U.S. patent application number 09/758834 was filed with the patent office on 2002-07-11 for dirt cup assembly for vacuum cleaner.
This patent application is currently assigned to Royal Appliance Mfg. Co.. Invention is credited to Kalman, Jeffrey M., Stephens, Paul D., Thur, Charles J..
Application Number | 20020088209 09/758834 |
Document ID | / |
Family ID | 25053289 |
Filed Date | 2002-07-11 |
United States Patent
Application |
20020088209 |
Kind Code |
A1 |
Stephens, Paul D. ; et
al. |
July 11, 2002 |
DIRT CUP ASSEMBLY FOR VACUUM CLEANER
Abstract
A dirt cup assembly for a vacuum cleaner includes a dirt cup
having a dust collection chamber, a first inlet duct, and a second
inlet duct spaced from the first inlet duct. A dirt cup lid can be
removably secured to the dirt cup, or can be associated with the
vacuum cleaner upper assembly. The dirt cup lid includes a center
portion extending over the dust collection chamber, a first wall
portion extending over the first inlet duct, and a second wall
portion extending over the second inlet duct. A filter assembly is
removably positioned within the dust collection chamber.
Inventors: |
Stephens, Paul D.;
(Twinsburg, OH) ; Kalman, Jeffrey M.; (Cleveland
Heights, OH) ; Thur, Charles J.; (Chardon,
OH) |
Correspondence
Address: |
Jay F. Moldovanyi, Esq.
Fay, Sharpe, Fagan, Minnich & McKee, LLP
1100 Superior Avenue, 7th Floor
Cleveland
OH
44114-2518
US
|
Assignee: |
Royal Appliance Mfg. Co.
|
Family ID: |
25053289 |
Appl. No.: |
09/758834 |
Filed: |
January 11, 2001 |
Current U.S.
Class: |
55/337 ; 15/347;
55/410; 55/428; 55/472 |
Current CPC
Class: |
A47L 9/165 20130101;
B01D 50/20 20220101; B01D 50/002 20130101; A47L 9/1666 20130101;
Y10S 55/03 20130101 |
Class at
Publication: |
55/337 ; 15/347;
55/410; 55/428; 55/472 |
International
Class: |
B01D 050/00 |
Claims
Having thus described a preferred embodiment of invention, what is
claimed is:
1. A dirt cup for a vacuum cleaner, the dirt cup comprising: an
outer wall; a first inner wall that cooperates with a first portion
of the outer wall to define a first inlet duct; a second inner wall
that cooperates with a second portion of the outer wall to define a
second inlet duct; the first and second inner walls cooperating
with a third portion of the outer wall to define a dust collection
chamber; and a bottom wall joined to lower end edges of the outer
wall, first inner wall, and second inner wall.
2. The dirt cup of claim 1, further including a filter support
projecting from the bottom wall within the dust collection
chamber.
3. The dirt cup of claim 2, wherein the filter support includes an
outlet passage through the bottom wall.
4. The dirt cup of claim 1, wherein the first inlet duct includes
an inlet aperture adapted for fluid communication with a brushroll
chamber of an associated vacuum cleaner.
5. The dirt cup of claim 1, wherein the second inlet duct includes
an inlet aperture adapted for fluid communication with an
above-the-floor cleaning tool.
6. The dirt cup of claim 1, wherein the first inlet duct is spaced
from the second inlet duct by more than about 90.degree..
7. A dirt cup assembly for a vacuum cleaner, the dirt cup assembly
comprising: a dirt cup having a dust collection chamber, a first
inlet duct, and a second inlet duct spaced from the first inlet
duct; and a filter assembly removably positioned within the dust
collection chamber.
8. The dirt cup assembly of claim 7, wherein the dirt cup further
includes a filter support projecting from a lower wall of the dust
collection chamber for supporting the filter assembly.
9. The dirt cup assembly of claim 8, wherein the filter support
includes an outlet passage through the lower wall.
10. The dirt cup assembly of claim 7, wherein the filter assembly
has a tubular form and cooperates with the dirt cup to define an
annular cyclonic airflow passage within the dust collection
chamber.
