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Constructed with a robust frame, usually made from high grade cast iron, the conventional lathe offers exceptional stability during operation. This sturdy build minimizes vibrations, which is essential for achieving accurate machining results. The lathe features a spindle that rotates the workpiece at variable speeds, while the carriage, equipped with a tool post, moves along the bed to perform cutting operations. Its manual control system, consisting of handwheels and levers, gives operators direct and precise control over the machining process, making it accessible to both novice and experienced machinists.
The most distinctive feature of the conventional lathe is its manual control mechanism. Operators can use handwheels to make fine tuned adjustments to the position of the cutting tool, allowing for meticulous control over the depth and angle of cuts. This hands on approach is particularly advantageous for tasks that require custom modifications or intricate detailing, as operators can respond immediately to the specific requirements of each workpiece. The tactile feedback from the manual controls also enables experienced machinists to achieve a high level of accuracy through feel and experience.
A conventional lathe is capable of performing a diverse array of machining operations. Turning, which involves reducing the diameter of the workpiece, is its primary function. However, it can also execute facing, boring, threading, and grooving operations with ease. This versatility makes it suitable for manufacturing a wide variety of components, from simple cylindrical parts to more complex shapes with threaded features. The ability to switch between different operations using the same machine reduces production time and costs associated with using multiple specialized tools.
Compared to more advanced CNC machines, conventional lathes are relatively inexpensive to purchase and operate. Their simple mechanical structure means fewer components that can potentially malfunction, resulting in lower maintenance costs. Routine maintenance tasks, such as lubricating moving parts and checking for wear on the spindle and bearings, are straightforward and can be carried out by in house maintenance staff without the need for specialized technical knowledge. This makes conventional lathes an ideal choice for small to medium sized enterprises or workshops with limited budgets.
For small batch production runs or prototype development, the conventional lathe shines. Its manual operation allows for quick setup changes between different jobs, enabling manufacturers to produce a variety of parts without the need for complex programming. This flexibility is crucial for meeting the demands of custom orders or for rapidly testing new designs, making the conventional lathe an indispensable tool in environments where versatility and quick turnaround times are key.
Job shops that handle a wide range of custom machining jobs find conventional lathes invaluable. These shops often receive orders for small quantities of unique parts, and the conventional lathe's ability to be easily adjusted for different tasks makes it well suited for such work. Small manufacturing enterprises can also benefit from the cost effectiveness and simplicity of conventional lathes, using them to produce components for various industries, including automotive, machinery, and general fabrication.
Conventional lathes play a vital role in technical education and training programs. They provide students with a hands on understanding of fundamental machining principles, allowing them to learn basic turning, threading, and other operations in a tangible way. The manual control aspect of these lathes helps students develop essential skills such as hand eye coordination, precision control, and an understanding of how machining parameters affect the final product. This practical knowledge forms a solid foundation for those pursuing careers in machining and manufacturing.
In maintenance and repair workshops, conventional lathes are used to manufacture replacement parts for machinery and equipment. When an existing part is damaged or worn out, machinists can use the lathe to create an exact replica based on the original specifications. The lathe's versatility and manual control make it possible to reproduce complex geometries and threaded features, ensuring that the replacement parts fit and function correctly. This helps to minimize downtime and keep industrial equipment running smoothly.
Product Advantage
1. Our company was established in 1952. Over the past 70+ years, we've amassed rich industry experience. Notably, we were a designated pipe thread lathe manufacturer for the former Ministry of National Machinery Industry. During this long - standing journey, we've continuously refined our production techniques and product quality, maintaining our leading position in the industry.
2. The company holds ISO9001 certification, with products renowned for high precision and reliability, especially its leading position in CNC lathe and pipe threading lathes. Provides 365/24 online support and on-site after-sales service by a professional engineering team. Over 5% of annual revenue is invested in R&D, with 30+ completed projects, 30patents(6 invention patents), and collaborations with top research institutions.
3. With an annual output of 1,000 units and 500+ production and precision testing devices. It ensures Universal lathe and Multi-functional manufacturing capabilities. Specializing in medium and large lathes, it offers tailored solutions to meet diverse industry needs.
4. Our operates advanced R&D platforms, including provincial and municipal technology centers, and is equipped with over 500 production and precision testing devices. Specializing in CNC lathes, pipe thread lathes, and machining centers, it produces 1.000units annually, with CNC pipe thread lathes being the most comprehensive in China. Its products are widely sold across 30+ regions in China and exported globally, including Russia, Australia, and Southeast Asia, earning high reputation all over the world.
5. Shandong HQ Precision Technology Co., Ltd. We have prioritized R&D, allocating over 5% of annual revenue to innovation. With 30+completed projects.16provincial initiatives, and 2 key R&D programs,the company has earned multiple awards, including national and provincial science and technology prizes. Its CKY6150 filled a domestic market gap. Collaborating with top research institutes, the company holds 30 patents (6 inventions) and boasts ISO9001 certification, along with honors like "Shandong Province Integrity Demonstration Enterprise" and "Specialized SME".
