No.20, Hongfeng Rd, Chongtou, ChangAn Town Dongguan, China
Robot Parts Machining and Assembly
We have many imported 5-axis, 4-axis and 3-axis machining centers as well as CNC precision engraving machines, and are equipped with 3-dimensional, 2.5-dimensional projectors, metal analyzers and other high-precision inspection instruments, no matter from the craftsmanship, precision or quality, we can provide very cost-effective solutions.
KANOU Precision has been deeply engaged in robot precision parts and assemblies for many years, providing parts and assemblies for articulated robots, coordinate robots, transportation robots, and humanoid robots in the fields of industrial manufacturing, medical industry, logistics and warehousing, aerospace and so on, including housings, structural parts, gears, fasteners, rotating shaft parts, base parts and other parts and assemblies, and supporting the customized processing of multiple varieties of robotic parts in small quantities.
① : Strict implementation of ISO9001, ISO13485 quality management system to ensure the adaptability, reliability and precision of robot parts and its related components.
② : Machining precision can achieve industry-leading ±0.005mm, especially good at fine parts on high-end robots, to ensure the precise fit of each component.
KANOU Precision has an industrial-grade material supply chain system and a complete material supply chain traceability information management system to ensure reliable quality, safety and stability of parts, and to safeguard safe product application and customer rights and interests.
Which materials are suitable for robotic part applications?
Titanium metal:
Biocompatible material for articulated robots, medical surgical robots. Lightweight, strong, 3D printable, corrosion resistant.
Stainless steel materials:
steel: ideal material for medical-surgical robots, bio-robots. Stainless steel can be highly polished and is therefore resistant to contamination and easy to sterilize.
Nylon and ABS (polyurethane):
Commonly used for robot electronics protection housings, robot spindle housings, very affordable and universally applicable.
TPE and Silicone:
Seals and fittings for customized assemblies. It fits snugly into robotic component assemblies and is chemically resistant.
| Dimensional tolerance: Robot spindle part size tolerance can be φ40 (+0.03/+0.01) Shape tolerance: The positional accuracy of the hole is 0.02mm Positional degree tolerance: Positional degree tolerance is 0.01mm. |
From now on, let Kanou Precision supply you with Robot Parts and Assembly!
What are the components of the robot structure?
1. Arm structure: The arm structure of an industrial robot is similar to a human arm, which is used to carry and manipulate objects. It usually consists of multiple joints which can rotate and telescope. The arm structure can be designed according to different tasks. The length of the arm, the degrees of freedom of the joints and the load capacity can be adjusted according to the actual needs.
2. Base structure: The base structure is the supporting part of the industrial robot, which carries the weight of the whole robot and the workload, and provides the rotational capacity of the robot. The base usually consists of a motor and reducer, through the control of the rotation of the motor to achieve the overall rotation of the robot.
3. Joint structure: The joint structure is the part of the industrial robot arm where the joints are connected, and it has the ability to rotate and turn. The joint structure usually consists of motor, reducer and encoder, etc. The motor provides power, the reducer provides rotation and rotation accuracy, and the encoder is used to feed back parameters such as position and speed.
4. Handhold structure: The handhold structure is the end device of the robot arm, used for gripping and manipulating objects. The gripper usually consists of gripper jaws, suction cups, welding torches, etc., which can be selected and assembled according to different tasks and working environments.
5. Support structure: The support structure is the frame and supporting part of the robot, which provides the stability and strength of the robot. The support structure is usually made of aluminum alloy, carbon fiber and other materials, which are lightweight, rigid and durable.
What are the considerations for robotic parts machining?
High precision requirements: infusion pumps have very high precision requirements. The dimensions, surface finish, and assembly accuracy of the parts need to meet strict requirements to ensure the safe and stable completion of precise medical procedures, which must be equipped with advanced processing technology and equipment, as well as experienced engineers and technicians.
Material Selection: Infusion pump parts need to have excellent chemical properties and mechanical strength so that they will not be affected when subjected to repeated disinfection over a long period of time. In addition, in the parts that come into contact with human tissues, they need to be made of biocompatible materials with sufficient strength.
Complexity and geometry: A large portion of infusion pump parts have complex shapes, such as curved surfaces, shaped shapes, and curvatures, which are usually machined with 5-axis equipment and require a high level of machining.