DE102009039783B4 - centrifugal blower - Google Patents

Abstract

A centrifugal blower comprising: a centrifugal fan (2) having a rotating shaft (3) and a plurality of vanes (11) around the rotating shaft (3); an electric motor (4) connected to the rotary shaft (3) for driving the fan (2); and a housing (5) housing the fan (2), the housing having an air passage (6) on an outer side of the fan (2) in a radial direction of the fan (2) and a suction port (7) on a first axial end of the housing (5), wherein the housing (5) holds the electric motor (4) at a second axial end of the housing (5), wherein the first axial end of the housing (5) in a direction parallel to the rotary shaft ( 3) opposite to the second axial end of the housing (5), wherein the fan (2) and the electric motor (4) are constructed to be fixed with the rotation shaft (3) parallel to a horizontal direction, the housing (5 a motor-side wall (9) to which the electric motor (4) is fixed, the housing (5) further comprises: a first wall (31) extending from the motor-side wall (9) parallel to the rotary shaft (3) in FIG Direction of the fan (2) protrudes and surrounds the electric motor (4); a second wall (32) projecting from the motor-side wall (9) parallel to the rotary shaft (3) toward the fan (2), the second wall (32) extending outward in the radial direction of the fan (2) first wall (31) is located; and a third wall (33) projecting from the motor-side wall (9) parallel to the rotary shaft (3) toward the fan (2) and located outside the second wall (32) in the radial direction of the fan (2) wherein the third wall (33) is concentric with the first wall (31) and the second wall (32), the first wall (31) and the second wall (32) being concentric with the rotary shaft (3) as a center are; ...

Description

The present invention relates to a centrifugal fan having a fan with many blades provided around a rotating shaft.

There are various types of centrifugal blowers, such as a vertically mounted centrifugal fan and a transversely mounted centrifugal fan, such as in JP 2002-48 097 A , the US 2002/0 025 253 A1 corresponds, described. A vertically mounted centrifugal fan is parallel to the rotating shaft
fixed in a direction of gravity. A transversely mounted centrifugal blower is fixed to the rotation shaft in parallel to a horizontal direction that is approximately perpendicular to the direction of gravity. In the area inside the outer end of the fan, a first and a second wall are provided to prevent a direct inflow of air into the gap.

In such blowers, the entry of water sucked by the fan into a housing must be limited to an electric motor.

In the vertically mounted centrifugal blower, a wall holding the electric motor extends in a top-bottom direction. To limit the entry of water into the electric motor, it is proposed to increase the height of the wall.

However, in the transversely mounted centrifugal fan, a wall holding the electric motor extends in the horizontal direction. Consequently, it is difficult to restrict the entry of water into the electric motor by increasing the length of the wall. To overcome the difficulty, it is proposed to provide a filter on an upstream air side of the fan. It is also proposed to provide a water entry restriction structure on a vehicle on which the blower is mounted. When the above-described components are not provided or the components do not function sufficiently, water enters the housing of the blower and can reach the electric motor.

The prior art has also proposed further measures for preventing ingress of water into the engine compartment of a centrifugal blower: the DE 10 2004 030 814 A1 For example, a motor holding device having a projection and a protruding portion provided such that no drops of water can penetrate into ventilation holes. The JP H05-130 756 A In turn, it describes a vehicle waterproof air conditioning motor in which a bent part provided along an outer periphery of the opening end of the engine body is provided on the housing of the engine. However, these structures described in the prior art for preventing water from entering the inside of the engine have been insufficient in some cases, and it has not always been possible to reliably prevent the ingress of water.

In view of the above-described points, it is an object of the present invention to provide a transversely mounted centrifugal blower capable of restricting the entry of water into an electric motor.

This object is achieved by a centrifugal blower according to claim 1.

