[0001] The present invention relates to a drum structure for a tumble dryer and to a tumble
dryer, particularly for domestic use, which provides to dry laundry housed in a laundry
drum, by rotating the laundry drum and generating a drying air flow through the laundry
drum.
[0002] In a closed drying circuit with an electrical resistor or heat pump, the hot, dry
drying air is conveyed into the laundry drum, where, passing through the wet laundry,
it causes the evaporation of the water contained in the fabrics. After leaving the
laundry drum, the moisture-laden drying air passes through a heat exchanger where
it is cooled in order to extract the moisture from it through condensation. The dehumidified
drying air is then suctioned again by the fan, heated and directed into the laundry
drum.
[0003] Tumble dryers are known in which the laundry drum comprises a rear wall (sometimes
called rear flange) perforated to allow the entry of drying air, a circumferential
side wall (typically non-perforated) and a front edge or an annular front wall which
delimits a front opening of the laundry drum for the insertion and extraction of the
laundry into and from the laundry drum, and for the exiting of the drying air flow
from the laundry drum after passing through and lapping the laundry, absorbing the
moisture therefrom. The rear, side and front walls of the drum together form a substantially
rigid hollow body, with a rotating body geometry.
[0004] It is also known to support the laundry drum pivotally about a rotation axis, which
is typically a central axis of the geometry of the laundry drum. The pivoting support
can be cantilevered by means of a drive hub rigidly connected to the rear wall of
the laundry drum and by resting the laundry drum on a plurality of support rollers
on a front side of the laundry drum.
[0005] To rotate the drum about the rotation axis, it is known to provide an electric motor
with a transmission, for example a belt transmission between the electric motor and
the drive hub or between the motor and the side wall of the laundry drum or, alternatively,
an electric motor whose rotor is directly coupled to the rear wall of the laundry
drum to transmit the rotary motion thereto.
[0006] It is known for the laundry drum to be made of stainless steel sheet and it has also
been proposed for at least part of the laundry drum to be made of plastic material.
[0007] As an alternative to the traditional concept of a rigid pivoting drum, it has also
been proposed to create a laundry compartment using a flexible band-shaped side wall,
guided and moved along a closed, non-circular path, so as to delimit a space for containing
the laundry and moving the laundry itself. In this case, the rear and front walls
delimiting the laundry compartment do not move in unison together with the band-shaped
side wall.
[0008] Due to the arrangement of the drying circuit components, typically radially externally
and centrally or laterally below the laundry drum, the ventilation duct that guides
the drying air flow to the perforated rear wall extends from a radially external side
of the laundry drum along a rear side of the laundry drum, and parallel to the rear
wall, and opens in an axial direction towards the inside of the laundry drum.
[0009] The resulting air path thus has a direction orthogonal to the rotation axis of the
laundry drum before being diverted by 90° through the perforation of the rear wall
of the laundry drum inside it. This results in a non-uniform flow rate of the drying
air flow as it enters the laundry drum. In particular, in a region at the bottom of
the ventilation duct, the air accumulation pressure (and thus the inlet air flow rate)
is greater than in the regions further upstream.
[0010] Moreover, the rotation of the laundry drum and its rear wall generates a radial fan
effect on the air flow, diverting part of it radially towards the outside, while ideally
the laundry to be dried should spin inside the laundry drum and be lapped and crossed
by an air flow that is as axial and uniform as possible.
[0011] Further, the rotating rear wall, crossed by the air flow, is a source of unwanted
noise.
[0012] Laundry drums made of sheet steel, both galvanized or stainless, manufactured by
pressing operations, mechanical expansion and joining of components by bending the
edges, are undesirably heavy, require expensive raw materials of uncertain supply,
and complex and expensive manufacturing processes.
[0013] Plastic laundry drums, made by injection molding and subsequent joining of components
through gluing and ultrasonic welding, are made of a less expensive and lighter material.
However, the joining of multiple components (side wall and perforated rear wall) made
separately through injection molding, implies undesirable manufacturing costs and
complexity.
[0014] The aim of the present invention is thus to provide a laundry drum structure for
a tumble dryer and a tumble dryer, having characteristics such to overcome at least
some of the drawbacks of the prior art.
