US20140332478A1 - Pitchers, filtration units, and filtration systems and methods - Google Patents

Pitchers, filtration units, and filtration systems and methods Download PDF

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Publication number
US20140332478A1
US20140332478A1 US13/987,320 US201313987320A US2014332478A1 US 20140332478 A1 US20140332478 A1 US 20140332478A1 US 201313987320 A US201313987320 A US 201313987320A US 2014332478 A1 US2014332478 A1 US 2014332478A1
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US
United States
Prior art keywords
pitcher
coupled
fluid
filtration unit
lid
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Abandoned
Application number
US13/987,320
Inventor
Duane Gilbert, Jr.
Wes Russell
David Rinaldis
Henry Sim
Arthur Kwun
Martin Leugers
Josh Druker
Stephen Senatore
Kevin Simmons
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Aquasana Inc
Original Assignee
Aquasana Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from US13/987,291 external-priority patent/US20140124429A1/en
Application filed by Aquasana Inc filed Critical Aquasana Inc
Priority to US13/987,320 priority Critical patent/US20140332478A1/en
Publication of US20140332478A1 publication Critical patent/US20140332478A1/en
Assigned to FCP FUND II, L.P. reassignment FCP FUND II, L.P. SECURITY INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: AQUASANA, INC.
Assigned to AQUASANA, INC. reassignment AQUASANA, INC. RELEASE BY SECURED PARTY (SEE DOCUMENT FOR DETAILS). Assignors: FCP FUND II, L.P.
Assigned to PRAESIDIAN CAPITAL OPPORTUNITY FUND III, LP, AS AGENT reassignment PRAESIDIAN CAPITAL OPPORTUNITY FUND III, LP, AS AGENT SECURITY INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: AQUASANA, INC.
Assigned to AQUASANA, INC. reassignment AQUASANA, INC. RELEASE BY SECURED PARTY (SEE DOCUMENT FOR DETAILS). Assignors: PRAESIDIAN CAPITAL OPPORTUNITY FUND III, LP
Priority to US16/138,731 priority patent/US10556808B2/en
Abandoned legal-status Critical Current

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    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/001Processes for the treatment of water whereby the filtration technique is of importance
    • C02F1/003Processes for the treatment of water whereby the filtration technique is of importance using household-type filters for producing potable water, e.g. pitchers, bottles, faucet mounted devices
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D35/00Filtering devices having features not specifically covered by groups B01D24/00 - B01D33/00, or for applications not specifically covered by groups B01D24/00 - B01D33/00; Auxiliary devices for filtration; Filter housing constructions
    • B01D35/02Filters adapted for location in special places, e.g. pipe-lines, pumps, stop-cocks
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D35/00Filtering devices having features not specifically covered by groups B01D24/00 - B01D33/00, or for applications not specifically covered by groups B01D24/00 - B01D33/00; Auxiliary devices for filtration; Filter housing constructions
    • B01D35/14Safety devices specially adapted for filtration; Devices for indicating clogging
    • B01D35/143Filter condition indicators
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F2209/00Controlling or monitoring parameters in water treatment
    • C02F2209/44Time
    • C02F2209/445Filter life
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F2307/00Location of water treatment or water treatment device
    • C02F2307/04Location of water treatment or water treatment device as part of a pitcher or jug

Definitions

  • the present invention relates generally to fluid filtration, and more particularly, but not by way of limitation, to filtration systems and methods, filtration units, pitchers, and components thereof.
  • This disclosure includes embodiments of filtration systems and methods, filtration units, pitchers, and components thereof.
  • Some embodiments of the present pitchers comprise a lid; a base comprising a sidewall and a bottom, the base configured to be coupled to the lid such that the base and the lid cooperate to define a container configured to hold fluid, where the base has a valve configured to be in: an open configuration when the pitcher is coupled to a filtration unit and a closed configuration when the pitcher is not coupled to a filtration unit; and a divider configured to divide the container into a first compartment and a second compartment, the divider oriented such that the first compartment and the second compartment each comprises at least a portion of the bottom of the base.
  • Some embodiments of the present pitchers comprise a base having a valve configured to be in: an open configuration when the pitcher is coupled to a filtration unit and a closed configuration when the pitcher is not coupled to a filtration unit; and a lid configured to be coupled to the base such that the base and the lid cooperate to define a container configured to hold fluid, where the lid comprises a dispenser configured such that if the pitcher is coupled to a filtration unit and the dispenser is activated, fluid is permitted to exit the pitcher through the valve and is permitted to re-enter the pitcher through the lid.
  • Some embodiments of the present filtration units comprise a housing configured to be coupled to a pitcher having a valve, the housing configured to cooperate with the pitcher to open the valve; and a pump coupled to the housing and configured to be in fluid communication with a filter if a filter is coupled to the housing, where the filtration unit is configured such that if a pitcher having a valve and holding fluid is coupled to the housing and if a filter is coupled to the housing, the pump will pump fluid from the pitcher through the valve and the filter and into the pitcher.
  • Some embodiments of the present filtration systems comprise a pitcher comprising: a lid; and a base configured to be coupled to the lid such that the base and the lid cooperate to define a container configured to hold fluid, where the base has a valve configured to be in: an open configuration when the pitcher is coupled to a filtration unit; and a closed configuration when the pitcher is not coupled to a filtration unit; and a filtration unit configured to be coupled to the pitcher, the filtration unit comprising a housing configured to cooperate with the pitcher to open the valve; and a pump configured to be in fluid communication with a filter if a filter is coupled to the filtration system, where if the pitcher has fluid and is coupled to the filtration unit and if a filter is coupled to the filtration unit, the pump is configured to pump fluid from the pitcher through the valve and the filter and into the pitcher.
  • Some embodiments of the present methods comprise coupling a pitcher having a valve to a filtration unit such that the valve opens; and activating a pump to pump fluid from the pitcher through the valve, the filtration unit, and a filter, and back into the pitcher.
  • This disclosure includes designs for pitchers and portions of pitchers.
  • Some of the present pitcher designs include portions that are clear, translucent, transparent, and/or opaque, such as a container portion configured to hold fluid (such as drinking water) and that may include two compartments separated by a divider. Some of the present pitcher designs do not include the bottom of the pitcher.
  • Some of the present designs of pitcher portions include the handle (as well as any portion of the handle), the container portion (as well as any part of the container portion) ; the spout portion (as well as any part of the spout portion), and the lid of the container (as well as any portion of the lid, such as the top of the lid).
  • Some of the present designs of pitcher portions do not include the bottom of any included portion.
  • Some of the present pitcher and base designs include a portion of the base and/or the pitcher (such as a portion of the pitcher and/or the base that is visible when the pitcher and base are coupled together, and including less than all of such a visible portion), and some do not include the bottom of any base, pitcher, or included portion of either.
  • This disclosure includes designs for pitchers comprising dispensers and portions of dispensers.
  • Some of the present pitcher designs include portions that are clear, translucent, transparent, and/or opaque, such as a container portion configured to hold fluid (such as drinking water). Some of the present pitcher designs do not include the bottom of the dispenser.
  • Some of the present designs of dispenser portions include the container portion (as well as any part of the container portion), the dispenser portion (as well as any portion of the lid, such as the top of the lid), and the spout portion (as well as any part of the spout portion). Some of the present designs of dispenser portions do not include the bottom of any included portion.
  • Some of the present dispenser and base designs include a portion of the base and/or the pitcher (such as a portion of the pitcher and/or the base that is visible when the pitcher and base are coupled together, and including less than all of such visible portion), and some do not include the bottom of any base, pitcher, dispenser, or included portion of either.
  • This disclosure includes designs for filtration units and portions of filtration units. Some of the present filtration units do not include the bottom of the base. Some of the present designs of filtration units include the front (including any part of the front) of the unit, which has a low profile and on which a pitcher may be placed, the rear of the filtration unit (including any part of the rear), and the top of the filtration unit (including any part of the top). Some of the present designs of filtration units do not include the bottom of any included portion.
  • any embodiment of any of the present systems, apparatuses, and methods can consist of or consist essentially of—rather than comprise/include/contain/have—any of the described steps, elements, and/or features.
  • the term “consisting of” or “consisting essentially of” can be substituted for any of the open-ended linking verbs recited above, in order to change the scope of a given claim from what it would otherwise be using the open-ended linking verb.
  • FIGS. 1A-1B depict a perspective view of a first embodiment of the present filtration systems with a pitcher coupled to a filtration unit.
  • FIGS. 2A-2B depict a perspective view of a second embodiment of the present filtration systems with a pitcher coupled to a filtration unit.
  • FIGS. 3A-3E depict various views of a pitcher comprising a dispenser.
  • FIGS. 4A-4E depict various views of a pitcher comprising a divider.
