China Good quality Factory-Direct P Class Linear Guide Rail

Product Description

ZCF BRIEF INTRODUCTION:                                                                                       
ZCF PRECISION TECHNOLOGY(HangZhou) CO.,LTD. IS A PROFESSIONAL MANUFACTURER OFLINEARXIHU (WEST LAKE) DIS.,LINEAR MODULE AND BALL SCREW ETC.SHE IS LOCATED IN HangZhou CITY,ZheJiang ,CHINA.THE NEW FACTORY COVERS 33333 SQUARE CHINAMFG AND HOLDS A BUILDING AREA OF 16000 SQUARE CHINAMFG AT PRESENT. WITH OVER 10 YEARS’ EFFORT OF OUR WHOLE TEAM. AND ALSO TRUST AND SUPPORT FROM OUR RESPECTED CUSTOMERS. WE ARE SO LUCKY TO BECOME ONE STRONG BRAND IN CHINA, WHO MAKE INTERNATIONAL STHangZhouRD PRODUCTS.WE AIM SERVE CUSTOMERS WORLDWIDELY.

PRODUCTS PHOTOS:

CH SERIES BODY STRUCTURE:
 

1.ROLLING CYCLE SYSTEM: SLIDER, XIHU (WEST LAKE) DIS. RAIL, END COVER, STEEL BALL, BALL HOLDER;

2.LUBRICATION SYSTEM: OIL NOZZLE AND TUBING JOINT

3.DUST-PROOF SYSTEM: OIL SCRAPER, NEGATIVE DUST SEAL DUST-PROOF SHEET, XIHU (WEST LAKE) DIS. RAIL BOLT COVER, METAL SCRAPER

 

ACCURACY LEVEL
 

1. THE ACCURACY OF CH SERIES LINEAR XIHU (WEST LAKE) DIS.S CAN BE DIVIDED INTO FIVE LEVELS: COMMON, HIGH, PRECISION, SUPER-PRECISION AND ULTRA-PRECISION. CUSTOMERS CAN CHOOSE THE ACCURACY LEVEL ACCORDING TO THE ACCURACY REQUIREMENT OF EQUIPMENT.
 

2.  ACCURACY OF NON-INTERCHANGEABLE LINEAR XIHU (WEST LAKE) DIS.:

MODEL CH – 15, 20          unit : mm
ACCURACY LEVEL COMMON HIGH PRECISION HIGH-PRECISION ULTRA-PRECISION
(C) (H) (P) (SP) (UP)
TOLERANCE OF H ± 0.1 ± 0.03 0- 0.03 0- 0.015 0- 0.008
TOLERANCE OF N ± 0.1 ± 0.03 0- 0.03 0- 0.015 0- 0.008
TOLERANCE OF MUTUAL H 0.02 0.01 0.006 0.004 0.003
TOLERANCE OF MUTUAL N 0.02 0.01 0.006 0.004 0.003
MOTION PARALLELISM OF C ON A MOTION ACURACY
MOTION PARALLELISM OF D ON B MOTION ACURACY

 

MODEL CH – 25,30,35        unit : mm
ACCURACY LEVEL COMMON HIGH PRECISION HIGH-PRECISION ULTRA-PRECISION
(C) (H) (P) (SP) (UP)
TOLERANCE OF H ± 0.1 ± 0.04 0- 0.04 0- 0.02 0- 0.01
TOLERANCE OF N ± 0.1 ± 0.04 0- 0.04 0- 0.02 0- 0.01
TOLERANCE OF MUTUAL H 0.02 0.015 0.007 0.005 0.003
TOLERANCE OF MUTUAL N 0.03 0.015 0.007 0.005 0.003
MOTION PARALLELISM OF C ON A MOTION ACURACY
MOTION PARALLELISM OF D ON B MOTION ACURACY

 

MODEL CH – 45,55          unit : mm
ACCURACY LEVEL COMMON HIGH PRECISION HIGH-PRECISION ULTRA-PRECISION
  (C) (H) (P) (SP) (UP)
TOLERANCE OF H ± 0.1 ± 0.05 0- 0.05 0- 0.03 0- 0.02
TOLERANCE OF N ± 0.1 ± 0.05 0- 0.05 0- 0.03 0- 0.02
TOLERANCE OF MUTUAL H 0.03 0.015 0.007 0.005 0.003
TOLERANCE OF MUTUAL N 0.03 0.02 0.01 0.007 0.005
MOTION PARALLELISM OF C ON A MOTION ACURACY
MOTION PARALLELISM OF D ON B MOTION ACURACY

