U.S. patent application number 11/470658 was filed with the patent office on 2007-05-10 for laundry appliance.
Invention is credited to Flavio E. Bernardino, David Wayne Carr, Anna Kathryn Duncan, Gerald David Duncan, Erin Louise Hall, Geoffrey Walker, Mary Ellen Zeitler.
Application Number | 20070101772 11/470658 |
Document ID | / |
Family ID | 38696781 |
Filed Date | 2007-05-10 |
United States Patent
Application |
20070101772 |
Kind Code |
A1 |
Duncan; Anna Kathryn ; et
al. |
May 10, 2007 |
Laundry Appliance
Abstract
A laundry machine configured to supply a first amount of water
to the wash tub wherein a wash plate can be oscillated such that
clothes items directly above and in contact with the impeller are
frictionally dragged in a oscillatory manner with the wash chamber
while continuing to oscillate said wash plate, an additional supply
of water is added to said wash tub such that as cloth items lost
frictional engagement with the wash plate, the cloth items continue
to move along an inverse toroidal rollover path at higher water
levels.
Inventors: |
Duncan; Anna Kathryn; (Mt.
Eden, NZ) ; Hall; Erin Louise; (Whitford, NZ)
; Walker; Geoffrey; (Papatoetoe, NZ) ; Duncan;
Gerald David; (Mt. Eden, NZ) ; Bernardino; Flavio
E.; (St. Joseph, MI) ; Zeitler; Mary Ellen;
(St. Joseph, MI) ; Carr; David Wayne; (St. Joseph,
MI) |
Correspondence
Address: |
WHIRLPOOL PATENTS COMPANY - MD 0750
500 RENAISSANCE DRIVE - SUITE 102
ST. JOSEPH
MI
49085
US
|
Family ID: |
38696781 |
Appl. No.: |
11/470658 |
Filed: |
September 7, 2006 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
60734728 |
Nov 8, 2005 |
|
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|
Current U.S.
Class: |
68/3R ; 68/12.01;
68/12.04; 68/12.06; 68/140 |
Current CPC
Class: |
D06F 2202/085 20130101;
D06F 17/08 20130101; D06F 2202/08 20130101; D06F 17/10 20130101;
D06F 39/083 20130101; D06F 35/006 20130101; D06F 23/04 20130101;
D06F 37/40 20130101; D06F 2202/10 20130101; D06F 2204/065
20130101 |
Class at
Publication: |
068/003.00R ;
068/140; 068/012.01; 068/012.06; 068/012.04 |
International
Class: |
D06F 37/00 20060101
D06F037/00; D06F 33/00 20060101 D06F033/00; D06F 23/00 20060101
D06F023/00 |
Claims
1. A laundry machine comprising: a cabinet; a wash tub supported
within the cabinet; a motor suspended beneath the wash tub; a wash
basket rotatably supported within the wash tub and being drivingly
connected to the motor; a wash plate disposed in the bottom of the
wash basket and driving the connector to the motor; and a
controller controlling supply of water to said wash tub and driving
of said wash plate by said motor, such that a first amount of water
is supplied to said wash tub, said wash plate is oscillated such
that clothes items directly above and in contact with the impeller
are frictionally dragged in a oscillatory manner and the cloth
items roll over within the wash chamber along an inverse toroidal
rollover path, and while continuing to oscillate said wash plate,
an additional supply of water is added to said wash tub such that
as cloth items lose frictional engagement with the wash plate, the
clothing continues to move along an inverse toroidal rollover path
at higher water levels.
2. A laundry machine comprising: a cabinet; a wash tub supported
within the cabinet; a motor suspended beneath the wash tub; a wash
basket rotatably supported within the wash tub and being drivingly
connected to the motor; a wash plate disposed in the bottom of the
wash basket and driving the connector to the motor; and a
controller controlling supply of water to said wash tub and driving
of said wash plate by said motor, said controller having: a first
operating mode wherein an amount of water is supplied to said wash
tub, said wash plate is oscillated such that clothes items directly
above and in contact with the impeller are frictionally dragged in
a oscillatory manner and the cloth items roll over within the wash
chamber along an inverse toroidal rollover path, and the amount of
water in said wash tub is not substantially increased through the
wash portion of a wash cycle; and a second operating mode wherein a
first amount of water is supplied to said wash tub, said wash plate
is oscillated such that clothes items directly above and in contact
with the impeller are frictionally dragged in a oscillatory manner
and the cloth items roll over within the wash chamber along an
inverse toroidal rollover path, and while continuing to oscillate
said wash plate, an additional supply of water is added to said
wash tub such that as cloth items lose frictional engagement with
the wash plate, the clothing continues to move along an inverse
toroidal rollover path at higher water levels.
3. A laundry machine as claimed in claim 2 wherein said controller
controls said motor to drive said wash plate in an initial drive
profile when commencing a wash phase, and subsequently in a
maintenance drive profile, and said initial drive profile is
characterised by longer strokes and/or higher angular velocities
than said maintenance drive profile.
4. A laundry machine comprising: a cabinet; a wash tub supported
within the cabinet; a motor suspended beneath the wash tub; a wash
basket rotatably supported within the wash tub and being drivingly
connected to the motor; a wash plate disposed in the bottom of the
wash basket and driving the connector to the motor; and said wash
plate including a plurality of substantially radial vanes raised
above a lower portion extending between each vane and apertures
through said wash plate in the lower areas between the vanes,
wherein the wash plate is oscillated such that the cloth items
directly above the impeller are dragged in an oscillatory manner
and the cloth items rollover within the wash chamber along an
inverse toroidal rollover path, and said cloth items are encouraged
against said vanes by a suction induced through said apertures.
5. A laundry machine as claimed in claim 4 wherein said apertures
are arranged in said lower areas to be immediately adjacent said
vanes.
6. A laundry machine as claimed in claim 5 wherein there are no
apertures through said wash plate except adjacent said vanes.
7. A laundry machine as claimed in claim 4 wherein said apertures
are arranged in groups, each group adjacent the sidewall of a said
vane.
8. A laundry machine as claimed in any one of claim 4 wherein each
said aperture comprises a slot.
9. A laundry machine as claimed in claim 4 wherein the underside of
the wash plate includes radial extending ribs.
10. A laundry machine as claimed in claim 4 wherein a base portion
of said wash basket includes an annular series of openings passing
therethrough in the region of the outer periphery of said wash
plate.