[0015] Particular aims of the invention are to:
- increase the construction simplicity of the laundry drum structure, and reduce the
number of individual components to be joined together by welding, gluing and edge
bending,
- reduce the risk of corrosion of the laundry drum structure and ventilation duct,
- reduce steel sheet supply uncertainties,
- reduce the manufacturing costs of the laundry drum structure,
- increase the energy performance of the tumble dryer by improving the inlet flow conditions
into the laundry drum,
- increase the possibilities to influence and design the inlet flow conditions into
the laundry drum through the rear wall,
- reduce the noise of the drum structure and the tumble dryer during operation.
Summary of the invention
[0016] These and other objects are achieved by a laundry drum structure for a tumble dryer
of the type comprising a laundry compartment for containing the laundry to be dried
and a drying circuit which conveys a drying air flow through the laundry compartment,
in which the drum structure comprises:
- a pivoting side wall made of plastic material, circumferentially extended about a
rotation axis (which also constitutes a central axis of the side wall) and having
an annular rear edge delimiting a rear opening, as well as an annular front edge delimiting
a front opening,
- a stationary rear wall, transverse to the rotation axis and forming:
- a) an annular receiving seat which engages the rear edge of the side wall pivotally
about the rotation axis and so that the stationary rear wall closes the rear opening
of the pivoting side wall, and
- b) a perforation to allow the drying air flow to pass through the stationary rear
wall in the laundry compartment delimited by the pivoting side wall and the stationary
rear wall,
- a plurality of rear support rollers pivotally supported by a stationary rear support
portion, and a plurality of front support rollers pivotally supported by a stationary
front support portion,
wherein the side wall forms a rear support track resting on the rear support rollers
and a front support track resting on the front support rollers, so as to support the
side wall pivotally about the rotation axis with respect to the stationary rear wall
and with respect to the rear and front stationary support portions.
[0017] Thanks to the material separation of the side wall from the rear wall, the plastic
side wall can be manufactured using a single injection or blow molding process, without
additional joining, gluing or welding of components, significantly simplifying manufacturing
and reducing the cost of the drum structure.
[0018] Thanks to collaboration and combination of the pivoting side wall with the stationary
rear wall, the perforation for the entry of the drying air into the laundry compartment
remains stationary, eliminating the radial fan effect, reducing noise, and allowing
configuration and distribution of the perforation openings aimed at directing the
air flow and distributing the flow rate as desired.
[0019] Due to the relative movement between the stationary rear wall and the pivoting side
wall, the tendency for part of the laundry to remain stationary in the corner between
the side wall and the rear wall is also reduced and a further component of movement
and opening of the items of laundry inside the laundry compartment is generated.
[0020] Thanks to the provision of two distinct support tracks, front and rear, and two groups
of support rollers, front and rear, the invention obviates the need to provide a cantilever
support for the laundry drum (meaning the set of rear and lateral walls) via a support
shaft or hub and the relative fastenings and reinforcements to the rear wall. The
absence of these components (present in embodiments of the prior art) also allows
perforation openings to be provided also in the central region (otherwise occupied)
of the rear wall.
Brief description of the drawings
[0021] In order to better understand the invention and appreciate the advantages thereof,
some non-limiting embodiments will be described below with reference to the drawings,
in which:
Figure 1 is a diagrammatic side view according to a vertical section plane, of a tumble
dryer showing the drying air flow and a drum structure according to an embodiment
of the invention;
Figure 2 is a diagrammatic top view according to a horizontal section plane, of the
tumble dryer in Figure 1 showing the drying air flow (continuous arrows) and a cooling
air flow (dashed arrows);
Figure 3 is a sectional view of a drum structure for a tumble dryer according to an
embodiment;
Figure 4 shows a side wall of the drum structure in a sectional view according to
a radial section plane, according to an embodiment;
Figure 5 shows a side wall of the drum structure in a sectional view according to
a section plane orthogonal to a rotation axis of the side wall, according to an embodiment;
Figure 6 is a front view of a rear wall and a rear cover of the drum structure according
to an embodiment,
Figure 7 shows a detail of a front gasket of the drum structure according to an embodiment,
Figure 8 is a diagrammatic view of a closed drying circuit with heat pump of a tumble
dryer according to the invention,
Figure 9 is a diagrammatic view of a closed drying circuit with an electric resistor
of a tumble dryer according to the invention.
