Title of Invention	CENTRIFUGAL FAN
Abstract	A centrifugal fan comprises a casing (2) and an impeller (5) that is mounted in the casing (2) and turns about a defined axis of rotation (X). The casing (2) has an axial inlet opening, through which air is drawn in, and a tangential air discharge opening (7). The tangential discharge opening (7) is delimited by a first edge (8) that is substantially parallel with the axis of rotation (X) and is located in the vicinity of the impeller (5), by a second edge (9) opposite the first edge (8) and spaced from the impeller (5) and by two lateral edges (10), each joining the first edge (8) to the second edge (9). The centrifugal fan also comprises an appendage (12) located in the vicinity of the tangential discharge opening (7), delimited by the first edge (8) and having a convex surface (16) inside the casing (2) and a connecting surface (15) between the convex surface (16) and the first edge (8).

Title of Invention

CENTRIFUGAL FAN

Abstract

A centrifugal fan comprises a casing (2) and an impeller (5) that is mounted in the casing (2) and turns about a defined axis of rotation (X). The casing (2) has an axial inlet opening, through which air is drawn in, and a tangential air discharge opening (7). The tangential discharge opening (7) is delimited by a first edge (8) that is substantially parallel with the axis of rotation (X) and is located in the vicinity of the impeller (5), by a second edge (9) opposite the first edge (8) and spaced from the impeller (5) and by two lateral edges (10), each joining the first edge (8) to the second edge (9). The centrifugal fan also comprises an appendage (12) located in the vicinity of the tangential discharge opening (7), delimited by the first edge (8) and having a convex surface (16) inside the casing (2) and a connecting surface (15) between the convex surface (16) and the first edge (8).

