Safety Switches

Safety switches come in the form of safety door switches and safety limit switches.

The safety door switch can be a mechanical or electrical switch that is connected to the direct opening mechanism, and which does not allow the machine to operate unless certain conditions have been met, such as the door being closed etc. It also has functions that stop it from being easily nullified.
A safety limit switch is connected to the direct opening mechanism and is a switch is used for door monitoring and to ensure that objects are not pushed too far.

(1) Door Monitoring and Interlocking

Door monitoring and interlocking switches are one of the most important types of protective devices to prevent dangerous situations by taking power away from the machine.

When it is decided to protect the machine with protective fences, we must be sure that the only way inside the dangerous area is through the guard. If the guard is opened, a mechanically actuated position detector stops the machine. Every guard in the fence must have mechanically actuated position detectors to ensure the safety of personnel. A basic requirement is that it the door is opened, the machine must stop before anyone can reach the hazardous moving parts of the machine.

The most import selection criteria of an interlocking device are:

Conditions of use and intended use (ISO12100-1)
Hazard present at the machine (ISO12100-1)
Severity of the possible injury
Probability of failure of the interlocking device
Stopping time and access time considerations
Frequency of access
Duration of person’s exposure to the hazard
Performance considerations

The position switch shall be actuated in the positive mode. The break contact of the position switch shall be of the “positive opening operation” type (IEC60947-5-1).

The security of an interlock switch is dependent on its ability to withstand attempts to “cheat” or defeat the mechanism. An interlock switch should be designed so that is cannot be defeated in a simple manner. This means that the intended operation will be achieved manually or with a readily available object.

Readily available objects may be:

Screws, needles, sheet-metal pieces
Objects in daily use such as keys, coins, tools required for the intended use of the machine

(2) ISO14119

ISO14119 “interlocking devices associated with guards” provides guidance of interlocking devices and is intended to be used together with EN60947-5-1 for electromechanical switches.

(3) Requirements for Door Monitoring

Door monitoring must ensure that the safety door protects the hazardous area as defined in the risk assessment (ISO14121). The sensors and the signal processing must comply with all required norms and directives.

Switches must be designed to withstand all expected and foreseeable stresses.
Switches must comply with safety standards, especially, direct opening contacts and safety door switches must be used.
The principles of redundancy and diversity must be considered in the mechanical design of switches and signal processing.
The signal processing must be designed to be in accordance with the categories of ISO13849-1 defined in the risk assessment.

(4) Requirements for Door Interlocking

An interlocking device with guard locking shall be used when the stopping time is greater than the access time taken by a person to reach the danger zone.

The device is intended to lock a guard in the closed position and linked to a control system so that:

The machine cannot operate until the guard is closed and locked;
The guard remains locked until the risk has passed.

For applications requiring frequent access, the interlocking device shall be chosen to provide the least possible hindrance to the operation of the guard.

In that case also requirements of intended use, conditions of use, risk assessment and stopping time and access time must be taken into account.

● Mechanically Actuated Devices:

There are three types of mechanical actuation. These are:

Cam operated actuation
When one single detector is used it shall be actuated in the positive mode since, among other characteristics, this mode of actuation prevents the detector from being defeated in a simple manner.

A higher level protection against defeat can be achieved, e.g., by enclosing the cam and detector in the same housing.
Operation key operated actuation

The operation key operated switch is designed to prevent easy cheating of the switch. A dedicated operation key is needed every time. These switches can be used on sliding, hinged and lift-off guards. Mainly they are used in interlocking switches.

A disadvantage in these switches is that can be defeated by using an operation key which is not attached to the guard.

