- LS650GT-S
- LS800GT-S
- LS1000GT-S
- LS1380GT-S
- LS1600GT-S
MODEL LS650GT-S
INJECTION UNIT |
|
A |
B |
C |
Screw diameter |
mm |
80 |
90 |
100 |
Injection pressure |
MPa |
196 |
155 |
126 |
Screw L:D ratio |
L/D |
23.5 |
21 |
19 |
Theoretical shot volume (PS) |
cc |
2261 |
2862 |
3534 |
Theoretical shot weight (PS) |
g |
2058 |
2605 |
3216 |
Screw stroke |
mm |
450 |
CLAMPING UNIT |
Clamping force |
kN |
6500 |
Opening stroke |
mm |
880 |
Platen size |
mm |
1310 x 1280 |
Space between tie bars |
mm |
930 x 900 |
Maximum daylight |
mm |
1750 |
Mold thickness (min – max) |
mm |
300 ~ 870 |
Ejector stroke |
mm |
280 |
Ejector force |
kN |
137.4 |
POWER / HEATING |
Hydraulic system pressure |
MPa |
17.5 |
Pump motor |
kW |
23 + 31 |
Heating capacity |
kW |
33.2 |
Number of temperature control zones |
Unit |
5 + 1 |
MODEL LS800GT-S
INJECTION UNIT |
|
A |
B |
C |
Screw diameter |
mm |
90 |
100 |
105 |
Injection pressure |
MPa |
181 |
147 |
133 |
Screw L:D ratio |
L/D |
24 |
22 |
21 |
Theoretical shot volume (PS) |
cc |
3181 |
3927 |
4330 |
Theoretical shot weight (PS) |
g |
2895 |
3574 |
3940 |
CLAMPING UNIT |
Clamping force |
kN |
8000 |
Opening stroke |
mm |
1025 |
Space between tie bars |
mm |
1000 x 1000 |
Maximum daylight |
mm |
2000 |
Mold thickness (min – max) |
mm |
308 ~ 975 |
Ejector stroke |
mm |
300 |
Ejector force |
kN |
275 |
POWER / HEATING |
Hydraulic system pressure |
MPa |
17.5 |
Pump motor |
kW |
42.4 + 23 |
Heating capacity |
kW |
43 |
Number of temperature control zones |
Unit |
6 + 1 |
GENERAL |
Dimensions |
m |
10260 x 2435 x 2435 |
Capacity of the oil tank |
L |
1100 |
MODEL LS1000GT-S
INJECTION UNIT |
|
A |
B |
C |
Screw diameter |
mm |
100 |
105 |
115 |
Injection pressure |
MPa |
176 |
160 |
133 |
Screw L:D ratio |
L/D |
23 |
22 |
20 |
Theoretical shot volume (PS) |
cc |
4123 |
4546 |
5453 |
Theoretical shot weight (PS) |
g |
3752 |
4137 |
4962 |
CLAMPING UNIT |
|
|
|
|
Clamping force |
kN |
10000 |
Opening stroke |
mm |
1120 |
Space between tie bars |
mm |
1220 x 1100 |
Maximum daylight |
mm |
2250 |
Mold thickness (min – max) |
mm |
450 ~ 1100 |
Ejector stroke |
mm |
350 |
Ejector force |
kN |
275 |
POWER / HEATING |
Hydraulic system pressure |
MPa |
17.5 |
Pump motor |
kW |
42.4 x 2 |
Heating capacity |
kW |
49 |
Number of temperature control zones |
Unit |
6 + 1 |
GENERAL |
Dimensions |
m |
11410 x 2605 x 2460 |
Capacity of the oil tank |
L |
1300 |
MODEL LS1380GT-S
INJECTION UNIT |
|
A |
B |
C |
Screw diameter |
mm |
105 |
115 |
130 |
Injection pressure |
MPa |
186 |
155 |
121 |
Screw L:D ratio |
L/D |
24 |
22 |
19 |
Theoretical shot volume (PS) |
cc |
4979 |
5972 |
7632 |
Theoretical shot weight (PS) |
g |
4531 |
5435 |
6945 |
CLAMPING UNIT |
Clamping force |
kN |
13800 |
Opening stroke |
mm |
1300 |
Space between tie bars |
mm |
1250 x 1250 |
Maximum daylight |
mm |
2550 |
Mold thickness (min – max) |
mm |
600 ~ 1250 |
Ejector stroke |
mm |
380 |
Ejector force |
kN |
332 |
POWER / HEATING |
Hydraulic system pressure |
MPa |
17.5 |
Pump motor |
kW |
53 x 2 |
Heating capacity |
kW |
59 |
Number of temperature control zones |
Unit |
7 + 1 |
GENERAL |
Dimensions |
m |
13400 x 2795 x 2915 |
Capacity of the oil tank |
L |
1500 |
MODEL LS1600GT-S
INJECTION UNIT |
|
A |
B |
C |
Screw diameter |
mm |
120 |
130 |
140 |
Injection pressure |
MPa |
201 |
171 |
148 |
Screw L:D ratio |
L/D |
22.8 |
21 |
19.5 |
Theoretical shot volume (PS) |
cc |
6786 |
7964 |
9236 |
Theoretical shot weight (PS) |
g |
6175 |
7247 |
8405 |
CLAMPING UNIT |
Clamping force |
kN |
16000 |
Opening stroke |
mm |
1600 |
Space between tie bars |
mm |
1550 x 1430 |
Maximum daylight |
mm |
3100 |
Mold thickness (min – max) |
mm |
700 ~ 1500 |
Ejector stroke |
mm |
400 |
Ejector force |
kN |
332 |
POWER / HEATING |
Hydraulic system pressure |
MPa |
17.5 |
Pump motor |
kW |
42.4 x 3 |
Heating capacity |
kW |
67 |
Number of temperature control zones |
Unit |
7 + 1 |
GENERAL |
Dimensions |
m |
14500 x 2795 x 3055 |
Capacity of the oil tank |
L |
2000 |
* Specifications subject to change without previous notice.
* Theoretical shot weight (PS) = theoretical shot volume x 0.91 g/cm³