  • FIGS. 5A-5G depict various views of a filtration unit configured to be coupled to the pitchers of FIGS. 3A-3E and 4 A- 4 E.
  • FIGS. 5H-5I depict various views of a lid of the filtration unit of FIGS. 5A-5G .
  • Coupled is defined as connected, although not necessarily directly, and not necessarily mechanically; two items that are “coupled” may be unitary with each other.
  • the terms “a” and “an” are defined as one or more unless this disclosure explicitly requires otherwise.
  • the term “substantially” is defined as largely but not necessarily wholly what is specified (and includes what is specified; e.g., substantially 90 degrees includes 90 degrees and substantially parallel includes parallel), as understood by a person of ordinary skill in the art. In any disclosed embodiment, the terms “substantially,” “approximately,” and “about” may be substituted with “within [a percentage] of” what is specified, where the percentage includes 0.1, 1, 5, and 10 percent.
  • detect (and any form of detect, such as “detects,” “detected,” and “detecting”) is used broadly throughout this disclosure to include receiving information, obtaining or gathering of information, and any calculations for and/or manipulations of such information that may result in additional information.
  • the term should include terms such as measuring, identifying, receiving, obtaining, gathering, similar terms, and derivatives of such terms.
  • interface (and its derivatives, such as “interfaces,” “interfaced,” and “interfacing”) is used broadly to describe a connection, communication, and/or interaction between two or more components, including mechanical, electrical, and magnetic connections, communications, and/or interactions.
  • a structure e.g., a component of an apparatus
  • a structure that is configured in a certain way is configured in at least that way, but it can also be configured in other ways than those specifically described.
  • Filtration systems 100 a and 100 b can be used, for example, to filter tap water for drinking.
  • filtration systems 100 a and 100 b are each configured to operate with filter 104 .
  • Filter 104 can be similar in construction and/or material to the filters found in the Model AQ-4 000 , AQ-4025, or AQ-4035 filter assemblies (e.g., Cartridge A and/or Cartridge B of either Model) available from Aquasana, Inc., Austin, Tex., USA.
  • the filters may comprise carbon, and, more specifically, may be characterizable as activated carbon filtration filters, such as those configured to remove impurities from water.
  • Such fitters can include one or more of the following features: an operating pressure range of 20-50 pounds per square inch, a rated capacity of 500 gallons, a maximum operating temperature of 90 degrees Fahrenheit, a maximum flow rate of 0.4 gallons per minute.
  • the filters of this disclosure which will be discussed below, can be coupled to and/or operate with filtration systems 100 a and 100 b in any suitable way, including in the ways described in detail in pending patent application No. 61/754,853, which is incorporated by reference in its entirety.
  • filter 104 can be coupled to and/or operate with filtrations systems 100 a and 100 b
  • the filtration systems and filtration units of the present application can be coupled to and/or operate with in-line carbonation systems, methods, and apparatuses.
  • in-line carbonation systems and apparatuses can be disposed between a pump and a filter casing of the present filtration systems and units, and the filtration systems and units can further comprise a CO 2 source disposed therein, as described in detail by U.S. patent application Ser. No. 12/772,641 (Publication No. US 2011/0268845) and International Patent Application No. PCT/US2011/033709 (Publication No. WO/2011/139614), which are incorporated by reference in their entirety.
  • filtration system 100 a comprises pitcher 108 a.
  • Pitcher 108 a comprises lid 112 a, base 116 a, and valve 120 a.
  • filtration system 100 b comprises pitcher 108 b.
  • Pitcher 108 b comprises lid 112 b, base 116 b, and valve 120 b.
  • Pitchers 108 a and 108 b are discussed in detail below.
  • filtration systems 100 a and 100 b each comprises filtration unit 124 .
  • Filtration unit 124 is also depicted independent of pitchers 108 a and 108 b in FIGS. 5A-5G .
  • filtration unit 124 is configured to be coupled to pitcher 108 a and pitcher 108 b.
  • filtration unit 124 comprises housing 128 .
  • Housing 128 can comprise any suitable shape configured to at least partially accommodate pitchers 108 a and 108 b (e.g., a substantially L-shaped configuration, as depicted in the embodiment shown).
  • housing 128 of filtration unit 124 comprises base 132 and upper portion 136 .
  • Upper portion 136 of housing 128 comprises recessed portion 140 configured to at least partially accommodate an end of pitcher 108 a and/or pitcher 108 b.
  • Lower portion 132 of housing 128 can be configured, as in the embodiment shown, to comprise a substantially similar shape to a bottom of a pitcher (e.g., substantially ovular).
  • lower portion 132 of housing 128 can comprise lip 144 configured to prevent a pitcher from moving away from filtration unit 124 , for example, when a horizontal force is applied to the pitcher or filtration unit 124 .
  • housing 128 comprises lid 148 .
  • Lid 148 is configured to be coupled to upper portion 136 of housing 128 .
  • Lid 148 can be coupled to housing 128 in any suitable way.
  • lid 148 comprises lid coupler 152
  • lid coupler 152 comprises protrusions 156 .
  • a portion of upper portion 136 of housing 128 defines opening 160 , which is configured to accommodate a filter (e.g., filter 104 ) and/or lid coupler 152 (e.g., by comprising a diameter larger than, but substantially similar to, a filter and/or lid coupler 152 ).
  • the portion of upper portion 136 that defines opening 160 has threads 166 configured to accommodate protrusions 156 of lid coupler 152 .
  • lid coupler 152 if lid coupler 152 is oriented accordingly, lid 148 can be rotated (e.g., 5 degrees, 10 degrees, 15 degrees, or more) to permit protrusions 156 of lid coupler 152 to engage threads 166 of upper portion 136 such that lid 148 is prevented from moving away from filtration unit 124 if for example, a vertical force is applied to lid 148 or filtration unit 124 .
  • Lid 148 of housing 128 is also configured to be coupled to a filter (e.g., filter 104 ).
  • housing 128 (including lid 148 ) is configured to be coupled to a filter in any suitable way, including in the ways detailed in pending patent application No. 61/754,853.
  • lid coupler 152 comprises annular recess 170 , configured to at least partially accommodate a filter (e.g., comprising a diameter larger than, but substantially similar to, a filter).
  • Lid 148 further comprises filter coupler 174 configured to be coupled to a filter (e.g., threadably).
  • filter 104 can be coupled to lid coupler 152 by disposing filter 104 in annular recess 170 such that filter 104 is in contact with filter coupler 174 .
  • Filter 104 can then be rotated to permit filter 104 to engage filter coupler 174 (e.g., threadably) such that filter 104 is prevented from moving away from lid 148 , for example, upon application of a horizontal or vertical force to filter 104 or lid 148 .
  • lid 148 can then be coupled to upper portion 136 (while filter 104 is coupled to lid 148 ) such that filter 104 is disposed within housing 128 and in fluid communication with at least a portion of a pump of filtration unit 124 (discussed in detail below).
  • housing 128 can comprise casing 178 , which is configured to accommodate at least a portion of filter 104 (e.g., by comprising a diameter larger than, but substantially similar to, a filter).
  • Filter 104 can be disposed in casing 178 , as in the embodiments shown.
  • Lid 148 of housing 128 further comprises spout 182 .
  • spout 182 is in fluid communication with filter coupler 174 and filter 104 via lid tubing 186 .
  • Spout 182 defines opening 190 (e.g., depicted in FIGS. 5H and 5I ) through which fluid can exit filtration unit 124 (e.g., after fluid exits filter 104 ).
  • filtration unit 124 comprises pump 194 .
  • Pump 194 can be coupled to any suitable component of filtration unit 124 (such as to housing 128 ), and in any suitable way, including by adhesive, screws, and the like. As discussed above, at least a portion of pump 194 is configured to be in fluid communication with filter 104 and/or casing 178 .
  • tubing 198 is coupled to casing 178 and to pump 194 such that casing 178 and/or filter 104 is in fluid communication with at least a portion of pump 194 .
  • Pump 194 is also configured to be in fluid communication with pitchers 108 a and 108 b.
  • tubing 202 is coupled to base entry component 206 and pump 194 such that base entry component 206 and pump 194 are in fluid communication.
  • housing 128 is configured to cooperate with pitchers 108 a and 108 b to open a valve on the pitchers.
  • nipple 210 is coupled to base entry component 206 and is configured to interact with a valve on pitchers 108 a and 108 b to permit the valve to move into an open configuration (e.g., so that fluid in pitchers 108 a and 108 b, if any, is permitted to exit the pitchers into base entry component 206 of filtration unit 124 ).
  • Base entry component 206 can comprise reservoir seal 214 (e.g., an O-ring) configured to substantially prevent fluid from exiting filtration systems 100 a and 100 b (e.g., by providing a fluid-tight seal).
