Water dispenser abstract
A filtering apparatus of a water dispenser, installed at a water
inlet port of the water dispenser is disclosed. The filtering apparatus
has a shell. A recessed slot is formed on a top portion of the shell.
The recessed slot has a water inlet aperture at a bottom surface
thereof, allowing a mouth of a water bottle to be inserted therein.
The bottom surface of the shell further comprises a water outlet
aperture. Filtering material is installed in the shell. A one-way
valve is installed on a top portion of the shell, such that air
can flow into the shell via the one-way valve, while water is blocked
from flowing out of the shell through the one-way valve. Thereby,
by inversely inserting the water bottle into the shell of the filtering
apparatus, water is filtered before flowing into the water dispenser.
Water dispenser claims
What is claimed is:
1. A filter apparatus of a water dispenser, comprising: a shell,
comprising a plurality of water outlet apertures formed on a bottom
surface thereof allowing water flowing from the shell to an water
inlet port of the water dispenser, a slot recessed from a bottom
portion thereof allowing a mouth of a water bottled to be inserted
therein, and a plurality of water inlet apertures formed on a bottom
surface of the slot, allowing water flowing from the water bottle
into the shell, the shell further comprising an air inlet port at
the top portion thereof; a filtering material disposed in the shell,
allowing water to be filtered before flowing into the water dispenser;
and a one-way valve mounted at the air inlet port of the shell;
wherein when the shell has a full water level, the one-way valve
is pushed to block the air inlet valve, and when the water level
of the shell is lowered, the one-way valve is relieved from the
air inlet valve allowing air flowing therethrough.
2. The filter apparatus of claim 1 wherein the filter apparatus
is installed at a water inlet port of the water dispenser.
3. The filter apparatus of claim 1 wherein the filter apparatus
is directly mounted to the mouth of the water bottle.
4. The filter apparatus of claim 1 wherein the shell includes
a top lid and a bottom seat attached to each other.
5. The filter apparatus of claim 1 wherein the top lid is detachably
fastened to the bottom seat by a screw member.
6. The filter apparatus of claim 1 wherein the top lid is fixed
on the bottom seat via high frequency thermal fusion.
7. The filter apparatus of claim 1 wherein the shell includes
threads formed on an interior edge of the slot allowing the filter
apparatus to be threaded in the mouth of the water bottle.
8. The filter apparatus of claim 1 further comprising sealing
pads in the slot and on the filtering material.
9. The filter apparatus of claim 1 wherein the mouth of the water
bottle comprises hooks for engaging the mouth with the slot of the
shell.
Water dispenser description
BACKGROUND OF THE INVENTION
[0001] The present invention relates generally to a filtering apparatus
of a water dispenser and, more particularly, to a filtering apparatus
filtering water contained in a water bottle before flowing into
the water dispenser.
[0002] The conventional water dispenser typically includes a filter
mechanism installed on a bottled type water storage device. The
water storage device is inversely disposed on/in the water dispenser,
allowing water contained therein to flow into the water dispenser.
For example, in U.S. Pat. No. 6354344 the filter mechanism includes
a housing containing a water filter with a throat removably connected
to the bottled water container; a plurality of vent holes located
in an upper surface of the filter housing and sized to permit air
from the filter to escape into the water container and allow continuous
water flow from the container into the filter; a monitoring and
disabling mechanism having a shutoff apparatus moveable between
first and second locations, the first location being one in which
water dispensing is monitored by the mechanism, and the second location
being one in which the mechanism is placed in an interfering position
with the connection between the housing and the water container;
wherein the shutoff apparatus automatically moves into the second
location after the predetermined amount of water usage has occurred,
and without interrupting water dispensing from the then-connected
water container, so that the used filter shutoff device must be
replaced in order to reestablish connection to a successive water
container.
[0003] In the above-mentioned conventional filter mechanism, to
avoid water overflowing through the vent holes, the monitoring and
disabling mechanism is formed. Such monitoring and disabling mechanism
is normally complex to cause inconvenience in fabrication, assembly
and application.
BRIEF SUMMARY OF THE INVENTION
[0004] The present invention provides a filtering apparatus of
water dispenser. The filtering apparatus has a simple structure
and can be easily fabricated, assembled and used.
[0005] The filter apparatus is installed on a water inlet of a
water dispenser. The filter apparatus includes a shell. The shell
has a slot recessed from a top portion thereof, a water inlet aperture
formed on a bottom surface of the slot allowing the mouth of a water
bottle to be inserted therein, and a filtering material in the shell.
A one-way valve is installed on the top portion of the shell, such
that when the water bottle is inversely inserted into the shell
of the filter apparatus, water contained in the water bottle is
filtered thereby prior to flowing into the water dispenser.
[0006] The one-way valve is installed on the air inlet port of
the top portion of the shell, such that when the water contained
in the water bottle flows into the shell, the water push the one-way
valve upwardly to block the air inlet port. Water contained in the
shell cannot overflows from the air inlet port thereof. When water
is consumed to cause a drop of the water level, the one-way valve
is relieved from the air inlet port due to gravitation thereof.
Air can thus enter through the air inlet port to improve the water
flow.