Technical Parameters
SPECIFICATION | Unit | CW61180H/1 | CW611200H/1 | |
Capacity | Swingover bed | mm | φ1900 | φ2100 |
Swing over cross slide | mm | φ1450 | φ1650 | |
Distance between centers | mm | 3000-10000 | 3000-10000 | |
Guideway width | mm | 1100 | 1100 | |
Max.load capacity | 20 | 20 | ||
Spindle | Spindle bore | mm | φ130 | Φ130 |
Spindle bore taper | Metric140 | Metric140 | ||
Spindle nose type | 1:30 Extended spindle head | 1:30 Extended spindle head | ||
Spindle speed steps | NF,4steps | NF.4steps | ||
Spindle speed range | r/min | 2-37rpm, 23-70rpm 37-110rpm, 70-200rpm | 2-37rpm, 23-70rpm 37-110rpm, 70-200rpm | |
Spindle front bearing | mm | 240 | 240 | |
Chuck | mm | φ1600 | φ1600 | |
Turret | Turret/tool post | Manual turret 4 position | Manual turret 4 position | |
Tool shank size | mm | 45×45 | 45×45 | |
Feed | X axis travel | mm | 850 | 850 |
Z axis travel | mm | 2850-985056 species/0.1-12mm | 2850-985056 species/0.1-12mm | |
X axis feed grade/range | 56 species/0.05-6mm | 56 species/0.05-6mm | ||
Z axis feed grade/range | 1870 | 1870 | ||
X axis rapid traverse | mm/min | 3740 | 3740 | |
Z axis rapid traverse | mm/min | 44 species/1-120mm | 44 species/1-120mm | |
Metric thread grade/range | 31 species/28-3/8 | 31 species/28-3/8 | ||
Inch thread grade/range | φ260 | φ260 | ||
Tailstock | Tailstock quill diameter | mm | Metric 80 | Metric 80 |
Tailstock quill taper | 300 | 300 | ||
Tailstock quill travel | mm | 37 | 37 | |
Motor | Main spindle motor | KW | 1.5 | 1.5 |
Rapid traverse motor | KW | 2300×2250 | 2300×2250 | |
Dimension | Width x Height | mm | 7700-14700 | 7700-14700 |
Length | mm | 20820 | 21490 | |
Weight | Net weight (3m) | kg | For every additional meter, the weight will increase by 1050Kg | For every additional meter, the weight will increase by 1050Kg |
1050Kgfor each 1madditional weight | 1050Kgfor each1madditional weight |
Product Detail Photos
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Product Video
Constructed with a robust frame, usually made from high grade cast iron, the conventional lathe offers exceptional stability during operation. This sturdy build minimizes vibrations, which is essential for achieving accurate machining results. The lathe features a spindle that rotates the workpiece at variable speeds, while the carriage, equipped with a tool post, moves along the bed to perform cutting operations. Its manual control system, consisting of handwheels and levers, gives operators direct and precise control over the machining process, making it accessible to both novice and experienced machinists.
The most distinctive feature of the conventional lathe is its manual control mechanism. Operators can use handwheels to make fine tuned adjustments to the position of the cutting tool, allowing for meticulous control over the depth and angle of cuts. This hands on approach is particularly advantageous for tasks that require custom modifications or intricate detailing, as operators can respond immediately to the specific requirements of each workpiece. The tactile feedback from the manual controls also enables experienced machinists to achieve a high level of accuracy through feel and experience.
A conventional lathe is capable of performing a diverse array of machining operations. Turning, which involves reducing the diameter of the workpiece, is its primary function. However, it can also execute facing, boring, threading, and grooving operations with ease. This versatility makes it suitable for manufacturing a wide variety of components, from simple cylindrical parts to more complex shapes with threaded features. The ability to switch between different operations using the same machine reduces production time and costs associated with using multiple specialized tools.
Compared to more advanced CNC machines, conventional lathes are relatively inexpensive to purchase and operate. Their simple mechanical structure means fewer components that can potentially malfunction, resulting in lower maintenance costs. Routine maintenance tasks, such as lubricating moving parts and checking for wear on the spindle and bearings, are straightforward and can be carried out by in house maintenance staff without the need for specialized technical knowledge. This makes conventional lathes an ideal choice for small to medium sized enterprises or workshops with limited budgets.
For small batch production runs or prototype development, the conventional lathe shines. Its manual operation allows for quick setup changes between different jobs, enabling manufacturers to produce a variety of parts without the need for complex programming. This flexibility is crucial for meeting the demands of custom orders or for rapidly testing new designs, making the conventional lathe an indispensable tool in environments where versatility and quick turnaround times are key.
Job shops that handle a wide range of custom machining jobs find conventional lathes invaluable. These shops often receive orders for small quantities of unique parts, and the conventional lathe's ability to be easily adjusted for different tasks makes it well suited for such work. Small manufacturing enterprises can also benefit from the cost effectiveness and simplicity of conventional lathes, using them to produce components for various industries, including automotive, machinery, and general fabrication.