Full Text	WO 2006/059202 PCT/IB2005/003585 1 Description CENTRIFUGAL FAN Technical Field This invention relates to a centrifugal fan used in particular for automotive applications. This invention relates preferably to the field of electric fans for ventilating the cabins of motor vehicles, even in combination with air conditioning systems. Background Art With reference to Figures 6a, 6b and 6c, which illustrate an electric centrifugal fan of a type known in prior art, fans of this type comprise a casing "a" that houses an impeller ttb" represented schematically in Figure 6b and connected to an electric motor "c". The casing "a" has an opening (not illustrated) in the side of it to draw air into it in a direction parallel with the axis of rotation of the impeller "b" and a discharge opening "d" through which the impeller *b" blows the air out in a direction "e" tangential to the impeller "b" itself. The discharge opening "d" is delimited by four lateral edges which define a plane "f" perpendicular to the air flowing out and parallel with the air flowing in. More specifically, a first edge ug" is substantially parallel with the axis of rotation "h" of the impeller "b", is located in the vicinity of the impeller "b" and belongs to a first wall "i\" parallel with the plane "f" defined by the discharge opening. A second edge "1", parallel with and opposite the first, is spaced from the impeller ttb" and belongs to a second wall V substantially perpendicular to the plane ttf" defined by the discharge opening "d". Two lateral edges "n", each. joining the first edge ug" to the second edge "1", belong to opposite walls "o" perpendicular to the axis of rotation "h" of the impeller "b". Disadvantageously, all the edges "g, 1, n" have WO 2006/059202 PCT/IB2005/003585 2 sharp edges. Also, the casing "a" is closed by a curved wall "p" which joins the first wall "i" to the second wall "m" and, together with the impeller "b", delimits a duct vq_" that diverges towards the discharge opening M". In the modern automotive industry, in particular in the field of luxury car production, driving comfort has reached very high levels in terms of both the car's dynamic behaviour and noise. Having attained extremely high levels of soundproofing against outside noise, designers are now concentrating their attention on noise inside the cabin or in parts of the car near the cabin such as, for example, the noise made by the fans of the car's air conditioning and/or heating system. In this regard, the Applicant has found that fans of the type described above can be improved in several ways, especially as regards the noise made by the air flowing against the sharp edges of the fan. This noise disturbs the driver and passengers. Disclosure of the Invention In this situation, the basic technical task of the present invention is to provide a centrifugal fan that is silent. The technical task and specified aims are substantially fulfilled by a centrifugal fan characterised in that it comprises one or more of the technical solutions defined in the appended claims. Brief Description of the Drawings Below is a description of a preferred, non-limiting embodiment of a centrifugal fan illustrated in the accompanying drawings, in which: Figure 1 is a plan view of a centrifugal fan according to the present invention; Figure 2 is a cross section of the fan according to the invention through line II-II of Figure 1; Figure 3 is a cross section of the fan according to the invention through line III-III of Figure 1; Figure 4 shows a first scaled-up detail of the centrifugal fan of Figure 1; WO 2006/059202 PCT/IB2005/003585 3 Figure 4a shows a first alternative embodiment of the first scaled-up detail of Figure 4; Figure 4b shows a second alternative embodiment of the first scaled-up detail of Figure 4; Figure 5 shows a second scaled-up detail of the centrifugal fan of Figure 1; Figures 6a, 6b and 6c are different views of a prior art centrifugal fan. Detailed Description of the Preferred Embodiments of the Invention With reference to the accompanying drawings, the numeral 1 denotes in its entirety a centrifugal fan according to the invention. The centrifugal fan 1 comprises a casing 2 delimited by pair of parallel side walls 3 and a connecting wall 4 that joins the two side walls 3 and extends preferably and principally in a spiral direction (Figure 2). The casing 2 houses an impeller 5, represented schematically in the drawings, whose hub 6 is connected to an electric motor (not illustrated) which is mounted outside the casing 2 and which drives the impeller 5 rotationally about a defined axis of rotation "X" in a predetermined direction UR". According to well- known designs, the impeller 5 comprises a plurality of vanes (not illustrated) connected to the hub 6. The vanes may be of any type and their shape, number and size shall not restrict the scope of the invention. The casing 2 has an axial inlet opening, made in both side walls 3 and indicated by an arrow "Z" in Figure 1, through which air is drawn in by the impeller 5, and a tangential discharge opening 7 through which the air is blown out by the impeller 5 in a tangential discharge direction "Y" (Figure 2). The tangential discharge opening 7 is made in the connecting wall 4. Looking in more detail, the tangential discharge opening 7 is delimited by a first edge 8 that is substantially parallel with the axis of rotation "X" and is located in the vicinity of the impeller 5, by a second edge 9 opposite the first edge 8 and spaced from the impeller 5 and by two lateral edges 10, each joining the first edge 8 to the second edge 9. These edges 8, 9 WO 2006/059202 PCT/IB2005/003585 4 and 10 define a plane "A" in which the discharge opening 7 lies. The plane "A" is parallel with the axis of rotation "X" and perpendicular to the tangential discharge direction "Y" of the air. The impeller 5 and the casing 2 delimit a duct 11 that extends around the impeller 5 itself and diverges towards the discharge opening 7 in the rotation direction R. Advantageously and unlike prior art fans, the centrifugal fan 1 according to this invention also comprises an appendage 12 located in the vicinity of the tangential discharge opening 7. The appendage 12 is delimited by the first edge 8 and has a convex surface 16 inside the casing 2 and connected to the first edge 8 by a transition surface 15. The appendage 12 therefore extends between the two side walls 3 and lies parallel with the axis of rotation "X". The convex surface 16 is also connected to an inside surface 17 belonging to the connecting wall 4 of the casing 2 at a transition area 13. The diverging duct 11 extends from the transition area 13 and is delimited by the inside surface 17, by the impeller 5 and by the side walls 3. Preferably, for moulding convenience, as illustrated in Figures 4, 4a and 4b, which show three non-restricting embodiments, the cross section of the appendage 12 transversal to the axis of rotation "X" is substantially hook-shaped. On the side of it opposite the convex surface 16, the hook-shaped appendage 12 forms, outside the casing 2, a concave surface 14 which blends into the first edge 8 and which therefore coincides with the end of the hook itself. In the embodiment illustrated in Figure 4, the transition surface 15 is also curved outwardly and has a smaller curvature, and hence a larger curvature radius, than the convex surface 