Types of HSR Series Linear Guideways
The HSR series linear guideway is a high-precision linear motion system widely used in industrial automation, CNC machinery, robotics, and precision equipment. These guideways offer smooth, accurate, and reliable linear movement with excellent load capacity, rigidity, and durability. Designed with advanced engineering and precision-ground components, HSR series guideways ensure consistent performance under demanding conditions.
Available in various sizes, each model in the HSR series is engineered to meet specific load, space, and performance requirements. Below is a detailed breakdown of the most common HSR linear guideway types and their applications.
HSR15
Compact & High-Precision
With a narrow 15mm rail width, the HSR15 is ideal for space-constrained applications requiring high accuracy. Its compact design does not compromise on performance—featuring a specialized roller cage and self-adjusting rollers that maintain consistent contact under variable loads.
Advantages
- Ultra-compact design for tight spaces
- High precision and smooth motion
- Self-adjusting rollers for even wear
- Ideal for delicate and precision tasks
Limitations
- Lower load capacity than larger models
- Best suited for light-duty applications
Best for: 3D printers, medical devices, electronics assembly, small CNC machines
HSR20
Balanced Performance & Versatility
The 20mm rail width of the HSR20 strikes an optimal balance between load capacity and compactness. It features a four-way contact design, allowing it to handle radial, axial, and moment loads from all directions, making it highly stable even in off-axis or tilted configurations.
Advantages
- Four-way load capacity
- High rigidity and stability
- Low noise operation
- Suitable for mid-range industrial loads
Limitations
- Not ideal for very heavy loads
- Slightly larger footprint than HSR15
Best for: Assembly machines, packaging equipment, light to medium automation systems
HSR25
High Load in Compact Form
The HSR25 offers enhanced load capacity with a 25mm rail, making it suitable for a broad range of industrial applications. Its optimized ball bearing system ensures smooth, precise motion with minimal friction, improving machine efficiency and longevity.
Advantages
- Excellent load-to-size ratio
- Precise and smooth linear motion
- Durable construction for long service life
- Widely compatible with automation systems
Limitations
- Not designed for extreme heavy loads
- Requires proper alignment for optimal performance
Best for: CNC routers, industrial automation, material handling systems
HSR30
High-Performance Medium Duty
With a 30mm rail, the HSR30 is engineered for high-load and high-precision environments. It delivers seamless motion with reduced friction and enhanced wear resistance, contributing to increased machine uptime and reliability in demanding operations.
Advantages
- High load and moment capacity
- Low friction and high durability
- Excellent for high-speed applications
- Robust design for industrial use
Limitations
- Larger size requires more installation space
- Higher cost than smaller models
Best for: Machine tools, industrial robotics, automated manufacturing lines
HSR35
Heavy-Duty & High Accuracy
The HSR35 is one of the most robust models in the series, featuring a 35mm rail designed for heavy loads and high rigidity. Its innovative raceway design minimizes friction while maximizing load distribution, ensuring smooth, accurate motion even under intense operating conditions.
Advantages
- Superior load and rigidity performance
- Excellent accuracy and repeatability
- Long service life under heavy use
- Adaptable to harsh environments
Limitations
- Largest footprint in the series
- Premium pricing due to performance
Best for: Heavy machine tools, large-scale automation, precision tracking systems
| Model | Rail Width | Load Capacity | Precision | Typical Applications |
|---|---|---|---|---|
| HSR15 | 15 mm | Light | Very High | 3D printers, medical devices, electronics |
| HSR20 | 20 mm | Medium | High | Assembly lines, packaging, automation |
| HSR25 | 25 mm | Medium-High | High | CNC machines, material handling |
| HSR30 | 30 mm | High | Very High | Machine tools, robotics, manufacturing |
| HSR35 | 35 mm | Very High | Very High | Heavy-duty machinery, precision systems |
Expert Tip: For optimal performance and longevity, ensure proper alignment and lubrication during installation. Misalignment can significantly reduce the lifespan of any HSR series guideway, especially in high-load or high-speed applications.
Industry Applications of HSR Series Linear Guideway
The HSR series linear guideway is a high-performance linear motion solution engineered for precision, durability, and smooth operation across a wide range of industrial applications. Leveraging advanced ball-bearing technology, these guideways offer low friction, exceptional load capacity, and long service life—making them indispensable in modern automation and high-accuracy machinery. Below is a detailed overview of key industries where the HSR series plays a critical role.
