JP5012736B2 - Centrifugal blower - Google Patents

Description

  The present invention relates to a centrifugal blower having a plurality of blades arranged around a rotating shaft and blowing out air sucked from one end side in the rotating shaft direction toward the outside in the fan radial direction. Applicable to etc.

As a centrifugal blower, a vertical type (for example, refer to Patent Document 1) in which the rotation axis is installed in a direction parallel to the gravity direction, or a horizontal type in which the rotation axis is installed in a direction parallel to the horizontal direction. There is.
JP 2002-48097 A

  By the way, in the centrifugal blower, it is necessary to prevent the water sucked into the casing by the fan from entering the electric motor.

  In the vertical installation type, the wall that holds the electric motor extends in the vertical direction, so the wall can be set high enough to prevent water from overcoming the wall due to gravity. Intrusion of water can be prevented.

  However, in the horizontal placement type, since the wall holding the electric motor extends in the horizontal direction, it is not possible to prevent water from entering the electric motor only by setting the height of the wall. Therefore, conventionally, a filter is installed on the upstream side of the air flow from the blower, or a means for preventing water intrusion is provided on the vehicle side on which the blower is mounted, thereby preventing water from entering the casing of the blower. It was preventing. For this reason, when the above countermeasures against water intrusion are not taken, or when the countermeasures are not sufficient, if water enters the casing of the blower, water may enter the electric motor.

  In view of the above points, an object of the present invention is to prevent water from entering an electric motor in a horizontal type centrifugal blower.

In order to achieve the above object, according to the first aspect of the present invention, the motor-side wall (9) of the casing (5) protrudes in parallel with the rotating shaft (3) toward the fan (2), and is electrically driven. A cylindrical first wall (31) surrounding the periphery of the motor (4) and on the outer side of the first wall (31) in the fan radial direction, parallel to the rotation axis (3) toward the fan (2) A cylindrical second wall (32) that protrudes and is arranged concentrically with the first wall (31) is provided, and the first wall (31) and the second wall (32) The second wall (32) is located at a position facing the outer peripheral end (2a) of the fan (2) in the motor-side wall (9) so that the blown air from the fan (2) does not flow directly between them. It is arranged on the inner side in the fan radial direction from the position facing the outer peripheral end (2a) of the fan (2) ,
The fan (2) connects a plurality of blades (11) at the other axial end of the rotating shaft (3) and is coupled to the rotating shaft (3) to cover the electric motor (4). 13)
The second wall (32) is more fan-shaped than the position facing the outer peripheral end (13a) of the main plate (13) or the position facing the outer peripheral end (13a) of the main plate (13) in the motor side wall (9). It is arranged inside the radial direction,
The height (H2) of the second wall (32) in the direction parallel to the rotation axis (3) from the motor-side wall (9) is the same as the height (H1) of the first wall (31). Alternatively, the distance (D1) between the motor-side wall (9) and the fan (2) in the direction higher than the height (H1) of the first wall (31) and parallel to the rotating shaft (3). More than half the size,
The motor-side wall (9) protrudes in parallel with the rotation axis (3) toward the fan (2) on the outer side of the second wall (32) in the fan radial direction, and the first and second walls ( 31, 32) is provided with a cylindrical third wall (33) arranged concentrically with the fan diameter of the third wall (33) than the outer peripheral end (2 a) of the fan (2). It is characterized by being arranged outside the direction .

  When water intrudes into the casing, the water is pushed by the wind and travels along the inner wall of the casing. Therefore, when water is pushed by the swirling wind from the air passage toward the electric motor, Water is transmitted through the wall.

  Therefore, in the invention according to claim 1 of the present application, cylindrical first and second walls are provided concentrically around the electric motor, and the air blown from the fan (2) is provided between the first and second walls. Forms a space that does not flow directly.

