| Quantity: | |
|---|---|
Specification:
Model | CM6241x1000 | CM6241×1500 |
Max. swing over bed | Φ410mm | |
Max. swing over cross slide | Φ255mm | |
Max. swing over gap | Φ580mm | |
Center height | 205mm | |
Distance between centers | 1000mm/1500mm | |
Width of bed | 250mm | |
Max.section of tool | 20mm×20mm | |
Max.travel of cross slide | 210mm | |
Max.travel of compound rese | 140mm | |
Spindle bore | Φ52mm | |
Spindle nose | D1-6 | |
Taper of spindle speed | M.T.#6 | |
Range of spindle speed | 16changes 45-1800r/min | |
Leadscrew pitch | 4 T.P.I. | |
Range of metric longitudinal feeds range | 0.05-1.7mm/rev(17 Nos) | |
Range of metric cross feeds | 0.025-0.85mm/rev (17 Nos) | |
Range of metric threads | 0.2-14mm(NO. 39) | |
Range of inch threads | 2-72 T.P.I.(NO. 45) | |
Range of Diametrical pitch | 8-44D.P.(21Nos) | |
Range of module pitches | 0.3-3.5 M.P.(18Nos) | |
Dia. of tailstock sleeve | 50mm | |
Travel of tailstock sleeve | 120mm | |
Morse taper of tailstock sleeve | M.T.#4 | |
Power of main motor | 2.2/3.3kw | |
Power of coolant pump | 120W / 3PH | |
Overall diamension(L*W*H) | (1000mm):1940×850×1320mm | |
(1500mm): 2440x850x1320mm | ||
Packing size(L*W*H) | (1000mm):2070×926×1635mm | |
(1500mm):2575x926x1635mm | ||
N.W/G.W | (1000mm): 1350/1550kg | |
(1500mm): 1550/1800kg | ||
Manual lathe is a metal processing machine mainly used for machining cylindrical, conical, spherical, and threaded parts. In the machining industry, it plays an important role. Manual lathes have different names, such as ordinary lathes, universal lathes, etc. These names are mainly named based on their application characteristics in different industries and regions.
The working principle of a manual lathe is mainly to fix the workpiece on the spindle through manual operation, and then use an automatic or manual feed mechanism to control the rotation speed and processing depth of the workpiece on the spindle, and use cutting tools to process the workpiece. Due to its simple structure, clear components, and easy maintenance, manual lathes have been widely used in traditional mechanical processing.
Manual lathes have a wide range of applications, especially suitable for single piece and small batch production, and can quickly respond to diverse processing needs. Meanwhile, due to its independence from programming and automation control systems, manual lathes exhibit unique flexibility and economy in processing complex or irregularly shaped parts. However, compared to CNC lathes, manual lathes have lower machining efficiency, relatively limited machining accuracy, and require higher skills from operators.
When using a manual lathe, it is necessary to pay attention to some operating methods and techniques. For example, the installation of the turning tool requires the correct matching of the turning tool and the tool holder, adjusting the angle of the turning tool, and tightening the positioning screw to prevent the turning tool from moving. When clamping the workpiece, it is necessary to select a suitable clamping device and adjust the clamping device to ensure that the workpiece is firmly fixed on the lathe.
Overall, manual lathes are a very practical machine tool equipment with advantages such as high flexibility, low cost, and simple operation. Although there is a gap in processing efficiency and accuracy compared to CNC lathes, manual lathes still play an indispensable role in many traditional machining situations. For beginners and experienced operators, mastering the operating skills and methods of manual lathes can better utilize their processing capabilities and improve production efficiency.
Specification:
Model | CM6241x1000 | CM6241×1500 |
Max. swing over bed | Φ410mm | |
Max. swing over cross slide | Φ255mm | |
Max. swing over gap | Φ580mm | |
Center height | 205mm | |
Distance between centers | 1000mm/1500mm | |
Width of bed | 250mm | |
Max.section of tool | 20mm×20mm | |
Max.travel of cross slide | 210mm | |
Max.travel of compound rese | 140mm | |
Spindle bore | Φ52mm | |
Spindle nose | D1-6 | |
Taper of spindle speed | M.T.#6 | |
Range of spindle speed | 16changes 45-1800r/min | |
Leadscrew pitch | 4 T.P.I. | |
Range of metric longitudinal feeds range | 0.05-1.7mm/rev(17 Nos) | |
Range of metric cross feeds | 0.025-0.85mm/rev (17 Nos) | |
Range of metric threads | 0.2-14mm(NO. 39) | |
Range of inch threads | 2-72 T.P.I.(NO. 45) | |
Range of Diametrical pitch | 8-44D.P.(21Nos) | |
Range of module pitches | 0.3-3.5 M.P.(18Nos) | |
Dia. of tailstock sleeve | 50mm | |
Travel of tailstock sleeve | 120mm | |
Morse taper of tailstock sleeve | M.T.#4 | |
Power of main motor | 2.2/3.3kw | |
Power of coolant pump | 120W / 3PH | |
Overall diamension(L*W*H) | (1000mm):1940×850×1320mm | |
(1500mm): 2440x850x1320mm | ||
Packing size(L*W*H) | (1000mm):2070×926×1635mm | |
(1500mm):2575x926x1635mm | ||
N.W/G.W | (1000mm): 1350/1550kg | |
(1500mm): 1550/1800kg | ||
Manual lathe is a metal processing machine mainly used for machining cylindrical, conical, spherical, and threaded parts. In the machining industry, it plays an important role. Manual lathes have different names, such as ordinary lathes, universal lathes, etc. These names are mainly named based on their application characteristics in different industries and regions.
The working principle of a manual lathe is mainly to fix the workpiece on the spindle through manual operation, and then use an automatic or manual feed mechanism to control the rotation speed and processing depth of the workpiece on the spindle, and use cutting tools to process the workpiece. Due to its simple structure, clear components, and easy maintenance, manual lathes have been widely used in traditional mechanical processing.
Manual lathes have a wide range of applications, especially suitable for single piece and small batch production, and can quickly respond to diverse processing needs. Meanwhile, due to its independence from programming and automation control systems, manual lathes exhibit unique flexibility and economy in processing complex or irregularly shaped parts. However, compared to CNC lathes, manual lathes have lower machining efficiency, relatively limited machining accuracy, and require higher skills from operators.
When using a manual lathe, it is necessary to pay attention to some operating methods and techniques. For example, the installation of the turning tool requires the correct matching of the turning tool and the tool holder, adjusting the angle of the turning tool, and tightening the positioning screw to prevent the turning tool from moving. When clamping the workpiece, it is necessary to select a suitable clamping device and adjust the clamping device to ensure that the workpiece is firmly fixed on the lathe.
Overall, manual lathes are a very practical machine tool equipment with advantages such as high flexibility, low cost, and simple operation. Although there is a gap in processing efficiency and accuracy compared to CNC lathes, manual lathes still play an indispensable role in many traditional machining situations. For beginners and experienced operators, mastering the operating skills and methods of manual lathes can better utilize their processing capabilities and improve production efficiency.