Preventing this kind of defeat is possible and it can be achieved by:
• Physical obstruction or shielding preventing introduction of spare actuators
• Permanent assembly (by welding, riveting, “one way” screw) of the operating key with the guard to render dismantling more difficult.
Hinge operated actuation
In hinged door switches it is very difficult to defeat the switch. That is a very good feature of hinged door switches. Another feature is easy use in small size guards, where key operated switches cannot be used due to operation key radius. Care must be taken for large wide guard doors because the opening angle results in a bigger movement of the door. That can result in a significant gap in the opening edge on very wide guard doors.

(5) Circuit Example

Below you will find some door monitoring application examples.

Circuit example for G9SB-3012-A 24 VAC/VDC

(6) Form Lock Mechanism

As shown in the following illustration, the safety limit switch has a positive opening mechanism that consists of inelastic, uneven parts engaged with one another so that the actuator will not be deformed or displaced by a strong force which may be applied on the actuator when a contact is welded.

Axis of rotation: Portion engaging the display panel; Operating panel: protruding part for a 90° level setting; Portion engaging the axis of rotation; Lever lock groove

Note: The lever is secured with uneven parts so that the lever will not fail if a strong force is applied to it. The lever cannot be attached backwards.

(7) Contact Positive Opening Mechanism

(1) Contact welded (2) Positive opening (3) Completed positive opening

The contacts must withstand the impulse voltage specified by IEC60947-5-1 when the contacts have been forcibly opened with the positive operating force (POF) and positive overtravel (POT) exceeding the contact welding force, which is equivalent to 10 N.

(8) Contact Configuration

EN 60617 applies to diagram marks to be used when designing electrical circuits.
EN 60617 is harmonized with IEC 60617 and JIC C 0617. These diagram mark standards must be followed in the product design.

The following figure shows contact marks used in the user’s guide as cited from EN 60617.

Illustration	Mark	Contact type	Applicable models	Remarks
		Y	A165E A22E	Two contacts switched together
		Za	D4B-N (snap action)	• Four contacts switched together: One movable contact blade opens and closes. • This type cannot use power with different voltages or polarities.
		Zb	D4B-N (slow action) D4BS D4BL D4N D4NS D4N-R D4NH D4NL D4GS-N D4F D4JL D4GL	• Four contacts switched together: The two movable contact blades are insulated from each other. • This type can use power with different voltages or polarities. Terminals 11 and 12 in the illustration are the contacts forcibly opened.

(9) Negative Operation and Positive Operation

		(A) Negative operation		(B) Positive operation		(C) Combined operation
Safety		Never use negative-operation switches alone in safety applications.		Positive-operation switches are recommended when used alone as the switches offer a higher level of safety than negative-operation switches.		Switches in combined operation offer an even higher level of safety than positive-operation switches alone.
Category		B or 1 (using approved parts)		B, 1, 2, 3, 4		B, 1, 2, 3, 4
Operating status		Normal operation	Abnormal operation	Normal operation	Abnormal operation	Normal operation
		Contacts closed (door closed) Contacts open (door open)	a) No reset due to contact welding (door open) b) No reset due to spring damage (door open)	Contacts closed (door closed) Contacts open (door open)	a) Contact not open due to cam abrasion (door open) b) Contact not open due to improper cam position (door open)	Contacts closed (door closed) Contacts open (door open)
Contact opening method		Opened by built-in spring.		Opened directly by externally operating unit like cam or dog.		Opened by a negative- and positive operation combination.
Applicable contact		NO contacts		NC contacts ()		NO and NC contacts ()
Charac-teristics	Pros	The negative operation is a fail-safe operation that ensures safety in case of cam abrasion, improper cam positioning or unexpected cam removal.		The actuator forcibly opens contacts if a contact welds or a spring is broken.		A negative- and positive-operation combination eliminates the disadvantages of both modes.
	Cons	The actuator may move accidentally with unexpected force and close the contacts. The result may be a relatively dangerous situation.		There is a danger that contacts may close due to cam abrasion, improper cam positioning or unexpected cam removal.		The safety switch circuit may work normally for a while if one of the switches fails to operate.

Recommended Products

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