16. Further, as shown in Figures 2 and 4, the convex surface 16 and the transition surface 15, together with the second edge 9, delimit a diverging discharge duct 18 that acts as a diffuser. The concave surface 14 of the hook blends into an outside surface 19 belonging to the connecting wall 4 of the casing 2. Preferably, the first edge 8 is also rounded and blends into WO 2006/059202 PCT/IB2005/003585 5 the concave surface 14 and into the transition surface 15 in such a way that the hook does not have any sharp edges. The cross section of the appendage 12, transversal to the axis of rotation "X", also comprises a straight section 2 0 which joins and blends the concave surface 14 outside the casing 2 into the first edge 8. The straight section 20 is substantially parallel with the tangential direction "Y" of air discharge from the discharge opening 7. The extension of the straight section 20 is such that, in the vicinity of the appendage 12, the inside surface 17 and the outside surface 19 of the casing 2 delimit a wall 4a belonging to the connecting wall 4, having a constant thickness and partly surrounding the impeller 5. Where "P1" is the plane parallel to the plane "A" and tangent to the convex surface 16, "P2" the plane perpendicular to the plane "A" and tangent to the transition surface 15, "d1" the distance between the plane "P1" and the plane "A", and "d2" the distance between the plane "P2" and the first edge 8 at the point of tangency with the plane "A", the ratio between "d1" and "d2" is preferably between 1.5 and 3. In a first alternative embodiment, illustrated in Figure 4a, the transition surface 15 differs from the embodiment of Figure 4 in that it has a flat portion 15a that is blended into the convex surface 16 and a curved transition section 15b between the flat portion 15a and the first edge 8. Further, the first edge 8 is defined by a flat surface perpendicular to the flat portion 15a belonging to the transition surface 15. The second alternative embodiment illustrated in Figure 4b differs from the one of Figure 4a in that it does not have the curved transition section 15b. In both the alternative embodiments illustrated in Figures 4a and 4b, the flat portion 15a is parallel with the tangential direction of discharge "Y". Therefore, the discharge duct 18 is not divergent but constant in section. To further reduce the noise, made by the fan 1, the latter comprises a protrusion 21, preferably with a rounded shape, that extends along each of the lateral edges 10 towards the opposite WO 2006/059202 PCT/IB2005/003585 6 lateral edge 10 (Figures 3 and 5) and a fillet 22 to round the second edge 9 (Figure 2) . As clearly shown in cross section in Figure 5, the protrusion 21 is shaped like a semicircle that blends into the adjacent walls without forming sharp edges. Each of the protrusions 21 on the lateral edges 10 extends smoothly from the fillet 22 of the second edge 9, to form a single frame around the three edges 9, 10. Therefore, the protrusions 21 and the fillet 22 may have the same shape. The invention fulfils the proposed aim and achieves important advantages. The special shape of the appendage located on the first edge reduces swirling at the air discharge opening, thereby diminishing noise made by the air flow. The noise is further reduced by the rounded protrusions made around each of the lateral edges and by the fillet on the second edge. WO 2006/059202 PCT/IB2005/003585 7 Claims 1. A centrifugal fan comprising a casing (2) and an impeller (5) that is mounted in the casing (2) and turns about a defined axis of rotation (X); the casing (2) having an axial inlet opening, through which air is drawn in, and a tangential air discharge opening (7) through which the air is blown out; the tangential discharge opening (7) being delimited by a first edge (8) that is substantially parallel with the axis of rotation (X) and is located in the vicinity of the impeller (5) , by a second edge (9) opposite the first edge (8) and spaced from the impeller (5) and by two lateral edges (10), each joining the first edge (8) to the second edge (9) ; the centrifugal fan being characterised in that it also comprises an appendage (12) located in the vicinity of the tangential discharge opening (7) , delimited by the first edge (8) and having a convex surface (16) inside the casing (2) and a transition surface (15) between the convex surface (16) and the first edge (8) . 2. The fan according to claim 1, characterised in that the transition surface (15) is outwardly curved and has a curvature that is smaller than the curvature of the convex surface (16). 3. The fan according to claim 1, characterised in that the transition surface (15) is outwardly curved and has a flat portion (15a) that blends into the convex surface (16). 4. The fan according to claim 3, characterised in that the transition surface (15) also has a curved transition section (15b) between the flat portion (15a) and the first edge (8). 5. The fan according to claim 1, characterised in that the convex surface (16) blends into a surface (17) inside the casing (2) . 6. The fan according to claim 1, characterised in that the convex surface (16) and the transition surface (15), together with the second edge (9) , delimit a diverging discharge duct (18) . 7. The fan according to claim 1, characterised in that the first edge (8) is rounded. WO 2006/059202 PCT/IB2005/003585 8 8. The fan according to claim 1, characterised in that the first edge (8) is defined by a flat surface. 9. The fan according to any of the foregoing claims, characterised in that, starting from a transition area (13) between the convex surface (16) and the inside surface (17), the inside surface (17) of the casing (2) and the impeller (5) delimit a diverging duct (11) extending around the impeller (5) . 10. The fan according to any of the foregoing claims, characterised in that, in the vicinity of the appendage (12) , the inside surface (17) and the outside surface (19) of the casing (2) delimit a wall (4a) with a constant thickness. 11. The fan according to any of the foregoing claims, characterised in that it further comprises a protrusion (21) extending along each of the lateral edges (10) towards the opposite lateral edge (10). 12. The fan according to the preceding claim, characterised in that the protrusion (21) has a rounded shape. 13. The fan according to any of the foregoing claims, characterised in that the second edge (9) has a fillet (22) for rounding the second edge(9). A centrifugal fan comprises a casing (2) and an impeller (5) that is mounted in the casing (2) and turns about a defined axis of rotation (X). The casing (2) has an axial inlet opening, through which air is drawn in, and a tangential air discharge opening (7). The tangential discharge opening (7) is delimited by a first edge (8) that is substantially parallel with the axis of rotation (X) and is located in the vicinity of the impeller (5), by a second edge (9) opposite the first edge (8) and spaced from the impeller (5) and by two lateral edges (10), each joining the first edge (8) to the second edge (9). The centrifugal fan also comprises an appendage (12) located in the vicinity of the tangential discharge opening (7), delimited by the first edge (8) and having a convex surface (16) inside the casing (2) and a connecting surface (15) between the convex surface (16) and the first edge (8).

