Direct plug connectors with PUSH IN technology reduce connection times for solid wires and those with crimped on wire-end ferrules by up to 50 % compared to clamping yoke terminals. The conductor is simply inserted in the clamping unit to get a safe, gas-tight connection. Even flexible conductors can be connected without tools and trouble. Safe and reliable connections are crucial, especially under harsh conditions, such as those in the process industry. Our PUSH IN technology guarantees excellent contact security and ease of handling, even in demanding applications.
Increase efficiency in installation without compromising on safety. The innovative PUSH IN direct plug connector reduces connection times by up to 50 percent compared to clamping yoke terminals.
The enhanced compactness, combined with simple handling, helps improve processes right from the planning stage. PUSH IN technology guarantees excellent contact security and ease of handling
Klippon® Connect gives your cabinet design maximum flexibility thanks to PUSH IN technology. The simple handling helps to improve processes right from the planning stage.
With PUSH IN connections, the prepared conductor is simply inserted into the clamping point and a reliable, vibration-resistant, and gas-tight connection is established. The integrated pusher allows the conductor to be easily released with a screwdriver.
The conductor is simply inserted into the clamping point up to the stop. Once in position, the spring holds it like a barb without damaging it.
The spring is positioned so that it does not exert any force on the terminal housing. Regardless of whether a conductor is connected or not.
The conductor can be released just as easily and without damage. The so-called pusher – an immediately recognisable plastic element directly next to the conductor entry opening – is used for this purpose.
The pusher is flush with the terminal housing and can be pressed down with a standard screwdriver. This opens the spring and releases the conductor.
Where installation depth is low, the lateral conductor entry has decisive advantages, because the conductors can be connected without space-consuming bending. Wiring can be carried out very clearly and in a very confined space.
The integrated test tap for standard test probes facilitates maintenance processes and troubleshooting. The lateral conductor entry increases clarity and makes the terminal blocks accessible for test systems even when wired.
Due to the lateral conductor entry, markings and functional areas remain easily recognisable even when wired. Maintenance and repair processes can thus be carried out more easily, safely and quickly.
As an integral part of the A-Series, the extensive range of accessories can also be used with the new modular terminal blocks. This facilitates the duplication of potentials via cross-connections and reduces ordering and storage costs.
The number of sensors and actuators in the field is growing. More and more potentials have to be wired, fused, or even separated in the control cabinet. One example is servomotors with the potentials plus, minus, or PE. They require clear wiring, including fused potential.
The new two-tier terminals of the A2T 4 FS and A2T 4 DT series combine up to three functions per terminal. For example, you can choose between "disconnect, continuity, PE" or "fuse, continuity, PE". Sensors and actuators can be wired conveniently and clearly on just one terminal block. The potentials can be fused or also disconnected. Cross-connection channels on each level ensure safe potential distribution on the terminal strip.
Increasing automation increases the number of sensors and actuators within the plant. With constant space conditions within the switchgear cabinet, these sensors and actuators must be wired clearly. More compact designs of the components and the increase in wiring density are the resulting requirements for the control cabinet components.
Our A3T 1.5 three-level terminal blocks with 3.5 mm pitch meet these requirements. Depending on the variant, they each carry a different or a common potential on three levels. In this way, up to 60 conductors can be contacted and 30 different potentials can be routed on a width of 3.5 cm. In addition, each potential can be connected to the neighbouring terminal block via a ZQV cross-connection. This achieves maximum wiring density.