[0007] The present invention is characterized in that the filter
apparatus can be directly or detachably attached to the mouth of
the water bottle. For example, hooks can be formed on the mouth
of the water bottle and engaged within the slot of the shell. Alternatively,
screws can be used to thread the filter apparatus on the mouth of
the water bottle.
[0008] The present invention is further characterized in that the
shell of the filter apparatus is constructed by a bottom seat and
a top lid integrated together by high frequency thermal fusion,
such that the shell cannot be dissembled. Alternatively, screws
can be used to fasten the bottom seat and the top lid together,
such that the shell can be dissembled allowing the filtering material
to be changed.
BRIEF DESCRIPTION OF THE DRAWINGS
[0009] These, as well as other features of the present invention,
will become more apparent upon reference to the drawings wherein:
[0010] FIG. 1 shows an exploded view of a filter apparatus provided
by the present invention;
[0011] FIG. 2 shows a perspective view of the filter apparatus;
[0012] FIG. 3 shows a cross sectional view of the filter apparatus;
[0013] FIG. 4 shows a cross sectional view of another embodiment
of filter apparatus;
[0014] FIG. 5 shows the shell with full water level; and
[0015] FIG. 6 shows the shell with air entering therein.
DETAILED DESCRIPTION OF THE INVENTION
[0016] Referring to FIGS. 1 and 2 a filter apparatus 10 can be
installed on water inlet port 201 of a water dispenser 20 or directly
installed on a mouth 301 of a water bottle 30. In this embodiment,
the filter apparatus 10 is installed on the mouth 301 of the water
bottle 30 (as shown in FIG. 5). The filter apparatus 10 includes
a shell 1 assembled by a bottom seat 11 and a top lid 12. A plurality
of outlet ports 111 are formed on the bottom seat 11 allowing filtered
water flowing from the shell 1 to the water inlet port 201 of the
water dispenser 20.
[0017] The top lid 12 is mounted on the bottom seat 11. The top
lid 12 includes a slot 121 recessed from a top center thereof. A
plurality of water inlet apertures 122 are formed on a bottom surface
of the slot 121 allowing water flowing to the bottom seat 11 therethrough
after the mouth 301 of the water bottle 30 is inserted in the slot
121. A sealing pad 13 is disposed in the slot 121 to achieve a sealing
effect.
[0018] As shown in FIGS. 1 and 2 an air inlet port 123 is formed
on a top portion of the top lid 12. A one-way valve 2 is installed
on the air inlet port 123. When the shell 1 has a full water level,
the one-way valve 2 is pushed upward to block the air inlet port
123. When the shell has a lower water level, the air inlet port
123 is open and air can flow into the shell 1 therethrough. In addition,
a filtering material 3 is installed in the shell 1 and a partitioning
board 31 and a sealing pad 32 are disposed on the filtering material
3.
[0019] Referring to FIG. 3 while assembling the shell 1 the filtering
material 3 the partitioning board 31 and the sealing pad 32 are
disposed on the bottom seat 11. The lid 12 is then attached to the
bottom seat 11 using a screw member 14 such that the lid 12 is
detachable fastened to the bottom seat 11 for the convenience of
charging filtering material 3. The bottom seat 11 and the top lid
12 can also be permanently attached to each other by high frequency
wave thermal fusion to be undetachable from each other. The one-way
valve 2 is the installed at the air inlet port 123 of the top lid,
and a sealing pad 13 is installed in the slot 121 to complete the
assembly of the filter apparatus 10.
[0020] The assembled filter apparatus 10 is then detachably attached
to the mouth 301 of the water bottle 30. In this embodiment, hooks
or barbs 302 are formed on the mouth 301 of the water bottle 30
(as shown in FIG. 5). By inserting the barbs 302 in the slot 121
of the shell 1 the filter apparatus 10 is attached to the mouth
301 of the water bottle 30. As shown in FIG. 4 other attaching
method can also be used. For example, threads 124 can be formed
on an inner edge of the slot 121 of the filter apparatus 121 and
the filter apparatus 10 can be threaded in the mouth 301 of the
water bottle 30.
[0021] Referring to FIG. 5 a water bottle 30 filled with water
is inversely installed in the water dispenser 20. Water is then
flowing from the water bottle 30 into the shell 1 through the water
inlet apertures 122 at the bottom surface of the slot 121. Water
is thus filtered by the filtering material 3 in the shell 1. Once
the shell 1 is full of water, the one-way valve 2 is pushed upward
to block the air inlet port 123 of the top lid 12 to prevent water
from overflowing therefrom. Meanwhile, air cannot flow into the
shell through the air inlet port 123 either.
[0022] As shown in FIG. 6 when the user switches on the tap of
the water dispenser 20 water level in the shell 1 lowers, such
that the one-way valve 2 is relieved from the air inlet port 123
by gravitation. Therefore, external air can instantly flow into
the shell and result in a more fluent water dispense process.
[0023] In this embodiment, only one air inlet port 123 and one
one-way valve 2 are installed to prevent overflow of the water in
the shell and control air inlet. Therefore, the fabrication, assembly
and application are simple and convenient.
[0024] Other embodiments of the invention will appear to those
skilled in the art from consideration of the specification and practice
of the invention disclosed herein. It is intended that the specification
and examples to be considered as exemplary only, with a true scope
and spirit of the invention being indicated by the following claims. |