11. The dirt cup assembly of claim 7, wherein the first inlet duct
includes an inlet aperture adapted for fluid communication with a
brushroll chamber of the vacuum cleaner.
12. The dirt cup assembly of claim 11, wherein the second inlet
duct includes an inlet aperture adapted for fluid communication
with an above-the-floor cleaning tool.
13. The dirt cup assembly of claim 7, wherein the first inlet duct
is spaced from the second inlet duct by more than about
90.degree..
14. The dirt cup assembly of claim 7, further including a lid
removably secured to the dirt cup, the lid having a center portion
extending over the dust collection chamber, a first wall portion
extending over the first inlet duct, and a second wall portion
extending over the second inlet duct.
15. The dirt cup assembly of claim 14, wherein the lid further
includes a first diverter wall positioned to divert an airflow from
the first inlet duct to a tangential path within the dust
collection chamber, and a second diverter wall positioned to divert
an airflow from the second inlet duct to another tangential path
within the dust collection chamber.
16. A vacuum cleaner comprising: a nozzle base; an upper assembly
pivotally secured to the nozzle base; and a dirt cup assembly
removably secured to at least one of the nozzle base and the upper
assembly, the dirt cup assembly including a cup having a dirt
collection chamber, a first inlet duct, a second inlet duct spaced
from the first inlet duct, and a filter assembly removably
positioned within the dirt collection chamber.
17. The vacuum cleaner of claim 16, wherein the cup further
includes a filter support projecting from a bottom wall of the dirt
collection chamber for supporting the filter assembly.
18. The vacuum cleaner of claim 17, wherein the filter support
includes an outlet passage through the bottom wall for
communicating with a third inlet duct of a motor and filter housing
positioned below the cup.
19. The vacuum cleaner of claim 16, wherein the filter assembly has
a tubular form and cooperates with the cup to define an annular
cyclonic airflow passage within the dirt collection chamber.
20. The vacuum cleaner of claim 16, wherein the first inlet duct
includes an inlet aperture adapted for fluid communication with a
brushroll chamber associated with the nozzle base.
21. The vacuum cleaner of claim 20, wherein the second inlet duct
includes an inlet aperture adapted for fluid communication with an
above-the-floor cleaning tool.
22. The vacuum cleaner of claim 16, wherein the first inlet duct is
positioned forward of the upper assembly and the second inlet duct
is positioned rearward of the upper assembly.
23. The vacuum cleaner of claim 16, wherein the dirt cup assembly
further includes a lid removably secured to the cup, the lid having
a center portion extending over the dirt collection chamber, a
first wall portion extending over the first inlet duct, and a
second wall portion extending over the second inlet duct.
24. The vacuum cleaner of claim 23, wherein the lid further
includes a first diverter wall positioned to divert an airflow from
the first inlet duct to a tangential path within the dirt
collection chamber, and a second diverter wall positioned to divert
an airflow from the second inlet duct to another tangential path
within the dirt collection chamber.
25. A vacuum cleaner comprising: a nozzle base; an upper assembly
pivotally secured to the nozzle base; and a dirt cup removably
secured to at least one of the nozzle base and the upper assembly,
the dirt cup including a first inlet duct positioned forward of the
upper assembly, and a second inlet duct positioned rearward of the
upper assembly.
26. The vacuum cleaner of claim 25, wherein the first inlet duct is
positioned along a longitudinal axis of the vacuum cleaner.
27. The vacuum cleaner of claim 25, wherein the first inlet duct
communicates with a brushroll chamber defined in the nozzle base,
and the second inlet duct communicates with an above-the-floor
cleaning hose.
Description
BACKGROUND OF THE INVENTION
[0001] This invention relates to vacuum cleaners. More
particularly, it relates to a dirt cup assembly for an upright
vacuum cleaner.
[0002] The use of dirt cups, instead of filter bags, in vacuum
cleaners is well known. The dirt cups receive and store suctioned
dirt, hair, fibers, and the like. Such dirt cups are secured in
place on the vacuum cleaner housing when the vacuum cleaner is in
use and are detachable from the vacuum cleaner for emptying.