Detailed description of embodiments
[0022] With reference to the figures, a tumble dryer 1 comprises a housing 2 which accommodates
a laundry compartment 3 delimited by a drum structure 4, for containing the laundry
to be dried, a motor 5 for moving the laundry in the laundry compartment 3, and a
drying circuit 6 which conveys a drying air flow 15 through the laundry compartment
3.
[0023] The drum structure 4 comprises:
- a pivoting side wall 7 made of plastic material, extending circumferentially (but
not necessarily with a precise circular shape) with respect to a rotation axis 8 (which
also constitutes a central axis of the side wall 7) and having an annular rear edge
9 delimiting a rear opening 10, as well as an annular front edge 11 delimiting a front
opening 12,
- a stationary rear wall 13, transverse or orthogonal to the rotation axis 8 and forming:
- a) an annular receiving seat 14 which engages the rear edge 9 of the side wall 7 pivotally
about the rotation axis 8 and so that the stationary rear wall 13 closes the rear
opening 10 of the pivoting side wall 7, and
- b) a perforation 22 to allow the drying air flow 15 to pass through the stationary
rear wall 13 in the laundry compartment 3 delimited by the pivoting side wall 7 and
the stationary rear wall 13,
- a plurality of rear support rollers 16 pivotally supported by a stationary rear support
portion 17, and a plurality of front support rollers 18 pivotally supported by a stationary
front support portion 19,
wherein the side wall 7 forms a rear support track 20 resting on the rear support
rollers 16 and a front support track 21 resting on the front support rollers 18, so
as to support the side wall 7 pivotally about the rotation axis 8 with respect to
the stationary rear wall 13 and with respect to the rear 17 and front 19 stationary
support portions.
[0024] Thanks to the material separation of the side wall 7 from the rear wall 13, the plastic
side wall 7 can be manufactured using a single injection or blow molding process,
without additional joining, gluing or welding of components, significantly simplifying
manufacturing and reducing the cost of the drum structure 4.
[0025] Thanks to the collaboration and combination of the pivoting side wall 7 with the
stationary rear wall 13, which together form a laundry drum, the perforation 22 for
the entry of the drying air 15 into the laundry compartment 3 remains stationary,
eliminating the radial fan effect and reducing noise and allowing a configuration
and distribution of the perforation openings 22 aimed at directing the air flow 15
and distributing the flow rate as desired.
[0026] Due to the relative movement between the stationary rear wall 13 and the pivoting
side wall 7, the tendency for part of the laundry to remain stationary in the corner
between the side wall 7 and the rear wall 13 is also reduced and a further component
of movement and opening of the items of laundry inside the laundry compartment 3 is
generated.
[0027] Thanks to the provision of two distinct support tracks, front 21 and rear 20, and
two groups of support rollers, front 18 and rear 16, the invention obviates the need
to provide a cantilever support for the laundry drum (meaning the set of rear 13 and
lateral 7 walls) via a support shaft or hub and the relative fastenings and reinforcements
to the rear wall. The absence of these components (present in embodiments of the prior
art) also allows perforation openings 22 to be provided even in the central region
(otherwise occupied) of the rear wall 13.
Detailed description of the rear wall 13
[0028] According to an embodiment, the rear wall 13 is made of plastic material, advantageously
fiber-reinforced plastic material, and preferably formed by injection molding. This
further reduces the material and manufacturing costs of the drum structure 4, allowing,
for example, the rear wall to be made by a single injection molding process during
which the perforation openings 22 are also made without wasting material and without
any shearing or punching processes, as well as the annular receiving seat 14.
[0029] The rear wall 13 comprises a circular bottom portion 23, e.g., concave towards the
inside of the laundry compartment 3 or substantially flat, delimited by the annular
receiving seat 14 and in which bottom portion the entire perforation 22 is formed.