According to one aspect of the present invention, a centrifugal fan includes a centrifugal fan having a rotating shaft and a plurality of blades around the rotating shaft; an electric motor connected to the rotary shaft for driving the fan; and a housing housing the fan, the housing having an air passage on an outer side of the fan in a radial direction of the fan and a suction port at a first axial end of the housing, the housing holding the electric motor at a second end of the housing. The first axial end of the housing is in a direction parallel to the rotation shaft opposite to the second axial end of the housing. The fan and the electric motor are configured to be fixed with the rotation shaft parallel to a horizontal direction. The housing includes a motor-side wall to which the electric motor is attached. The housing further includes a first wall projecting from the motor-side wall in the direction of the fan parallel to the rotary shaft and surrounding the electric motor; and a second wall protruding from the motor-side wall in the direction of the fan parallel to the rotary shaft, the second wall being outside the first wall in the radial direction of the fan. The first wall and the second wall are arranged concentrically with the rotary shaft as the center. The second wall is at a position corresponding to an outer end of the fan in the radial direction of the fan, or at a position inside the outer end of the fan in the radial direction of the fan in the motor-side wall to air blown from the fan restricting it to flow directly into a space between the first wall and the second wall.

As water enters the housing, air blown by the fan forces the water toward along an interior surface of the housing flow. Further, the water flows through a swirling air flow in the air passage toward an electric motor, and thereby the water flows along the engine-side wall in the direction of the electric motor.

In the above construction, the first wall and the second wall are concentrically disposed on a circumference of the electric motor, and a space into which the air blown from the fan does not directly flow is formed between the first wall and the second wall.

That is, no air flow is generated in the room. Thus, even if the water enters the room, the water flows down along any one of the first wall, the second wall, and the engine-side wall by gravity. Therefore, the entry of water into the electric motor can be restricted.

The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description made with reference to the accompanying drawings, in which:

1 Fig. 12 is a cross-sectional view of a centrifugal blower according to a first embodiment of the present invention;

2 a front view of a motor holding element in 1 seen from one side of a suction port;

3 Fig. 12 is a cross-sectional view of the centrifugal blower for explaining a structure for restricting the entry of water into an electric motor according to the first embodiment of the present invention;

4 Fig. 12 is a cross-sectional view of a centrifugal blower according to a second embodiment of the present invention; and

5 is a cross-sectional view of a centrifugal blower according to a third embodiment of the present invention.

First Embodiment

A centrifugal fan 1 The present invention is used for an air conditioning system for a vehicle. The centrifugal fan 1 includes a resin fan 2 , an electric motor 4 for driving a rotary shaft 3 of the fan 2 and a resin case 5 for picking up the fan 2 , The centrifugal fan 1 is a transversely mounted centrifugal fan with the rotating shaft 3 mounted parallel to a horizontal direction on the vehicle. Hereinafter, here on a direction parallel to the rotary shaft 3 as an axial direction. Also is on a right end of the fan 2 from 1 in the axial direction as a first axial end, and on a left end of the fan 2 from 1 in the axial direction, for ease of explanation, reference will be made to a second axial end.

The ventilator 2 is a multi-wing centrifugal fan and includes several plate-like wings 11 around the rotary shaft 3 are arranged, an annular side plate 12 connected to the first axial end of the wings 11 connected, and a main plate 13 connected to the second axial end of the wings 11 connected is. The main plate 13 is with the rotary shaft 3 connected. The main plate 13 is built to the electric motor 4 to cover. For example, the main plate has 13 a generally conical surface shape that is toward the first axial end of the wings 11 that is towards the side plate 12 is convex. Alternatively, the main plate 13 be modified into a circular planar shape.

In the present embodiment, the fan includes 2 further, a fan-side rib 14 coming from a radially outer end 13a the main plate 13 in the direction of the electric motor 4 protrudes. The fan side rib 14 is parallel to the rotary shaft 3 and has an annular shape.

When the fan 2 from the electric motor 4 is driven, air is sucked from the first axial end and is blown in a radially outward direction.

