Abstract:
A filter element (10) has a filter bellows (12) arranged about the longitudinal axis (L) and having a first end disk (14) on a first end face (26), and a second end disk (16) on a second end face (28). A central element (20) is arranged rotatably about the longitudinal axis (L) relative to the filter bellows (12) in the interior (18) of the filter bellows (12). The central element (20) has one or multiple positioning elements (22, 24) which interact with counter positioning elements (116, 118) of an upper housing part (114) to fix the central element in the upper housing part (114) in a defined angular position. The central element (20) has at least one electrical connector element (32) on the element, electrically contacting at least one electrical connector element (120) on the housing.
Abstract:
A filtering apparatus includes a screen assembly removably positioned within an inner cavity of a screen chamber. The screen assembly includes a frame portion at a first end and a screen portion extending from the frame portion to a second end. The frame portion includes an end block and frame members interconnecting the end block and the screen portion. The screen portion includes an outer screen and an inner screen disposed within an interior space of the outer screen. An outer wall of the outer screen and an outer wall of the inner screen each includes a plurality of openings. The screen chamber includes a removable end cover with a key for rotationally locking the screen assembly in the inner cavity. A screen manifold may include a first fluid path including the screen chamber, and further including a bypass fluid path having a bypass valve.
Abstract:
Described are filter cartridges comprising: a cartridge body and a filter media; a stem extending from the cartridge body, the stem having an inlet opening, an outlet opening, and a stem face that comprises a first valve driving surface and a second valve driving surface; and at least one lug attached to either the filter body or the stem having a leading engagement edge. The filter cartridges are suitable for translational insertion and rotational engagement of a manifold, wherein upon translation insertion, a valve engagement member of the filter cartridge engages a portion of a valve body of a manifold valve; during a first stage rotation, one or more retaining members of the filter cartridge engage a manifold cam of a manifold; and during a second stage rotation, the valve engagement member imparts rotational movement to the valve body. Systems and methods incorporating the filter cartridges are disclosed.
Abstract:
A manifold bracket assembly has a bracket body and multiple filter heads. The filter heads are mounted on the bracket body, and each filter head has an outer casing, a filter connector, two keyed tabs and two tab fasteners. The filter connector and the keyed tabs are securely mounted in the outer casing by the tab fasteners. The filter connector has multiple hose connectors. The keyed tabs are mounted respectively in two tab holes in the filter connector, and each keyed tab has a key block formed on the inner surface of the keyed tab. Accordingly, the filter heads can be easily and conveniently connected with each other by hoses connected to the hose connectors.
Abstract:
A filter system including a designated filter element including a geometric projection thereon and a filter element housing including an opening keyed to the geometric projection. The geometric projection engages the opening when the designated filter element is installed in the filter element housing. The opening, which may comprise a channel or slot, and the geometric projection may possess a variety of different shapes.
Abstract:
A filter appliance may include a ring filter element arranged upright in a filter having an upper end disc and a lower end disc. A component may be arranged on the lower end disc and may include at least one of a water collection pot, a projecting nipple-shaped pin and at least one key profile. A function element may be configured to be inserted in a filter housing pot of the filter appliance, the function element including a channel configured to receive the component. A lock profile may be provided on the function element, wherein the lock profile corresponds to the at least one key profile of the lower disk. The filter appliance is may be operational provided the pin engages the channel and the key profile engages in the lock profile.
Abstract:
A filter cartridge for operatively engaging a manifold having an ejection cam and an insertion cam. The filter cartridge includes a filter element and inlet/outlet portion in fluid communication with the filter element.
Abstract:
The descriptions relate to preventing assembly of a fluid filter apparatus unless a filter cartridge is installed, and preventing assembly of a fluid filter apparatus if the incorrect filter cartridge is installed. A mechanism includes cooperation of a movable member and a structure that can move the movable member to ensure that a fluid filter apparatus cannot be completely assembled, for example connecting its filter head to its shell, when there is no cartridge installed inside the shell or when there is an attempt to install an incorrect cartridge. This can protect from an inadvertent or intentional failure to install a cartridge (or correct cartridge) in the fluid filter apparatus.
Abstract:
A filter element includes a ring of filtration media circumscribing a central axis and defining a central cavity. An annular end cap of the filter element is sealingly bonded at an end of the media. The end cap includes a central opening into the central cavity, and a lateral opening spaced laterally outward from the central opening. The central opening includes a threaded connection portion to enable the element to be spun-on to a complimentarily-threaded connection portion of a filter head. The connection portion of the central opening includes at least one axially-extending slot opening radially away from the connection portion.
Abstract:
A multi-component end cap is provided. The multiple components combine to form one or more seal carriers where each seal carrier is formed in part by at least two different ones of the components. Methods of manufacturing an end cap having multiple components are also provided.