-ASection
A
40
B
A
B
200
40
50
1,20
0
Ent
ranc
e he
ight
2,1
00
Door opening, width
30
10
85
53
4025
125
200
125
40 25
Wal
l wid
th
Jam
b w
idth
Wal
l fini
sh Hall button
Door opening, width
B-BSection
■AS-1X Type Jamb (Standard)
Building structure (By other contractors)
Wall and floor finishing (By other contractors)
Grouting (By other contractors)
Building structure (By other contractors)
Wall and floor finishing (By other contractors)
Grouting (By other contractors)
Building structure (By other contractors)
Wall and floor finishing (By other contractors)
Grouting (By other contractors)
■TL-2X Type Jamb (option)
■TS-1X Type Jamb (Option)
(unit : mm)
(unit : mm)
(unit : mm)
Transom height,H2
200 ≦ H2 ≦ 320320 < H2 ≦ 900
H1
100
160
200
50
H2
H1
50
85
30˚
10
Jamb width
Floor finish
Ceiling
Ent
ranc
e he
ight
2,1
00
Min
cei
ling
heig
ht o
ver
2,3
00
Indicator
A-ASection
30
10
85
53
4025
125
40 25
125
200
Jam
b w
idth
Wal
l fini
shW
all w
idth
Hall button
Door opening, width
B-BSection
1,20
0
A
A
B B
200
4040
H1
H2
Ent
ranc
e he
ight
2,1
00
Cei
ling
heig
ht o
ver
2,3
00
Door opening, width
ENTRANCE DETAILS
COMMON INFORMATION (2)
17 18
For this system, the stop floor is manually set by an attendant, such as in a department store.
For this system, all floors have "down" call buttons only, except for the start floor, where there is "up" call button only. The other operations are the same as in selective-collective and duplex selective-collective operations.
This operation system is used when there is a need to serve special passengers.Under this operation, all hall calls are disabled and the elevator is reserved for exclusive use of the special passengers.
This is a fully automatic operation used for a single elevator system. Hall calls in the direction in which the elevator is travelling are responded to sequentially and when all calls in that direction are cleared, calls in the opposite direction are responded to. When there are no more calls, the elevator will stop at the last floor served.
This is a fully automatic operation used for a two-elevator system. Hall calls are responded to by whichever elevator that can serve the hall call faster. When there are no more calls, one of the elevators will stand-by at the start floor while the other elevator will stay at the last floor served.
■OPERATING SYSTEMS ■SAFETY FUNCTIONSNo. Name STD OPTDescriptionNo. Name STD OPTDescription
1
2
7
8
9
Simplex collective control(CCTL)
Duplex collective control(DCTL)
Down collective control(DWCC)
Attendant operation(ATT)
Independent operation(INOC)
■SERVICE FUNCTIONSNo. Name STD OPTDescription
In the event of door overload, such as when passengers get their fingers, hands or personal belongings caught in the door, this system automatically senses this and either re-closes or re-opens the doors to prevent injury.
2Door safety return system(ORS)
An interphone system is provided for emergency communication between the elevator and the master unit (in the supervisory panel, etc.).3
Interphone system(INPS)
In the event of a power failure, an emergency light inside the elevator will be automatically activated.4
Car emergency lighting(CEML)
In the unlikely event of temporary trouble during operation, the elevator automatically goes to the nearest floor at a low speed and doors will open to prevent passengers from being trapped inside.5
Nearest landing operation(NLNO)
In the event of overloading, this system will activate an audio/ visual signal to prevent the elevator from moving.6
Overload detection system(OLDS)
Mechanical safety units are installed on both sides or one side of the elevator doors. In the event of passengers coming into contact with the safety edges of closing doors, the doors will immediately reopen.
7Door safety edge(both sides or one side)(DSEB)
In the event that the elevator is moving downwards at an abnormally high speed, the breakers will be automatically engaged and the elevator will cease operation.9
Abnormal speed protection function(ASPF)
In the event that the elevator stops out of the door open zone of a selected floor, doors will not open, and an alarm will be sounded in the elevator.10
Out of door-open zone alarm(ASOZ)
In the event that a large number of calls is registered by a small number of passengers, the calls are determined to be mischievous and will be automatically cancelled upon responding to the next call. This thus eliminates unnecessary stops.
1 Mischievous call cancellation(MCCC)
The duration of the door open timing is tailored to usage conditions, substantially improving operational efficiency.2
Door time adjustment(DTAD)
This function allows passenger to cancel the selection of a floor which is accidentally pressed by pressing the button again. (This thus eliminates unnecessary stops.)3
Floor "deselect" function(FDSF)
After all the calls have been served, the elevator will return to the start floor for stand-by.4 Automatic return function(ARTF)
In the event that the beam paths are obstructed, this sensor, installed at the edge of the doors, will keep the doors open.1
Multi-beam door sensor(MBDS)
In the event the sensor beam detects some obstructions, this sensor, installed at door machine, will keep the doors open. This is effective to prevent accidental trapping since this sensor will keep detecting the obstruction until just before the completion of door closing.
8 Careful sensor(CS)
In the event that this button on the car operation board is pressed, the elevator doors remain open for a pre-set period of time.5
Door open prolong button(DOPB)
In the event that the elevator is fully loaded, this operation will not respond to any hall calls and will only respond to the car calls.6
Automatic bypass Operation(ABPO)
In order to comply with the barrier-free code, especially for high-rise buildings, individual car call buttons can be replaced by a keypad system.7
Keypad sub-operating board(KSOP)
Additional floor selection and door open/close buttons are located on the opposite side of the main operating panel in the elevator. This will be extremely convenient during rush hours.8
Sub-operating panel(SOPB)
A speaker for background music and public announcements for the building can be installed in the elevator. (Music and announcement systems, including wiring, is to be provided by others.)11
Interfacing with BGM speaker(BGMS)
Preset standard messages are announced to the passengers by a voice synthesizer.9 Voice synthesizer(VSYS)
Making use of the energy generated by an elevator when travelling downwards with a heavy car load or upwards with a light car load, the traction machine acts as a power generator to transmit power back to the electrical network in the building.
