Machine no.:
3224
Roads:
X = 2000 mm
Y = 1300 mm
Z = 1300 mm
Control:
HEIDENHAIN iTNC 530
Construction year:
2007
X-travel
2000 mm
Y-travel
1300 mm
Z-travel
1300 mm
control
HEIDENHAIN iTNC 530
condition
used (good condition)
tool taper
SK 50 DIN 69871
UNIVERSAL MILLING CENTRE SHW-UniSpeed 5, Construction year: 2007
Basic machine with the traverse paths:
Machine stand horizontal-longitudinal X = 2,000 mm
Vertical headstock slide Y = 1,300 mm
Headstock horizontal-transverse Z = 1,300 mm
MACHINE STAND
In a compact, torsion-resistant welded construction.
Three hardened compact roller guides guarantee the transmission of high cutting performance with consistent quality.
Protected against chips and cooling water with covers.
HEADSTOCK SLIDE
In cast design with hydraulic weight compensation, guided on the machine column with hardened compact roller guides
MACHINE FRAME
Intrinsically rigid design in Hydropol® composite construction as the basis for dynamic and vibration-damped movement of the machine frame in the X-axis.
Complex foundations are not required Compact roller guides ensure maximum precision.
MOTORISED CNC BUILT-IN ROTARY TABLE
Clamping surface mm ø 1.600
8 Longitudinal grooves mm 22 H12 DIN 650
2 alignment grooves lengthwise and crosswise
through center mm 22 H7 x 10 deep
T-slot spacing (special request) mm 100
Centering bush mm ø 50 H7 x 20 deep
Concentricity of the bushing mm 0,010
Axial run-out accuracy at 1000 mm 0,020
Mechanical part accuracy over
direct measuring system sec ± 4
Max.
speed 1/min 5
Tilting moment clamped Nm 60.000
Tangential torque clamped Nm 26.000
for circular milling Nm 5.000
Table load (centric) max.
kg 6.000
Max.
vibration diameter of the workpiece 2300 mm
AUTOMATIC TOOL CHANGER
Chain magazine for tools 48
max.
tool diameter
with filled magazine mm 125
with free neighboring seats mm 250
max.
tool length mm 400
max.
tool weight kg 25
max.
tool load torque Nm 40
tool holder SK 50 DIN 69871
pure tool change time approx. sec10
Spindle position during tool change horizontal
Fairground coding
The spindle taper is blown out with compressed air
with every tool change
HEADSTOCK WITH AUTOMATIC UNIVERSAL MILLING HEAD (UFK)
Consisting of:
Milling head holder, automatically swiveling 360 x 1 degree
Milling head, automatically swiveling 180 x 1 degree
64,88 different positions can therefore not only be approached via the CNC control, but also programmed and processed.
Repeat accuracy at the spindle nose 0.002 mm,
Part accuracy therefore 3 sec
Tool holder SK 50 DIN 69871
The milling spindle is equipped with a hydromechanical quick tool clamping system
Tool-pull-in force: 20 kN
Main drive power by a frequency-controlled, liquid-cooled AC motor with 30 kW at 100% ED or 41 kW at 40% ED
Speed range 36 – 2,800 1/min
SPINDLE SPEED INCREASE (UFK)
to 36 up to max.
6,000 1/min
Diagram E 741.0417.183 (with time restriction)
DIGITAL SINGLE FEED DRVES
for contour-accurate work via AC motors with constant torque, feed and rapid traverse range in all 3 axes infinitely variable from: 2 – 30,000 mm/min.
Acceleration behavior of the individual axes 2 m/s ²
CENTRALISED OPERATION
Through integrated CNC control in the machine control panel, swiveling mounted on the support arm.
CNC CONTROL HEIDENHAIN iTNC 530
According to separate description.
Dialogue in Czech.
EXTERNAL ELECTRONIC HANDWHEEL (HR 410)
Switchable to 3 axes
(with corresponding machine version up to 5 axes, not for uni-head axes)
MEASURING SYSTEMS
Direct non-contact measurement via linear measuring systems for high-precision manufacturing.
REINFORCED COOLANT DEVICE
For coolant supply via nozzle ring, switchable to internal coolant supply for tools with steep taper DIN 69871 AD, incl. paper belt filter system for cleaning the coolant.
paper belt filter system for cleaning the coolant.
Adjustable pressure-quantity control via bypass valve, two-stage switchable via CNC control Pump capacity: 32 l/min at max.
20 bar
Coolant tank, capacity 500 l
HIGH PRESSURE PUMP
Attached to the existing cooling water tank.
Controlled via M function or via button on the control panel
Output: approx.
70 bar at 8 l/min
High-pressure hose to interface on the front of the headstock.
COOLING WATER – AIR
Switching the internal or external coolant supply from cooling water to air.
ELECTRICAL EQUIPMENT
In accordance with EN 60204, VBG 4 for 400/230 V ( 10 %) 3 phases, 50 HZ
Control voltage 24 V, total connected load approx.
50 kVA, 80 A.
The separate control cabinet contains the control units for the main spindle and feed motors as well as the freely programmable adjustment control and the switchgear for the additional units.
Protection class of the control cabinet, the feed motors and the main motor IP 54.
The machine and control cabinet are connected to each other via plug connections.
LUBRICATION
Guideways: Impulse centralized lubrication
Main spindle: permanent grease lubrication
PAINTING
Machine and switch cabinet, RAL 7035, light grey
Milling head and headstock, RAL 5021, water blue
DD textured paint, silk gloss, oil and soda resistant
WORK AREA PANELLING
2 angled sliding doors on the front and roof.
Rear wall to the machine stand with protective cover
1 viewing window on the side of the machine frame.
LATE CONVEYOR
for track X = approx.
mm 2,000
Feed width approx.
mm 350
Discharge height approx.
mm 1,250
RADIO – MEASURING PROBE
(3-dimensional, signal transmission via radio signals)
For automatic changeover for workpiece position and zero-point determination in horizontal and vertical spindle position (other measuring applications are control-dependent)
2-CHANNEL COLLISION MONTORING SYSTEM
There are 2 types of monitoring: 1. collision (channel 1)
2. tool monitoring (channel 2)
A piezoelectronic stain transducer serves as the measuring sensor.
This measures the forces during machining.
The sensor signal is analyzed by the monitoring device.
Specification of the collision process limit (channel 1):
The process limit for the 1st channel (collision) can be adapted to the machining process by the machine operator on the monitoring system using the arrow buttons (the maximum value is 999).
If lower forces occur during machining, the process limit can be reduced so that the machine switched off earlier in the event of a collision, thus minimizing the damage.
If force signal exceeds the process limit, the machine is switched off and axes are braked with maximum torque.
Specification of the tool monitoring process limit for the 2nd channel (tool monitoring) is read from the tool data of the active tool and automatically transferred to the monitoring system.
If the force signal exceeds the process limit for the tool, an NC stop is output
POWER CONNECTION
400 V, 3 phases, 50 Hz, 50 kVA, 125 A slow-blow fuse.
Compressed air 4-6 bar (filter pressure regulator with pressure gauge and condensate separator on the machine, connection G ¼ )
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