Discover the SPS series of DSTI rotary joints, a versatile single passage solution for your pneumatic, hydraulic, and vacuum applications. Our SPS rotary joints offer a perfect combination of compactness, lightweight design, and robustness, with an aluminum housing and a stainless steel shaft.
There are numerous advantages to using rotary joints. They provide a versatile solution for fluid passage. Their performance in terms of pressure and rotational speed allows you to achieve enhanced machine performance. Additionally, the use of our SPS rotary joints reduces maintenance, saving you time and money.
Whether you work in manufacturing, automation, energy, or other industries, DSTI's SPS rotary joints cater to your specific needs. With various connection options and dimensions available, you can select the SPS rotary joint that best suits your application.
The single passage SPSM Series rotary unions are small, lightweight but rugged and corrosion-resistant thanks to their aluminum construction with a stainless steel shaft. * The use of liquid media…
The single passage SPSM Series rotary unions are small, lightweight but rugged and corrosion-resistant thanks to their aluminum construction with a stainless steel shaft. * The use of liquid media…
The single passage SPSM Series rotary unions are small, lightweight but rugged and corrosion-resistant thanks to their aluminum construction with a stainless steel shaft. * The use of liquid media…
The single passage SPSM Series rotary unions are small, lightweight but rugged and corrosion-resistant thanks to their aluminum construction with a stainless steel shaft. * The use of liquid media…
The single passage SPSM Series rotary unions are small, lightweight but rugged and corrosion-resistant thanks to their aluminum construction with a stainless steel shaft. * The use of liquid media…
The single passage SPSM Series rotary unions are small, lightweight but rugged and corrosion-resistant thanks to their aluminum construction with a stainless steel shaft. * The use of liquid media…