  As a result, when water enters the space between the first and second walls, there is no wind flow that pushes the water in this space, so the water follows the gravity according to the first wall, the second wall Water will flow downward along either the wall or the motor side wall. Therefore, according to the first aspect of the present invention, water can be prevented from entering the electric motor.

  In the invention according to claim 1 of the present application, the second wall (32) is positioned at the position facing the outer peripheral end (13a) of the main plate (13) in the motor side wall (9) or the outer periphery of the main plate (13). It arrange | positions inside a fan radial direction rather than the position which opposes an end (13a).

  Thereby, the space where the blowing wind from the fan (2) does not flow directly between the first and second walls can be surely formed.

According to the first aspect of the invention , the third wall (33) can block the water flow toward the electric motor through the wall on the motor side. Compared with the case where it is not provided, it is possible to reduce the amount of water that attempts to get over the second wall (32).

In the invention described in claim 1 , for example, as in the invention described in claim 2 , the third wall (33) is arranged in a direction parallel to the rotating shaft (3) from the wall (9) on the motor side. A configuration in which the height (H3) is the same as the height (H2) of the second wall (32) can be employed.

  In addition, the code | symbol in the bracket | parenthesis of each means described in this column and the claim shows the correspondence with the specific means as described in embodiment mentioned later.

(First embodiment)
FIG. 1 is a cross-sectional view of a centrifugal blower according to a first embodiment of the present invention.

  The centrifugal blower 1 of this embodiment is used for a vehicle air conditioner, and is made of a resin fan 2, an electric motor 4 that rotationally drives a rotating shaft 3 of the fan 2, and a resin that houses the fan 2. The casing 5 is provided. This centrifugal blower 1 is a horizontally placed type in which a rotating shaft 3 of a fan 2 is mounted on a vehicle in a direction parallel to the horizontal direction.

  The fan 2 is a centrifugal multiblade fan, and a large number of plate-like blades 11 arranged around the rotation shaft 3 and an annular side plate 12 that connects the plurality of blades 11 at one end side in the rotation axis direction. And a main plate 13 coupled to the rotating shaft 3 while connecting a large number of blades 11 at the other end side in the rotating shaft direction. The main plate 13 has a shape that covers the electric motor 4 and has, for example, a substantially conical surface shape that is convex toward the other end side in the rotation axis direction, that is, the side plate 12 side. Note that the shape of the main plate 13 may be changed to a circular planar shape.

  In the present embodiment, a fan-side rib 14 that is parallel to the rotary shaft 3 and protrudes toward the electric motor side is provided at the outer peripheral end 13a of the main plate 13 in the fan radial direction. The fan side rib 14 is arranged in an annular shape.

  The fan 2 is rotationally driven by the electric motor 4 so that air is sucked into the fan 2 from one end side in the direction of the rotation axis, and the sucked air is blown out radially outward of the fan 2. ing.

  The casing 5 has a spiral air passage 6 that collects the air blown from the fan 2 outside the fan 2 in the radial direction. The casing 5 is formed with a suction port 7 for sucking air at one end side in the rotation axis direction, and the electric motor 4 is attached to the other end side in the rotation axis direction, that is, opposite to the suction port 7. Yes.

  Specifically, the casing 5 includes an inlet-side wall 8 in which an inlet 7 is formed, an inlet-side wall 8 and an opposite motor-side wall 9 sandwiching the fan 2, and a diameter of the fan 2. And an outer peripheral wall 10 located on the outer periphery of the casing 5 in the direction. The inlet-side wall 8 and the motor-side wall 9 have, for example, wall surfaces that are substantially perpendicular to the rotating shaft 3, and the outer peripheral wall 10 has, for example, a wall surface that is substantially parallel to the rotating shaft 3. The suction port 7 formed in the wall 8 on the suction port side has a bell mouth shape. An electric motor 4 is attached to the wall 9 on the motor side.

  In the present embodiment, the casing 5 is mainly configured by a spiral scroll portion 21 and a motor holding portion 22 that holds the electric motor 4. The scroll part 21 and the motor holding part 22 are fitted by fitting parts 21a and 22a of both, and are fixed by screws or the like.