Full Text

WO 2006/059202 PCT/IB2005/003585
1
Description
CENTRIFUGAL FAN
Technical Field
This invention relates to a centrifugal fan used in
particular for automotive applications.
This invention relates preferably to the field of electric
fans for ventilating the cabins of motor vehicles, even in
combination with air conditioning systems.
Background Art
With reference to Figures 6a, 6b and 6c, which illustrate an
electric centrifugal fan of a type known in prior art, fans of
this type comprise a casing "a" that houses an impeller ttb"
represented schematically in Figure 6b and connected to an
electric motor "c". The casing "a" has an opening (not
illustrated) in the side of it to draw air into it in a direction
parallel with the axis of rotation of the impeller "b" and a
discharge opening "d" through which the impeller *b" blows the air
out in a direction "e" tangential to the impeller "b" itself. The
discharge opening "d" is delimited by four lateral edges which
define a plane "f" perpendicular to the air flowing out and
parallel with the air flowing in. More specifically, a first edge
ug" is substantially parallel with the axis of rotation "h" of the
impeller "b", is located in the vicinity of the impeller "b" and
belongs to a first wall "i\" parallel with the plane "f" defined by
the discharge opening. A second edge "1", parallel with and
opposite the first, is spaced from the impeller ttb" and belongs to
a second wall V substantially perpendicular to the plane ttf"
defined by the discharge opening "d". Two lateral edges "n", each.
joining the first edge ug" to the second edge "1", belong to
opposite walls "o" perpendicular to the axis of rotation "h" of
the impeller "b". Disadvantageously, all the edges "g, 1, n" have