[0003] One way of increasing the amount of suction power available
at a distal end of a suction airflow pathway (such as at a floor
nozzle, or at an above-the-floor cleaning tool) for a given source
of suction power is to reduce the length of the suction airflow
pathway. Accordingly, it is considered desirable to develop a new
and improved vacuum cleaner having a dirt cup assembly that
facilitates minimizing one or more dirty airflow pathways that
communicate with the dirt cup.
BRIEF SUMMARY OF THE INVENTION
[0004] One aspect of the present invention relates to a dirt cup
for a vacuum cleaner.
[0005] More particularly in accordance with this aspect of the
invention, the dirt cup includes an outer wall; a first inner wall
that cooperates with a first portion of the outer wall to define a
first inlet duct; a second inner wall that cooperates with a second
portion of the outer wall to define a second inlet duct; the first
and second inner walls cooperating with a third portion of the
outer wall to define a dust collection chamber; and a bottom wall
joined to lower end edges of the outer wall, first inner wall, and
second inner wall.
[0006] In accordance with another aspect of the invention, a dirt
cup assembly is provided for a vacuum cleaner. More particularly,
in accordance with this aspect of the invention, the dirt cup
assembly includes a dirt cup having a dust collection chamber, a
first inlet duct, and a second inlet duct spaced from the first
inlet duct; and a filter assembly removably positioned within the
dust collection chamber.
[0007] In accordance with a still another aspect of the present
invention, a vacuum cleaner is provided.
[0008] More particularly in accordance with this aspect of the
invention, the vacuum cleaner comprises a nozzle base; an upper
assembly pivotally secured to the nozzle base; and a dirt cup
assembly removably secured to at least one of the nozzle base and
the upper assembly, the dirt cup assembly including a cup having a
dirt collection chamber, a first inlet duct, and a second inlet
duct spaced from the first inlet duct, and a filter assembly
removably positioned within the dirt collection chamber.
[0009] In accordance with yet another aspect of the present
invention, a vacuum cleaner is provided. The vacuum cleaner
according to this aspect includes a nozzle base; an upper assembly
pivotally secured to the nozzle base; and a dirt cup removably
secured to at least one of the nozzle base and the upper assembly,
the dirt cup including a first inlet duct positioned forward of the
upper assembly, and a second inlet duct positioned rearward of the
upper assembly
BRIEF DESCRIPTION OF THE DRAWINGS
[0010] The invention may take physical form in certain parts and
arrangements of parts, a preferred embodiment of which will be
described in detail in this specification and illustrated in the
accompanying drawings which form a part hereof and wherein:
[0011] FIG. 1 is a perspective view from the front left of a vacuum
cleaner according to the present invention;
[0012] FIG. 2 is a perspective view of the vacuum cleaner of FIG. 1
with a removable dirt cup assembly separated from an upright handle
portion;
[0013] FIG. 3 is an exploded perspective view of the dirt cup
assembly of FIG. 2;
[0014] FIG. 4 is a bottom plan view of a lid associated with the
dirt cup assembly of FIG. 2;
[0015] FIG. 5 is a horizontal cross-section view of the dirt cup
assembly of FIG. 2 taken along the line 5-5;
[0016] FIG. 6 is a vertical cross-section view of the dirt cup
assembly of FIG. 5 taken along the line 6-6; and
[0017] FIG. 7 is another vertical cross-section view of the dirt
cup assembly of FIG. 5 taken along the line 7-7.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
[0018] Referring now to the drawings, wherein the showings are for
purposes of illustrating a preferred embodiment of the invention
only and not for purposes of limiting same, FIG. 1 shows the
subject dirt cup assembly as embodied in a particular type of
upright vacuum cleaner. While the dirt cup assembly can be employed
in this type of vacuum cleaner, it should be appreciated that the
dirt cup assembly can be used in other types of vacuum cleaners as
well.
