Type of slider | Width 1 |
Height H3 |
Height 1 |
Height 4 |
Shaft | Pitch | End | Macro porous 1 |
Macro porous 2 |
Hole depth |
Single length |
Buttle length |
Weight Kg-m |
||
LGD6 | 26 | 29 | 18 | 13 | φ6 | 60 | 30 | φ9.5 | φ5.5 | 7 | 0-6000 | Infinite | 1.25 | ||
LGD8 | 28 | 30 | 20 | 14 | φ8 | 50 | 25 | φ9 | φ5.5 | 5.5 | 0-6000 | Infinite | 2.3 | ||
LGD8W | 30 | 33 | 21 | 15 | φ8 | 80 | 40 | φ9.5 | φ5.5 | 8 | 0-6000 | Infinite | 2.5 | ||
LGD12 | 36 | 39 | 25.5 | 16 | φ12 | 50 | 25 | φ12.5 | φ6.5 | 12.5 | 0-6000 | Infinite | 3.1 | ||
LGD16 | 50 | 50 | 32 | 21 | φ16 | 80 | 40 | φ21 | φ9 | 17 | 0-6000 | Infinite | 5.8 | ||
Type of slider | Width 2 | Height 2 | Length 2 | Mounting holes size S1*S2 |
Mounting holes |
||||||||||
LGB6-60L-4UU | 60 | 26 | 60 | 38*40 | M5*8 | ||||||||||
LGB6-100L-4UU | 60 | 26 | 100 | 38*75 | M5*8 | ||||||||||
LGB6-100L-6UU | 60 | 26 | 100 | 38*75 | M5*8 | ||||||||||
LGB8-70L-4UU | 60 | 26 | 70 | 40*50 | M6*8 | ||||||||||
LGB8-100L-4UU | 60 | 26 | 100 | 40*80 | M6*8 | ||||||||||
LGB8-100L-6UU | 60 | 26 | 100 | 40*80 | M6*8 | ||||||||||
LGB8W-70L-4UU | 67 | 27.5 | 70 | 45*45 | M8*8 | ||||||||||
LGB8W-100L-4UU | 67 | 27.5 | 100 | 45*75 | M6*8 | ||||||||||
LGB8W-100L-6UU | 67 | 27.5 | 100 | 45*75 | M6*8 | ||||||||||
LGB12-60L-2UU | 82 | 36 | 60 | 54*40 | M6*10 | ||||||||||
LGB12-100L-4UU | 82 | 36 | 100 | 54*76 | M6*10 | ||||||||||
LGB12-100L-6UU | 82 | 36 | 100 | 54*76 | M6*10 | ||||||||||
LGB12-140L-4UU | 82 | 36 | 140 | 54*116 | M6*10 | ||||||||||
LGB12-140L-6UU | 82 | 36 | 140 | 54*116 | M6*10 | ||||||||||
LGB12-160L-8UU | 82 | 36 | 160 | 54*136 | M6*10 | ||||||||||
LGB16-150L-4UU | 120 | 46 | 150 | 90*120 | M8*12 | ||||||||||
LGB16-150L-6UU | 120 | 46 | 150 | 90*120 | M8*12 | ||||||||||
LGB16-180L-4UU | 120 | 46 | 180 | 90*150 | M8*12 | ||||||||||
LGB16-180L-6UU | 120 | 46 | 180 | 90*150 | M8*12 |
Kgf The basic dynamic load |
Kgf Basic static load |
Allowable Static Moment | Weight Kg-per |
||
To/Kgi-m | Tx/Kgf-m | Ty/Kgt-m | |||
60 | 100 | 2.3 | 1.6 | 1.8 | 0.16 |
70 | 110 | 2.5 | 1.8 | 2 | 0.18 |
80 | 140 | 3 | 2.2 | 2.5 | 0.25 |
80 | 120 | 3.6 | 3 | 3.2 | 0.2 |
90 | 140 | 3.6 | 3 | 3.2 | 0.23 |
100 | 160 | 3.6 | 3 | 3.2 | 0.28 |
80 | 120 | 3.6 | 3 | 3.2 | 0.25 |
90 | 140 | 3.6 | 3 | 3.2 | 0.28 |
100 | 160 | 3.6 | 3 | 3.2 | 0.32 |
100 | 150 | 2.1 | 1.6 | 1.9 | 0.32 |
160 | 300 | 6 | 5 | 5.5 | 0.57 |
200 | 350 | 8 | 6 | 7 | 0.7 |
200 | 350 | 8 | 6 | 7 | 0.7 |
240 | 400 | 10 | 8 | 9 | 0.73 |
280 | 420 | 11 | 8 | 10 | 0.85 |
350 | 650 | 15 | 13 | 14 | 1.4 |
400 | 750 | 17 | 14 | 15 | 1.65 |
380 | 680 | 16 | 14 | 15 | 1.6 |
450 | 800 | 18 | 16 | 17 | 1.85 |
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The Dual-shaft linear rail is a linear motion system that provides precision and durability to a wide range of industrial applications. The system consists of two parallel shafts, each with a series of specially designed bearings that allow for smooth and consistent motion. The bearings – which can be made of a variety of materials, including steel, ceramic, and plastic – are supported by the shafts, which provide the structural support and rigidity necessary for a high-precision linear motion system.