WO 2006/059202 PCT/IB2005/003585
2
sharp edges. Also, the casing "a" is closed by a curved wall "p"
which joins the first wall "i" to the second wall "m" and,
together with the impeller "b", delimits a duct vq_" that diverges
towards the discharge opening M".
In the modern automotive industry, in particular in the
field of luxury car production, driving comfort has reached very
high levels in terms of both the car's dynamic behaviour and
noise. Having attained extremely high levels of soundproofing
against outside noise, designers are now concentrating their
attention on noise inside the cabin or in parts of the car near
the cabin such as, for example, the noise made by the fans of the
car's air conditioning and/or heating system.
In this regard, the Applicant has found that fans of the
type described above can be improved in several ways, especially
as regards the noise made by the air flowing against the sharp
edges of the fan. This noise disturbs the driver and passengers.
Disclosure of the Invention
In this situation, the basic technical task of the present
invention is to provide a centrifugal fan that is silent.
The technical task and specified aims are substantially
fulfilled by a centrifugal fan characterised in that it comprises
one or more of the technical solutions defined in the appended
claims.
Brief Description of the Drawings
Below is a description of a preferred, non-limiting
embodiment of a centrifugal fan illustrated in the accompanying
drawings, in which:
Figure 1 is a plan view of a centrifugal fan according to
the present invention;
Figure 2 is a cross section of the fan according to the
invention through line II-II of Figure 1;
Figure 3 is a cross section of the fan according to the
invention through line III-III of Figure 1;
Figure 4 shows a first scaled-up detail of the centrifugal
fan of Figure 1;

WO 2006/059202 PCT/IB2005/003585
3
Figure 4a shows a first alternative embodiment of the first
scaled-up detail of Figure 4;
Figure 4b shows a second alternative embodiment of the first
scaled-up detail of Figure 4;
Figure 5 shows a second scaled-up detail of the centrifugal
fan of Figure 1;
Figures 6a, 6b and 6c are different views of a prior art
centrifugal fan.
Detailed Description of the Preferred Embodiments of the Invention
With reference to the accompanying drawings, the numeral 1
denotes in its entirety a centrifugal fan according to the
invention. The centrifugal fan 1 comprises a casing 2 delimited by
pair of parallel side walls 3 and a connecting wall 4 that joins
the two side walls 3 and extends preferably and principally in a
spiral direction (Figure 2).
The casing 2 houses an impeller 5, represented schematically
in the drawings, whose hub 6 is connected to an electric motor
(not illustrated) which is mounted outside the casing 2 and which
drives the impeller 5 rotationally about a defined axis of
rotation "X" in a predetermined direction UR". According to well-
known designs, the impeller 5 comprises a plurality of vanes (not
illustrated) connected to the hub 6. The vanes may be of any type
and their shape, number and size shall not restrict the scope of
the invention.
The casing 2 has an axial inlet opening, made in both side
walls 3 and indicated by an arrow "Z" in Figure 1, through which
air is drawn in by the impeller 5, and a tangential discharge
opening 7 through which the air is blown out by the impeller 5 in
a tangential discharge direction "Y" (Figure 2).
The tangential discharge opening 7 is made in the connecting
wall 4. Looking in more detail, the tangential discharge opening 7
is delimited by a first edge 8 that is substantially parallel with
the axis of rotation "X" and is located in the vicinity of the
impeller 5, by a second edge 9 opposite the first edge 8 and
spaced from the impeller 5 and by two lateral edges 10, each
joining the first edge 8 to the second edge 9. These edges 8, 9

