Put to the Ultimate Test – Part 3: Drag Chain Tests
During the development of our cables and wires, we vigorously test each product in our testing laboratories. In the third part of our series, we’ll introduce you to our drag chain tests.
Drag chains – also known as energy chains – are ideal for guiding and protecting electrical cables, and hydraulic and pneumatic hoses in moving machinery and equipment. They are used in situations where machine components are moving back and forth – for example in lifts, machine tools, and in the control stations of high-bay warehouses. The guide ensures that the smallest permissible bending radius for the cables is not exceeded, thereby avoiding damage.
Drag chain cables are constantly moving – often non-stop around the clock – making fast accelerations, tight bending radii, and continuous abrasion ongoing challenges. There are many applications where drag chain cables have to withstand millions of bending cycles undamaged, and at the same time be resilient to oil, heat and chemicals. High-quality conductor insulation and jacketing materials are essential to reduce the risk of abrasive wear that might damage the cables and lead to expensive machine outages.
The HELUKABEL portfolio contains special drag chain cables for moving applications in drag chains. To ensure that they meet the stringent demands of day-to-day use, we subject them to extensive testing in our testing laboratory in Windsbach, Germany. We have a variety of drag chain test facilities with traverse paths ranging from 3 to 131 feet (0.9 to 40 meters). With accelerations of up to 164 ft/ s² (50 m/s²), velocities of up to 33 ft/s (10 m/s), and different chain radii, we can realistically simulate diverse operating conditions. The aim of these tests is to prove that the copper wires, conductor insulations, stranding, and outer jacketing withstand constantly changing bending stresses undamaged and therefore meet our high quality standards.
Only cables that fulfill every one of our strict requirements find their way into our product portfolio. Therefore, our drag chain cables are HELUKABEL’s contribution to ensuring that plant and machinery are able to operate both cost-effectively and efficiently over the long term, even in harsh conditions.
Click here to read more about the drag chain test equipment we use and the performance criteria we can evaluate.
Ask the Expert
Günter Meyer is Head of Dynamic Testing at the HELUKABEL plant in Windsbach
What do you have to pay particular attention to when choosing a drag chain cable?
There are several criteria: firstly, the copper wires should be finely stranded, i.e., are conductor class 5 / Class K or M (AWG). The individual conductors should be stranded with the smallest possible lay length to optimize flexibility. The design of the jacketing and insulating materials must take into account the required movements as well as the relevant ambient conditions. It is also recommended to keep the number of conductors to a minimum: if the number of conductors increases, a special stranding process is required. This increases the diameter of the cable which might lead to space problems in the chain. Furthermore, drag chain cables must be designed to be as light as possible. The drag chain has to carry its own weight as well as that of the cables inside it. The lower the overall weight, the greater the dynamic performance and the less energy needed to get the system moving.
How are the cables aligned in a drag chain?
For optimal alignment, it is important to define beforehand precisely which cables and other components such as pneumatic and hydraulic hoses will be used and to select the drag chain accordingly. Cables and hoses should be loosely placed beside each other in the chambers of the drag chain and, ideally, kept apart from one another using dividers. Maintaining a specified clearance between the cable and the divider ensures that the cables can move freely. Symmetrical weight distribution in the chain helps to ensure smooth operation. Additionally, the cables in each section should all have the same jacketing material to avoid unnecessary abrasion.