[0019] More particularly, FIG. 1 illustrates a vacuum cleaner A
including a wheeled floor nozzle or nozzle base 2 and an upper
assembly 4 pivotally secured to the nozzle base 2. The nozzle base
2 is preferably made from a conventional material(s) such as molded
plastics and the like. The nozzle base 2 includes a downwardly
opening brushroll chamber or cavity 6 (shown in phantom) that
extends laterally along a front portion of the nozzle base. The
brushroll chamber 6 is adapted to receive and rotatably support a
driven agitator or brushroll (not shown). An aperture 8 extends
through a rear wall of the brushroll chamber 6. The aperture 8 is
substantially centered between two side walls that partially define
the brushroll chamber 6. Thus, the aperture 8 is substantially
centered on a central longitudinal axis 10 of the vacuum cleaner
A.
[0020] A discharge duct 12, such as a conventional flexible,
helical wire-type hose, communicates with and extends rearwardly
from the aperture 8. The duct 12 provides a pathway for suction air
that is drawn by a source of suction power (e.g. a fan/motor
assembly) through the brushroll chamber 6 from a nozzle inlet 14
associated with the brushroll chamber 6. It should be appreciated
that, with the aperture 8 and discharge duct 12 substantially
centered along the longitudinal axis 10, a substantially even (i.e.
symmetrical) amount of suction air flow can be drawn from each side
of the nozzle inlet 14.
[0021] The vacuum cleaner upper assembly 4 includes a lower handle
portion 16, an upper handle portion 18 and a hand grip 20. As best
illustrated in FIG. 2, the lower handle portion 16 is generally
wishbone or U-shaped, and includes a pair of legs which define
between them an opening 22. A motor and filter housing 24 is
secured to the lower handle portion 16 within opening 22. A suction
motor/fan assembly and a final stage filter (e.g. HEPA) are located
in the motor and filter housing 24 as described and illustrated in
the Assignee's copending U.S. patent application Ser. No. ______
(Attorney Docket No. RYL 2 0745), the disclosure of which is hereby
incorporated by reference. A set of openings 26 are provided in the
housing 24 to allow exhaust airflow through the final filter and
out of the housing 24.
[0022] A dirt cup assembly 28 is removably mounted to the upper
assembly 4 above the motor and filter housing 24. A cap 30 is
pivotally mounted to the lower handle portion 16 above the dirt cup
assembly 28. The cap 30 defines a portion of a latch assembly that
cooperates with a catch frame (not shown) to removably secure the
dirt cup assembly 28 to the upper assembly 4, as described and
illustrated in the Assignee's copending U.S. patent application
Ser. No. ______ (Attorney Docket No. RYL 2 0746), the disclosure of
which is hereby incorporated by reference. Further, the cap 30
includes at least one indentation on an upper surface thereof,
which indentation is shaped to accommodate an associated cleaning
tool of the vacuum cleaner.
[0023] Referring now to FIG. 3, the dirt cup assembly 28 includes a
dirt cup 32, a primary, main, or first-stage filter assembly 34
removably positioned within the dirt cup 32, and a lid 36 removably
covering an open upper end of the dirt cup 32. While the preferred
embodiment of the lid 36 is described and illustrated as being
removable from the vacuum cleaner A along with the remainder of the
dirt cup assembly 28, it is contemplated that the lid 36 can
alternatively be fixed, secured, or formed integral with the vacuum
cleaner upper assembly 4 (such as cap 30) so that only the dirt cup
32 and depending filter assembly 34 would be removable from the
vacuum cleaner.
[0024] The dirt cup 32 is formed from an outer wall 38, a first
inner wall 40, a second inner wall 42, and a bottom wall 44 joined
to or formed integral with the lower end edges of the walls 38-42.
A first U-shaped or enlarged portion 38a of the outer wall 38
cooperates with the first inner wall 40 to define a first dirty-air
conduit or inlet duct 46. Likewise, a second U-shaped or enlarged
portion 38b of the outer wall 38 cooperates with the second inner
wall 42 to define a second dirty-air conduit or inlet duct 48. The
remaining portions 38c, 38d of the outer wall 38 cooperate with
both inner walls 40, 42 to define a dust/debris collection chamber
50. A handle 52 extends from the outer wall 38 at a position
substantially opposite (i.e. about 180.degree.) from the inlet duct
46. In addition, the first inlet duct 46 is circumferentially
spaced from the second inlet duct by about 120.degree..