WO 2006/059202 PCT/IB2005/003585
4
and 10 define a plane "A" in which the discharge opening 7 lies.
The plane "A" is parallel with the axis of rotation "X" and
perpendicular to the tangential discharge direction "Y" of the
air.
The impeller 5 and the casing 2 delimit a duct 11 that
extends around the impeller 5 itself and diverges towards the
discharge opening 7 in the rotation direction R.
Advantageously and unlike prior art fans, the centrifugal
fan 1 according to this invention also comprises an appendage 12
located in the vicinity of the tangential discharge opening 7. The
appendage 12 is delimited by the first edge 8 and has a convex
surface 16 inside the casing 2 and connected to the first edge 8
by a transition surface 15.
The appendage 12 therefore extends between the two side
walls 3 and lies parallel with the axis of rotation "X".
The convex surface 16 is also connected to an inside surface
17 belonging to the connecting wall 4 of the casing 2 at a
transition area 13. The diverging duct 11 extends from the
transition area 13 and is delimited by the inside surface 17, by
the impeller 5 and by the side walls 3.
Preferably, for moulding convenience, as illustrated in
Figures 4, 4a and 4b, which show three non-restricting
embodiments, the cross section of the appendage 12 transversal to
the axis of rotation "X" is substantially hook-shaped. On the side
of it opposite the convex surface 16, the hook-shaped appendage 12
forms, outside the casing 2, a concave surface 14 which blends
into the first edge 8 and which therefore coincides with the end
of the hook itself.
In the embodiment illustrated in Figure 4, the transition
surface 15 is also curved outwardly and has a smaller curvature,
and hence a larger curvature radius, than the convex surface 16.
Further, as shown in Figures 2 and 4, the convex surface 16
and the transition surface 15, together with the second edge 9,
delimit a diverging discharge duct 18 that acts as a diffuser.
The concave surface 14 of the hook blends into an outside
surface 19 belonging to the connecting wall 4 of the casing 2.
Preferably, the first edge 8 is also rounded and blends into

WO 2006/059202 PCT/IB2005/003585
5
the concave surface 14 and into the transition surface 15 in such
a way that the hook does not have any sharp edges.
The cross section of the appendage 12, transversal to the
axis of rotation "X", also comprises a straight section 2 0 which
joins and blends the concave surface 14 outside the casing 2 into
the first edge 8. The straight section 20 is substantially
parallel with the tangential direction "Y" of air discharge from
the discharge opening 7. The extension of the straight section 20
is such that, in the vicinity of the appendage 12, the inside
surface 17 and the outside surface 19 of the casing 2 delimit a
wall 4a belonging to the connecting wall 4, having a constant
thickness and partly surrounding the impeller 5.
Where "P1" is the plane parallel to the plane "A" and tangent
to the convex surface 16, "P2" the plane perpendicular to the
plane "A" and tangent to the transition surface 15, "d1" the
distance between the plane "P1" and the plane "A", and "d2" the
distance between the plane "P2" and the first edge 8 at the point
of tangency with the plane "A", the ratio between "d1" and "d2" is
preferably between 1.5 and 3.
In a first alternative embodiment, illustrated in Figure 4a,
the transition surface 15 differs from the embodiment of Figure 4
in that it has a flat portion 15a that is blended into the convex
surface 16 and a curved transition section 15b between the flat
portion 15a and the first edge 8.
Further, the first edge 8 is defined by a flat surface
perpendicular to the flat portion 15a belonging to the transition
surface 15.
The second alternative embodiment illustrated in Figure 4b
differs from the one of Figure 4a in that it does not have the
curved transition section 15b.
In both the alternative embodiments illustrated in Figures
4a and 4b, the flat portion 15a is parallel with the tangential
direction of discharge "Y". Therefore, the discharge duct 18 is
not divergent but constant in section.
To further reduce the noise, made by the fan 1, the latter
comprises a protrusion 21, preferably with a rounded shape, that
extends along each of the lateral edges 10 towards the opposite

WO 2006/059202 PCT/IB2005/003585
6
lateral edge 10 (Figures 3 and 5) and a fillet 22 to round the
second edge 9 (Figure 2) . As clearly shown in cross section in
Figure 5, the protrusion 21 is shaped like a semicircle that
blends into the adjacent walls without forming sharp edges. Each
of the protrusions 21 on the lateral edges 10 extends smoothly
from the fillet 22 of the second edge 9, to form a single frame
around the three edges 9, 10. Therefore, the protrusions 21 and
the fillet 22 may have the same shape.
The invention fulfils the proposed aim and achieves
important advantages.
The special shape of the appendage located on the first edge
reduces swirling at the air discharge opening, thereby diminishing
noise made by the air flow. The noise is further reduced by the
rounded protrusions made around each of the lateral edges and by
the fillet on the second edge.