The housing 5 has a spiral air passage 6 on an outside of the fan 2 in a radial direction of the fan 2 , The one from the fan 2 blown air gets into the air passage 6 initiated. The housing 5 has a suction port 7 adjacent to the first axial end of the fan 2 with respect to the axial direction. The electric motor 4 located at a second axial end of the housing 5 that is, on the opposite side of the suction port 7 ,

For example, the housing includes 5 generally a first wall 8th adjacent the first axial end of the fan 2 (hereinafter referred to as the suction-side wall) in which a suction port 7 is formed, a second wall 9 (hereinafter referred to as an engine-side wall) that is opposite to the suction-side wall in the axial direction 8th in relation to the fan 2 is, and an outer wall 10 which has a radially outer surface of the housing 5 forms. For example, the suction side wall 8th and the motor-side wall 9 approximately perpendicular to the rotary shaft 3 , and the outer wall 10 is approximately parallel to the rotary shaft 3 , The intake opening 7 has a bell-shaped shape. The electric motor 4 is on the engine-side wall 9 attached.

In the present embodiment, the housing 5 mainly from a spiral element 21 and a motor holding member 22 that the electric motor 4 holds, built. The spiral element 21 and the motor receiving element 22 are by an intervention section 21a of the spiral element 21 and an engaging portion 22a the motor holding element 22 engaged and secured by a screw or the like.

The spiral element 21 is a main component that the fan 2 absorbs and the air passage 6 forms. The spiral element 21 is divided into two parts, that is, a suction-side separation part and an engine-side separation part, and the separation parts are fastened by a fastener (not shown in the drawing).

The motor retaining element 22 includes a retaining wall 23 that the electric motor 4 holds directly, and a flange section 24 that is on a perimeter of the electric motor 4 is provided. The flange section 24 extends from the retaining wall 23 in the radial outward direction of the fan 2 ,

The retaining wall 23 has a surface along the outer surface of the electric motor 4 , The retaining wall 23 has a generally cylindrical shape around the electric motor 4 cover.

The flange section 24 has a surface opposite the fan 25 opposite to the fan 2 is. The surface 25 has a size, leaving an outer end of the surface 25 outside of in the radial direction of the fan 2 radially outer end 2a of the fan 2 located. In the present embodiment, the engine-side wall 9 from the flange section 24 and a motor-side wall, located on one side of the electric motor 4 located, the spiral element 21 built up.

As a structure for restricting the entry of water into the electric motor 4 are on the flange portion 24 a first wall 31 , a second wall 32 and a third wall 33 provided. The first wall 31 , the second wall 32 and the third wall 33 stand from the surface 25 parallel to the rotary shaft 3 in the direction of the fan 2 in front.

In 2 are the spiral element 21 and the fan 2 omitted. As in 2 shown have the first wall 31 , the second wall 32 and the third wall 33 each a cylindrical shape to the electric motor 4 to surround. The first wall 31 , the second wall 32 and the third wall 33 are concentric with the rotary shaft 3 arranged as the center. The first wall 31 apart from a part of it, the second wall 32 and the third wall 33 each have a ring shape.

As in 1 shown is the first wall 31 a wall for receiving the electric motor 4 , and an inner surface of the first wall 31 is in contact with the electric motor 4 , The first wall 31 is located in the radial direction of the fan 2 within the outer end 13a the main plate 13 that is, on one side of the rotary shaft 3 , That is, the first wall 31 is in relation to the radial direction of the fan 2 closer to the rotary shaft 3 as the outer end 13a ,

The second wall 32 is located in the radial direction of the fan 2 outside the first wall 31 and in the radial direction of the fan 2 within the outer end 2a of the fan 2 , In particular, there is the second wall 32 in the radial direction of the fan 2 between the outer end 2a of the fan 2 and the outer end 13a the main plate 13 , An inner surface of the second wall 32 that is, a surface opposite to the first wall 31 is, as a standard for the position of the second wall 32 taken.