12 Regenerative System(RGNS)
An electronic chime (located at the top and bottom of the elevator) will be sound just before the arrival of the elevator.10
Arrival signal(ASGN)
Group control
This is a group control system used to operate three to six elevators in a medium-sized building. This control system uses "reference-trajectory control", which is based on the theory used in the highest model of the "future reference-trajectory control".
This is a group control system used to operate three to eight elevators in a large-sized building. This control system consists of 3 smart systems; "future reference-trajectory control", "learning system" and "intelligent system".
This is a simplified group control system used to operate three or four elevators. The system provides a ring control to allocate the elevator car closed to the floor where a new hall call is registered.
5
4
6
FI-600
FI-100
FI-10
This is a destination floor reservation system used to operate three to eight elevators in a large-sized building. In this system, as passengers register their destination floor at the hall, the elevator car to be used by each passenger can be informed ahead of time to the passenger. And FIBEE improves handling capacity and saves energy by original technology.
3 FIBEE
COMMON INFORMATION (4)
OPERATING SYSTEMS FUNCTIONS (1/2)COMMON INFORMATION (3)
19 20
ITEMSNo.
■Location of hoisting hook
Provide and / or cut all necessary holes, chases, openings and finishes after equipment installation.
Furnish all necessary cement and / or concrete for grouting of brackets, bolts, machine beams, etc.
Prepare and erect suitable scaffolding and protective measures during work in progress.
Provide, free of charge, a suitable theft-proof storage area for materials and tools during erection work.
Supply electric power for lighting of work area, installation work, elevator testing and spray painting.
Hoistway ventilation to be provided to maintain the hoistway temperature at below 40℃.
Prepare hoistway with proper framing and enclosure, suitable pit of proper depth with drains and water-proofing if required, properly lit and ventilated hoistway of adequate size with concrete floors, access doors, ladders and guards as required.
Furnish mains for three-phase electric power and single-phase lighting supply for car lighting and lift pit and power outlet to the hoistway, following the instructions of the elevator contractor on outlet position and wire size.
Hoisting hook for 3-tons loading at top of the hoistway.Location of hoisting hook shall be below figure.
1
2
4
Supply and secure all supports, reinforced concrete slabs, etc., necessary for installation of the machinery, doors, buffers, etc.3
5
6
7
8
9
10
In the event that the elevator is not in use, the light and ventilation fan in the elevator are automatically turned off to conserve energy.
In the event that elevator maintenance is being carried out, the elevator operates at a lower speed.
The elevator can be parked at the designated floor with a key switch.
Specific service floors can be locked-out by activating the switch.
By inputting a pre-programmed code using the car operating board floor buttons, passengers can gain access to certain restricted floors.
This panel provides various supervisory operations, including communication, and status monitoring.
In the event that an earthquake is detected, the elevator will stop at the nearest floor. (This function is not applicable to private lobby layouts.)
In the event of fire, the elevator is automatically brought to the designated floor where it remains inoperative for passengers' safety.
In the event of building power failure, the elevator can be operated by the building standby generator to move the elevator to the designated floor.
In the event that the fireman switch is turned on, the elevator returns to the designated floor and will be ready for firemen's use.
All the elevators will automatically return to the start floor, after serving the last call during this preset rush-hour timing.
This function allows controlled access to certain floors by means of a password or ID cards.Note: Keypad or ID card-reader system is to be provided and installed by others, interfacing shall be by means of dry (voltage-free) contacts.
This system enables the security personnel to monitor the movement inside the elevator. This will be effective in preventing criminal and mischievous acts inside the elevator. (CCTV system, including wiring, is to be supplied by others.)
In the event of building power failure, the elevator automatically switches to battery power to bring itself to the nearest floor. (This function is not applicable to private lobby layout buildings.)
This system shows the real time situation of the elevators such as the elevator position, movement direction and abnormal operation on the PC (Personal Computer) display. It is also possible to turn on/off the elevators and change the service floors of the elevators using the PC.
■MANAGEMENT FUNCTIONS
■EMERGENCY FUNCTIONS
No. Name STD OPTDescription
No. Name STD OPTDescription
1
1
2
2
3
4
5
3
4
5
6
7
8
9
10
Automatic turn-off of elevatorlight and fan(ATFL)
Maintenance operation(MTNO)
Parking operation(PKGO)
Rush-hour schedule operation(RHSO)
Floor lock-out operation(FLLO)
Floor lock-out operation by cipher code(ROCC)
Intelligent operation security system(IPSS)
Interfacing with closed-circuitTV(CCTV)
Supervisory panel(SVP)
Extensible elevator monitoring system(XEMS)
Earthquake emergencyoperation(EEMO)
Fire emergency operation(FEMO)
Emergency operation for power failure(EPFO)
Automatic rescue device for power failure(ALP)
Fireman operation(FMNO)
The preparatory work for elevator installation outlined in below table should be undertakenby building contractors in accordance with Hitachi drawings and in compliance with localor relevant codes and regulations
Location of hoisting hook (3-tons)
Y :
Hoi
stw
ay d
epth
X : Hoistway width
FUNCTIONS (2/2) WORK TO BE DONE BY BUILDING CONTRACTORSCOMMON INFORMATION (5)COMMON INFORMATION (4)
21 22