Different Lathe Types
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Different Lathe Types

CNC machining centres may come with live tooling. While single-point cutting tools are suitable for most turning operations, live tooling refers to mills, drills and other tools that have their own power. This allows the creation of keyways or holes perpendicular to the part axis without using any other machinery in the process.

Control panel

This is where computer numerical control kicks in. The brains of CNC turning machines are just behind the panel. The panel itself allows the operator to adjust the program and start it.

Types of Lathes

A wide range of CNC lathes offers a variety of possibilities. Each comes with a unique set of features while some are more automated than others. So everything has its place, whether a few one-off jobs at a small machine shop or batch production for larger quantities.

Bench lathe

The name suggests that it is small enough to attach it to a tailored workbench. They are, still, larger than micro or mini-lathes.

A great way to perform general machining or a special tool for a hobbyist, it can perform many of the necessary operations. A bench lathe requires a skilful machinist as there is little to no automation, putting more responsibility on the operator.

Engine lathe

The most common type of lathe. The name has stuck since the 19th century when a steam engine made this specimen stand out in the midst of other manual lathes. Since the beginning of the 20th century, a conversion towards electric motors got on its way.

Using gearboxes in the headstock made the choice of spindle speed easy and high-speed machine tools became the norm. The new-found power pushed the industry to invent new ways of increasing the tool life. Replaceable carbide inserts were just the way to do that.

As a result, engine lathes can perform CNC machining at high speeds, leading to shortened production times and lower costs. Although still common in workshops, engine lathes laid the foundation for improved performance and the automation of machining.

Toolroom lathe

Similar to an engine lathe with a few differences. Usually, they are smaller in size to fit in tighter spaces. At the same time, there are some extra capabilities available, making it rather a higher-end machine, not one suitable for entry-level.

The toolroom lathes include chuck and collets, taper attachment among other things that, for example, simpler bench lathes do not have.

Turret and capstan lathes

These types of lathes are pretty much interchangeable based on the operations they can perform. As you learned before, the use of a turret opens up a wide range of automation possibilities. Also, many more operations can be performed on a single workbench.

From turning and boring to drilling, threading, and making keyways, everything is possible without a change of tools. The turret holds all the necessary tooling at once, so you can easily go from one process to the next.

Coupling CNC with fewer manual tasks, and producing almost identical machined parts in batches is a strong point of this type of lathe.

Swiss-type lathe

Swiss lathes operate with incredibly small tolerances at shorter cycle times than conventional lathes, making them an attractive option for manufacturing complex parts at larger volumes.

Swiss machines have a moving headstock, allowing the workpiece to be repositioned along the z-axis as it undergoes the machining process. In other words, to cut lengthwise along the part, the tools will move in and the material itself will move back and forth along the z-axis. This allows all the work to be done on the material near the guide bushing where it is more rigid, eliminating deflection and vibration.

Multispindle lathe

The multispindle lathe has more than a single spindle. The additional capacity is especially suitable for high-volume production.

Setting up the machine requires quite a lot of time, so the combination of this and the high cost of the machine itself needs high-volume production to pay it off. When applying this, they can create similar parts with high precision, low cycle times and very little manual work aside from the initial setup.

So large-batch manufacturing can considerably lower the cost of CNC machining.

CNC lathe

Although some of the aforementioned types also accommodate a CNC system, the CNC lathe deserves a separate mention.

CNC refers to computer numerical control, which takes care of operating the machine to some extent. This depends on the specific machinery, as they can be fully or semi-automatic.

Semi-automatic CNC lathes need a little more work from the machine operator whereas fully automatic centres are able to do everything from mounting the workpieces to changing the tools.

The highly accurate CNC machines are the best the contemporary industry has to offer. Digitising the whole process from the creation of CAD to a fully finished part is possible. Also, the enclosures significantly reduce the risk during machining, as the workers are not really exposed to any moving components, controlling anything necessary from a computer screen.

East Valley Precision – Custom Machinery Specialists

East Valley Precision offers custom CNC Turning in the Chandler, Arizona and surrounding areas. When you need precision CNC turning and milling contact East Valley Precision. Call us at 480-288-6601 for more information or use our form for a quote.

CNC Lathe, CNC Turning, Machine Shop, Wood Lathe
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Difference between a CNC Machine and a Lathe Machine
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Written by webtechs

Difference between a CNC Machine and a Lathe Machine

CNC Machine vs. Lathe Machine: Key Differences

Both CNC machines and lathe machines are used for metal and wood cutting, but they have key differences in operation, automation, and capabilities.

1. CNC Machine (Computer Numerical Control Machine)

🔹 Fully automated machining controlled by computer programs.
🔹 Can perform multiple functions (cutting, drilling, milling, engraving, etc.).
🔹 Works on 3-axis, 4-axis, or even 5-axis for complex designs.
🔹 Used in mass production and high-precision industries.