[0030] The bottom portion 23 is imaginarily divided by a first horizontal diameter 24 and
a second vertical diameter 25, perpendicular to each other and radial with respect
to the rotation axis 8, into:
- a first left upper quadrant 26_1 (seen from the inside of the laundry compartment
3),
- a second right upper quadrant 26_2 (seen from the inside of the laundry compartment
3),
- a third left lower quadrant 26_3 (seen from the inside of the laundry compartment
3),
- a fourth right lower quadrant 26_4 (seen from the inside of the laundry compartment
3).
[0031] According to an embodiment, a total "upper" opening area of the perforation 22 in
the first quadrant 26_1 and second quadrant 26_2 put together is smaller than a total
"lower" opening area of the perforation 22 in the third quadrant 26_3 and fourth quadrant
26_4 put together, in particular when the drying air 15 in the drying circuit 6 is
conveyed from below underneath the side wall 7 upwards to the rear wall 13.
[0032] Alternatively, a total "upper" opening area of the perforation 22 in the first quadrant
26_1 and second quadrant 26_2 put together is greater than a total "lower" opening
area of the perforation 22 in the third quadrant 26_3 and fourth quadrant 26_4 put
together, in particular when the drying air 15 in the drying circuit 6 is conveyed
from above over the side wall 7 downwards to the rear wall 13.
[0033] This makes it possible to compensate for the influence of the arrival direction of
the air flow 15 upwards to the rear wall 13 and to make the air flow 15 in the laundry
compartment 3 uniform.
[0034] Likewise, according to an embodiment, a total "left" opening area of the perforation
22 in the first quadrant 26_1 and third quadrant 26_3 put together is smaller than
a total "right" opening area of the perforation 22 in the second quadrant 26_2 and
fourth quadrant 26_4 put together, in particular when the drying air 15 in the drying
circuit 6 is conveyed from the right side of the side wall 7 to the left (again seen
from inside the laundry compartment 3) to the rear wall 13.
[0035] Alternatively, according to an embodiment, a total "left" opening area of the perforation
22 in the first quadrant 26_1 and third quadrant 26_3 put together is greater than
a total "right" opening area of the perforation 22 in the second quadrant 26_2 and
fourth quadrant 26_4 put together, in particular when the drying air 15 in the drying
circuit 6 is conveyed from the left side of the side wall 7 to the right (seen from
inside the laundry compartment 3) to the rear wall 13.
[0036] According to an embodiment, the annular receiving seat 14 comprises an annular groove
27 facing the annular rear edge 9 and forming and accommodating a front gasket 28
in sliding contact (with low friction) with the rear annular edge 9. The front gasket
28 has the function of sealing the rotating coupling of the air circuit, consisting
of the side wall 7 and stationary wall 13, and may comprise an elastically yielding
base (for generating an elastic contact preload and compensating for geometric tolerances),
fastened to the stationary wall 13, and which supports a sealing gasket, in frontal
contact with the side wall 7 and made of a low-friction material, for example wool-based
felt or synthetic fibers.
[0037] The annular groove 27 is delimited by two walls 29 which flank the rear annular edge
9 and stabilize its circular shape in case of unwanted deformations due to uneven
and unbalanced loads of laundry.
[0038] According to an embodiment, the rear support portion 17 is directly formed by the
rear wall 13 and, thus the rear support rollers 16 are directly supported by the rear
wall 13. The rear support rollers 16 comprise two rollers arranged in the same rear
support plane 30 orthogonal to the rotation axis 8 in a symmetrical lower-side position
with respect to a vertical plane radial to the rotation axis 8.
[0039] According to an embodiment, the drum structure 4 comprises a rear cover 31 made of
a plastic material, e.g. fiber-reinforced plastic material, connected to the rear
wall 13 on a rear side of the drum structure 4, opposite to the side wall 7, and together
with the rear wall 13 defining a rear air channel 32 of the drying circuit 6 in communication
with the perforation 22 of the rear wall 13.
[0040] The fact that the rear air channel 32 is made of plastic material further reduces
the weight and costs for the material and for manufacturing the drum structure 4,
reduces risks of corrosion and facilitates the assembly of the components exclusively
made of synthetic material.