[0025] As best shown in FIG. 5, each inlet duct 46, 48 includes a
respective inlet aperture 46a, 48a through the dirt cup bottom wall
44. Referring again to FIG. 1, when the dirt cup assembly 28 is
mounted to the vacuum cleaner, the dirt cup inlet aperture 46a is
in fluid communication with the brushroll chamber 6 through the
flexible hose 12. In the embodiment being described, the flexible
hose 12 extends from the nozzle base 2 to an upper extent of the
motor and filter housing 24 through a forward passageway 56 of the
housing 24. Additionally, the dirt cup inlet aperture 48a is in
fluid communication with an above-the-floor cleaning wand through a
connector 58 associated with the motor and filter housing 24 and a
depending flexible hose 60 connected thereto.
[0026] With continued reference to FIG. 1, it should be appreciated
that, with the dirt cup assembly 28 mounted to the vacuum cleaner,
the dirt cup inlet duct 46 is positioned forward of the lower
handle portion 16, and the dirt cup inlet duct 48 is positioned
rearward of the lower handle portion 16. This, in effect, minimizes
the lengths of the respective dirty airflow pathways between the
dust collection chamber 50 and the brushroll chamber 6 and an
above-the-floor cleaning tool, respectively.
[0027] Referring now to FIG. 6, a main filter support 62 such as a
post, stem, boss, hub, or like structure is formed integral with
and projects upward from the dirt cup bottom wall 44. The filter
support 62 is centrally positioned within in the dust collection
chamber 50 and includes an exhaust or outlet passage 62a through
the bottom wall 44 and centered on a central longitudinal axis of
the dirt cup 32. The exhaust passage 62a communicates with a
corresponding central inlet passage 64 (FIG. 2) associated with the
motor and filter housing 24 when the dirt cup assembly 28 is
attached to the vacuum cleaner.
[0028] Referring again to FIG. 3, the primary filter assembly 34
includes a filter medium 70, filter cap 72, and filter ring 74. The
filter cap 72 and filter ring 74 are preferably formed from molded
plastic. The filter medium 70 is shaped into a hollow, tubular,
cylindrical form from a planar, pleated filter membrane. As best
shown in FIG. 6, an upper end of the pleated membrane 70 is seated
in an annular groove 76 of the filter cap 72. Likewise, a lower end
of the pleated filter membrane 70 is seated in an annular groove 78
of the filter ring 74. The filter ring 74 further includes an
aperture 80 that communicates with the dirt cup outlet passage 62a
when the filter assembly 34 is operatively positioned within the
dirt cup 32.
[0029] The pleated filter membrane 70 is internally supported on an
open frame structure 82 that extends axially between the filter cap
72 and filter ring 74. The open frame structure 82 does not impede
airflow through the pleated filter element 70, but ensures that the
filter element will not collapse under the force of a suction
airstream.
[0030] A preferred medium for the filter membrane 70 comprises
polytetrafluoroethylene (PTFE), a polymeric, plastic material
commonly referred to by the registered trademark TEFLON.RTM.. The
low coefficient of friction of a filter medium comprising PTFE
facilitates cleaning of the filter element by washing. Most
preferably, the pleated filter medium 70 is defined substantially
or entirely from GORE-TEX.RTM., a PTFE-based material commercially
available from W. L. GORE & ASSOCIATES, Elkton, Md., 21921. The
preferred GORE-TEX.RTM. filter medium, also sold under the
trademark CLEANSTREAM.RTM. by W. L. GORE & ASSOCIATES, is an
expanded PTFE membrane defined from billions of continuous, tiny
fibrils. The filter blocks the passage of at least 99% of particles
0.3 .mu.m in size or larger. Although not visible in the drawings,
the inwardly and/or outwardly facing surface of the
CLEANSTREAM.RTM. filter membrane 70 can be coated with a mesh
backing material of plastic or the like for durability since it
enhances the abrasion-resistance characteristics of the plastic
filter material. The mesh may also enhance the strength of the
plastic filter material somewhat.
