Product Description
Product Description
PMI MSB30E Linear Rail 1500mm 2000mm Linear Slide Sliding Bearing Rail
Features
The trains of balls are designed to a contact angle of 45° which enables it to bear an equal load in radial, reversed radial and lateral directions. Therefore, it can be applied in any installation direction. Furthermore, MSB series can achieve a well balanced preload for increasing rigidity in 4 directions while keeping a low frictional resistance. This is especially suit to high precision and high rigidity required motion.
The patent design of lubrication route makes the lubricant evenly distribute in each circulation loop. Therefore, the optimum lubrication can be achieved in any installation direction, and this promotes the performance in running accuracy, service life, and reliability.
Characteristics
• Compact, Four-way Equal Load
• Self Alignment Capability
• Smooth Movement with Low Noise
• Interchangeability
Mode |
PMI MSB30E |
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Series | MSB-E | |||
Related models | MSB15/20/25/30/35 E/TE/LE |
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Application: | Warehouse Crane, Shipboard Crane, Goods Yard Crane, Building Crane, Workshop Crane, CNC Machine |
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Material: | Steel |
Structure: | CNC Machine |
Installation: | Automation Equipment |
Driven Type: | – |
Carrying Capacity: | Weight Level |
Samples: |
US$ 24/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
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Can you explain the role of linear rails in reducing friction and wear in linear motion applications?
Linear rails play a pivotal role in reducing friction and wear in linear motion applications through several key mechanisms:
- 1. Precision Design: Linear rails are precision-engineered with specific profiles and tolerances. The precise design minimizes contact points between the rail and the carriage, reducing friction and wear to a minimum during linear motion.
- 2. Rolling Contact: Many linear rails utilize rolling contact elements, such as recirculating ball bearings or roller bearings. These elements roll along the profiled surface of the rail, significantly reducing friction compared to sliding contact. Rolling contact also distributes the load evenly, further minimizing wear on specific points.
- 3. Low-Friction Coatings: Some linear rails feature low-friction coatings on their surfaces. These coatings, often made of materials like Teflon or similar compounds, create a smooth and slippery surface, reducing the coefficient of friction. This results in smoother linear motion and less wear on the rail and carriage components.
- 4. Lubrication: Proper lubrication is essential for reducing friction and wear in linear motion systems. Lubricants applied to the rolling elements or the rail surface create a thin film that separates the moving parts, minimizing direct contact and friction. Regular lubrication intervals are crucial for maintaining optimal performance and extending the lifespan of the linear rail system.
- 5. Sealing Mechanisms: Linear rails often incorporate sealing mechanisms to protect against contaminants. Dust, debris, and moisture can contribute to increased friction and wear. Effective sealing prevents the ingress of contaminants, preserving the integrity of the rail and reducing wear on critical components.
- 6. Material Selection: The choice of materials for both the rail and carriage components influences friction and wear. High-quality materials with good wear resistance, such as hardened steel or specialized alloys, contribute to the long-term durability of the linear rail system.
- 7. Regular Maintenance: Implementing a regular maintenance schedule is crucial for reducing friction and wear. Inspections, cleaning, and lubrication ensure that the linear rail system operates smoothly and efficiently. Identifying and addressing any signs of wear early can prevent more significant issues and extend the overall lifespan of the system.
By incorporating these design features and maintenance practices, linear rails effectively minimize friction and wear in linear motion applications. This not only enhances the efficiency and accuracy of the system but also contributes to the long-term reliability and durability of the linear rail.
Can linear rails be customized or modified for unique industrial or automation needs?
Yes, linear rails can be customized or modified to meet unique industrial or automation requirements. Customization allows engineers and manufacturers to tailor linear rail systems based on specific needs. Here are some ways in which customization can be achieved:
- Length and Size: Linear rails can be customized in terms of length and size to fit the spatial constraints of a particular application. This ensures optimal use of available space and allows for seamless integration into existing machinery.
- Load Capacity: For applications with unique load requirements, linear rails can be designed or modified to accommodate higher or lower load capacities. Custom load-bearing capabilities ensure that the linear rail system meets the demands of the specific application.
- Material Selection: The choice of materials used in the construction of linear rails can be customized to address specific environmental conditions or industry standards. Different coatings or materials may be selected for applications requiring resistance to corrosion, extreme temperatures, or harsh chemicals.
- Special Coatings: Custom coatings can be applied to linear rails to enhance their performance in specific environments. For example, anti-corrosive coatings may be added for applications in corrosive or humid settings, while low-friction coatings can improve overall efficiency.
- Integration of Accessories: Customization may involve the integration of accessories such as sensors, encoders, or additional components to meet automation or monitoring requirements. This ensures that the linear rail system aligns with the overall objectives of the industrial or automation setup.
Collaboration with manufacturers or suppliers experienced in linear motion systems is crucial when considering customization. They can provide insights, design expertise, and manufacturing capabilities to deliver a tailored solution that aligns with the unique needs and challenges of a specific industrial or automation application.
What are linear rails, and how are they used in linear motion systems?
Linear rails, also known as linear guides or linear slides, are mechanical components used in linear motion systems to facilitate smooth and precise movement along a straight path. They typically consist of a rail and a carriage. The rail is a long, rigid structure with a specially designed profile, while the carriage is mounted on the rail and holds the load to be moved.
Linear rails are widely used in various applications, including manufacturing machinery, robotics, 3D printers, and automated systems. They provide guidance and support to the moving components, minimizing friction and ensuring accurate and repeatable motion. The design of linear rails allows for high load-carrying capacity and can accommodate different types of loads, such as radial or axial loads.
Linear motion systems incorporating linear rails offer advantages such as improved precision, reduced wear and tear, and increased efficiency in comparison to traditional sliding mechanisms. The choice of linear rails depends on factors such as load capacity, speed, accuracy requirements, and environmental conditions in the specific application.
editor by Dream 2024-05-17
China high quality Factory Outlet Precision Mgn Linear Rail Block
Product Description
Product Information
Product Information | |
Product Name |
Factory Outlet Precision MGN Linear Rail Block |
Material |
Bearing steel, Gcr15, stainless steel, chrome steel |
Length |
Can be customized according to customers requirement |
Precision |
C,H,P |
Model No. |
MGN5C, MGN7C, MGN9C, MGN12C, MGN15C |
Our services |
According to drawings or samples for our customers to manufacture products. |
Product Package |
a. Plastic bag with box case or wooden case. We can provide shipping information to our customer at any time. |
Delivery time |
3~7 days for sample order, 15~20 days for bulk order. Depends on the actual shipping situation. |
Tips:
1.Price for reference only, the specific price can ask customer service.
2.Please refer to the following technical parameter chart or consult customer service for more model selection.
Product Description
Product Features
1.High-speed operation
2.Low friction and noise
3.High precision, duration, and reliability
4.Smooth movement
5.High efficiency of transferring
6.No gap and preloading
Product Description
A linear guideway allows a type of linear motion that utilizes rolling elements such as balls or rollers. By using recirculating rolling elements between the rail and the block, a linear guideway can achieve high precision linear motion. With these features, linear guide ways can greatly enhance moving accuracy, especially, when accompanied with precise ball screws. When using the linear guide, please avoid dust and foreign objects as much as possible. In general, please limit the working temperature to below 80 degrees Celsius. If the temperature exceeds this temperature, the plastic end cover of the linear slider will be damaged.
Detailed Photos
Detailed Photos
Packaging & Shipping
Company Profile
HangZhou HangZhou Industry & Trade Co., Ltd. the company integrates product development, production, sales, and application services. It specializes in the production of ball screws, linear guides, sliders, linear modules, linear shaft, and a series of high-precision, high Technology linear motion products. Many of the products have won national patents and have reached a number of international testing and certification standards.
The company is located in HangZhou, ZHangZhoug, China. It covers an area of more than 26,000 square CHINAMFG and has more than 200 employees, including more than 50 senior technicians. We adopts superb technology, sets strict corporate standards, and provides meticulous service. And a complete product quality control system has been established, equipped with high-end inspection and testing equipment such as metallographic microscopes and contour measuring instruments. From raw materials to production, processing, and inspection packaging, every step is strictly controlled to ensure product quality.
Our products are widely used in medical machinery, printing machinery, chemical machinery, woodworking machinery, machine tools, robots and other automated machinery and equipment. The company’s production technology level, product quality and service level have always been in the leading position in the same industry. Customers all over the world, and have won unanimous recognition and praise from customers.
Our company adheres to the concept of “high-quality products and efficient service”, and takes the creation of customer value as its own responsibility. We are looking CHINAMFG to cooperating with you to create a brilliant future!
After Sales Service
MORE PRODUTS
FAQ
FAQ
1. Q: Could you offer OEM service?
A: Yes, we offer OEM service.
2. What is your MOQ?
A: For standard type, no MOQ. For produce goods, we need according bearing type.
3. Q: How to control the products quality?
A: Combining advanced equipment and strict management, we provide high standard and quality bearings for our customers all over the world.
4. Q: Where is your factory located?
A: Our factory is in China. Welcome to contact us anytime.
5. Q: Can the machine be customized as our need, such as put on our logo?
A: Surely our machine can be customized as your need, put on your logo is also available.
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Application: | Warehouse Crane, Shipboard Crane, Goods Yard Crane, Building Crane, Workshop Crane |
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Material: | Steel |
Installation: | All-Terrain Crane |
Samples: |
US$ 0/Piece
1 Piece(Min.Order) | Order Sample |
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Customization: |
Available
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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Payment Method: |
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Initial Payment Full Payment |
Currency: | US$ |
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Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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How do linear rails enhance the overall efficiency and accuracy of linear motion in industrial and automation systems?
Linear rails play a crucial role in enhancing the overall efficiency and accuracy of linear motion in industrial and automation systems. Their impact is significant in various aspects:
- 1. Guidance and Stability: Linear rails provide a precise path for the motion of the carriage or moving component. This guidance ensures stability and eliminates deviations, contributing to accurate and controlled linear movement in industrial applications.
- 2. Low Friction: Linear rails are designed with features to minimize friction between the rail and carriage. Low friction contributes to smoother motion, reducing wear on components and enhancing the overall efficiency of the linear motion system.
- 3. High Load Capacity: Linear rails are engineered to support high loads while maintaining structural integrity. This high load capacity is essential for industrial applications where heavy materials or equipment need to be moved with precision and accuracy.
- 4. Rigidity: The rigidity of linear rails prevents deflection or flexing during operation. This rigidity is critical for maintaining accuracy, especially in applications where precise linear motion is required for tasks like machining, assembly, and quality control.
- 5. 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 and automation systems where consistent and precise motion is essential for the success of manufacturing processes.
- 6. Integration of Smart Technologies: Advanced linear rail systems may incorporate smart technologies, such as sensors and feedback systems. These technologies enable real-time monitoring, feedback, and adjustments, further enhancing accuracy and efficiency in automated processes.
- 7. Customization for Specific Applications: Linear rails can be customized for specific industrial or automation needs. Tailoring the rail system to the unique requirements of an application ensures optimal performance and efficiency, whether in a high-speed production line or a precision laboratory setting.
- 8. Long-Term Reliability: The reliability and durability of linear rails contribute to long-term efficiency. A reliable linear motion system minimizes downtime, reduces maintenance requirements, and ensures continuous, accurate operation over an extended lifespan.
