Water Filter with Removable Sleeve
The disclosed technology includes systems and methods for water filtration. In one implementation, a system includes a water receptacle to house unfiltered water, the receptacle including an aperture located in a sidewall, a valve component located on an exterior surface of the sidewall in alignment with a filter housing located on an interior surface of the sidewall filtrate the unfiltered water. In one implementation, a method includes filling a water receptacle with unfiltered water, filtrating the unfiltered water through a filter housing in the water receptacle to obtain filtered water, and moving the filtered water from the filter housing and out of a valve component connected to a first end of a filter housing.
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This application claims the benefit of pending U.S. Provisional patent application No. 62/810,279, entitled “WATER FILTRATION METHODS AND SYSTEMS,” filed on Feb. 25, 2019, and is specifically incorporated by reference for all it discloses and teaches.
BACKGROUNDIn water filtration processes, contaminants in water may be removed by a physical separation method. The mixture of water and suspended contaminants may be transported by gravity force or a pumping force through a porous filtration barrier.
SUMMARYThe disclosed technology includes systems and methods for water filtration. In one implementation, a water filtration system may include a water receptacle to house unfiltered water, the water receptacle including an aperture located in a wall (e.g. a side wall) of the water receptacle, a valve, the valve including a valve arm to control water flow, the valve and the valve arm located on an exterior surface of the sidewall of the water receptacle, and a filter housing to filtrate the unfiltered water, the filter housing located on an interior surface of the sidewall of the water receptacle and in alignment with the valve, a first end of the filter housing connected to the valve via the aperture of the water receptacle, and a second end of the filter housing connected to porous tubes to collect pathogens. In some embodiments, a removable sleeve attaches to the second end of the filter housing and encloses the porous tubes. The removable sleeve may be removed for access to the porous tubes for cleaning. The porous tubes may be clean in unfiltered water.
This Summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Descriptions. This Summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter. These and various other features and advantages will be apparent from a reading of the following Detailed Descriptions.
The system and methods discussed herein include a durable water filtration system that uses minimal materials and may be adapted to a variety of water vessels. In some implementations, porous tubes (e.g., 0.1 μm absolute, 0.2 μm absolute) in the water filtration system may be used to filtrate the water. The system may include water flow control with a valve component. The water filtration may be facilitated by gravity or other means. In some implementations, pumps may be used as a means for cleaning the porous tubes.
In some implementations, the system includes a water receptacle to house unfiltered water, the water receptacle including an aperture located in a wall (e.g. a side wall) of the water receptacle, a valve, the valve including a valve arm to control water flow, the valve and the valve arm located on an exterior surface of the sidewall of the water receptacle, and a filter housing to filtrate the unfiltered water, the filter housing located on an interior surface of the sidewall of the water receptacle and in alignment (e.g., horizontal alignment) with the valve, a first end of the filter housing connected to the valve via the aperture of the water receptacle, and a second end of the filter housing connected to porous tubes to collect pathogens. In some implementations, a removable filter sleeve is configured to connect to the filter housing to encase the porous tubes and to disconnect from the filter housing to provide access for cleaning the porous tubes. The removable sleeve protects the porous tubes. In some cases, the removable filter sleeve encases the porous tubes, where it surrounds the tubes, but there is at least one aperture or slot on the filter sleeve to allow water to enter the sleeve and enter the porous tubes to move through the filter housing and out to the valve to exit the water filtration system.
In some implementations, the porous tubes are hollow fibers (e.g., synthetic material). In some implementations, the porous tubes are potted into the filter housing. In some implementations, the porous tubes are encased by nylon netting.
In some implementations, a hand pump is assembled between the valve and the filter housing, the hand pump may be located on the exterior surface of the sidewall of the water receptacle, and the hand pump may be configured to compress for pumping water from an outside water supply into the water receptacle in a backwash process to clean the porous tubes. In some implementations, a spigot may be attached to the filter housing.
The disclosed water filtration system may be used in underdeveloped regions of the world to provide filtered water originating from rivers, lakes, streams, deep or shallow wells, taps, or other various water sources. The disclosed water filtration system may be cleaned by a user with one hand by removing the filter sleeve from the filter housing and cleaning the porous tubes. The porous tubes may be cleaned by washing, moving, massaging, swirling, or agitating the porous tubes. In some embodiments, the water filtration system filters a “contaminant” from the water. For purposes of this disclosure, a contaminant may include contaminants, debris, pathogens, bacteria, parasites, microorganisms, elements, or other foreign substances that a user would want filtered out of water. In some embodiments, the water filtration system will filter out viruses.