11. A laundry machine comprising: a cabinet; a wash tub supported
within the cabinet; a motor suspended beneath the wash tub; a wash
basket rotatably supported within the wash tub and being drivingly
connected to the motor; a wash plate disposed in the bottom of the
wash basket and driving the connector to the motor; and said wash
plate including a plurality of vanes raised above the level of a
lower portion between the vanes, each said vane substantially
radially from the central hub also raised above said lower portion,
each said vane including steeper side walls adjacent said lower
portion and a broader top portion spanning between upper edges of
said side walls, the pair of side walls of each vane diverging as
they extend away from said hub, wherein the impeller is oscillated
such that the cloth items directly above and in contact with the
impeller are frictionally dragged in an oscillatory manner and the
cloth items rollover within the wash chamber along an inverse
toroidal rollover path.
12. A laundry machine as claimed in claim 11 wherein said side
walls curve apart such that the rate of divergence of the side
walls of each vane increases moving along the vane from the hub
portion to the radially outer end.
13. A laundry machine as claimed in claim 12 wherein said side
walls curve so as to be inclined in advance of a radius of said
wash plate at the outer end of said vane.
14. A laundry machine as claimed in claim 11 wherein said vanes
occupy between 0.33 and 0.66 of the plan area of said wash
plate.
15. A laundry machine as claimed claim 11 wherein adjacent the
outer end of each vane the height of said side walls decreases such
that said upper portion converges to said lower level at the
periphery of said wash plate.
16. A laundry machine as claimed in claim 15 wherein said upper
portion of said vane is substantially flat in a circumferential
direction extending between said side walls.
17. A laundry machine as claimed in claim 16 wherein said upper
portion of each vane includes a ridge portion in the region of said
hub, said ridge portion extending the height of said vane in said
hub region.
18. A laundry machine as claimed in claim 17 wherein converging
walls of said ridge portion are less steeply inclined than the said
side walls outward of them.
19. A laundry machine as claimed in claim 17 wherein said ridge
portion and said hub extend to a height (relative to the lowest
portion of said upper surface of said wash plate), that is 50% to
150% greater than the height, relative to the lowest portion of
said upper surface of said wash plate, of the substantially flat
upper portion of said vane.
20. A laundry machine as claimed in of claim 11 wherein the upper
surface of said wash plate is broadly defined by alternating
sectors, said alternating sectors comprising raised sectors
defining said vanes, and low sectors between said vanes.
21. A laundry machine as claimed claim 11 wherein said wash plate
includes between 3 and 5 said vanes.
22. A laundry machine as claimed in claim 11 wherein said wash
plate includes apertures through said wash plate in the lower areas
between the vanes, said apertures arranged in said lower areas to
be immediately adjacent said vanes, and when the wash plate is
oscillated such that the cloth items directly above the impeller
are dragged in an oscillatory manner and the cloth items rollover
within the wash chamber along an inverse toroidal rollover path,
said cloth items are encouraged against said vanes by a suction
induced through said apertures.
23. A laundry machine as claimed in claim 22 wherein there are no
apertures through said wash plate except adjacent said vanes.
24. A laundry machine as claimed in claim 22 wherein said apertures
are arranged in groups, each group adjacent the sidewall of a said
vane.
25. A laundry machine as claimed in any one of claim 22 wherein
each said aperture comprises a slot.
26. A laundry machine comprising: a cabinet; a wash tub supported
within the cabinet; a motor suspended beneath the wash tub; a wash
basket rotatably supported within the wash tub and being drivingly
connected to the motor; a wash plate disposed in the bottom of the
wash basket and driving the connector to the motor; and said wash
plate including a plurality of vanes raised above the level of a
lower portion between the vanes, each said vane extending
substantially radially from a central hub also raised above said
lower portion, each said vane including steeper side walls adjacent
said lower portion and a broader top portion spanning between upper
edges of said side walls, with said upper portion of said vane
being substantially flat in a circumferential direction extending
between said side walls and having a ridge portion in the region of
said hub, said ridge portion extending the height of said vane in
said hub region; wherein the impeller is oscillated such that the
cloth items directly above the impeller are dragged in an
oscillatory manner and the cloth items rollover within the wash
chamber along an inverse toroidal rollover path.
27. A laundry machine comprising: a cabinet; a wash tub supported
within the cabinet; a motor suspended beneath the wash tub; a wash
basket rotatably supported within the wash tub and being drivingly
connected to the motor; a wash plate disposed in the bottom of the
wash basket and driving the connector to the motor; and a
controller controlling supply of water to said wash tub and driving
of said wash plate by said motor, such that a first amount of water
is supplied to said wash tub, said wash plate is oscillated in an
initial drive profile when commencing a wash phase such that
clothes items directly above the impeller are dragged in a
oscillatory manner and the cloth items roll over within the wash
chamber along an inverse toroidal rollover path, and subsequently
in a maintenance drive profile, and said initial drive profile is
characterised by longer strokes and/or higher angular velocities
than said maintenance drive profile.
28. A laundry machine as claimed in claim 27 wherein said
controller controls driving of said wash plate such that a drive
profile more vigorous than said maintenance drive profile is
applied intermittently during a wash phase.
29. A laundry machine as claimed in claim 28 wherein said
intermittent drive profile is substantially the same as said
initial drive profile.
30. A laundry machine comprising: a cabinet; a wash tub supported
within the cabinet; a motor suspended beneath the wash tub; a wash
basket rotatably supported within the wash tub and being drivingly
connected to the motor; a wash plate disposed in the bottom of the
wash basket and driving the connector to the motor; a wash liquid
path from a lower portion of said wash tub to an upper portion of
said wash tub above said spin basket; a pump for moving liquid
through said liquid path; and a controller controlling supply of
water to said wash tub, driving of said wash plate by said motor
and moving of said liquid by said pump, such that a first amount of
water is supplied to said wash tub, liquid is moved from the lower
portion of said wash tub through said liquid path to exit above
said spin basket, and subsequently said wash plate is oscillated
such that laundry items directly above the impeller are dragged in
a oscillatory manner and the cloth items roll over within the wash
chamber along an inverse toroidal rollover path.