  • a pitcher e.g., pitcher 108 a and/or 108 b
  • filtration unit 124 having a valve and holding fluid
  • pump 194 pumps fluid in base entry component 206 (and from pitcher 108 a and/or 108 b ) through tubing 202 and tubing 198 and into casing 178 (holding filter 104 , if filter 104 is disposed in casing 178 ).
  • Pump 194 then pumps fluid through filter coupler 174 and lid tubing 186 such that fluid can exit filtration unit 124 through spout 182 .
  • pitcher 108 a comprises lid 112 a and base 116 a.
  • Base 116 a is configured to be coupled to lid 112 a such that base 116 a and lid 112 a cooperate to define a container configured to hold fluid (e.g., water).
  • lid 112 a and base 116 a also cooperate to define first opening 216 a through which fluid can enter and exit the pitcher.
  • pitcher 108 a can comprise a handle configured to permit a user to grip pitcher 108 a (as shown with pitcher 108 b ).
  • a handle of pitcher 108 a can be coupled to lid 112 a and/or base 116 a.
  • lid 112 a defines second opening 218 a that permits fluid to enter pitcher 108 a.
  • lid 112 a comprises tab 222 a, which is biased to a closed configuration (e.g., via lever 226 a and spring 230 a ). While in the closed configuration, tab 222 a substantially prevents fluid from entering or exiting pitcher 108 a.
  • tab 222 a Upon application of, for example, a vertical force to tab 222 a (which stretches spring 230 a ), tab 222 a is configured to move to an open configuration to permit fluid to enter or exit pitcher 108 a (e.g., through second opening 218 a ). If the vertical force applied to tab 222 a is released, spring 230 a is permitted to relax, and tab 222 a returns to a closed configuration.
  • base 116 a comprises sidewall 234 a and bottom 238 a (e.g., as depicted in FIG. 3C ).
  • sidewall 234 a can be coupled to bottom 238 a; and in other embodiments, sidewall 234 a and bottom 238 a. are integral (e.g., as in the embodiment shown).
  • bottom 238 a of base 116 a of pitcher 108 a comprises valve 120 a.
  • Valve 120 a is configured to be in an open configuration when pitcher 108 a is coupled to filtration unit 124 (e.g., permitting fluid to enter filtration unit 124 through valve 120 a ), and valve 120 a is configured to be in a closed configuration when pitcher 108 a is not coupled to filtration unit 124 (e.g., preventing fluid from exiting pitcher 108 a through valve 120 a ).
  • bottom 238 a of base 116 a defines an opening through which fluid can exit pitcher 108 a.
  • Plunger 242 a is disposed in the opening defined by bottom 238 a of base 116 a to prevent fluid from exiting pitcher 108 a .
  • spring 246 a biases valve 120 a to a closed configuration (e.g., by applying a force to plunger 242 a ).
  • nipple 210 of filtration unit 124 applies a force to plunger 242 a, compressing spring 246 a to permit fluid to move through valve 120 a and into base entry component 206 .
  • pitcher 108 a is decoupled from filtration unit 124 , the force applied to plunger 242 a by nipple 210 is released, and spring 246 a is permitted to relax, biasing valve 120 a to a closed configuration.
  • pitcher 108 a (and, more specifically, lid 112 a ) comprises dispenser 250 a.
  • Dispenser 250 a is configured such that if pitcher 108 a is coupled to filtration unit 124 and dispenser 250 a is activated (e.g., by a motion sensor, by pressing button 254 a, and the like), pump 194 pumps fluid from pitcher 108 a through filtration unit 124 (e.g., to be filtered), out of spout 182 , and into pitcher 108 a to be dispensed.
  • fluid After fluid exits spout 182 , fluid enters pitcher 108 a (and, more specifically, lid 112 a ) through second opening 216 a and into passage 258 a, which is in fluid communication with dispenser 250 a, such that fluid can exit pitcher 108 a.
  • pitcher 108 b comprises lid 112 b and base 116 b.
  • Base 116 b is configured to be coupled to lid 112 b such that base 116 b and lid 112 b cooperate to define a container configured to hold fluid (e.g., water).
  • lid 112 b and base 116 b also cooperate to define first opening 216 b through which fluid can enter and exit the pitcher.
  • pitcher 108 b comprises handle 117 b configured to permit a user to maneuver pitcher 108 b. Handle 117 b can be coupled to lid 112 b and/or base 116 b, as depicted.
  • lid 112 b defines second opening 218 b, which permits fluid to enter pitcher 108 b.
  • lid 112 b comprises tab 222 b that is biased to a closed configuration (e.g., via lever 226 b and spring 230 b ). While in the closed configuration, tab 222 b substantially prevents fluid from entering or exiting pitcher 108 b.
  • tab 222 b Upon application of, for example, a vertical force to tab 222 b (which stretches spring 230 b ), tab 222 b is configured to move to an open configuration to permit fluid to enter or exit pitcher 108 b (e.g., through second opening 218 b ). If the vertical force applied to tab 222 b is released, spring 230 b is permitted to relax, and tab 222 b returns to a closed configuration.
  • base 116 b comprises sidewall 234 b and bottom 238 b (e.g., as depicted in FIG. 4C ).
  • sidewall 234 b can be coupled to bottom 238 b; and in other embodiments, sidewall 234 b and bottom 238 b are integral (e.g., as in the embodiment shown).
  • bottom 238 b of base 116 b of pitcher 108 b comprises valve 120 b.
  • Valve 120 b is configured to be in an open configuration when pitcher 108 b is coupled to filtration unit 124 (e.g., permitting fluid to enter filtration unit 124 through valve 120 b ), and valve 120 b is configured to be in a closed configuration when pitcher 108 b is not coupled to filtration unit 124 (e.g., preventing fluid from exiting pitcher 108 b through valve 120 b ).
  • bottom 238 b of base 116 b defines an opening through which fluid can exit pitcher 108 b.
  • Plunger 242 b is disposed in the opening defined by bottom 238 b of base 116 b to prevent fluid from exiting pitcher 108 b.
  • spring 246 b biases valve 120 b to a closed configuration (e.g., by applying a force to plunger 242 b ).
  • nipple 210 of filtration unit 124 applies a force to plunger 242 b, compressing spring 246 b to permit fluid to move through valve 120 b and into base entry component 206 .
  • pitcher 108 b is decoupled from filtration unit 124 , the force applied to plunger 242 b by nipple 210 is released, and spring 246 b is permitted to relax, biasing valve 120 b to a closed configuration.
  • pitcher 108 b (and, more specifically, base 116 b ) comprises divider 250 b configured to divide the container formed by base 116 b and lid 112 b into first compartment 254 b and second compartment 258 b , where divider 250 b is oriented such that first compartment 254 b and second compartment 258 b each comprises at least a portion of bottom 238 b of base 116 b (depicted in FIG. 4E ).
  • Divider 250 b can be coupled to any portion of pitcher 108 b, such as sidewall 234 b or bottom 238 b (as in the embodiment shown).
  • Divider 250 b can be coupled to pitcher 108 b in any suitable way.
  • divider 250 b is integral with bottom 238 b of base 116 b of pitcher 108 b.
  • divider 250 b is substantially perpendicular to bottom 238 b of pitcher 108 b .
  • divider 250 b is configured such that first compartment 254 b is oriented within second compartment 258 b.
  • divider 250 b is substantially cylindrical and does not intersect sidewall 234 b of base 116 b (as in the embodiment shown).
  • first compartment 254 b and second compartment 258 b can comprise substantially the same volume; and in other embodiments, first compartment 254 b can comprise a smaller volume than second compartment 258 b, and vice versa.
  • the at least a portion of bottom 238 b in first compartment 254 b comprises valve 120 b such that fluid can exit the container if fluid is in first compartment 254 b when pitcher 108 b is coupled to filtration unit 124 (e.g., when valve 120 b is in an open configuration).
  • first compartment 254 b comprises fluid (e.g., unfiltered water)
  • pitcher 108 b is coupled to filtration unit 124 (e.g., such that valve 120 b is in an open configuration)
  • fluid is permitted to exit first compartment 254 b of pitcher 108 b and enter base entry component 206 b (e.g., through valve 120 b ).
  • pump 194 is activated, pump 194 pumps fluid from base entry component 206 b (and also from first compartment 254 b of pitcher 108 b ) through filtration unit 124 (e.g., to be filtered), out of spout 182 , and into pitcher 108 b.
  • fluid can re-enter pitcher 108 b through second opening 216 b (defined by base 116 b and lid 112 b ) and into second compartment 258 b such that fluid having exited filtration unit 124 (e.g. filtered fluid) is segregated from fluid in first compartment 254 b (e.g., unfiltered fluid).
  • fluid having exited filtration unit 124 e.g. filtered fluid
  • first compartment 254 b e.g., unfiltered fluid
  • fluid can exit pitcher 108 b from second compartment 258 b and re-enter pitcher 108 b into first compartment 254 b such that fluid having exited filtration unit 124 (e.g., filtered fluid) is segregated from fluid in second compartment 258 b (e.g., unfiltered fluid).
