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Patent Abstract
A water filter assembly allowing for uniform placement in refrigerators
at the point of refrigerator manufacture, includes a self-contained
unit, including a filter component, inlet and outlet connections,
and water storage means all housed in one unit for placement, in
its entirety, in the refrigerator during manufacture thereof with
only a single point of inlet coupling to a refrigeration system
of the refrigerator, the single point of coupling being to an internal
refrigerator water supply. A method for uniform placement of a water
filter assembly in refrigerators at the point of refrigerator manufacture
is further included.
Patent Claims
What is claimed is:
1. A water filter assembly allowing for easy placement in an appliance,
the water filter assembly comprising: a self contained unit comprising
a support structure, a filter component, inlet and outlet connections,
and a water storage vessel all joined together for common placement
in the refrigerator wherein the inlet connection is in fluid communication
with a fluid channel through the filter and water storage vessel
connecting ultimately with the outlet connection.
2. The water filter assembly of claim 1, filter component having
multiple filtering configurations, one filtering configuration being
to only use granular activated carbon as a filter media.
3. The water filter assembly of claim 2, including a series of
pretreatment and post treatment filter media in conjunction with
the granular activated carbon.
4. The water filter assembly of claim 3, including a series of
pretreatment and post treatment filter media being selected from
media consisting of garnet, anthracite, greensand, birm, calcite,
softening resins, ion exchange media, microfabric, polymers, ceramics,
zeolyte and rhyolite.
5. The water filter assembly of claim 1, including the outlet portion
having at least one outlet route.
6. The water filter assembly of claim 4, including two water outlet
routes, a first outlet for directly delivering filtered water to
a user and a second outlet for delivering filtered water to an ice
maker.
7. The water filter assembly of claim 1 having a distribution manifold,
the distribution manifold having valve controls for selectively
diverting water to a selected outlet.
8. The water filter assembly of claim 1 including a flow sensor
couplable to sensor electronics for measuring at least a first selected
flow parameter.
9. The water filter assembly of claim 8 wherein the flow sensor
measures total usage.
10. The water filter assembly of claim 8 wherein the flow sensor
measures flow rate.
11. The water filter assembly of claim 8 wherein the sensor electronics
includes an output signal for alerting a user to take a known maintenance
action with respect to the assembly.
12. The water filter assembly of claim 1 wherein the water storage
means is a simple tank.
13. The water filter assembly of claim 1 wherein the water storage
means is a predetermined length of tubing that holds a predetermined
volume of water.
14. The water filter assembly of claim 1 wherein the water storage
means acts as a heat exchange system for chilling water prior to
dispensing.
15. A refrigerator comprising the water filter assembly of claim
1.
16. A method for uniform placement of a water filter assembly in
a refrigerator, the method comprising: assembling a self-contained
water filter assembly unit, including a filter component, inlet
and outlet connections, and a water storage vessel wherein the self-contained
water filter assembly unit can be placed as a unit within the refrigerator
and an inlet coupled to a water supply and at least one outlet coupled
to at least one point of use.
17. The method of claim 16, including providing the filter component
with multiple filtering configurations, one filtering configuration
being to only use granular activated carbon as a filter media.
18. The method of claim 17, including providing a series of pretreatment
and post treatment filter configurations in conjunction with the
granular activated carbon.
19. The method of claim 18 including selecting the series of pretreatment
and post treatment filter configurations from media consisting of
garnet, anthracite, greensand, birm, calcite, softening resins,
ion exchange media, microfabric and, polymers.
20. The method of claim 16, including providing two outlets, a
first outlet for directly delivering filtered water to a user and
a second outlet for delivering filtered water to an ice maker.
21. The method of claim 20 including selectively diverting water
to a selected outlet by having a distribution manifold having at
least one valve control.
22. The method of claim 16 further comprising measuring at least
a first selected flow parameter by means of a flow sensor couplable
to sensor electronics.
23. The method of claim 22 including measuring total usage by means
of the flow sensor.
24. The method of claim 22 including measuring flow rate by the
flow sensor.