CNC Machinery
Linear guideways are integral to the core operating system of Computerized Numerical Control (CNC) machines, providing the structural foundation for precise tool and workpiece movement. The HSR series excels in this environment due to its high rigidity, minimal friction, and micron-level accuracy, enabling consistent performance during high-speed machining operations.
These guideways are widely used in CNC lathes, milling machines, and routers, where they support rapid traversing and tight tolerances required for shaping metals, plastics, and composite materials. Their ability to maintain accuracy under continuous load and vibration ensures superior surface finishes and reduced tool wear, directly contributing to improved productivity and part quality.
Robotics and Automation
In robotics and automated production systems, precise linear motion is essential for tasks such as pick-and-place operations, component assembly, sorting, and material handling. The HSR series provides smooth, backlash-free linear guidance that enhances repeatability and system uptime.
With a high dynamic load capacity, these guideways are ideal for supporting heavy-duty industrial robots used in automotive manufacturing, electronics assembly, and welding cells. Their compact design and ease of integration make them suitable for multi-axis robotic arms and gantry systems, where reliability and precision are paramount for maintaining production efficiency and minimizing maintenance downtime.
Medical Equipment
The medical industry demands equipment that operates with extreme precision, minimal noise, and high reliability—especially in diagnostic and surgical applications. The HSR series linear guideway meets these stringent requirements, offering smooth, vibration-free motion ideal for sensitive environments.
These guideways are commonly found in MRI and CT scanning machines, where they enable accurate positioning of imaging components without interference. They are also used in robotic surgery systems and laboratory automation devices such as liquid handlers and sample analyzers, where nanometer-level positioning and quiet operation are crucial for patient safety and data integrity.
Packaging Industry
In high-speed packaging operations, consistent and reliable linear motion is essential for maintaining throughput and product quality. The HSR series guideways are widely adopted in filling machines, labeling systems, carton erectors, and sealing units due to their ability to deliver synchronized, wear-resistant motion under repetitive cycling.
Thanks to their low coefficient of friction and durable construction, these components reduce energy consumption and maintenance needs while ensuring long-term operational stability. This makes them particularly well-suited for fast-paced environments where packaging lines run continuously with minimal downtime.
Semiconductor Manufacturing
Semiconductor fabrication requires ultra-precision machinery capable of handling delicate wafers and performing micron-level alignments during photolithography, etching, and inspection processes. The HSR series linear guideway delivers the accuracy, stability, and clean operation necessary for such sensitive applications.
Integrated into wafer handling robots, exposure equipment, and metrology instruments, these guideways ensure precise positioning and minimal particle generation—critical factors in contamination-controlled cleanroom environments. Their high repeatability and resistance to thermal deformation further enhance process consistency and yield rates in semiconductor production lines.
Additional Applications
Beyond the core industries mentioned, the HSR series is also utilized in:
- Laser Cutting & Engraving: For precise beam positioning and table movement.
- 3D Printing & Additive Manufacturing: To ensure accurate layer deposition and print head control.
- Textile Machinery: In automated looms and fabric handling systems requiring smooth linear motion.
- Aerospace & Defense: For testing rigs, simulation platforms, and precision alignment systems.
The versatility of the HSR series makes it a preferred choice for any application demanding high-speed, high-load, and high-accuracy linear motion.
| Industry | Key Requirements | HSR Series Benefits |
|---|---|---|
| CNC Machinery | High speed, precision, rigidity | Low friction, high load capacity, long travel accuracy |
| Robotics & Automation | Smooth motion, repeatability, durability | Backlash-free operation, high dynamic load rating, easy integration |
| Medical Equipment | Quiet operation, precision, reliability | Vibration-free movement, clean design, consistent performance |
| Packaging Industry | High cycle rates, wear resistance, efficiency | Long service life, low maintenance, energy-efficient motion |
| Semiconductor Manufacturing | Ultra-fine precision, cleanliness, stability | Nanometer-level repeatability, low particle emission, thermal stability |
Important: When selecting an HSR series linear guideway for a specific application, consider factors such as load type (radial, lateral, moment), speed requirements, environmental conditions (dust, temperature, humidity), and mounting orientation. Proper installation and regular lubrication are essential to maximize performance and extend service life. Always consult manufacturer specifications and application engineers to ensure optimal component selection and system integration.