31. A laundry machine comprising: a cabinet; a wash tub supported
within the cabinet; a motor suspended beneath the wash tub; a wash
basket rotatably supported within the wash tub and being drivingly
connected to the motor; a wash plate disposed in the bottom of the
wash basket and driving the connector to the motor; a wash liquid
path from a lower portion of said wash tub to an upper portion of
said wash tub above said spin basket; a pump for moving liquid
through said liquid path; and a controller controlling supply of
water to said wash tub, driving of said wash plate by said motor
and moving of said liquid by said pump, such that a first amount of
water is supplied to said wash tub, said wash plate is oscillated
such that laundry items directly above the impeller are dragged in
a oscillatory manner and the cloth items roll over within the wash
chamber along an inverse toroidal rollover path, and while
continuing said oscillation of said wash plate, liquid is
intermittently moved from the lower portion of said wash tub
through said liquid path to exit above said spin basket.
32. A laundry machine comprising: a cabinet; a wash tub supported
within the cabinet; a motor suspended beneath the wash tub; a wash
basket rotatably supported within the wash tub and being drivingly
connected to the motor; a wash plate disposed in the bottom of the
wash basket and driving the connector to the motor; and a
controller controlling supply of water to said wash tub and driving
of said wash plate by said motor a such that a first amount of
water is supplied to said wash tub, said wash plate is oscillated
such that laundry items directly above the impeller are dragged in
a oscillatory manner and the cloth items roll over within the wash
chamber along an inverse toroidal rollover path; and wherein a base
portion of said wash basket includes an upwardly facing annular
surface surrounding said wash plate, said upwardly facing annular
surface including a general flat surface and a plurality of raised
portions extending radially inward from adjacent a cylindrical wall
of said wash basket, said raised portions being wider, in a
circumferential direction of said basket, than the extent of their
height above the surrounding flat surface.
33. A laundry machine as claimed in claim 32 wherein said raised
portions extend to a height less than 3 cm above the surrounding
surface of said base portion.
34. A laundry machine as claimed in claim 32 wherein said raised
portions taper as they extend radially toward said wash plate.
35. A laundry machine comprising: a cabinet; a wash tub supported
within the cabinet; a motor suspended beneath the wash tub; a wash
basket rotatably supported within the wash tub and being drivingly
connected to the motor; a wash plate disposed in the bottom of the
wash basket and driving the connector to the motor; and a
controller controlling supply of water to said wash tub and driving
of said wash plate by said motor, such that a first amount of water
is supplied to said wash tub, said wash plate is oscillated such
that laundry items directly above the impeller are dragged in a
oscillatory manner and the cloth items roll over within the wash
chamber along an inverse toroidal rollover path; and wherein said
controller generates a drive profile for oscillations of said wash
plate according to an indication of size of load of laundry in said
wash basket.
36. A laundry machine as claimed in claim 35 wherein said
controller generates a profile that is increasingly vigorous with
increasing load size.
37. A laundry machine as claimed in claim 36 wherein said
controller generates a profile that includes a target maximum
rotational speed, and said target maximum rotational speed
increases with increasing load size.
38. A laundry machine as claimed in claim 37 wherein said target
maximum speed increases from about between 70 to 90 RPM to about
100 to 140 RPM with increasing load size.
39. A laundry machine as claimed in 36 wherein said controller
generates a profile in which said wash plate rotates through an
increasing angle with increasing load size.
Description
[0001] This application claims the benefit of Provisional
application 60/734,728, filed on Nov. 8, 2005.
FIELD OF THE INVENTION
[0002] The present invention relates to laundry appliances and in
particular to laundry washing machines for household use.
BACKGROUND TO THE INVENTION
[0003] U.S. Pat. No. 6,212,722 proposes an improved laundry washing
machine for domestic use. This machine is of the top loading type
having an outer bowl, a wash basket within the outer bowl and
access to the wash basket through a top opening. A motor is
provided to drive rotation of the wash basket within the outer
bowl. A wash plate is provided in the lower portion of the wash
basket to be rotated by the motor with the wash basket or
independently of the wash basket. The patent proposes a combination
of water level control, wash plate design, wash basket design and
movement pattern for the wash plate which leads to an inverse
toroidal movement of the laundry load during a wash phase. The
sodden wash load is dragged by friction radially inward on the
upper surface of the wash plate and progresses upward in the region
of the centre. The sodden wash load then progresses radially
outward to the wall of the wash basket and downward to the base of
the wash basket. This has been found to provide an effective wash
action with low water consumption.
[0004] The patent indicates that this is only achieved at water
levels within a determinable band. With too much water the inverse
toroidal rollover motion is not achieved because the clothes lose
frictional contact with the wash plate.
[0005] The present inventors have ascertained a desire to include
an effective wash mode that sacrifices a degree of water efficiency
in favour of dilution of the wash solution. The inventors consider
this to be particularly desirable in the case of heavily soiled
laundry items or laundry items having insoluble soiling, such as
muddy, sandy or grass covered sports clothes, and in the case of
laundry subject to dye leakage.
[0006] The inventors consider that the laundry machine described in
U.S. Pat. No. 6,212,722 is only partially effective in this regard.
At higher water levels in which the machine cannot perform the
inverse toroidal rollover pattern the inventors consider the
machine is likely to provide a less effective wash action. The
effect of inverse toroidal wash action by dragging is only
available at low water levels, and there is a middle water level at
which no rollover occurs. Where the laundry load does not rollover
wash action of clothing against the wash plate is limited to a
small fraction of the load and wash performance suffers.
SUMMARY OF THE INVENTION
[0007] It is an object of the present invention to provide a
laundry machine which goes some way toward overcoming the above
disadvantages or which will at least provide the public with a
useful choice.
[0008] In a first aspect the invention may broadly be said to
consist in a laundry machine comprising:
[0009] a cabinet;
[0010] a wash tub supported within the cabinet;
[0011] a motor suspended beneath the wash tub;
[0012] a wash basket rotatably supported within the wash tub and
being drivingly connected to the motor;
[0013] a wash plate disposed in the bottom of the wash basket and
driving the connector to the motor; and
[0014] a controller controlling supply of water to said wash tub
and driving of said wash plate by said motor, such that a first
amount of water is supplied to said wash tub, said wash plate is
oscillated such that clothes items directly above and in contact
with the impeller are frictionally dragged in a oscillatory manner
and the cloth items roll over within the wash chamber along an
inverse toroidal rollover path, and while continuing to oscillate
said wash plate, an additional supply of water is added to said
wash tub such that as cloth items lose frictional engagement with
the wash plate, the clothing continues to move along an inverse
toroidal rollover path at higher water levels.
