ac 255/2510nt ac servo drive turret punch press

AC 255/2510NT AC SERVO DRIVE TURRET PUNCH PRESS
Amada’s New AC-NT Series Servo Drive Turret
and Reduced Operating Cost in One Package.
Amada is known worldwide as the leader in turret punch press technology with
more than 30,000 machines in operation. The AC 255/2510NT was developed as a
part of our ongoing mission to provide the widest range of punching solutions.
• The AC-NT series utilizes an AC servo motor to drive the ram (eliminating the
hydraulic power supply and chiller).
• Electrical consumption is less than one-half of comparable hydraulic
machines.
• The AC-NT offers significantly faster punching speeds than mechanical turrets.
Punch Press Offers High Performance
Achieve Your Goals:
Reduce Setup Time
Faster Punching
Speeds Improve Part Quality
Customer
Requirements
Cut Energy Costs
• Space-saving design makes the most of valuable floor space.
Increase Material
Utilization
Improve Process
Integration
Reduce Floor Space
Requirements
The AC-NT series turret punch press is packed with a wide variety of standard
features to help produce parts faster, easier and more economically.
Amada AC-NT Series Turrets Deliver!
Single AC Servo Drive
High-Speed, Stable &
Dependable Operation
High-Quality Part
Production
Integrated Downstream
Processing
SERIES
2
3
Reliable High-Speed Processing
1. Eliminate Slug Pull
2. Fine Contouring
Slug pull is often a problem when punching at high speeds, especially with small diameter holes. This nuisance
is virtually eliminated through the use of the power vacuum die and air blow tool systems included standard with
Amada AC-NT series turrets. A powerful stream of precisely-mixed air and oil inside the die helps pull slugs safely
downward, greatly reducing the chance of shutdowns, scrapped parts and broken punches. In addition, punch
penetration can be reduced, thus increasing total hits per minute, while increasing tooling life.
Fine Contouring with the AC-NT Achieves Laser-Like Precision!
Using Amada’s special contouring tool, the machine nibbles at a pitch as small as 0.020" to punch complex curves
and shapes at high speeds. This is impossible with typical turret punch press tooling. As a result, it is possible to
eliminate secondary processing such as filing and deburring.
Developed Dimensions: 35.623" x 35.623"
Developed Dimensions: 17.165" x 14.937"
no slug pull
no slug pull
Material Thickness: 0.039"
Material Type: GALV
Number of Parts Made: 4 per 35.984" x 35.984" sheet
Number of Tools Used: 23
Number of Hits: 2,336
Filing Not Required
Power Vacuum Dies
Special Tool Not Required
Material Thickness: 0.039"
Material Type: GALV
Number of Parts Made: 1 per 35.63" x 35.63" sheet
Number of Tools Used: 3
Number of Hits: 6,685
AC-NT Slug Pull Protection Mechanism (1)
AC-NT Slug Pull Protection Mechanism (2)
Air Blow Tool & Power Vacuum Die
Power Vacuum Slug Suction System (Standard on most models)
The air blow tool blows air and oil mist into the die during punching to prevent slug
sticking and pulling. The power vacuum extracts the slug down through the die.
Slugs are powerfully vacuumed out of the die to prevent slug build-up.
The slugs are deposited either into a bin or onto a conveyor (supplied by
customer) for easy handling.
Contouring tools
Maximum material thickness
CRS: 0.091" SUS: 0.093"
Z tooling
4
5
Reduced Secondary Operation Costs
3. High-Speed Deburring
4. High-Speed Slotting
High-Speed Deburring Reduces Processing Time Dramatically.
Reduce costly and time-consuming, post-punch deburring by doing the work "in the sheet." Using the deburring
tool, the burrs raised during punching are flattened-out, helping to streamline manufacturing processes.
Perform Slotting Without Overlap Marks.
The slotting tool (installed in a 2" auto-index station) is capable of producing overlap
mark-free edges at any desired angle. This helps eliminate secondary filing or grinding.
Developed Dimensions: 16.732" x 14.251"
Deburring
2" Slotting tool
Material Thickness: 0.039"
Material Type: GALV
Number of Parts Made: 8 per 35.984" x 35.984" sheet
Number of Tools Used: 10
Number of Hits: 856
Deburring performed
Burrs
Edge cut with slotting tool
Maximum
material
thickness
CRS: 0.063"
Aluminum: 0.059"
SUS: 0.059"
3-½" and 4-½"
CRS: 0.091"
Aluminum: 0.118"
SUS: 0.079"
Overlap mark finishing
required
5. High-Speed Marking
Using the marking tool at speeds of up to 900 hpm, reduce secondary
operation time by adding part names, part numbers, bend lines, weld
locations and other information. Punch penetration is accurately controlled
so that the marks can be subsequently covered by paint, powder coat, etc.
Deburring Mechanism
2"
Edge cut by conventional punching
Overlap mark finishing
not required
Deburring not performed
Tool
size
Marking tool
(form-down type)
Developed Dimensions: 7.87" x 3.307"
Workpiece
Pitch: 0.020"
Punch penetration: 0.008"
Deburring die
Deburring tool
(0.393" x 0.393" sq.)