Overall, the use of linear rails in industrial and automation systems results in improved efficiency, increased productivity, and enhanced precision. Their role in providing a stable, low-friction guidance system for linear motion makes them integral components in a wide range of applications across diverse industries.
Can linear rails be customized or modified for unique industrial or automation needs?
Yes, linear rails can be customized or modified to meet unique industrial or automation requirements. Customization allows engineers and manufacturers to tailor linear rail systems based on specific needs. Here are some ways in which customization can be achieved:
- Length and Size: Linear rails can be customized in terms of length and size to fit the spatial constraints of a particular application. This ensures optimal use of available space and allows for seamless integration into existing machinery.
- Load Capacity: For applications with unique load requirements, linear rails can be designed or modified to accommodate higher or lower load capacities. Custom load-bearing capabilities ensure that the linear rail system meets the demands of the specific application.
- Material Selection: The choice of materials used in the construction of linear rails can be customized to address specific environmental conditions or industry standards. Different coatings or materials may be selected for applications requiring resistance to corrosion, extreme temperatures, or harsh chemicals.
- Special Coatings: Custom coatings can be applied to linear rails to enhance their performance in specific environments. For example, anti-corrosive coatings may be added for applications in corrosive or humid settings, while low-friction coatings can improve overall efficiency.
- Integration of Accessories: Customization may involve the integration of accessories such as sensors, encoders, or additional components to meet automation or monitoring requirements. This ensures that the linear rail system aligns with the overall objectives of the industrial or automation setup.
Collaboration with manufacturers or suppliers experienced in linear motion systems is crucial when considering customization. They can provide insights, design expertise, and manufacturing capabilities to deliver a tailored solution that aligns with the unique needs and challenges of a specific industrial or automation application.
Can you describe the various types of linear rails, such as profiled or round rail systems?
There are several types of linear rails, each with its own design and characteristics. Two common types are profiled rail systems and round rail systems:
Profiled Rail Systems: Profiled rail systems consist of a rigid rail with a specially designed profile, typically featuring recirculating ball or roller bearings. The carriage, mounted on the rail, contains these bearings, providing smooth and precise linear motion. Profiled rail systems are known for their high load capacity, accuracy, and stiffness. They are commonly used in applications where precision and rigidity are critical, such as CNC machines and industrial automation systems.
Round Rail Systems: Round rail systems utilize cylindrical rails and carriages with linear bearings. These systems are often more compact and cost-effective than profiled rail systems. While they may have slightly lower load capacities and precision compared to profiled rail systems, round rail systems are suitable for applications where space is limited, and the requirements for precision are moderate. Round rail systems find use in applications such as packaging machinery, material handling, and some types of 3D printers.
Other types of linear rails include dovetail slides, boxway guides, and more, each with its own design to suit specific applications and requirements. The choice of linear rail type depends on factors such as load capacity, precision, space constraints, and cost considerations in a particular application.
editor by Dream 2024-05-17
China Standard CZPT High Assembly Linear Motion Guide for Bending Machines Ggkh-B Series linear rail dimensions
Product Description
GGKH-B Series – High Torque High Silence Linear Xihu (West Lake) Dis.
GGK Series Linear Xihu (West Lake) Dis.ways Features
NO.1
GGK slider round drive groove GGK (45×45) combination, compared with the traditional groove has a longer torque resistance arm (A1>A) in all load directions have extremely high rigidity, improve the rated load and rated torque.
NO.2
SUS304 quick snap-on dustproof steel belt directly enhances the beauty and smoothness of the guide, easy to install and snap on to meet the needs of high dustproof occasions.
NO.3
Fully enclosed dustproof structure directly enhances the dustproof ability of the slider.
NO.4
New integrated oil storage space and oil circuit design, with very low lubricant consumption to make the slider performance more outstanding.
NO.5
Integrated silent reflux structure design, extremely low noise structure optimization, significantly improve the smoothness of the slider.
GGK Body Structure
Rolling cycle system: slider, slide rail, end cap, ball, ball retainer
Lubrication system: self-lubricating parts, oil nozzles, oil pipe joints
Dustproof system: SUS304 quick snap-on dustproof steel belt, oil scraper, bottom seal dustproof sheet, bolt dustproof cover, metal scraper
Application:
Machining centers, injection molding machines, machine tools, punching machines, precision machining machines, automation devices, heavy-duty cutting machine tools, transportation equipment, marble cutting machines, measuring instruments, grinding machines.
Technical Drawing
Specification List
Model | Component size (mm) |
Slider size(mm) | Rail size(mm) | |||||||||||||||
H | H1 | N | W | B | C | L | L1 | Mxl | H2 | H3 | W1 | H4 | D | h | d | F | E | |
GGKH15B | 28 | 3 | 9.5 | 34 | 26 | 26 | 39.2 | 58.2 | M4x5 | 8 | 7.6 | 15 | 14.9 | 7.5 | 5.3 | 4.5 | 60 | 20 |
GGKH20B | 30 | 3.7 | 12 | 44 | 32 | 36 | 52.5 | 80 | M5x6 | 5 | 5.8 | 20 | 201 | 9.5 | 8.5 | 6 | 60 | 20 |
GGKH20BL | 50 | 65.2 | 93 | |||||||||||||||
GGKH25B | 40 | 4.5 | 12.5 | 48 | 35 | 35 | 61 | 85 | M6x8 | 11.6 | 12 | 23 | 23 | 11 | 9 | 7 | 60 | 20 |
GGKH25BL | 50 | 80.3 | 104.7 | |||||||||||||||
GGKH30B | 45 | 7 | 16 | 60 | 40 | 40 | 69 | 97 | M8x10 | 9 | 10 | 28 | 28.4 | 14 | 12 | 9 | 80 | 20 |
GGKH30BL | 60 | 92.3 | 120.3 | |||||||||||||||
GGKH35B | 55 | 7.6 | 18 | 70 | 50 | 50 | 79 | 109 | M8x12 | 14.4 | 14.4 | 34 | 31.9 | 14 | 12 | 9 | 80 | 20 |
GGKH35BL | 72 | 105 | 135 | |||||||||||||||
GGKH45B | 70 | 9.7 | 20.5 | 86 | 60 | 60 | 97.8 | 138 | M10x17 | 18 | 18 | 45 | 39.85 | 20 | 17 | 14 | 105 | 22.5 |
GGKH45BL | 80 | 132.3 | 173 |
Basic dynamic load rating | Basic static load rating | Allowable static moment | ||
C(kN) | Co(kN) | MR | MP | MY |
14.21 | 18.53 | 0.19 | 0.14 | 0.14 |
24.23 | 31.28 | 0.37 | 0.28 | 0.28 |
27.66 | 39.42 | 0.48 | 0.48 | 0.48 |
35.24 | 44.31 | 0.6 | 0.49 | 0.49 |
42.58 | 57.86 | 0.74 | 0.73 | 0.73 |
46.53 | 56.24 | 0.95 | 0.7 | 0.7 |
58.89 | 78.88 | 1.35 | 1.23 | 1.23 |
61.22 | 80.3 | 1.73 | 1.09 | 1.09 |
78.16 | 113.64 | 2.46 | 2.02 | 2.02 |
98.43 | 112.66 | 3.56 | 2.35 | 2.35 |
125.58 | 159.6 | 5.05 | 4.45 | 4.45 |
FACTORY DETAILED PROCESSING PHOTOS
HIGH QUALITY CONTROL SYSTEM
FAQ
1. Why choose CZPT China?
Over the past 14 years, CZPT has always insisted that “products and services” start from Japanese industry standards,taking ZheJiang standards as the bottom line, actively invest in the development of new transmission components and self-experiment and test. With the service tenet of “exceeding customer expectations”, establish a “trusted” partnership.
2. What is your main products ?
We are a leading manufacturer and distributor of linear motion components in China. Especially miniature size of Ball Screws and Linear Actuators and linear motion guideways. Our brand “KGG” stands for ” Know-how,” ” Great Quality,” and ” Good value” and our factory is located in the most advanced city in China: ZheJiang with the best equipment and sophisticated technology, completely strict quality control system. Our aim is to supply world leader class linear motion components but with most reasonable price in the world.
3. How to Custom-made (OEM/ODM)?
If you have a product drawing or a sample, please send to us, and we can custom-made the as your required. We will also provide our professional advices of the products to make the design to be more realized & maximize the performance.
4. When can I get the quotation?
We usually quote within 24 hours after we get your inquiry. If you are very urgent to get the price,please call us or tell us in your email so that we will regard your inquiry priority.
5. How can I get a sample to check the quality?
After confirmation of our quoted price, you can place the sample order. The sample will be started after you CZPT back our detailed technical file.
6. What’s your payment terms?
Our payment terms is 30% deposit,balance 70% before shipment. /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Application: | Precision Automation Equipment |
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Material: | Steel |
Structure: | Linear Motion Transmission |
Installation: | Automatic Machinery |
Driven Type: | Ball Linear Drive |
Carrying Capacity: | Weight Level |
Customization: |
Available
| Customized Request |
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The Benefits of Using a Linear Rail in Your Industrial Machine
Generally speaking, linear rail is a material used for transportation. This material can be used in various different ways, including the transportation of goods and machinery. However, there are certain things that you should keep in mind before using it. These include the cost, the accuracy of travel, and the resistance to flexing.
Common uses
Using a linear rail can provide a variety of benefits. They provide low friction guidance, allow for a wide range of motion, and offer reliability. They are also compact and can be used for a variety of applications.
Linear rails are often used in automated assembly lines, conveyor systems, and machine tools. They also work well for pneumatic-driven systems. They can be used for moving loads from small to large in diameter and can handle speeds up to five meters per second. They are typically more expensive than other systems.
Linear rails come in a wide variety of designs. They can be mounted on a variety of surfaces and have different levels of load bearing capacity. They can also be used to connect multiple rails for very long travel lengths.
Linear rails are usually used in applications that require high accuracy. For example, they are often used in machine tools and laser welding machines. They are also used in the production of large objects. They are also used in 3D printing machines. They are also used in medical devices and special vehicles.
Linear rails require careful mounting. They need to be fully supported and have accurate mounting surfaces. They also need to be protected during assembly and shipping. Linear rails are typically made from steel or stainless steel. They are also available in a variety of sizes.
Linear slides are also known as linear motion bearings. They feature bearing contacts, plain surface bearings, recirculating or non-recirculating designs, and race profiles. The sliding contact guide rail is perfect for high accuracy applications.
Linear rails also have the capability to support overhung loads. They can be used alone or in combination with linear guides. They can withstand loads from a few grams to thousands of kilograms.
High level of travel accuracy
Using linear rails in your industrial machine will give you the benefits of a robust, well-supported design. They can handle loads of thousands of kilograms while reducing frictional drag. This is especially true for high-speed, heavy-duty applications.
The best part is that you can choose from a wide variety of options. From standard, multi-point, to end-to-end and even the modular type, there is a linear rail solution for your needs. Whether you want a low-cost solution or a high-end system, CZPT can help you with your industrial needs.
A high level of travel accuracy is a must for any linear stage. There are many factors to consider when choosing the best linear rails for your application. The best way to go about determining the best option is to determine your application’s specific needs and requirements. From there, the experts at CZPT can help you make a well-informed decision. They are experts in all things linear and can recommend the best options for your particular needs.
