Equipment & Technology

How to select the ideal emergency safety switch

Emergency stop switches go hand in hand with conveyor systems. The safety of personnel depends on the implementation of adequate safety switches. Kinder Australia design engineer, David Zhungu, explains how to select the right one.

Emergency stop switches go hand in hand with conveyor systems. The safety of personnel depends on the implementation of adequate safety switches. Kinder Australia design engineer, David Zhungu, explains how to select the right one.

Selecting the right pull wire or belt alignment switch depends on several factors. Conveyors can be located anywhere in the world, in a range of different conditions, so choosing the correct switch for the required operating conditions is essential.

The ingress protection (IP) rating for water and dust determines what conditions an emergency safety switch can reliably operate under.

Indoor operated conveyors would need a lower IP rating as they are not exposed to the elements. In hazardous areas where there is risk of explosions or fires, the enclosure material is critical. 

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The length of the conveyor also plays a part in determining the distance each pull wire switch can cover, based on the maximum pull wire length and the number of belt drift switches. 

Australian/New Zealand standards stipulate the number of switches required as well as the maximum pull wire lengths permitted. 

Pull wire Switches 

Emergency switches provide a layer of protection against injury and equipment damage. Pull wire switches have mechanical actuators that are activated via the pulling action of the pull wire. Snap action contacts cut off power supply, thereby immediately stopping the conveyor. This action is vital to prevent physical harm to individuals close to the conveyor during operation as well as reduce the risk of machinery damage. 

Pull Wire switches come in two main formats, dual and single sided. 

Dual sided activation pull wire switches allow the central mounting of the switches, covering bigger distances compared to a single sided actuated pull wire switch.

Single sided activation pull wire switches are mounted towards the end of each side of the conveyor with a pull wire termination point on each opposing end. This type of switch is mainly used on short conveyors due to the shorter rated maximum pull wire length. 

Belt drift switches 

Belt mis-tracking is inevitable in conveyor operation. Preventative measures are recommended to eliminate the risk of equipment damage due to conveyor belts running off track. 

Belt Alignment Switches are a two-stage switch that consists of an adjustable alarm warning activation and conveyor shut down contacts. This provides a flexible working range to warn operators when a belt is out of alignment and to shut down the conveyor if the belt strays past the emergency stop activation point. 

How are they installed? 

Emergency safety pull wire switches have several tensioning accessories that ensure the relevant local and international standards are fulfilled. In the case of Australian/New Zealand conveyor Safety Standards, AS/NZ 4024.3610:2015-2.10.6.2, the pull wire switches must adhere to the 70N maximum pull force enacted on the pull wire at a maximum axial distance of 300mm. Pull wire switches are mounted horizontally to enable the pulling of the pull wire along the length of the conveyor. Belt drift switches however can be mounted vertically or horizontally due to the adjustability of the roller arm. 

Wiring the switches follows the electrical standards to allow the flow of power under normal operation and the cutting of power to the conveyor motor when switch is activated. The number of normally closed/normally open contacts dictates redundancy possibilities as well as how the switch can be wired for monitoring via a PLC system. 

Safety is an important aspect of conveyor operation that requires the following of the relevant conveyor safety standards. The selection and installation of emergency safety switches must be adequate for the conveyor design to ensure the correct operation of conveyor systems and prevent human injury and machinery damage.  

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