[0041] According to embodiments, the rear cover 32 may be mounted on the rear wall by:
- shape coupling (bayonet or threaded type, or by mutual insertion of special coupling
guides formed on the rear cover 32 and on the rear wall 13), or
- interference coupling (e.g., by fastening clips, snap coupling or screws), or
- gluing or welding, e.g., ultrasonic.
[0042] According to an embodiment, the rear cover 32 is formed in one piece with the rear
wall, by injection molding.
[0043] According to an embodiment, the rear cover 32 has:
- a half-shell shape 33 defining an internal cavity intended to face the rear wall 13,
or
- a first tubular portion 34 and a second half-shell-shaped portion 33 defining an internal
cavity intended to face the rear wall 13.
Detailed description of the side wall 7
[0044] According to an embodiment, the side wall 7 forms one or more dragging paddles 35
protruding towards the inside of the laundry compartment 3 and formed in one piece
with the side wall 7, e.g., by injection molding or blow molding. This reduces the
number of individual components to be assembled and the manufacturing costs.
[0045] The one or more dragging paddles 35 are formed by local recesses of the side wall
7 which form concave cavities on the radially outer surface of the side wall 7 and
corresponding convex protrusions on the radially inner surface of the side wall 7.
[0046] Advantageously, the one or more dragging paddles 35 do not extend up to the rear
edge 9 and do not extend up to the front edge 11, so as not to negatively interfere
with the closing function of the laundry compartment 3 on the rear and/or front sides
of the side wall 7.
[0047] With further advantage, the one or more dragging paddles 35 extend into a central
region of the axial extension of the side wall 7, between the front support track
21 and the rear support track 20, without however reaching the front 21 and rear 20
support tracks, so as not to negatively interfere with the rolling of the front 18
and rear 16 support rollers.
[0048] According to an embodiment, the dragging paddles 35 (and/or the entire inner surface
of the side wall 7 in the extension region of the dragging paddles 35) have a shape
that tapers (or has converging draft angles), going radially towards the rotation
axis 8. This allows the side wall 7 to be manufactured particularly quickly and cheaply,
by injection molding with the aid of an internal mold radially retractable towards
the inside.
[0049] Likewise, according to an embodiment, the dragging paddles (and/or the entire inner
surface of the side wall 7 in the extension region of the dragging paddles 35) have
a shape that widens (or has diverging draft angles), going radially outwards. This
allows the side wall 7 to be manufactured particularly quickly and cheaply, by injection
molding with the aid of an external mold that can be radially opened/retracted towards
the outside.
[0050] In this context, it is particularly advantageous that the side wall 7 forms exactly
two dragging paddles 37 in diametrically opposite positions with respect to a central
radial plane 36 (preferably of symmetry) of the side wall 7. This makes it possible
to use only two opposing external mold "cheeks" that are closable and openable in
a direction orthogonal to the central radial plane 36.
[0051] According to an embodiment, the side wall 7 forms a cylindrical pulley seat 37, facing
radially outwards and delimited bilaterally by two annular parallel ribs 38 for securely
accommodating a belt 39 for the transmission of a rotary motion from the electric
motor 5 to the side wall 7. The pulley seat 37 and the two annular parallel ribs 38
are also made of plastic material and formed in one piece with the side wall 7. This
reduces the number of individual components to be assembled and the manufacturing
costs.
[0052] According to an alternative embodiment, the side wall 7 can form a ring gear (not
shown in the figures) adapted to be engaged by a gear for the transmission of a rotary
motion from the electric motor 5 to the side wall 7. The ring gear is also made of
plastic material and formed in one piece with the side wall 7.
[0053] According to an embodiment, the rear support track 20 and the front support track
21 have a circular cylindrical shape, whereas the side wall 7 has a non-cylindrical
shape, e.g. a shape with one or more frustoconical segments and/or one or more steps
formed between neighboring frustoconical and/or cylindrical segments.
[0054] The rear 20 and front 21 support tracks with a locally cylindrical shape in the overall
non-cylindrical side wall 7 create thickened sections of material and/or with local
curvature or angulation which act as stiffening ribs of the side wall 7 (compensating
for the reduced stiffness of the plastic material with respect to the stiffness of
steel sheet drums) and can be easily made by injection molding.