HSR Series Linear Guideway: Comprehensive Specifications and Features
The HSR series linear guideway is a high-performance linear motion solution engineered for precision, durability, and reliability across industrial and automation applications. Designed with advanced engineering principles, these guideways deliver consistent performance under demanding operational conditions. Below is a detailed breakdown of their technical specifications and key features to help engineers, designers, and procurement professionals make informed decisions.
Rail Dimensions & Sizing
The HSR series offers a scalable range of rail widths to accommodate various load and space requirements. Models such as HSR15, HSR20, HSR25, HSR30, and HSR35 correspond to nominal rail widths from 15mm to 35mm, allowing system integrators to select the optimal size based on application needs.
- Available in multiple standard lengths, enabling customization without requiring special fabrication
- Modular design supports extension and integration into larger motion systems
- Compact profile ideal for space-constrained environments like robotics and precision instruments
Design Tip: Match rail width to expected load and moment forces—larger models (HSR30/35) are recommended for heavy-duty machining applications.
Block Design & Load Handling
Each carriage block in the HSR series features an optimized roller cage mechanism that ensures uniform load distribution and minimizes metal-to-metal contact, enhancing both efficiency and longevity.
- Four-directional load capacity enables support of radial, reverse radial, and lateral (side) loads
- Preloaded roller arrangement eliminates clearance, improving rigidity and positional accuracy
- Engineered for high dynamic and static load ratings, suitable for repetitive and high-force operations
Technical Insight: The symmetrical roller layout ensures balanced performance regardless of mounting orientation (horizontal, vertical, or inverted).
Material & Surface Treatment
Constructed from high-grade carbon chromium bearing steel (SUJ2 or equivalent), the HSR series rails are built to resist deformation and surface degradation over extended use.
- Rail surfaces undergo induction hardening (HRC 58–62) followed by precision grinding for dimensional accuracy
- High surface finish (Ra ≤ 0.4μm) reduces friction and wear, contributing to smooth motion and long service life
- Enhanced toughness prevents chipping or cracking under impact or shock loading
Quality Assurance: Materials meet international standards (e.g., JIS, ASTM) and are tested for hardness, microstructure, and fatigue resistance.
Accuracy & Precision Classes
The HSR series is available in multiple accuracy grades to suit different application requirements, from general automation to ultra-precision manufacturing.
- P0 (Normal): Suitable for standard industrial machinery with moderate precision needs
- P1 (Fine): Ideal for CNC equipment, measuring devices, and optical systems requiring tighter tolerances
- Defined by straightness, parallelism, and height consistency across the rail length
Application Note: High-precision classes reduce runout and vibration, critical in semiconductor or laser processing equipment.
Lubrication System
Designed for long-term reliability, the HSR series incorporates a maintenance-friendly lubrication system that supports both initial factory lubrication and field re-lubrication.
- Pre-greased for life with high-performance synthetic grease suitable for a wide temperature range (-10°C to +80°C)
- Equipped with grease nipples or ports for easy access during scheduled maintenance
- Sealed end caps prevent contamination while retaining lubricant within the block
Best Practice: Re-lubricate every 100–500 km of travel depending on environment and load to maximize lifespan.
Environmental Resistance
Special variants of the HSR series are engineered for harsh or hygienic environments, offering enhanced protection against corrosion and contamination.
- Stainless steel rail and block options available for food, pharmaceutical, and marine applications
- Anti-corrosion coatings (e.g., electroless nickel plating) extend service life in humid or chemically aggressive settings
- Optional wiper seals block dust, chips, and liquids from entering the rolling elements
Industry Fit: Ideal for cleanrooms, packaging lines, and outdoor automation where moisture and debris are concerns.
Key Performance Features
Durability & Load Capacity
The HSR series excels in durability thanks to its robust roller configuration and high-strength materials. It maintains performance even under continuous operation and heavy loading.
- Rollers are precision-ground and heat-treated to resist flattening and fatigue
- High load capacity allows use in machine tools, presses, and robotic arms
- Long fatigue life reduces downtime and replacement costs
Smooth & Quiet Operation
Engineered for minimal friction and vibration, the HSR series delivers exceptionally smooth motion even at high speeds.
