Introduction of CNC Horizontal Lathe
A heavy-duty lathe is a type of lathe machine that is designed to handle large and heavy workpieces. These lathes are typically used in industrial settings for machining large metal parts such as shafts, cylinders, and other components. Heavy-duty lathes are built with robust construction and powerful motors to provide the strength and stability needed to handle the high forces and cutting loads involved in machining heavy workpieces. They often have larger swing capacities and longer bed lengths compared to standard lathes, allowing them to accommodate larger and longer workpieces. These machines are essential for heavy-duty turning operations in industries such as aerospace, automotive, and oil and gas.
Configuration
Parameter of CNC horizontal lathe machine (conventional lathe can also be supplied)
SPECIFICATIONS | Units | CK61125L | CK61140L | CK61160L | CK61180L | CK61200L |
Swing over bed | mm | 1250 | 1400 | 1600 | 1800 | 2000 |
Swing over cross slide | mm | 850 | 1050 | 1250 | 1450 | 1650 |
Distance between centers | mm | 1000-10000 | 1000-10000 | 1000-10000 | 1000-10000 | 1000-10000 |
Guideway width | mm | 1100 | 1100 | 1100 | 1100 | 1100 |
Max. load capacity | T | 10 | 10 | 10 | 10 | 10 |
Spindle bore | mm | 100 | 100 | 100 | 100 | 100 |
Spindle bore taper | - | Metric φ120 | Metric φ120 | Metric φ120 | Metric φ120 | Metric φ120 |
Spindle speed steps | - | 4 steps | 4 steps | 4 steps | 4 steps | 4 steps |
Spindle speed range | rpm | 10-300 | 10-300 | 10-300 | 10-200 | 10-200 |
Chuck | mm | Φ1250 4-jaw manual | Φ1250 4-jaw manual | Φ1250 4-jaw manual | Φ1600 4-jaw manual | Φ1600 4-jaw manual |
Turret/tool post | - | Electric 4 position | Electric 4 position | Electric 4 position | Electric 4 position | Electric 4 position |
Tool size | mm | 50x50 | 50x50 | 50x50 | 50x50 | 50x50 |
X axis travel | mm | 700 | 750 | 850 | 850 | 850 |
Z axis travel | mm | 3000-10000 | 3000-10000 | 3000-10000 | 3000-10000 | 3000-10000 |
X axis rapid traverse | mm/min | 4000 | 4000 | 4000 | 4000 | 4000 |
Z axis rapid traverse | mm/min | 6000 | 6000 | 6000 | 6000 | 6000 |
Tailstock quill diameter | mm | Φ260 | Φ260 | Φ260 | Φ260 | Φ260 |
Tailstock quill taper | - | Metric Φ80 | Metric Φ80 | Metric Φ80 | Metric Φ80 | Metric Φ80 |
Tailstock quill travel | mm | 300 | 300 | 300 | 300 | 300 |
Main spindle motor | kw | 30 | 30 | 30 | 37 | 37 |
Coolant pump motor | kw | 0.25 | 0.25 | 0.25 | 0.25 | 0.25 |
Width x Height | mm | 2550x2350 | 2600x2400 | 2700x2560 | 2800x2760 | 2900x2900 |
Length | mm | 6700-14000 | 6700-14000 | 6700-13700 | 6700-14000 | 6700-14000 |
Net weight | T | 22.6-28.9 | 23.6-29.9 | 24.6-30.9 | 25.6-31.9 | 26.6-32.9 |
Performance characteristics of horizontal turning lathe
1. Capability to handle large and heavy workpieces: Heavy-duty lathes are designed to handle the machining of large and heavy components that may be too large for standard lathes. This makes them suitable for industries that work with oversized parts.
2. Robust construction: Heavy-duty lathes are built with strong and durable materials to withstand the high forces and cutting loads involved in machining heavy workpieces.
3. High power and torque: These lathes are equipped with powerful motors and gear systems to provide the necessary torque for machining large and tough materials.
4. Versatility: Heavy-duty lathes often have a wide range of spindle speeds and feed rates, allowing for versatile machining operations on a variety of materials.
5. Longer bed length and larger swing capacity: These lathes typically have longer bed lengths and larger swing capacities, enabling them to accommodate larger and longer workpieces.
6. Precision and accuracy: Despite their heavy-duty nature, these lathes are designed to provide high precision and accuracy in machining operations.
