Guangzhou South CNC Machine Tools created in 1984, firstly to machine the casting base and metal accessories and so on in early during beginning business. And later we did assemble the manual lathe machine and test it and sell it. After we did more and more manual lathe machine, we have strong design team and enough experience, then we made the assembly for CNC flat bed heavy duty lathe machine. Nowadays, the slanting bed is more popular and more popular, so we also develop this kind of lathe machine and CNC machining center in order to meet customer requirement.
The lathe is a very important metal cutting machine tool, occupy 30%-50% of the total number of machine tools. It is a machine tool used for turning processing. According to their different application and structures, they can be divided into various types of lathes, horizontal lathe, floor lathe, vertical lathe, copied lathe, turret lathe, automatic lathe, multi-tool semi-automatic lathe.
The lathe main machining performance will be as below:
a) Straight head cylindrical for the outer circle turning;
b) The outer circle turning for the elbow tool;
c) The end face turning for the elbow tool;
d) The outer circle turning for the left offset tool;
e) The end face turning for the right offset tool;
f) Cutting the groove for cutting for the cutting tool;
g) Boring tool boring;
h) Thread tool turning thread;
i)customized tool turning for special surface;
Characteristics of lathe processing:
1) Lathe processing range is very wide, but it is mainly used for various internal and external rotating surfaces and the processing of its end face;
2) The main movement of lathe processing is the rotational movement of the workpiece, and the feed movement is the longitudinal and transverse movement of the tool
mini lathe machine–A Guide to Frequently Asked Questions
1.What are the advantages of using a CNC lathe machine?
1. Increased Accuracy: CNC lathes are capable of producing parts with a high degree of accuracy and repeatability. This is due to the fact that the machine is programmed with precise instructions and is able to repeat the same process over and over again.
2. Increased Productivity: CNC lathes are able to produce parts faster than manual lathes, allowing for increased production and shorter lead times.
3. Reduced Labor Costs: CNC lathes require fewer operators than manual lathes, resulting in lower labor costs.
4. Reduced Waste: CNC lathes are able to produce parts with minimal waste, resulting in cost savings.
5. Increased Safety: CNC lathes are equipped with safety features that reduce the risk of injury to operators.
2.What are the main components of a lathe machine?
1. Bed: The bed is the main structural component of the lathe and provides a stable base for all other components.
2. Headstock: The headstock houses the spindle, which is the rotating shaft that holds the cutting tool.
3. Dabada: The tailstock is a movable support that holds the workpiece in place while it is being machined.
4. Carriage: The carriage is a movable platform that holds the cutting tool and moves it along the length of the workpiece.
5. Leadscrew: The leadscrew is a threaded rod that is used to move the carriage along the bed.
6. Feed Rod: The feed rod is used to move the cutting tool in and out of the workpiece.
7. Tool Post: The tool post is a platform that holds the cutting tool in place.
8. Chuck: The chuck is a device that holds the workpiece in place while it is being machined.
3.How does a lathe machine contribute to mass production in manufacturing?
A lathe machine is a versatile tool used in manufacturing for mass production. It is used to shape and form metal and other materials into a variety of shapes and sizes. It can be used to create components for a variety of products, including automotive parts, medical devices, and consumer electronics. The lathe machine is capable of producing parts with high accuracy and repeatability, making it an ideal tool for mass production. It can also be used to create complex shapes and intricate details, making it a valuable tool for creating custom parts.
4.How is a lathe machine used in turning operations?
A lathe machine is used in turning operations to shape a workpiece by rotating it against a cutting tool. The cutting tool is held in a tool post and is fed into the rotating workpiece to remove material and create the desired shape. The lathe can also be used to create threads, grooves, and other features on the workpiece.
5.How is the cutting depth adjusted in a lathe machine?
The cutting depth is adjusted in a lathe machine by adjusting the tool post height. The tool post height is adjusted by turning the tool post handwheel, which moves the tool post up or down. The cutting depth is then adjusted by moving the tool post to the desired height.
6.What are the steps involved in setting up a workpiece on a lathe machine?
1. Select the correct tooling for the job.
2. Secure the workpiece in the lathe chuck or collet.
3. Set the cutting speed and feed rate.
4. Set the cutting depth and tool height.
5. Set the tool offset.
6. Set the spindle speed.
7. Set the coolant flow.
8. Start the machine and check for proper operation.
9. Make a test cut to check the setup.
10. Make the necessary adjustments and begin machining.
7.How does a lathe machine work?
A lathe machine is a machine tool that rotates a workpiece about an axis of rotation to perform various operations such as cutting, ciidid, knurling, drilling, deformation, facing, and turning, with tools that are applied to the workpiece to create an object with symmetry about that axis. The workpiece is held in place by either a chuck, a faceplate, or a tailstock, which is a device that holds the end of the workpiece in place. The cutting tool is then applied to the workpiece, which is rotated at a predetermined speed. As the cutting tool moves along the workpiece, it removes material to create the desired shape. The speed of the cutting tool is adjusted to achieve the desired finish.
8.Can a lathe machine be used for thread cutting?
Yes, a lathe machine can be used for thread cutting. Thread cutting is a machining process that uses a lathe to cut threads into a workpiece. The process involves using a cutting tool to cut a helical groove into the workpiece, which is then followed by a second tool to form the thread.
9.Can a lathe machine be used for both metal and wood turning?
Yes, a lathe machine can be used for both metal and wood turning. However, the type of tooling and cutting speeds used will vary depending on the material being worked on.
10.What are the limitations of a conventional lathe machine?
1. Limited cutting speed: Conventional lathes have limited cutting speed, which can be a limitation when machining certain materials.
2. Limited cutting depth: Conventional lathes have limited cutting depth, which can be a limitation when machining certain materials.
3. Limited tooling options: Conventional lathes have limited tooling options, which can be a limitation when machining certain materials.
4. Limited accuracy: Conventional lathes have limited accuracy, which can be a limitation when machining certain materials.
5. Limited automation: Conventional lathes have limited automation, which can be a limitation when machining certain materials.
6. Limited spindle speed: Conventional lathes have limited spindle speed, which can be a limitation when machining certain materials.
11.How do you measure and set the cutting speed on a lathe machine?
The cutting speed on a lathe machine is typically measured in revolutions per minute (RPM). The cutting speed is determined by the material being cut, the size and shape of the cutting tool, and the desired finish. To set the cutting speed, the operator must adjust the spindle speed of the lathe. This is typically done by adjusting the speed control knob on the lathe.
Waqtiga boostada: 2023-12-01