[0001] The present invention relates to a domestic appliance, in particular a domestic oven,
for the treatment of food products, preferentially for the thermal treatment of food
products.
[0002] Advantageously, the present invention also relates to a domestic appliance, preferentially
a domestic oven, having at least one centrifugal cooling fan.
[0003] There are known domestic appliances, such as domestic ovens, for the treatment of
food products. Such domestic appliances are known to comprise a main body having a
treatment cavity within which food products are retained during their treatment, a
main opening for accessing the treatment cavity, a door for selectively closing and
opening the main opening, an electronic compartment arranged above the treatment cavity
and containing electronic components and a cooling fan, e.g. a centrifugal cooling
fan, configured to generate a cooling stream for cooling the electronic components.
[0004] In more detail, some solutions foresee to also evacuate gases from the inner space
of the treatment cavity. Moreover, the cooling fan is configured to generate a gas
stream toward and through an outlet opening.
[0005] Even though the known centrifugal cooling fans work satisfyingly well, there is a
desire felt in the sector to improve the know centrifugal cooling fans, preferentially
so as to reduce the noise generated during operation of the centrifugal cooling fan.
[0006] According to the present invention, there is provided a centrifugal cooling fan for
a domestic appliance according to the independent claim 1.
[0007] Preferred non-limiting embodiments are claimed in the claims directly or indirectly
depending on the independent claim 1.
[0008] In addition, according to the present invention, there is provided a domestic appliance
according to any one of claims 13 to 15.
[0009] Additionally, according to the present invention there is provided a centrifugal
cooling fan for a domestic appliance comprising at least an impeller. The impeller
comprises a separation plate having a first face and a second face opposed to the
first face, a plurality of first blades axially extending from the first face of the
separation plate and a plurality of second blades axially extending from the second
face of the separation plate. Each first blade and each second blade comprise a trailing
edge and a leading edge and each trailing edge and/or each leading edge comprises
a serrated section. The plurality of first blades is misaligned with respect to the
plurality of second blades.
[0010] The Applicant has observed that the combination of the serrated sections and the
misalignment allows to efficiently reduce the noise, which is generated during operation
of the centrifugal cooling fan.
[0011] In particular, the impeller results in a uniform low-pressure distribution on the
first blades and the second blades. The asynchronous configuration helps to alternate
and reduce pressure spots.
[0012] Additionally, the configuration of the first blades and the second blades allows
to have higher flow velocities near the trailing edges of the blades, which again
allows to better distribute the pressure.
[0013] Moreover, the impeller provides nearly the same flow rate with lower rpm and lower
blade passing frequency compared to the state-of-the-art solutions, resulting in a
lower sound power and lower tonality.
[0014] Preferentially, each first blade may be interposed between two respective second
blades and each second blade may be interposed between two respective first blades.
[0015] Preferentially, the impeller may be configured to rotate about a rotation axis.
[0016] Preferentially, the first blades of the plurality of first blades may be equally
spaced about the rotation axis of the impeller. Additionally or alternatively, the
second blades of the plurality of second blades may be equally spaced about the rotation
axis.
[0017] More preferentially and with respect to the rotation axis, the respective trailing
edge of each first blade may be angularly displaced from the respective trailing edges
of the second blades and the respective trailing edge of each second blade may be
angularly displaced from the respective trailing edges of the first blades.
[0018] According to some possible non-limiting embodiments, the respective trailing edge
of each first blade may be arranged at a respective first angular position and the
respective trailing edge of each second blade may be arranged at a respective second
angular position with respect to the rotation axis.
[0019] Advantageously, the respective second angular positions are angularly displaced from
the respective first angular positions.
[0020] In this way, one obtains a very effective reduction in noise generation during operation
of the centrifugal cooling fan.
[0021] According to some possible non-limiting embodiments, each first blade and each second
blade may comprise a respective first end portion in contact with the separation plate
and a respective free end portion opposite to the first end portion.
[0022] According to some preferred non-limiting embodiments, the first blades and the second
blades radially protrude away from the separation plate.
[0023] According to such a solution it is possible to optimize the airflow generated by
the impeller.
