Liquid additive slow-release apparatus driven by a filter pressure gradient
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01D-027/04
B01D-027/00
출원번호
US-0767513
(2004-01-29)
발명자
/ 주소
Herman,Peter K.
Martin,Harold R.
Bagci,Ismail C.
출원인 / 주소
Fleetguard, Inc.
대리인 / 주소
Andrus, Sceales, Starke & Sawall, LLP
인용정보
피인용 횟수 :
32인용 특허 :
22
초록▼
The present invention provides a filter assembly containing a filter element and a container as a depot for a liquid additive. The container can include an inlet and an outlet, which are configured to allow a liquid to flow into the container mix with the contained additive and then flow out into th
The present invention provides a filter assembly containing a filter element and a container as a depot for a liquid additive. The container can include an inlet and an outlet, which are configured to allow a liquid to flow into the container mix with the contained additive and then flow out into the system. It has been observed that a liquid flowing through a filter assembly exhibits a pressure gradient within the filter. Consequently, the inlets and outlets to the container can be positioned to take advantage of the pressure gradient to enhance the addition of the additive to the liquid in the filter assembly.
대표청구항▼
What is claimed is: 1. A filter assembly comprising a housing including an outer casing defining an interior chamber and including an inlet, an outlet, and a fluid pathway for a liquid flowing through the interior chamber wherein the liquid flowing through a first region of the interior chamber gen
What is claimed is: 1. A filter assembly comprising a housing including an outer casing defining an interior chamber and including an inlet, an outlet, and a fluid pathway for a liquid flowing through the interior chamber wherein the liquid flowing through a first region of the interior chamber generates a first fluid pressure and a second fluid pressure lower than the first fluid pressure through a second region of the interior chamber; a filter element disposed in the interior chamber in the fluid pathway between the inlet and the outlet; a first container disposed within the interior chamber and having an exterior wall defining an interior region, said container having a first opening including a first capillary tube extending from the exterior wall and a second opening through the exterior wall spaced apart from the first opening, said first opening and said second opening providing fluid communication between the interior chamber and the interior region; and a liquid additive provided in the interior region, said additive selected to provide a beneficial property to the liquid flowing through the filter assembly, wherein the first capillary tube extends into the interior region of the container, and wherein the first capillary tube extends from the exterior wall of the container and terminates adjacent the filter element. 2. The filter assembly of claim 1 wherein the first capillary tube is configured to extend between the filter element and the outer casing. 3. The filter assembly of claim 2 wherein the filter element is provided as a cylindrical sleeve of a porous material having a first length measured along an axis of the cylindrical sleeve and wherein the first capillary tube extends from the first container and has a length substantially equal to the first length. 4. The filter assembly of claim 2 wherein the filter element is provided as a cylindrical sleeve of a porous material having a first length measured along an axis of the cylindrical sleeve, and wherein the first capillary tube extends from the first container and has a length less than or equal to about three-fourths of the first length. 5. The filter assembly of claim 4 wherein the first capillary tube extends from the first container and has a length less than or equal to about one-half of the first length. 6. The filter assembly of claim 4 wherein first capillary tube extends from the first container and has a length less than or equal to about one-fourth of the first length. 7. A filter assembly comprising a housing defining an interior chamber and including an inlet, an outlet, and a fluid pathway for a liquid flowing through the interior chamber wherein the liquid flowing through a first region of the interior chamber generates a first fluid pressure and a second fluid pressure lower than the first fluid pressure through a second region of the interior chamber; a filter element disposed in the interior chamber in the fluid pathway between the inlet and the outlet; a first container disposed within the interior chamber and having an exterior wall defining an interior region, said container having a first opening including a first capillary tube extending from the exterior wall and a second opening through the exterior wall spaced apart from the first opening, said first opening and said second opening providing fluid communication between the interior chamber and the interior region; and a liquid additive provided in the interior region, said additive selected to provide a beneficial property to the liquid flowing through the filter assembly, wherein the first container has a top wall portion including the first opening and an opposite bottom wall portion and a depth measured from the top wall portion to the bottom wall portion and wherein the first capillary tube extends into the interior region a first distance less than or equal to about one fourth of the depth. 8. The filter assembly of claim 7 wherein the second opening includes a second capillary tube extending into the interior region a second distance greater than or equal to about three fourths of the depth. 