Model for fanuc robot

Types of models for FANUC robots

A model for FANUC robot, which is part of the industrial robotic arms family, usually comes in different types. These kinds are generally designed for specific applications and cater to different industry needs. The following table provides a summary of the key types of FANUC robot models.

• FANUC M-1iA: This is a parallel-link-type robot with six degrees of freedom. The FANUC M-1iA is usually used for picking, assembly, and handling operations that require high-speed processing. The M-1iA can also work in a compact space. This is facilitated by the ability of the robot to handle and work on small products and parts with precision.
• FANUC M-2iA: The FANUC M-2iA is similar to the M-1iA model, but it has a higher payload capacity. The M-2iA robot is also parallel-link-type and is designed for high-speed assembly and picking applications. The FANUC M-2iA can work with heavier parts and offers greater flexibility in production lines.
• FANUC LR Mate: This is a compact, multi-purpose robot with six degrees of freedom. The robot is designed to handle small parts and works with high precision. The FANUC LR Mate robot can be used in various applications, including material handling, assembly, and machine tending. It can also be integrated into small and medium-sized production lines.
• FANUC M-10 Series: This is a family of industrial robots that includes the FANUC M-10iA and the FANUC M-10iB. The robots are six-axis robots designed for various industrial applications. The FANUC M-10 Series offers high-speed and precise movement, making them suitable for tasks such as material handling, assembly, and machine tending.
• FANUC M-20 Series: The FANUC M-20 Series, which includes the FANUC M-20iA and the FANUC M-20iB, is a parallel-link robot. The robot is designed to work in a variety of industries, including automotive and electronics. The FANUC M-20 Series robot offers high-speed and high-precision performance, making it suitable for tasks such as material handling, assembly, and packaging.
• FANUC M-410 Series: The FANUC M-410 Series consists of robots such as the FANUC M-410iB and M-410iC. These are palletizing robots designed for high-speed and high-volume palletizing and de-palletizing applications. The FANUC M-410 Series offers flexibility and efficiency in the packaging, warehousing, and logistics industries.

Specification and maintenance of models for Fanuc robots

The specifications of the Fanuc robot models are as follows:

• Payload capacity

It is important to note that the payload capacity can vary depending on the specific model.

• Reach

Like the payload capacity, the reach of the robot can vary. A reach of 717mm (or 1.12m) is a common specification for the model used in the welding industry.

• Number of axes

Model M-20iA is a 6-axis robot.

• Repeatability

Fanuc robots are known for their high precision and repeatability in different industries. Repeatability is the ability of the robot to return to the same position or follow the same path with a very high degree of accuracy. It is usually expressed as a value in millimeters or inches. For example, the repeatability of the M-20iA model is 0.08 mm.

The robot's payload capacity, reach, and repeatability are important specifications to consider when selecting the right Fanuc robot model for a specific application.

Proper maintenance of the robot model is critical for its longevity and optimum performance. Here are some basic maintenance tips:

• Regular inspection: Conduct routine checks of all parts of the robot, paying close attention to the joints, cables, gears, and sensors. This can help identify potential issues early.
• Robot calibration: Regular calibration of the robot's control system ensures it is operating accurately within the set parameters.
• Cable management: Ensure the cables are properly routed and protected to prevent damage or strain during operation. Regularly check for signs of wear or damage and address them promptly.
• Lubrication: If applicable, the joints and moving parts of the robot should be lubricated according to the manufacturer's specifications to ensure smooth operation and reduce wear.
• Cleaning: Dust and debris can accumulate on the robot over time and cause damage. Therefore, periodic cleaning of the robot is required to maintain it. When cleaning, use only the recommended cleaning agents and methods.
• Safety precautions: When performing maintenance on the robot, always follow safety protocols and consider the safety of the maintenance personnel.

By following these maintenance tips, the Fanuc robot will continue to perform effectively and safely in the industry.

Scenarios of the model for FANUC robot

The versatility and precision of FANUC robots have made them popular in various industries, and the model for FANUC robots is no exception.

• Automotive Industry

Robots play a crucial role in the automotive industry. They are mainly used for welding, painting, and assembly. In the automotive assembly line, model robots are responsible for loading and unloading materials, assembling components, and performing quality checks. Their high-speed performance and accuracy help to improve production efficiency and product quality.

• Electronics Industry

In the electronics industry, FANUC robots can perform tasks such as soldering, assembly, and quality inspection of electronic components with high precision. Their ability to work consistently and precisely makes them ideal for mass production of electronic products.

• Food and Beverage Industry

In the food and beverage industry, FANUC robots can be used to package, palletize, and sort food and beverages. Their flexibility enables them to adapt to different types of products and packaging. They can also comply with food safety standards and hygiene requirements.

• Pharmaceutical Industry

In the pharmaceutical industry, FANUC robots can be used for precision tasks such as dispensing, labeling, and packaging of drugs. Their high degree of accuracy helps to ensure the consistency of medication and meet stringent regulatory requirements.

• E-commerce Fulfillment Centers

In e-commerce order fulfillment centers, FANUC robots can be used for order picking, sorting, and packaging. They can collaborate with warehouse management systems and conveyors to achieve high-efficiency automation of order processing. Their reliability and scalability help e-commerce companies meet the demands of rapid order fulfillment.

How to choose models for Fanuc robots

When choosing a model for a Fanuc robot, it is important to consider the application requirements. Several factors influence the choice of robot model, including the robot's reach, payload capacity, repeatability, operating speed, and maximum number of axes. It is advisable to access the specific requirements of the task that the robot will perform.

For example, if the application calls for a robot to handle heavy parts, it is important to opt for a robot with an appropriate payload capacity. Additionally, it is important to choose a robot with the right reach for the task at hand. This is crucial in ensuring that the robot can access all required work areas and positions.

When choosing a robot model, it is also important to consider the robot's repeatability. Repeatability is the ability of a robot to return to the same position with the same accuracy. For tasks that require high precision, it is important to opt for a robot with the necessary repeatability. In addition, it is important to choose a robot with the right operating speed. This is crucial in ensuring that the robot can complete tasks within the required time frames.

Furthermore, it is important to consider the maximum number of axes supported by the robot. When choosing a robot, it is important to opt for a robot with the necessary number of axes for the application. For example, tasks that require complex motion and flexibility may require a robot with more axes. Finally, it is important to choose a robot model with the necessary software and control options for the application. Different robot models offer various software options for programming and controlling the robot. It is important to choose a robot model with the software and control options that meet the application needs.

Q&A

Q1: What is the difference between a new and used robot model for FANUC?

A1: The most significant difference between new and used FANUC robots is their price. New robots are more expensive, but they come with a warranty and are more efficient. Used robots are more affordable, but they come with wear and tear. Used robots may also lack some of the latest features and technologies.

Q2: How long does a FANUC robot last?

A2: The lifespan of a FANUC robot depends on the model, usage, maintenance, and environmental conditions. With proper care, a FANUC robot can last up to 10 years for continuous operation. Some may even last more than 10 years with occasional servicing and maintenance.

Q3: What are the common problems with a FANUC robot?

A3: The most common problems with FANUC robots include software errors, communication errors, axis faults, and battery alarms. Many of these problems can be resolved through troubleshooting, repair, or replacement of the defective parts.