The disclosed invention allows for cleaning the porous tubes in unfiltered water. For example, in some embodiments, a user can remove the filter sleeve and clean the porous tubes in the original unfiltered water in the water receptacle 7. In another example, the user can empty the water receptacle 7, add new unfiltered water, and the filling of the water receptacle 7 with the new unfiltered water can agitate, and thereby clean, the porous tubes. Backwashing may not be required in the water filtration system.
The water receptacle 7 may be a various apparatus. For example, the water receptacle 7 may be a bucket, a can, a drum, or a jug, or a larger system, apparatus, vessels with multiple filters or filter, or portable vessels. In other examples, the water receptacle may be a water bottle. The filter housing 12 and the valve component 17 may be connected to each other with a nut 4 and two washers 5, and other similar connection components are contemplated. In some implementations, the washers 5 and a nut 4 pass over the valve arm 1 and filter housing's valve receiver 8 to create a seal to the water receptacle 7. Thus, there may be a washer on each side of a wall of the water receptable 7.
The filter housing 12 is shown with a first bead 9 that locks in the valve receiver 8. On a first end of the filter housing 12, a filter housing opening 10 and threads 11 are shown. On a second end of the filter housing 12, porous tubes 13 are shown. The porous tubes 13 provide filtration of unfiltered water in the water receptacle 7.
Due to the density of the porous tubes 13, dirt, debris, and organic material collect among the porous tubes 13. The filter sleeve 14 encases and protects the porous tubes 13 from incidental damage and reduces contact with sediment in the water vessel 7. The filter sleeve 14 may slide onto the filter housing 12, or it may attach by other means, such as by a twist, screw on, or bead/female bead attaching means. For example, in
The filter sleeve 14 can be removed to allow more efficient cleaning and maintenance by methods such as rinsing, back-washing, swirling, manually massaging debris out by hand. However, in some implementations, there is no removable filter sleeve 14 in the water filtration system 100.
During cleaning, the filter housing 12 may be disconnected from the valve component 17 and the porous tubes can be swirled around in water or massaging to remove bacteria, dirt, pathogens, etc. In some implementations, the filter housing 12 is not removed and the porous tubes may be massaged in water while the filter housing is connected to the valve component 17. The water may be the unfiltered water in the water receptacle, or new unfiltered water introduced into the water receptacle. In such implementations, backwashing may not be required.
The valve component 17 may include a variety of component parts. For example, as shown in
The valve component 17 is positioned on an exterior surface of a sidewall of the water receptacle 7, while the filter housing 12 is positioned an interior surface of the sidewall of the water receptacle 7. The connection between the valve component 17 and the filter housing 12 may be positioned on either side of the sidewall, or inside the sidewall of the water receptacle 7. The connection between the valve component 17 and the filter housing 12 may be positioned in an aperture 6, or outside of the aperture 6.
The valve component 17 and the filter housing 12 may be positioned together in a horizontal axis. The water may be moved by gravity through either the valve component 17 or the filter housing 12, depending on whether the system 100 is being used for water filtration or cleaned by way of backwashing from an exterior water supply to the valve component 17 and through the filter housing 12 and out the porous tubes 13. Other means for moving the water through the water filtration system 100 other than gravity is contemplated. For example, as discussed in
In some embodiments, arrow 23 depicts that water can move from the filter housing 12 to an exterior water supply through a hose 15 attachment to the filter housing 12 and out from the water receptacle 7.
In some embodiments, arrow 16 depicts that water can move from an exterior water supply through a hose 5 attachment to the filter housing 12 and out into the water receptacle 7. The exterior water supply can backwash the filter housing 12 and the porous tubes.
The filter housing 12 and the valve component 17 may be connected to each other with a two washers 5 passing over threads 11, which enter and screw into a filter housing opening 10 to create a seal to the water receptacle 7. Other similar connection components are contemplated. On a second end of the filter housing 12, porous tubes 13 are shown. The porous tubes 13 provide filtration of unfiltered water in the water receptacle 7.
Due to the density of the porous tubes 13, dirt, debris, and organic material collect among the porous tubes 13. The filter sleeve 14 encases and protects the porous tubes 13 from incidental damage and reduces contact with sediment in the water vessel 7. The filter sleeve 14 may slide onto the filter housing 12, or it may attach by other means, such as by a twist, screw on, or bead/female bead attaching means. For example, in
In
During cleaning, the filter housing 12 may be disconnected from the valve component 17, the filter sleeve 14 may be removed, and the porous tubes can be swirled around in water or massaged to remove bacteria, dirt, pathogens, etc. In some implementations, the filter housing 12 is not removed, the filter sleeve 14 is removed, and the porous tubes may be massaged or otherwise agitated or rinsed while the filter housing is connected to the valve component 17. In some embodiments, the filter sleeve 14 may be removed and the porous tubes cleaned when the water flow slows down. Depending on the turbidity of the water, the porous tubes may require cleaning more often, such as several times a day. In some embodiments, the porous tubes may only need to be cleaned once a week. In some embodiments, no backwash is required in the water filtration system.