9. A filter assembly comprising a housing defining an interior chamber and including an inlet, an outlet, and a fluid pathway for a liquid flowing through the interior chamber wherein the liquid flowing through a first region of the interior chamber generates a first fluid pressure and a second fluid pressure lower than the first fluid pressure through a second region of the interior chamber; a filter element disposed in the interior chamber in the fluid pathway between the inlet and the outlet; a first container disposed within the interior chamber and having an exterior wall defining an interior region, said container having a first opening including a first capillary tube extending from the exterior wall and a second opening through the exterior wall spaced apart from the first opening, said first opening and said second opening providing fluid communication between the interior chamber and the interior region; a liquid additive provided in the interior region, said additive selected to provide a beneficial property to the liquid flowing through the filter assembly; and a nutplate and a filter endcap positioned between the filter element and the nutplate, said endcap including a shroud terminating adjacent an end of the first capillary tube. 10. A filter assembly comprising a housing defining an interior chamber and including an inlet and an outlet into the interior chamber; a filter element disposed in the interior chamber between the inlet and the outlet, said filter element partitioning the interior chamber into an entering region proximate to the inlet and an exiting region proximate to the outlet; a first container disposed within the interior chamber and defining an interior region, said first container having a first capillary tube extending into the entering region and a second capillary tube providing fluid communication between the interior region and the interior chamber; and a liquid additive provided in the interior region, said liquid additive selected to provide at least one benefit to the liquid flowing through the filter assembly, wherein the first capillary tube extends from the first container into the entering region and terminates adjacent the filter element. 11. The filter assembly of claim 10 wherein the first capillary tube is configured to extend between the filter element and the housing. 12. A filter assembly comprising a housing defining an interior chamber and including an inlet and an outlet into the interior chamber; a filter element disposed in the interior chamber between the inlet and the outlet, said filter element partitioning the interior chamber into an entering region proximate to the inlet and an exiting region proximate to the outlet; a first container disposed within the interior chamber and defining an interior region, said first container having a first capillary tube extending into the entering region and a second capillary tube providing fluid communication between the interior region and the interior chamber; a liquid additive provided in the interior region, said liquid additive selected to provide at least one benefit to the liquid flowing through the filter assembly; and a nutplate and a filter endcap positioned between the filter element and the nutplate, said endcap including a shroud terminating adjacent an end of the first capillary tube. 13. A filter assembly comprising a housing defining an interior chamber and including an inlet and an outlet into the interior chamber; a filter element disposed in the interior chamber between the inlet and the outlet, said filter element partitioning the interior chamber into an entering region proximate to the inlet and an exiting region proximate to the outlet; a first container disposed within the interior chamber and defining an interior region, said first container having a first capillary tube extending into the entering region and a second capillary tube providing fluid communication between the interior region and the interior chamber; and a liquid additive provided in the interior region, said liquid additive selected to provide at least one benefit to the liquid flowing through the filter assembly; wherein the filter element is provided as a cylindrical sleeve of a porous material having a first length measured along an axis of the cylindrical sleeve and wherein the first capillary tube extends from the first container and has a length substantially equal to the first length. 14. A filter assembly comprising a housing defining an interior chamber and including an inlet and an outlet into the interior chamber; a filter element disposed in the interior chamber between the inlet and the outlet, said filter element partitioning the interior chamber into an entering region proximate to the inlet and an exiting region proximate to the outlet; a first container disposed within the interior chamber and defining an interior region, said first container having a first capillary tube extending into the entering region and a second capillary tube providing fluid communication between the interior region and the interior chamber; and a liquid additive provided in the interior region, said liquid additive selected to provide at least one benefit to the liquid flowing through the filter assembly, wherein the first container has a top wall portion including the first opening and an opposite bottom wall portion and a depth measured from the top wall portion to the bottom wall portion and wherein the first capillary tube extends into the interior region a first distance less than or equal to about one fourth of the depth, and wherein the second capillary tube extends into the interior region a second distance greater than or equal to about three fourths of the depth.
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