6
Before deburring
After deburring
Material Thickness: 0.039"
Material Type: GALV
Number of Parts Made: 18 per 35.984" x 35.984" sheet
Number of Tools Used: 11
Number of Hits: 27,342
7
Punching & Bending Process Integration
6. High-Speed Forming
7. Down-Forming
Parts can be formed to desired shapes and dimensions without special tools. Previously, punching and forming
often had to take place in separate operations. Now, offset bends, extrusions, ribs and other forms can be added
at high speeds, using standard tools in the auto-index stations.
A floating brush table section allows parts to be formed-down or extruded at high speeds without damage to the
feature during subsequent sheet movements. This helps reduce secondary processing and re-working.
Offset bending tools
Offset bending
Form-down bending
8. Safety Inch Bending
Automatically add small, accurate bends and flanges. Downward
flanges can be formed with burrs oriented inward. Adding these
bends while parts are still "in the sheet" eliminates tedious,
potentially dangerous secondary press brake operations.
0.197"
Bending tools
0.118"
Form-down bending
0.394"
Material Thickness: 0.031"
Material Type: GALV
Number of Parts Made: 736 per 35.984" x 35.984" sheet
Number of Tools Used: 5
Number of Hits: 11,408
Inch bend tools
Extruding tools
Tip type
Endless extrusion
8
9
Productivity Gain Comparison
Developed Dimensions: 33.031" x 32.874"
Developed Dimensions: 35.63" x 35.63"
Material Thickness: 0.047"
Material Type: SUS
Number of Parts Made: 1 per 39.370" x 39.370" sheet
Number of Tools Used: 10
Number of Hits: 597
Material Thickness: 0.039"
Material Type: GALV
Number of Parts Made: 1 per 35.63" x 35.63" sheet
Number of Tools Used: 3
Number of Hits: 6,685
Productivity Gain Comparison
Productivity Gain Comparison
Processing time
AC-NT series
2min 24sec
Productivity
ARIES-245II
4min 2sec
About 1.68X
PEGA-357
3min 14sec
About 1.35X
Processing time
AC-NT series
15min 20sec
Productivity
ARIES-245II
36min 47sec
About 2.4X
PEGA-357
32min 51sec
About 2.14X
AP100 sheet layout
AP100 sheet layout
Developed Dimensions: 33.031" x 32.874"
Developed Dimensions: 35.63" x 35.63"
Material Thickness: 0.039"
Material Type: GALV
Number of Parts Made:
4 per 35.984" x 35.63" sheet
Number of Tools Used: 10
Number of Hits: 1,196
Material Thickness: 0.062"
Material Type: GALV
Number of Parts Made: 21 per 35.984" x 35.984" sheet
Number of Tools Used: 5
Number of Hits: 945
*The AC-NT series uses a 1.969" x 0.394" rectangular parting tool in an auto-index station.
Productivity Gain Comparison
Productivity Gain Comparison
Processing time
AC-NT series
10
4min 35sec
Processing time
Productivity
ARIES-245II
10min 56sec
About 2.4X
PEGA-357
6min 3sec
About 1.3X
AC-NT series
2min 41sec
Productivity
ARIES-245II
5min 45sec*
About 2.15X
PEGA-357
3min 10sec*
About 1.2X
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AC-NT Functions & Mechanisms
Drive Mechanism
Highly Rigid Frame
The AC-NT series uses a single AC servo motor, along with a heavy duty precision ball screw and link assembly,
which is mounted in the bridge frame to achieve hit rates of up to 390 hpm on 1" centers (depending on model
and stroke length) and up to 900 hpm marking speeds. The drive mechanism features fewer components than
any hydraulic system for increased reliability and uptime. A built-in load monitoring system shows actual tonnage
requirements and combined with a shear plate helps to greatly reduce the chance of damage due to overload. The
drive has been tested at over 100 million hits at full tonnage with no failures.
Amada is the originator of the
bridge frame turret punch press.
The precision-welded and stressrelieved frame is made using 1.57"
thick steel plate to help ensure
stable, reliable production, while
providing increased tooling life
and reduced punching noise over
many years of day-in and day-out
production.
Intelligent, Reliable &
Easy-to-Use Controls
Large Capacity
Turrets
The AC-NT series is equipped
with the proven Fanuc AMNC/PC
control system to help increase
productivity. A wide variety of touch
screens allow the operator to view
turret setup, job and material data,
and scheduling, providing faster,
easier and more mistake-proof
operation than ever. An overload
detection function shuts the
machine down before damage can
occur.
The AC-NT series of servo drive
turret punch presses feature
Amada's legendary triple-track
turret, with up to 58 laser-hardened
stations, including up to four autoindex. Thick-style tooling has
been proven to last longer under
tough punching conditions. The
wide range of sizes (up to 4 ½",
depending on model) and large
number of stations means that
multi-tools are rarely required, but
can be used if desired.