[0055] According to an embodiment, the drum structure 4 or the tumble dryer 1 comprises
a stationary front wall 40, transverse or orthogonal to the rotation axis 8 and forming
an annular front receiving seat 41 which engages the front edge 11 of the side wall
7 pivotally about the rotation axis 8 without obstructing the front opening 12 of
the pivoting side wall 7.
[0056] According to an embodiment, the front receiving seat 41 comprises an annular groove
42 facing the annular rear edge 11 and forming or accommodating a (further) front
gasket 28 in sliding contact (with low friction) with the front annular edge 11. The
annular groove 42 is delimited by two walls 43 which flank the rear annular edge 11
and stabilize its circular shape in case of unwanted deformations due to uneven and
unbalanced loads of laundry.
[0057] According to an embodiment, the front support portion 19 is directly formed by the
stationary front wall 40 and, thus the front support rollers 18 are directly supported
by the front wall 40. The front support rollers 18 comprise two rollers arranged in
the same front support plane 44 orthogonal to the rotation axis 8 in a symmetrical
lower-side position with respect to a vertical plane radial to the rotation axis 8.
[0058] In a known way, the front opening 12 is openable and closable by a front door 45
of the tumble dryer 1.
Description of the tumble dryer 1
[0059] The invention described up to now is advantageously implementable in tumble dryers
1, e.g. of the closed air circuit with electric resistor or heat pump type.
[0060] In the embodiment with a closed drying circuit 6 with electric resistor (Figure 9),
the drying air 15 is conveyed by means of a fan 46 (actuated by a motor 47), heated
by means of an electric resistor 48 and directed into the laundry compartment 3, where,
as it passes through the wet laundry, it causes the water contained in the fabrics
to evaporate. After leaving the laundry compartment 3, the drying air 15 laden with
moisture passes through a heat exchanger 49, where it is cooled, for example, by means
of a flow of cold water or fresh air 50 conveyed by means of a second fan (operated
preferably but not necessarily by means of the same electric motor 47), so as to remove
the moisture therefrom by means of condensation. The condensate is collected in a
removable condensation container or discharged by a discharge pump and/or together
with the cooling water. The dehumidified drying air 15 is then suctioned again by
the fan 46, heated by means of the electrical resistor 48 and re-directed into the
laundry compartment 3. Upstream of the heat exchanger 49 (in which the moisture is
removed) a lint filter 51 is arranged.
[0061] In the embodiment with a closed drying circuit 6 with heat pump (Figure 8), upon
exiting the laundry compartment 3, the drying air 15 laden with moisture passes through
a first (cold) heat exchanger 52 formed by an evaporator 52' of the heat pump, where
the air 15 is cooled so as to remove the moisture therefrom by condensation. Also
in this case the condensate may be collected in a removable condensation container
or discharged, e.g. by a discharge pump. The dehumidified and cooled drying air 15
is then directed into a second (hot) heat exchanger formed by a heat pump condenser
53, where the air is heated. The dehumidified and heated air is suctioned by means
of a fan 46 and directed again into the laundry compartment 3 so as to continue extracting
moisture from the laundry.
[0062] The heat pump further comprises a compressor 54 which suctions a coolant fluid through
the evaporator 52', where the fluid itself evaporates at low pressure (absorbing the
heat of the drying air 15), compresses the coolant fluid and pushes it into the condenser
53 where the compressed and heated coolant fluid condenses and cools at high pressure
(releasing its heat to the drying air 15). After the condenser 53, the coolant fluid
passes through an expansion valve 55 which reduces the pressure of the fluid with
consequent lowering of the temperature and, then, returns again into the evaporator
52', restarting the cycle. Also in the embodiment with a heat pump, upstream of the
first heat exchanger 52 (evaporator 52'), a lint filter 51 is arranged.
[0063] The tumble dryer 1 comprises an electronic control system 56 in signal connection
with and controlling the electric power supply of the individual functional groups
of the tumble dryer 1 (Figures 8 and 9).
