Name | Capacitive level indicator |
---|---|
Type | ICC – ref: 2160-...-001 |
Supply voltage: | |
2160-230-001 | 230 V AC (50 – 60 Hz) |
2160-115-001 | 115 V AC (50 – 60 Hz) |
2160-024-001 | 24 V AC (50 – 60 Hz) |
2160-2122-001 | 12 – 35 V DC |
Power consumption | 1 VA |
Cable entry | 2 of M20x1,5 |
Relay output | 1 NO + 1 NC 1 A / 250 V AC |
Function status | Under voltage: green LED Relay enabled: red LED |
Product temperature | -10° C – +90° C (Under request up to +150º C) |
Ambient temperature | -10° C – +60° C |
Protection | IP65 according DIN EN60529 |
Weight | 1,40 Kg depending on the model |
Materials: | |
Housing | Polycarbonate |
Rod | Polycarbonate |
Rod cover | PTFE |
Intended use
Versatile model for normally horizontal or inclined mounting. The capacitive levels indicators ICC are to be used to control the maximum or minimum level of bulk solids in silos or vessels.
The model ICC has a Stainless Steel rod recovered of PTFE and the devices can have a shaft up to 2.000 mm length depending of the product to control.
This model has a insensitive rod between the probe and the proccess connection to avoid the possibility of settle of the product over the probe and false signals. It is not recommended for sticky solids or products that have the tendency to settle over probe.
Function
The rod must to be exposed to the material. When the level of product reaches the rod, the control unit reverses the signal due to a change of the capacity of the environment.
When the product disappear from the detection range, the signal turns to the initial position.
These devices have inside the housing a regulation system that allow the adjustment of the sensitivity due to a nut in the electronic module.
Mechanical connection
The device can be mounted horizontally or vertically depending on the model.
The normal installation is by screwing the device onto the deposit wall, with a mounting flange or with an appropiate support to fix it. For a proper function, the device should be installed with a 20º to 30º slope from the horizontal onto the silo wall to to facilitate the flow of the material and to prevent the material from remaining over the probe.