[0015] In a further aspect the invention may broadly be said to
consist in a laundry machine comprising:
[0016] a cabinet;
[0017] a wash tub supported within the cabinet;
[0018] a motor suspended beneath the wash tub;
[0019] a wash basket rotatably supported within the wash tub and
being drivingly connected to the motor;
[0020] a wash plate disposed in the bottom of the wash basket and
driving the connector to the motor; and
[0021] a controller controlling supply of water to said wash tub
and driving of said wash plate by said motor, said controller
having:
[0022] a first operating mode wherein an amount of water is
supplied to said wash tub, said wash plate is oscillated such that
clothes items directly above and in contact with the impeller are
frictionally dragged in a oscillatory manner and the cloth items
roll over within the wash chamber along an inverse toroidal
rollover path, and the amount of water in said wash tub is not
substantially increased through the wash portion of a wash cycle;
and a second operating mode wherein a first amount of water is
supplied to said wash tub, said wash plate is oscillated such that
clothes items directly above and in contact with the impeller are
frictionally dragged in a oscillatory manner and the cloth items
roll over within the wash chamber along an inverse toroidal
rollover path, and while continuing to oscillate said wash plate,
an additional supply of water is added to said wash tub such that
as cloth items lose frictional engagement with the wash plate, the
clothing continue to move along an inverse toroidal rollover path
at higher water levels.
[0023] According to a further aspect the invention may broadly
consist in said controller controlling said motor to drive said
wash plate in an initial drive profile when commencing a wash
phase, and subsequently in a maintenance drive profile, and said
initial drive profile is characterised by longer strokes and/or
higher angular velocities than said maintenance drive profile.
[0024] In a still further aspect the present invention may broadly
be said to consist in a laundry machine comprising:
[0025] a cabinet;
[0026] a wash tub supported within the cabinet;
[0027] a motor suspended beneath the wash tub;
[0028] a wash basket rotatably supported within the wash tub and
being drivingly connected to the motor;
[0029] a wash plate disposed in the bottom of the wash basket and
driving the connector to the motor; and
[0030] said wash plate including a plurality of substantially
radial vanes raised above a lower portion extending between each
vane and apertures through said wash plate in the lower areas
between the vanes,
[0031] wherein the wash plate is oscillated such that the cloth
items directly above the impeller are dragged in an oscillatory
manner and the cloth items rollover within the wash chamber along
an inverse toroidal rollover path, and said cloth items are
encouraged against said vanes by a suction induced through said
apertures.
[0032] In a still further aspect the invention may broadly be said
to consist in a laundry machine comprising:
[0033] a cabinet;
[0034] a wash tub supported within the cabinet;
[0035] a motor suspended beneath the wash tub;
[0036] a wash basket rotatably supported within the wash tub and
being drivingly connected to the motor;
[0037] a wash plate disposed in the bottom of the wash basket and
driving the connector to the motor; and
[0038] said wash plate including a plurality of vanes raised above
the level of a lower portion between the vanes, each said vane
substantially radially from the central hub also raised above said
lower portion, each said vane including steeper side walls adjacent
said lower portion and a broader top portion spanning between upper
edges of said side walls, the pair of side walls of each vane
diverging as they extend away from said hub,
[0039] wherein the impeller is oscillated such that the cloth items
directly above and in contact with the impeller are frictionally
dragged in an oscillatory manner and the cloth items rollover
within the wash chamber along an inverse toroidal rollover
path.
[0040] According to a further aspect the invention may broadly
consist in said side walls curving apart such that the rate of
divergence of the side walls of each vane increases moving along
the vane from the hub portion to the radially outer end.
[0041] According to a further aspect the invention may broadly
consist in said side walls curving so as to be inclined in advance
of a radius of said wash plate at the outer end of said vane.
[0042] In a still further aspect the present invention may broadly
be said to consist in a laundry machine comprising:
[0043] a cabinet;
[0044] a wash tub supported within the cabinet;
[0045] a motor suspended beneath the wash tub;
[0046] a wash basket rotatably supported within the wash tub and
being drivingly connected to the motor;
[0047] a wash plate disposed in the bottom of the wash basket and
driving the connector to the motor; and
[0048] said wash plate including a plurality of vanes raised above
the level of a lower portion between the vanes, each said vane
extending substantially radially from a central hub also raised
above said lower portion, each said vane including steeper side
walls adjacent said lower portion and a broader top portion
spanning between upper edges of said side walls, with said upper
portion of said vane being substantially flat in a circumferential
direction extending between said side walls and having a ridge
portion in the region of said hub, said ridge portion extending the
height of said vane in said hub region;
[0049] wherein the impeller is oscillated such that the cloth items
directly above the impeller are dragged in an oscillatory manner
and the cloth items rollover within the wash chamber along an
inverse toroidal rollover path.
[0050] In a still further aspect the invention may broadly be said
to consist in a laundry machine comprising:
[0051] a cabinet;
[0052] a wash tub supported within the cabinet;
[0053] a motor suspended beneath the wash tub;
[0054] a wash basket rotatably supported within the wash tub and
being drivingly connected to the motor;
[0055] a wash plate disposed in the bottom of the wash basket and
driving the connector to the motor; and
[0056] a controller controlling supply of water to said wash tub
and driving of said wash plate by said motor, such that a first
amount of water is supplied to said wash tub, said wash plate is
oscillated in an initial drive profile when commencing a wash phase
such that clothes items directly above the impeller are dragged in
a oscillatory manner and the cloth items roll over within the wash
chamber along an inverse toroidal rollover path, and subsequently
in a maintenance drive profile, and said initial drive profile is
characterised by longer strokes and/or higher angular velocities
than said maintenance drive profile.
[0057] In a still further aspect the present invention may broadly
be said to consist in a laundry machine comprising:
[0058] a cabinet;
[0059] a wash tub supported within the cabinet;
[0060] a motor suspended beneath the wash tub;
[0061] a wash basket rotatably supported within the wash tub and
being drivingly connected to the motor;
[0062] a wash plate disposed in the bottom of the wash basket and
driving the connector to the motor;
[0063] a wash liquid path from a lower portion of said wash tub to
an upper portion of said wash tub above said spin basket;
[0064] a pump for moving liquid through said liquid path; and
[0065] a controller controlling supply of water to said wash tub,
driving of said wash plate by said motor and moving of said liquid
by said pump, such that a first amount of water is supplied to said
wash tub, liquid is moved from the lower portion of said wash tub
through said liquid path to exit above said spin basket, and
subsequently said wash plate is oscillated such that laundry items
directly above the impeller are dragged in a oscillatory manner and
the cloth items roll over within the wash chamber along an inverse
toroidal rollover path.