7. Suitable for heavy-duty turning operations: Heavy-duty lathes are essential for industries such as aerospace, automotive, and oil and gas, where heavy-duty turning operations are common.
Stardarrd Configuration
Four-station electric turret, four-jaw chuck, manual tailstock, automatic centralized lubrication, cooling system, semi-closed protective cover
Optional configuration
CNC systems such as Siemens, Fanuc, Guangshu and Kande, horizontal or driven turrets, hydraulic tailstocks, fully enclosed protective covers
Workshop
FAQ
Acceptance:
The content of pre-acceptance by the standard of machine acceptance
and a precision inspection sheet.
Installation
1) The buyer, according to the foundation chart, was offered by the seller.
2) After the equipment arrives at the user site, the buyer needs to complete the preparations for the three-phase power supply, three-phase four-core cable, compressed air source, etc., and provide the cables as mentioned above and air pipes to enter the standard interface of the machine tool, and the user will notify the supplier to install and debug after the preparation is ready.
Training
• 1-2 days: Inspection of cable connection, the finished foundation is qualified to guide the
customer to know each component's name and functions as well.
1) Demo and teach the user to calibrate and use customer workpieces in the machine.
Review all operation steps and learn each part's maintenance method.
Warranty period is 14 months from the date of debugging in the customer workshop.
In the warranty period
If some parts need to be replaced due to the quality of the product, the company is responsible for free replacement. If the issue is not related to the product quality of the Vertical Lathe, or if the company needs to send a technician to fix the Vertical Lathe, the appropriate fees should be collected.
Our company will assist customers in getting the machine running well and answer all questions
from customers online.
For simple operation issues through email/WhatsApp/video/phone call deal with directly
For a difficult issue, invite an engineer to help you repair or debug onsite.
Out of warranty period:
The customer just pays the cost of parts at a reasonable and lower price.
Troubleshooting
1) Before delivery: The Special QC department carefully checks to ensure that all is qualified with high
quality
2) Through seeing customers' actual photos or videos, using the discussed group or email, or video
meeting or a phone call gives solutions immediately
3) The dispatch engineer goes to customer workshops onsite.
Introduction of CNC Horizontal Lathe
A heavy-duty lathe is a type of lathe machine that is designed to handle large and heavy workpieces. These lathes are typically used in industrial settings for machining large metal parts such as shafts, cylinders, and other components. Heavy-duty lathes are built with robust construction and powerful motors to provide the strength and stability needed to handle the high forces and cutting loads involved in machining heavy workpieces. They often have larger swing capacities and longer bed lengths compared to standard lathes, allowing them to accommodate larger and longer workpieces. These machines are essential for heavy-duty turning operations in industries such as aerospace, automotive, and oil and gas.
Configuration
Parameter of CNC horizontal lathe machine (conventional lathe can also be supplied)
SPECIFICATIONS | Units | CK61125L | CK61140L | CK61160L | CK61180L | CK61200L |
Swing over bed | mm | 1250 | 1400 | 1600 | 1800 | 2000 |
Swing over cross slide | mm | 850 | 1050 | 1250 | 1450 | 1650 |
Distance between centers | mm | 1000-10000 | 1000-10000 | 1000-10000 | 1000-10000 | 1000-10000 |
Guideway width | mm | 1100 | 1100 | 1100 | 1100 | 1100 |
Max. load capacity | T | 10 | 10 | 10 | 10 | 10 |
Spindle bore | mm | 100 | 100 | 100 | 100 | 100 |
Spindle bore taper | - | Metric φ120 | Metric φ120 | Metric φ120 | Metric φ120 | Metric φ120 |
Spindle speed steps | - | 4 steps | 4 steps | 4 steps | 4 steps | 4 steps |
Spindle speed range | rpm | 10-300 | 10-300 | 10-300 | 10-200 | 10-200 |
Chuck | mm | Φ1250 4-jaw manual | Φ1250 4-jaw manual | Φ1250 4-jaw manual | Φ1600 4-jaw manual | Φ1600 4-jaw manual |
Turret/tool post | - | Electric 4 position | Electric 4 position | Electric 4 position | Electric 4 position | Electric 4 position |
Tool size | mm | 50x50 | 50x50 | 50x50 | 50x50 | 50x50 |
X axis travel | mm | 700 | 750 | 850 | 850 | 850 |