25. The method of claim 22 including alerting a user to take a
known maintenance action with respect to the assembly by means of
the sensor electronics.
26. The method of claim 16 including providing a simple tank as
the water storage vessel.
27. The method of claim 16 including providing a predetermined
length of coiled tubing that holds a predetermined volume of water
as the water storage vessel.
28. The method of claim 16 further comprising chilling water prior
to dispensing by means of the water storage vessel acting as a heat
exchange system.
29. A water filter assembly allowing for easy placement in an appliance,
the water filter assembly comprising: a self contained unit comprising
a support structure, a filter assembly, and inlet and outlet connections,
and at least one component selected from the group consisting of:
a water storage vessel, a distribution valve assembly and a water
flow sensor, wherein the filter assembly, inlet and outlet connections
and at least one component are joined together for common placement
in the appliance and the inlet connection is in fluid communication
with a fluid channel through the filter and through the at least
one component, connecting ultimately with the outlet connection.
30. A refrigerator comprising the water filter assembly of claim
29.
Patent Description
RELATED APPLICATIONS
[0001] The present application claims the benefit of U.S. Provisional
Application No. 60/383,187, filed May 23, 2002, and incorporated
herein in its entirety by reference.
FIELD OF THE INVENTION
[0002] The present invention relates generally to the field of
water filtration systems mounted in a refrigerator. More specifically,
the present invention relates to a self-contained water filtration
apparatus adapted for quick and leak-free installation in a refrigerator.
BACKGROUND OF THE INVENTION
[0003] Water filtration apparatuses are well known in the art.
The necessity of water filtration for domestic use is increasing
as population densities increase. Many municipal water supplies
are contaminated with industrial and domestic pollutants that can
adversely affect test or even render the water nonpotable. Further,
in many rural areas, groundwater contains materials such as minerals
giving the water an unpleasant appearance, taste and/ or odor.
[0004] Many portable filtration apparatuses such as U.S. Pat. No.
3,950,253 to Stern exist. The '253 apparatus is designed to be portable
and is commercially used mainly on countertops. This type of system
requires the user to continually refill the apparatus as the water
reservoir only holds a finite amount of water and is not connected
directly to a water supply.
[0005] Refrigerator mounted filter systems connected directly to
a water supply exist. For example, Whirlpool.RTM. uses water filtration
systems in their refrigerators. These systems can be as simple as
individual filters placed on a water line, wherever the manufacturer
can find space for them. This type of system is cumbersome for manufacturers
to install. It requires water lines and components to be placed
piecemeal throughput the refrigerator. Further, the components of
the apparatus (i.e. filter, water reservoir, inlet/outlet valves)
are fitted separately and in different locations throughout the
refrigerator resulting in longer installations and an increased
number of potential leak points.
[0006] These piecemeal systems must be assembled differently for
each model and size of refrigerator. A self-contained unit that
could be placed in a uniform position in any refrigerator would
greatly improve upon the current filtration systems.
SUMMARY OF THE INVENTION
[0007] The water filter assembly of the present invention is a
self-contained unit, allowing for uniform placement in appliances,
most typically refrigerators, at the point of manufacture. The water
filter assembly of the present invention includes a filter component,
inlet and outlet connections, and water storage means all housed
in one unit. This unit can then be placed, in its entirety, in the
refrigerator during manufacture.
[0008] The filter component may have multiple filtering configurations.
One embodiment of the filter could be designed to only use granular
activated carbon as the filter media. Another embodiment could use
a series of pretreatment and post treatment filter media in conjunction
with the granular activated carbon. Still other embodiments could
involve garnet, anthracite, greensand, birm, calcite, softening
resins, ion exchange media, microfabric, polymers ceramics, zeolyte,
rhyolite or any other suitable filter media.
[0009] The inlet portion is in fluid communication with the refrigerator's
water supply connection. The outlet portion may contain one or more
outlet routes, one outlet may deliver drinking water, and another
may supply water to an icemaker. The water filter assembly may contain
a distribution manifold having valve controls to divert water to
a particular outlet.