3. MOTION ACCURACY CHART

RAIL LENGTH (mm) ACCURACY LEVEL (µm)
C H P SP UP
~ 100 12 7 3 2 2
100 ~ 200 14 9 4 2 2
200 ~ 300 15 10 5 3 2
300 ~ 500 17 12 6 3 2
500 ~ 700 20 13 7 4 2
700 ~ 900 22 15 8 5 3
900 ~ 1,100 24 16 9 6 3
1,100 ~ 1,500 26 18 11 7 4
1,500 ~ 1,900 28 20 13 8 4
1,900 ~ 2,500 31 22 15 10 5
2,500 ~ 3,100 33 25 18 11 6
3,100 ~ 3,600 36 27 20 14 7
3,600 ~ 4,000 37 28 21 15 7

SELECTION CRITERIA

1. PRODUCT APPLICATIONS:

1). CH SERIES: GRINDING MACHINE, MILLING MACHINE, LATHE, DRILLING MACHINE, INTEGRATED PROCESSING MACHINE, EDM MACHINE, BORING MACHINE, WIRE CUTTING MACHINE, PRECISION

2). CE SERIES: INDUSTRIAL AUTOMATION MACHINERY, SEMICONDUCTOR MACHINERY, LASER ENGRAVING MACHINE, PACKAGING MACHINE;

3). CGN/CGW SERIES: PRINTER, MACHINE ARM, ELECTRONIC INSTRUMENT AND SEMICONDUCTOR EQUIPMENT.

 

2. SELECTION OF ACCURACY LEVEL:

C, H, P, SP, UP LEVELS DEPEND ON EQUIPMENT ACCURACY REQUIREMENTS.
 

3. SELECTION OF SIZE:

1). ACCORDING TO EXPERIENCE;

2). LOAD STATUS;

3). IF LINEAR XIHU (WEST LAKE) DIS.WAY IS USED IN CONJUNCTION WITH BALL SCREW, SELECT SIMILAR SIZE AS EXTERNAL DIAMETER OF THE SCREW. IF THE EXTERNAL DIAMETER OF THE SCREW IS 35 MM, SELECT CH35.

 

4. CALCULATING THE MAXIMUM LOAD OF SLIDER:

1). CALCULATING THE MAXIMUM EQUIVALENT LOAD OF A SINGLE SLIDER WITH REFERENCE TO THE LOAD CALCULATION TABLE

2). CONFIRMATION THAT THE STATIC SAFETY FACTOR OF THE SELECTED STRAIGHT-LINE XIHU (WEST LAKE) DIS. SHOULD EXCEED THE VALUE LISTED IN THE TABLE OF STATIC SAFETY FACTOR

LUBRICATION:

IF THE LINEAR XIHU (WEST LAKE) DIS. IS NOT PROPERLY LUBRICATED, THE FRICTION OF ROLLING PARTS WILL INCREASE, AND LONG-TERM USE WILL BECOME THE MAIN REASON FOR SHORTENING THE LIFE. LUBRICANTS PROVIDE THE FOLLOWING FUNCTIONS:

(1). REDUCE FRICTION OF ROLLING PARTS, PREVENT BURNS AND REDUCE WEAR;

(2). FORMING OIL FILM BETWEEN ROLLING SURFACE AND ROLLING SURFACE CAN PROLONG ROLLING FATIGUE LIFE;

(3). PREVENTING RUST.

 

1. GREASE LUBRICATION:

EACH GROUP OF LINEAR XIHU (WEST LAKE) DIS.WAYS CAN BE SEALED WITH LITHIUM SOAP-BASED GREASE TO LUBRICATE THE BEAD GROOVE TRACK BEFORE LEAVING THE FACTORY. ALTHOUGH THE GREASE IS NOT EASY TO LOSE, IN ORDER TO AVOID INSUFFICIENT LUBRICATION CAUSED BY LUBRICATION LOSS, IT IS SUGGESTED THAT CUSTOMERS SHOULD SUPPLEMENT THE GREASE ONCE MORE WHEN THE DISTANCE REACHES 100 KM. AT THIS TIME, GREASE CAN BE INJECTED INTO THE SLIDER BY MEANS OF THE OIL NOZZLE ATTACHED TO THE SLIDER. LUBRICATING GREASE IS SUITABLE FOR SITUATIONS WHERE THE SPEED IS NOT MORE THAN 60 M/MIN AND THE COOLING EFFECT IS NOT REQUIRED.
T : OIL INJECTION FREQUENCY (hour);  Ve : SPEED (m/min)
 