Aside from high travel accuracy, linear rails offer a multitude of other benefits. For instance, you can minimize the motion of the rails by mounting them in parallel. This will increase the life of the bearings while also reducing the deflection of the system as a whole. You can also choose a rail system that will accommodate overhung loads. This is especially true for linear applications that have high-speed, heavy-duty needs.
The high-tech industry has been abuzz with a number of new and exciting innovations. One such is the integration of an I-beam support with a linear guide system. The I-beam support is ideal for industrial applications, such as robotics.
Resistance to flexing
Besides being a spruced up version of the ancient horseshoe, the linear rail has some impressive properties, including its ability to bend without breaking, and a high degree of self-alignment. It also has the honor of being one of the only types of rails that will withstand a plethora of shocks and jolts, and has some of the lowest lifecycle costs in its class. A large number of rails are actually made from polymer rather than aluminum, but that is another story altogether. The most expensive rails are manufactured from aluminum. The best ones are made from a proprietary polymer, which is said to have the lowest lifecycle costs.
There are two main types of linear rails, the standard type which are fixed at one end, and the more modern and modern variant, which are self-aligned. The latter is actually more important than the former. A good rule of thumb is to consider the more expensive variants first, as they are suited to more rigorous testing and inspection.
Easy to machine
Choosing the right linear rail system depends on the specific needs of the enterprise. It is important to consider how long the rail will last, as well as other factors that can influence its lifespan.
Linear rail systems are designed to support the movement of equipment through production. The system is easy to maintain and is suitable for high-speed applications.
Linear rails are typically supported by aluminum extrusions. They are commonly fixed at each end of the rail. Linear rails can have short lengths or longer dimensions. They are commonly installed with hex slot screws along the length of the rail. Additional linear rail screws can be installed to increase the rigidity of the rail system.
Linear rails have higher load-bearing capacity than hard rails. Hard rails are used in heavy-duty applications, such as machining large molds. Linear rails are suitable for more precision applications, such as small precision molds.
Linear rails have higher accuracy. In addition, they provide a smooth motion. Linear rails also offer less resistance to bending and vibration. However, the use of linear rails requires more support during installation. In addition, the assembly process is tedious.
Linear rails can be used in a wide variety of industries. They are also useful in CNC machining. Most finishing machine tools are manufactured using high-precision linear rails.
Linear rails have higher requirements for processing and transportation. They can also be more expensive to maintain. However, they provide high-speed operation that improves precision. They are also easier to replace than hard track. The process is similar to replacing a screw.
Choosing a rail depends on the enterprise’s production. Some rails have high load-bearing capacity, while others are less expensive. The running speed of the rail system is also a factor.
Cost
Choosing the right rail can give significant advantages in both performance and durability. While there are many types of rails on the market, a good guideline can help you determine which one is best for your application.
The right rail can reduce your application’s total cost of ownership. However, you should be careful not to make the mistake of installing the wrong one. If you install the wrong rail, you can end up with corrosion, excessive misalignment, noise, and reduced life expectancy.
The cost of linear rails will vary depending on the length of the rail, the type of rail, and the material it is made of. However, the most cost-effective rail is one that is made of corrosion resistant steel alloys.
The cost of linear rails is also dependent on the size of the rail. Typically, larger runners are more effective for higher load capacity applications.
Linear rails can also be manufactured in short lengths. However, installing one of these rails is not easy. They have different tools and require a different assembly process.
The cost of linear rails is 2.5 to four times higher than that of rods. While the cost is high, the benefits can be significant. A linear rail provides high rigidity, high accuracy, and higher speed. They are also less likely to bend or deform under heavy load.
The cost of linear rails is often offset by the ability to achieve high speed and precision. However, the cost of installing these rails is not worth it. The same motor can achieve higher speeds using linear rods. However, installing linear rails is a much more difficult process.
The cost of linear rails also depends on the environment where they will be installed. If the rail is placed in a dirty or wet environment, it may lead to reduced precision, corrosion, and damage.
editor by Dream 2024-05-16
China factory Dia40 CZPT Chrome Linear Shaft Sc40aj Adjustment Preload Ball Bearing Linear linear rail actuator
Product Description
Linear motion bearings with Chrome plated hardness linear shafts
Company Profile
HangZhou Wangong Precision Machinery Co., Ltd.
About US: Professional producing Ball screw, Linear guide, linear shaft, Linear roller guide and linear motion bearings
HangZhou Wangong Precision Machinery Co., Ltd was founded in 2008 and is located in HangZhou City, ZHangZhoug Pro. China. We ahve built a R&D and profuction base of more than 52000m2 , Our expertise lies in manufacturing precision transmission components, As a distinguished high-tech enterprise, we seamlessly integrate research and development, production, sales, and service. We have successfully incorporated advanced equipment and cutting-edge technologies from renowned countries like Germany, Japan and ZheJiang .
Product Description
1,Product General information
a, Low frictional linear motion
Steel balls are accurately guided by a retainer, so low frictional resistance and stable linear motion can be achieved.
Simple replacement of conventional plain bushings
It is easy to use Linear Bushings instead of conventional plain bushings, because both types are used with a round shaft, and no major redesign is necessary.
b, Wide variations
For each dimensional series, standard, adjustable clearance and open types are available with and without seals, so the best linear bushing for the application may be selected. In addition to the standard type, the high-rigidity long type is available. These types can be selected to suit the requirements in applications.
c, Miniature linear bushing LM Compact design
Miniature Linear Bushing is very small in size, allowing for compact assembly in machines and equipment.
d,High Reliability
ERSK linear bearing has very stringent quality control standards covering every production process. With proper lubrication and use,trouble-free operation for an extended period of time is possible.
e,Smooth Operation
The high efficiency of linear shaft is vastly superior to conventional shaft. The torque required is less than 30%. Linear motion can be easily changed from rotary motion. The linear bearings are moved very smoothly in the linear shaft.
f,High Durability
Rigidly selected materials, intensive heat treating and processing techniques, backed by years of experience,have resulted in the most durable linear bearings manufactured.
g,Easy interchangable
h,Easy maintenance
the linear rails can replace the base surface installation, the old wear parts (rails and blocks) can be replaced, reduce costs.
i,Easy installation
the linear rails and carriages can be changed easily, reduce material costs, reduce product prices, reduce product replacement costs and time.
2,All kinds of linear motion bearing series
SC-V series | SC8V, SC10V, SC12V, SC13V, SC16V, SC20V, SC25V, SC30V, SC35V, SC40V, SC50V, SC60V |
SC-UU/SC-AJ series | SC6, SC8, SC10, SC12, SC13, SC16, SC20, SC25, SC30, SC35, SC40, SC50, SC60 |
SC-L /SC-LAJ series | SC8L,SC10L, SC12L, SC13L, SC16L, SC20L, SC25L, SC30L, SC35L, SC40L, SC50L, SC60L |
SCE-V series | SCE8V, SCE12V, SCE16V, SCE20V, SCE25V, SCE30V, SCE40V, SCE50V |
SCE-UU/SCE-AJ series | SCE8, SCE10, SCE12, SCE16, SCE20, SCE25, SCE30, SCE40, SCE50, SCE60 |
SCE-L/SCE-LAJ series | SCE8L, SCE10L, SCE12L, SCE16L, SCE20L, SCE25L, SCE30L, SCE40L, SCE50L |
SC-V/SCE-V | SC-UU/SCE-UU | SC-AJ/SCE-AJ |
SK | SC-L/SCE-L | SC-LAJ/SCE-LAJ |
SHF | linear motion support | linear bearing support |
3,Specifications:
SPECIFICATIONS for linear blocks |
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Items |
Material |
Surface Treatment |
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Linear bearing SC, SC-AJ, SC-L, SC-AJ-L |
Aluminium alloy |
Clear Anodized |
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Linear bearing SCE, SCE-AJ, SCE-L, SCE-AJ-L |
Aluminium alloy |
Clear Anodized |
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Linear shaft support SHF |
Aluminium alloy |
Clear Anodized |
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Linear shaft support SK |
Aluminium alloy |
Clear Anodized |
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Linear shaft dia4 to dia120 |
S45C or GCr15 |
Induction heating and chrome plated |
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Linear bushing LM,LM-AJ, LM-L, LM-AJ-L |
GCr15 |
Induction heating or electroless nickel plating |
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Linear bushing LME, LME-AJ, LME-L, LME-AJ-L
|
GCr15 |
Induction heating or electroless nickel plating |
Detailed Photos
4,Detailed Images: High Precision Linear Bearing Linear Block
Machine Parts
Name: linear shaft
Brand: ERSK
Original: China
the linear shaft length can be customized according to your requirements. if the shaft need be done the machinized, please send the drawings, we are able to do them
Machine Parts
Name: Linear block
Brand: ERSK
Original: China
aluminium alloy case,
good surface and high precision
moving smoothly
high interchangable
Main Features
Name: SK series
Brand: ERSK
Original: China
SK series linear shaft support,
high interchangable
mounted easily
good surface and high precision
Main Features
Name: linear ball bearing
Brand: ERSK
Original: China
GCr15 balls in the linear bearing
moving smoothly
high interchangable
Linear guide block is divied to flange type and slim type without flange.or Seal type block,
Standard type block, Double bearing type block, Short type block. Also, linear block is divided to high load capacity with standard block lenth and ultra high load capacity with longer block length.
Specification:
1,In stock
2,Performance: antifriction, interchangeable
3,Material:Aluminium allooy
4,Application: CNC or automatic machinery
5, Match: could match with linear guide or linear shaft in one machinery
5 Production Process:
Related products
ERSK manufacturer main products
Our Advantages
As a distinguished high-tech enterprise, we seamlessly integrate research and development, production, sales, and service. We have successfully incorporated advanced equipment and cutting-edge technologies from renowned countries like Germany, Japan, and ZheJiang . Our commitment to innovation has led to the acquisition of multiple product design patents, and we proudly adhere to ISO9001 certification standards.
Our service
Our Team:
Professional technicians, high-quality production workers, 24-hour salespersons
OUR PHILOSOPHY:
Integrity is at the core of our values, and providing excellent
service is our top priority. We begin by understanding your
needs and strive to ensure your utmost satisfaction, forging a mutually beneficial relationship.
OUR MISSION:
Through technology and innovation, we strive to enhance
product quality and deliver exceptional products and services
to you.
OUR VISION:
We are firmly dedicated to CZPT the pinnacle of highquality standards and venturing into the realm of world-class
advanced manufacturing industries.
We are excited about the opportunity to work with you and
exceed your expectations.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Application: | Warehouse Crane, Shipboard Crane, Goods Yard Crane, Building Crane, Workshop Crane |
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Material: | Aluminium |
Structure: | Linear Guide |
Customization: |
Available
| Customized Request |
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.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}
Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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Payment Method: |
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Initial Payment Full Payment |
Currency: | US$ |
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Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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Choosing the Right Type of Linear Rail for Your 3D Printer
Using a linear rail in your 3D printer is a common way to provide support for the bed, but there are some drawbacks to using this type of rail. Learn about the different types of rail and how to select the best one for your project.
