Metal lathe


Metal turning lathe ED1000N Holz...

Metal turning lathe ED 1000N Holzmann

Metal turning lathe ED1000N Holzmann.
Included in delivery: 3-jaw chuc...
Holzmann
3.490,94 EUR
plus tax excl. Shipping costs
Weight per unit: 500kg
Bernardo Leit- und Zugspindeldre...

Bernardo Leit- und Zugspindeldrehmaschine Standard 150 Basic

Bernardo Leit- und Zugspindeldrehmaschine Standard 150 Basic

Die kompak...

Bernardo
3.972,50 EUR
plus tax excl. Shipping costs
Weight per unit: 455kg
Epple MD 300-910 Präzisions Getr...

Epple MD 300-910 Präzisions Getriebedrehmaschine

Epple MD 300-910 Präzisions Getriebedrehmaschine

  * Gehärtete und ges...

Epple
3.990,90 EUR
plus tax excl. Shipping costs
Weight per unit: 450kg
Bernardo Leit- und Zugspindeldre...

Bernardo Leit- und Zugspindeldrehmaschine Standard 150 Plus

Bernardo Leit- und Zugspindeldrehmaschine Standard 150 Plus

Die kompakt...

Bernardo
4.153,44 EUR
plus tax excl. Shipping costs
Weight per unit: 470kg
Metal turning lathe ED1000GN Hol...

Metal turning lathe ED1000 GN Holzmann

Metal turning lathe ED1000GN Holzmann.
included in delivery: 3-jaw chuc...
Holzmann
4.415,29 EUR
plus tax excl. Shipping costs
Weight per unit: 595kg
Bernardo Drehmaschine Standard 1...

Bernardo Drehmaschine Standard 165 Plus

Bernardo Drehmaschine Standard 165 Plus

Vielseitige Einsatzmöglichkeite...

Bernardo
4.611,04 EUR
plus tax excl. Shipping costs
Weight per unit: 495kg
Optimum D 320 x 920 Drehmaschine...

Optimum D 320 x 920 Drehmaschine

Optimum D 320 x 920 Drehmaschine

  • Stark verripptes Prismenbett a...
Optimum
4.737,69 EUR
plus tax excl. Shipping costs
Weight per unit: 410kg
Epple Präzisions Getriebe-Drehma...

Epple Präzisions Getriebe-Drehmaschine MD 300-910 DIGI

Epple Präzisions Getriebe-Drehmaschine MD 300-910 DIGI

  • Gehärtete ...
Epple
5.076,18 EUR
plus tax excl. Shipping costs
Weight per unit: 450kg
Holzmann ED 1000F metal turning ...

Holzmann ED 1000F metal turning lathe

Holzmann ED 1000F metal turning lathe 

Holzmann
5.293,06 EUR
plus tax excl. Shipping costs
Weight per unit: 650kg
Bernardo Leit- und Zugspindeldre...

Bernardo Leit- und Zugspindeldrehmaschine Standard 165 D

Bernardo Leit- und Zugspindeldrehmaschine Standard 165 D

Komplettaussta...

Bernardo
5.305,62 EUR
plus tax excl. Shipping costs
Weight per unit: 514kg
Bernardo Leit- und Zugspindeldre...

Bernardo Leit- und Zugspindeldrehmaschine Standard 165 Top

Bernardo Leit- und Zugspindeldrehmaschine Standard 165 Top

Komplettauss...

Bernardo
5.834,44 EUR
plus tax excl. Shipping costs
Weight per unit: 515kg
Holzmann ED 1000FDIG metal turni...

Holzmann ED 1000FDIG metal turning lathe

Holzmann ED 1000FDIG metal turning lathe 

Holzmann
6.034,24 EUR
plus tax excl. Shipping costs
Weight per unit: 650kg
Metal turning lathe ED1000Profi ...

Metalldrehmaschine ED 1000Profi

Metal turning lathe ED1000Profi Holzmann.
Included in delivery: 3-jaw c...
Holzmann
6.161,29 EUR
plus tax excl. Shipping costs
Bernardo mechanics' lathe Standa...

Bernardo mechanics' lathe Standard 360

Bernardo mechanics' lathe Standard 360

The Standard 360 mechanics' lath...

Bernardo
6.639,90 EUR
plus tax excl. Shipping costs
Weight per unit: 570kg
Epple Universal Mechaniker Drehm...

Epple Universal Mechaniker Drehmaschine MD 360-1000

Epple Universal Mechaniker Drehmaschine MD 360-1000
Bestens geeignet f...
Epple
7.028,03 EUR
plus tax excl. Shipping costs
Weight per unit: 800kg
Bernardo mechanics' lathe Standa...

Bernardo mechanics' lathe Standard 360 V

Bernardo mechanics' lathe Standard 360 V

Compact but solid machine with...