[0066] In a still further aspect the invention may broadly be said
to consist in a laundry machine comprising:
[0067] a cabinet;
[0068] a wash tub supported within the cabinet;
[0069] a motor suspended beneath the wash tub;
[0070] a wash basket rotatably supported within the wash tub and
being drivingly connected to the motor;
[0071] a wash plate disposed in the bottom of the wash basket and
driving the connector to the motor;
[0072] a wash liquid path from a lower portion of said wash tub to
an upper portion of said wash tub above said spin basket;
[0073] a pump for moving liquid through said liquid path; and
[0074] a controller controlling supply of water to said wash tub,
driving of said wash plate by said motor and moving of said liquid
by said pump, such that a first amount of water is supplied to said
wash tub, said wash plate is oscillated such that laundry items
directly above the impeller are dragged in a oscillatory manner and
the cloth items roll over within the wash chamber along an inverse
toroidal rollover path, and while continuing said oscillation of
said wash plate, liquid is intermittently moved from the lower
portion of said wash tub through said liquid path to exit above
said spin basket.
[0075] In a still further aspect the invention may broadly be said
to consist in a laundry machine comprising:
[0076] a cabinet;
[0077] a wash tub supported within the cabinet;
[0078] a motor suspended beneath the wash tub;
[0079] a wash basket rotatably supported within the wash tub and
being drivingly connected to the motor;
[0080] a wash plate disposed in the bottom of the wash basket and
driving the connector to the motor; and
[0081] a controller controlling supply of water to said wash tub
and driving of said wash plate by said motor a such that a first
amount of water is supplied to said wash tub, said wash plate is
oscillated such that laundry items directly above the impeller are
dragged in a oscillatory manner and the cloth items roll over
within the wash chamber along an inverse toroidal rollover path;
and wherein a base portion of said wash basket includes an upwardly
facing annular surface surrounding said wash plate, said upwardly
facing annular surface including a general flat surface and a
plurality of raised portions extending radially inward from
adjacent a cylindrical wall of said wash basket, said raised
portions being wider, in a circumferential direction of said
basket, than the extent of their height above the surrounding flat
surface.
[0082] In a still further aspect the invention may broadly be said
to consist in a laundry machine comprising:
[0083] a cabinet;
[0084] a wash tub supported within the cabinet;
[0085] a motor suspended beneath the wash tub;
[0086] a wash basket rotatably supported within the wash tub and
being drivingly connected to the motor;
a wash plate disposed in the bottom of the wash basket and driving
the connector to the motor; and
[0087] a controller controlling supply of water to said wash tub
and driving of said wash plate by said motor, such that a first
amount of water is supplied to said wash tub, said wash plate is
oscillated such that laundry items directly above the impeller are
dragged in a oscillatory manner and the cloth items roll over
within the wash chamber along an inverse toroidal rollover path;
and wherein said controller generates a drive profile for
oscillations of said wash plate according to an indication of size
of load of laundry in said wash basket.
[0088] In a still further aspect the invention may broadly be said
to consist in a laundry machine comprising:
[0089] a cabinet;
[0090] a wash tub supported within the cabinet;
[0091] a motor suspended beneath the wash tub;
[0092] a wash basket rotatably supported within the wash tub and
being drivingly connected to the motor;
a wash plate disposed in the bottom of the wash basket and driving
the connector to the motor; and
[0093] a controller controlling supply of water to said wash tub
and driving of said wash plate by said motor, such that with an
amount of water in said wash tub, said wash plate is oscillated
such that laundry items directly above the impeller are dragged in
a oscillatory manner and the cloth items roll over within the wash
chamber along an inverse toroidal rollover path; and wherein said
inverse toroidal rollover path can be achieved and maintained
through a range of water levels in said wash tub, from a low water
level through to a high water level, said high water level
corresponding generally to a traditional deep wash water
quantity.
[0094] This invention may also be said broadly to consist in the
parts, elements and features referred to or indicated in the
specification of the application, individually or collectively, and
any or all combinations of any two or more of said parts, elements
or features, and where specific integers are mentioned herein which
have known equivalents in the art to which this invention relates,
such known equivalents are deemed to be incorporated herein as if
individually set forth.
BRIEF DESCRIPTION OF THE DRAWINGS
[0095] FIG. 1 is a cutaway perspective view of a laundry machine
according to a preferred embodiment of the present invention.
[0096] FIG. 2 is a block diagram of a control system for a laundry
washing machine.
[0097] FIG. 3 is a perspective view of the wash basket base
moulding according to the machine of FIG. 1.
[0098] FIG. 3b is a perspective view of another embodiment of a
wash basket base moulding according to the present invention.
[0099] FIG. 4 is a perspective view from above of the wash plate
according to a preferred embodiment of the present invention.
[0100] FIG. 4b is a perspective view from above of the wash plate
according to present invention as shown in 3b.
[0101] FIG. 5 is a cross-sectional side elevation of the wash plate
of FIG. 4.
[0102] FIG. 6 is a plan view of the wash plate of FIG. 4.
[0103] FIG. 7 is a plan view of a section of wash plate including
arcuate apertures.
[0104] FIG. 8 is a graph of rotational speed versus time,
illustrating elements of a wash plate drive profile for exciting
toroidal rollover.
DETAILED DESCRIPTION
[0105] The present invention relates to improvements and
adaptations on the wash system described in U.S. Pat. No.
6,212,722. The contents of that patent are incorporated herein by
reference.
[0106] A laundry machine incorporating improvements and adaptations
of the present application is illustrated in FIG. 1. The laundry
machine includes a cabinet 100 with a lid 102 and a user console
104. A controller 106 is located within the body of the user
console. The controller 106 includes a power supply and a
programmed microcontroller. The power supply receives power from
the mains supply and supplies power to the microcontroller, to a
power supply bridge for the electric motor and to ancillary devices
within the machine such as a pump and valves. Delivery of power to
the motor 114 and the ancillary devices is at the control of
microcontroller. The microcontroller receives inputs from a user
interface on console 104.
[0107] A tub 120 is supported within the cabinet. The tub is
preferably suspended from the upper edge of the cabinet. The tub
may alternatively be supported from below or from the sides of the
cabinet. A wash or drain pump is fitted to the lower portion of the
tub. The pump is preferably located at a sump portion of the
tub.
[0108] A wash basket 122 is supported for rotation within the tub.
Opening the lid 102 provides user access to an upper open end of
the wash basket.
[0109] A wash plate 124 is mounted in the lower portion of the wash
basket.