[0024] Preferentially, the plurality of trailing edges of the first blades may define a
first circle of a first diameter and the plurality of trailing edges of the second
blades may define a second circle of a second diameter. An outer diameter of the separation
plate may be smaller than the first diameter and the second diameter.
[0025] Preferentially, the first diameter and the second diameter may equal one another.
[0026] Preferentially, the outer diameter of the separation plate is smaller than the first
diameter and the second diameter by at least a factor of 0,9, preferentially by at
least a factor of 0,8.
[0027] The Applicant has found that such a solution allows to obtain excellent air flow
during operation of the impeller.
[0028] According to some preferred non-limiting embodiments, the respective height of each
first blade and of each second blade increases towards the trailing edge and/or decreases
towards the center of the separation plate.
[0029] According to some preferred non-limiting embodiments, the centrifugal cooling fan
may comprise a fan housing having a seat and the impeller may be arranged within the
seat.
[0030] According to some preferred non-limiting embodiments, the impeller is formed as a
single piece, preferentially a single piece formed from a polymer, more preferentially
a single piece formed during a polymer molting process.
[0031] According to some preferred non-limiting embodiments, each serrated section may present
a sinusoidal shape. In this way, one optimizes the performance of the impeller by
keeping low noise levels.
[0032] According to an additional aspect, there is claimed a domestic appliance, preferentially
a domestic oven, for the thermal treatment of food products comprising the centrifugal
cooling fan.
[0033] According to some possible embodiments, the domestic appliance may further comprise
one or more electrical components arranged within an electronic compartment of the
domestic appliance. The centrifugal cooling fan may be configured to generate a cooling
air stream for cooling the one or more electrical components and to direct the air
out of an outlet opening of the domestic appliance.
[0034] According to some possible embodiments, the domestic appliance may further comprise
a treatment cavity for retaining the food product and having an opening for introducing
and/or removing the food product. The domestic appliance further comprises a door
for selectively closing and opening the aperture; wherein the door comprises a flow
path and the centrifugal cooling fan is configured to create an air flow through the
flow path; and/or
wherein the treatment cavity comprises at least one evacuation hole and the centrifugal
cooling fan is configured to evacuate fluids from the treatment cavity and to direct
the fluids out of an outlet opening of the domestic appliance.
[0035] A non-limiting embodiment of the present invention will now be described, by way
of example, with reference to the accompanying drawings, in which:
- Figure 1 is a schematic view of a domestic appliance having a centrifugal cooling
fan according to the present invention, with parts removed for clarity;
- Figure 2 is an exploded view of a centrifugal cooling fan according to the present
invention, with parts removed for clarity;
- Figure 3 is a perspective view of a portion of the centrifugal cooling fan seen from
a first perspective, with parts removed for clarity; and
- Figure 4 is a perspective view of a portion of the centrifugal cooling fan seen from
a second perspective, with parts removed for clarity; and
- Figure 5 is an enlarged perspective view of a detail of the centrifugal cooling fan
of Figures 3 and 4, with parts removed for clarity.
[0036] With particular reference to Figure 1, number 1 indicates as a whole a domestic appliance,
preferentially a domestic oven, for the treatment, preferentially the thermal treatment,
of food products.
[0037] In more detail, domestic appliance 1 may comprise at least:
- a main body 2 comprising a treatment cavity 3 for the treatment, preferentially the
thermal treatment, even more particular for the heating, of the food product within
treatment cavity 3; and
- a door 4 configured to selectively open or close an opening of main body 2 so as to
selectively allow or impede access to treatment cavity 3.
[0038] Additionally, main body 2 may comprise an electronic compartment 5 within which electronic
components of domestic appliance 1 are housed in.
[0039] According to some possible embodiments, domestic appliance 1 may comprise one or
more of: a microwave unit configured to treat the food product by means of microwaves
and to introduce microwaves into treatment cavity 3, a heat convection unit configured
to create a flow of heat within treatment cavity 3 and a steam generation unit configured
to introduce steam into treatment cavity 3.
[0040] E.g. in the case of the presence of a microwave unit, the microwave unit may be arranged
within electronic compartment 5.