One of the key advantages of the Dual-shaft linear rail is its high precision. The design of the system ensures a consistent, smooth, and reliable motion, ensuring that the finished product is of the highest quality. This precision makes it an ideal choice for applications such as CNC machines, inspection systems and semiconductor manufacturing, where precision and accuracy are critical.
Another advantage of the Dual-shaft linear rail is its durability and resistance to wear and tear. The system is designed to withstand the rigors of industrial use, including exposure to harsh chemicals, temperature extremes, and dust and debris. This durability makes it an excellent choice for applications such as packaging and printing machines, as well as heavy-duty manufacturing equipment.
The Dual-shaft linear rail is constructed from high-quality materials that have been carefully selected for their strength and durability. The shafts are typically made from high-strength materials, such as aluminum alloy, and are treated with special coatings and treatments to enhance their resistance to corrosion and wear. The bearings are also designed to be highly durable and resistant to corrosion, with their materials and treatments varying depending on the application and environmental conditions.
In addition to these advantages, the Dual-shaft linear rail is also known for its versatility. The system can be customized to meet the specific requirements of a wide range of industrial applications, including semiconductor manufacturing, automotive and aerospace manufacturing, and medical equipment. This flexibility makes the Dual-shaft linear rail an excellent choice for applications that require precise, consistent linear motion.
One of the most important considerations when selecting a Dual-shaft linear rail is the type of bearing used in the system. The bearings can vary depending on the application and may be made of steel, ceramic, or plastic. Some applications may require a higher level of precision or greater load capacity, which may necessitate the use of more advanced bearing materials such as ceramic or steel.
Another important factor to consider when selecting a Dual-shaft linear rail is the type of shaft material used in the system. The shafts may be made of various materials, including stainless steel, aluminum alloy, and carbon fiber, each with unique properties and advantages. Aluminum alloy material, for example, is lightweight and corrosion-resistant, making it an excellent choice for applications that require high-speed motion and durability.
In addition to these factors, it is also important to consider other features such as the surface treatment and coating of the system. Anodized surface treatment, for example, can enhance the corrosion resistance and wear resistance of the system, while chrome plating can improve the durability and hardness of the shafts.
Overall, the Dual-shaft linear rail is an excellent choice for a wide variety of industrial applications, providing precision, durability, and versatility. With its dual-shaft design, high-quality materials, and advanced bearing technology, the Dual-shaft linear rail is a reliable and effective linear motion system that can withstand the rigors of industrial use and deliver consistent performance over time.