- Low rolling resistance improves energy efficiency and reduces motor load
- Reduced heat generation prevents thermal expansion issues in precision systems
- Quiet operation benefits noise-sensitive environments like laboratories and offices
Versatility Across Applications
From compact 3D printers to large-scale industrial CNC machines, the HSR series adapts seamlessly to diverse mechanical systems.
- Light-duty models (HSR15–20) used in automation, pick-and-place units, and medical devices
- Heavy-duty models (HSR25–35) integrated into milling machines, lathes, and gantry systems
- Interchangeable blocks allow flexible system design and retrofitting
Easy Installation & Alignment
The HSR series is designed for straightforward integration into existing or new machinery.
- Pre-drilled mounting holes ensure accurate and repeatable installation
- Reference edges on rails simplify alignment during assembly
- Standardized dimensions comply with global interchangeability standards
Engineering Recommendation: For optimal system performance, pair HSR guideways with compatible linear actuators and controllers. Consider preloading options for applications requiring zero backlash and high rigidity. In environments with particulate contamination, add bellows or scrapers to protect the rail surface and extend maintenance intervals.
| Model | Rail Width (mm) | Accuracy Class | Max Dynamic Load (N) | Material | Common Applications |
|---|---|---|---|---|---|
| HSR15 | 15 | P0, P1 | 12,500 | Carbon Chromium Steel | 3D Printers, Small Automation |
| HSR20 | 20 | P0, P1 | 18,200 | Carbon Chromium Steel | Medical Devices, Lab Equipment |
| HSR25 | 25 | P0, P1 | 26,800 | Carbon Chromium Steel / SS Option | CNC Routers, Packaging Machines |
| HSR30 | 30 | P0, P1 | 37,500 | Carbon Chromium Steel | Machining Centers, Robotics |
| HSR35 | 35 | P0, P1 | 48,300 | Carbon Chromium Steel | Heavy-Duty Machine Tools, Industrial Presses |
Additional Considerations for System Integration
- Preload Selection: Choose appropriate preload (light, medium, heavy) based on required rigidity and smoothness
- Thermal Expansion: Account for material expansion in long travel systems; consider expansion joints or mounting adjustments
- Sealing Options: Use contact seals or magnetic shields in dirty environments to prevent particle ingress
- Mounting Surface Flatness: Ensure mounting base is machined to within 0.03mm per 100mm for optimal alignment
- Compatibility: Verify compatibility with drive systems (ball screws, belts, linear motors) for seamless motion control
How to Choose the Right HSR Series Linear Guideway
Selecting the appropriate HSR series linear guideway is essential for ensuring smooth, precise, and reliable linear motion in industrial and automation applications. These recirculating ball bearing guides are widely used in CNC machines, robotics, semiconductor equipment, and automated manufacturing systems due to their high load capacity, rigidity, and durability. To make an informed decision, buyers must evaluate several key technical and operational factors.
Important Note: Choosing an undersized or improperly rated linear guideway can lead to premature wear, reduced accuracy, and system failure. Always verify specifications against your application’s actual operating conditions, including dynamic loads, environmental factors, and duty cycle.
Key Selection Criteria for HSR Linear Guideways
- Load Capacity
The HSR linear guideway must be capable of supporting both radial (vertical) and axial (horizontal or moment) loads encountered during operation. Different models within the HSR series—such as HSR15, HSR20, HSR25, and HSR30—offer varying load ratings based on rail size, carriage design, and number of load rows.
For heavy-duty applications like machining centers or large gantry systems, higher load capacity models (e.g., HSR25 and above) are recommended. Always calculate equivalent dynamic and static loads using manufacturer-provided formulas and apply appropriate safety factors (typically 1.5–2.0) to account for shock or vibration.
Refer to the manufacturer’s load tables and use life calculation tools to estimate bearing service life under your specific loading conditions.
- Accuracy and Precision Class
HSR guideways are available in multiple accuracy classes, typically ranging from standard (P0) to ultra-high precision (P1, P2). The choice depends on the required positioning accuracy of your application.
For high-precision tasks such as CNC milling, laser cutting, or optical alignment, select P1 or higher-grade guideways, which offer tighter tolerances in height, width, and running parallelism. These ensure minimal deviation during movement and enhance overall system repeatability.
In contrast, general automation, packaging, or material handling systems may perform adequately with P0-class guideways, offering a cost-effective solution without sacrificing reliability.