  • exited filtration unit 124 e.g., filtered fluid
  • Each of filtration systems 100 a and 100 b is configured to be activated to permit pump 194 to begin pumping fluid from pitchers 108 a and 108 b, respectively.
  • Filtration systems 100 a and 100 b can comprise controller 262 coupled to housing 128 and also coupled to pump 194 (e.g., electrically coupled, so that controller 262 can send an activation signal to pump 194 ).
  • filtration systems 100 a and 100 b also comprise fluid sensor 266 (e.g., depicted in FIG.
  • Fluid sensor 266 is configured to detect if fluid enters housing 128 (and, more specifically, base entry component 206 ). In some embodiments, if fluid sensor 266 detects that fluid has entered housing 128 , controller 262 is configured to activate pump 194 to begin pumping fluid through filtration unit 124 .
  • filtration systems 100 a and 100 b also comprise unit switches 270 and 274 (e.g., magnetic switches) coupled to housing 128 (e.g., base 132 and upper portion 136 of housing 128 , respectively) and also coupled to controller 262 (e.g., electrically coupled, so controller 262 can receive a signal from unit switches 270 and 274 ).
  • unit switch 270 is coupled to base 132 of housing 128 in the embodiment shown, unit switch 270 can be coupled to any portion of filtration unit 124 to correspond to a pitcher switch on a pitcher (e.g., pitcher 108 b ).
  • unit switch 274 is coupled to upper portion 136 of housing 128 in the embodiment shown, unit switch 274 can be coupled to any portion of filtration unit 124 to correspond to a pitcher switch on a pitcher (e.g., pitcher 108 a ).
  • pitcher 108 b comprises pitcher switch 278 b (e.g., a magnetic switch) coupled to bottom 238 b of base 116 b.
  • Pitcher switch 278 b is coupled to bottom 238 b of pitcher 108 b such that pitcher switch 278 b substantially aligns with a unit switch on a filtration unit (e.g., unit switch 270 of filtration unit 124 ) when the pitcher is coupled to the filtration unit.
  • a filtration unit e.g., unit switch 270 of filtration unit 124
  • pitcher switch 278 b when pitcher 108 b is coupled to filtration unit 124 , pitcher switch 278 b is configured to align with unit switch 270 such that pitcher switch 278 b and unit switch 270 can interface (e.g., magnetically, electrically, mechanically, and the like).
  • controller 262 when pitcher switch 278 b and unit switch 270 interface (e.g., magnetically, in the embodiment shown), controller 262 is configured to activate pump 194 to begin pumping fluid through filtration unit 124 .
  • controller 262 is configured to activate pump 194 if pitcher switch 278 b and unit switch 270 interface and if fluid sensor 266 detects that fluid has entered housing 128 .
  • pitcher 108 a comprises pitcher switch 278 a (e.g., a magnetic switch) coupled to button 254 a of lid 112 a via lever 282 a.
  • pitcher switch 278 a e.g., a magnetic switch
  • button 254 a is pressed (e.g., to activate dispenser 250 a )
  • lever 282 a orients pitcher switch 278 a (e.g., elevates pitcher switch 278 a, in the embodiment shown) such that pitcher switch 278 a substantially aligns with a unit switch on a filtration unit (e.g., unit switch 274 of filtration unit 124 ) when the pitcher is coupled to the filtration unit.
  • a filtration unit e.g., unit switch 274 of filtration unit 124
  • pitcher switch 278 a when pitcher 108 a is coupled to filtration unit 124 and button 254 is pressed, pitcher switch 278 a is configured to align with unit switch 274 such that pitcher switch 278 a and unit switch 274 can interface (e.g., magnetically, electrically, mechanically, and the like).
  • controller 262 when pitcher switch 278 a and unit switch 274 interface (e.g., magnetically, in the embodiment shown), controller 262 is configured to activate pump 194 to begin pumping fluid through filtration unit 124 .
  • controller 262 is configured to activate pump 194 if pitcher switch 278 a and unit switch 274 interface and if fluid sensor 266 detects that fluid has entered housing 128 .
  • filtration unit 124 is configured to alert a user when filter 104 should be replaced.
  • filtration unit 124 can be configured to detect an amount of flow through filter 104 (or through some other component of filtration unit 124 ) to alert a user when filter 104 is scheduled to be replaced.
  • filtration unit 124 can be configured to alert a user that a filter is scheduled to be replaced based on a volume of flow through filtration unit 124 and/or by an approximate time of usage.
  • replacement indicator 286 is coupled to base 132 of housing 128 and is also coupled to controller 262 .
  • Replacement indicator 286 is configured to alert a user when filter 104 should be replaced (or when filter 104 has a given amount of usage remaining), such as, for example, by changing a color of an LED in replacement indicator 286 or by illuminating an LED in replacement indicator 286 . Further, after filter 104 is replaced, a user can press button 290 to indicate to filtration unit 124 that a new filter has been disposed in filtration unit 124 (e.g., resetting any volumetric and/or temporal tracking of the filter).
  • the structures of the present systems, filtration units, and pitchers can be made with standard materials (e.g., plastic) using standard manufacturing techniques (e.g., injection molding) and/or can be purchased commercially (e.g., O-rings, nipples, screws, etc.).
  • standard materials e.g., plastic
  • standard manufacturing techniques e.g., injection molding
  • O-rings, nipples, screws, etc. can be purchased commercially (e.g., O-rings, nipples, screws, etc.).
  • This disclosure also includes methods of filtering fluid.
  • such methods comprise: coupling a pitcher having a valve to a filtration unit such that the valve opens and activating a pump to pump fluid from the pitcher through the valve, the filtration unit, and a filter, and back into the pitcher.
  • activating the pump comprises pressing a button, In other embodiments, activating the pump comprises coupling the pitcher to the filtration unit.

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Abstract

The present invention relates generally to fluid filtration, such as, for example, filtration systems and methods, filtration units, pitchers, and components thereof.

Description

    CROSS-REFERENCE TO RELATED APPLICATIONS
  • This application claims priority to U.S. Provisional Patent Application No. 61/646,325, filed May 13, 2012, which is incorporated by reference in its entirety.
  • BACKGROUND
  • 1. Field of the Invention
  • The present invention relates generally to fluid filtration, and more particularly, but not by way of limitation, to filtration systems and methods, filtration units, pitchers, and components thereof.
  • 2. Description of Related Art
  • Examples of filtration systems are disclosed in U.S. Pat. Nos. 5,296,148; 5,643,444; and 6,361,686 and in U.S. Patent Publication Nos. 2006/0163174 and 2007/0209984.
  • SUMMARY
  • This disclosure includes embodiments of filtration systems and methods, filtration units, pitchers, and components thereof.
  • Some embodiments of the present pitchers comprise a lid; a base comprising a sidewall and a bottom, the base configured to be coupled to the lid such that the base and the lid cooperate to define a container configured to hold fluid, where the base has a valve configured to be in: an open configuration when the pitcher is coupled to a filtration unit and a closed configuration when the pitcher is not coupled to a filtration unit; and a divider configured to divide the container into a first compartment and a second compartment, the divider oriented such that the first compartment and the second compartment each comprises at least a portion of the bottom of the base. Some embodiments of the present pitchers comprise a base having a valve configured to be in: an open configuration when the pitcher is coupled to a filtration unit and a closed configuration when the pitcher is not coupled to a filtration unit; and a lid configured to be coupled to the base such that the base and the lid cooperate to define a container configured to hold fluid, where the lid comprises a dispenser configured such that if the pitcher is coupled to a filtration unit and the dispenser is activated, fluid is permitted to exit the pitcher through the valve and is permitted to re-enter the pitcher through the lid.
  • Some embodiments of the present filtration units comprise a housing configured to be coupled to a pitcher having a valve, the housing configured to cooperate with the pitcher to open the valve; and a pump coupled to the housing and configured to be in fluid communication with a filter if a filter is coupled to the housing, where the filtration unit is configured such that if a pitcher having a valve and holding fluid is coupled to the housing and if a filter is coupled to the housing, the pump will pump fluid from the pitcher through the valve and the filter and into the pitcher.
  • Some embodiments of the present filtration systems comprise a pitcher comprising: a lid; and a base configured to be coupled to the lid such that the base and the lid cooperate to define a container configured to hold fluid, where the base has a valve configured to be in: an open configuration when the pitcher is coupled to a filtration unit; and a closed configuration when the pitcher is not coupled to a filtration unit; and a filtration unit configured to be coupled to the pitcher, the filtration unit comprising a housing configured to cooperate with the pitcher to open the valve; and a pump configured to be in fluid communication with a filter if a filter is coupled to the filtration system, where if the pitcher has fluid and is coupled to the filtration unit and if a filter is coupled to the filtration unit, the pump is configured to pump fluid from the pitcher through the valve and the filter and into the pitcher.
