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12 List Grid
12Lathes Centre to diameter 800 mm
| Name of a product | Inventory number | Producer | YOM | Parameters | ||
|---|---|---|---|---|---|---|
 |
SV 18 RA |
261369 | TOS Trenčín | 1973 | Swing over bed: 380 mm Distance between centres: 1250 mm Max. weight of workpiece: 300 kg Main motor power: 6 kW Machine weight: 1800 kg |
|
 |
SN 50 B/2000 |
261326 | TOS Trenčín | Swing over bed: 500 mm Distance between centres: 2000 mm Max. weight of workpiece: kg Swing over cross slide: 270 mm Main motor power: 5,5 kW Machine dimensions l x w x h: 1100 x 3575 mm |
||
 |
SV18RA |
261271 | TOS Trenčín | Swing over bed: 380 mm Distance between centres: 1000 mm Max. weight of workpiece: kg Spindle bore: 41 mm Machine dimensions l x w x h: mm |
||
 |
T 460 x 1500 |
241449 | Helfer | 2011 | Swing over bed: 250 mm Distance between centres: 1500 mm Max. weight of workpiece: kg Spindle taper: CM 4 . Main motor power: 5,5 kW Machine dimensions l x w x h: 2530 x 890 x 1620 mm |
|
 |
TUR 50 X 2000 |
261072 | PONAR-WROCŁAW | Swing over bed: 500 mm Distance between centres: 2000 mm Max. weight of workpiece: 500 kg Spindle bore: 70 mm Swing over cross slide: 300 mm |
||
 |
SN 50C/2000 |
252020 | Trens | 2016 | Swing over bed: 500 mm Distance between centres: 2000 mm Max. weight of workpiece: 500 kg Swing over cross slide: 270 mm Spindle bore: 52 mm Spindle speed: 0 - 2000 /min. |
|
 |
SUS 63/1250 |
261108 | TOS Čelákovice | Swing over bed: 630 mm Distance between centres: 1250 mm Max. weight of workpiece: 5200 kg Swing over cross slide: 530 mm Main motor power: 18 kW Spindle bore: 82 mm |
||
 |
SV 18 RD |
242058 | TOS Trenčín | Swing over bed: 380 mm Distance between centres: 1000 mm Max. weight of workpiece: 300 kg Swing over cross slide: 215 mm Spindle bore: 41 mm Main motor power: 7,5 kW |
||
 |
SUI 50 A/2000 |
261188 | TOS Trenčín | Swing over bed: 500 mm Distance between centres: 2000 mm Main motor power: 7,5 kW Machine dimensions l x w x h: 3760x1210x1515 mm Machine weight: 2950 kg |
||
 |
TOS ZEBRAK |
261273 | TOS Čelákovice | 1958 | Swing over bed: 280 mm Distance between centres: 750 mm Max. weight of workpiece: kg |
|
 |
SN 320/750 |
251913 | TOS Trenčín | Swing over bed: 320 mm Distance between centres: 750 mm Max. weight of workpiece: kg Main motor power: 3 kW Machine dimensions l x w x h: 1980 x 1035 x 1486 mm mm Machine weight: 1550 kg |
||
 |
SN 71 C/4000 |
251847 | TOS Trenčín | Swing over bed: 710 mm Distance between centres: 4000 mm Max. length of workpiece: 4000 mm |
||
 |
SUI 63 NC/1500 |
092574 | TOS Hulín | 1986 | Swing over bed: 630 mm Distance between centres: mm Max. weight of workpiece: kg |
|
 |
SNA 16A |
261275 | TOS Galanta | 1982 | Swing over bed: 220 mm Distance between centres: 450 mm |
|
 |
SUS 63/3500 |
261343 | TOS Čelákovice | Swing over bed: 655 mm Distance between centres: 3500 mm Max. weight of workpiece: 6000 kg Swing over cross slide: 390 mm Machine dimensions l x w x h: 6400 x 1750 x 1500 mm Machine weight: 7100 kg |
Technical Analysis: Structural Rigidity and Mechanical Causality
In the segment of conventional lathes up to 800 mm (e.g., the legendary TOS SN, SUI series, or Meuser and VDF machines), the primary value carrier is the bed material composition. Unlike modern economy models, these machines use massive grey cast iron castings (GG25 to GG30) that have undergone natural aging. This eliminates the risk of deformation due to internal stress relief—a major advantage of used machines over new builds.
Key Technical Parameters and Their Impact:
- Guideway Design: Wide prismatic ways with induction hardening (typically 50–55 HRC) ensure high carriage stability even during interrupted cuts. The large contact area distributes pressure and minimizes specific wear, directly affecting long-term dimensional stability.
- Headstock Gearing: The use of ground alloy steel gears in an oil bath allows for the transfer of high torque without excessive heat. This is critical for operations like cutting large-pitch threads or machining difficult stainless steels.
- Spindle Mounting: Oversized roller bearings with high dynamic load capacity allow for high radial loads without generating resonances that would cause 'surface waviness' on lighter machines.
Strategic Block: Economic Logic and Asset Management
For business owners and maintenance managers, purchasing a used conventional lathe up to 800 mm is a path to high process independence. Due to their mechanical concept, these machines are repairable with local resources, radically reducing the risk of long downtimes caused by the absence of proprietary electronics.
Investment Value Analysis:
- Low CAPEX vs. High Utility: The purchase price of a used machine from an established brand is often lower than that of Asian new-builds, while mechanical stability and the ability to take heavy cuts ('power machining') are significantly higher.
- High Market Liquidity: Machines like the TOS SN 50 or SN 71 have held their price steadily for decades. Investing in such an asset is considered low-risk with minimal market value amortization.
3 Counter-Intuitive Advantages of Conventional Lathes:
- Cost Reduction for Ceramics and Carbides: The massive cast iron bed acts as a mechanical damper. Reducing micro-vibrations at the tool entry extends the time between sharpening or edge replacement by up to 20%, optimizing direct operating costs (OPEX).
- Thermal Inertia in Single-Piece Production: The large casting mass reacts slower to local heating, meaning the machine 'doesn't walk' in dimensions as the headstock warms up during a shift.
- Diagnostic Haptic Feedback: The absence of electronic barriers allows an experienced turner to react to changes in cutting sound and vibration before damage occurs to the tool or workpiece—a common cause of expensive crashes in automated machines.
