ANSI Double Strand Roller Chain Is A Variation Of ANSI Standard Roller Chains That Has Two Parallel Rows Of Interconnecting Links. The Links Are Connected By Pins And Bushings, Which Allow The Chain To Move Smoothly And Transmit Power. Double-strand roller Chains Are Constructed Of High-Quality Steel, Which Is Heat-Treated And Hardened To Improve Its Strength And Wear Resistance. The Rollers Are Precision-Machined To Ensure That They Roll Smoothly On The Sprockets. Double Strand Roller Chains Offer Higher Strength And Load-Carrying Capacity Than Single Strand Roller Chains (Twice The Tensile Strength), Which Makes Them Suitable For Heavy-Duty Applications That Require High Reliability And Durability. They Are Commonly Used In Conveyors, Packaging Equipment, Material Handling, Agriculture Equipment, And Machinery. The Double Strand Design Provides Redundancy In Case One Row Fails, Which Improves The Overall Reliability Of The Chain.
Advantages Of ANSI Standard Roller Chain(Double Strand):
Packaging Options:
The ANSI Double Strand Roller Chain is a robust and versatile variation of the ANSI Standard Roller Chain. It is specifically engineered to cater to heavy-duty industrial applications, offering strength, durability, and reliability. Let's delve further into the key attributes and advantages of the ANSI Standard Roller Chain (Double Strand).
One of the distinctive features of the Double Strand Roller Chain is its construction with two parallel rows of interconnecting links. These links are held together by precision-made pins and bushings, ensuring a smooth and efficient movement of the chain, and making it a power transmission solution. The use of high-quality steel in its construction, coupled with heat treatment and hardening, significantly enhances its strength and wear resistance. This results in a chain that can endure conditions and still deliver reliable performance.
The precision-machined rollers of the Double Strand Roller Chain are designed to smoothly engage with sprockets, reducing friction and wear. This contributes to the chain's overall longevity and efficiency in conveying power and motion within your industrial systems.
One of the compelling advantages of the Double Strand Roller Chain is its remarkable strength and load-carrying capacity. It offers al twice the tensile strength of single-strand roller chains. This strength makes it ideal for applications that involve heavy loads and high shock loads. The redundancy provided by the double-strand design further enhances its reliability. In case one row of links fails, the second row continues to provide the necessary support, reducing the risk of unexpected downtimes.
Durability is another hallmark of the Double Strand Roller Chain. Crafted from high-quality steel and subjected to heat treatment, it excels in wear resistance and has a longer service life compared to other types of chains. This resilience to wear and tear results in less frequent replacements, reducing maintenance costs and increasing overall operational efficiency.
Efficiency is a key concern in any industrial operation. The double-strand design the amount of sag between sprockets, reducing wear and extending the life of the chain. This not only saves on maintenance but also contributes to the overall efficiency and reliability of the machinery.
The versatility of the Double Strand Roller Chain is a significant asset. It finds its applications across a wide range of industrial sectors, including conveyors, packaging equipment, material handling, agriculture equipment, and machinery. This adaptability makes it a popular choice for various industrial needs, providing a dependable solution for a multitude of applications.
In conclusion, the ANSI Standard Double Strand Roller Chain is an exceptional choice for demanding industrial applications. Its combination of high strength, durability, reliability, efficiency, and versatility ensures that it can withstand rigorous conditions while operational costs. When you choose the ANSI Double Strand Roller Chain, you're investing in a power transmission solution that keeps your operations running smoothly, efficiently, and dependably.
ISO Chain No. |
ANSI Chain No. |
Pitch |
Inner Width Of Inner Link |
Roller Diameter |
Plate Thickness |
Inner Plate Depth |
Pin Dia |
Pin Length |
Cl Pin Length |
Transverse Pith |
Min Tensile Strength |
Average Tensile Strength |
Approx |
P |
b1 min |
d1 max |
T1/T2 |
h2 max |
d2 max |
L max |
LC max |
Pt |
Qmin |
Q0 |
q≈ |
||
mm |
mm |
mm |
mm |
mm |
mm |
mm |
mm |
mm |
KN |
KN |
kg/m |
||
16A-2 |
80-2 |
25.40 |
15.75 |
15.88 |
3.20 |
24.00 |
7.92 |
62.70 |
64.00 |
29.29 |
133.40 |
141.80 |
5.15 |