The valve component 17 may include a variety of component parts. For example, as shown in
The valve component 17 is positioned on an exterior surface of a sidewall of the water receptacle 7, while the filter housing 12 is positioned an interior surface of the sidewall of the water receptacle 7. The connection between the valve component 17 and the filter housing 12 may be positioned on either side of the sidewall, or inside the sidewall of the water receptacle 7. In some embodiments, the connection between the valve component 17 and the filter housing 12 may be positioned in an aperture 6, or outside of the aperture 6.
The valve component 17 and the filter housing 12 may be positioned together in a horizontal axis or a vertical axis, depending on the implementation. The water may be moved by gravity through either the valve component 17 or the filter housing 12, depending on whether the system 100 is being used for water filtration or cleaned by way of backwashing from an exterior water supply to the valve component 17 and through the filter housing 12 and out the porous tubes 13. Other means for moving the water through the water filtration system 100 other than gravity is contemplated. For example, as discussed in
In some embodiments, the water filtration system may be a water bottle or jug. In such instance, the filter housing may be positioned on an interior surface of a lid or an end wall of the water bottle, and the water valve component may be a component located on an exterior surface of the lid or end wall and configured for a user to drink or pour water from the water bottle.
An operation 704 moves the filtered water from the filter housing along the horizontal or vertical axis to a valve connected to a first end of a filter housing. The valve positioned adjacent to an exterior surface of the sidewall in the water receptacle in the horizontal or vertical axis. The valve is connected to the filter housing via an aperture located in the sidewall of the water receptacle.
An operation 706 rotates a valve arm to open and close a valve opening on the valve. When the valve opening opens, filtered water can flow out of the valve.
In another operation, a water supply may be attached onto the valve arm, and water may be backwashed through the valve arm, filter housing, and porous tubes. In another operation, water may be backwashed through the valve arm, filter housing, and porous tubes with a water supply connect to the valve. In some implementations, water may be backwashed through the valve arm, filter housing, and porous tubes by compressing the filter housing toward the interior sidewall of the water receptacle with a hand pump positioned between and connecting the valve to the filter housing.
In some implementations of use, the porous tubes may be removed from the second end of the filter housing and the porous tubes may be swirled, or otherwise agitated, to remove contaminants. For example, the filter housing may be detached from the valve component, and the filter housing may be swirled, shaken, or otherwise agitated in water, releasing debris on the porous tubes.
In some implementations of use, a removable sleeve may be connected onto the second end of the filter housing to encase the porous tubes. For example, the sleeve may be used to protect the porous tubes. The removable sleeve may attach to the filter housing during use, allowing water to enter the removable sleeve on one end and pass through the porous tubes to the valve component, converting unfiltered water to filtered water through a valve on the outside of the water receptacle.
In some implementations of use, the removable sleeve is disconnected from the second end of the filter housing to provide access to the porous tubes. In some implementations of use, the porous tubes are cleaned by massaging the porous tubes.
The valve may be positioned on an exterior surface of the side wall and the filter housing is positioned on an interior surface of the side wall. An operation 806 may attach potted porous tubes to a second end of the filter housing.
In some implementations, the method includes adjacently assembling washers and a nut in the water filtration system. The washers and the nut may be configured to pass over the valve arm and the valve receiver of the filter housing and to create a seal. In some implementations, the method includes assembling a first bead in the valve arm to lock directly into the valve receiver of the filter housing to rotate a valve opening to allow water flow. In some implementations, the method includes potting the porous tubes, and encasing the porous tubes in a nylon netting.
The logical operations making up the implementations described herein are referred to variously as operations, steps, objects, or modules. Furthermore, it should be understood that logical operations may be performed in any order, adding or omitting operations as desired, unless explicitly claimed otherwise or a specific order is inherently necessitated by the claim language.
The above specification, examples, and data provide a complete description of the structure and use of exemplary embodiments of the invention. Since many embodiments of the invention can be made without departing from the spirit and scope of the invention, the invention resides in the claims hereinafter appended. Furthermore, structural features of the different embodiments may be combined in yet another embodiment without departing from the recited claims.
