The present invention provides a liquid filtration device with internal flow paths that facilitate the purging of air bubbles from the device. The device includes internal channels that collect bubbles from fluid entering the filtration device and more efficiently direct fluid to sweep bubbles from
The present invention provides a liquid filtration device with internal flow paths that facilitate the purging of air bubbles from the device. The device includes internal channels that collect bubbles from fluid entering the filtration device and more efficiently direct fluid to sweep bubbles from the device during operation. The present invention also provides for an automatic means to minimize fluid loss during a vent process.
대표청구항▼
What is claimed is: 1. A method of removing bubbles from a fluid passing through a filter device, comprising: providing a filter device comprising a housing, the housing comprising a bowl, a cap, and a cover, the bowl defining an opening that receives a filter medium, the cap substantially covering
What is claimed is: 1. A method of removing bubbles from a fluid passing through a filter device, comprising: providing a filter device comprising a housing, the housing comprising a bowl, a cap, and a cover, the bowl defining an opening that receives a filter medium, the cap substantially covering the opening of the bowl and the filter medium, the cover being fitted to the cap and the bowl, the cover including a fluid inlet, a fluid outlet, and a vent; directing fluid from the inlet toward the vent through a first fluid channel defined in a first volume between the cover and the cap, the first fluid channel accumulating bubbles from the fluid near the vent as the fluid enters the filter device, the inlet and vent being positioned at the same end of the housing; and optionally, opening the vent to enable the bubbles that accumulate near the vent to be expelled. 2. The method of claim 1 further comprising: directing the fluid from the first fluid channel to sweep an undersurface of the cap through a second fluid channel, the second fluid channel being defined in a second volume between an undersurface of the cap and the filter medium, the second fluid channel accumulating bubbles from the fluid that collect or form near the undersurface of the cap; and further directing the fluid from the second channel back to the first fluid channel through an aperture defined in the cap that couples the second fluid channel with the first fluid channel, the first fluid channel accumulating bubbles recovered in the second fluid channel near the vent. 3. The method of claim 2 wherein the second fluid channel extends substantially about the circumference of the cap, the second fluid channel defining a flow path allowing fluid to travel beneath the cap and then back above the cap through an aperture into the first fluid channel for expulsion through the vent. 4. The method of claim 2 further comprising: directing the fluid from the first fluid channel toward the bottom of the bowl through a third fluid channel defined between the bowl and the filter medium, the third fluid channel enabling the fluid to sweep the bottom of the bowl; and further directing the fluid from the bottom of the bowl through a plurality of fourth fluid channels toward the second fluid channel. 5. The method of claim 4 wherein the third fluid channel is defined between at least two ribs positioned axially along the inside of the housing bowl. 6. The method of claim 4 wherein the plurality of fourth fluid channels converge with the second fluid channel at or near the nadir of the volume between the cap and the cover of the housing. 7. The method of claim 6 wherein the plurality of fourth fluid channels are each defined between at least two ribs positioned axially along the inside of the housing bowl. 8. The method of claim 1 wherein the first fluid channel is characterized by cross-sectional areas that facilitate a fluid velocity that enables removal of bubbles from the fluid flowing through the first fluid channel. 9. The method of claim 1 wherein the first channel extends substantially about the circumference of the housing cover, such that the first fluid channel spirals up from an outlet side of the cover to provide a pathway for bubbles to be directed to the vent. 10. The method of claim 1 wherein the underside of the cap has a sloped surface, the sloped surface having a nadir and a zenith, the zenith being juxtaposed to the vent. 11. The method of claim 1 wherein the housing cover has an internal surface angled toward a vent side of the cover to provide a pathway for bubbles to be directed to the vent. 12. The method of claim 1 further comprising: opening and closing the vent for time intervals that minimize fluid loss. 13. The method of claim 1 further comprising: providing a degassing membrane contactor external to the filter device to further eliminate bubbles. 14. A method of removing bubbles from a fluid passing through a filter device, comprising: providing a filter device comprising a housing, the housing comprising a bowl, a cap, and a cover, the bowl defining an opening that receives a filter medium, the cap substantially covering the opening of the bowl and the filter medium, the cover being fitted to the cap and the bowl, the cover including a fluid inlet, a fluid outlet, and a vent; directing fluid from the inlet toward the vent through a first fluid channel defined in a first volume between the cover and the cap, the first fluid channel accumulating bubbles from the fluid near the vent as the fluid enters the filter device; further directing the fluid from the first fluid channel to sweep an undersurface of the cap through a second fluid channel, the second fluid channel being defined in a second volume between an undersurface of the cap and the filter medium, the second fluid channel accumulating bubbles from the fluid that collect or form near the undersurface of the cap; further directing the fluid from the second fluid channel back to the first fluid channel through an aperture defined in the cap that couples the second fluid channel with the first fluid channel, the first fluid channel accumulating bubbles recovered in the second fluid channel near the vent; and optionally, opening the vent to enable the bubbles that accumulate near the vent to be expelled. 15. A method of removing bubbles from a fluid passing through a filter device, comprising: providing a filter device comprising a housing, the housing comprising a bowl, a cap, and a cover, the bowl defining an opening that receives a filter medium, the cap substantially covering the opening of the bowl and the filter medium, the cover being fitted to the cap and the bowl, the cover including a fluid inlet, a fluid outlet, and a vent; directing the fluid from the inlet of the filter device toward the bottom of the bowl through a first fluid channel defined between the bowl and the filter medium, the first fluid channel enabling the fluid to sweep the bottom of the bowl; further directing the fluid from the bottom of the bowl through at least one second fluid channel toward the vent for removal of bubbles in the fluid; and optionally, opening the vent to enable the bubbles that accumulate near the vent to be expelled. 16. The method of claim 15 wherein the housing cover has an interior surface being angled toward the vent to enable bubbles removed from the fluid to rise to the vent. 17. The method of claim 15 wherein an interior wall of the housing bowl is fitted to the exterior wall of the filter medium, such that the first fluid channel is defined therebetween for directing the fluid from the inlet of the filter device toward the bottom of the bowl. 18. The method of claim 15 wherein at least one flow channel is defined between the interior bottom of the housing bowl and the exterior bottom of the filter medium, such that at least one fluid channel is defined therebetween for sweeping the interior bottom of the housing bowl.
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Dickens Duane D. (Irvine CA) Servas Francis M. (San Juan Capistrano CA), Arterial blood filter with improved gas venting.
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