Square rail
Choosing the right linear rail can bring significant advantages in cost, durability and performance. Choosing the right rail type is a key step before deciding on the overall design. Choosing the correct type will depend on your application’s requirements. The selection process involves learning from past mistakes and defining the system’s objectives. Choosing the right rail isn’t unlike choosing other components for a machine.
Unlike round rail, square rails require a flat mounting surface. Moreover, square rails can’t span gaps. The rails must be aligned perfectly to achieve the desired parallelism. Square rails also need to be lubricated properly.
Square rails are used for applications that require high load capacity. Square rails are typically used for machine tool applications. They have a greater load capacity than round rails. They can handle heavy loads and moment loads. They provide high precision and accuracy. They also have more surface contact than round rails.
Generally, square rails are more expensive than round rails. Square rails are also more prone to debris. They also need tighter parallelism than round rails. Square rails also need a straight continuous support.
Square rails have higher load capacity and precision. However, they have higher maintenance costs. Square rails also need to be installed carefully. They can be prone to misapplication. Misapplication can happen due to miscalculation or personal bias. Choosing the right rail type isn’t always the right solution for your application. It’s always best to start with preliminary calculations before deciding.
Round rails are generally faster to install. They also allow for greater ranges in rail height. They can also handle imperfect parallelism. However, they also have lower load capacity. They require more parts than square rails.
They can be installed vertically or horizontally. They are also available in different sizes. CZPT provides bearing blocks in different seals. Their bearing blocks can be purchased in long, normal or short block versions. CZPT’s long block versions have a self-lubricating option.
Round rails are more forgiving than square rails. They have less tendency to pull up. They are also less prone to deflection.
CZPT(r) T
Whether you are working in the manufacturing, automotive, pharmaceutical, or food industry, CZPT (r) T linear rail assemblies can be configured for your application. These rail assemblies are manufactured from lightweight aluminum and can be customized to your specifications. They are designed to replace recirculating ball bearings, eliminating messy oil, grease, and downtime. You can download CZPT (r) T linear rail assemblies as CAD files to facilitate customization.
There are two main types of CZPT (r) T linear rails. The T-shaped design is manufactured from hard-anodized aluminum. These linear guides are designed to be lightweight, easy to install, and durable. They are perfect for applications where speed is critical.
For more than 50 years, Sealstrip has been manufacturing packaging solutions with its patented package reclosure device. In its heyday, metal bearings were the standard for package reclosure, but they proved to be expensive and often required frequent maintenance. Fortunately, CZPT (r) T linear guide systems are a better option. They are oil free, corrosion resistant, and come with a number of functional and design features that rival metal bearings.
CZPT (r) T linear rails are easy to install and maintain, so you can focus on the task at hand. Their design is efficient, allowing for the smoothest, most precise motion. CZPT (r) T rail assemblies are also available in stainless steel, making them ideal for applications in harsh environments. These bearings have a unique split adapter that makes installation easy. They are compatible with standard ball bearings. They can carry heavy loads up to 800 pounds.
In addition to CZPT (r) T linear rails, CZPT (r) family of products includes CZPT (r) R linear plain bearings, CZPT (r) S anodized aluminum shafting, and CZPT (r) slide tables. All CZPT (r) products are designed to meet your motion control component needs. They are available from 28,000 stock items. You can also order energy chain systems and chainflex continuous flex cables. These linear guides are designed to help you get the most from your manufacturing equipment. They are the ideal way to replace recirculating ball bearings.
liding contact guides
Generally, linear guides are composed of guide rails, slide bodies and bearing inserts. These systems are widely used in different applications. They are designed to reduce friction, increase power efficiency and increase overall efficiency of units. The guide can be made of steel or aluminum. The slide can be plain surface bearing or a rolling-element bearing. These types of slides have a low frictional resistance, and can be used in high speed applications.
Sliding contact guides on linear rails have sliding contact along the entire length of the rail. The sliding contact is made by a rolling-element bearing, such as a ball, roller or cam roller. Linear bearing slides can be lubricated with grease, oil or vacuum lubricant. The use of linear bearing slides helps to minimize operating temperatures and improves overall efficiency of units.
These guides are used in applications with high precision. They are a good option in applications with limited space requirements. They also provide increased load capacity while reducing the size of the unit.
The present invention provides an alternative to the prior art linear guides. It consists of a linear guide with a replaceable bearing element. This element is removable from the slider without replacing the slide body. It also eliminates the need to replace roller elements in the bearing mechanism.
The sliding contact guides on linear rails are ideal for applications with high accuracy. They are especially useful in high speed applications. They can help grippers pick up objects more accurately. They can also be used for industrial sliding doors. They are also used in a variety of robotics applications.
The sliding contact guides on linear rails can be used in a wide range of applications, from precision machinery to computer numerical control machines. They are available in different sizes and configurations, including the MINISCALE PLUS series. They can be used in vacuum conditions of up to 10-7 mbar. They are ideal for applications requiring high accuracy and reduced power consumption.
They are available in a wide range of sizes, including 7 mm to 15 mm wide. They also have travel distances of up to 42 mm. The dynamic load capacity ranges from 207 to 1109 N. They also offer accelerations of up to 50 m/s.
Drawbacks of “traditional” linear rail in a 3D printer build
Using linear rails in a 3D printer build can increase print quality, but there are also drawbacks. There are some advantages to using linear rails, but you’ll also need to consider the cost and complexity of using them.
A traditional linear rail is a rectangular piece of steel with two dovetails along each side. It’s used to mount the carriage to the printer, and it is designed to provide smoother motion than a linear rod. Despite this, a rail can also be curved, which can create problems when printing.
Another disadvantage is that a single linear rail is more expensive than two linear rods, and it requires a physical frame for mounting. However, it can save you the cost of buying two rods and can also create a unique aesthetic for your 3D printer. Another advantage is that you can anchor the rail for greater rigidity and load-bearing capacity. You’ll also need to make sure that your rails are properly lubricated for a long life. If they aren’t, you’ll likely experience problems with print quality.
The drawbacks of using a linear rail in a 3D printer build aren’t that serious, but they’re still something to consider. If you have the budget, you may want to invest in a more capable printer, rather than in a linear rail. Also, remember that the stiffer your rails are, the less backlash you’ll experience. You’ll also avoid ringing artifacts, which will make your prints look less smooth. Regardless of the type of rail you use, it’s important to make sure that you mount it correctly.
editor by Dream 2024-05-16
China Hot selling 3 Axis Gantry Xyz Linear Stage 100mm to 2500mm Customizable Ball Screw Linear Module Guide Slide Rail for 3D Printer
Product Description
3 Axis Gantry Xyz Linear Stage 100mm to 2500mm Customizable Ball Screw Linear Module Xihu (West Lake) Dis. Slide Rail for 3d Printer
Quality Control
1. ISO 9001:2000 quality management system.
2. Self design and process hardware parts, ultra accuracy control and low defective rate.
3. Self built large factory buildings equipped with totally new assembly lines, control production time accurate to hours.
4. Large scale lab room with professional machine testing system, well trained staff 360-degree inspection each machine before shipping.
Product Keywords
Easy to Equipped | Good Price Quality Ratio | Energy Saving |
Products & Staff Pictures
FAQ
1. Q: Your products looks nice, can I get a full product catalog with specification for study?
A: Yes, send your inquiry to CHINAMFG sales team.
2. Q: Can you tell me what is your company main business?
A: We mainly design and produce linear modules/actuators/motors by self, then provide OEM and export service for overseas clients.
3. Q: Which famous enterprise use your machines?
A: In China domestic, include BYD, Foxconn, LENS Technology and HUAWEI/Apple/OPPO/VIVO etc. supply chain manufacturers are our key account.
4. Q: If so, is it possible get sample machines before trial order?
A: Yes, mail your request details to CHINAMFG sales team, we can modify the 3D drawing, prepare 1 or pair of customized sample meet your special needs.
5. Q: Good, how long is your lead-time?
A: 7 working days for sample prepare, 10-15 working days for large quantity order production. (Confirm each bill of international payment need extra 3 working days)
6. Q: Sounds good, how long is the warranty period of your machines?
A: 12-months warranty is provided for our linear modules/actuators/motors, strictly based on sales contract.
7. Q: Wow, I want to do business with your company, what kind of payment terms?
A: Sample order, trial order, repeat order, we accept T/T payment, 30% deposit when signing contract, rest amount pay before shipping. (L/C payment only available for designated countries’ client)
8. Q: What is the best shipment way for your products?
A: For sample machines, the best delivery way is through airplane transport(or land transport), takes 1 week transfer to destination airport, for large quantity goods, the best shipping way is via CHINAMFG ship(or land transport), takes 1 month to destination port, FOB HangZhou, HangZhou, HangZhou, ZheJiang or other main port in China. /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Application: | PC, LCD, PCB,PDP, Biotechnology, Semiconductor,etc |
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Material: | Aluminium |
Structure: | Semi-Sealed |
Installation: | All Automation Machines |
Driven Type: | Servo Motor |
Carrying Capacity: | 10 Kg |
Samples: |
US$ 200/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
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Can you explain the role of linear rails in reducing friction and wear in linear motion applications?
Linear rails play a pivotal role in reducing friction and wear in linear motion applications through several key mechanisms:
- 1. Precision Design: Linear rails are precision-engineered with specific profiles and tolerances. The precise design minimizes contact points between the rail and the carriage, reducing friction and wear to a minimum during linear motion.
- 2. Rolling Contact: Many linear rails utilize rolling contact elements, such as recirculating ball bearings or roller bearings. These elements roll along the profiled surface of the rail, significantly reducing friction compared to sliding contact. Rolling contact also distributes the load evenly, further minimizing wear on specific points.
- 3. Low-Friction Coatings: Some linear rails feature low-friction coatings on their surfaces. These coatings, often made of materials like Teflon or similar compounds, create a smooth and slippery surface, reducing the coefficient of friction. This results in smoother linear motion and less wear on the rail and carriage components.
- 4. Lubrication: Proper lubrication is essential for reducing friction and wear in linear motion systems. Lubricants applied to the rolling elements or the rail surface create a thin film that separates the moving parts, minimizing direct contact and friction. Regular lubrication intervals are crucial for maintaining optimal performance and extending the lifespan of the linear rail system.
- 5. Sealing Mechanisms: Linear rails often incorporate sealing mechanisms to protect against contaminants. Dust, debris, and moisture can contribute to increased friction and wear. Effective sealing prevents the ingress of contaminants, preserving the integrity of the rail and reducing wear on critical components.
- 6. Material Selection: The choice of materials for both the rail and carriage components influences friction and wear. High-quality materials with good wear resistance, such as hardened steel or specialized alloys, contribute to the long-term durability of the linear rail system.
- 7. Regular Maintenance: Implementing a regular maintenance schedule is crucial for reducing friction and wear. Inspections, cleaning, and lubrication ensure that the linear rail system operates smoothly and efficiently. Identifying and addressing any signs of wear early can prevent more significant issues and extend the overall lifespan of the system.
By incorporating these design features and maintenance practices, linear rails effectively minimize friction and wear in linear motion applications. This not only enhances the efficiency and accuracy of the system but also contributes to the long-term reliability and durability of the linear rail.
Can you explain the principles behind linear rail operation and load-bearing capabilities?