[0010] The water filter assembly may also include a flow sensor
coupled to sensor electronics that measure flow.
[0011] The water storage means may be a simple tank. It may also
be a predetermined length of tubing that holds a predetermined volume
of water. This tubing system may act as a heat exchange system,
for chilling water prior to dispensing.
[0012] The present invention is a water filter assembly allowing
for uniform placement in refrigerators at the point of refrigerator
manufacture is a self-contained unit, including a filter component,
inlet and outlet connections, and water storage means all housed
in one unit for placement, in its entirety, in the refrigerator
during manufacture thereof with only a single point of inlet coupling
to a refrigeration system of the refrigerator, the single point
of coupling being to a refrigerator's water supply connection. The
present invention is further a method for uniform placement of a
water filter assembly in refrigerators at the point of refrigerator
manufacture.
[0013] In one embodiment, the present invention is a water filter
assembly that is easily placed within a refrigerator. The water
filter assembly comprises a support structure containing components
such as a filter component, inlet and outlet connections and a water
storage vessel, all components in fluid communication with one another.
[0014] In another embodiment, the present invention is a method
for assembling a self-contained water filter assembly designed for
uniform placement in a refrigerator. The water filter assembly typically
comprises a filter component, inlet and outlet connections and a
water storage vessel. The water filter assembly is designed to be
installed as a single unit within the refrigerator.
BRIEF DESCRIPTION OF THE DRAWINGS
[0015] FIG. 1 is a schematic of an embodiment of the water filter
assembly of the present invention;
[0016] FIG. 2 is a schematic representation of the water filter
assembly of FIG. 1.
[0017] FIG. 3 is a schematic representation of an embodiment of
a water filter assembly.
[0018] FIG. 4 is a schematic representation of an alternate embodiment
having a plurality of cascaded filter elements.
[0019] FIG. 5 is a schematic representation of an embodiment of
a water filter assembly.
[0020] FIG. 6 is a schematic representation of an embodiment of
a water filter assembly.
[0021] FIG. 7 is a schematic representation of an embodiment of
a water filter assembly.
[0022] FIG. 8 is a schematic representation of an embodiment of
a water filter assembly.
[0023] FIG. 9 is a schematic representation of an embodiment of
a water filter assembly.
[0024] FIG. 10 is a schematic representation of an embodiment of
a water filter assembly.
[0025] FIG. 11 is a schematic representation of an embodiment of
a water filter assembly.
[0026] FIG. 12 is a schematic representation of an embodiment of
a water filter assembly.
[0027] FIG. 13 is a schematic representation of an embodiment of
a water filter assembly.
[0028] FIG. 14 is a schematic representation of an embodiment of
a water filter assembly.
[0029] FIG. 15 is a schematic representation of an embodiment of
a water filter assembly.
DETAILED DESCRIPTION OF THE DRAWINGS
[0030] FIGS. 1 and 2 depict an embodiment of the water filter assembly
10. FIG. 2 is a schematic representation of assembly 10 shown in
more detail in FIG. 1. Water filter assembly 10 comprises a support
structure 11 onto which other components are assembled. Support
structure 11 can be a housing, a rigid frame, or a flexible interconnection.
Support structure 11 can provide for convenient attachment of a
water filter assemble 10 into an appliance such as a refrigerator
or the like. A housing can comprise a fully closed, box style assembly,
an open frame assembly or the like while generally providing access
for the replacement of spent, damaged or broken components. Other
support structure 11 designs similarly maintain other components
of water filter assembly 10 together as a unit. Support structure
11 can include a mounting surface for coupling the water filter
assembly 10 within a refrigerator.
[0031] Water filter assembly 10 further comprises a water inlet
12 that connects to a water supply 13. Water inlet 12 typically
comprises a length of plastic tubing for example tubing constructed
of polypropyle, polyethylene, nylon and other suitable polymers.
Water inlet 12 is in fluid communication with a water storage means
14. The water storage means 14 may have many configurations typically
serving as a heat exchanger for supplying chilled, filtered water
upon request. Water storage means 14 may be a tank or tanks. Water
storage means 14 may also be a length of tubing which may or may
not be serpentine or coiled to increase tubing length thus increasing
retention volume. Water storage means 14 may include baffles, as
shown in FIG. 1, to reduce or eliminate any water flow dead spots.