  • Some embodiments of the present methods comprise coupling a pitcher having a valve to a filtration unit such that the valve opens; and activating a pump to pump fluid from the pitcher through the valve, the filtration unit, and a filter, and back into the pitcher.
  • This disclosure includes designs for pitchers and portions of pitchers. Some of the present pitcher designs include portions that are clear, translucent, transparent, and/or opaque, such as a container portion configured to hold fluid (such as drinking water) and that may include two compartments separated by a divider. Some of the present pitcher designs do not include the bottom of the pitcher. Some of the present designs of pitcher portions include the handle (as well as any portion of the handle), the container portion (as well as any part of the container portion); the spout portion (as well as any part of the spout portion), and the lid of the container (as well as any portion of the lid, such as the top of the lid). Some of the present designs of pitcher portions do not include the bottom of any included portion. Some of the present pitcher and base designs include a portion of the base and/or the pitcher (such as a portion of the pitcher and/or the base that is visible when the pitcher and base are coupled together, and including less than all of such a visible portion), and some do not include the bottom of any base, pitcher, or included portion of either.
  • This disclosure includes designs for pitchers comprising dispensers and portions of dispensers. Some of the present pitcher designs include portions that are clear, translucent, transparent, and/or opaque, such as a container portion configured to hold fluid (such as drinking water). Some of the present pitcher designs do not include the bottom of the dispenser. Some of the present designs of dispenser portions include the container portion (as well as any part of the container portion), the dispenser portion (as well as any portion of the lid, such as the top of the lid), and the spout portion (as well as any part of the spout portion). Some of the present designs of dispenser portions do not include the bottom of any included portion. Some of the present dispenser and base designs include a portion of the base and/or the pitcher (such as a portion of the pitcher and/or the base that is visible when the pitcher and base are coupled together, and including less than all of such visible portion), and some do not include the bottom of any base, pitcher, dispenser, or included portion of either.
  • This disclosure includes designs for filtration units and portions of filtration units. Some of the present filtration units do not include the bottom of the base. Some of the present designs of filtration units include the front (including any part of the front) of the unit, which has a low profile and on which a pitcher may be placed, the rear of the filtration unit (including any part of the rear), and the top of the filtration unit (including any part of the top). Some of the present designs of filtration units do not include the bottom of any included portion.
  • Any embodiment of any of the present systems, apparatuses, and methods can consist of or consist essentially of—rather than comprise/include/contain/have—any of the described steps, elements, and/or features. Thus, in any of the claims, the term “consisting of” or “consisting essentially of” can be substituted for any of the open-ended linking verbs recited above, in order to change the scope of a given claim from what it would otherwise be using the open-ended linking verb.
  • Details associated with the embodiments described above and others are presented below.
  • BRIEF DESCRIPTION OF THE DRAWINGS
  • The following drawings illustrate by way of example and not limitation. For the sake of brevity and clarity, every feature of a given structure is not always labeled in every figure in which that structure appears. Identical reference numbers do not necessarily indicate an identical structure. Rather, the same reference number may be used to indicate a similar feature or a feature with similar functionality, as may non-identical reference numbers. The figures are drawn to scale (unless otherwise noted), meaning the sizes of the depicted elements are accurate relative to each other for at least the embodiments depicted in the figures.
  • FIGS. 1A-1B depict a perspective view of a first embodiment of the present filtration systems with a pitcher coupled to a filtration unit.
  • FIGS. 2A-2B depict a perspective view of a second embodiment of the present filtration systems with a pitcher coupled to a filtration unit.
  • FIGS. 3A-3E depict various views of a pitcher comprising a dispenser.
  • FIGS. 4A-4E depict various views of a pitcher comprising a divider.
  • FIGS. 5A-5G depict various views of a filtration unit configured to be coupled to the pitchers of FIGS. 3A-3E and 4A-4E.
  • FIGS. 5H-5I depict various views of a lid of the filtration unit of FIGS. 5A-5G.
  • DESCRIPTION OF ILLUSTRATIVE EMBODIMENTS
  • The terms “coupled” is defined as connected, although not necessarily directly, and not necessarily mechanically; two items that are “coupled” may be unitary with each other. The terms “a” and “an” are defined as one or more unless this disclosure explicitly requires otherwise. The term “substantially” is defined as largely but not necessarily wholly what is specified (and includes what is specified; e.g., substantially 90 degrees includes 90 degrees and substantially parallel includes parallel), as understood by a person of ordinary skill in the art. In any disclosed embodiment, the terms “substantially,” “approximately,” and “about” may be substituted with “within [a percentage] of” what is specified, where the percentage includes 0.1, 1, 5, and 10 percent.
  • The terms “comprise” (and any form of comprise, such as “comprises” and “comprising”), “have” (and any form of have, such as “has” and “having”), “include” (and any form of include, such as “includes” and “including”) and “contain” (and any form of contain, such as “contains” and “containing”) are open-ended linking verbs. As a result, a system or apparatus that “comprises,” “has,” “includes” or “contains” one or more elements possesses those one or more elements, but is not limited to possessing only those elements. Likewise, a method that “comprises,” “has,” “includes” or “contains” one or more steps possesses those one or more steps, but is not limited to possessing only those one or more steps.
  • The term “detect” (and any form of detect, such as “detects,” “detected,” and “detecting”) is used broadly throughout this disclosure to include receiving information, obtaining or gathering of information, and any calculations for and/or manipulations of such information that may result in additional information. The term should include terms such as measuring, identifying, receiving, obtaining, gathering, similar terms, and derivatives of such terms.
  • The term “interface” (and its derivatives, such as “interfaces,” “interfaced,” and “interfacing”) is used broadly to describe a connection, communication, and/or interaction between two or more components, including mechanical, electrical, and magnetic connections, communications, and/or interactions.
  • Further, a structure (e.g., a component of an apparatus) that is configured in a certain way is configured in at least that way, but it can also be configured in other ways than those specifically described.
  • Referring now to the drawings, and more particularly to FIGS. 1A-2B, shown therein and designated by reference numerals 100 a and 100 b are two embodiments of the present filtration systems and their components. Filtration systems 100 a and 100 b can be used, for example, to filter tap water for drinking. In the embodiments shown, filtration systems 100 a and 100 b are each configured to operate with filter 104. Filter 104 can be similar in construction and/or material to the filters found in the Model AQ-4000, AQ-4025, or AQ-4035 filter assemblies (e.g., Cartridge A and/or Cartridge B of either Model) available from Aquasana, Inc., Austin, Tex., USA. As such, the filters may comprise carbon, and, more specifically, may be characterizable as activated carbon filtration filters, such as those configured to remove impurities from water. Such fitters can include one or more of the following features: an operating pressure range of 20-50 pounds per square inch, a rated capacity of 500 gallons, a maximum operating temperature of 90 degrees Fahrenheit, a maximum flow rate of 0.4 gallons per minute. The filters of this disclosure, which will be discussed below, can be coupled to and/or operate with filtration systems 100 a and 100 b in any suitable way, including in the ways described in detail in pending patent application No. 61/754,853, which is incorporated by reference in its entirety. Other ways in which filter 104 can be coupled to and/or operate with filtrations systems 100 a and 100 b are described in detail below. Further, the filtration systems and filtration units of the present application can be coupled to and/or operate with in-line carbonation systems, methods, and apparatuses. For example, in-line carbonation systems and apparatuses can be disposed between a pump and a filter casing of the present filtration systems and units, and the filtration systems and units can further comprise a CO2 source disposed therein, as described in detail by U.S. patent application Ser. No. 12/772,641 (Publication No. US 2011/0268845) and International Patent Application No. PCT/US2011/033709 (Publication No. WO/2011/139614), which are incorporated by reference in their entirety.
  • In the embodiment shown in FIGS. 1A-1B, filtration system 100 a comprises pitcher 108 a. Pitcher 108 a comprises lid 112 a, base 116 a, and valve 120 a. Similarly, in the embodiment shown in FIGS. 2A-2B, filtration system 100 b comprises pitcher 108 b. Pitcher 108 b comprises lid 112 b, base 116 b, and valve 120 b. Pitchers 108 a and 108 b are discussed in detail below.
