Used CNC Lathes FOR SALE CNC Turning Centers
CNC Lathes,
CNC Turning Centers
CNC Lathes
A history lesson of the CNC Lathe ...
A lathe is a machine tool that is used in various operations such as drilling,
cutting, sanding or polishing in order to create a symmetrical object.
Essentially, it holds the material that has to be worked upon and rotates it
against a tool that shapes it. CNC
Lathes are being used to make
operations like cutting and drilling easier than ever before.
The CNC Lathe machine is believed to have been first discovered in late 1950s by
John. T. Parsons. The manufacturing industry received a big boost as the
discovery lead to more productive and faster manufacturing processes.
They come in many sizes but basically have a tool turret to hold the drills,
cutters, other tools and a spindle that holds different types of metal. Computer
Numerical Control Lathe Machine are referred to as lathe machines and as the
name suggests, they are operated by programs that give instructions as to what
has to be done. The ultimate control thus rests with the computer and if
programmed correctly, the end products are highly controlled and precise. It is
important to remember that inaccurate programs or incorrect tool settings can
cause damage and inaccuracies.
The machine is controlled through a computer menu style interface and the
program used to run the lathe machine can be modified at any time. In contrast
to manual lathes that allow only a single tool to be used at a time, the lathe
can not only change tools very fast but can also feed into the parts fairly
quickly. This speeds up the machining process.
Although operators do need some basic level of skills to use these machines, it
definitely overcomes the limitations of the older machines, where operators had
to know the ins and outs of every single machine. Today, a single supervisor can
oversee the operation of a number of small machines.
Lathes can be used to cut wood, metal and plastic and are often used to produce
camshafts and crankshafts.
The design of a these machines has been evolving pretty rapidly in recent times;
however, the basic parts and the principles on which the lathe operates remains
pretty much the same. These Lathe machines are often enclosed as per safety
standards.
There are many advantages to using CNC lathes; they are far more accurate than
the manual ones, especially in cases where several exact copies of a piece need
to be made. Moreover, there's very little wastage and the time taken to
manufacture the pieces is considerably less than the time consumed while using
the lathe manually. The most important factor however, is that it doesn't
require a great amount of skill to operate a CNC Lathe. Operating costs are also
lower, human effort is minimal and chances of injury are less.
CNC Machines
An introduction to lathes and machining...
Manufacturing companies are facing stiff competition and not keeping pace with
advances in technology means missing the boat. Today machine operators no longer
resort to operating machines manually as most companies are now equipped with CNC
machines.
CNC, which stands for Computer Numerical Control is made up of a mini computer
that acts as the controlling unit of the machine. The concept of numerical
control is rather common when speaking of machine tools and refers to the set of
instructions (called program) that control the machine as against manual
operation. Depending on the job being carried out, the program instructions also
change, allowing a lot of flexibility in use.
In a CNC
machine, these instructions are fed directly to the computer through a
keyboard like contraption and stored in the memory. The advantage here is that
programmers can edit the programs based on their specific needs and requirements
and once written they just have to be recalled from the memory when desired.
Operating CNC machines require only basic training and skills and today's
operator can supervise several machines at the same time. This is in stark
contrast to yesteryear when operators needed years of training at training
institutes to learn how to operate milling machines, drills and lathes, which
are some of the common machine tools that run on these machines.
For example, if metal needs to be cut, the processes involved, the dimensions
required need to be fed into the computer through a program. The computer thus
understands what needs to be done and exactly follows instructions in the
program. Contrast this with the time when this job had to be done manually. Only
experts could do such high precision jobs, whereas today, operators just have to
feed the program into the computer, load the required tools in the machine and
the computer directs the machine tools to work as per the instructions in the
program. Once the job is over, the machine automatically picks up the next job
without any human intervention. All machines require are raw material and
programs; a high degree of precision is usually obtained.
The advantages of using a CNC are thus rather obvious. Apart from being able to
work for long times without break (for maintenance), they work tirelessly to
produce end products that are identical in shape, size and design. Anyone with
some basic training can operate them. Operators can practice using the CNC
machine by using virtual software, which can be constantly improved upon and
updated.
No strict supervision is necessary and one supervisor can manage many CNC
machines that have been pre-programed for a particular job.
CNC
Lathes
Horiz/Chuckers/Universals |
Stock
Number |
Click
for photo and specs |
BINNS & BERRY DATA 3000
Siemens 2100 CNC Control, 32" 4-Jaw Chuck, 59" Swing
Over Bed, 51" Swing Over Cross, 197" Centers, Full C-Axis, Live Tooling, New
1999.
|
STK# K14471 |
|
CINCINNATI HAWK2 300
Siemens Acramatic 2100 CNC Control, 12" 3-Jaw Power Chuck, 28" Swing
over Bed, 16.6" Max Turning Diameter, 40" Max Turning Length,
Programmable Tailstock, New 2004.
|
STK# K14400 |
|
CINCINNATI HAWK 250 HTC-250
Fanuc 21i CNC Control, Royal 3" Capacity Power Collet Chuck, 20" Swing
over Bed, 13.7" Swing Over Carroage, 27" Max Turning Length,
Programmable Tailstock, New 2006.