Pros:
✔ High precision and repeatability.
✔ Can produce complex shapes with minimal manual labor.
✔ Works on various materials (metal, plastic, wood).
✔ Faster production with automated programming (G-code).

Cons:
❌ Expensive compared to manual machines.
❌ Requires skilled operators to program and troubleshoot.

💲 Cost Range: $10,000 – $500,000+ (depending on complexity).

2. Lathe Machine (Manual or CNC)

🔹 Primarily used for turning and shaping cylindrical objects.
🔹 Rotates the workpiece while a cutting tool removes material.
🔹 Common for shafts, rods, and symmetrical components.
🔹 Can be manual (operated by hand) or CNC-controlled.

Pros:
✔ Best for cylindrical or round parts.
✔ Easier to operate compared to CNC milling machines.
✔ Lower cost than full CNC machines.

Cons:
Limited to turning operations (doesn’t handle complex shapes like CNC mills).
❌ Manual lathes require skilled labor for precision work.

💲 Cost Range:

  • Manual Lathe: $1,000 – $10,000
  • CNC Lathe: $20,000 – $100,000+

Key Differences

Feature CNC Machine Lathe Machine
Control Computer-controlled Manually operated or CNC-controlled
Operations Cutting, milling, drilling, engraving, etc. Mainly turning (cylindrical shaping)
Precision Very high Moderate (manual), High (CNC lathe)
Production Best for mass production Best for custom or low-volume work
Cost More expensive Less expensive

Which One Should You Choose?

Need high precision & automation?CNC Machine
Working on cylindrical parts?Lathe Machine
Mass production & complex shapes?CNC Machine
Small workshop or custom metalworking?Lathe Machine

East Valley Precision – Custom Machinery Specialists

East Valley Precision offers custom CNC Turning in the Chandler, Arizona and surrounding areas. When you need precision CNC turning and milling contact East Valley Precision. Call us at 480-288-6601 for more information or use our form for a quote.

CNC Lathe, Machine Shop, Machining
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Difference between a CNC Machine and a Lathe Machine
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Written by webtechs

What is а CNC Lathe?

A CNC lathe is a complex machine device intended for precision Computer Numerical Control manufacturing and turning by way of CNC.

It’s a personification of technological development, merging the age-old principles of a lathe machine with state-of-the-art computer programming to reach unparalleled efficiency and accuracy in machining.

The CNC lathe machine device has changed how materials are handled, making it an essential tool in various sectors and many machine shops across the world. Its capability to perform complex shaping and cutting with unbelievable precision makes it a foundation in current manufacturing processes. Whether it’s wood, metal, or plastic, the CNC lathe’s adaptability in handling various materials is unparalleled.

How Does a CNC Lathe Machine Work?

Getting into the inner workings of a CNC lathe uncovers a balance of computerized control and precision engineering. Different from a manual lathe, where the handiwork lies mainly in the hands of its operator, a CNC lathe incorporates computerized technology to improve precision and proficiency. Below is an in-depth look at its process:

Design Phase: To begin with, you, the operator, creates a meticulous design utilizing CAD (Computer-Aided Design) software. This design comprises of all specifications for the desired piece, from shapes to dimensions.

Programming: Your CAD design is then converted into G-code, the programming language that the CNC machine understands. This code gives instructions to the CNC lathe on how to move, shape, and create the piece.

Setup: After that, you configure the CNC lathe. This involves choosing and installing the proper cutting tools and fastening the workpiece onto the machine.

Machining Process: The CNC lathe, activated by the G-code, starts the machining process. The workpiece is spun at high speed while the cutting tool is moved across two or more axis to shape the piece.

Quality Inspected: During the process, the CNC lathe oversees the cutting environments and makes real-time modifications to guarantee precision. The final piece is inspected against the original specifications for preciseness.

What are the differences between horizontal and vertical CNC lathes?

The main differences between horizontal and vertical CNC lathes consists in their position and the applications they’re most appropriate for.

Horizontal CNC Lathes:

  • Positioning: The spindle in this type of lathe is arranged horizontally, with the workpiece mounted vertically to the axis.
  • Processes: Mainly used for longer, cylindrical workpieces.
  • Pros: Easier chip withdrawal because of gravity, typically better for heavier and larger pieces.
  • Limitations: Might not be suitable for parts with intricate geometries.

Vertical CNC Lathes:

  • Positioning: The spindle is oriented vertically, with the workpiece connected to a horizontal chuck.
  • Processes: Perfect for heavy, large-diameter, short workpieces.
  • Pros: Gravity aids in securing the workpiece, decreasing the need for substantial clamping. Provides better access to the workpiece for certain operations.
  • Limitations: Not as productive for long, slender workpieces where gravity can affect accuracy.

East Valley Precision – Custom Machinery Specialists

East Valley Precision offers custom CNC Turning in the Chandler, Arizona and surrounding areas. When you need precision CNC turning and milling contact East Valley Precision. Call us at 480-288-6601 for more information or use our form for a quote.

CNC Lathe, Machine Shop, Machining
0