  The scroll part 21 is a main part that accommodates the fan 2 and constitutes the air passage 6. Although not shown, the scroll portion 21 is divided into, for example, a suction body side and a motor side split body, and the split bodies are fixed by fastening means.

  The motor holding portion 22 includes a holding wall 23 that directly holds the electric motor 4 and a flange-shaped portion 24 that extends from the holding wall 23 to the outside in the radial direction of the fan 2 around the electric motor 4.

  The holding wall 23 has a surface along the outer wall of the electric motor, and has a shape that covers the electric motor 4, that is, a cylindrical shape.

  The flange-shaped portion 24 has a surface 25 that faces the fan 2. The surface 25 has such a size that its outer peripheral end is located on the outer side in the radial direction of the fan 2 with respect to the position of the outer peripheral end 2a of the fan 2. In this embodiment, the flange-shaped portion 24 and the wall 26 on the electric motor 4 side of the scroll portion 21 constitute the wall 9 on the motor side of the casing 5.

  Further, the flange-shaped portion 24 has a first wall 31 projecting from the wall surface 25 facing the fan 2 toward the fan 2 in parallel with the rotary shaft 3 as means for preventing water from entering the electric motor 4. A second wall 32 and a third wall 33 are provided.

  Here, FIG. 2 shows a front view of the motor holding portion 22 as seen from the suction port 7 side. In FIG. 2, the scroll part 21 and the fan 2 in FIG. 1 are omitted. As shown in FIG. 2, the first wall 31, the second wall 32, and the third wall 33 are cylindrical so as to surround the electric motor 4, and are concentric with the rotating shaft 3 as the center. Is arranged. The first wall 31 has a ring shape except for a part thereof, and the second and third walls 32 and 33 have a ring shape.

  As shown in FIG. 1, the first wall 31 is a motor holding wall that holds the electric motor 4, and the inner surface is in contact with the electric motor 4. The first wall 31 is located on the inner side in the fan radial direction from the outer peripheral end 13 a of the main plate 13, that is, on the rotating shaft side.

  The second wall 32 is located farther outward in the fan radial direction than the first wall 31, and is located further inward in the fan radial direction than the outer peripheral end 2 a of the fan 2. More specifically, the second wall 32 is located between the outer peripheral end 2a of the fan 2 and the outer peripheral end 13a of the main plate 13 in the fan radial direction. Note that the position of the second wall 32 here is based on the position of the inner surface of the second wall 32, that is, the surface facing the first wall 31.

  The height H <b> 2 of the second wall 32 is larger than the height H <b> 1 of the first wall 31 and is not less than half the distance D <b> 1 between the blade 11 of the fan 2 and the flange-shaped portion 24. Further, the tip of the second wall 32 is close to the fan 2, and the height H <b> 2 of the second wall 32 is 5 to 6 times the distance D <b> 2 between the second wall 32 and the fan 2. That's it. The height here is based on the wall surface 25 of the flange-shaped portion 24 facing the fan 2, and the height and interval are the height and interval in a direction parallel to the rotating shaft 3. The height H2 of the second wall 32 and the height H1 of the first wall 31 may be the same.

  The third wall 33 is located farther outward in the fan radial direction than the second wall 32, and is located further outside in the fan radial direction than the outer peripheral end 2 a of the fan 2. The third wall 33 is provided on the same plane as the surface on which the second wall 32 of the flange-shaped portion 24 is provided. The height H3 of the third wall 33 is the same as the height H2 of the second wall 32.

  In the present embodiment, the distance D3 between the third wall 33 and the second wall 32 is set to be smaller than the distance D4 between the second wall 32 and the first wall 31.