WO 2006/059202 PCT/IB2005/003585
7
Claims
1. A centrifugal fan comprising a casing (2) and an impeller (5)
that is mounted in the casing (2) and turns about a defined axis
of rotation (X); the casing (2) having an axial inlet opening,
through which air is drawn in, and a tangential air discharge
opening (7) through which the air is blown out; the tangential
discharge opening (7) being delimited by a first edge (8) that is
substantially parallel with the axis of rotation (X) and is
located in the vicinity of the impeller (5) , by a second edge (9)
opposite the first edge (8) and spaced from the impeller (5) and
by two lateral edges (10), each joining the first edge (8) to the
second edge (9) ;
the centrifugal fan being characterised in that it also comprises
an appendage (12) located in the vicinity of the tangential
discharge opening (7) , delimited by the first edge (8) and having
a convex surface (16) inside the casing (2) and a transition
surface (15) between the convex surface (16) and the first edge
(8) .
2. The fan according to claim 1, characterised in that the
transition surface (15) is outwardly curved and has a curvature
that is smaller than the curvature of the convex surface (16).
3. The fan according to claim 1, characterised in that the
transition surface (15) is outwardly curved and has a flat portion
(15a) that blends into the convex surface (16).
4. The fan according to claim 3, characterised in that the
transition surface (15) also has a curved transition section (15b)
between the flat portion (15a) and the first edge (8).
5. The fan according to claim 1, characterised in that the
convex surface (16) blends into a surface (17) inside the casing
(2) .
6. The fan according to claim 1, characterised in that the
convex surface (16) and the transition surface (15), together with
the second edge (9) , delimit a diverging discharge duct (18) .
7. The fan according to claim 1, characterised in that the first
edge (8) is rounded.

WO 2006/059202 PCT/IB2005/003585
8
8. The fan according to claim 1, characterised in that the first
edge (8) is defined by a flat surface.
9. The fan according to any of the foregoing claims,
characterised in that, starting from a transition area (13)
between the convex surface (16) and the inside surface (17), the
inside surface (17) of the casing (2) and the impeller (5) delimit
a diverging duct (11) extending around the impeller (5) .
10. The fan according to any of the foregoing claims,
characterised in that, in the vicinity of the appendage (12) , the
inside surface (17) and the outside surface (19) of the casing (2)
delimit a wall (4a) with a constant thickness.
11. The fan according to any of the foregoing claims,
characterised in that it further comprises a protrusion (21)
extending along each of the lateral edges (10) towards the
opposite lateral edge (10).
12. The fan according to the preceding claim, characterised in
that the protrusion (21) has a rounded shape.
13. The fan according to any of the foregoing claims,
characterised in that the second edge (9) has a fillet (22) for
rounding the second edge(9).

A centrifugal fan comprises a casing (2) and an impeller (5) that is mounted in the casing (2) and turns about a
defined axis of rotation (X). The casing (2) has an axial inlet opening, through which air is drawn in, and a tangential air discharge
opening (7). The tangential discharge opening (7) is delimited by a first edge (8) that is substantially parallel with the axis of rotation
(X) and is located in the vicinity of the impeller (5), by a second edge (9) opposite the first edge (8) and spaced from the impeller (5)
and by two lateral edges (10), each joining the first edge (8) to the second edge (9). The centrifugal fan also comprises an appendage
(12) located in the vicinity of the tangential discharge opening (7), delimited by the first edge (8) and having a convex surface (16)
inside the casing (2) and a connecting surface (15) between the convex surface (16) and the first edge (8).

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Patent Number

269759

Indian Patent Application Number

1913/KOLNP/2007

PG Journal Number

45/2015

Publication Date

06-Nov-2015

Grant Date

05-Nov-2015

Date of Filing

28-May-2007

Name of Patentee

SPAL AUTOMOTIVE S.R.L.

Applicant Address

VIA PER CARPI, 26/B, I-42015 CORREGGIO

Inventors:

#	Inventor's Name	Inventor's Address
1	SPAGGIARI, ALESSANDRO	VIA LEONARDO DA VINCI, 8, I-42015 CORREGGIO

PCT International Classification Number

B60H 1/00,F04D 29/42

PCT International Application Number

PCT/IB2005/003585

PCT International Filing date

2005-11-24

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	BO2004A000742	2004-11-30	Italy