Evaluation Units CMS
Description
Magnetically coded safety switches are interlocking devices that are designed to protect people and machines. Compared with electromechanical safety switches, they are used if:- strict hygiene requirements are to be met (e.g. in the food industry)
- a precise door guide is not possible
- compact dimensions are required
Functional description
The Coded Magnetic Safety systems CMS comprise three components:- Actuator
- Read head
- Evaluation unit
Within a series, the individual actuator coding is identical. Using one actuator type on a machine or complete system allows for quick and easy replacement.
Reed contacts are installed in the read head of the safety system CMS. The operating principle for the reed contacts (NC contacts or NO contacts), the number of reed contacts fitted and their physical arrangement determine the type of read head. The contacts blades on the reed contacts will close when under the influence of the magnetic field from the actuator.
The actuators and read heads are matched in pairs and are available in 4 different housings. Depending on the application, the user can select a cube-shaped or cylindrical design. The read head responds only to a specific mating component, i.e. a specific actuator is allocated to each read head type. The same applies to the allocation of the read head to the evaluation unit.
The evaluation unit is the system unit downstream from the read head. Using internal relays, it switches the safety circuit as a function of the position of the reed contacts. The evaluation unit in degree of protection IP20 is mounted in the control cabinet.
EUCHNER offers various evaluation units. The unit is selected as a function of the number of read heads to be connected and the overall system category to be achieved according to EN 954-1. The related evaluation units are described in detail in the following product sections.
In order to achieve a particular safety level, fault analyses must be carried out where safety-related components are used. A fault could be caused by a short circuit in the connecting cable or by welding of a reed contact in the closed position. If a reed contact is welded, the magnetic force might not be strong enough to open the contact. For reasons of safety, several reed contacts (2 or 3, depending on the switch type) are fitted to each read head.
The NC contact/NO contact combination is used as an example. If the actuator is moved into the read head’s actuating range, the reed contacts are switched by the magnets (in the actuator). Magnets with different polarity are assigned to the NC and NO contacts. The downstream evaluation unit monitors the read head: the NC/NO contacts in the read head must always have opposite states. If this is not the case, the safety contacts on the evaluation unit are not switched and the unit switches to a blocked state.
The read head is fastened to the fixed part of the guard and is connected to the evaluation unit using a two-core or four-core cable. When the guard is closed, the actuator is moved towards the read head. As soon the actuator is in the actuating range (i.e. the operating distance sao is reached) the reed contacts in the read head switch, i.e. they change their contact position.
If the evaluation unit detects that the reed contacts are in a specific position on all read heads connected, i.e. all actuators are in the actuating range, the safety contact is switched on. If the actuator is moved away from the read head, the magnetic field around the reed contacts reduces with increasing distance. When the release distance sar is reached, the reed contacts return to their pre-loaded position (home position).
The sensitivity of the reed contacts and the field strength of the magnets determine the operating distances between the actuator and the read head. Diagrams of the typical actuating ranges of the individual sensor units are shown in the technical data for the actuators and read heads. The illustration of the actuating range in x, y and z directions provides the user with information on how the actuator and read head must be positioned. When ideally positioned, the read head is in the middle of the actuating range.
The actuator and read head sensor units have a large actuating range. The advantage of this fact is that the door clearance setting may vary within the limits of the actuating range. The safety systems CMS have switching characteristics with hysteresis (sar>sao).
If the read head is adjusted just inside the actuator’s sao actuating range, the plant will not be switched off immediately if the door vibrates slightly. The operating and release distances shown in the ordering tables refer to the approach of the sensor unit in the x direction (frontal approach direction). If the actuator approaches the read head from the side, the operating distances are likely to be reduced. The operating and release distances in the x, y and z directions are given by the operating diagrams.
An excessively low approach speed in the z direction (side approach direction) can result in an error in the evaluation unit. For further information on the approach speed, refer to the individual product descriptions. The magnetic systems are notable for their high degree of protection and compact design. They are therefore particularly suitable for areas where dirt and cleaning are major factors.
A major advantage of EUCHNER safety systems CMS is that the actuator and read head can be fitted behind stainless steel. This property makes it possible to use the system in the food industry in particular. The operating distances are, however, reduced in line with the material and wall thickness. Installation using the corrosion-resistant safety screws (supplied) provides tamper-proof mounting of the actuator and read head on the guard.
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Number of safety contacts
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Products (4)
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085536
CMS-E-AR
Evaluation unit CMS-E-AR, 1 safety contact
CMS-E-AR
Evaluation unit CMS-E-AR, 1 safety contact
- Up to 30 read heads can be connected
- 1 safety contact
085537
CMS-E-BR
Evaluation unit CMS-E-BR, 1 safety contact, 1 auxiliary contact, 1 feedback loop can be connected
CMS-E-BR
Evaluation unit CMS-E-BR, 1 safety contact, 1 auxiliary contact, 1 feedback loop can be connected
- 4 read heads can be connected
- 1 safety contact
- 1 auxiliary contact
- 1 feedback loop can be connected
099182
CMS-E-ER
Evaluation unit CMS-E-ER, 2 safety contacts, 1 auxiliary contact, 1 feedback loop can be connected
CMS-E-ER
Evaluation unit CMS-E-ER, 2 safety contacts, 1 auxiliary contact, 1 feedback loop can be connected
- Up to 30 read heads can be connected
- 2 safety contacts
- 1 auxiliary contact
- 1 feedback loop can be connected
- Start automatic/monitored/not monitored
099258
CMS-E-FR
Evaluation unit CMS-E-FR, 2 safety contacts, 1 auxiliary contact, 6 monitoring outputs, 1 feedback loop can be connected
CMS-E-FR
Evaluation unit CMS-E-FR, 2 safety contacts, 1 auxiliary contact, 6 monitoring outputs, 1 feedback loop can be connected
- Up to 6 read heads can be connected
- 2 safety contacts
- 1 auxiliary contact
- 6 monitoring outputs
- 1 feedback loop can be connected
- Start automatic/monitored/not monitored