2. OIL (OIL) LUBRICATION:

IT IS RECOMMENDED THAT CUSTOMERS USE LUBRICATING OIL WITH A CONSISTENCY OF ABOUT 32-150 CHINAMFG TO LUBRICATE LINEAR XIHU (WEST LAKE) DIS.S. CHINAMFG CAN INSTALL THE TUBING JOINT AT THE ORIGINAL POSITION OF THE OIL DISCHARGE NOZZLE ACCORDING TO THE CUSTOMER’S NEEDS, SO THE CUSTOMER ONLY NEEDS TO CONNECT THE PRESET TUBING OF THE MACHINE TO THE TUBING JOINT. THE LOSS OF LUBRICATING OIL IS FASTER THAN THAT OF LUBRICATING GREASE. WHEN USING, ATTENTION MUST BE PAID TO THE ADEQUACY OF OIL SUPPLY. IF INSUFFICIENT LUBRICATION EASILY CAUSES ABNORMAL WEAR OF LINEAR XIHU (WEST LAKE) DIS.S AND REDUCES THEIR SERVICE LIFE, IT IS SUGGESTED THAT THE FREQUENCY OF LUBRICATING OIL SHOULD BE ABOUT 0.3CM3/HR. CUSTOMERS CAN USE IT ACCORDING TO THEIR USE CONDITIONS. LUBRICATING OIL IS SUITABLE FOR VARIOUS LOADS AND SPEEDS, BUT IT IS NOT SUITABLE FOR HIGH TEMPERATURE LUBRICATION BECAUSE OF ITS VOLATILITY.

DUST-PROOF DEVICE(OPTIONS)
 

1. DUST-PROOF DEVICE CODE:

IF YOU NEED THE FOLLOWING DUST-PROOF EQUIPMENT, PLEASE ADD THE CODE AFTER THE PRODUCT MODEL.

INSTALLATION OF LINEAR XIHU (WEST LAKE) DIS.WAY

THE INSTALLATION METHOD OF LINEAR XIHU (WEST LAKE) DIS. MUST BE SET ACCORDING TO THE OPERATING CONDITION OF THE MACHINE, SUCH AS THE DEGREE OF VIBRATION AND IMPACT FORCE, THE REQUIRED WALKING ACCURACY AND THE LIMITATION OF THE MACHINE.WHEN PAIRING NON-INTERCHANGEABLE LINEAR XIHU (WEST LAKE) DIS.S, ATTENTION SHOULD BE PAID TO THE DIFFERENCE BETWEEN THE REFERENCE RAIL AND THE DRIVEN RAIL. THE ACCURACY OF THE DATUM LEVEL ON THE SIDE OF THE DATUM RAIL IS HIGHER THAN THAT OF THE DRIVEN RAIL, SO IT CAN BE USED AS THE SUPPORTING SURFACE FOR THE BED INSTALLATION. THE REFERENCE RAIL IS MARKED WITH MA, AS SHOWN IN THE FIGURE.

 

1. FIXING METHODS

WHEN THE BED IS SUBJECTED TO VIBRATION AND IMPACT FORCE, THE XIHU (WEST LAKE) DIS. RAIL AND SLIDER MAY DEVIATE FROM THE ORIGINAL FIXED POSITION AND AFFECT THE ACCURACY. IN ORDER TO AVOID SIMILAR SITUATION, IT IS SUGGESTED TO USE THE FOUR FIXED WAYS LISTED BELOW TO FIX THE XIHU (WEST LAKE) DIS. RAIL AND SLIDER TO ENSURE THE ACCURACY OF THE MACHINE.

 

2. INSTALLATION OF LINEAR RAIL:

 

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Application: Machines
Material: S55c
Structure: Machine Table
Installation: All
Driven Type: N/a
Carrying Capacity: Weight Level
Samples:
US$ 100/Meter
1 Meter(Min.Order)

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Customization:
Available

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linear rail

What is the role of linear rail materials and coatings in performance and longevity?

The materials and coatings used in the construction of linear rails play a crucial role in determining their performance and longevity. Here’s an overview of their significance:

Materials:

  • High-Strength Alloys: Linear rails are often constructed using high-strength alloys, such as hardened steel or aluminum. These materials provide the necessary strength and rigidity to withstand the stresses of continuous linear motion, ensuring stability and preventing deformation under load.
  • Corrosion-Resistant Materials: In environments where corrosion is a concern, linear rails may be made from corrosion-resistant materials or coated with anti-corrosive substances. Stainless steel or specialized alloys with corrosion-resistant properties enhance the longevity of the rails, particularly in industrial settings with exposure to moisture or harsh chemicals.
  • Self-Lubricating Materials: Some linear rails incorporate self-lubricating materials, such as polymers with embedded solid lubricants. These materials reduce friction between the rail and carriage, improving efficiency and minimizing wear. Self-lubricating properties contribute to smoother linear motion and extend the lifespan of the rail system.