Water storage means 14 can be constructed of metals such as aluminum
or steel as well as plastic polymers such as polypropylene, polyethylene,
nylon and other suitable polymers. The water storage means 14 is
in fluid communication with an inlet side of a filter manifold 15.
[0032] Filter manifold 15 is connected to a filter element 16.
Filter manifold 15 and filter element 16 can be rotatably connectable
as disclosed in U.S. Pat. No. 6,027,644 and U.S. patent application
Ser. Nos. 09/618,686, 09/929,920, 10/196,340, 10/202,290 and 10/406,637
or the connection can be slidably insertable as disclosed in U.S.
patent application Ser. No. 10/210,890, all of which are commonly
assigned to the assignee of the current invention and are hereby
incorporated by reference in their entirety. Filter manifold can
be an integral part of water storage means 14 for instance via a
molding process or may be directly attachable to the exterior of
water storage means 14. The filter element 16 may include any one
or a combination of the following filter media: granular activated
carbon, block activated carbon, garnet, anthracite, greensand, birm,
calcite, softening resins, perforated absolute membrane or microfabric
sheet, spun blown, ion exchange resins, polymers, ceramics, zeolyte,
rhyolite or any other suitable filter media. Filter manifold 15
may include a flow sensor 18 on either an inlet or outlet side of
the filter manifold 15 or integrally molded within filter manifold
15. As shown in FIG. 3, water filter assembly 10 can be constructed
without flow sensor 18.
[0033] In addition or alternative to flow sensor 18, water filter
assembly 10 may comprise various other sensors such as conductivity/resistivity,
pH and temperature. A suitable sensor could include a bar code sensor
to interface with a bar coding supplied with filter element 16,
such that certain information such as date of manufacture or flow
capacities can be determined. Flow sensor 18 can be wired to an
electronics unit 19 an external unit such as a component of the
refrigerator. Electronics unit 19 can be integral to water filter
assembly 10 or can be an external unit such as a component of the
refrigerator. Typically, electronics unit 19 comprises a microprocessor
capable of interfacing with flow sensor 18. Electronics unit 19
can include a variety of performance and troubleshooting programs
utilizing flow information supplied by flow sensor 18. Examples
of these programs could including total flow, replacement schedules
and current system status. Display unit 23 can include a liquid
crystal display or similar display capable of displaying text messages
regarding system status. Alternatively, display unit 23 can include
a light or variety of lights for indicating status or required service.
Water filter assembly 10 can also include a distribution manifold
20 for directing filtered water to desired point of use such as
a drinking water dispenser or an icemaker through a plurality of
water outlets 22a, 22b which can be two or more outlets. Distribution
manifold 20 can include a plurality of solenoid valves 21 a, 21b
which open and close based upon an input from the points of use.
In alternative embodiments, distribution manifold 20 can include
a single outlet with flow controlled by a single valve, such as
a solenoid valve. In other embodiments, solenoid valves 21a, 21b
may be wired to electronics unit 19 allowing for filter assembly
10 to be disabled if certain criteria, such as those monitored by
flow sensor 18 such as total flow, water quality standards or filter
life based on the manufacturing date, are outside acceptable levels.
[0034] An alternate water filter assembly 15 is depicted in FIG.
4. Water filter assembly 15 makes uses of a filter element 16 having
a plurality of replaceable filter elements 16a-16d. The filter elements
16a-16d are physically aligned and fluidly coupled in cascade, so
that water flow passes sequentially through filter elements 16a-16d.
The media of filter elements 16a-16d may be selected from the list
above, as desired. The filter elements 16a-16d may be replaced one
at a time or all together, as desired, by sliding each filter element
16a-16d out of and into the filter element housing 16. Element 16b
may comprise the activated carbon with a plurality of pre and post
filtering elements 16a and 16c, 16d, as desired.