The height H2 of the second wall 32 is greater than the height H1 of the first wall 31 and is greater than half the distance D1 between the second axial end of the wings 11 and the flange portion 24 that is, between the engine-side wall 9 and the fan 2 , In addition, the end of the second wall 32 close to the fan 2 , and the height H2 of the second wall 32 is five to six times the distance D2 between the end of the second wall 32 and the fan 2 , The surface 25 is used as a standard for the height, such as H1 and H2. The protruding height and the protruding distance are each a dimension in the axial direction. The height H2 of the second wall 32 can be equal to the height H1 of the first wall 31 be.

The third wall 33 is located in the radial direction of the fan 2 outside the second wall 32 and in the radial direction of the fan 2 outside the outer end 2a of the fan 2 , The third wall 33 is in the same plane of the flange section 24 arranged in the second wall 32 is arranged. The height H3 of the third wall 33 is equal to the height H2 of the second wall 32 ,

In the present embodiment, the distance D3 is between the third wall 33 and the second wall 32 smaller in the radial direction than the distance D4 between the second wall 32 and the first wall 31 ,

For example, the height H1 is 13.6 mm, each of the heights H2 and H3 is 17.6 mm, the distance D1 is 20.6 mm, the distance D2 is 3 mm, the distance D3 is 5.5 mm, and the Distance D4 is 9.5 mm. In addition, the distance D5 between the second wall 32 and the outer end 13a the main plate 13 in the radial direction 3 mm, and the thickness T2 of the second wall 32 and the thickness T3 of the third wall 33 is 1.5 mm each. The outer diameter Φ1 of the fan 2 is 110 mm, and the outer diameter Φ2 of the third wall 33 is 120.4 mm.

The motor-side wall 26 the wall, the air passage 6 of the spiral element 21 is not built up with the surface 25 of the flange portion 24 but is connected to a section midway in the axial direction in the third wall 33 connected.

The mechanism for limiting the entry of water into the electric motor 4 according to the present embodiment will be described hereinafter.

In the transversely mounted centrifugal blower as the present embodiment, accumulates in the housing 5 entered water at a bottom portion of the housing 5 , The water flows along the wall of the housing 5 that the air passage 6 by passing it through the arrow in 3 (eg, arrow A1) is forced. In particular, the water is passed through by the arrow in 3 (eg, arrow A2) shown vortex air flow blown. In this way, the water flows along the engine-side wall 26 in the direction of the electric motor 4 ,

In a comparative example, the second wall 32 and the third wall 33 does not have that flows along the engine-side wall 26 flowing water over the first wall 31 and reaches the electric motor 4 by being forced by the vortex air flow.

In contrast, in the present embodiment, the cylindrically shaped first, second and third walls 31 . 32 . 33 on the surface 25 provided. In this way, a first space between the first wall 31 and the second wall 32 formed, and a second space is between the second wall 32 and the third wall 33 educated.

Therefore, the water that runs along the engine-side wall 26 in the direction of the electric motor 4 flows from the third wall 33 be blocked. In this way, the amount of water flowing in the direction of the electric motor 4 flows, be reduced.

Part of the water running along the engine-side wall 26 flows, flows over the third wall 33 and enters the second space by passing through the vortex air flow from the air passage 6 in the direction of the electric motor 4 is urged.

Because the third wall 33 in the radial direction of the fan 2 outside the outer end 2a of the fan 2 is located, part of the flows from the fan 2 blown air, as indicated by the arrow in 3 (eg arrow A3), directly into the second room and creates a by the arrow in 3 (eg, arrow A4) indicates reverse flow in the second space. That is, an air flow coming from one side of the electric motor 4 toward one side of the suction port 7 is directed, is formed. As a result, the water in the second space is moved by the reverse air flow and thus flows over the second wall 32 in the first room.