|
STK# K14473 |
|
DOOSAN DAEWOO PUMA TT2500SY,
Fanuc 18i-TB CNC Control, Twin Spindles w/ 10" Chucks, Twin
Turret, Live Tooling in Both Turrets, C-Axis on Both Spindles,
Y-Axis Upper Turret, 2005. |
STK# P12293 |
|
EMCO 332MC
Siemens 840D CNC Control, Twin Spindles, Twin
Turret, Live Tooling in Both Turrets, C-Axis on Both Spindles,
1.25" Bar Capacity, 8.7 Max Turning Diameter, 20" Max Turning Length,
New 2000. |
STK# K14409 |
|
HAAS TL-25
Haas CNC Control, Live Tooling, Sub-Spindle, 30" Swing over Bed,
14.5" Swing Over Cross Slide, 3" Bar Capacity, New 2009 |
STK# K14485 |
|
HWACHEON 38"/48" x 196" MEGA 95 CNC GAP BED
Fanuc 21TB CNC Control, 16" Chuck, 38" Swing
over Bed, 48" Swing w/ Gap Removed, 26.3" Max Turning Diameter,
Tailstock w/ 196" Centers, 6" Spindle Bore, 1999. |
STK# P12334 |
|
KITAKO VT4-350 4-Spindle
Fanuc 18T CNC, (4) 12" Chucks, 13.8" Max Turning Diameter, (2)
6 Position Turrets, 25 HP Ea, 3200 RPM, New 1999 |
STK# K13859 |
|
MAZAK MULTIPLEX 610
Mazatrol T32-6 CNC, Twin Spindle, Twin Turret, Live Tooling, 1.65"
Bar Capacity, Collet Chucks, Tooling, 5000 RPM, New 1993 |
STK# K13018 |
|
MAZAK INTEGREX
e-1060V8ii Mazatrol Matrix CNC, (2) 39"
Pallets, 49.2" Swing, Multi Function 5-Axis Milling and Turning
Capacity, 80 Station Tool Changer, 50 HP Milling Spindle, 50 HP
Turning Spindle, New 2009 |
STK# K14305 |
|
MAZAK e500HS Series II
INTEGREX Mazatrol Matrix CNC, Twin Spindle,
Universal Head, 120" Between Spindles, 80 Station Tool Changer,
32.28" Swing, New 2007 |
STK# K14160 |
|
MORI SEIKI DL-15Y
Mori MSC-518 (Fanuc 16TB) CNC Control, Twin Spindle, Twin Turret,
Live Tooling, Y-Axis, 7.8" Max Turning Diameter, 7.9" Turning Length, New
1997 |
STK# K14155 |
|
MORI SEIKI CL-05 CNC GANG STYLE
Mori Seiki MSC-801 CNC Control, 12" Swing, S.
Mori Seiki LG-01 Integrated Gantry
Robot, Auto Chuck Changer, (4) Tool Stations, (4) Available, 1996. |
STK#'s
P12316, P12317, P12318, P12319 |
|
MORI SEIKI ZL-203 SMC
Mori MSC-501 (Fanuc 18iTA) CNC Control, Twin Turret,
Live Tooling, Sub-Spindle, 8" Chuck, 20" Swing, 19"
Turning Length, New 2003 |
STK# K14460 |
|
NAKAMURA WT-300MMSY
Fanuc 18i-TB CNC Control, Twin Spindle, Twin Turret, Live Tooling in
Both Turrets, C-Axis on Both Spindles, Y-Axis Upper Turret, New
2005. |
STK# K13912 |
|
NAKAMURA WT-300MMSY
Fanuc 18i-TB CNC Control, Twin Spindle, Twin Turret, Live Tooling in
Both Turrets, C-Axis on Both Spindles, Y-Axis Upper Turret, New
2005. |
STK# K13913 |
|
OKUMA LB-15 ii M Big Bore, OSP
7000 CNC, 13.38" Turning Diameter, 39.37" Centers, Live Tooling, C-Axis, 10"
Chuck, New 1998 |
STK# K14023 |
|
OKUMA HOWA 2SP-V40 Twin Spindle Vertical
Fanuc 18i-T CNC, 20" Swing, 15.7" Max Turning Diameter, 17.7" Max
Part Length, 12 Position Turrets, New 2005 |
STK# K14275 |
|
OKUMA HOWA V35R Vertical Turning Center
Fanuc 18T CNC, 20" Swing, 15.7" Max Turning Diameter, 17.7" Max
Part Length, 12 Position Turrets, New 1999 |
STK# K14291 |
|
SUPERMAX YCM TC-15
Fanuc OT, Barfeeder, 18" Swing, 8" 3-Jaw Power Chuck, Tailstock w/
18" Centers, Chip Conveyor, 2000. |
STK# P12315 |
|
TONGTAI SEIKI Qusar 250
Fanuc OT, 15" Swing, 8" 3-Jaw Power Chuck, Tailstock w/
23" Centers, 12 Position Turret, Chip Conveyor, 1993. |
STK# K14474 |
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