[0110] The improvements and adaptations of the present invention
are preferably implemented in a laundry machine of a direct drive
type. However other drive systems involving for example gearbox or
belts may alternatively be used.
[0111] A motor 114 below the tub directly drives a shaft 128. The
shaft 128 extends through the lower face of the tub, where it is
supported in a pair of bearings 130. Seals prevent water escaping
the tub at the interface between the tub and shaft.
[0112] The wash basket 122 is mounted on the shaft within the tub.
The wash basket may typically comprise a base 132 and a perforated
cylindrical skin 134. The perforated cylindrical skin extends up
from the base to define an open ended drum. The wash basket may
include a balance ring at the upper edge of the cylindrical
skin.
[0113] The wash plate 124 is also fitted to the shaft, within the
wash basket 122.
[0114] An arrangement is provided to enable the motor 114 to
selectively drive either the wash plate 124 independently of the
wash basket 122, or drive the wash basket 122. In driving the wash
basket the motor may also drive the wash plate. Various mechanisms
have been proposed to accomplish this selective drive. A number of
variations including twin concentric shafts and a selectable clutch
to connect the motor with either or both shafts are noted in the
prior art and may be applied.
[0115] Alternatively a floating clutch of a type previously
described in U.S. Pat. No. 5,353,613 may be used. The machine
illustrated in FIG. 1 makes use of such a floating clutch. The wash
basket 122 is slidably mounted on the drive shaft 128. The wash
plate 124 is fixed to rotate with the upper end of the drive shaft.
The wash basket 122 includes float chambers 140 on the underside of
the wash basket base member. The wash basket is allowed to rotate
on the shaft. A vertically inter-engaging clutch 142 is provided
between the wash basket 122 and wash plate 144 or between the wash
basket 122 and shaft 128. A first clutch member having upwardly
facing engagements may be provided in conjunction with the wash
plate or a spline on the shaft. An downwardly facing clutch member
is provided in conjunction with the wash basket. With the wash
basket in an upper or raised position the upwardly facing and
downwardly facing clutch members are not engaged and the wash
basket is free to rotate on the shaft. With the wash basket in a
lower position the members are not engaged. In use the wash basket
will be disengaged from the shaft when sufficient water has been
added to the tub for the wash basket to float to its raised
position. The amount of water required before the wash basket
floats depends on the weight of laundry in the wash basket. In the
floated condition the shaft will drive the wash plate but will not
directly drive the wash basket. In the lower condition the shaft
will drive the wash plate and wash basket together.
[0116] The controller is part of a control system for coordinating
the operations of the laundry machine. The control system is
illustrated in the block diagram of FIG. 2. The controller includes
a microcontroller 800. The microcontroller may include a micro
computer and ancillary logic circuits and interfaces. The micro
controller receives user input commands on user interface 802. The
user interface may include, for example, a plurality of touch
controls such as switches or buttons, or may include a touch
screen, or may include rotary or linear selection devices. The
micro controller may include a display device 804 to provide
feedback to a user. The display device may comprise a plurality of
indicators, such as lights or LEDs, or may include a screen
display. The display device 804 and the user interface 802 may be
mounted to a single module incorporating the micro controller.
[0117] The micro controller receives power from a power supply 806.
The micro controller also controls power switches 808 applying
power from supply 806 to drive motor 810. The micro controller
controls further power switches 812 applying power from supply 806
to a pump 814. The micro controller also controls a power switch
830 applying power to a cold water inlet valve 832 and a power
switch 834 applying power to hot water inlet valve 836.
[0118] The micro controller preferably receives feedback from
position sensors 816 associated with the motor. These sensors may
for example be a set of digital Hall sensors, sensing changes in
rotor position, or may be any suitable encoder. Alternatively rotor
position and movement may be sensed from motor drive current or EMF
induced in unenergised motor windings.
[0119] The micro controller also preferably receives input from a
water level sensor 818, which detects the level of water in the tub
of the machine, and from a temperature sensor 820 which detects the
temperature of water being supplied to the wash tub.
[0120] The present application presents several adaptations that
enhance the operation of a wash system attempting to induce inverse
toroidal rollover by frictional dragging or by fluid mechanics.
These adaptations enhance the ability to generate inverse toroidal
rollover wash pattern at low water levels and help extend the water
levels at which this wash pattern can be maintained. A number of
these adaptations involve the shape and configuration of elements
of the wash plate. In particular they involve the form of the upper
surface of the wash plate, including the presence and location of
apertures through the wash plate. Other adaptations involve the
shape and size of buffers arrayed on the base of the spin tub
around the periphery of the wash plate. An additional aspect
involves control methods for helping establish and maintain the
inverse toroidal rollover pattern and for beneficially extending
the range of operation of the inverse toroidal rollover to higher
water levels.
[0121] Exemplary wash plates are illustrated in FIGS. 4 to 6. FIGS.
3-5 illustrate one exemplary wash plate and FIGS. 3B and 4B
illustrate a second exemplary wash plate. As shown in FIGS. 4 and
4B, the wash plate rises from a generally circular periphery 400 to
a raised central hub 402. The upper surface of the wash plate is
broadly divided into alternating sectors. The alternating sectors
comprise raised sectors 404, or vanes, and intermediate lower
sectors 406. The lower sectors 406 are in the general form of a
shallow cone with increasing gradient toward the hub 402, so as to
be outwardly concave in radial cross-section. This can generally be
seen in FIG. 5. In the outer region of the wash plate the low
sectors 406 have a generally shallow gradient. In the region
closest to the hub 402 the low sectors 406 of the wash plate have a
higher gradient.
[0122] Each vane 404 has a form devised to enhance initiation and
maintenance of inverse toroidal rollover by encouraging the inward
dragging of laundry items by friction that are in contact with the
upper surface of the wash plate. This enhanced form includes three
major features. It is believed that each of these features
independently offers an improvement over prior forms. The
cumulative improvement offered by these features enables the
appliance to maintain inverse toroidal rollover at higher water
levels.
[0123] Each vane includes a divergent form wherein the width of the
vane increases moving from the hub to the periphery of the wash
plate. Further, each vane includes steep side walls 410 adjacent
the neighbouring low sectors of the wash plate.
[0124] The upper face of the outer portion 412 of each vane is
generally flat and the vane slopes down towards its outer periphery
414 to the level of the circular periphery 400 of the wash
plate.
