As a highly advanced and efficient machine, the Industrial Punch Press has a wide range of advantages and benefits, making it an excellent investment for any type of industrial operation. Here are some key advantages of this machine:
1. High precision: High precision steel frame punching machines provide unparalleled precision and accuracy in the manufacturing of metal products. With high precision and repeatability, it ensures consistent performance and high-level output quality.
2. Efficient: Compared with other types of industrial equipment, the closed single handle high-precision steel frame punch has high-speed and efficient performance. This means faster processing, higher productivity, and reduced downtime.
3. High durability: Industrial Punch Press adopts a durable and long-lasting design, which has long-lasting durability and reliability. It can withstand the most demanding industrial applications, ensuring a long service life and minimal maintenance requirements.
4. Low energy consumption: The closed single handle high-precision steel frame punching machine is designed to be energy-saving and has lower power consumption compared to other types of machines. This not only saves energy costs, but also helps reduce carbon emissions.
5. Wide application range: High precision steel frame punching machines can be used for various metal processing applications, including cutting, bending, punching, stamping, and embossing. This versatility makes it an excellent investment for any industrial application.
6. Easy to operate: Closed single handle high-precision steel frame punch press, easy to operate, intuitive control, and simple adjustment. This makes it suitable for operators with a range of skill levels, thereby reducing the need for extensive training.
7. Enhance safety: The high-precision steel frame punch design has safety functions that can protect operators from accidents and injuries. This includes safety covers and protective devices, emergency stop buttons, and interlock switches.
8. Cost effectiveness: Although the initial investment of Industrial Punch Press may be relatively high, its benefits in terms of productivity, efficiency, and overall reliability far exceed the initial cost. Therefore, in the long run, it is a cost-effective solution.
9. Improved quality control: The closed single handle high-precision steel frame punch has precise and accurate manufacturing capabilities, providing improved quality management and ensuring the highest standards of finished products.
Overall, Industrial Punch Press is an important investment for any industrial operation seeking to improve productivity, quality, and profitability. Its high precision, efficiency, durability, and safety make it an indispensable device in various applications.
|
Name |
Unit |
DPS-125T |
DPS-160T |
DPS-200T |
|||
|
Nominal force |
KN |
1250 |
1600 |
2000 |
|||
|
Type |
V |
H |
V |
H |
V |
H |
|
|
Slider stroke |
mm |
250 |
160 |
280 |
180 |
300 |
200 |
|
Nominal force stroke |
mm |
20 |
15 |
20 |
15 |
25 |
20 |
|
Number of strokes (constant speed) |
s.p.m |
40 |
60 |
35 |
55 |
40 |
50 |
|
Maximum die height |
mm |
400 |
450 |
450 |
500 |
500 |
550 |
|
Die height adjustment |
mm |
100 |
100 |
120 |
|||
|
Lower worktable size |
mm |
750×700×105 |
800×750×115 |
850×800×35 |
|||
|
Slider bottom |
mm |
750×450 |
810×500 |
930×700 |
|||
|
Worktable center hole |
mm |
Ø310 |
Ø350 |
Ø400 |
|||
|
Die handle hole |
mm |
Ø75 |
Ø75 |
Ø75 |
|||
|
Main motor |
KW×P |
11×4 |
18.5×4 |
22×4 |
|||
|
Pulling rod size |
mm |
M30×550 |
M30×620 |
M36×700 |
|||
|
Air pressure used |
MPa |
0.6-0.7 |
0.6-0.7 |
0.6-0.7 |
|||
|
Punch (front and back × left and right × height) |
mm |
1763×1623×3600 |
2090×1906×3900 |
2302×2056×4355 |
|||
|
Name |
Unit |
DPS-250T |
DPS-315T |
DPS-400T |
|||
|
Nominal force |
KN |
2500 |
3150 |
4000 |
|||
|
Type |
V |
H |
V |
H |
V |
H |
|
|
Slider stroke |
mm |
320 |
200 |
350 |
250 |
400 |
250 |
|
Nominal force stroke |
mm |
25 |
20 |
30 |
20 |
30 |
20 |
|
Number of strokes (constant speed) |
s.p.m |
35 |
50 |
28 |
40 |
25 |
35 |
|
Maximum die height |
mm |
520 |
580 |
550 |
600 |
600 |
675 |
|
Die height adjustment |
mm |
120 |
120 |
150 |
|||
|
Lower worktable size |
mm |
950×900×155 |
1000×900×177 |
1200×1000×185 |
|||
|
Slider bottom |
mm |
970×800 |
1050×900 |
1200×800 |
|||
|
Worktable center hole |
mm |
Ø420 |
Ø450 |
Ø500 |
|||
|
Die handle hole |
mm |
Ø75 |
Ø75 |
Ø75 |
|||
|
Main motor |
KW×P |
30×4 |
37×4 |
45×4 |
|||
|