  Here, as an example of dimensions, the height H1 is 13.6 mm, the heights H2 and H3 are 17.6 mm, the distance D1 is 20.6 mm, the distance D2 is 3 mm, and the distance D3 is The distance D4 is 9.5 mm. The distance D5 between the second wall 32 and the outer peripheral end 13a of the main plate 13 is 3 mm, and the thicknesses T2 and T3 of the second and third walls 32 and 33 are 1.5 mm. Incidentally, 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.

  Of the walls constituting the air passage 6 of the scroll portion 21, the wall 26 positioned on the electric motor 4 side is not connected to the wall surface 25 facing the fan 2 of the flange-shaped portion 24, but a third wall. It is connected to a halfway portion in a direction parallel to the 33 rotation shaft 3.

  Next, the principle of preventing water from entering the electric motor 4 according to the present embodiment will be described. FIG. 3 is a cross-sectional view of the blower for explaining the principle of preventing water from entering the electric motor 4 according to the present embodiment, and corresponds to FIG.

  As in the present embodiment, in the horizontal installation type, water that has entered the casing 5 accumulates in the lower portion of the casing 5, and the accumulated water is pushed by the wind indicated by the arrows in FIG. It travels along the wall surface of the casing 5 that constitutes it. In particular, when water is pushed by the swirling wind from the air passage 6 toward the electric motor 4, the water is transmitted toward the electric motor 4 through the wall 26 positioned on the motor side of the scroll portion 21.

  At this time, unlike the present embodiment, when the second and third walls 32 and 33 are not provided, the water transmitted through the wall 26 located on the motor side of the scroll portion 21 is pushed by the swirling wind, The electric motor 4 gets over the first wall 31.

  In contrast, in the present embodiment, as described above, the cylindrical first wall 31 that holds the electric motor 4 on the surface of the flange-shaped portion 24 that faces the fan 2, and the first wall 31. Cylindrical second and third walls 32 and 33 arranged concentrically with respect to the first wall 31 are provided on the outer side in the fan radial direction. As a result, a first space between the first wall 31 and the second wall 32 is formed, and a second space between the second wall 32 and the third wall 33 is formed.

  Therefore, the third wall 33 can block the water flow toward the electric motor 4 through the wall 26 located on the motor side of the scroll portion 21, and the amount of water toward the electric motor 4 can be reduced.

  A portion of the water traveling toward the electric motor 4 through the wall 26 positioned on the motor side of the scroll portion 21 is pushed over the third wall 33 by being pushed by the swirling wind toward the electric motor 4 from the air passage 6. Invade the second space between the second wall 32 and the third wall 33.

  At this time, in the second space, since the third wall 33 is located on the outer side in the fan radial direction with respect to the outer peripheral end 2a of the fan 2, as shown by an arrow in FIG. The part flows directly, and a wind flow swirling in the second space is formed. That is, a wind flow from the electric motor 4 side toward the suction port 7 side is formed. Since the swirling wind flow causes water to become unsteady in the second space, the water that has entered the second space gets over the second wall 32, and the second wall 32 and the first wall 31. Flows into the first space.

  The first space is a space where the blown air from the fan 2 does not flow directly because the second wall 32 is located on the inner side in the fan radial direction with respect to the outer peripheral end 2 a of the fan 2. For this reason, unlike the second space, a wind flow from the electric motor 4 side toward the suction port 7 side is not formed in the first space.

  Therefore, since the water that has entered the first space does not generate a wind flow that pushes the water in the first space, the first wall 31, the second wall 32, and the flange that constitute the first space according to gravity. Water flows downward along one of the wall surfaces 25 of the shape portion 24 facing the fan 2. That is, the water that has entered the first space above the rotating shaft 3 mainly flows downward along the cylindrical first wall 31 and enters the first space below the rotating shaft 3. The water that has flowed mainly flows downward along the second wall 32. Thereby, according to this embodiment, the penetration | invasion of the water to the electric motor 4 can be prevented.

