Push pull solenoid actuator

The push-pull solenoids feature an intelligent solenoid concept that enables a very high holding force with comparatively low power consumption, push pull solenoid actuator. This makes them ideal for heavy-duty applications and those requiring low power consumption or low heat dissipation. Our short-stroke solenoids are divided into two product groups: "Push-Pull" and "Small Push-Pull" solenoids; the difference between the push pull solenoid actuator versions is in size and mounting. Small push-pull solenoids have threaded holes in the base plate, while push-pull solenoids have aapm 108 bolts.

Their intelligent magnetical design allows high holding force at a comparably low current. Therefore push pull solenoids are ideal actuators for applications for which power consumption and heat dissipation are critical. Applications can be found in medical, laboratory and analytical equipment, e. The Super-Stroke-Tubular-Solenoids are linear solenoids with a super flat characteristics of force to stroke for a quite long part of their stroke; this allows them to be used as cost effective electrical linear cylinders for many applications requiring proportional control; they can be used as a replacement for many pneumatic cylinder. Another positive feature of the Super-Stroke-Tubular-Solenoids is controllable impact force. The advantage of the Super-Stroke-Tubular-Solenoids as a miniature electrical cylinder for e. Watch this video to learn more about how a Super-Stroke-Solenoid works.

Push pull solenoid actuator

How to Select a Push Pull Solenoid. The solenoid size is determined based on required force, displacement, and duty cycle from force-stroke characteristic graphs in the solenoid datasheets. Note that this may also be influenced by available power and speed requirements, for a given force requirement a larger solenoid will develop the required force with lower power input, however the higher moving mass may make this slower in operation than a smaller device. The pole piece form is also selected from the characteristic graphs, some sizes are available with either flat or conical polepiece design as standard options note that intermediate or other force characteristic may be possible with polepiece geometry customisation. Coil rating is specified as AWG size of the coil wire. For the small push-pull solenoids a different bearing construction is used with special heat-treatment of the bore for nominal M cycles. Life will be reduced by long stroke, excessive side loading, particulate contamination, corrosive or otherwise aggressive environments. Life expectancy may be increased by short stroke, low side loading, clean operating conditions. Life expectancy should be verified under real operating conditions in the customer application to ensure this is sufficient for purpose. Size Determination Device size is determined for the required force, displacement, and duty cycle from the tables below, more detailed force data is shown graphically in the datasheet for each solenoid. Specifying Coil AWG. Some typical examples are illustrated below.

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A solenoid actuator is an electromechanical device that converts electrical energy into linear motion, widely used in automotive, industrial, medical, and home appliances. A solenoid actuator is an electromechanical device that converts electrical energy into linear mechanical motion. It is a fundamental component in various applications, including automotive, aerospace, industrial automation, medical equipment, and home appliances. The solenoid actuator offers numerous advantages, such as precise control, rapid response, and long service life, making it a popular choice for a wide range of applications. At the heart of the solenoid actuator is a solenoid coil, which is essentially a wound copper wire.

Push pull solenoid actuator

Spend less time on solenoid maintenance in dirty environments— these have a closed steel housing that keeps dust out. Pull solenoids exert force when the rod retracts. Push solenoids exert force when the rod extends. For technical drawings and 3-D models, click on a part number. In addition to a closed steel housing that keeps out dust, these solenoids have a PTFE coating on the rod to minimize friction for a long service life. All are pull solenoids— they exert force when the rod retracts. Great for use in damp and dirty environments, these solenoids meet IP65 for protection from dust and spraying water. They have two-pin plugs that are compatible with Deutsch-style DC connectors sold separately. They can be used to pull or push. To pull, install them with the connector pins facing your device; to push, install them facing away.

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Next Generation Motion Control Solutions! Stroke and Force The push-pull solenoid is available with 2 standard pole piece configurations. By using this site, you agree that we may use cookies. South Carolina USA. Therefore push pull solenoids are ideal actuators for applications for which power consumption and heat dissipation are critical. The coil data is also shown for different sizes of magnet wire. The flat pole piece is designed for short strokes mm , and where high holding force is required. B Duty Cycle Use the aforementioned formula to calculate duty cycle. Design and Features The push-pull solenoid design utilizes a coil with the maximum amount of magnet wire in the smallest amount of space. Applications can be found in medical, laboratory and analytical equipment, e. Another positive feature of the Super-Stroke-Tubular-Solenoids is controllable impact force. Some typical examples are illustrated below.

Their intelligent magnetical design allows high holding force at a comparably low current. Therefore push pull solenoids are ideal actuators for applications for which power consumption and heat dissipation are critical. Applications can be found in medical, laboratory and analytical equipment, e.

Screw threads machined on shaft on armature side 6. Modified armature with flat sides and threaded holes, no shaft. South Carolina USA. The coil data is also shown for different sizes of magnet wire. Note that this may also be influenced by available power and speed requirements, for a given force requirement a larger solenoid will develop the required force with lower power input, however the higher moving mass may make this slower in operation than a smaller device. The return force must be provided externally, e. Life expectancy should be verified under real operating conditions in the customer application to ensure this is sufficient for purpose. Watch this video to learn more about how a Super-Stroke-Solenoid works. Therefore push pull solenoids are ideal actuators for applications for which power consumption and heat dissipation are critical. The according product families have their own profile for specific market segments.