Elesa+Ganter 110088-R-KN SLCK-HT-NC-NC-KN Fluid Level Control Kit

The Elesa+Ganter 110088-R-KN SLCK-HT-NC-NC-KN fluid level control kit is a practical solution for industrial systems that need electrical fluid level monitoring in higher temperature operating conditions while also benefiting from an M12 connector interface. For many engineers and maintenance teams, this combination offers a strong balance between thermal capability, installation efficiency, and dependable switching performance.

What the Elesa+Ganter 110088-R-KN Is Designed For

This model is intended for use with compatible HCK and HCK-GL column level indicators. It provides an electrical signal when the fluid reaches a preset intervention point while preserving the visual indication of the fluid level. That dual-function approach can be especially useful in systems where operators want both direct visual confirmation and machine-readable level information.

Technical Highlights of the SLCK-HT-NC-NC-KN

The Elesa+Ganter 110088-R-KN SLCK-HT-NC-NC-KN fluid level control kit uses a polyamide-based float for applications up to 120°C. It features two normally closed contacts and an M12 male connector, which can make wiring cleaner and integration more convenient in modern industrial assemblies. The unit also supports IP65 protection and is suitable for oil-based applications up to 2 bar operating pressure.

Why This High-Temperature KN Version Is Useful

In many industrial environments, connector choice matters almost as much as switching logic. An M12 connector format can simplify replacement, reduce installation time, and support more organised cable routing. When that connector style is combined with high-temperature capability and NC-NC contact behaviour, the product becomes particularly relevant for compact hydraulic systems, heated reservoirs, and machine assemblies where service access and durability both matter.

Practical Value in Level Monitoring

The sensor bracket can be moved along the axis of the indicator to define the switching point. That gives users more control over how the fluid monitoring system behaves in real operating conditions. Instead of relying on a fixed threshold, the installation can be adapted to the needs of the machine, the reservoir geometry, and the maintenance strategy.

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Suitable Industrial Uses

The Elesa+Ganter 110088-R-KN SLCK-HT-NC-NC-KN fluid level control kit can be relevant in hydraulic reservoirs, industrial process equipment, hot-running lubrication systems, machine tool units, and enclosed technical assemblies where a compact connector and elevated temperature capability are both beneficial. It is a strong fit for installations that require electrical level control without giving up visual monitoring of the fluid column.

FAQ

What does the KN suffix mean on the Elesa+Ganter 110088-R-KN?

The KN suffix indicates the version with an M12 male connector. This makes the product especially appealing for installations using connectorised wiring and quick service access.

Is the Elesa+Ganter 110088-R-KN suitable for high-temperature environments?

Yes. It is part of the HT range and is designed for applications up to 120°C, which makes it more suitable for hotter operating conditions than standard versions.

What does NC-NC mean for this fluid level control kit?

NC-NC means the product includes two normally closed contacts. This arrangement can be useful in control systems that rely on default closed-circuit logic.

Can this model be used in oil-based systems?

Yes. The SLCK family is associated with oil level monitoring applications and can be used with compatible level indicators in such systems.

Why might someone choose the M12 connector version over a DIN version?

The M12 version may be preferred for compact installations, easier connector handling, cleaner cable management, and maintenance routines that benefit from standardised connector formats.

Does this product only send an electrical signal?

No. It is intended to work with column level indicators, so users retain visual level monitoring while also gaining an electrical switching signal at the defined intervention point.