Reference numerals
[0064]
tumble dryer 1
housing 2
laundry compartment 3
drum structure 4
motor 5
drying circuit 6
side wall 7
rotation axis 8
annular rear edge 9
rear opening 10
annular front edge 11
front opening 12
rear wall 13
annular receiving seat 14
drying air flow 15
rear support rollers 16
rear support portion 17
front support rollers 18
front support portion 19
rear support track 20
front support track 21
perforation 22
bottom portion 23
first horizontal diameter 24
second vertical diameter 25
first left upper quadrant 26_1
second right upper quadrant 26_2
third left lower quadrant 26_3
fourth right lower quadrant 26_4
annular groove 27
front gasket 28
walls 29
rear support plane 30
rear cover 31
rear air channel 32
half-shell 33
tubular portion 34
dragging paddles 35
central radial plane 36
pulley seat 37
parallel ribs 38
belt 39
stationary front wall 40
front receiving seat 41
annular groove 42
walls 43
front support plane 44
front door 45
fan 46
motor 47
electrical resistor 48
heat exchanger 49
fresh air flow 50
lint filter 51
first heat exchanger 52
evaporator 52'
second heat exchanger, condenser 53
compressor 54
expansion valve 55
control system 56
1. A drum structure (4) for a tumble dryer (1) of the type comprising a laundry compartment
(3) for containing the laundry to be dried and a drying circuit (6) which conveys
a drying air flow (15) through the laundry compartment (3), wherein the drum structure
(4) comprises:
- a pivoting side wall (7) made of a plastic material, being tubular in shape, extending
circumferentially about a rotation axis (8) and having an annular rear edge (9) delimiting
a rear opening (10), as well as an annular front edge (11) delimiting a front opening
(12),
- a stationary rear wall (13), transverse to the rotation axis (8) and forming:
- an annular receiving seat (14) which engages the rear edge (9) of the side wall
(7) pivotally about the rotation axis (8) and so that the stationary rear wall (13)
closes the rear opening (10) of the pivoting side wall (7), and
- a perforation (22) to allow the drying air flow (15) to pass through the stationary
rear wall (13) in the laundry compartment (3) delimited by the pivoting side wall
(7) and the stationary rear wall (13),
- a plurality of rear support rollers (16) pivotally supported by a stationary rear
support portion (17), and a plurality of front support rollers (18) pivotally supported
by a stationary front support portion (19),
wherein the side wall (7) forms a rear support track (20) resting on the rear support
rollers (16) and a front support track (21) resting on the front support rollers (18),
so as to support the side wall (7) pivotally about the rotation axis (8) with respect
to the stationary rear wall (13) and with respect to the rear (17) and front (19)
stationary support portions.
2. A drum structure (4) according to claim 1, wherein the rear wall (13) is made of a
plastic material.
3. A drum structure (4) according to claim 1 or 2, wherein the rear wall (13) comprises
a circular bottom portion (23), delimited by the annular receiving seat (14) and in
which bottom portion the entire perforation (22) is formed,
wherein the bottom portion (23) is imaginatively divided by a first horizontal diameter
(24) and a second vertical diameter (25), perpendicular to each other and radial with
respect to the rotation axis (8), into:
- a first left upper quadrant (26_1),
- a second right upper quadrant (26_2),
- a third left lower quadrant (26_3),
- a fourth right lower quadrant (26_4),
seen from the inside of the laundry compartment (3),
wherein a permeability of the perforation (22) expressed as the ratio between the
passage opening area and the total quadrant area in at least one or more of the first,
second, third, and fourth quadrants differs from the permeability of the perforation
(22) in at least another of the first, second, third, and fourth quadrants.
4. A drum structure (4) according to claim 3, comprising a part of the drying circuit
(6) which guides the drying air (15) from below, underneath the side wall (7), upwards
to the rear wall (13),
wherein a total "upper" opening area of the perforation (22) in the first quadrant
(26_1) and in the second quadrant (26_2) put together is smaller than a total "lower"
opening area of the perforation (22) in the third quadrant (26_3) and in the fourth
quadrant (26_4) put together.
