Patent Application
20160131096
The present disclosure relates to a fluid supply system and more particularly to a filter for the fluid supply system.
Generally, a fluid supply system of an engine is equipped with a filter to eliminate contaminants from fluids flowing through the fluid supply system. The filters are equipped with replaceable filter device. Generally, the filter device is removable or detachable, so that the filter device can be replaced by a new filter. Conventionally, replacing the filter device requires a skilled operator to grasp the filter device using their bare hands, which would pose an ergonomic risk of exposing operator's hand to hazardous fluid. In addition, while removing the filter device from the fluid filter, fluid may flow into downstream components, thereby increasing probability of catastrophic failure of the downstream components.
US Patent Publication Number 2014/0027366, hereinafter referred to as the '366 application, describes a cartridge top load filter design and filter element useable with the filter. The cartridge and the filter element allow fluid to be drained from filter housing, from exterior of the filter housing and without first removing a filter element or a cover of the filter housing. The draining feature is manually activated by a knob that is accessible from the exterior of the filter housing adjacent to the removable cover. The '366 application discloses a cover of the filter element that is threaded to an internal surface of a housing of the cartridge top load filter. Since the contaminated fluid is received in a cavity defined between the filter element and the housing, the contaminants in the fluid may get deposited in the threads, thereby requiring extra effort to be applied by the operator while replacing the filter element.
According to an aspect of the present disclosure, a filter for a fluid supply system is provided. The filter includes a housing having an inner surface and an outer surface. The housing further includes an inlet port to receive fluid into the housing and a drain port to drain the fluid from the housing. The filter further includes a cap detachably coupled to the inlet port. The cap includes a first thread portion. The filter further includes a filter device having an inner surface and an outer surface. The filter device is disposed within the housing to define a circumferential cavity between the outer surface of the filter device and the inner surface of the housing. The circumferential cavity is in fluid communication with the inlet port of the housing to receive the fluid into the circumferential cavity from the fluid supply system. The filter further includes a hollow center tube disposed within the filter device. The hollow center tube includes a first end and a second end, the first end being fastened to the inner surface of the housing and adapted to supply the fluid to one or more downstream components of the fluid supply system. The filter further includes a first seal member attached to a first end of the filter device, the first seal member adapted to restrict entry of the fluid from the cavity into the hollow center tube via the first end of the filter device. The filter further includes an engagement member provided on the first seal member. The engagement member extends in a direction perpendicular to a surface of the first seal member and away from the first end of the filter device. The engagement member includes a second thread portion. The filter further includes second seal member attached to a second end of the filter device. The second seal member includes a first annular ring extending in a direction perpendicular to a surface of the second seal member and disposed distal from the hollow center tube. The first annular ring restricts flow of the fluid from the cavity into the drain port in an engaged condition of the filter device. The second seal member further includes a second annular ring extending in a direction perpendicular to the surface of the second seal member and proximal to the hollow center tube. The second annular ring restricts flow of the fluid from the hollow center tube into the drain port in the engaged condition of the filter device. The first thread portion of the cap engages with the second thread portion of the engagement member for removing the filter device from the housing.
Other features and aspects of this disclosure will be apparent from the following description and the accompanying drawings.
Reference will now be made in detail to specific embodiments or features, examples of which are illustrated in the accompanying drawings. Wherever possible, corresponding or similar reference numbers will be used throughout the drawings to refer to the same or corresponding parts. Moreover, references to various elements described herein, are made collectively or individually when there may be more than one element of the same type. However, such references are merely exemplary in nature. It may be noted that any reference to elements in the singular may also be construed to relate to the plural and vice-versa without limiting the scope of the disclosure to the exact number or type of such elements unless set forth explicitly in the appended claims.