- Size and Mechanical Compatibility
The physical dimensions of the HSR guideway—including rail length, carriage size, mounting hole pattern, and profile height—must align with your machine’s structural design and spatial constraints.
Ensure compatibility with existing components such as actuators, motors, couplings, and structural frames. Consider whether side-by-side mounting, stacked configurations, or custom lengths are needed. Many manufacturers offer configurable rail lengths and preloaded carriages to suit specific integration needs.
Proper alignment during installation is critical; misalignment can cause uneven load distribution and accelerated wear. Use precision shims and alignment tools to achieve optimal setup.
- Friction Performance: Dynamic and Static
One of the standout features of HSR series guideways is their exceptionally low friction, enabled by precision-ground raceways and recirculating ball bearings. This results in smooth motion with minimal resistance, both at rest (static friction) and in motion (dynamic friction).
Low friction translates into reduced power consumption, less heat generation, and improved energy efficiency—especially beneficial in high-speed or continuous-duty applications. It also minimizes stick-slip effects, enhancing control in servo-driven systems.
Preload options (e.g., light, medium, or heavy) can further reduce elastic deformation and increase rigidity, making them ideal for applications requiring zero backlash and high responsiveness.
- Lubrication and Maintenance Requirements
HSR linear guideways are designed for long-term performance with factory-installed lubrication. Most models include grease nipples or lubrication holes that allow for periodic re-lubrication without disassembly.
In harsh environments (e.g., dusty, humid, or contaminated), consider sealed or shielded variants with wiper systems to prevent debris ingress. Regular maintenance—such as cleaning and scheduled grease replenishment—can significantly extend service life and maintain peak performance.
Some advanced HSR models support centralized lubrication systems, enabling automated maintenance in complex multi-axis machines. Always follow the manufacturer’s recommended lubrication intervals and compatible grease types (typically lithium-based or synthetic oils).
| Selection Factor | Considerations | Recommended Models | Application Examples |
|---|---|---|---|
| Load Capacity | Dynamic/Static load, safety factor, moment loads | HSR25/HSR30 for heavy loads; HSR15/HSR20 for light-medium | CNC machines, industrial robots, heavy conveyors |
| Accuracy Class | P0 (standard), P1 (high), P2 (ultra-high) | P1 or P2 for precision tasks; P0 for general use | Machining centers, measuring equipment, semiconductor tools |
| Size & Fit | Rail length, mounting holes, space constraints | Custom lengths available; check compatibility | Automation cells, 3D printers, linear stages |
| Friction & Preload | Low friction, preload options for rigidity | Preloaded carriages for high rigidity | High-speed pick-and-place, servo systems |
| Maintenance | Lubrication access, sealing, environment | Sealed models with grease fittings | Dusty factories, food processing, outdoor equipment |
Expert Tip: When integrating HSR guideways into new designs, consult the manufacturer’s technical datasheets and use CAD models (often available online) to verify fit and alignment. Simulation software can also help predict load distribution and service life under real-world conditions.
Additional Selection Tips
- Consider environmental conditions—choose corrosion-resistant coatings (e.g., stainless steel or anti-rust treatment) for humid or washdown environments.
- Evaluate preload requirements: higher preload increases rigidity but also friction; balance based on motion control needs.
- Check for certifications (e.g., ISO 14644 for cleanroom compatibility) if used in regulated industries.
- Use dual-rail configurations for improved stability and load distribution in long-stroke applications.
- Partner with reputable suppliers who provide technical support and warranty coverage for long-term reliability.
By carefully evaluating load, precision, size, friction, and maintenance needs, you can select the optimal HSR series linear guideway that ensures efficient, durable, and accurate linear motion performance. Making the right choice upfront reduces downtime, lowers total cost of ownership, and enhances the overall performance of your machinery.
Frequently Asked Questions About HSR Series Linear Guideways
The HSR series stands out from standard linear guideways due to its advanced roller cage design, which plays a crucial role in performance optimization. Unlike conventional ball-type guideways, the HSR series uses precision-engineered rollers that are evenly spaced within a low-friction cage. This design significantly reduces metal-to-metal contact, minimizing internal friction and preventing roller skewing during operation.
- Enhanced Load Capacity: The roller configuration allows for greater load distribution across the guideway, enabling the HSR series to handle higher radial and moment loads compared to ball-based systems.