The operation of linear rails and their load-bearing capabilities are governed by fundamental principles:
1. Rolling Contact: Linear rails typically utilize rolling contact elements, such as recirculating ball or roller bearings, between the rail and the carriage. These elements reduce friction and enable smooth motion by rolling along the profiled surface of the rail.
2. Profiled Rail Design: The rail is designed with a specific profile, often featuring raceways for the rolling elements. This profile provides guidance to the carriage, ensuring that it moves along a predetermined path without deviations.
3. Load Distribution: The load-bearing capabilities of linear rails are achieved through the distribution of the applied load across the rolling elements. This design allows for the effective support of loads, both radial and axial, while minimizing stress on individual components.
4. Rigidity: Linear rails are designed to be rigid, preventing deflection or bending during operation. This rigidity is essential for maintaining accuracy and precision, especially in applications where high loads or forces are involved.
5. Lubrication: Proper lubrication is crucial for reducing friction and minimizing wear between the rolling elements and the rail. Lubrication also helps dissipate heat generated during operation, contributing to the overall efficiency and longevity of the linear rail system.
6. Materials and Construction: The materials used in the construction of linear rails, such as hardened steel or reinforced alloys, contribute to their load-bearing capabilities. The choice of materials ensures durability and resistance to wear under various operating conditions.
Overall, the combination of rolling contact, profiled rail design, load distribution, rigidity, lubrication, and appropriate materials enables linear rails to operate efficiently and support varying loads in industrial applications. Understanding these principles is essential for selecting the right linear rail system based on the specific requirements of a given application.
Can you provide examples of products or equipment that rely on linear rails for accurate linear motion?
Many products and equipment across various industries rely on linear rails for accurate linear motion. Some examples include:
- CNC Machines: CNC milling machines, lathes, and routers use linear rails to achieve precise and controlled movement of cutting tools, ensuring accurate machining processes.
- Robotic Systems: Industrial robots, collaborative robots, and robotic arms incorporate linear rails for precise and repeatable linear movement in tasks such as assembly, pick-and-place, and material handling.
- 3D Printers: Linear rails are essential components in 3D printers, enabling the precise positioning of print heads and build platforms during the additive manufacturing process.
- Automated Conveyor Systems: Linear rails contribute to the accurate movement of products on conveyor systems in industries such as logistics, manufacturing, and distribution.
- Medical Imaging Equipment: Linear rails are used in medical devices like MRI machines and CT scanners to ensure precise linear movement in the imaging process.
- Aerospace Testing Equipment: Linear rails play a crucial role in aerospace testing equipment, providing accurate linear motion for testing components and systems under various conditions.
- High-Precision Measurement Devices: Instruments used for precision measurements, such as coordinate measuring machines (CMMs), rely on linear rails to achieve accurate and repeatable positioning of measurement probes.
These examples highlight the diverse applications of linear rails across industries where precise linear motion is essential for the functionality and performance of the equipment.
editor by Dream 2024-05-16
China Hot selling CNC Part Linear Guideways Lm Guideways Mgr7 Mgr9 Mgr12 Mgr15 Hgr15 Hgr20 Hgr25 Hgr30 Hgr35 Hgr45 Linear Rails
Product Description
Product Description
CNC Part Linear Xihu (West Lake) Dis.ways Lm Xihu (West Lake) Dis.ways Mgr7 Mgr9 Mgr12 Mgr15 Hgr15 Hgr20 Hgr25 Hgr30 Hgr35 Hgr45 Linear Rails
Linear guideway | linear guideway is heavy load linear guideway designed by circular-arc groove and structure optimization are higher over 30% load capacity and rigidity than other similar ball type linear guideway. |
Features | It features the same load in 4 directions (up/down/right/left) and self-aligning to absorb installation-error capability.HG series linear guideway can achieve a long life with high speed, highly accurate and smooth linear motion. |
MGR/HGR | 5mm;7mm;9mm;12mm;15mm;20mm;25mm;30mm;35mm;45mm rail |
HGH/HGW Bearings | HGH15CA HGH20CA HGH20HA HGH25CA HGH30CA HGH35CA HGH45CA HGW15CA HGW20CA HGW20HA HGW25CA HGW30CA HGW35CA HGW45CA |
MGN/MGW Bearings | MGN7C;MGN7H;MGN9C;MGN9H;MGN12C;MGN12H;MGN15C;MGN15H MGW7C;MGW7H;MGW9C;MGW9H;MGW12C;MGW12H;MGW15C;MGW15H |
Apply | Machine centers,Machine tools,Precision machining machines,Heavy cutting machines,Punching machines,Marble cutting machines,Automatic equipments,Grinding machinesHigh speed transfer equipments,Injection molding machines,Measuring equipments |
Product Parameters
Features
1.High-speed operation
2.Low friction and noise
3.High precision, duration, and reliability
4.Smooth movement
5.High efficiency of transferring
6.No gap and preloading
Applications
1.Machine tools
2.Precision machining
3. MachinesHeavy cutting machine
4.Punching machines
5.Marble cutting machines
6. Automatic equipment
7. Grinding machines
8.High speed transfer equipments
9. Injection molding machines
Detailed Photos
Company Profile
HangZhou City CHINAMFG Bearing Co., Ltd. is a professional manufacturer of linear motion products with many years’ experience. We are specialized in the producing linear shaft, linear guides, ball screws, linear bearings, linear guide blocks, ball screw end supports, linear rails, cam followers with good quality and competitive price. Our company is located in HangZhou city, ZHangZhoug province, close to HangZhou port and HangZhou city.
Our products are widely used in precise machines, fitness equipment, printing machines, packing machines, medical and food machines, textile machinery and other machines and supplementary equipment. Our products sell well in North America, West Europe, Australia, Southeast Asia, Middle East, South America and other regions.
After Sales Service
Our Quality:
Quality is the life . We use only the best quality material to ensure the standard of our product range is of the highest caliber.All products we sold out are strictly selected and tested by our QC department.
Warranty:
All products may have problem after used by a period of time. We provide 1 year warranty for all products.
Payment:
We accept payment via TT (Bank transfer), Paypal,Western Union, and Money Gram.
We accept bank transfer for large orders. For small order, you’d better pay via Paypal,Western union or Money Gram
Shipping:
We offer as many shipping options as possible, including DHL, UPS, TNT, FEDEX and EMS, Airfreight and by Sea.
FAQ
1. Are you factory or trading company?
We are professional manufacturer with most competitive price and high quality, 15 year’s experience.
2.What’s your product range?
We are specialized in producing linear shafts, linear bearings, linear guides, linear rails, ball screws,cam follower and other linear motion units.
3.Do you offer OEM&ODM services?
Yes, OEM, ODM is welcomed
4.How Can I get some samples?
We are honored to offer samples. You are requested to pay the shipping cost and some samples cost.
5.What does your factory do about quality control?
We uphold the tenet of “Quality is the future, we have passed ISO9001 certification, and we have strict procedures to control quality.
6. How can I get a quotation?
You can send quotation below or email to us. you can contact dirrectly with us through TM or WhatsApp,Skype as you like.Call any time if you are urgent.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Material: | Steel |
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Installation: | CNC Machine |
Running Mode: | Moving |
Transport Package: | Industrial Exporting Packing,or Upon The Customer′ |
Specification: | 5mm 7mm 9mm 12mm 15mm 20mm 25mm 30mm 35mm 45mm |
Trademark: | JLD |
Customization: |
Available
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Can you provide guidance on the selection and sizing of linear rails for specific linear motion applications?
When selecting and sizing linear rails for specific linear motion applications, several factors need to be considered to ensure optimal performance. Here is guidance on the key considerations:
1. Load Requirements: Determine the maximum load the linear rail system will need to support. Consider both static and dynamic loads, as well as any potential impact or shock loads during operation.
2. Travel Distance: Evaluate the required travel distance of the linear rail system. Different rail types and designs are suitable for short-range, medium-range, or long-range travel, so choose accordingly based on the application’s needs.
3. Precision and Accuracy: Assess the precision and accuracy requirements of the application. High-precision applications, such as CNC machining or optical systems, may require linear rails with specialized designs to meet stringent accuracy standards.
4. Speed and Acceleration: Consider the desired speed and acceleration of the linear motion. Different rail systems have specific capabilities in terms of speed and acceleration, so choose a system that aligns with the application’s performance requirements.
5. Environmental Conditions: Evaluate the environmental conditions in which the linear rail will operate. Factors such as temperature, humidity, and exposure to contaminants can impact the choice of materials, coatings, and lubrication for the linear rail system.
6. Mounting Configurations: Consider the available space and mounting configurations in the application. Linear rails come in various designs, including profiled rail systems, round rail systems, and others. Choose a design that fits the available space and allows for easy integration.
7. Budget Constraints: Assess budget constraints and cost considerations. Linear rail systems come in a range of price points, and balancing performance requirements with budget constraints is essential for cost-effective solutions.
8. Manufacturer and Supplier Expertise: Collaborate with experienced linear rail manufacturers or suppliers. Seek their expertise in selecting the most suitable rail system based on the application’s specific requirements. They can provide valuable insights, technical support, and customized solutions.
By carefully considering these factors, engineers and decision-makers can make informed choices in selecting and sizing linear rails for specific linear motion applications, ensuring optimal performance and longevity of the system.
What are the typical load capacities and travel distances for linear rails?
The load capacities and travel distances for linear rails vary based on the specific design, size, and application requirements. Here are general considerations:
Load Capacities:
- Light-Duty Applications: Linear rails in smaller sizes may be suitable for light-duty applications with load capacities ranging from a few hundred pounds to a few thousand pounds. These are commonly used in applications like 3D printers and light-duty automation systems.
- Medium-Duty Applications: Linear rails in medium sizes are designed for applications with moderate load requirements. Typical load capacities for medium-duty linear rails range from a few thousand pounds to tens of thousands of pounds. These are often used in CNC machines, robotic systems, and material handling equipment.
- Heavy-Duty Applications: Larger linear rails are built for heavy-duty applications with substantial load requirements. Load capacities for heavy-duty linear rails can extend into the hundreds of thousands of pounds. These are employed in industrial machinery, aerospace testing equipment, and other heavy-duty applications.
Travel Distances:
- Short-Range Travel: Some linear rails are designed for short-range travel, with typical distances ranging from a few inches to a few feet. These are suitable for applications with limited linear motion requirements, such as in certain types of printing machinery.
- Medium-Range Travel: Linear rails for medium-range travel cover distances from a few feet to several feet. These are commonly used in applications like CNC machines and automation systems where moderate linear motion is required.
- Long-Range Travel: Linear rails with long-range travel capabilities are designed for applications where extensive linear motion is necessary. These can cover distances ranging from several feet to meters and are used in applications such as large-scale industrial automation and material handling systems.
It’s essential to consult manufacturer specifications and consider factors such as speed, acceleration, and environmental conditions when selecting linear rails to ensure they meet the specific load and travel requirements of a given application.
Can you describe the various types of linear rails, such as profiled or round rail systems?
There are several types of linear rails, each with its own design and characteristics. Two common types are profiled rail systems and round rail systems:
Profiled Rail Systems: Profiled rail systems consist of a rigid rail with a specially designed profile, typically featuring recirculating ball or roller bearings. The carriage, mounted on the rail, contains these bearings, providing smooth and precise linear motion. Profiled rail systems are known for their high load capacity, accuracy, and stiffness. They are commonly used in applications where precision and rigidity are critical, such as CNC machines and industrial automation systems.