Because the second wall 32 in the radial direction of the fan 2 within the outer end 2a of the fan 2 is located, which flows from the fan 2 blown air is not directly in the first room. In this case, in contrast to the second space in the first space no air flow is formed, which from one side of the electric motor 4 toward one side of the suction port 7 is directed.

That is, an air flow that urges the water does not occur in the first space. Consequently, water flows by gravity in the first space along interior surfaces that provide the first space, such as the first wall 31 , the second wall 32 and the surface 25 , downward. That is, in the first room above the rotary shaft 3 entering water flows mainly along the first wall 31 down, and the water in the first room below the rotary shaft 3 enters, flows mainly along the second wall 32 downward. Therefore, according to the present embodiment, the entry of water into the electric motor 4 limited.

Second Embodiment

With respect to the corresponding section of in 1 shown component is in 4 the same reference number is given.

In the present embodiment, the second wall is located 32 in the radial direction of the fan 2 at a position within the outer end 13a the main plate 13 in the surface 25 , In this way, flows from the fan 2 blown air certainly not directly in the first room.

Likewise, the second wall 32 are at a position that is the outer end 13a the main plate 13 in the surface 25 equivalent.

Third Embodiment

With respect to the corresponding section of in 1 shown component is in 5 the same reference number is given.

The centrifugal fan 1 The present embodiment has a structure similar to the centrifugal blower 1 from 1 the first embodiment, but the third wall 33 is omitted. Also in the present embodiment, the first space in which the fan 2 blown air does not flow directly between the first wall 31 and the second wall 32 educated. Therefore, the present embodiment can achieve the similar effect as the first embodiment.

Other Embodiments

In the first embodiment, the second wall is located 32 in the radial direction of the fan 2 at a position within the outer end 2a of the fan 2 in the surface 25 , The second wall 32 However, it may be located at a position that is the outer end of the fan 2 in the surface 25 equivalent.

In the embodiments described above, the first wall 31 in contact with the electric motor 4 and is called a wall for holding the electric motor 4 used. However, the first wall can be 31 not in contact with the electric motor 4 be.

In the embodiments described above, the motor-side wall 9 of the housing 5 from the flange section 24 the motor holding element 22 and the engine-side wall 26 of the spiral element 21 built up. However, the engine-side wall can 9 only from the engine-side wall 26 be constructed. In this case, the second wall 32 and the third wall 33 on the engine-side wall 26 of the spiral element 21 provided.

In the first embodiment, besides the first wall 31 a second wall 32 in the radial direction of the fan 2 within the outer end 2a of the fan 2 provided. In addition, a plurality of cylindrical walls may be added and concentric in the radial direction within the outer end 2a to be ordered.

Similar is a third wall 33 in the radial direction of the fan 2 outside the outer end 2a of the fan 2 provided. In addition, a plurality of cylindrically shaped walls may be added and concentrically in the radial direction outside the outer end 2a to be ordered.

The embodiments described above can be combined in various ways.

While the invention has been described with reference to preferred embodiments thereof, it is to be understood that the invention is not limited to the preferred embodiments and configurations. The invention is intended to cover various modification and equivalent arrangements. In addition, besides the various combinations and configurations that are preferred, other combinations and configurations, including more, less, or a single element, are also within the spirit and scope of the invention.