The filter 16 further includes a cap 36 coupled to the inlet port 28 of the housing 22. The cap 36 shown in
The filter 16 further includes a cover member 37 coupled to the housing 22. Specifically, the cover member 37 is coupled to the head portion 32 of the housing 22 in a manner, such that the cover member 37 can be detached from the housing 22 when required. The cover member 37 shown in
The filter 16 further includes a filter device 38 disposed coaxially within the housing 22. The filter device 38 shown in
The filter 16 further includes a hollow center tube 42 disposed within the filter device 38. In one example, the hollow center tube 42 may be coaxially disposed within the filter device 38. The hollow center tube 42 has a first end 44 and a second end 46. The first end 44 of the hollow center tube 42 is attached to the base portion 34 of the housing 22 and the second end 46 of the hollow center tube 42 is disposed distal from the base portion 34 and in a direction towards the cap 36. The first end 44 of the hollow center tube 42 is attached to the base portion 34 of the housing 22 as shown in
The filter 16 further includes a first seal member 48 attached to a first end 50 of the filter device 38. In one example, the first seal member 48 may be made from plastic, polyurethane, or resin impregnated materials. The first seal member 48 may either be a single plate like structure or may be composed of one or more layers. For instance, as shown in
The filter 16 further includes an engagement member 58 provided on the first seal member 48 to engage with a first thread portion 82 (shown in
Further, the filter 16 includes a second seal member 62 attached to a second end 64 of the filter device 38. In one example, the second seal member 62 may be made from plastic, polyurethane, or resin impregnated materials. As such, the first seal member 48 and the second seal member 62 aids in packaging the filter device 38 within the housing 22.
As illustrated in
Such sealing of the first annular ring 66 restricts flow of fluid from the circumferential cavity 40 into the drain port 35 in the engaged position “P1” of the filter device 38. Therefore, with reference to the above description, engaged position “P1” will be understood as a position of the filter device 38 in which the predetermined length “L” of the second side “T2” abuts the surface “D” of the drain port 35 to provide the sealing between the second side “T2” and the surface “D”.
The second seal member 62 further includes a second annular ring 68 extending in the downward direction “Y” from the surface “S” of the second seal member 62, similar to the first annular ring 66. The second annular ring 68 is located proximal with respect to the hollow center tube 42 and the first annular ring 66 is positioned distal with respect to the hollow center tube 42. As such, the second annular ring 68 is provided as a concentric rectangular cross-sectional protrusion on the second seal member 62. In the engaged position “P1” of the filter device 38, the second annular ring 68 restricts flow of fluid, which is filtered fluid, from the hollow center tube 42 to the drain port 35, thereby eliminating any loss of fluid during the filtration process. Based on a height of a peripheral wall 70, length of the second annular ring 68 may be determined, as it would be understood by a person skilled in the art in conjunction with
In order to disengage the filter device 38 from the housing 22, initially, the cover member 37 is disengaged from the housing 22. Subsequently, the cap 36 is disengaged from the inlet port 28 and engaged with the engagement member 58. During such engagement, the first thread portion 82 of the cap 36 engages with the second thread portion 60 of the engagement member 58. As such, the cap 36 and the filter device 38 form a sub-assembly. In order to disengage the filter device 38 for replacement, an operator can grab the cap 36 and pull the sub-assembly in a direction outward with respect to the housing 22, to disengage the filter device 38 from the housing 22 Likewise, continued effort by the operator can facilitate removal of the filter device 38 from the housing 22.
The present disclosure describes the filter 16. Owing to the presence of the first thread portion 82 provided on the cap 36 and the second thread portion 60 provided on the engagement member 58, the cap 36 can be easily engaged with the filter device 38 to form the sub-assembly. Subsequently, the sub-assembly can be pulled in the direction outward with respect to the housing 22 of the filter 16 to disengage the filter device 38 from the housing 22. Accordingly, the filter device 38 may be removed out of the housing 22 for the purpose of replacement. With such arrangement and construction of the filter 16, the operator may be able to replace the filter device 38 with minimum efforts. In additional, since the cap 36 aids in removal of the filter device 38 from the housing 22, the operator's hand is free from the fluid present in the circumferential cavity 40. As such, any ergonomic risk of exposing operator's hand to hazardous materials or fluid, such as unfiltered oil, is overcome by the present disclosure.
Additionally, the drain port 35, the first annular ring 66, and the second annular ring 68, facilitate smooth draining of the fluid present in the circumferential cavity 40, during the removal of the filter device 38 from the housing 22. As such, any fluid present in the circumferential cavity 40 is drained, thereby reducing amount of fluid which would partially remain in the filter device 38 during the removal of the filter device 38. Furthermore, such draining of the fluid through the drain port 35 also prevents contamination of environment around the filter 16 after the filter device 38 is removed from the housing 22.
While aspects of the present disclosure have been particularly shown and described with reference to the embodiments above, it will be understood by those skilled in the art that various additional embodiments may be contemplated by the modification of the disclosed machines, systems and methods without departing from the spirit and scope of what is disclosed. Such embodiments can be understood to fall within the scope of the present disclosure as determined based upon the claims and any equivalents thereof.