  • In the embodiments shown in FIGS. 1A-2B, filtration systems 100 a and 100 b each comprises filtration unit 124. Filtration unit 124 is also depicted independent of pitchers 108 a and 108 b in FIGS. 5A-5G. In the embodiments shown, filtration unit 124 is configured to be coupled to pitcher 108 a and pitcher 108 b. In the embodiment shown in FIGS. 1A-2B and 5A-5G, filtration unit 124 comprises housing 128. Housing 128 can comprise any suitable shape configured to at least partially accommodate pitchers 108 a and 108 b (e.g., a substantially L-shaped configuration, as depicted in the embodiment shown). For example, housing 128 of filtration unit 124 comprises base 132 and upper portion 136. Upper portion 136 of housing 128 comprises recessed portion 140 configured to at least partially accommodate an end of pitcher 108 a and/or pitcher 108 b. Lower portion 132 of housing 128 can be configured, as in the embodiment shown, to comprise a substantially similar shape to a bottom of a pitcher (e.g., substantially ovular). Further, lower portion 132 of housing 128 can comprise lip 144 configured to prevent a pitcher from moving away from filtration unit 124, for example, when a horizontal force is applied to the pitcher or filtration unit 124.
  • In the embodiment shown, housing 128 comprises lid 148. Lid 148 is configured to be coupled to upper portion 136 of housing 128. Lid 148 can be coupled to housing 128 in any suitable way. For example, in the embodiment shown, lid 148 comprises lid coupler 152, and lid coupler 152 comprises protrusions 156. Further, a portion of upper portion 136 of housing 128 defines opening 160, which is configured to accommodate a filter (e.g., filter 104) and/or lid coupler 152 (e.g., by comprising a diameter larger than, but substantially similar to, a filter and/or lid coupler 152). The portion of upper portion 136 that defines opening 160 has threads 166 configured to accommodate protrusions 156 of lid coupler 152. In the embodiment shown, if lid coupler 152 is oriented accordingly, lid 148 can be rotated (e.g., 5 degrees, 10 degrees, 15 degrees, or more) to permit protrusions 156 of lid coupler 152 to engage threads 166 of upper portion 136 such that lid 148 is prevented from moving away from filtration unit 124 if for example, a vertical force is applied to lid 148 or filtration unit 124.
  • Lid 148 of housing 128 is also configured to be coupled to a filter (e.g., filter 104). As described above, housing 128 (including lid 148) is configured to be coupled to a filter in any suitable way, including in the ways detailed in pending patent application No. 61/754,853. In the embodiment shown, lid coupler 152 comprises annular recess 170, configured to at least partially accommodate a filter (e.g., comprising a diameter larger than, but substantially similar to, a filter). Lid 148 further comprises filter coupler 174 configured to be coupled to a filter (e.g., threadably). For example, filter 104 can be coupled to lid coupler 152 by disposing filter 104 in annular recess 170 such that filter 104 is in contact with filter coupler 174. Filter 104 can then be rotated to permit filter 104 to engage filter coupler 174 (e.g., threadably) such that filter 104 is prevented from moving away from lid 148, for example, upon application of a horizontal or vertical force to filter 104 or lid 148. As described above, lid 148 can then be coupled to upper portion 136 (while filter 104 is coupled to lid 148) such that filter 104 is disposed within housing 128 and in fluid communication with at least a portion of a pump of filtration unit 124 (discussed in detail below). For example, housing 128 can comprise casing 178, which is configured to accommodate at least a portion of filter 104 (e.g., by comprising a diameter larger than, but substantially similar to, a filter). Filter 104 can be disposed in casing 178, as in the embodiments shown.
  • Lid 148 of housing 128 further comprises spout 182. In the embodiment shown in FIGS. 1B, 2B, and 5D, spout 182 is in fluid communication with filter coupler 174 and filter 104 via lid tubing 186. Spout 182 defines opening 190 (e.g., depicted in FIGS. 5H and 5I) through which fluid can exit filtration unit 124 (e.g., after fluid exits filter 104).
  • In the embodiment shown, filtration unit 124 comprises pump 194. Pump 194 can be coupled to any suitable component of filtration unit 124 (such as to housing 128), and in any suitable way, including by adhesive, screws, and the like. As discussed above, at least a portion of pump 194 is configured to be in fluid communication with filter 104 and/or casing 178. For example, in the embodiment shown in FIG. 5E, tubing 198 is coupled to casing 178 and to pump 194 such that casing 178 and/or filter 104 is in fluid communication with at least a portion of pump 194. Pump 194 is also configured to be in fluid communication with pitchers 108 a and 108 b. For example, in the embodiment shown in FIG. 5D, tubing 202 is coupled to base entry component 206 and pump 194 such that base entry component 206 and pump 194 are in fluid communication.
  • In the embodiment shown, housing 128 is configured to cooperate with pitchers 108 a and 108 b to open a valve on the pitchers. For example, in the embodiment shown, nipple 210 is coupled to base entry component 206 and is configured to interact with a valve on pitchers 108 a and 108 b to permit the valve to move into an open configuration (e.g., so that fluid in pitchers 108 a and 108 b, if any, is permitted to exit the pitchers into base entry component 206 of filtration unit 124). Base entry component 206 can comprise reservoir seal 214 (e.g., an O-ring) configured to substantially prevent fluid from exiting filtration systems 100 a and 100 b (e.g., by providing a fluid-tight seal). If a pitcher (e.g., pitcher 108 a and/or 108 b) having a valve and holding fluid is coupled to filtration unit 124 such that the pitcher's valve moves into an open configuration, fluid can exit the pitcher into a portion of base entry component 206. If pump 194 is activated, pump 194 pumps fluid in base entry component 206 (and from pitcher 108 a and/or 108 b) through tubing 202 and tubing 198 and into casing 178 (holding filter 104, if filter 104 is disposed in casing 178). Pump 194 then pumps fluid through filter coupler 174 and lid tubing 186 such that fluid can exit filtration unit 124 through spout 182.
  • As discussed above, in the embodiments shown in FIGS. 1A-1B and 3A-3E, pitcher 108 a comprises lid 112 a and base 116 a. Base 116 a is configured to be coupled to lid 112 a such that base 116 a and lid 112 a cooperate to define a container configured to hold fluid (e.g., water). In the embodiment shown, lid 112 a and base 116 a also cooperate to define first opening 216 a through which fluid can enter and exit the pitcher. In some embodiments, pitcher 108 a can comprise a handle configured to permit a user to grip pitcher 108 a (as shown with pitcher 108 b). Similarly to pitcher 108 b, a handle of pitcher 108 a can be coupled to lid 112 a and/or base 116 a.
  • In the embodiment shown, lid 112 a defines second opening 218 a that permits fluid to enter pitcher 108 a. in the embodiment shown, lid 112 a comprises tab 222 a, which is biased to a closed configuration (e.g., via lever 226 a and spring 230 a). While in the closed configuration, tab 222 a substantially prevents fluid from entering or exiting pitcher 108 a. Upon application of, for example, a vertical force to tab 222 a (which stretches spring 230 a), tab 222 a is configured to move to an open configuration to permit fluid to enter or exit pitcher 108 a (e.g., through second opening 218 a). If the vertical force applied to tab 222 a is released, spring 230 a is permitted to relax, and tab 222 a returns to a closed configuration.
  • In the embodiment shown, base 116 a comprises sidewall 234 a and bottom 238 a (e.g., as depicted in FIG. 3C). In some embodiments, sidewall 234 a can be coupled to bottom 238 a; and in other embodiments, sidewall 234 a and bottom 238 a. are integral (e.g., as in the embodiment shown). In the embodiment shown, bottom 238 a of base 116 a of pitcher 108 a comprises valve 120 a. Valve 120 a is configured to be in an open configuration when pitcher 108 a is coupled to filtration unit 124 (e.g., permitting fluid to enter filtration unit 124 through valve 120 a), and valve 120 a is configured to be in a closed configuration when pitcher 108 a is not coupled to filtration unit 124 (e.g., preventing fluid from exiting pitcher 108 a through valve 120 a). In the embodiment shown, bottom 238 a of base 116 a defines an opening through which fluid can exit pitcher 108 a. Plunger 242 a is disposed in the opening defined by bottom 238 a of base 116 a to prevent fluid from exiting pitcher 108 a. In the embodiment shown, spring 246 a biases valve 120 a to a closed configuration (e.g., by applying a force to plunger 242 a). When pitcher 108 a is coupled to filtration unit 124, nipple 210 of filtration unit 124 applies a force to plunger 242 a, compressing spring 246 a to permit fluid to move through valve 120 a and into base entry component 206. If pitcher 108 a is decoupled from filtration unit 124, the force applied to plunger 242 a by nipple 210 is released, and spring 246 a is permitted to relax, biasing valve 120 a to a closed configuration.
  • In some embodiments (e.g., FIGS. 1A-1B and 3A-3E), pitcher 108 a (and, more specifically, lid 112 a) comprises dispenser 250 a. Dispenser 250 a is configured such that if pitcher 108 a is coupled to filtration unit 124 and dispenser 250 a is activated (e.g., by a motion sensor, by pressing button 254 a, and the like), pump 194 pumps fluid from pitcher 108 a through filtration unit 124 (e.g., to be filtered), out of spout 182, and into pitcher 108 a to be dispensed. For example, after fluid exits spout 182, fluid enters pitcher 108 a (and, more specifically, lid 112 a) through second opening 216 a and into passage 258 a, which is in fluid communication with dispenser 250 a, such that fluid can exit pitcher 108 a.