Round Rail Systems: Round rail systems utilize cylindrical rails and carriages with linear bearings. These systems are often more compact and cost-effective than profiled rail systems. While they may have slightly lower load capacities and precision compared to profiled rail systems, round rail systems are suitable for applications where space is limited, and the requirements for precision are moderate. Round rail systems find use in applications such as packaging machinery, material handling, and some types of 3D printers.
Other types of linear rails include dovetail slides, boxway guides, and more, each with its own design to suit specific applications and requirements. The choice of linear rail type depends on factors such as load capacity, precision, space constraints, and cost considerations in a particular application.
editor by Dream 2024-05-16
China OEM Professional Customization PMI MSB35E Linear Shaft Rod Sliding Bearing Guide Rail
Product Description
Product Description
Professional Customization PMI MSB35E Linear Shaft Rod Sliding Bearing Xihu (West Lake) Dis. Rail
Features
The trains of balls are designed to a contact angle of 45° which enables it to bear an equal load in radial, reversed radial and lateral directions. Therefore, it can be applied in any installation direction. Furthermore, MSB series can achieve a well balanced preload for increasing rigidity in 4 directions while keeping a low frictional resistance. This is especially suit to high precision and high rigidity required motion.
The patent design of lubrication route makes the lubricant evenly distribute in each circulation loop. Therefore, the optimum lubrication can be achieved in any installation direction, and this promotes the performance in running accuracy, service life, and reliability.
Characteristics
• Compact, Four-way Equal Load
• Self Alignment Capability
• Smooth Movement with Low Noise
• Interchangeability
Mode |
PMI MSB35E |
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Series | MSB-E | |||
Related models | MSB15/20/25/30/35/ E/TE/LE |
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Application: | Warehouse Crane, Shipboard Crane, Goods Yard Crane, Building Crane, Workshop Crane, CNC Machine |
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Material: | Steel |
Structure: | CNC Machine |
Installation: | Automation Equipment |
Driven Type: | – |
Carrying Capacity: | Weight Level |
Samples: |
US$ 35/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
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Can you describe the various mounting options and installations for linear rails in different settings?
Linear rails can be mounted in various configurations to suit different settings and applications. The choice of mounting options depends on factors such as space constraints, load requirements, and the desired motion characteristics. Here are some common mounting options and installations:
1. Horizontal Mounting: Linear rails are horizontally mounted when the desired linear motion is along the horizontal axis. This configuration is commonly used in applications such as CNC machines, where the tool needs to move horizontally across the workpiece.
2. Vertical Mounting: Vertical mounting involves installing linear rails to support vertical linear motion. This configuration is prevalent in applications like vertical machining centers, where the spindle moves vertically to perform machining operations on the workpiece.
3. Inverted Mounting: Inverted mounting is where the linear rail is installed upside down. This configuration is suitable when space limitations or specific design requirements dictate the need for the rail to be positioned below the moving component. Inverted mounting is common in some types of robotic systems.
4. Parallel Mounting: Linear rails can be mounted in parallel to support multiple carriages or moving components. This configuration is beneficial in applications where synchronized linear motion is required, such as in certain types of material handling systems or conveyor belts.
5. Cantilever Mounting: Cantilever mounting involves mounting the linear rail with one end extending beyond a support structure. This configuration is used when access to one side of the linear motion is required, such as in loading and unloading stations on manufacturing lines.
6. Tandem Mounting: Tandem mounting involves mounting multiple linear rails in tandem to share the load and provide additional support. This configuration is suitable for applications with heavy loads or long travel distances, ensuring stability and preventing deflection.
7. Floating Mounting: Floating mounting allows for some degree of flexibility in the alignment of the linear rail. This is useful in applications where there may be minor misalignments or variations in the mounting surface.
The choice of mounting option depends on the specific requirements of the application, and engineers must carefully consider factors such as load distribution, accessibility, and alignment to ensure optimal performance and longevity of the linear rail system.
How do innovations and advancements in linear rail technology impact their use?
Innovations and advancements in linear rail technology have a profound impact on their use, influencing performance, efficiency, and application possibilities. Here are key ways in which technological advancements impact the use of linear rails:
- 1. Enhanced Precision: Advancements in manufacturing processes and materials contribute to higher precision in the design and production of linear rails. This results in improved accuracy and repeatability in linear motion applications, making them suitable for tasks requiring intricate and precise movements, such as in CNC machining and 3D printing.
- 2. Increased Load Capacities: Ongoing innovations allow for the development of linear rails with increased load-bearing capabilities. This is particularly beneficial in industries and applications where heavy loads need to be moved with precision, such as in industrial automation and material handling systems.
- 3. Integration of Smart Technologies: The integration of smart technologies, such as sensors and feedback systems, enhances the monitoring and control capabilities of linear rail systems. This facilitates real-time data collection, predictive maintenance, and improved overall system efficiency, particularly in automated and Industry 4.0 settings.
- 4. Energy Efficiency: Innovations in lubrication systems and materials contribute to increased energy efficiency in linear rail operation. Reduced friction and optimized designs help minimize energy consumption, making linear rails more environmentally friendly and cost-effective over their lifespan.
- 5. Customization and Modularity: Advanced manufacturing techniques enable greater customization and modularity in linear rail systems. Engineers can tailor linear rails to specific application needs, adjusting parameters such as length, load capacity, and material composition for optimal performance in diverse industrial and automation scenarios.
- 6. Durability and Longevity: Continuous improvements in materials and surface treatments enhance the durability and longevity of linear rails. This is particularly beneficial in applications where reliability and minimal maintenance are critical, such as in aerospace testing equipment and high-precision manufacturing.
Overall, innovations in linear rail technology contribute to a broader range of applications, improved performance metrics, and the ability to meet the evolving needs of diverse industries. As technology continues to advance, the versatility and effectiveness of linear rails in various industrial and automation settings are likely to expand even further.
How do linear rails differ from other linear motion components like linear guides or bearings?
While linear rails, linear guides, and bearings are all components used in linear motion systems, they differ in their design, functions, and applications:
Linear Rails: Linear rails typically consist of a long, rigid rail and a carriage that moves along the rail. The rail has a specially designed profile to provide guidance, and the carriage supports and carries the load. Linear rails are known for their ability to handle high loads, offer precise linear motion, and reduce friction for smooth movement.
Linear Guides: Linear guides encompass a broader category that includes linear rails. Linear guides refer to any mechanism that guides linear motion. Linear rails are a specific type of linear guide with a distinctive profile. Linear guides, in a general sense, can include other mechanisms like dovetail slides, boxway guides, and more, each with its own design and application.
Bearings: Bearings are components that reduce friction between moving parts and support radial or axial loads. While linear rails may incorporate bearings within their design, bearings, in a broader sense, can be standalone components used to support rotating or linear motion. Linear bearings, for example, specifically support linear motion and may be used independently or as part of a linear rail system.
In summary, linear rails are a specific type of linear guide with a defined rail and carriage design, whereas linear guides encompass a broader category. Bearings, on the other hand, are components that reduce friction and support loads, and linear bearings specifically cater to linear motion.
editor by Dream 2024-05-16
China wholesaler 2 Axis Xy Linear Sliding Platform Module, Electric CNC Synchronous Guide Rail
Product Description
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X-axis (CFG8) Position repeatability: ±0.01(mm) Ball screw lead: 20(mm) Maximum speed:1000(mm/sec) Standard effective stroke: 50~1100(mm) Suitable motor capacity: servo 200W |
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CF Seiko is a leading manufacturer of linear modules in China, dedicated to advancing industrial automation since our establishment in 2004. We set high standards and deliver top-quality products from our 2 factories in China, covering an area of 9000 square CHINAMFG ., with a team of 150 highly skilled technicians and engineers.
At CF Seiko, we specialize in designing and manufacturing linear modules and have established strong partnerships with over 20 listed companies, including industry giants such as FOXCONN, BYD, GREE, BOE, and more.
Our products offer the same quality as renowned brands like HIWIN, THK, IAI,Misumi and SMC, but at a much more competitive price. We prioritize quality and do not compromise on product standards. We also OEM for these brands.
Our product range includes:
1. Linear Motors
2. Electric Servo Cylinders
3. Ball Screw Linear Modules
4. Belt Driven Linear Modules
5. Rack and Pinion Linear Modules
6. Electric Cylinders Rod Type
7. Cartesian Robots
8. KK Series Module
We are currently seeking distributors in your country. By partnering with us, you can enjoy special discounts, high profits, guaranteed quality, and excellent after-sales service. Our diverse product line is designed to meet all your needs. Join us and explore new opportunities for wealth and success.
If you are interested in becoming a distributor for CF Seiko or would like more information, please do not hesitate to contact us. We are excited about the prospect of collaborating with you to expand our presence in your market.
Thank you for considering CF Seiko as a potential partner.
Warm regards,
Morty Lv(Foreign Trade Director)
FAQ
01HOW TO CONTROL THE PRODUCTS QUALITY?
Combining advanced equipment and strict management, we provide high standard and quality bearings for our customers all over the world.
02 WHAT IS THE TRANSPORTATION?
If small quantity, we suggest to send by express, such as DHL,UPS, TNT FEDEX. If large amount ,by air or sea shipping.
03 Can you offer OEM services?
Yes, we provide OEM service. Which means size, quantity, design, packing solution, etc. we will depend on your requests; and your logo will be customized on our products.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
After-sales Service: | Life Cycle |
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Warranty: | 10.000 Hours |
Muscle Size: | 1~11kg |
Certification: | ISO |
Control Mode: | Continuous Path Control |
Drive Mode: | Electric |
Customization: |
Available
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Can you describe the various mounting options and installations for linear rails in different settings?
Linear rails can be mounted in various configurations to suit different settings and applications. The choice of mounting options depends on factors such as space constraints, load requirements, and the desired motion characteristics. Here are some common mounting options and installations:
1. Horizontal Mounting: Linear rails are horizontally mounted when the desired linear motion is along the horizontal axis. This configuration is commonly used in applications such as CNC machines, where the tool needs to move horizontally across the workpiece.
2. Vertical Mounting: Vertical mounting involves installing linear rails to support vertical linear motion. This configuration is prevalent in applications like vertical machining centers, where the spindle moves vertically to perform machining operations on the workpiece.
3. Inverted Mounting: Inverted mounting is where the linear rail is installed upside down. This configuration is suitable when space limitations or specific design requirements dictate the need for the rail to be positioned below the moving component. Inverted mounting is common in some types of robotic systems.
4. Parallel Mounting: Linear rails can be mounted in parallel to support multiple carriages or moving components. This configuration is beneficial in applications where synchronized linear motion is required, such as in certain types of material handling systems or conveyor belts.
5. Cantilever Mounting: Cantilever mounting involves mounting the linear rail with one end extending beyond a support structure. This configuration is used when access to one side of the linear motion is required, such as in loading and unloading stations on manufacturing lines.
6. Tandem Mounting: Tandem mounting involves mounting multiple linear rails in tandem to share the load and provide additional support. This configuration is suitable for applications with heavy loads or long travel distances, ensuring stability and preventing deflection.