Conventional lathes play a vital role in technical education and training programs. They provide students with a hands on understanding of fundamental machining principles, allowing them to learn basic turning, threading, and other operations in a tangible way. The manual control aspect of these lathes helps students develop essential skills such as hand eye coordination, precision control, and an understanding of how machining parameters affect the final product. This practical knowledge forms a solid foundation for those pursuing careers in machining and manufacturing.
In maintenance and repair workshops, conventional lathes are used to manufacture replacement parts for machinery and equipment. When an existing part is damaged or worn out, machinists can use the lathe to create an exact replica based on the original specifications. The lathe's versatility and manual control make it possible to reproduce complex geometries and threaded features, ensuring that the replacement parts fit and function correctly. This helps to minimize downtime and keep industrial equipment running smoothly.
Product Advantage
1. Our company was established in 1952. Over the past 70+ years, we've amassed rich industry experience. Notably, we were a designated pipe thread lathe manufacturer for the former Ministry of National Machinery Industry. During this long - standing journey, we've continuously refined our production techniques and product quality, maintaining our leading position in the industry.
2. The company holds ISO9001 certification, with products renowned for high precision and reliability, especially its leading position in CNC lathe and pipe threading lathes. Provides 365/24 online support and on-site after-sales service by a professional engineering team. Over 5% of annual revenue is invested in R&D, with 30+ completed projects, 30patents(6 invention patents), and collaborations with top research institutions.
3. With an annual output of 1,000 units and 500+ production and precision testing devices. It ensures Universal lathe and Multi-functional manufacturing capabilities. Specializing in medium and large lathes, it offers tailored solutions to meet diverse industry needs.
4. Our operates advanced R&D platforms, including provincial and municipal technology centers, and is equipped with over 500 production and precision testing devices. Specializing in CNC lathes, pipe thread lathes, and machining centers, it produces 1.000units annually, with CNC pipe thread lathes being the most comprehensive in China. Its products are widely sold across 30+ regions in China and exported globally, including Russia, Australia, and Southeast Asia, earning high reputation all over the world.
5. Shandong HQ Precision Technology Co., Ltd. We have prioritized R&D, allocating over 5% of annual revenue to innovation. With 30+completed projects.16provincial initiatives, and 2 key R&D programs,the company has earned multiple awards, including national and provincial science and technology prizes. Its CKY6150 filled a domestic market gap. Collaborating with top research institutes, the company holds 30 patents (6 inventions) and boasts ISO9001 certification, along with honors like "Shandong Province Integrity Demonstration Enterprise" and "Specialized SME".
Technical Parameters
SPECIFICATION | Unit | CW61180H/1 | CW611200H/1 | |
Capacity | Swingover bed | mm | φ1900 | φ2100 |
Swing over cross slide | mm | φ1450 | φ1650 | |
Distance between centers | mm | 3000-10000 | 3000-10000 | |
Guideway width | mm | 1100 | 1100 | |
Max.load capacity | 20 | 20 | ||
Spindle | Spindle bore | mm | φ130 | Φ130 |
Spindle bore taper | Metric140 | Metric140 | ||
Spindle nose type | 1:30 Extended spindle head | 1:30 Extended spindle head | ||
Spindle speed steps | NF,4steps | NF.4steps | ||
Spindle speed range | r/min | 2-37rpm, 23-70rpm 37-110rpm, 70-200rpm | 2-37rpm, 23-70rpm 37-110rpm, 70-200rpm | |
Spindle front bearing | mm | 240 | 240 | |
Chuck | mm | φ1600 | φ1600 | |
Turret | Turret/tool post | Manual turret 4 position | Manual turret 4 position | |
Tool shank size | mm | 45×45 | 45×45 | |
Feed | X axis travel | mm | 850 | 850 |
Z axis travel | mm | 2850-985056 species/0.1-12mm | 2850-985056 species/0.1-12mm | |
X axis feed grade/range | 56 species/0.05-6mm | 56 species/0.05-6mm | ||
Z axis feed grade/range | 1870 | 1870 | ||
X axis rapid traverse | mm/min | 3740 | 3740 | |
Z axis rapid traverse | mm/min | 44 species/1-120mm | 44 species/1-120mm | |
Metric thread grade/range | 31 species/28-3/8 | 31 species/28-3/8 | ||
Inch thread grade/range | φ260 | φ260 | ||
Tailstock | Tailstock quill diameter | mm | Metric 80 | Metric 80 |
Tailstock quill taper | 300 | 300 | ||
Tailstock quill travel | mm | 37 | 37 | |
Motor | Main spindle motor | KW | 1.5 | 1.5 |
Rapid traverse motor | KW | 2300×2250 | 2300×2250 | |
Dimension | Width x Height | mm | 7700-14700 | 7700-14700 |
Length | mm | 20820 | 21490 | |
Weight | Net weight (3m) | kg | For every additional meter, the weight will increase by 1050Kg | For every additional meter, the weight will increase by 1050Kg |
1050Kgfor each 1madditional weight | 1050Kgfor each1madditional weight |
Product Detail Photos
![]() | ![]() | ||
![]() | ![]() | ![]() |
Product Video