  • As above, in the embodiments shown in FIGS. 2A-2B and 4A-4E, pitcher 108 b comprises lid 112 b and base 116 b. Base 116 b is configured to be coupled to lid 112 b such that base 116 b and lid 112 b cooperate to define a container configured to hold fluid (e.g., water). In the embodiment shown, lid 112 b and base 116 b also cooperate to define first opening 216 b through which fluid can enter and exit the pitcher. In some embodiments, pitcher 108 b comprises handle 117 b configured to permit a user to maneuver pitcher 108 b. Handle 117 b can be coupled to lid 112 b and/or base 116 b, as depicted.
  • In the embodiment shown, lid 112 b defines second opening 218 b, which permits fluid to enter pitcher 108 b. In the embodiment shown, lid 112 b comprises tab 222 b that is biased to a closed configuration (e.g., via lever 226 b and spring 230 b). While in the closed configuration, tab 222 b substantially prevents fluid from entering or exiting pitcher 108 b. Upon application of, for example, a vertical force to tab 222 b (which stretches spring 230 b), tab 222 b is configured to move to an open configuration to permit fluid to enter or exit pitcher 108 b (e.g., through second opening 218 b). If the vertical force applied to tab 222 b is released, spring 230 b is permitted to relax, and tab 222 b returns to a closed configuration.
  • In the embodiment shown, base 116 b comprises sidewall 234 b and bottom 238 b (e.g., as depicted in FIG. 4C). In some embodiments, sidewall 234 b can be coupled to bottom 238 b; and in other embodiments, sidewall 234 b and bottom 238 b are integral (e.g., as in the embodiment shown). In the embodiment shown, bottom 238 b of base 116 b of pitcher 108 b comprises valve 120 b. Valve 120 b is configured to be in an open configuration when pitcher 108 b is coupled to filtration unit 124 (e.g., permitting fluid to enter filtration unit 124 through valve 120 b), and valve 120 b is configured to be in a closed configuration when pitcher 108 b is not coupled to filtration unit 124 (e.g., preventing fluid from exiting pitcher 108 b through valve 120 b). In the embodiment shown, bottom 238 b of base 116 b defines an opening through which fluid can exit pitcher 108 b. Plunger 242 b is disposed in the opening defined by bottom 238 b of base 116 b to prevent fluid from exiting pitcher 108 b. In the embodiment shown, spring 246 b biases valve 120 b to a closed configuration (e.g., by applying a force to plunger 242 b). When pitcher 108 b is coupled to filtration unit 124, nipple 210 of filtration unit 124 applies a force to plunger 242 b, compressing spring 246 b to permit fluid to move through valve 120 b and into base entry component 206. If pitcher 108 b is decoupled from filtration unit 124, the force applied to plunger 242 b by nipple 210 is released, and spring 246 b is permitted to relax, biasing valve 120 b to a closed configuration.
  • In some embodiments (e.g., FIGS. 2A-2B and 4A-4E), pitcher 108 b (and, more specifically, base 116 b) comprises divider 250 b configured to divide the container formed by base 116 b and lid 112 b into first compartment 254 b and second compartment 258 b, where divider 250 b is oriented such that first compartment 254 b and second compartment 258 b each comprises at least a portion of bottom 238 b of base 116 b (depicted in FIG. 4E). Divider 250 b can be coupled to any portion of pitcher 108 b, such as sidewall 234 b or bottom 238 b (as in the embodiment shown). Divider 250 b can be coupled to pitcher 108 b in any suitable way. In some embodiments, divider 250 b is integral with bottom 238 b of base 116 b of pitcher 108 b. In the embodiment shown, divider 250 b is substantially perpendicular to bottom 238 b of pitcher 108 b. In some embodiments, divider 250 b is configured such that first compartment 254 b is oriented within second compartment 258 b. In some embodiments, divider 250 b is substantially cylindrical and does not intersect sidewall 234 b of base 116 b (as in the embodiment shown). In some embodiments, first compartment 254 b and second compartment 258 b can comprise substantially the same volume; and in other embodiments, first compartment 254 b can comprise a smaller volume than second compartment 258 b, and vice versa. In the embodiment shown, the at least a portion of bottom 238 b in first compartment 254 b comprises valve 120 b such that fluid can exit the container if fluid is in first compartment 254 b when pitcher 108 b is coupled to filtration unit 124 (e.g., when valve 120 b is in an open configuration). For example, if first compartment 254 b comprises fluid (e.g., unfiltered water), and pitcher 108 b is coupled to filtration unit 124 (e.g., such that valve 120 b is in an open configuration), fluid is permitted to exit first compartment 254 b of pitcher 108 b and enter base entry component 206 b (e.g., through valve 120 b). If pump 194 is activated, pump 194 pumps fluid from base entry component 206 b (and also from first compartment 254 b of pitcher 108 b) through filtration unit 124 (e.g., to be filtered), out of spout 182, and into pitcher 108 b. For example, after fluid leaves spout 182, fluid can re-enter pitcher 108 b through second opening 216 b (defined by base 116 b and lid 112 b) and into second compartment 258 b such that fluid having exited filtration unit 124 (e.g. filtered fluid) is segregated from fluid in first compartment 254 b (e.g., unfiltered fluid). In a similar way, if the at least a portion of bottom 238 b in second compartment 258 b comprises valve 120 b, fluid can exit pitcher 108 b from second compartment 258 b and re-enter pitcher 108 b into first compartment 254 b such that fluid having exited filtration unit 124 (e.g., filtered fluid) is segregated from fluid in second compartment 258 b (e.g., unfiltered fluid).
  • Each of filtration systems 100 a and 100 b is configured to be activated to permit pump 194 to begin pumping fluid from pitchers 108 a and 108 b, respectively. Filtration systems 100 a and 100 b (and, more specifically, filtration unit 124) can comprise controller 262 coupled to housing 128 and also coupled to pump 194 (e.g., electrically coupled, so that controller 262 can send an activation signal to pump 194). In the embodiment shown, filtration systems 100 a and 100 b also comprise fluid sensor 266 (e.g., depicted in FIG. 5D) coupled to housing 128 (base entry component 206) and also coupled to controller 262 (e.g., electrically coupled, so that controller 262 can receive a signal from fluid sensor 266). Fluid sensor 266 is configured to detect if fluid enters housing 128 (and, more specifically, base entry component 206). In some embodiments, if fluid sensor 266 detects that fluid has entered housing 128, controller 262 is configured to activate pump 194 to begin pumping fluid through filtration unit 124.
  • In the embodiment shown (e.g., FIG. 5D), filtration systems 100 a and 100 b also comprise unit switches 270 and 274 (e.g., magnetic switches) coupled to housing 128 (e.g., base 132 and upper portion 136 of housing 128, respectively) and also coupled to controller 262 (e.g., electrically coupled, so controller 262 can receive a signal from unit switches 270 and 274). Though unit switch 270 is coupled to base 132 of housing 128 in the embodiment shown, unit switch 270 can be coupled to any portion of filtration unit 124 to correspond to a pitcher switch on a pitcher (e.g., pitcher 108 b). Similarly, though unit switch 274 is coupled to upper portion 136 of housing 128 in the embodiment shown, unit switch 274 can be coupled to any portion of filtration unit 124 to correspond to a pitcher switch on a pitcher (e.g., pitcher 108 a).
  • In the embodiment shown (e.g., FIG. 4C), pitcher 108 b comprises pitcher switch 278 b (e.g., a magnetic switch) coupled to bottom 238 b of base 116 b. Pitcher switch 278 b is coupled to bottom 238 b of pitcher 108 b such that pitcher switch 278 b substantially aligns with a unit switch on a filtration unit (e.g., unit switch 270 of filtration unit 124) when the pitcher is coupled to the filtration unit. For example, in the embodiment shown, when pitcher 108 b is coupled to filtration unit 124, pitcher switch 278 b is configured to align with unit switch 270 such that pitcher switch 278 b and unit switch 270 can interface (e.g., magnetically, electrically, mechanically, and the like). In some embodiments, when pitcher switch 278 b and unit switch 270 interface (e.g., magnetically, in the embodiment shown), controller 262 is configured to activate pump 194 to begin pumping fluid through filtration unit 124. In some embodiments, controller 262 is configured to activate pump 194 if pitcher switch 278 b and unit switch 270 interface and if fluid sensor 266 detects that fluid has entered housing 128.