Z axis travel | mm | 3000-10000 | 3000-10000 | 3000-10000 | 3000-10000 | 3000-10000 |
X axis rapid traverse | mm/min | 4000 | 4000 | 4000 | 4000 | 4000 |
Z axis rapid traverse | mm/min | 6000 | 6000 | 6000 | 6000 | 6000 |
Tailstock quill diameter | mm | Φ260 | Φ260 | Φ260 | Φ260 | Φ260 |
Tailstock quill taper | - | Metric Φ80 | Metric Φ80 | Metric Φ80 | Metric Φ80 | Metric Φ80 |
Tailstock quill travel | mm | 300 | 300 | 300 | 300 | 300 |
Main spindle motor | kw | 30 | 30 | 30 | 37 | 37 |
Coolant pump motor | kw | 0.25 | 0.25 | 0.25 | 0.25 | 0.25 |
Width x Height | mm | 2550x2350 | 2600x2400 | 2700x2560 | 2800x2760 | 2900x2900 |
Length | mm | 6700-14000 | 6700-14000 | 6700-13700 | 6700-14000 | 6700-14000 |
Net weight | T | 22.6-28.9 | 23.6-29.9 | 24.6-30.9 | 25.6-31.9 | 26.6-32.9 |
Performance characteristics of horizontal turning lathe
1. Capability to handle large and heavy workpieces: Heavy-duty lathes are designed to handle the machining of large and heavy components that may be too large for standard lathes. This makes them suitable for industries that work with oversized parts.
2. Robust construction: Heavy-duty lathes are built with strong and durable materials to withstand the high forces and cutting loads involved in machining heavy workpieces.
3. High power and torque: These lathes are equipped with powerful motors and gear systems to provide the necessary torque for machining large and tough materials.
4. Versatility: Heavy-duty lathes often have a wide range of spindle speeds and feed rates, allowing for versatile machining operations on a variety of materials.
5. Longer bed length and larger swing capacity: These lathes typically have longer bed lengths and larger swing capacities, enabling them to accommodate larger and longer workpieces.
6. Precision and accuracy: Despite their heavy-duty nature, these lathes are designed to provide high precision and accuracy in machining operations.
7. Suitable for heavy-duty turning operations: Heavy-duty lathes are essential for industries such as aerospace, automotive, and oil and gas, where heavy-duty turning operations are common.
Stardarrd Configuration
Four-station electric turret, four-jaw chuck, manual tailstock, automatic centralized lubrication, cooling system, semi-closed protective cover
Optional configuration
CNC systems such as Siemens, Fanuc, Guangshu and Kande, horizontal or driven turrets, hydraulic tailstocks, fully enclosed protective covers
Workshop
FAQ
Acceptance:
The content of pre-acceptance by the standard of machine acceptance
and a precision inspection sheet.
Installation
1) The buyer, according to the foundation chart, was offered by the seller.
2) After the equipment arrives at the user site, the buyer needs to complete the preparations for the three-phase power supply, three-phase four-core cable, compressed air source, etc., and provide the cables as mentioned above and air pipes to enter the standard interface of the machine tool, and the user will notify the supplier to install and debug after the preparation is ready.
Training
• 1-2 days: Inspection of cable connection, the finished foundation is qualified to guide the
customer to know each component's name and functions as well.
1) Demo and teach the user to calibrate and use customer workpieces in the machine.
Review all operation steps and learn each part's maintenance method.
Warranty period is 14 months from the date of debugging in the customer workshop.
In the warranty period
If some parts need to be replaced due to the quality of the product, the company is responsible for free replacement. If the issue is not related to the product quality of the Vertical Lathe, or if the company needs to send a technician to fix the Vertical Lathe, the appropriate fees should be collected.
Our company will assist customers in getting the machine running well and answer all questions
from customers online.
For simple operation issues through email/WhatsApp/video/phone call deal with directly
For a difficult issue, invite an engineer to help you repair or debug onsite.
Out of warranty period:
The customer just pays the cost of parts at a reasonable and lower price.
Troubleshooting
1) Before delivery: The Special QC department carefully checks to ensure that all is qualified with high
quality
2) Through seeing customers' actual photos or videos, using the discussed group or email, or video
meeting or a phone call gives solutions immediately
3) The dispatch engineer goes to customer workshops onsite.