[0041] According to some possible embodiments, one or more of the electronic components
may be comprises by one or more of the microwave unit, the heat convection unit and
the steam generation unit.
[0042] Domestic appliance 1 may comprise a control unit configured to control operation
of domestic appliance 1 and being at least partially arranged within electronic compartment
5.
[0043] Furthermore, domestic appliance 1 comprises a centrifugal cooling fan 6 configured
to at least generate a cooling air flow within electronic compartment 5, and preferentially
to also evacuate fluids (e.g. steam, air, and so on) from treatment cavity 3. Preferentially,
centrifugal cooling fan 6 may be at least partially arranged within electronic compartment
3 and/or may be on fluidic connecting with treatment cavity 3.
[0044] Preferentially, main body 2 may comprise an evacuation hole and centrifugal cooling
fan 6 being in fluidic connection with treatment cavity 3 through the evacuation hole.
Preferentially, centrifugal cooling fan 6 may be configured to evacuate fluids from
treatment chamber 3 through the evacuation hole.
[0045] According to some possible embodiments, main body 2 may comprise one or more inlet
holes configured to establish a fluidic connection between an outside space and electronic
compartment 3. Preferentially, centrifugal cooling fan 6 may be configured to generate
a flow of cooling air from the outside space into electronic compartment 3 through
the one or more inlet holes.
[0046] Additionally, centrifugal cooling fan 6 may also be configured to generate a flow
of fluids through an outlet opening 7 out of domestic appliance 1, preferentially
main body 2. E.g. outlet opening 7 may be arranged above (see Figure 1) or, alternatively,
below (not shown) door 4.
[0047] Moreover, outlet opening 7 may have an elongated configuration.
[0048] Preferentially, door 4 may comprise a flow channel and centrifugal cooling fan 6
may also be configured to generate a flow of air from the outside space into and within
the flow channel.
[0049] Additionally, domestic appliance 1 may comprise a flow conduit 8 being in fluidic
connection with the flow channel and centrifugal cooling fan 6. Preferentially, centrifugal
cooling fan 6 may be configured to generate the flow of air within the flow channel
and into and through the flow conduit.
[0050] According to some preferred non-limiting embodiments, centrifugal cooling fan 6 may
comprise at least two inlets configured to draw fluids from different directions (e.g.
from below and above).
[0051] With particular reference to Figures 2 to 4, centrifugal cooling fan 6 comprises
an impeller 15 configured to generate the respective drawing forces for generating
(desired) fluid flows, preferentially through the respective two inlets.
[0052] Preferentially, impeller 15 may be realized as a single piece, e.g. formed by molding.
[0053] Additionally, centrifugal cooling fan 6 may also comprise a fan housing 16 housing
impeller 15, and preferentially also an actuator 17 (e.g. an electric motor) configured
to actuate a rotation of impeller 15 about a rotation axis A. In particular, fan housing
16 may comprise a seat and impeller 15 may be arranged within the seat.
[0054] With particular reference to Figures 2 to 4, impeller 15 comprises a separation plate
18, a plurality of first blades 19 extending from separation plate 18, preferentially
into a first direction D1, and a plurality of second blades 20 extending from separation
plate 18, preferentially into a second direction D2 opposite to first direction D1.
[0055] In more detail, separation plate 18 may comprise a first face 21 and a second face
22 opposed to first face 19. Moreover, first blades 19 may axial extending from first
face 19 and second blades 20 may axial extend from second face 22.
[0056] Advantageously, each first blade 19 and each second blade 20 may comprise a serrated
section 23.
[0057] In particular, each first blade 19 and each second blade 20 may comprise a trailing
edge 24 and a leading edge 25.
[0058] Each trailing edge 24 and/or each leading edge 25 may comprise the respective serrated
section 23.
[0059] Most preferentially, at least each trailing edge 24 may comprise the respective serrated
section 23. Additionally, also each leading edge 25 may comprise a respective serrated
section (not shown).
