TWINHOP - G 450, TWINHOP - G 550
- Three-plate molds are supported. Two arms are provided for both the product and the runner sides, allowing small products and runners to be taken out simultaneously.
- Multilingual display selection (optional). This comes standard with a G-type controller,which is available with an optional multilingual displays election function oriented the international market.
- A vacuum unit can be installed. A compact vacuum end of arm tool can be installed on the main arm.
Standard Specification
| Power Source |
AC200V 3.0A (50/60Hz) |
| Control Method |
Sequence Stored Program |
| Working Pressure |
0.4 - 0.5MPa |
| Maximum Allowable Pressure |
0.8MPa |
| Model |
TWINHOP-G450 |
TWINHOP-G550 |
Stroke
|
Descent (mm)
|
450 |
550 |
|
Kick (mm)
|
90 |
|
Swing
|
Min.50  - Max.90 |
Chuck Position |
Waiting position adjustable range 60mm |
Air consumption
Liter (Normal) / Cycle |
16 |
18 |
Maximum Weigh Capacity |
2Kg |
Robot Weight |
47kg |
48kg |
|
Dimensions
Model |
TWINHOP-G450 |
TWINHOP-G550 |
A |
Min.85 |
B |
44 - 285 |
C |
129 - 413 |
D |
25 |
E |
60 |
F |
60 |
G |
546 |
H |
325 |
I |
177 |
J |
220 |
K |
350 |
L |
20 |
M |
374 |
N |
211 |
O |
324 |
P |
217 |
Q |
128 |
R |
177 |
S |
567 |
T |
744 |
U |
1200 |
1300 |
V |
80 |
|
Option List
| Option |
Explanation |
| X option |
X option When molded parts are released onto a conveyor or chute, a wrist rotates 90 in the to release parts carefully without scratching them. |
| XC option |
Molded parts can be removed by utilizing a vacuum unit. The 90 degree wrist is included as well. An adjustable 4 suction cup end of arm tool is available as an option. |
| XN option |
Sprues or edge gates can be cut before molded parts are released. The wrist turns 90 when parts are released. |
|
| Conveyor signal link |
Operation can be interlocked to a conveyor by connecting an optional metal connector, enabling molded parts to be stocked. |
| Defect reject circuit |
When a defect signal is received, defective parts are released at a separate location from good parts. |
| Special color |
The customer can specify a special color for the robot and the control box, etc. |
| Ejector link |
The timing of the ejector operation and part gripping operation is synchronized. |
| External Part removal detection |
After runners have been extracted, they can be detected by a limit switch. |
| Air blow circuit |
When a runner is gripped and the arm ascends, fragments from the molded parts that are adhering to the mold are blown away using air. |
| Grip circuit pressure regulator |
To prevent deformation of the molded products, a pressure reducing valve is used. |
| Vacuum blow back circuit |
If parts are difficult to release from vacuum cups, air blows through this valve to ensure safe release of the parts. |
| Swing limit standby |
If the robot will interfere with an object such as a rack mold when the mold closes, the robot can be set to stand by at the swing out limit. |
| Automatic injection signal |
The robot can use the automatic injection signal output from the molding machine as a condition to begin extracting. This initiates automatic operation only when parts have been molded. |
| Automatic injection signal |
Automatic injection signal The take-out robot uses the automatic injection signal input of the molding machine as the condition to begin extracting. Using this signal makes it possible to initiate the extracting operation only when products have actually been molded. |
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