[0031] Alternatively, the filter element 70 can comprise POREX.RTM.
brand, high-density polyethylene-based, open-celled, porous media
available commercially from Porex Technologies Corp. of Fairburn,
Ga., 30212, or an equivalent foraminous filter media. This
preferred filter media is a rigid open-celled foam that is
moldable, machinable, and otherwise workable into any shape as
deemed advantageous for a particular application. The preferred
filter media has an average pore size in the range of 45 .mu.m to
90 .mu.m. It can have a substantially cylindrical configuration, or
any other suitable desired configuration. The filter element can
also have a convoluted outer surface to provide a larger filtering
area. It should be appreciated that some filtration is also
performed by any dirt or debris that accumulates in the bottom the
dirt cup.
[0032] With continued reference to FIG. 6, when the main filter
assembly 34 is positioned over the main filter support 62, the main
filter assembly 34 extends upward from the bottom wall 44 to a
level that is above an upper edge 84 of the dirt cup 32. In
addition, the lower filter ring 74 engages the filter support 62
with an interference fit so that the filter assembly 34 is
releasably, yet securely, retained in its operative position as
shown, even when the dirt cup 32 is removed from the vacuum cleaner
and inverted for purposes of emptying the contents thereof.
Moreover, an annular cyclonic airflow passage 86 is defined in the
dust collection chamber 50 between the main filter assembly 34 and
the surrounding portion of the dirt cup 32 over the entire height
of the dirt cup 32 when the filter assembly 34 operatively
positioned within the dirt cup.
[0033] Referring again to FIG. 3, the lid 36 includes a
generally-cylindrical center portion 88 having a planar upper wall
88a and a cylindrical side wall 88b. The lid 36 further includes
first and second sloped wall portions 90, 92, each of which extends
radially outward from the cylindrical side wall 88b. Thus, the dirt
cup lid 36 is shaped to engage with the corresponding dirt cup 32.
In particular, the center portion 88 extends over the dirt cup dust
collection chamber 50, the sloped wall portion 90 extends over the
first dirt cup inlet duct 46, and the sloped wall portion 92
extends over the second dirt cup inlet duct 48.
[0034] As best shown in FIG. 4, an angled diverter wall 94, joined
to at least the inner surface of upper wall 88a and extending
downward to at least the lowermost extent of sloped wall portion
90, is positioned to divert an airflow from the dirt cup inlet duct
46 and sloped wall portion 90 from a radial path to a tangential
path (relative to the filter assembly 34) within the annular
cyclonic airflow passage 86 as shown by arrow 96. Likewise, a
second angled diverter wall 98, also joined to at least the inner
surface of upper wall 88a and extending downward to at least the
lowermost extent of sloped wall portion 92, is positioned to divert
an airflow from the dirt cup inlet duct 48 and sloped wall portion
92 from a radial path to a tangential path (relative to the filter
assembly 34) within the annular cyclonic airflow passage 86 as
shown by arrow 100. The orientation of the diverter walls 94, 98
will affect the direction of cyclonic airflow within the passage
86, and the invention is not meant to be limited to a particular
direction, i.e, clockwise or counterclockwise.
[0035] With continued reference to FIG. 4, and particular reference
to FIG. 5, the diverter walls 94, 98 and an arcuate rib 102, which
rib extends slightly from the inner surface of the lid upper wall
88a, engage an outer surface of the upper filter ring 72 to
facilitate centering the filter assembly 34 within the dust
collection chamber 50. Lastly, an inner rib 104 is spaced inward
from lowermost extent of the cylindrical side wall 88a and the
sloped wall portions 90, 92 to define a channel 106 around the
periphery of the lid 36, which channel constrains or otherwise
accommodates the upper edge 84 of the dirt cup 32 when the lid 36
covers the dirt cup.