[0125] Each steep side surface 410 of each vane is outwardly
concave. That is, the side surfaces of each vane diverge more
rapidly as the vane extends toward the outer periphery 400 of the
wash plate. Furthermore the opposing side surfaces 410 of adjacent
vanes, facing toward one another across the low sector 406 between
them, are each concave relative to the other and relative to a
radius extending from the centre of the wash plate. The outermost
portion of each sidewall hooks toward the adjacent vane so as to be
inclined in advance of a radial plane of the wash plate. The
inventors have found that such side surfaces 410 aid in dragging
the cloth items inward to the centre of the wash plate.
[0126] Rapid oscillation of the wash plate provides a centrifugal
pumping action inducing radially outward water flow. Such radial
flow above the wash plate may inhibit inward movement of the
laundry items and is detrimental to establishing the inverse
toroidal rollover pattern. The shape of the side surfaces 410 also
counteract the centrifugal pumping action of the wash plate as it
is oscillated. The inventors have found that the side surfaces 410
aid in achieving inverse toroidal roll-over at all water
levels.
[0127] In the region of the vane 404 nearer the hub 402 a ridge or
shoulder 420 rises from the general upper surface 412 of each vane.
The ridge or shoulder 420 has side faces 422 rising to a ridge. The
side faces of the shoulder 420 are less steep than the steep side
faces 410. When the wash plate is oscillated the angled side faces
422 of the shoulder 420 push on the laundry items near the hub 402
so as to impart a vertical component of force on them. Laundry
items near the centre of the wash plate are then thrust upward,
which aids inverse toroidal motion.
[0128] Preferably there are a plurality of such vanes 404, for
example 3, 4, 5 or 6 such vanes. Most preferably there are 3 or 4
such vanes.
[0129] Preferably the relative proportion of vane to plan area of
the wash plate, is between 0.33 and 0.66.
[0130] The shape and size of the washplate, including shoulder
area, along with basket capacity, and drive profiles used by the
controller, can impact motor temperatures. Accordingly these
factors need to be balanced according to the overall machine
requirements.
[0131] The inventors have found that by providing apertures 430
through the wash plate, radial outward water flow is induced below
the wash plate by the shape of the underside of the vanes 404, and
that this reduces or compensates for induced outward flow above the
wash plate. To enhance outward flow under the wash plate the
underside of the wash plate may include a plurality of spaced
radial ribs 432.
[0132] The base of the wash basket preferably includes an annular
series of flow channels extending from the upper side of the base
through to the lower side of the base. These channels 304 can be
seen in FIG. 3. Fluid may flow from apertures 430 and through these
flow channels to the region below the wash basket, between the wash
basket and outer tub. This fluid may flow from there out to the
wall of the outer tub, upward between the wall of the outer tub and
the cylindrical wall of the wash basket and then inward through the
perforations of the wash basket. The water flow carries lint into
the space between the wash basket and the tub. This lint becomes
caught up on the outside of the spin basket and tends not to
reenter the spin basket. The lint is then removed in the drain
operation subsequent to the wash cycle or is extracted by a lint
filter in a recirculation system.
[0133] Furthermore, the apertures 430 through the wash plate are
preferably provided adjacent each steep side wall 410 of each vane
as shown is FIG. 4, or between each steep side wall 410 as shown in
FIG. 4B. It is believed that the suction effect generated by the
pumping action under the wash plate draws laundry items against the
upper surface of the wash plate in these regions directly adjacent
the side walls 410 of the vanes. This enhances contact of the
laundry items with the side walls 410. It is believed that this
contact promotes the inverse toroidal rollover wash pattern. The
inventors consider that this effect is useful in promoting
maintenance of the inverse toroidal rollover wash pattern with
higher water levels, where laundry items otherwise tend to float
out of contact with the wash plate.
[0134] The apertures 430 may comprise small groupings or arrays of
circular or shaped holes adjacent the side walls of the vane, or
alternatively may comprise one or more elongate slots through the
wash plate in the region adjacent the vane. FIG. 7 illustrates an
example wash plate including arrays of short curved slots 700, or
arcuate holes, in place of circular holes. Sufficient apertures may
be provided in the regions of the low sectors adjacent the
sidewalls, and may therefore be excluded from regions of the low
sectors that are not close to the sidewalls of the vane.
[0135] To enhance the dragging effect of the laundry over the
surface of the oscillating wash plate the inventors consider it
advantageous for the spin basket to resist movement relative to
laundry in the lower portion of the spin basket. For this purpose a
series of tall buffers was proposed in U.S. Pat. No. 6,212,722. The
present inventors now believe that smaller buffers that do not
interact with laundry that is well above the level of the wash
plate are preferable. A spin basket base member 300 including an
annular series of buffers 302 of preferred form is illustrated in
FIGS. 3 and 3B. The base member includes a hub portion 308 and a
periphery 306. With the wash plate in place the periphery 306 of
the base member 300 encloses the space between the outer edge of
the wash plate and the cylindrical wall of the wash basket. As seen
in FIG. 3 the preferred buffers have a very low profile. Each
buffer extends radially inward from the side wall of the spin
basket. Each buffer preferably has a height of less than 3 cm,
relative to the surrounding surface of the base member. Each buffer
has a flattened shape, being several times wider that its height.
Each buffer tapers as it extends in toward the wash plate.
[0136] The washer is capable of washing in two modes, a high
efficiency mode and a traditional deep fill mode. In high
efficiency mode the water to clothes ratio is typically less than
10 litres/kg. The traditional deep fill wash typically uses over 15
litres/kg. The two modes each have their benefits. The high
efficiency mode uses less water and the more concentrated detergent
solution gives excellent soil removal results for soluble soils.
The traditional mode uses more water but is better at removing
insoluble soils, such as sand and grass.
[0137] Wash performance in both modes requires achieving sufficient
turnover of the clothes. In the high efficiency mode, higher
contact with the wash plate due to lower water level means a
marriage between plate shape and plate movement can readily create
the inverse toroidal motion.
[0138] The preferred controller applies an initial wash plate drive
profile to initiate the inverse toroidal motion. The initial drive
profile is characterised by higher angular velocity and longer
stroke length to start the clothes movement. This movement is
subsequently maintained by a maintenance drive profile with lower
angular velocity and stroke length. Many drive systems are possible
for controlling wash plate drive profiles. One example is described
in U.S. Pat. No. 5,398,298.
[0139] The initial drive profile is varied according to load size.
The profile is more vigorous for larger load sizes. The load size
is determined from the amount of water required to float the wash
basket. The controller chooses the profile from the bowl float
level.
