Repeat positioning accuracy 0.01mm;

System minimum command increment 0.0001mm

Rapid moving speed: 5000mm/min

XYZ axis travel 220/120/200mm

A axis rotation 360 degrees, harmonic deceleration

Worktable size 400*140

Worktable T-slot size/number/spacing 12/3/24

Dividing head maximum speed 50RPM

Dividing head maximum manual clamping outer diameter 60mm/pneumatic clamping custom size

Top and tail stock travel 50mm

Dividing head The dividing head can realize linkage processing with XYZ axis

Reduction ratio 100:1

Spindle center to column distance 180mm

Spindle taper ER25

Drilling diameter 13mm

Surface milling diameter 60mm

Spindle speed 6000 rpm

Spindle power 1.1KW

Electronic handwheel configuration 4-axis three-speed electronic handwheel

Safety protection level with machine tool safety door protection device, built-in LED lighting

XYZ axis guide precision linear guide

Workpiece cooling air cooling

CNC system industrial-grade CNC system

Total power 3KW

Power supply AC220V/50Hz

Net weight 238kg

Dimensions 1050*906*1070mm

Applicable industries

CNC teaching in vocational schools, technology production in innovation laboratories of colleges and universities, maker centers, CNC teaching training, etc.

Standard Accessories

Optional Accessories

• How often should I perform maintenance on my machine?
  1.To perform preventive maintenance on CNC machine
  The frequency of preventive maintenance on CNC machine depends on several factors such as:
  - The type and model of the CNC machine
  - The usage and workload of the CNC machine
  - The environment and conditions of the CNC machine
  As a general rule of thumb, you should perform preventive maintenance on your CNC machine at least once a year or every 2,000 hours of operation, whichever comes first. However, this may vary depending on the specific needs and requirements of your CNC machine. For example, some Xendoll bigger CNC machines may need more frequent maintenance if they are used for heavy-duty or high-precision applications, or if they are exposed to dust, moisture, heat, vibration, etc.
  To determine the optimal preventive maintenance schedule for your CNC machine, you should consult the user manual or contact the manufacturer or service provider. You should also keep a record of the maintenance history and performance data of your CNC machine to monitor its condition and identify any potential issues or trends.
  
  2. To corrective maintenance on CNC machine?
  
  The frequency of corrective maintenance on CNC machine depends on the occurrence and severity of problems or defects that affect the CNC machine operation. Unlike preventive maintenance, corrective maintenance is not planned or scheduled in advance but rather triggered by an event or symptom that indicates a malfunction or failure.
  
  Some common signs that your CNC machine needs corrective maintenance are:
  - Unusual noises or vibrations
  - Decreased speed or accuracy
  - Increased scrap rate or rework
  - Error messages or alarms
  - Visual damage or wear
  
  If you notice any of these signs on your CNC machine, you should stop using it immediately and perform corrective maintenance as soon as possible. You should also follow the troubleshooting steps provided in the user manual or contact the manufacturer or service provider for assistance. You should not attempt to fix the problem yourself unless you are qualified and authorized to do so.
  
  How can I perform preventive and corrective maintenance on CNC machine?
  
  To perform preventive and corrective maintenance on your CNC machine effectively and safely, you should follow these steps:
  
  1. Prepare the necessary tools and equipment such as wrenches, screwdrivers, cleaning supplies, lubricants, spare parts, etc.
  2. Turn off and disconnect the power supply of the CNC machine
  3. Follow the instructions and procedures given in the user manual or by the manufacturer or service provider
  4. Wear appropriate personal protective equipment such as gloves, goggles, ear plugs, etc.
  5. Use caution and care when handling the CNC machine components
  6. Dispose of any waste or hazardous materials properly
  7. Reconnect and turn on the power supply of the CNC machine
  8. Test and verify the functionality and performance of the CNC machine
  
• What are some best practices for keeping CNC machine in good condition?
  CNC machines are widely used in various industries for their precision, efficiency and versatility. However, like any other equipment, they require proper maintenance and care to ensure their optimal performance and longevity. we will share some best practices for keeping CNC machine in good condition.
  
  1. Follow the Xendoll's instructions. Every CNC machine comes with a manual that provides detailed information on its specifications, features, functions and safety precautions. It is important to read and follow the manual carefully to avoid any damage or injury caused by improper operation or handling. The manual also contains recommended maintenance schedules and procedures that should be followed regularly.
  
