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CABLE MANAGEMENT: GET IT RIGHT FOR RELIABILITY

08-05-2018
by 
in 

John Sharp offers guidance on the correct use of cable carriers.

To prevent unnecessary downtime, any cable management system needs to be properly specified, designed and installed. Taking care of the basics in the beginning can prevent major dramas later on, such as loss of continuity, insulation damage, mechanical deformation, or EMI problems, later on.

Today’s cable carriers are capable of longer travels, faster speeds, and higher loads than ever before. And these factors make it even more important to get it right first time.

As a 25-year veteran in e-chain sales, I can confirm that most of Australian industry pays no regard to the filling inside an energy chain.

If it physically fits it’s good to go, right?

How many times have I heard my customers say “why is that chain so big?”

Follow our recommendations below and you may have a cable carrier system that outlasts the machine.

Maintain interior separation

Interior separators and shelves are crucial for keeping similar cables and hoses compartmentalised. When separation is not used, cables can cross over one another and become tangled.

The clearance height of a compartment with several cables and hoses shouldn’t be more than 1.5x the diameter of the largest cable or hose. Cables with wide differences in diameter should be laid in separate compartments. Cables and hoses with incompatible jackets should also be separated.

The maximum cable or hose diameter corresponds to the inner height of the selected cable carrier, with additional minimum clearance. We recommend leaving a 10% clearance surrounding electrical cables, and 20% clearance surrounding hydraulic hoses.

The faster and more frequently a cable carrier operates, the more important the exact positioning of the cables and hoses inside. For high-speed applications faster than 0.5m/s, or for high cycle applications with over 10,000 cycles per year, cables or hoses must not be laid on top of one another without horizontal separation.

Distribute the weight evenly

Cables and hoses need to be laid inside a cable carrier so that they are able to move freely without exerting tensile forces along the radius. Unevenly distributed weight can result in a cable carrier that is too heavy on one side, which can disrupt movement and cause the carrier to tilt, potentially interfering with the work area.

Don’t overfill a cable carrier

While it may be hard to leave seemingly available cable carrier space unfilled, overfilling a cable carrier can obstruct free movement. Cables that do not have room to move properly will interfere with the movement of the cable carrier.

Additionally, if cables become caught on one another and bind, jacket abrasion can be significantly increased. There is also a greater chance of electromagnetic interference when power and data cables are positioned close together.

As a rule, we recommend you space all power and data cables as far apart as possible in order to best prevent EMI.

Provide proper strain relief

Without the proper strain relief, there is no way to control the length of the cable inside the carrier.

As the cable carrier moves back and forth, the cable will pull into the carrier and bunch up, causing premature system failure. Points outside the carrier, such as connectors or end termination points, will also absorb all mechanical forces.

Typically, round electrical cables should be secured with strain relief at both ends. In exceptional cases, the cables may be fixed with strain relief at the moving end only. We recommend a gap of 10-30 times the cable diameter between the end of the bend radius and the fixed point.

Install cables along the neutral axis

Correctly strain relieved cables will position in the neutral axis of a cable carrier. The cables should not be pulled tight against the inner radius or pushed against the outer radius.

Strain relief should be properly installed, and then tested in both the extended and the home position.

Avoid putting dissimilar jacket types together

If the outer jacket of cables/hoses have different coefficients of friction and rub against one another, the harder, more resilient material will gradually wear down the softer jacket, leading to failure.

While PUR and TPE jackets have similar wear characteristics and laying these types of cables together is not a problem, mixing PVC and PUR jackets is not recommended. If jacket materials need to be mixed in the same carrier, then ensure that the jacket materials are rated for cable carrier use.

Rubber or thermoset jacket materials tend to have tackier surfaces and will bind inside cable carriers, and are therefore not recommended as outer jacket materials when using a cable carrier system.

Get the right cable carrier length

If the cable carrier’s length is miscalculated, then the full range of movement could be compromised. Pulled or stretched cables can result in conductor breakage.

To properly calculate the length of an Energy Chain cable carrier, use the following equations:

LK = S/2 + K or LK = S/2 + ΔM + K

If the fixed end is located in the centre of travel, the cable carrier’s length, LK, is calculated by using half the length of travel, and adding the value K for the bend radius. Placing the fixed end in the centre of travel is the most cost-effective solution, as it requires the shortest possible cable carrier and cable/hose lengths.

When the fixed end is not located in the centre, the offset mounting value (∆M) must be added.

Clearly, cable carriers are used in an enormous range of applications. That’s why Treotham Automation offers a free consultation services for customers and potential customers. Just provide the cable requirements of the application, and we will send our recommendations quickly, with no strings attached.

John Sharp is National Sales Manager at Treotham Automation.

Treotham Automation
1300 65 75 64
www.treotham.com.au

 

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