[0140] Preferably the maintenance drive profile is also varied
according to load size. Again the profile is more vigorous for
larger load sizes.
[0141] By way of example in the preferred embodiment of the present
invention the preferred controller can adaptively adjust the drive
profile from stroke to stroke to try and maintain a drive profile
of certain measured characteristics. An example drive profile is
illustrated in FIG. 8. The idealised profile is represented by the
solid line. The profile achieved using the control methods
described in U.S. Pat. No. 5,398,298 is illustrated by the dot-dash
line. The profile includes a ramp where the wash plate speed
increases approximately linearly. This ramp is followed by a
plateau period. After the plateau period the wash plate and motor
coast to a stop. The stroke is then repeated in the reverse
direction. The measured characteristics are plateau speed, ramp
time and plateau time. A more vigorous profile is characterised by
greater energy input. In the measured characteristics this may be
indicated by higher target plateau speed and reduced target ramp
time while maintaining an overall stroke duration or angular stroke
length.
[0142] For example in a test machine the inventors have found the
following values for the measured characteristics to provide
acceptable results: TABLE-US-00001 SMALL LOADS Initial Profile
Maintenance Profile Load Ramp Plateau Ramp Plateau Size Speed Time
Time Speed Time Time 1 kg 85 332 500 77 321 400 2 kg 89 299 500 80
299 400 3 kg 95 255 500 86 270 400
[0143] TABLE-US-00002 MEDIUM LOADS Initial Profile Maintenance
Profile Load Ramp Plateau Ramp Plateau Size Speed Time Time Speed
Time Time 3 kg 91 270 375 87 294 275 3.7 kg 96 255 400 91 284 300
5.0 kg 105 248 412 99 277 325
[0144] TABLE-US-00003 LARGE LOADS Initial Profile Maintenance
Profile Load Ramp Plateau Ramp Plateau Size Speed Time Time Speed
Time Time 5.5 kg 120 228 462 108 262 362 6.5 kg 128 216 488 113 257
375 7.0 kg 130 208 500 116 252 387
[0145] The preferred controller operates an adaptive control where
the rate of increase in an applied motor voltage, a point of
cutting off this rate of increase, and a period of subsequent
steady voltage, are each varied from stroke to stroke based on
feedback of the resulting measured characteristics of previous
strokes. These adjustments may be made in accordance with the
methods set out in U.S. Pat. No. 5,398,298.
[0146] Acceptable wash performance is considered a compromise
between achieving regular inverse toroidal turnover of a wash load
within the spin basket and wear and tear associated with wash
profiles that are too vigorous (and speeds that are too high) or
entanglement (angular strokes that are too long).
[0147] In the preferred implementation each of the target measured
characteristics for the initial profile is set according to the
size of the wash load. The target measured characteristics are also
set for the maintenance profile according to the load size. The
size of the wash load may be measured in a number of ways known to
persons skilled in the art. In the implementation preferred by the
inventors the size of the wash load is determined from the level of
water in the tub, measured by a water level sensor of any known
type, at the water level when the spin basket floats and becomes
disconnected from the motor drive shaft. This disconnection may be
ascertained by monitoring changes in motor performance which
indicate that the motor is no longer directly driving rotation of
the spin basket.
[0148] The inventors have ascertained that these target
characteristics of their preferred initial drive profiles and
maintenance drive profiles can each be modelled as a curve or
series of curves. Accordingly, preferred values for use by the
microcontroller may be read from lookup tables or derived from
appropriate formulae.
[0149] In the traditional deep fill mode there is less contact with
the plate. The inverse toroidal laundry movement is started at a
low water level preferably the same level as the high efficiency
mode using the initial drive profile. However, rather than backing
off into the maintenance profile once the inverse toroidal motion
is established, for the traditional wash, the controller continues
the vigorous profile while continuing to add water.
[0150] To initiate inverse toroidal motion the initial drive
profile is preferably applied for from one to three minutes. The
maintenance profile is generally sufficient to maintain the inverse
toroidal motion once the motion has been established. This reduced
vigour profile is more suitable for general wash action on the
laundry load without excessive wear.
[0151] However the inverse toroidal motion may be lost, for example
due to unusual load distribution or entanglement of laundry items.
Accordingly, in the preferred embodiment of the invention the
initial, or a similar vigorous profile, is applied for short
periods intermittently in the wash cycle.
[0152] The preferred laundry washing machine implementing the
present invention includes the capacity to circulate wash liquor
from the lower portion of the wash tub to pour or spray the wash
liquor onto the laundry load from a location above the laundry
load. For example a conduit may lead from the lower portion of the
tub to a spray nozzle overhanging the wash basket at the upper edge
of the tub. A lower end of the conduit may be supplied with wash
liquor from the lower portion of the tub by a pump. The pump may be
a separate recirculating pump, or may be the drain pump, with a
diverter valve selectively supplying wash liquor to a drain hose,
or to the recirculation conduit.
[0153] In the case of this preferred laundry device it is preferred
that the inverse toroidal rollover wash pattern is established
after an initial period of circulating wash liquor without
agitation.
[0154] This period may include the period prior to there being
sufficient wash liquid to establish inverse toroidal rollover. For
example, in the most preferred machine including floating
disconnection between the spin basket and drive shaft, circulation
can occur in the period before disconnection. The period of
circulation without agitation may go on beyond this initial float
period.
[0155] According to a further aspect of the present invention, in a
preferred machine with recirculation of wash liquor, the
recirculation may be activated during the inverse toroidal rollover
wash pattern. The recirculation may be active during establishment
of rollover or during maintenance of rollover. In some
circumstances the inventors prefer to intermittently activate
recirculation during maintenance of toroidal rollover. They
consider that this draws water from generally below the wash load
and applies this wash liquor to generally above the wash load. This
encourages contact between the laundry items and the wash plate.
This may be particularly effective in conjunction with the
apertures through the wash plate, as this circulation liquid is
drawn from wash liquid beneath the spin basket, and this liquid has
generally passed through the apertures of the wash plate. The
inventors further consider that this may be particularly beneficial
in the case of increased water levels, where transfer of wash
liquid from below to above the laundry will discourage or
counteract floating.
[0156] The curving steep side walls and raised shoulders of the
wash plate vanes create enough inward and then upward movement to
keep the inverse toroidal motion going even when there is reduced
contact between the clothes and the wash plate.
[0157] In summary, wash plate and drive profile design have created
a wash system that means both high efficiency and traditional
washing modes are possible in the one machine.
* * * * *