Coatings:

  • Anti-Friction Coatings: Coatings with anti-friction properties, such as Teflon or other low-friction materials, are applied to reduce friction between the rail and carriage. Anti-friction coatings enhance the efficiency of the linear rail system by minimizing heat generation and wear, resulting in smoother and more reliable linear motion.
  • Corrosion-Resistant Coatings: Linear rails used in corrosive environments may be coated with protective layers to resist corrosion. These coatings act as a barrier, preventing exposure to corrosive elements and preserving the structural integrity of the rail over time.
  • Hard Coatings: Hard coatings, such as nitriding or various forms of surface hardening, are applied to increase the hardness and wear resistance of the rail’s surface. This protects against abrasion and extends the lifespan of the rail, especially in high-load applications.
  • Dry Film Lubricants: Some coatings incorporate dry film lubricants that provide long-lasting lubrication to the rail and carriage interface. These coatings reduce friction, enhance performance, and contribute to the overall reliability of the linear rail system.

The careful selection of materials and coatings is essential for tailoring linear rails to specific application needs. By considering factors such as environmental conditions, load requirements, and desired performance characteristics, engineers can choose the most appropriate combination to optimize the performance and longevity of the linear rail system.

linear rail

How do linear rails contribute to smooth and precise linear movement in industrial applications?

Linear rails play a crucial role in achieving smooth and precise linear movement in various industrial applications. The key contributions include:

  • Guidance: The specially designed profile of linear rails provides guidance for the movement of the carriage along a straight path. This guidance minimizes deviations and ensures that the motion is precise and controlled.
  • Reduced Friction: Linear rails are engineered to minimize friction between the rail and the carriage. This low-friction design allows for smooth motion, reducing wear on components and enhancing the overall efficiency of the system.
  • High Load Capacity: Linear rails are designed to support high loads while maintaining their structural integrity. This makes them suitable for industrial applications where heavy loads need to be moved with precision, such as in CNC machining or material handling systems.
  • Rigidity: Linear rails contribute to the rigidity of the motion system, preventing deflection or flexing during operation. This rigidity is essential for maintaining accuracy, especially in applications where precision is critical, such as in manufacturing processes.
  • Accuracy and Repeatability: The combination of guidance, low friction, and rigidity ensures that linear rails provide accurate and repeatable linear movement. This is vital in industrial applications where consistent and precise motion is required for tasks like machining, assembly, and quality control.

Whether used in CNC machines, robotic systems, or material handling equipment, the characteristics of linear rails contribute to the overall performance of industrial applications. Their ability to deliver smooth, precise, and repeatable linear movement makes them integral components in enhancing the efficiency and reliability of industrial machinery and automation systems.

linear rail

What industries and machinery commonly use linear rails for precise linear movement?

Linear rails find widespread use in various industries and machinery where precise linear movement is crucial. Some common applications include:

  • Manufacturing Machinery: Linear rails are integral components in CNC machines, milling machines, lathes, and other manufacturing equipment. They ensure accurate and repeatable motion for precise machining processes.
  • Robotics: Linear rails play a key role in robotic systems, providing the necessary guidance and precision for the movement of robot arms and other robotic components.
  • Automation Systems: Industries employing automated systems, such as conveyor systems and pick-and-place machines, often utilize linear rails to achieve precise linear movement in the automation process.
  • 3D Printing: Linear rails contribute to the accuracy and stability of 3D printers by facilitating the precise movement of print heads and build platforms.
  • Medical Devices: Linear rails are used in medical equipment such as imaging devices, diagnostic instruments, and robotic-assisted surgery systems, where precise linear motion is critical.
  • Aerospace: The aerospace industry employs linear rails in various applications, including aircraft manufacturing and testing equipment, to ensure precision in movement and positioning.
  • Semiconductor Manufacturing: Linear rails are used in semiconductor manufacturing equipment for precise movement in processes such as wafer handling and inspection.

These examples demonstrate the versatility of linear rails across different industries, highlighting their importance in applications that demand accurate and reliable linear motion.

China Good quality Factory-Direct P Class Linear Guide Rail  China Good quality Factory-Direct P Class Linear Guide Rail
editor by CX 2024-01-16