[0036] It should be appreciated that, if necessary or desired, the
filter cap 72 can be provided with a gasket on an upper surface
thereof so that when the filter assembly 34 is operatively mounted
within the dust cup 32 and the lid 36 is covering the dust cup, the
gasket would mate in a fluid-tight manner with the inner surface of
the lid upper wall 88a to prevent undesired airflow through an
axial space between the lid 36 and filter assembly 34. For
convenience, the filter cap 72 can be replaced with a filter ring
so that either end of the filter assembly 34 could be mounted to
the filter support 62 of the dirt cup 32. In this case, both filter
rings could be formed from a compressible, gasket material, or a
separate gasket could be mounted to each filter ring, or a gasket
could be secured to the lower surface of the lid upper wall
88a.
[0037] Referring again to FIG. 6, during on-the-floor cleaning
operations utilizing the nozzle base 2, dirty air flows along a
substantially straight path from the brushroll chamber aperture 6,
through the discharge duct 12, through the dirt cup inlet duct 46,
and into the dirt cup cyclonic airflow passage 86. It should be
appreciated that, by positioning the dirt cup inlet duct 46 along
the vacuum cleaner longitudinal axis 10, the length of the dirty
airflow path from the brushroll chamber 6 to the dirt cup dust
collection chamber 50 can be minimized thus providing increased
suction power in the brushroll chamber 6.
[0038] The dirty air flow from the inlet duct 46 into the cyclonic
passage 86 is diverted by diverter 94, as illustrated by arrow 96.
This causes a cyclonic or vortex-type flow that spirals downward in
the passage 86 since the top end thereof is blocked by the lid 36.
The air eventually flows radially inward through the filter
membrane 70, and then axially downward through the hollow interior
of the filter assembly 34 as illustrated by arrows 110.
Subsequently, filtered air flows through the outlet passage 62a,
through motor and filter housing inlet passage 64 and into and
through a suction motor/fan assembly and a final filter stage
within housing 24, prior to being exhausted through the housing
vents 26.
[0039] Those skilled in the art will certainly recognize that the
term "cyclonic" as used herein is not meant to be limited to a
particular direction of airflow rotation. This cyclonic action
separates a substantial portion of the entrained dust and dirt from
the suction airstream and causes the dust and dirt to be deposited
in the dirt cup 32. It should be appreciated that an intermediate
filter can be provided, for example within the dirt cup outlet
passage 62a downstream of the main filter membrane 70, to prevent
debris from being sucked directly into the motor/fan assembly in
the event of a failure of the main filter element 70.
[0040] Referring now to FIG. 7, during above-the-floor cleaning
operations, dirty air flows from a cleaning tool/wand arrangement
and depending hose 60, through the dirt cup inlet duct 48, and into
the dirt cup cyclonic airflow passage 86. As mentioned above,
positioning the dirt cup inlet duct 48 slightly rearward of the
lower handle portion 16 minimizes the length of the dirty airflow
path from an above-the-floor cleaning tool to the dirt cup dust
collection chamber 50 to provide increased suction power at the
cleaning tool. As with an on-the-floor cleaning operation, dirty
air flow from the inlet duct 48 into the cyclonic passage 86 is
diverted by diverter 98, as illustrated by arrow 100. This causes a
cyclonic or vortex-type flow that spirals downward in the passage
86 since the top end thereof is blocked by the lid 36. The air
eventually flows radially inward through the filter membrane 70,
and then axially downward through the hollow interior of the filter
assembly 34 as illustrated by arrows 112. Subsequently, filtered
air flows through the outlet passage 62a, through motor and filter
housing inlet passage 64 and into and through a suction motor/fan
assembly and a final filter stage within housing 24, prior to being
exhausted through the housing vents 26.
[0041] The invention has been described with reference to a
preferred embodiment. Obviously, modifications and alterations will
occur to others upon the reading and understanding of this
specification. It is intended to include all such modifications and
alterations insofar as they come within the scope of the appended
claims or the equivalents thereof.
* * * * *