Embodiments of the invention provide a liquid fill kit system including a rollable cart having a frame and a plurality of wheels. A tank disposed within the frame. The fill kit further includes a fluid pump including a suction interface connection and a discharge interface connection. A filter assembly mounted within the frame. A fluid pressure regulator include a fluid outlet port, the fluid pressure regulator being configured to stop a flow of fluid when a pressure exceeds a fluid pressure threshold. In a first configuration, the suction interface connection is in fluid communication with the tank, and the discharge interface connection is in fluid communication with the filter unit, the pressure regulator, and the fluid outlet port to generate a flow of fluid through the fluid outlet port.

A spin-on filter comprises a housing shell, a filter element, a nutplate, and a gasket. The filter element is positionable within the housing shell and comprises a filter media and an endplate. The nutplate is positionable within the housing shell. The gasket comprises a central body and a spring-loaded extension. The spring-loaded extension circumferentially surrounds and extends radially from the central body. The spring-loaded extension is axially flexible between an expanded position and a compressed position. The spring-loaded extension forms and maintains a first seal with the endplate and maintains contact with the nutplate as the spring-loaded extension moves between the expanded position and the compressed position.

A spin-on filter comprises a housing shell, a filter element, a nutplate, and a gasket. The filter element is positionable within the housing shell and comprises a filter media and an endplate. The nutplate is positionable within the housing shell. The gasket comprises a central body and a spring-loaded extension. The spring-loaded extension circumferentially surrounds and extends radially from the central body. The spring-loaded extension is axially flexible between an expanded position and a compressed position. The spring-loaded extension forms and maintains a first seal with the endplate and maintains contact with the nutplate as the spring-loaded extension moves between the expanded position and the compressed position.

A filter for treating a fluid in a heating and/or cooling system includes: a first body, hollow and substantially cylindrical in shape, and a second body, wherein the first body and second body are mutually and sealingly connected, so as to internally have a chamber, and wherein the hollow first body is provided with a first mouth and a second mouth respectively having a first duct and a second duct allowing the fluid to enter and/or exit the chamber. A filtering element for treating the fluid is housed at least partially in the chamber, in particular the filtering element includes at least one magnetic element The filter includes a shut-off element having an outer wall provided with a channel and an opening, the shut-off element being housed in the first body in such a way that it can rotate about a longitudinal axis in the first body and alternately switch from a first position to a second position.

A filter for treating a fluid in a heating and/or cooling system includes: a first body, hollow and substantially cylindrical in shape, and a second body, wherein the first body and second body are mutually and sealingly connected, so as to internally have a chamber, and wherein the hollow first body is provided with a first mouth and a second mouth respectively having a first duct and a second duct allowing the fluid to enter and/or exit the chamber. A filtering element for treating the fluid is housed at least partially in the chamber, in particular the filtering element includes at least one magnetic element The filter includes a shut-off element having an outer wall provided with a channel and an opening, the shut-off element being housed in the first body in such a way that it can rotate about a longitudinal axis in the first body and alternately switch from a first position to a second position.

A device that comprises an outer component, an inner component and a filter module. The outer component includes a first hollow cylinder, and exterior ports in sidewalls of the first hollow cylinder. The inner component is positioned coaxially within the first hollow cylinder, and includes a second cylinder, and interior ports in the second cylinder, wherein the interior fluid ports are aligned parallel to the exterior ports. The filter module includes a hollow prism positioned coaxially within the outer component and surrounding the inner component, the hollow prism comprising at least four faces configured to retain filters. The filter module also includes vanes positioned along edges connecting the at least four faces and forming seals with the first hollow cylinder. A first filter is provided on a first face, of the at least four faces, which is aligned between a pair of the interior and exterior ports.

A device that comprises an outer component, an inner component and a filter module. The outer component includes a first hollow cylinder, and exterior ports in sidewalls of the first hollow cylinder. The inner component is positioned coaxially within the first hollow cylinder, and includes a second cylinder, and interior ports in the second cylinder, wherein the interior fluid ports are aligned parallel to the exterior ports. The filter module includes a hollow prism positioned coaxially within the outer component and surrounding the inner component, the hollow prism comprising at least four faces configured to retain filters. The filter module also includes vanes positioned along edges connecting the at least four faces and forming seals with the first hollow cylinder. A first filter is provided on a first face, of the at least four faces, which is aligned between a pair of the interior and exterior ports.

A filter cartridge includes a threaded sleeve having a seal holder recess and seal member. The filter cartridge is for removably threading onto a filter head that includes threads for connection to the filter cartridge by way of the threaded sleeve. The filter head includes a ramp that engages the seal member to form a seal. The force needed to make the seal is a torque of less than 10 N-m.

A filter cartridge includes a threaded sleeve having a seal holder recess and seal member. The filter cartridge is for removably threading onto a filter head that includes threads for connection to the filter cartridge by way of the threaded sleeve. The filter head includes a ramp that engages the seal member to form a seal. The force needed to make the seal is a torque of less than 10 N-m.

A filtration assembly of a fluid of a vehicle extending along an axis includes a filtering cartridge and a filter body housing the filtering cartridge. The filtration assembly includes cartridge members and body members having engagement and disengagement configurations, respectively. The filtering cartridge includes an axial end plate on which the cartridge members are positioned. The cartridge members include blocking groups, each including a stem and a tooth projecting laterally and defining an engagement undercut. The body members include a housing region and a lug. In the engagement configuration, the tooth housed snap-fits in a respective housing region and the lug is housed in the undercut. The cartridge members and the body members include a cartridge border and a body border, to reciprocally engage in the reciprocal rotary actions so that the respective blocking group yields elastically radially in the reciprocal engagement between cartridge border and body border.