Bernardo
7.389,34 EUR
plus tax excl. Shipping costs
Weight per unit: 575kg
NO PIC


Bernardo
7.511,22 EUR
plus tax excl. Shipping costs
Bernardo mechanics' lathe Standa...

Bernardo mechanics' lathe Standard 360 3-Achs-Digitalanzeige

Bernardo mechanics' lathe Standard 360 3-Achs-Digitalanzeige

Compact bu...

Bernardo
7.528,26 EUR
plus tax excl. Shipping costs
Weight per unit: 570kg
Epple MD 360-1000-DIGI Universal...

Epple MD 360-1000-DIGI Universal Mechaniker Drehmaschine

Epple MD 360-1000-DIGI Universal Mechaniker Drehmaschine

* Leichtgängig...
Epple
8.298,53 EUR
plus tax excl. Shipping costs
Weight per unit: 800kg
Bernardo universal lathe Standar...

Bernardo universal lathe Standard 400 Top

Bernardo universal lathe Standard 400 Top

Newly developed, optimized sp...

Bernardo
8.542,69 EUR
plus tax excl. Shipping costs
Weight per unit: 650kg

A lathe processed workpieces:

are usually metallic and symmetrical in its simplest. However, other forms can be developed with the help of additional components and developments. The peculiarity of the lathe is that the cutting action is performed by the workpiece itself while the cutters or but another tool for processing is securely clamped. Up to the present modern lathes and in particular of the CNC lathe was however a long way.

The history of the lathe.

The exact birth of the lathe is today no longer accurately to write down, but already from the second century before Christ, finds that suggest first workpieces with a lathe processed during this period exist. With these machines, even today wood work piece be edited using a technique that is very similar to that of metal using a lathe. The principle of lathe then the first time was in writing deposited in the year 300 before Christ. De construction was still very simple: someone had to keep the workpiece moving with a cord while someone else held the chisel or other tool to the tool. This technique was further developed in the following centuries: in the eighth century, the workpiece using a fiddle bow drive in motion was brought and held. In the thirteenth century, there was the first rocker lathes, which are also called rocker lathe.


The further development of the lathe

The manual was used in the fifteenth century. A by Leonarda da Vinci could not prevail but developed concept: in this development the workpiece has been linked to a flywheel via running Board in rotation. He took advantage of his lathe but techniques that have been shown already 1480: A lathe with a runner, which to the cutters as well as the possibility to move the workpiece in the longitudinal direction. This lathe has been improved in 1571, Jaques Bessson developed a lathe with automatic feed. Since that time, the lathe developed rapidly. Lathes were used already in the middle of the 17th century in the precision engineering, whose Teile consisted of metal to a large extent. Already from the middle of the 18th century there were lathes, all elements of modern lathes. The first lathe, which was suitable for the mechanical engineering industry, is attributed to the American Sylvanin Brown, it was designed in 1791. in 1798, this development was patented by the American David Wilkinson. The British Henry Maudslay was able to develop it, which is completely made of metal for the first time a lathe. A further step on the way to an automatic lathe was inventing the Scotsman James Nasmyth possible: He developed the first steam-powered lathe.


Of the lathe for the CNC lathe

The next big step took place in the fifties of the twentieth century in the United States: the first numerically controlled lathes were developed at this time, which received orders to the workpiece on paper tape. Through the development of the CNC technology and thus the CNC lathe were completely different ways of workpiece machining possible. These Lathes are used mainly in the industry, because they only require and can be programmed these machines via computer. Since the fifties of the twentieth century the term lathe has prevailed, even if by operators is still often spoken by a lathe.

Including the CNC lathe used

The first lathes were used mainly for making screws. Even in times of the CNC lathe, you can produce these same pieces and edit. Because anyone can edit even today small workpieces using a lathe, which have to be produced in large quantities. The possibilities of processing go from forming over the drilling up to the loop and other forms of processing. So precision parts can now manufactures the, edit materials that are extremely wear resistant and heat resistant. For example, ceramic is editable very precisely. In addition, the CNC offers lathe but the advantage of that so very complicated work pieces can be produced, which differ from standard shapes. To the lathe is extended due to additional technical or electronic components, which very often include automation facilities. Furthermore, a CNC lathe always also offers the multi machine be serving ability. Also, including CAD drawings can be read and programmed directly through a special interface.

Advantages and disadvantages of the CNC lathe

Even if the CNC lathe work much better and thanks to a possible full automation work more productively as a conventional lathe, lathe not only benefits a CNC has. Thus, a machine controlled by a computer is much more expensive than a conventional machine. Here, one must consider the potential cost savings through more efficient production. But not only the cost of the lathe should be considered. The operation of a CNC lathe also means that the operator must have the appropriate qualifications, because the establishment and upgrading of CNC lathe is very high and the operator your mind must go through and complete the process. A compromise between the high cost of a new CNC lathe and its benefits offers a used CNC lathe.

Show 41 to 60 (from a total of 88 new products)