[0060] Already the presence of each serrated section 23 contributes to a reduction of noise
formation during use of impeller 15 in comparison to the known impellers 15. In order
to further improve and to rely on synergistic effects, first blades 19 and second
blade 20 are not aligned with respect to one another.
[0061] According to some preferred non-limiting embodiments, each serrated section 23 may
follow and/or have a sinusoidal shape.
[0062] In more detail, each first blade 19 is interposed between two respective second blades
20 and each second blade 20 is interposed between two respective first blades 19.
[0063] In particular, this is to be understood such that if first blades 19 and second blades
20 would be projected onto a two-dimensional plane, the respective projections of
each first blade 19 are interposed between the respective projections of each second
blade 20 and the respective projections of each second blade 20 are interposed between
the respective projections of the respective two first blades 19.
[0064] According to some preferred non-limiting embodiments, first blades 19 may be equally
spaced about rotation axis A and also second blades 20 may be equally spaced about
rotation axis A.
[0065] Additionally and with respect to rotation axis A, the respective trailing edge 24
of each first blade 19 may be angularly displaced from the respective trailing edges
24 of second blades 20 and the respective trailing edge 24 of each second blade 20
may be angularly displaced from the respective trailing edges 24 of first blades 19.
[0066] In more detail, the respective trailing edge 24 of each first blade 19 may be arranged
at a respective first angular position and the respective trailing edge 24 of each
second blade 20 may be arranged at a respective second angular position with respect
to rotation axis A. Preferentially, the respective second angular positions are angularly
displaced from the respective first angular positions.
[0067] With particular reference to Figure 3 and 4, each first blade 19 and each second
blade 20 may comprises a first end portion 26 in contact with, preferentially being
integral to, separation plate 18 and a free end portion 27 opposite to first end portion
26.
[0068] In more detail, the respective free end portions 27 of first blades 19 are distanced
from first face 21 and the respective free end portions 27 of second blades 20 are
distanced from second face 22.
[0069] According to some preferred non-limiting embodiments, each first blade 19 and each
second blade 20 may radially protrude away from separation plate 18; i.e. trailing
edges 24 of first blades 19 and trailing edges 24 of second blades 20 may be further
distanced from a center of separation plate 18 than an outer edge 28 of separation
plate 18.
[0070] In more detail, the respective trailing edges 24 of first blades 19 may define a
first circle of a first diameter and the respective trailing edges 24 of second blades
20 may define a second circle of a second diameter. Moreover, an outer diameter of
separation plate 18 may be smaller than the first diameter and the second diameter.
[0071] In particular, the portions of each trailing edge 24 being farthest from a center
of separation plate 18 may lie on respective the first circle or the second circle.
[0072] Most preferentially, the first diameter and the second diameter may equal one another.
[0073] Most preferentially, the diameter of separation plate 18 may be than the first diameter
and the second diameter by at least a factor of 0,9, preferentially of at least by
a factor 0,8.
[0074] Moreover, a respective height of each first blade 19 (from first face 21) and of
each second blade 20 (from second face 22) may increase towards the respective trailing
edge 24 and/or decreases towards the center of separation plate 18.
[0075] Clearly, changes may be made to centrifugal cooling fan 6 and/or domestic appliance
1 without, however, departing from the scope of the present invention.
List of Reference Signs
[0076]
- 1
- Domestic Appliance
- 2
- Main Body
- 3
- Treatment Cavity
- 4
- Door
- 5
- Electronic Compartment
- 6
- Centrifugal Cooling Fan
- 7
- Outlet Opening
- 8
- Flow Conduit
- 15
- Impeller
- 16
- Housing
- 17
- Actuator
- 18
- Separation Plate
- 19
- First Blades
- 20
- Second Blades
- 21
- First Face
- 22
- Second Face
- 23
- Serrated Section
- 24
- Trailing Edge
- 25
- Leading Edge
- 26
- First End Portion
- 27
- Free End Portion
- 28
- Outer Edge
- A
- Rotation Axis
- D1
- First Direction
- D2
- Second Direction
1. Centrifugal cooling fan (6) for a domestic appliance (1) comprising at least an impeller
(15), the impeller (15) having:
- a separation plate (18) having a first face (21) and a second face (22) opposed
to the first face (21);
- a plurality of first blades (19) axially extending from the first face (21) of the
separation plate (18); and
- a plurality of second blades (20) axially extending from the second face (22) of
the separation plate (18); wherein each first blade (19) and each second blade (20)
comprises a trailing edge (24) and a leading edge (25); wherein each trailing edge
(24) and/or each leading edge (25) comprises a serrated section (23);
wherein the plurality of first blades (19) is misaligned with the plurality of second
blades (20).