7. Floating Mounting: Floating mounting allows for some degree of flexibility in the alignment of the linear rail. This is useful in applications where there may be minor misalignments or variations in the mounting surface.
The choice of mounting option depends on the specific requirements of the application, and engineers must carefully consider factors such as load distribution, accessibility, and alignment to ensure optimal performance and longevity of the linear rail system.
How do innovations and advancements in linear rail technology impact their use?
Innovations and advancements in linear rail technology have a profound impact on their use, influencing performance, efficiency, and application possibilities. Here are key ways in which technological advancements impact the use of linear rails:
- 1. Enhanced Precision: Advancements in manufacturing processes and materials contribute to higher precision in the design and production of linear rails. This results in improved accuracy and repeatability in linear motion applications, making them suitable for tasks requiring intricate and precise movements, such as in CNC machining and 3D printing.
- 2. Increased Load Capacities: Ongoing innovations allow for the development of linear rails with increased load-bearing capabilities. This is particularly beneficial in industries and applications where heavy loads need to be moved with precision, such as in industrial automation and material handling systems.
- 3. Integration of Smart Technologies: The integration of smart technologies, such as sensors and feedback systems, enhances the monitoring and control capabilities of linear rail systems. This facilitates real-time data collection, predictive maintenance, and improved overall system efficiency, particularly in automated and Industry 4.0 settings.
- 4. Energy Efficiency: Innovations in lubrication systems and materials contribute to increased energy efficiency in linear rail operation. Reduced friction and optimized designs help minimize energy consumption, making linear rails more environmentally friendly and cost-effective over their lifespan.
- 5. Customization and Modularity: Advanced manufacturing techniques enable greater customization and modularity in linear rail systems. Engineers can tailor linear rails to specific application needs, adjusting parameters such as length, load capacity, and material composition for optimal performance in diverse industrial and automation scenarios.
- 6. Durability and Longevity: Continuous improvements in materials and surface treatments enhance the durability and longevity of linear rails. This is particularly beneficial in applications where reliability and minimal maintenance are critical, such as in aerospace testing equipment and high-precision manufacturing.
Overall, innovations in linear rail technology contribute to a broader range of applications, improved performance metrics, and the ability to meet the evolving needs of diverse industries. As technology continues to advance, the versatility and effectiveness of linear rails in various industrial and automation settings are likely to expand even further.
What are linear rails, and how are they used in linear motion systems?
Linear rails, also known as linear guides or linear slides, are mechanical components used in linear motion systems to facilitate smooth and precise movement along a straight path. They typically consist of a rail and a carriage. The rail is a long, rigid structure with a specially designed profile, while the carriage is mounted on the rail and holds the load to be moved.
Linear rails are widely used in various applications, including manufacturing machinery, robotics, 3D printers, and automated systems. They provide guidance and support to the moving components, minimizing friction and ensuring accurate and repeatable motion. The design of linear rails allows for high load-carrying capacity and can accommodate different types of loads, such as radial or axial loads.
Linear motion systems incorporating linear rails offer advantages such as improved precision, reduced wear and tear, and increased efficiency in comparison to traditional sliding mechanisms. The choice of linear rails depends on factors such as load capacity, speed, accuracy requirements, and environmental conditions in the specific application.
editor by Dream 2024-05-16
China supplier China Mini Size CNC Machine Linear Guideway Vertical Machining Center with Fanuc GSK circular linear rail
Product Description
Product Description
NCV-L855
L series machine X/Y 2 axis guide rail are both ball linear guide rail pair, sliding guide rail pair.
High rigidity construction, satisfying requirement of heavy cutting under the rapid operation of the machine tool. Coupling, bearing, spindle, ball screw, linear guide rail, tool magazine, play knife cylinder these key parts adopts Germany, Japan, ZheJiang brand precision grade accessories to ensure its accuracy and quality. Modularization of various configurations to meet customers’ different personal processing requirements: coolant through spindle (CTA); spring ring spindle; 8000rpm belt type spindle, 10000-15000rpm direct connection spindle. This series machining center is designed specially for part processing, accelerating the feed speed of the machine too, while taking into account the high rigid cutting requirements of the machine.
We also have other models : L850, L1060, L1167, L1270, L1370, L1580, L1690, L1890 which are suitable for medium and small and medium-sized metal part processing requirements.
You can choose different CNC control system with different price : Mitsubishi, ZheJiang SYNTEC, FANUC Oi-MF plus(5) or others.
Detailed Photos
Product Parameters
Model | NCV-L855 | |||
Travel | X axis travel | mm | 800 | |
Y axis travel | mm | 550 | ||
Z axis travel | mm | 550 | ||
Distance between spindle and table | mm | 105-655 | ||
Distance between spindle and column | mm | 600 | ||
Table | Size | mm | 550*1000 | |
MAX Load | kg | 500 | ||
T slot size | 5-18*90 | |||
Spindle | Taper | BT40 | ||
diameter | Φ150 | |||
speed | r/min | 8000 | ||
Three axis | Motor power | kw | 2/2/3 | |
Motor rate | KW | 7.5/11 | ||
Cutting feed | m/min | 10 | ||
Rapid feed | m/min | 36/36/20 | ||
Arm type Tool magazine | Tool capacity | T | 24 | |
Maximum length/ weight of tool | mm/kg | 300/8 | ||
Maximum diameter of tool (no tool) | φ78/φ120 | |||
Tool change time (T-T) | s | 2.5 | ||
Accuracy | Positioning accuracy (X/Y/Z) | mm | 0.571 | |
Repeat positioning accuracy (X/Y/Z) | mm | 0.006 | ||
Other | Dimension | mm | 2700*2500*3150 | |
Power capacity | KVA | 15 | ||
Weight | kg | 6500 |
Packaging & Shipping
FAQ
1. MOQ
1 set
2. DELIVERY TIME
It depends on the machine and model you choose. Mostly 2 months – 4months. All machines are 100% new and not used.
3. PAYMENT TERM
T/T 30% down payment when order, 70% balance payment before shipment.
4. WARRANTY PERIOD
13 months from the date of B/L, during the warranty period, daily damage parts will be supplied freely, the after sale service will be done by dealers . After warranty period, the spare parts will be supplied at factory price.
5. Customized products
We can design and manufacture according to your specific requirements, such as change the CNC control systems, change the spindle nose taper, upgrade the standard motor and more. You do not have to hesitate to contact me.
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After-sales Service: | Help Check |
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Warranty: | 1 Year |
Application: | Metal |
Process Usage: | Metal-Cutting CNC Machine Tools |
Movement Method: | Linear Control |
Control Method: | Closed-Loop Control |
Customization: |
Available
| Customized Request |
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How to Choose the Right Linear Rail for Your Fishing Rod
Compared to rods, linear rail is cheaper and offers a wide variety of applications. It is also corrosion resistant and has the ability to handle both tearing loads and torque forces.
A wide range of applications
Using a linear rail system is a good way to safely move things through a manufacturing process. They are used in a wide range of industries, and are especially helpful in moving items through packaging and production.
They are typically made from hardened materials such as steel, and have load-supporting balls on both sides. This helps them to handle loads from a few grams to thousands of kilograms, and can withstand overhung loads when paired with another rail.
Linear rails are also used in a variety of applications, including food and beverage production. In this industry, they are required to withstand harsh conditions and must adhere to local health and safety standards.
They are commonly used in weighing machines. They also find applications in CNC machines and moving robot arms in factory lines. The high level of rigidity and load capacity make them a good option for moving products with little friction.
Linear rails can be used vertically or horizontally. They are also a good choice for weight guidance when centered below the rail. They can join multiple rails for very long travel lengths, and can be joined to perform a seventh axis.
These rails can handle travel speeds of up to 5 m/s. They are commonly used in industrial applications, and can handle loads from a few grams to thousands. They are also useful for pneumatic and belt-driven systems, and are often used as actuator guide mechanisms.
There are many different types of linear rails. They range in size and length, and have a variety of processing methods. You can also find simple surface bearings, which are characterized by a low coefficient of friction.
For applications requiring precise positioning and precise travel accuracy, linear rail systems are the way to go. They provide the highest level of rigidity and are capable of achieving travel speeds of up to 5 m/s.
They provide large travel spaces
Various applications may call for the use of a linear rail. These can be square, rectangular or round in shape and can handle loads from a few grams to thousands of kilograms. They also have a long lifespan.
In a nutshell, a linear rail provides low friction guidance for a load. They are used in the industrial sector in a number of applications. Aside from the obvious one’s, a single linear rail can save valuable floor space. It also ostensibly has the trifecta of a runner, power screw and ball bearings.
Linear rails are not for the faint of heart. Aside from the obvious cost, you will also be expected to mount, support and install them properly. You should also consider the size, shape and quality of the components. They can be bought in any length, from a few inches to several feet. They are also made from a wide variety of materials. Some of the materials used include steel, aluminum, and polymers. They can be shaped and joined to achieve very long travel lengths. They are also susceptible to damage.
The name of the game is to choose a good set of quality linear guides. There are two types in common usage today. The first is a runner with ball bearings, and the second is a runner with rollers. The latter is the less expensive choice. Aside from the usual suspects, you can also choose a saddle or fixed slide. It’s a good idea to use them in pairs. They are also the best suited for heavy duty applications.
The most important factor to consider when selecting a linear rail is the load capacity. While a single linear rail can be used in many applications, multiple rails are the best option for the job.
They withstand both tearing loads and torque forces
Generally constructed from corrosion resistant steel, linear rails are sturdy and robust enough to handle a wide variety of applications. They are usually used on mechanical systems with high precision requirements. They also provide a smooth and accurate motion.
In order to achieve the highest level of efficiency, the rail must be accurately supported and installed. It may also require some form of lubrication. The design of the rail may be influenced by factors like size, shape, and frequency of use.
For instance, linear rails are often used for actuator guides. These guide mechanisms provide a smooth, reliable, and low-friction motion. A runner is inserted inside the rail and moves from front to back. The runner may have ball bearings or a pair of sleeve bearings.
Another notable feature of the linear rail is the ability to withstand torque and tearing forces. They are also capable of handling larger loads, providing greater stability to the entire system. The most important feature is the fact that they are easy to install and remove. They are also capable of achieving high speeds.
There are many types of linear rails to choose from. Some may be suitable for consumer applications, while others are more suited for industrial applications. Some of the common factors that affect the lifespan of a rail include size, frequency of use, and mounting. A single rail is a space saver, while dual rails maximize bearing life.
Some of the major components in a linear slide include the runner, the bearings, and the carriage. In addition to the runner, the slide may also feature the motor, power screw, or other components. Some of these features are the smallest relative to the overall linear slide.
They’re cheaper than rods
Choosing the best linear rails for your fishing rod is no small feat. You must understand the characteristics of various rails before you can find the one that best fits your needs. You may also want to consider choosing a rail that will last for many years. This is especially true if you are fishing in saltwater.
The best linear rails are designed with a variety of factors in mind. They will help you achieve precision and longevity. In addition, these guides are made of materials that are durable. They are also affordable. There are a variety of choices, including round and square rails.
The best rods have a good selection of features, including a good reel seat and flexible nickel/titanium snake guides. You should also look for a rod that has a smooth but firm handle and a rod that is easy to use. The best rods will also be a bit pricier, but you will not regret your investment.
