System emco cnc lathe for sale

Types of CNC lathe systems

A CNC lathe works by clamping a workpiece in place and rotating it against a fixed cutting tool to remove material and shape the object. There are many types of CNC lathe systems available that manufacturers can choose from. They can also opt for CAD-CAM integrated CNC lathes that combine computer-aided design and manufacturing capabilities.

• Traditional CNC lathe: A traditional CNC lathe has an axis system with a single spindle. It can, therefore, perform simpler tasks like drilling, tapping, and boring of wood, metal, plastic, and other materials. The cutting tools used by a standard CNC lathe are usually fixed but can also be automatic and selective.
• Multi-function CNC lathes: Multi-function CNC lathes with a double or multi-spindle axis allow for simultaneous or selective transmission and processing of several workpieces. Advanced models can include up to 12 spindles, along with automatic tool change systems and intelligent control capabilities. Such CNC lathe machines can perform a number of tasks, including but not limited to, drilling, tapping, milling, boring, threading, etc.
• Integrated CAD-CAM CNC lathe: An integrated CAD-CAM CNC lathe employs a microcomputer to control its functions. This computer controls the entire work-process sequence, including its tools and movements, the object at hand, and the work required to change its design and shape. An integrated CAD-CAM CNC tool may have single or double shafts and employ a design-focused cutting method, making them suitable for customized and small-to-medium mass production. Turret lathes and Swiss-type lathes fall under this category.
• Standard automatic CNC lathe: A standard automatic CNC lathe usually comes with a fixed or programmable control system. It has a designated cycle time and efficiency, making it ideal for mass-production of simpler designs and objects.
• Advanced automatic CNC lathe: An advanced automatic CNC lathe comes with a more complex operating system that allows the programming of various types of work with different materials, designs, and shapes. It has an intelligent control system that can be connected to remote cloud systems for updates and upgrades.

Specifications and maintenance of system EMCO CNC lathe for sale

Specifications

Some general specifications of EMCO CNC lathes for sale are as follows.

• EMCO Basic 320: The machine's overall dimensions are 1180*445*530m, and its weight is 145kg. The spindle speed can reach up to 6,000rpm. Its spindle bore can reach 35mm, and its feed rate can reach 0.1-5mm/rev. Moreover, the machine is suitable for 230V/50Hz/1Ph.
• EMCO CM8/10: The machine's overall dimensions are 1,238x571x1,012mm, with a weight of 330kg. The working range is as follows: Bearing diameter: 1-80mm, Feeds: 0.30-12 mm/rev. The drive system is a three-phase synchronous motor with an external rotor. EMCOTEC controls the transmission and spindle speed. Spindle speeds reach 6000 RPM. The voltage is 400V/50Hz.
• EMCO Turn/ Mill 120: The overall dimensions of this machine are 2400*1800*1700mm, with a weight of 1500kg. The spindle has a simple bore of up to 61mm with spindle speeds reaching 4000rpm. Besides, the machine has a linear axis X of 120mm and Z of 250mm. The EMCO CNC machine's driving system is a three-phase synchronous motor with an external rotor. Control by Siemens Sinumerik 840D is one of its emcotech features. The voltage suits 400V~3N/60Hz.
• EMCO FabCenter 500/1000: CNC lathes for sale can be fully automated and consist of a variety of modules. The machine's overall dimensions can be fabricated upon request, and the weight is about 3,000kg. The working range, spindle speed(with 6,000 RPM max.), spindle bore, and other specifications are customizable.

Maintenance tips

• Regular lubrication: The lathe should be regularly lubricated to ensure smooth operation. Lubricate the sliding parts, guide rails, and screw parts of the lathe with suitable lubricants. Regularly refuel the oil system and ensure it has enough oil.
• Cleaning: The lathe should be kept clean and tidied to remove chips and dust in time. Clean the guide rails, workbench, and clamping tools, and apply a proper rust-inhibiting agent to the lathe to prevent rust.
• Check the tightness: Regularly check the tightness of the lathe's various parts to ensure that there is no looseness. Pay particular attention to the tightness of the clamping tools and the workpieces to ensure accuracy and stability.
• Pay attention to cooling: The tool posts and workpieces on the lathe should be adequately cooled to prevent overheating. Choose suitable coolant or cutting oil, and make sure the cooling system is working well.
• Regular inspection and adjustment: Regularly inspect and adjust the key parts of the lathe, such as the guide rails, lead screws, clutch, and brake, to ensure the accuracy and sensitivity of the operation.
• Dust-proof and moisture-proof: Pay attention to dust-proof and moisture-proof the lathe. Use dust covers and moisture-proof materials as needed to protect the electrical parts and precision components on the lathe from dust and moisture damage.

Applications of Emco CNC Lathe Systems

Teaching toolmaking and machining concepts and techniques in a variety of vocational, secondary, and post-secondary education environments is one important use of these machines. The systems can also be used in the Emco model of CNC lathes and other related machines to demonstrate to students an interactive and effective means of teaching the necessary knowledge and skills for entering the workforce.