2. Centrifugal cooling fan according to claim 1, wherein each first blade (19) is interposed
between two respective second blades (20) and each second blade (20) is interposed
between two respective first blades (19).
3. Centrifugal cooling fan according to claim 1 or 2, wherein the first blades (19) of
the plurality of first blades (19) are equally spaced about a rotation axis (A) of
the impeller (15);
wherein the second blades (20) of the plurality of second blades (20) are equally
spaced about the rotation axis (A) ;
wherein the respective trailing edge (24) of each first blade (19) is angularly displaced
from the respective trailing edges (24) of the second blades (20) and the respective
trailing edge (24) of each second blade (20) is angularly displaced from the respective
trailing edges (24) of the first blades (19).
4. Centrifugal cooling fan according to claim 3, wherein the respective trailing edge
(24) of each first blade (19) is arranged at a respective first angular position and
the respective trailing edge (24) of each second blade (20) is arranged at a respective
second angular position with respect to the rotation axis (A); wherein the respective
second angular positions are angularly displaced from the respective first angular
positions.
5. Centrifugal cooling fan according to any one of the preceding claims, wherein each
first blade (19) and each second blade (20) comprises a first end portion (26) in
contact with the separation plate (18) and a free end portion (27) opposite to the
first end portion (26).
6. Centrifugal cooling fan according to any one of the preceding claims, wherein the
first blades (19) and the second blades (20) radially protrude away from the separation
plate (18).
7. Centrifugal cooling fan according to any one of the preceding claims, wherein the
plurality of trailing edges (24) of the first blades (19) define a first circle of
a first diameter and wherein the plurality of trailing edges (24) of the second blades
(20) define a second circle of a second diameter;
wherein an outer diameter of the separation plate (18) is smaller than the first diameter
and the second diameter.
8. Centrifugal cooling fan according to claim 7, wherein the first diameter and the second
diameter equal one another.
9. Centrifugal cooling fan according to claim 8, wherein the diameter of the separation
plate is smaller than the first diameter and the second diameter by at least a factor
of 0,9, preferentially of at least by a factor 0,8.
10. Centrifugal cooling fan according to any one of the preceding claims, wherein a respective
height of each first blade (19) and of each second blade (20) increases towards the
trailing edge (24) and/or decreases towards a center of the separation plate (18).
11. Centrifugal cooling fan according to any one of the preceding claims, wherein each
serrated section (23) presents a sinusoidal shape.
12. Centrifugal cooling fan according to any one of the preceding claims, wherein the
impeller (15) is formed in a single piece.
13. Domestic appliance (1) for the thermal treatment of food products comprising a centrifugal
cooling fan (6) according to any one of the preceding claims.
14. Domestic appliance according to claim 13, further comprising one or more electrical
components arranged within an electronic compartment (5) of the domestic appliance
(1);
wherein the centrifugal cooling fan (6) is configured to generate a cooling air stream
for cooling the one or more electrical components and to direct the air out of an
outlet opening (7) of the domestic appliance (1).
15. Domestic appliance according to claim 13 or 14, further comprising a treatment cavity
(3) for retaining the food product and having an opening for introducing and/or removing
the food product;
wherein the domestic appliance (1) further comprises a door (4) for selectively closing
and opening the opening; wherein the door (4) comprises a flow path and the centrifugal
cooling fan (6) is configured to create an air flow through the flow path; and/or
wherein the treatment cavity (3) comprises at least one evacuation hole and the centrifugal
cooling fan (6) is configured to evacuate fluids from the treatment cavity (3) and
to direct the fluids out of an outlet opening (7) of the domestic appliance (1).