The best rods use quality cork and stacks of smaller cork rings. The best rods have a cork handle that has a good feel. This handle has a big flare at the bottom and has narrow cork rings on the top. This handle is the best fly rod handle that you will find.
The best rods also have a well made reel seat that will hold firmly and easily. It should also have thin nylon spacers between the rings for a positive lock up. The reel seat should also be made from an anodized black aluminum up-lock seat with a synthetic gray insert.
The best rods also have reputable guide sets. This includes a new CERECOIL stripping guide made of nickel Titanium. This guide uses a multi-taper design that removes material from the weakest areas, thus improving dampening and recovery.
They’re corrosion-resistant
Stainless steel linear rails are essential in many industries, including vacuum applications, the pharmaceutical industry, and electronic circuit machines. They are also necessary for washing down cycles.
Stainless steel rails have excellent corrosion resistance. The steel surface is coated with an inert layer that prevents the rusting of the steel. Steel surfaces can rust over time, though, and rust can contaminate equipment. It’s important to check with your manufacturer about any corrosion resistance treatments that may be available.
Carbon steel linear bearings can be treated with hard chrome, black chrome, or a corrosion-resistant coating. These bearings are more expensive than those made of austenitic steel, but they provide similar corrosion resistance. They also have a lower hardness.
Silicon Nitride balls are another option. These balls are 40% lighter than steel, so they can carry higher loads without causing electrolysis. They’re also inert to chemicals and are capable of higher speeds. They’re available in closed or open designs. They come in four different sizes. They’re also coated with CZPT coating, which reduces the surface area of the balls in contact with the steel.
Another option is electroless nickel plating, which is inexpensive. This type of plating uses nickel instead of copper to prevent corrosion. It also offers a low friction coefficient.
Another option is drylin(r) linear technology, which combines the corrosion-resistance of thermoplastic bearing liners with shafting. This technology is ideal for chemical washdown environments, as well as those in saltwater environments. These systems also provide excellent rigidity and high load-bearing capacities.
Other types of linear guides are also available. Plain bearing guides may be appropriate for less expensive applications, while round shaft systems may be better for more expensive applications.
editor by Dream 2024-05-15
China Hot selling Customized Deep Groove Ball Bearing Linear Guide Bearing Pillow Block Bearing OEM linear rail brake
Product Description
1.Product Specification:
The type of deep groove ball bearing series component materials used in automobile, tractor, machinery, motor, water pump, agricultural machinery and textile machinery. Its wide application, simple design, non – separation, suitable for high – speed, reliable operation, low maintenance costs.The tight consistency between deep raceway and groove and ball enables deep raceway ball bearings to withstand axial loads in both directions in addition to radial loads.
2.Product Detail:
Products Name | Deep Groove Ball Bearing |
Precision | P0,P6,P5,P4 |
Sealing | Open,Z,RZ,ZZ,RS,2RS |
Radial play | C2,C0,C3 |
Material | Chrome Steel, Stainless Steel,Bearing Steel,Ceramic |
Feature | Low noise, High quality,Long operating life Resistance to wear,Smooth |
Quality Standard | ISO9, 63192752 |
Fax: | |
Address: | Mayan Industry Zone, Henghe Town, HangZhou, HangZhou, China |
11.FAQ of Deep Groove Ball Bearing
1.Q:Are you a factory or trading company?
A:Kent Bearing is specialized in manufacturing and exporting bearings,
and we have our own factory and warehouse.
2.Q:Can I get some samples and do you offer the sample free?
A:Yes, sure, Kent Bearing are honored to offer you samples.
3.Q: How about the shipping?
A: We can arrange the shipment or you may have the forwarder.
4.Q: Could you tell me the material of our bearing?
A: We have chrome steel, and stainless steel, ceramic and plastic material.
5.Q: Can we get support if we have our own market position?
A: Please inform us detailed information about your market,we will dicuss
and propose helpful suggestion for you and to find the best solution for you.
OEM POLICY
1.We can printing your brand (logo,artwork)on the shield or laser engraving your brand
on the shield.
2.We can custom your packaging according to your design.
3.All copyright own by clients and we promised don’t disclose any info.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
Noise Standard: | Z1 Z2 Z3 Z4 V1 V2 V3 V4 |
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Precision Rating: | P0, P6, P5, P4 |
Aligning: | Non-Aligning Bearing |
Separated: | Unseparated |
Rows Number: | Single |
Load Direction: | Radial Bearing |
Samples: |
US$ 1/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
| Customized Request |
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How to Choose the Right Linear Rail for Your Fishing Rod
Compared to rods, linear rail is cheaper and offers a wide variety of applications. It is also corrosion resistant and has the ability to handle both tearing loads and torque forces.
A wide range of applications
Using a linear rail system is a good way to safely move things through a manufacturing process. They are used in a wide range of industries, and are especially helpful in moving items through packaging and production.
They are typically made from hardened materials such as steel, and have load-supporting balls on both sides. This helps them to handle loads from a few grams to thousands of kilograms, and can withstand overhung loads when paired with another rail.
Linear rails are also used in a variety of applications, including food and beverage production. In this industry, they are required to withstand harsh conditions and must adhere to local health and safety standards.
They are commonly used in weighing machines. They also find applications in CNC machines and moving robot arms in factory lines. The high level of rigidity and load capacity make them a good option for moving products with little friction.
Linear rails can be used vertically or horizontally. They are also a good choice for weight guidance when centered below the rail. They can join multiple rails for very long travel lengths, and can be joined to perform a seventh axis.
These rails can handle travel speeds of up to 5 m/s. They are commonly used in industrial applications, and can handle loads from a few grams to thousands. They are also useful for pneumatic and belt-driven systems, and are often used as actuator guide mechanisms.
There are many different types of linear rails. They range in size and length, and have a variety of processing methods. You can also find simple surface bearings, which are characterized by a low coefficient of friction.
For applications requiring precise positioning and precise travel accuracy, linear rail systems are the way to go. They provide the highest level of rigidity and are capable of achieving travel speeds of up to 5 m/s.
They provide large travel spaces
Various applications may call for the use of a linear rail. These can be square, rectangular or round in shape and can handle loads from a few grams to thousands of kilograms. They also have a long lifespan.
In a nutshell, a linear rail provides low friction guidance for a load. They are used in the industrial sector in a number of applications. Aside from the obvious one’s, a single linear rail can save valuable floor space. It also ostensibly has the trifecta of a runner, power screw and ball bearings.
Linear rails are not for the faint of heart. Aside from the obvious cost, you will also be expected to mount, support and install them properly. You should also consider the size, shape and quality of the components. They can be bought in any length, from a few inches to several feet. They are also made from a wide variety of materials. Some of the materials used include steel, aluminum, and polymers. They can be shaped and joined to achieve very long travel lengths. They are also susceptible to damage.
The name of the game is to choose a good set of quality linear guides. There are two types in common usage today. The first is a runner with ball bearings, and the second is a runner with rollers. The latter is the less expensive choice. Aside from the usual suspects, you can also choose a saddle or fixed slide. It’s a good idea to use them in pairs. They are also the best suited for heavy duty applications.
The most important factor to consider when selecting a linear rail is the load capacity. While a single linear rail can be used in many applications, multiple rails are the best option for the job.
They withstand both tearing loads and torque forces
Generally constructed from corrosion resistant steel, linear rails are sturdy and robust enough to handle a wide variety of applications. They are usually used on mechanical systems with high precision requirements. They also provide a smooth and accurate motion.
In order to achieve the highest level of efficiency, the rail must be accurately supported and installed. It may also require some form of lubrication. The design of the rail may be influenced by factors like size, shape, and frequency of use.
For instance, linear rails are often used for actuator guides. These guide mechanisms provide a smooth, reliable, and low-friction motion. A runner is inserted inside the rail and moves from front to back. The runner may have ball bearings or a pair of sleeve bearings.
Another notable feature of the linear rail is the ability to withstand torque and tearing forces. They are also capable of handling larger loads, providing greater stability to the entire system. The most important feature is the fact that they are easy to install and remove. They are also capable of achieving high speeds.
There are many types of linear rails to choose from. Some may be suitable for consumer applications, while others are more suited for industrial applications. Some of the common factors that affect the lifespan of a rail include size, frequency of use, and mounting. A single rail is a space saver, while dual rails maximize bearing life.
Some of the major components in a linear slide include the runner, the bearings, and the carriage. In addition to the runner, the slide may also feature the motor, power screw, or other components. Some of these features are the smallest relative to the overall linear slide.
They’re cheaper than rods
Choosing the best linear rails for your fishing rod is no small feat. You must understand the characteristics of various rails before you can find the one that best fits your needs. You may also want to consider choosing a rail that will last for many years. This is especially true if you are fishing in saltwater.
The best linear rails are designed with a variety of factors in mind. They will help you achieve precision and longevity. In addition, these guides are made of materials that are durable. They are also affordable. There are a variety of choices, including round and square rails.
The best rods have a good selection of features, including a good reel seat and flexible nickel/titanium snake guides. You should also look for a rod that has a smooth but firm handle and a rod that is easy to use. The best rods will also be a bit pricier, but you will not regret your investment.
The best rods use quality cork and stacks of smaller cork rings. The best rods have a cork handle that has a good feel. This handle has a big flare at the bottom and has narrow cork rings on the top. This handle is the best fly rod handle that you will find.
The best rods also have a well made reel seat that will hold firmly and easily. It should also have thin nylon spacers between the rings for a positive lock up. The reel seat should also be made from an anodized black aluminum up-lock seat with a synthetic gray insert.
The best rods also have reputable guide sets. This includes a new CERECOIL stripping guide made of nickel Titanium. This guide uses a multi-taper design that removes material from the weakest areas, thus improving dampening and recovery.
They’re corrosion-resistant
Stainless steel linear rails are essential in many industries, including vacuum applications, the pharmaceutical industry, and electronic circuit machines. They are also necessary for washing down cycles.
Stainless steel rails have excellent corrosion resistance. The steel surface is coated with an inert layer that prevents the rusting of the steel. Steel surfaces can rust over time, though, and rust can contaminate equipment. It’s important to check with your manufacturer about any corrosion resistance treatments that may be available.
Carbon steel linear bearings can be treated with hard chrome, black chrome, or a corrosion-resistant coating. These bearings are more expensive than those made of austenitic steel, but they provide similar corrosion resistance. They also have a lower hardness.
Silicon Nitride balls are another option. These balls are 40% lighter than steel, so they can carry higher loads without causing electrolysis. They’re also inert to chemicals and are capable of higher speeds. They’re available in closed or open designs. They come in four different sizes. They’re also coated with CZPT coating, which reduces the surface area of the balls in contact with the steel.
Another option is electroless nickel plating, which is inexpensive. This type of plating uses nickel instead of copper to prevent corrosion. It also offers a low friction coefficient.
Another option is drylin(r) linear technology, which combines the corrosion-resistance of thermoplastic bearing liners with shafting. This technology is ideal for chemical washdown environments, as well as those in saltwater environments. These systems also provide excellent rigidity and high load-bearing capacities.
Other types of linear guides are also available. Plain bearing guides may be appropriate for less expensive applications, while round shaft systems may be better for more expensive applications.
editor by Dream 2024-05-15