Pulling rod size |
mm |
M36×700 |
M36×900 |
M36×1000 |
|||
|
Air pressure used |
MPa |
0.6-0.7 |
|||||
|
Punch (front and back × left and right × height) |
mm |
2820×2136×4730 |
2900×2206×5112 |
3400×2346×5377 |
|||
|
Name |
Unit |
DPS-400 Three-axis |
DPS-500 Three-axis |
DPS-600 Three-axis |
|||
|
Nominal force |
KN |
4000 |
5000 |
6000 |
|||
|
Type |
V |
H |
V |
H |
V |
H |
|
|
Slider stroke |
mm |
400 |
250 |
450 |
250 |
450 |
250 |
|
Nominal force stroke |
mm |
30 |
20 |
30 |
20 |
30 |
20 |
|
Number of strokes (constant speed) |
s.p.m |
25 |
35 |
20 |
35 |
20 |
35 |
|
Maximum die height |
mm |
600 |
675 |
650 |
750 |
650 |
750 |
|
Die height adjustment |
mm |
150 |
150 |
150 |
|||
|
Lower worktable size |
mm |
1200×1000×185 |
1400×1200×215 |
1500×1200×235 |
|||
|
Slider bottom |
mm |
1280×1000 |
1600×1200 |
1600×1200 |
|||
|
Worktable center hole |
mm |
Ø500 |
Ø550 |
Ø550 |
|||
|
Die handle hole |
mm |
Ø75 |
Ø100 |
Ø100 |
|||
|
Main motor |
KW×P |
37×4 |
55×4 |
55×4 |
|||
|
Pulling rod size |
mm |
M36×1000 |
M42×1200 |
M42×1300 |
|||
|
Air pressure used |
MPa |
0.6-0.7 |
|||||
|
Punch (front and back × left and right × height) |
mm |
3512×2240×5600 |
3627×2480×5800 |
3810×2600×6150 |
|||
|
Name |
Unit |
DPS-800 Three-axis |
DPS-1000 Three-axis |
||
|
Nominal force |
KN |
8000 |
10000 |
||
|
Type |
V |
H |
V |
H |
|
|
Slider stroke |
mm |
450 |
300 |
450 |
300 |
|
Nominal force stroke |
mm |
35 |
25 |
35 |
25 |
|
Number of strokes (constant speed) |
s.p.m |
20 |
35 |
20 |
35 |
|
Maximum die height |
mm |
700 |
775 |
700 |
775 |
|
Die height adjustment |
mm |
150 |
150 |
||
|
Lower worktable size |
mm |
1600×1300×265 |
1700×1350×295 |
||
|
Slider bottom |
mm |
1700×1300 |
1800×1350 |
||
|
Worktable center hole |
mm |
Ø600 |
Ø700 |
||
|
Die handle hole |
mm |
Ø120 |
Ø120 |
||
|
Main motor |
KW×P |
75×4 |
90×4 |
||
|
Pulling rod size |
mm |
M48×1400 |
M48×1500 |
||
|
Air pressure used |
MPa |
0.6-0.7 |
|||
|
Punch (front and back × left and right × height) |
mm |
4020×2740×6400 |
4200×2840×6850 |
||
|
Standard Accessories |
|
|
Pneumatic clutch |
● |
|
Touch screen |
● |
|
Preload counter, pre-break counter |
● |
|
Hydraulic overload protection device |
● |
|
Misfeed detection device |
● |
|
Power socket |
● |
|
Electric grease lubrication device |
● |
|
Electronic slide adjustment device |
● |
|
Electronic mold height indicator |
● |
|
Slide and mold balancing device |
● |
|
Electronic rotary cam switch |
● |
|
Crankshaft angle indicator |
● |
|
Counter |
● |
|
Air source connector |
● |
|
Second-stage protection device |
● |
|
Instruction manual |
● |
|
Standard Accessories |
○ |
|
Pneumatic die pad device |
○ |
|
Foot switch |
○ |
|
Slider upper punching device |
○ |
|
Anti-vibration foot |
○ |
|
Photoelectric protection device |
○ |
|
Feeder (air, mechanical and NC types) |
○ |
|
Rack |
○ |
|
Leveler |
○ |
|
Robot |
○ |
|
Mold lighting device |
○ |
Detailed description of the workflow of the robot bending machine
1. Loading materials
The robot grasps the product at the loading position, and whether it grasps the product mainly depends on the sensors on the fixture to detect;
2. Positioning of the middle platform
The robot will first place the product grabbed from the feeding position onto the centering table, and the product will slide to the lowest height of the centering table by gravity.
The robot grabs the product again to ensure consistency every time it grabs the product.
3. Robot assisted bending
The robot grasps the product and approaches the positioning device behind the bending machine. During the approach process. The robot slides along the lower mold, and when the rear positioning sensor is triggered, it indicates that the product is in place. The robot controls the bending machine to bend it.
4. Robot edge changing clamp
The robot places the bent workpiece on the hand changing platform and rotates the fixture 180 degrees to re grab the workpiece.
5. Robot assists in bending the other side of the workpiece
The robot holds the product close to the positioning device behind the bending machine. During the approach process. The robot slides along the lower mold, and when the rear positioning sensor is triggered, it indicates that the product is in place. The robot controls the bending machine to bend it.
6. Discharge material
After completing the palletizing of finished products, the robot returns to its home point to perform the second cycle of work.
Factory display
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