  • In the embodiment shown (e.g., FIG. 3E), pitcher 108 a comprises pitcher switch 278 a (e.g., a magnetic switch) coupled to button 254 a of lid 112 a via lever 282 a. For example, if button 254 a is pressed (e.g., to activate dispenser 250 a), lever 282 a orients pitcher switch 278 a (e.g., elevates pitcher switch 278 a, in the embodiment shown) such that pitcher switch 278 a substantially aligns with a unit switch on a filtration unit (e.g., unit switch 274 of filtration unit 124) when the pitcher is coupled to the filtration unit. For example, in the embodiment shown, when pitcher 108 a is coupled to filtration unit 124 and button 254 is pressed, pitcher switch 278 a is configured to align with unit switch 274 such that pitcher switch 278 a and unit switch 274 can interface (e.g., magnetically, electrically, mechanically, and the like). In some embodiments, when pitcher switch 278 a and unit switch 274 interface (e.g., magnetically, in the embodiment shown), controller 262 is configured to activate pump 194 to begin pumping fluid through filtration unit 124. In some embodiments, controller 262 is configured to activate pump 194 if pitcher switch 278 a and unit switch 274 interface and if fluid sensor 266 detects that fluid has entered housing 128.
  • In some embodiments, filtration unit 124 is configured to alert a user when filter 104 should be replaced. For example, filtration unit 124 can be configured to detect an amount of flow through filter 104 (or through some other component of filtration unit 124) to alert a user when filter 104 is scheduled to be replaced. In some embodiments, filtration unit 124 can be configured to alert a user that a filter is scheduled to be replaced based on a volume of flow through filtration unit 124 and/or by an approximate time of usage. For example, in this embodiment, replacement indicator 286 is coupled to base 132 of housing 128 and is also coupled to controller 262. Replacement indicator 286 is configured to alert a user when filter 104 should be replaced (or when filter 104 has a given amount of usage remaining), such as, for example, by changing a color of an LED in replacement indicator 286 or by illuminating an LED in replacement indicator 286. Further, after filter 104 is replaced, a user can press button 290 to indicate to filtration unit 124 that a new filter has been disposed in filtration unit 124 (e.g., resetting any volumetric and/or temporal tracking of the filter).
  • The structures of the present systems, filtration units, and pitchers, can be made with standard materials (e.g., plastic) using standard manufacturing techniques (e.g., injection molding) and/or can be purchased commercially (e.g., O-rings, nipples, screws, etc.).
  • This disclosure also includes methods of filtering fluid. In some embodiments, such methods comprise: coupling a pitcher having a valve to a filtration unit such that the valve opens and activating a pump to pump fluid from the pitcher through the valve, the filtration unit, and a filter, and back into the pitcher. In some embodiments, activating the pump comprises pressing a button, In other embodiments, activating the pump comprises coupling the pitcher to the filtration unit.
  • The above specification and examples provide a complete description of the structure and use of exemplary embodiments. Although certain embodiments have been described above with a certain degree of particularity, or with reference to one or more individual embodiments, those skilled in the art could make numerous alterations to the disclosed embodiments without departing from the scope of this invention. As such, the various illustrative embodiments of the present devices are not intended to be limited to the particular forms disclosed. Rather, they include all modifications and alternatives falling within the scope of the claims, and embodiments other than the one shown may include some or all of the features of the depicted embodiment. For example, components may be combined as a unitary structure, and/or connections may be substituted (e.g., threads may be substituted with press-fittings or welds). Further, where appropriate, aspects of any of the examples described above may be combined with aspects of any of the other examples described to form further examples having comparable or different properties and addressing the same or different problems. Similarly, it will be understood that the benefits and advantages described above may relate to one embodiment or may relate to several embodiments.
  • The claims are not intended to include, and should not be interpreted to include, means-plus- or step-plus-function limitations, unless such a limitation is explicitly recited in a given claim using the phrase(s) “means for” or “step for,” respectively.

Claims (25)

1. A pitcher comprising:
a lid;
a base comprising a sidewall and a bottom, the base configured to be coupled to the lid such that the base and the lid cooperate to define a container configured to hold fluid, where the base has a valve configured to be in:
an open configuration when the pitcher is coupled to a filtration unit; and
a closed configuration when the pitcher is not coupled to a filtration unit; and
a divider configured to divide the container into a first compartment and a second compartment, the divider oriented such that the first compartment and the second compartment each comprises at least a portion of the bottom of the base.
2-3. (canceled)
4. The pitcher of claim 1, where the base and the lid cooperate to define an opening through which fluid can enter and exit the container.
5-7. (canceled)
8. The pitcher of claim 1, where the divider is configured such that the first compartment is oriented within the second compartment.
9. The pitcher of claim 8, where the divider is substantially cylindrical and does not intersect a sidewall of the base.
10. The pitcher of claim 1, where the at least a portion of the bottom of the base in the first compartment comprises the valve such that fluid can exit the container if fluid is in the first compartment and if the valve is in the open configuration.
11. The pitcher of claim 4, where if the pitcher is coupled to a filtration unit and if fluid is in the container, the pitcher is configured such that fluid can exit the container through the valve and re-enter the container through the opening defined by the base and the lid.
12. A pitcher comprising:
a base having a valve configured to be in:
an open configuration when the pitcher is coupled to a filtration unit; and
a closed configuration when the pitcher is not coupled to a filtration unit; and
a lid configured to be coupled to the base such that the base and the lid cooperate to define a container configured to hold fluid;
where the lid comprises a dispenser configured such that if the pitcher is coupled to a filtration unit and the dispenser is activated, fluid is permitted to exit the pitcher through the valve and is permitted to re-enter the pitcher through the lid.
13. The pitcher of claim 12, where the dispenser is activated by pressing a button.
14. The pitcher of claim 12, where the dispenser is activated by a motion sensor.
15-16. (canceled)
17. The pitcher of claim 12, where the base and the lid cooperate to define an opening through which fluid can enter and exit the container.
18. The pitcher of claim 12, where if the pitcher is coupled to a filtration unit and if fluid is in the container, the pitcher is configured such that fluid can exit the container through the valve and re-enter the container through the lid.
19. A filtration unit comprising:
a housing configured to be coupled to a pitcher having a valve, the housing configured to cooperate with the pitcher to open the valve; and
a pump coupled to the housing and configured to be in fluid communication with a filter if a filter is coupled to the housing;
where the filtration unit is configured such that if a pitcher having a valve and holding fluid is coupled to the housing and if a filter is coupled to the housing, the pump will pump fluid from the pitcher through the valve and the filter and into the pitcher.
20. The filtration unit of claim 19, where the housing comprises a base, and the base is configured to cooperate with a bottom of a pitcher having a valve to open the valve.
21. The filtration unit of claim 19, where the housing comprises:
a lid configured to be coupled to a filter; and
an upper portion configured to be coupled to the lid such that if a filter is coupled to the lid and the upper portion is coupled to the lid, the filter is disposed within the housing and in fluid communication with the pump.
22. The filtration unit of claim 19, further comprising:
a controller coupled to the housing; and
a sensor coupled to the controller and configured to detect if fluid enters the housing;
where the controller is configured to activate the pump if the sensor detects that fluid has entered the housing.
23. The filtration unit of claim 19, further comprising:
a controller coupled to the housing; and
a unit switch coupled to the controller, where the controller is configured to activate the pump if the unit switch interfaces with a pitcher switch.
24. The filtration unit of claim 19, further comprising:
a controller coupled to the housing;
a unit switch coupled to the controller; and
a sensor coupled to the controller and configured to detect if fluid enters the housing;
where the controller is configured to activate the pump if the unit switch interfaces with a pitcher switch and if the sensor detects that fluid has entered the housing.
25. The filtration unit of claim 19, where if a filter is coupled to the housing, the filtration unit is configured to alert a user when the filter should be replaced.
26. A filtration system comprising:
a pitcher comprising:
a lid; and
a base configured to be coupled to the lid such that the base and the lid cooperate to define a container configured to hold fluid, where the base has a valve configured to be in:
an open configuration when the pitcher is coupled to a filtration unit; and
a closed configuration when the pitcher is not coupled to a filtration unit; and
a filtration unit configured to be coupled to the pitcher, the filtration unit comprising:
a housing configured to cooperate with the pitcher to open the valve; and
a pump configured to be in fluid communication with a filter if a filter is coupled to the filtration system;
where if the pitcher has fluid and is coupled to the filtration unit and if a filter is coupled to the filtration unit, the pump is configured to pump fluid from the pitcher through the valve and the filter and into the pitcher.
27-49. (canceled)
50. A method of filtering fluid, comprising:
coupling a pitcher having a valve to a filtration unit such that the valve opens; and
activating a pump to pump fluid from the pitcher through the valve, the filtration unit, and a filter, and back into the pitcher.
51-52. (canceled)
US13/987,320 2012-05-13 2013-03-01 Pitchers, filtration units, and filtration systems and methods Abandoned US20140332478A1 (en)

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