- Smooth Motion: The optimized rolling elements ensure consistent, vibration-free linear movement, making it ideal for applications requiring high positional accuracy and quiet operation.
- Durability: By reducing wear on both the rollers and raceway surfaces, the cage system extends service life and maintains performance over extended operational cycles.
These features make the HSR series particularly suitable for precision machinery such as CNC equipment, automation systems, and semiconductor manufacturing tools.
HSR series linear guideways are constructed using high-grade carbon chromium bearing steel (commonly GCr15 or equivalent), known for its excellent hardness, fatigue resistance, and dimensional stability under stress. This material selection ensures long-term reliability in demanding industrial environments.
- Hardened Surfaces: Critical contact surfaces undergo heat treatment processes (such as induction hardening or through-hardening) to achieve a hardness range of 58–62 HRC, enhancing resistance to wear and deformation.
- Precision Grinding: After hardening, all raceways are ground to micron-level tolerances, ensuring ultra-smooth surface finishes that reduce friction and improve motion accuracy.
- Corrosion Protection: Optional surface coatings like zinc plating or black oxide treatment are available to improve resistance to moisture and corrosive agents, especially in harsh operating conditions.
- Rigidity and Stability: The material’s high elastic modulus contributes to minimal deflection under load, maintaining alignment and precision over time.
This combination of premium materials and advanced processing techniques results in a robust, high-performance linear motion solution trusted across various high-tech industries.
Precision is at the core of the HSR series design, achieved through a combination of engineering innovations that work together to deliver repeatable, high-accuracy linear motion even under variable loading conditions.
- Four-Point Contact Geometry: Each roller makes contact at four distinct points within the raceway groove, creating a balanced load distribution that resists tilting, twisting, and deflection. This configuration enhances rigidity and allows the guideway to support loads from multiple directions (radial, reverse radial, and lateral).
- Preloaded Rollers: Many HSR models include preloaded roller cages to eliminate internal clearance, minimizing play and backlash for applications requiring micron-level positioning accuracy.
- Micron-Level Tolerances: Manufactured to strict ISO or JIS standards, the guideways maintain tight dimensional control across the entire length, ensuring consistent alignment and smooth travel.
- Vibration Damping: The rolling element design and material damping characteristics help absorb minor shocks and vibrations, contributing to stable, noise-free operation.
These features make the HSR series ideal for use in precision stages, measuring instruments, robotics, and automated assembly systems where accuracy and repeatability are critical.
Yes, the HSR series is specifically engineered to perform efficiently in high-speed environments without compromising precision or longevity. The design addresses key challenges associated with rapid motion, including heat generation, vibration, and lubrication stability.
- Low Friction Coefficient: Both static and dynamic friction are minimized through precision-ground surfaces and optimized roller-to-raceway contact, reducing energy consumption and heat buildup during continuous operation.
- High-Speed Cage Design: The roller cage is made from durable engineering polymers or lightweight metals that maintain stability at elevated speeds, preventing roller collision and misalignment.
- Thermal Stability: The use of thermally stable materials and efficient heat dissipation pathways helps prevent thermal expansion that could affect alignment or accuracy.
- Dynamic Load Handling: Even at high velocities, the four-point contact system maintains consistent load support, reducing the risk of premature wear or failure.
Typical applications include high-speed pick-and-place robots, rapid prototyping machines, and automated packaging lines where fast cycle times and reliable motion are essential.
The HSR series is designed for minimal maintenance, combining durable construction with smart lubrication features to maximize uptime and reduce lifecycle costs.
- Lifetime Lubrication Option: Many models come pre-lubricated with high-performance grease sealed inside the roller block, offering extended maintenance intervals or even "lubrication-free" operation in clean environments.
- Grease Fittings (Zerk Points): For applications requiring periodic re-lubrication, integrated grease nipples allow easy access for manual or automatic lubrication systems, ensuring consistent oil film coverage without disassembly.
- Sealed End Caps: Effective sealing mechanisms prevent contamination from dust, chips, and moisture while retaining lubricant, especially important in industrial or outdoor settings.
- Condition Monitoring Compatibility: Some advanced versions support integration with predictive maintenance systems that monitor friction levels or lubrication status to schedule servicing only when needed.
With proper installation and periodic inspection, HSR linear guideways can operate reliably for thousands of kilometers of travel, making them a cost-effective and dependable choice for both standard and mission-critical applications.
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