Claims
1. A water filtration system adapted for use with a container of an arbitrary configuration, the water filter comprising:
- an outlet configured to be disposed outside the container;
- a filter housing configured to be disposed inside the container, the filter housing comprising a first portion and a second portion; the first portion comprising a filter attachment mechanism providing fluid communication between the filter housing and the outlet; and the second portion comprising filter media; and
- a filter sleeve comprising: a sleeve body defining a filter media cavity and having one or more inlet ports; and a sleeve attachment mechanism providing fluid communication between the sleeve body and the first portion of the filter housing, the filter sleeve having a connected configuration and a disconnected configuration; the connected configuration disposing the sleeve body to enclose the filter media and provide liquid communication between the filter media and an interior of the container through the one or more input ports, and the disconnected configuration, disposing the sleeve body to expose the filter media for inspection and cleaning.
2. The water filtration system of claim 1, wherein the container comprises a rigid sidewall.
3. The water filtration system of claim 2, wherein the container is one of a bucket, a can, a drum, a jug, or a bottle.
3. The water filtration system of claim 2, wherein the filter attachment mechanism provides the liquid connection between the first portion of the filter housing and the outlet through an aperture in the rigid sidewall of the container.
4. The water filtration system of claim 1, wherein the filter attachment mechanism provides the liquid connection between the first portion of the filter housing and the outlet through an aperture in a lid of the container.
5. The water filtration system of claim 1, wherein the sleeve attachment mechanism comprises a friction fit with the first portion of the filter housing.
6. The water filtration system of claim 1, wherein the sleeve attachment mechanism comprises a bead that interlocks with a corresponding bead on the first portion of the filter housing.
7. The water filtration system of claim 1, wherein the sleeve attachment mechanism comprises a threaded portion that interfaces with a corresponding threaded portion of the first portion of the filter housing.
8. The water filtration system of claim 1, wherein the sleeve attachment mechanism comprises a twist fit that interfaces with a corresponding twist fit of the first portion of the filter housing.
9. The water filtration system of claim 1, wherein the filter attachment mechanism provides a removable connection between the filter housing and the outlet.
10. The water filtration system of claim 9, wherein the removable connection is watertight when connected.
11. The water filtration system of claim 1, wherein the sleeve attachment mechanism provides a removable connection between the sleeve body and the first portion of the filter housing.
12. The water filtration system of claim 11, wherein the removable connection is watertight when connected.
13. The water filtration system of claim 1, wherein the filter media comprises a plurality of porous tubes.
14. A water filtration system comprising:
- a container; and
- a water filter displaced at least partially within the container, the water filter comprising: an outlet configured to be disposed outside the container; a filter housing configured to be disposed inside the container, the filter housing comprising a first portion and a second portion; the first portion comprising a filter attachment mechanism providing fluid communication between the filter housing and the outlet; and the second portion comprising filter media; and a filter sleeve comprising: a sleeve body defining a filter media cavity and having one or more inlet ports; and a sleeve attachment mechanism providing fluid communication between the sleeve body and the first portion of the filter housing, the filter sleeve having a connected configuration and a disconnected configuration; the connected configuration disposing the sleeve body to enclose the filter media and provide liquid communication between the filter media and an interior of the container through the one or more input ports, and the disconnected configuration disposing the sleeve body to expose the filter media for inspection and cleaning.
15. The water filtration system of claim 14, wherein the container comprises a rigid sidewall.
16. The water filtration system of claim 15, wherein the container is one of a bucket, a can, a drum, a jug, or a bottle.
17. The water filtration system of claim 15, wherein the filter attachment mechanism provides the liquid connection between the first portion of the filter housing and the outlet through an aperture in the rigid sidewall of the container.
18. The water filtration system of claim 6, wherein the filter attachment mechanism provides the liquid connection between the first portion of the filter housing and the outlet through an aperture in a lid of the container.
19. A method of filtering water, the method comprising:
- disposing a filter system at least partially within a container, the filter system comprising: an outlet configured to be disposed outside the container; a filter housing configured to be disposed inside the container, the filter housing comprising a first portion and a second portion; the first portion comprising a filter attachment mechanism providing fluid communication between the filter housing and the outlet; and the second portion comprising filter media; and a filter sleeve comprising: a sleeve body defining a filter media cavity and having one or more inlet ports; and a sleeve attachment mechanism providing fluid communication between the sleeve body and the first portion of the filter housing, the filter sleeve having a connected configuration and a disconnected configuration; the connected configuration disposing the sleeve body to enclose the filter media and provide liquid communication between the filter media and an interior of the container through the one or more input ports, and the disconnected configuration, disposing the sleeve body to expose the filter media for inspection and cleaning;
- filling the container at least partially with water; and
- collecting filtered water from the outlet.
20. The method of claim 19, wherein the container is one of a bucket, a can, a drum, a jug, or a bottle.
Type: Application
Filed: Aug 29, 2022
Publication Date: Dec 29, 2022
Applicant: Vivoblu Inc. (Centennial, CO)
Inventors: Roger Cabbage (Broomfield, CO), Robert Miller (Golden, CO)
Application Number: 17/823,048