  2. Clean the machine regularly. Dust, dirt, chips and coolant can accumulate on the machine's surfaces and components over time, affecting its accuracy and functionality. To prevent this, it is advisable to clean the machine daily or after each use with a soft cloth, compressed air or a vacuum cleaner. Make sure to remove any debris from the spindle, chuck, tool holders, collets and other parts that come in contact with the workpiece or the cutting tool. Also, wipe off any excess oil or grease from the machine's exterior.
  
  3. Lubricate the machine properly. Lubrication is essential for reducing friction and wear between the machine's moving parts, such as bearings, slides, ball screws and gears. It also helps to prevent rust and corrosion. Therefore, it is important to lubricate the machine regularly with the appropriate type and amount of oil or grease as specified by the manufacturer. Check the oil level and quality frequently and replace it if necessary.
  
  4. Inspect the machine periodically. Even with regular cleaning and lubrication, some parts of the machine may wear out or break down over time due to normal use or external factors. To detect and prevent any potential problems, it is advisable to inspect the machine periodically for any signs of damage, wear or malfunction. Some common things to check are:
  
  - The alignment and calibration of the machine's axes and spindle
  - The condition and sharpness of the cutting tools
  - The condition and tension of the belts, chains and cables
  - The condition and operation of the electrical components, such as switches, sensors, fuses and wires
  - The condition and operation of the hydraulic and pneumatic components, such as valves, cylinders and hoses
  
  If you find any issues during the inspection, you should replace worn or damaged parts as soon as possible. CNC machines have many parts that are subject to wear and tear over time, such as belts, filters, fuses, switches, brushes, seals, and springs. Worn or damaged parts can affect the performance and safety of the machine and lead to costly repairs or breakdowns. Inspect the machine regularly for any signs of wear or damage and replace any faulty parts with genuine spare parts from the manufacturer or a reputable supplier.
  
  5. Train your operators properly. One of the most important factors for keeping CNC machine in good condition is the skill and knowledge of its operators. A well-trained operator can operate the machine safely and efficiently, avoiding any mistakes or accidents that may damage the machine or cause injuries. Therefore, it is essential to provide adequate training and education to your operators on how to use the machine correctly and how to perform basic maintenance tasks.
  
  6. Follow safety precautions when operating the machine. CNC machines can pose various hazards to operators and bystanders, such as electric shock, fire, explosion, noise, vibration, flying debris, and moving parts. To prevent accidents and injuries, follow safety precautions when operating the machine, such as wearing protective equipment, following instructions and warnings, keeping a safe distance from the machine, turning off the power when not in use or when servicing the machine, and reporting any problems or malfunctions to a supervisor or a technician.
  
  By following these best practices, you can ensure that your CNC machine will serve you well for a long time.
  
• What software is compatible with my Xendoll CNC machine?
  Xendoll CNC machine uses industrial numerical control system; unless customized by customers, it will not use PC base type control software (such as Mach3, LinuxCNC, Grbl or Compucut control systems), but Xendoll CNC machine can run ISO generated by popular CAM software in the market G code (such as MasterCAM, UG, Fusion360, Powermill etc.,)
• How do I update the software or firmware of my Xendoll CNC machine?
  Xendoll will update the firmware of the CNC controller from time to time, but if it affects the use, it is recommended that you do not need to update; if you need to update, please contact Xendoll's customer service for assistance.
• What is the difference between CAD and CAM software?
  CAD (Computer-Aided Design) and CAM (Computer-Aided Manufacturing) are two types of software that are widely used in engineering, design, and manufacturing industries. They have some similarities and differences that are important to understand before choosing the best option for your project.
  
  CAD software is used to create and modify digital models of physical objects, such as buildings, vehicles, products, or parts. CAD software allows you to design your object in 2D or 3D, using various tools and features to create realistic and accurate representations. You can also perform simulations, analysis, and testing on your CAD model to optimize its performance and functionality.
  CAM software is used to control and automate the production process of physical objects, such as machining, cutting, drilling, or printing. CAM software takes the CAD model as an input and generates a set of instructions or code that tells the machine how to make the object. CAM software can also monitor and adjust the machine's parameters, such as speed, feed rate, or temperature, to ensure quality and efficiency.
  
  The main difference between CAD and CAM software is that CAD software focuses on the design aspect of the object, while CAM software focuses on the manufacturing aspect of the object. CAD software is more suitable for creating and modifying complex and detailed models, while CAM software is more suitable for producing and optimizing simple and repetitive models. However, some software packages can integrate both CAD and CAM functions, allowing you to design and produce your object in one platform.
  
  CAD and CAM software are both essential tools for modern engineering, design, and manufacturing industries. They can help you save time, money, and resources by streamlining your workflow and improving your product quality. Depending on your project's needs and goals, you can choose the best software option for you or use a combination of both.