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Industrial Equipment Components Equipment

We possess multiple imported five-axis, four-axis, and three-axis machining centers, as well as CNC engraving machines, equipped with high-precision inspection instruments such as coordinate measuring machines, 2.5D projectors, and metal analyzers. Whether it's craftsmanship, precision, or quality, we can provide highly cost-effective solutions.

Industries：Kanou Precision has been deeply involved in the precision parts and components of industrial equipment for 20 years. We supply parts and components processing for Ticket machines, automatic cash registers, vending machines, self-service ordering kiosks, ticket dispensers, security gates, security machines, financial equipment (ATMs, currency counting machines, etc.), 3D printers, and Bitcoin mining machines. Our offerings include transmission parts, connectors, bearings, circuit protection components, control components, power components, hydraulic and pneumatic components, and seals. We support custom processing of a variety of industrial equipment parts in small batches.

①: Strictly adhere to the ISO9001 and ISO13485 quality management systems to ensure the compatibility, reliability, and precision of industrial equipment parts and related components.

②: Our machining precision can achieve a leading industry standard of ±0.005mm tolerance, especially excelling in fine parts for high-end industrial equipment, ensuring the precise fit of each component.

Precision components and assembly technology: We cater to the customized, small-batch, and diverse needs of non-standard components, serving mid to high-end clients globally.

Materials suitable for industrial equipment component applications:

Stainless Steel:

The most commonly used material for machined parts in automated industrial equipment, known for its strong corrosion resistance and easy-to-clean surface. It is suitable for high-frequency contact scenarios such as industrial equipment housings and coin slots in vending machines, offering long-term resistance to humid environments and daily wear. For small industrial equipment metal frames, stainless steel can meet both structural strength and rust prevention requirements. Its excellent performance and affordable price have made it widely popular among industrial users.

Aluminum:

Notable for its lightweight properties, aluminum is suitable for components that require frequent operation, such as ticket machine housings and moving parts, helping to reduce the overall weight of the equipment. Aluminum alloy is often used in industrial equipment heat dissipation modules due to its excellent thermal conductivity, which helps control temperature.

Steel:

Known for its high load-bearing capacity and cost advantages, steel is commonly used in load-bearing structures such as industrial equipment bases and conveyor belt brackets in security inspection machines. Surface coating treatments can enhance its rust resistance, making it suitable for scenarios requiring high strength and durability.

Engineering Plastics:

Outstanding for their insulation properties and design flexibility, engineering plastics, especially flame-retardant and anti-static types, are widely used in cash register buttons and inspection equipment housings. They are lightweight and durable.

Tungsten Steel:

Its ultra-hard and wear-resistant properties are irreplaceable. Tungsten steel is often used in extremely wear-resistant parts such as industrial equipment cutting tools, gears, and high-precision inspection instrument probes. Although the cost is higher, it significantly extends the lifespan of precision components.

Ceramics:

Exceptional for their high-temperature resistance and chemical inertness, ceramics are commonly used in corrosive environments. However, due to their brittleness, they require anti-vibration structural design to fully leverage their performance advantages.

金属设备

Dimensional tolerance:

The dimensional tolerance of the rotating shaft parts for industrial equipment can reach 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 customize and process parts industrial equipment for you！

Industrial Equipment Structural Components

Supporting Components
Includes frames, bases, and other structural elements that stabilize and secure the entire equipment. Frames are typically made of high-strength steel or cast iron, providing sufficient rigidity and load-bearing capacity to withstand operational forces and moments.

Critical Components
Directly execute production tasks, such as cutting tools in machine tools, end-effectors in industrial robots, or printing cylinders in presses. The precision and performance of these components directly impact product quality and production efficiency.

Motion Components
Comprise sliders, guide rails, lead screws, and other parts enabling linear or rotational movement of working components. Sliders and guide rails work in tandem to ensure precision and smooth motion, while lead screws convert rotational motion into linear displacement for accurate positioning.

Transmission Systems
Transfer power from the energy source to working components. Common types include:

· Gear drives: Offer precise speed ratios and high power transmission.

· Belt/chain drives: Provide smooth operation with vibration damping.

· Hydraulic/pneumatic systems: Deliver high force/torque transmission and enable automated control.

Control Units

Serve as the core of automation, such as Programmable Logic Controllers (PLCs) or industrial computers. These units monitor and regulate equipment operations based on predefined programs, ensuring automated and efficient workflows.

Sensors
Detect critical operational parameters (e.g., temperature, pressure, position, speed) and convert them into electrical signals for real-time feedback to control units. Common sensors include temperature sensors, pressure transducers, displacement sensors, and encoders.

This modular architecture ensures industrial equipment delivers reliability, precision, and adaptability across diverse manufacturing applications.

1Tips for industrial equipment components processing.

Material Selection

Select materials based on the operational requirements and performance characteristics of the components. Consider material properties such as strength, hardness, toughness, and corrosion resistance, while ensuring good machinability. Conduct strict inspections on procured materials, including verification of material certifications, dimensional specifications, and surface quality, to guarantee compliance with design requirements.

Process Planning

Develop optimized machining process routes according to the component's structural features, precision demands, and production volume. Define machining methods, equipment, fixtures, and cutting parameters for each operation. For critical processes, perform validations and optimizations to ensure consistent quality.

Tooling Selection

Choose appropriate cutting tools based on material properties and process requirements. Ensure cutting edges are sharp and free from wear or damage. Install tools correctly to maintain precision, with radial runout and axial movement within allowable tolerances, thereby achieving target machining accuracy and surface finish.

Process Monitoring

Implement real-time monitoring during machining. Observe cutting stability and check for abnormal noises or vibrations. Track equipment operational parameters (e.g., current, voltage, temperature) and halt operations immediately if irregularities arise to prevent defects or equipment failures.

Quality Inspection
Perform comprehensive inspections on finished components using calibrated tools (e.g., gauges, CMMs) to verify compliance with drawings and specifications. Identify and segregate non-conforming products, followed by root cause analysis and corrective actions such as rework or scrap.

Surface Treatment
Apply necessary surface treatments (e.g., quenching, tempering, electroplating, spray coating) to enhance corrosion resistance, wear resistance, hardness, or aesthetics. Strictly control treatment parameters (e.g., temperature, duration) to ensure desired outcomes.

This structured approach ensures precision manufacturing, quality consistency, and component durability for industrial equipment applications.

Let Kanou Precision provide you with precision mechanical parts from now on!

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