5. A drum structure (4) according to claim 3, comprising a part of the drying circuit
(6) which guides the drying air (15) from above the side wall (7) downwards to the
rear wall (13), wherein a total "upper" opening area of the perforation (22) in the
first quadrant (26_1) and in the second quadrant (26_2) put together is greater than
a total "lower" opening area of the perforation (22) in the third quadrant (26_3)
and in the fourth quadrant (26_4) put together.
6. A drum structure (4) according to claim 3, 4 or 5, comprising a part of the drying
circuit (6) which guides the drying air (15) from the right side of the side wall
(7) towards the left, seen from the inside of the laundry compartment (3), to the
rear wall (13),
wherein a total "left side" opening area of the perforation (22) in the first quadrant
(26_1) and in the third quadrant (26_3) put together is smaller than a total "right
side" opening area of the perforation (22) in the second quadrant (26_2) and in the
fourth quadrant (26_4) put together.
7. A drum structure (4) according to claim 3, 4 or 5, comprising a part of the drying
circuit (6) which guides the drying air (15) from the left side of the side wall (7)
towards the right, seen from the inside of the laundry compartment (3), to the rear
wall (13),
wherein a total "left side" opening area of the perforation (22) in the first quadrant
(26_1) and in the third quadrant (26_3) put together is greater than a total "right
side" opening area of the perforation (22) in the second quadrant (26_2) and in the
fourth quadrant (26_4) put together.
8. A drum structure (4) according to any one of the preceding claims, wherein the annular
receiving seat (14) comprises an annular groove (27) facing the annular rear edge
(9) and accommodating a front gasket (28) in sliding contact with the rear annular
edge (9).
9. A drum structure (4) according to any one of the preceding claims, wherein the rear
support portion (17) is formed directly by the rear wall (13) and the rear support
rollers (16) comprise two rollers arranged in a same rear support plane (30) orthogonal
to the rotation axis (8) in a symmetrical position with respect to a vertical plane
radial to the rotation axis (8).
10. A drum structure (4) according to any one of the preceding claims, comprising a rear
cover (31) made of a plastic material, connected to the rear wall (13) on a rear side
of the drum structure (4), opposite to the side wall (7), and together with the rear
wall (13) defining a rear air channel (32) of the drying circuit (6) in communication
with the perforation (22).
11. A drum structure (4) according to any one of the preceding claims, wherein the side
wall (7) forms one or more dragging paddles (35) protruding towards the inside of
the laundry compartment (3) and formed in one piece with the side wall (7).
12. A drum structure (4) according to claim 11, wherein one or more dragging paddles (35)
are formed by local recesses of the side wall (7) which form concave cavities on the
radially outer surface of the side wall (7) and corresponding convex protrusions on
the radially inner surface of the side wall (7).
13. A drum structure (4) according to claim 11 or 12,
wherein said one or more dragging paddles (35) extend into a central region of the
axial extension of the side wall (7), between the front support track (21) and the
rear support track (20), without however reaching the front (21) and rear (20) support
tracks, and/or.
wherein the one or more dragging paddles (35) have a shape that tapers going radially
towards the rotation axis (8), and the outer surface of the side wall (7) in the region
of the dragging paddles (35) has a shape that widens going radially outwards, and/or wherein the side wall (7) forms exactly two dragging paddles (37) in diametrically
opposite positions with respect to a central radial plane (36) of the side wall (7).
14. A drum structure (4) according to any one of the preceding claims, wherein the side
wall (7) forms a cylindrical pulley seat (37), facing radially outwards and delimited
bilaterally by two annular parallel ribs (38) for securely accommodating a belt (39)
for the transmission of a rotary motion from an electric motor (5) to the side wall
(7),
wherein said pulley seat (37) and the two annular parallel ribs (38) are made of a
plastic material and formed in one piece with the side wall (7).
15. A drum structure (4) according to any one of the preceding claims, wherein the rear
support track (20) and the front support track (21) have a circular cylindrical shape,
whereas the side wall (7) has a non-cylindrical shape, or a shape with one or more
frustoconical segments and/or one or more steps formed between adjacent frustoconical
and/or cylindrical segments.
16. A tumble dryer (1), comprising a drum structure (4) according to any one of the preceding
claims.