[0035] While FIGS. 1, 2, 3, and 4 depict convenient configurations
of the assembly components, the components can be configured with
alternative arrangements within the assembly. For example, FIGS.
5 and 6 depict alternative water filter assemblies 26 and 28 having
different configurations of components. Each water filter assembly
includes a support structure 11 and at least one water inlet 12
and outlets, such as outlets 22a, 22b. Water filter assembly 28
includes a sensor 18. FIGS. 7 and 8 depict alternative water filter
assemblies 30 and 32 with a valve upstream from a storage tank.
Each water filter assembly includes a support structure 11 and at
least one water inlet 12 and outlets, such as outlets 22a, 22b.
Water filter assembly 32 includes a sensor 18. FIGS. 9 and 10 depict
alternative water filter assemblies 34 and 36 including an upstream
storage tank that is not part of the assemblies. Each water filter
assembly includes a support structure 11 and at least one water
inlet 12 and outlets, such as outlets 22a, 22b. Water filter assembly
36 includes a sensor 18. FIGS. 11 and 12 depict alternative water
filter assemblies 38 and 40 including a downstream storage tank
that is not part of the assemblies. Each water filter assembly includes
a support structure 11 and at least one water inlet 12 and outlets,
such as outlets 22a, 22b. Water filter assembly 40 includes a sensor
18. FIGS. 13 and 14 depict alternative water filter assemblies 42
and 44. Water filter assemblies 42 and 44 include a valve that is
not part of the assemblies and include a supply inlet 46 and a distribution
inlet 48 as well as filtered outlet 50 and as well as outlet 22b.
Water filter assembly 44 includes a sensor 18. Water filter assemblies
26, 28, 30, 32, 34, 36, 38, 40, 42 and 44 are representative of
the types of modifications that can be made without departing from
the spirit and scope of the present invention.
[0036] In FIG. 15, water filter assembly 52 includes a valve assembly
54 upstream of a filter assembly 56. From filter assembly 56, water
flows to tank 58 into which outlets 22a, 22b are attached. Outlet
22a can be plumbed directly to an ice maker while outlet 22b can
deliver filtered water to a drinking water dispenser or other points
of use.
[0037] With respected to the embodiments shown and describe, additional
configurations including multiple filter elements providing multiple
filtering steps can be arranged in various sequential and non-sequential
arrangements in the water filter assembly to achieve certain desired
filtering levels such as the removal of chlorine, organics, total
dissolve solids and the like.
[0038] In practice, the water filter assemblies of the present
invention are assembled and tested prior to installation by the
refrigerator manufacturer. When received by the manufacturer, water
filter assembly 10 is positioned and support structure 11 is fixedly
attached to the refrigerator. Attachment can be accomplished by
a variety of means including screws, snap fittings, brackets and
other suitable attachment means. Once support structure 11 is installed,
all that generally is left for the refrigerator manufacturer is
to attach inlet 12 to refrigerator water supply 13 and outlets 22a,
22b to the points of use. Replaceable components such as the filter
element 16 and the like can be attached by the refrigerator manufacturer
or the end user.
[0039] In actual use, water flows into the water filter assembly
10 through inlet 12. Water flows into storage means 14 where it
may be prechilled prior to filtration and use. When either solenoid
valve 21a or 21b opens based upon an input from the points of use,
water begins flowing from storage means 14 and into filter element
16. Once filtered, the water exits the filter element 16 and passes
over the flow sensor 18. The flow sensor 18 may be a paddle wheel,
a turbine, a gear pump or any other suitable configuration to measure
totality of water usage and/or flow rate. The sensor 18 is in communication
with electronic unit 19 for receiving an output from the sensor
18. The electronics unit 19 can then transmit an output to display
device 23 for alerting a user of current status and any actions
that are required, such as changing the filter element 16. The filtered
water then flows into the distribution manifold 20 and to point
of use through outlet 22a or 22b.
[0040] While various embodiments of the present invention have
been disclosed, it will be obvious to one skilled in the art that
these embodiments are readily combinable and numerous water filter
assembly embodiments are achievable. |