1.57"
Space Saving Design
Ecology & Reduced Power Requirements
Despite high hit rates, the AC-NT series requires only a 19 kVA power hookup. Average total electrical consumption
during punching is less than half of a typical hydraulic machine and standby power requirements are the lowest of
any Amada turret punch press. Unlike a hydraulic machine, no fluid change or chiller maintenance is ever required.
Graph of standby power consumption
Graph of average power consumption during operation
14
4
12
3
3.4
10
VIPROS-255NT
PEGA-358NT
ARIES-245II
AC-NT series
8
kW 2
2.2
kW
2.2
6
Even with the optional 58-station
turret, the AC-NT series features
a footprint smaller than that of
the Aries 245-II. The AC-NT
series means there's no need
to compromise quality and
production rates just because of
floor space restrictions.
Tool setup
NT technology means users can
perform offline programming
and monitor the operational
status of the machine from any
desktop computer or web-based
connection to your network.
Pneumatic Tool
Balancer
A pneumatically-operated tool
balancer makes the loading and
unloading of large station tools
faster, easier and safer.
The AC-NT can be equipped with
an optional interface for automatic
sheet loading and unloading using
Amada's MP loaders, reducing
labor costs and improving
productivity.
4
1
0.9
2
0
0
VIPROS-255NT
PEGA-358NT
ARIES-245II
AC-NT series
100
200
300
400
500
Hit rate
Press pattern
12
13
Network diagrams
Amada proposes a digital sheet metal fabrication system with its virtual prototype simulation system (VPSS) as the core.
The processing data created in the factory office are managed together by the SDD and called through the network for
use on the factory floor.
Dr.ABE_Bend
PCL
Automatic bending data
Network
programming system server system
Rear
Safety Fence
75.6"
SDD
201.5"
Dr.ABE_Blank
Nesting Software
D(3-½")
%ž
.UMBEROFTYPE"ST
Number of type C (2") st.
Number of type D (3-½") st.
.UMBEROFTYPE%½") st.
12
18
12
2
2
3
2
-
2
1
2
.UMBEROFTYPE'ST
Number of type H (2") Auto-index st.
2
3
2
-
1
2
Number of type A (½") st.
75.6"
SheetWorks for Unfold
3D solid sheet metal
CAD system
(optional)
%ž
36
Maximum tool size
100.7" (AC-255NT)
vFactory
Layout pattern
Dangerous Zone
15.2" 19.6" 15.2"
Factory office
Turret layout patterns
Dimensions
58 stations (2 auto-index stations)
58
R295
.2 "
STATIONSAUTOINDEXSTATIONS
Front
Protect Chain
51
Dangerous Zone
37.2"
Factory floor
Built Type
STATIONSAUTOINDEXSTATIONS
Independent Control
45
"
Network-enabled bending machines
"
(Standard)
83.2"
Pass
Line
65.9"
66.7"
AC-2510NT
System upgrade example*
27.2"
106.6" (Anchor Pitch)
"
"
OPTIONAL
Use genuine Amada punches and dies on Amada NC
turret punch presses to perform various operations.
Using other than genuine Amada tools may cause
various problems.
Before using this machine please read the operator's
manual carefully and follow all applicable instructions.
When using this product, appropriate protection
equipment that adhere to the safety regulations of your
country is necessary.
Specifications
Machine
Tonnage
Press drive system
Stroke length
Max. thickness
AC-2510NT
Travel range
Max. feed rate
Max. mass of material
Max. hit rate
™
AC-255NT
22
Single AC servo drive
1.65"
0.12" (brush table)
0.25" (ball bearings table)
(see material mass restrictions below)
50" x 50"
8s9
LBS&sLBS&
8!XISHPMs9!XISHPMON" pitch at 0.118" stroke)
for punching pattern
8!XISHPMs9!XISHPMON" pitch at 0.118" stroke)
for punching pattern
900 hpm (at 0.019" pitch and 0.055" stroke) for marking pattern 900 hpm (at 0.019" pitch and 0.055" stroke) for marking pattern
AC-2510NT+MP-1212NJ
Protective devices were removed for photography.
*Automation is optional and may require machine modification.
Punching accuracy
Turret rotation speed
Auto-Index rotation speed
NC control
Power requirement
Max. air consumption
Mass of machine
±0.003" and ±0.002" (FA mode)
30 rpm
60 rpm
AMNC/PC
19 kVA
75 NI/min
26,000 lbs.
LBS
* Specifications, machinery and equipment appearance are subject to change without notice for reason of improvement.
14
Note: AC2510NT, AC255NT and MP1212NJ (excluding hyphens) are the official machine names and model numbers for legal applications, such as
machine installation permit, import/export permit and financing application. For legibility, AC-2510NT, AC-255NT and MP-1212NJ are used in this brochure.
15
SERIES
Amada America, Inc.
7025 Firestone Boulevard • Buena Park, CA 90621 • (714) 739-2111 • FAX (714) 670-8020 • www.amada.com
M-0256­­-0408