New Electronics
Sensor technology in the process industry is often exposed to humid, aggressive environments so it is necessary to protect components against corrosion.
Circular connectors in stainless-steel design can withstand humidity, chemicals, and cleaning agents and for data transmission, shieldable products whose outer parts are all made of stainless steel are recommended.
Binder is now offering M5, M8, and M12 products for sensor cabling that feature threaded locking rings – and other design parts – made of stainless steel. Unlike conventional connectors, with nickel-plated locking rings and housing parts made of die-cast zinc or brass, they are suitable for use under conditions that explicitly require media resistance.
Connectors in stainless-steel design are able to withstand corrosive environmental influences, such as contact with chemicals or aggressive detergents.
The term stainless steel is used as a generic term for corrosion-resistant chromium-nickel or chromium-nickel-molybdenum steels. Their typical applications can be divided into two categories:
Examples can be found in the food, pharmaceuticals, and cosmetics industries, for example in sensors for level or flow metering. Stainless-steel connectors are also used in hygienically demanding medical environments.
Particular design details are also important. For example, no or only a few undercuts are permitted to prevent contaminants from accumulating there. In addition, smooth surfaces and a hexagon instead of the usual knurled contour are advantageous.
Numerous types of binder's M5, M8, and M12 designs are available as stainless-steel variants.
M12 panel mount connectors are available as stainless-steel versions as either male or female parts, which can be screwed onto the front or rear, with different pin counts, and both with or without wires. These connectors are available with A, B and D coding. As a special feature, binder also offers panel mount connectors with protective caps.
Overmoulded cable parts are also available with stainless-steel threaded locking rings – instead of zinc die-cast. In these cases, the respective locking ring features a hexagon contour allowing the M12 thread of the connector to be easily attached and the torque to be applied. The stainless-steel locking rings are available for both male and female parts, in straight and angled designs. To provide connectors in the food and beverage industry with the mandatory protection against detergents, appropriately resistant plastics are used for their cables and overmouldings.
Wireable connectors are, on the one hand, designed as unshielded plastic components, with locking rings made of stainless steel instead of zinc die-cast. Since most connector elements are made of resistant plastic, it is sufficient to use the stainless-steel locking ring to achieve high media resistance. Here, male and female cable connectors are available in A-coding: 4-, 5-, and 8-pin, straight and angled, as well as duo versions.
On the other hand, binder has a variant completely made of stainless steel in its portfolio.
In this M12 segment speciality, not only is the threaded locking ring is made of stainless steel, but also the housing and pressing screw – and thus all external parts. This M12 overall metal version also allows for electromagnetic shielding and so is suitable for transmitting high-frequency data.
In addition to the individual parts made of stainless steel, the cable clamp and its seal are also made of resistant materials, namely the clamping element made of PTFE and the seal made of Viton. As a result, these connectors are very resistant to aggressive, corrosive environmental conditions. As a design detail that facilitates cleaning, they are almost entirely equipped with rounded surfaces.
This M12 stainless-steel version is available as male and female cable connectors, A-, B-, and D-coded, and with pin counts of 4, 5, 8, and 12. Only straight versions with a cable outlet between 3.0 and 8.6 mm are offered.