Claims (6)

Centrifugal fan, comprising: a centrifugal fan ( 2 ) with a rotary shaft ( 3 ) and a plurality of wings ( 11 ) around the rotary shaft ( 3 ) around; an electric motor ( 4 ), which is connected to the rotary shaft ( 3 ) is connected to the fan ( 2 ) to drive; and a housing ( 5 ), which is the fan ( 2 ), wherein the housing an air passage ( 6 ) on one in a radial Direction of the fan ( 2 ) outer side of the fan ( 2 ) and a suction port ( 7 ) at a first axial end of the housing ( 5 ), the housing ( 5 ) the electric motor ( 4 ) at a second axial end of the housing ( 5 ), wherein the first axial end of the housing ( 5 ) in a direction parallel to the rotary shaft ( 3 ) opposite to the second axial end of the housing ( 5 ), whereby the fan ( 2 ) and the electric motor ( 4 ) are arranged to communicate with the rotary shaft ( 3 ) parallel to a horizontal direction, the housing ( 5 ) an engine-side wall ( 9 ), at which the electric motor ( 4 ), the housing ( 5 ) further comprises: a first wall ( 31 ) from the engine-side wall ( 9 ) parallel to the rotary shaft ( 3 ) in the direction of the fan ( 2 ) protrudes and the electric motor ( 4 ) surrounds; a second wall ( 32 ) from the engine-side wall ( 9 ) parallel to the rotary shaft ( 3 ) in the direction of the fan ( 2 ), wherein the second wall ( 32 ) in the radial direction of the fan ( 2 ) outside the first wall ( 31 ) is located; and a third wall ( 33 ) from the engine-side wall ( 9 ) parallel to the rotary shaft ( 3 ) in the direction of the fan ( 2 ) protrudes and in the radial direction of the fan ( 2 ) outside the second wall ( 32 ), the third wall ( 33 ) concentric with the first wall ( 31 ) and the second wall ( 32 ), the first wall ( 31 ) and the second wall ( 32 ) concentric with the rotary shaft ( 3 ) are arranged as a center; the second wall ( 32 ) at a position that is in the radial direction of the fan ( 2 ) an outer end ( 2a ) of the fan ( 2 ), or at a position in the radial direction of the fan ( 2 ) within the outer end ( 2a ) of the fan ( 2 ) in the engine-side wall ( 9 ) is to be removed from the fan ( 2 ) to restrict blown air directly into a space between the first wall ( 31 ) and the second wall ( 32 ) to flow; and the third wall ( 33 ) at a position in the radial direction of the fan ( 2 ) outside the outer end ( 2a ) of the fan ( 2 ) in the engine-side wall ( 9 ) is located. Centrifugal fan ( 1 ) according to claim 1, wherein the fan ( 2 ) a main plate ( 13 ), which with the wings ( 11 ) and a second axial end of the fan ( 2 ), the main plate ( 13 ) with the rotary shaft ( 3 ) and has a shape that the electric motor ( 4 ), the second wall ( 32 ) at a position that is in the radial direction of the fan ( 2 ) an outer end ( 13a ) of the main plate ( 13 ), or at a position in the radial direction of the fan ( 2 ) within the outer end ( 13a ) of the main plate ( 13 ) in the engine-side wall ( 9 ) is located. Centrifugal fan ( 1 ) according to claim 1 or 2, wherein a height (H2) of the second wall ( 32 ) from the engine-side wall ( 9 ) in the direction parallel to the rotary shaft ( 3 ) is equal to or greater than a height (H1) of the first wall ( 31 ) from the engine-side wall ( 9 ) in the direction parallel to the rotary shaft ( 3 ). Centrifugal fan ( 1 ) according to claim 3, wherein the height (H2) of the second wall ( 32 ) equal to or greater than half of a distance (D1) between the engine-side wall ( 9 ) and the fan ( 2 ) in the direction parallel to the rotary shaft ( 3 ). Centrifugal fan ( 1 ) according to claim 1, wherein a height (H3) of the third wall ( 33 ) from the engine-side wall ( 3 ) in the direction parallel to the rotary shaft ( 3 ) equal to the height (H2) of the second wall ( 32 ). Centrifugal fan ( 1 ) according to any one of claims 1 to 5, wherein the outer end ( 13a ) of the main plate ( 13 ) in the radial direction of the fan ( 2 ) within the outer end ( 2a ) of the fan ( 2 ) is located.

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