In addition to their educational value, the Emco CNC lathes can also be valuable additions to specialized training programs that focus on teaching individuals about the specifics of CNC technology, as well as its control system, programming capabilities, and various machining functions. Such programs may include but are not limited to those offered by manufacturers of these lathes or other industry-related organizations.

Beyond just the education and training industry applications mentioned above, these Emco machines—and similar ones made by other manufacturers—can also be helpful and valuable in several other fields, industries, and areas of work where they may be applied or used for a variety of practical purposes.

Some of these include the following:

• Small Part Precision Machining: The Emco CNC lathe machine can help to make small, intricate parts used in the medical industry for the manufacturing and healthcare markets. Because they often require high levels of precision and accuracy when being created, any one or more of the machine models mentioned above is very well-suited to producing such components as stents, valves, and surgical instruments, to name a few, which may be made from metal.
• Margin Sector: EMCO CNC lathes are valuable assets for machining margin sectors in many countries. They can efficiently handle tasks such as turning, threading, drilling, and milling, which are essential for processing margin regions. The accuracy and automation of EMCO CNC lathes contribute to high-quality machining results in margin sectors, enhancing productivity and precision.
• Aerospace Industry: The aerospace industry has a need for complex and highly-technical parts and components like brackets, housings, and turbine blades, which require a high degree of precision machining.
• Automotive Industry: The automotive industry also makes use of EMCO CNC lathes to help create automotive parts and components with high levels of precision, including but not limited to transmission parts, engine components, and axle parts.
• Watch and Jewelry Manufacturing: These machines are ideal for working on and fashioning tiny and intricate watch components and jewelry pieces, such as watch cases or bracelet links, from the hard-to-work-with material of metal and other precious materials.
• Optics Industry: The optics industry benefits from the efficiency and precision of CNC lathes for shaping optical elements like lenses and mirrors, as well as optical housing and tubes. EMCO CNC lathes are suitable for machining optical components, ensuring accurate machining results for optical devices.
• Die and Mold Making: The die and mold industry can utilize EMCO CNC lathes for CNC machining molds and dies used for casting and injection purposes. CNC lathes offer the necessary precision and control to shape complex shapes and contours of the molds and dies.

As shown above, the areas of possible application for an EMCO CNC lathe (or one by any other manufacturer) are quite numerous—both to help with teaching those who will one day work with such devices as well as in a whole host of other industries where such a machine is essential.

How to choose the EMCO CNC lathe system

While selecting an Emco CNC lathe or any other CNC lathe for sale, one should consider multiple factors that can help in deciding the right machine for one's needs.

• Nature of Operation:

  The first and foremost thing one should consider is the function and nature of the task that needs to be performed. Before investing in a CNC machine, one should properly analyze their requirements to determine the type of metal or material that will be used for the job. Whether it's a small-scale production of complex parts or a high-volume manufacturing requirement for simple components, one's needs will differ according to the work one does. This should include the type of the required lathe as well, such as - a bar feeder or a standard CNC lathe machine, etc.

• Quality of Finished Product:

  The type of machine one chooses to invest in should also match the quality of the end product required by one's business. Some simple CNC machines can achieve a precision of +/-0.01, which is suitable for less demanding tasks. However, more stringent industries may need more precise machines with a tolerance of +/-0.001. Therefore, it is important to consider the quality required and choose the one that matches it so there are no complications later on.

• Ideal size and weight capacity:

  Another area one should think of when choosing an appropriate CNC machine is its dimensions. The ideal weight and size capacity of the machine will have a direct effect on its productivity. Therefore, it is important to choose a size and weight capacity that matches the task at hand. This is especially important when it comes to the maximum diameter and length of the workpiece one needs to handle to perform individual tasks.

• Budget:

  Finally, one should consider the financial implications of investing in a particular CNC lathe machine. It is important to know that the price of the machine may vary depending on its features and specifications. Therefore, to not go overboard when spending, one should determine their budget before purchasing a new CNC device. This will also help in prioritizing the requirements and features one needs in the device and choosing the ideal one that fulfills the needs while staying within budget.

System Emco CNC lathe for sale Q&A

Q1: What materials are suitable for the CNC lathe cutting system?

A1: An Emco CNC machine can cut various materials, including plastic, wood, metal (aluminum, copper, alloy steel, stainless steel, etc.), and composite materials.

Q2: Can one program the Emco CNC lathe without dedicated software?

A2: Programming a CNC lathe requires specific software to translate the design into a language the machine can understand. While some simple machines might allow for manual programming, it's not typical for complex CNC lathes.

Q3: Are there any safety precautions to consider when using the Emco CNC lathe?

A3: Yes, always wear safety glasses and ensure the workpiece is secure. Never leave the machine running unattended, and familiarize yourself with the emergency shut-off procedures.