(Second Embodiment)
FIG. 4 is a cross-sectional view of the centrifugal blower 1 in the second embodiment. In FIG. 4, the same components as those in FIG. 1 are denoted by the same reference numerals as those in FIG.

  In the present embodiment, the second wall 32 is located on the inner side in the fan radial direction of the wall surface 25 facing the fan 2 of the flange-shaped portion 24 from the position facing the outer peripheral end 13 a of the main plate 13. For this reason, the blowing air from the fan 2 does not flow directly into the first space between the first and second walls 31 and 32.

  For the same reason, the second wall 32 may be provided at a position facing the outer peripheral end 13 a of the main plate 13 in the wall surface 25 facing the fan 2 of the flange-shaped portion 24.

(Third embodiment)
FIG. 5 is a cross-sectional view of the centrifugal blower 1 in the third embodiment. In FIG. 5, the same components as those in FIG. 1 are denoted by the same reference numerals as those in FIG. The third embodiment is a reference example for understanding the present invention.

  The centrifugal blower 1 according to the present embodiment is obtained by omitting the third wall 33 from the centrifugal blower 1 illustrated in FIG. 1 described in the first embodiment. Even if it does in this way, since the 1st space where the blowing wind from the fan 2 is not blown directly is formed between the 1st, 2nd walls 31 and 32, the effect similar to 1st Embodiment is formed. Is obtained.

(Other embodiments)
(1) In 1st Embodiment, the 2nd wall 32 is located inside a fan radial direction among the wall surfaces 25 which oppose the fan 2 of the flange-shaped part 24 rather than the position which opposes the outer peripheral end 2a of the fan 2. FIG. However, the position may be opposite to the outer peripheral end 2 a of the fan 2.

  (2) In the above-described embodiment, the first wall 31 is provided so as to be in contact with the electric motor 4 and is used as a holding wall for holding the electric motor 4, but the first wall 31 is in contact with the electric motor 4. It does not have to be.

  (3) In the above embodiment, the motor-side wall 9 of the casing 5 is constituted by the flange-shaped portion 24 of the motor holding portion 22 and the wall 26 of the scroll portion 21 on the electric motor 4 side. The wall 9 on the motor side of the casing 5 may be configured only by the wall 26 located on the motor side of the portion 21. In this case, the second and third walls 32 and 33 are provided on the wall 26 of the scroll portion 21 on the electric motor 4 side.

  (4) In the first embodiment, the second wall 32 other than the first wall 31 for holding the motor is provided at a position on the inner side in the fan radial direction from the outer peripheral end 2a of the fan 2 in the wall 9 on the motor side. Although one is arranged, a plurality of concentric shapes may be arranged by adding a cylindrical wall.

  Similarly, one third wall 33 is provided in the motor-side wall 9 at a position radially outside the fan 2 in the fan radial direction from the outer peripheral end 2a of the fan 2, but a cylindrical wall is further added to form a concentric shape. A plurality of them may be arranged.

  (5) The above-described embodiments may be arbitrarily combined within a feasible range.

It is sectional drawing of the centrifugal air blower 1 in 1st Embodiment of this invention. It is a front view of the motor holding part 22 in FIG. 1 seen from the inlet side. It is sectional drawing of the centrifugal air blower for demonstrating the principle of the penetration | invasion prevention of the water to the electric motor 4 by 1st Embodiment. It is sectional drawing of the centrifugal air blower in 2nd Embodiment. It is sectional drawing of the centrifugal air blower in 3rd Embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Centrifugal blower 2 Fan 2a Outer peripheral edge of fan 3 Rotating shaft 4 Electric motor 5 Casing 9 Motor side wall 31 First wall 32 Second wall 33 Third wall

Claims (2)

A centrifugal fan (2) having a plurality of blades (11) around a rotating shaft (3);
An electric motor (4) for rotationally driving the rotating shaft (3);
The fan (2) is accommodated, an air passage (6) is formed on the outer periphery of the fan (2), and an air inlet (7) is provided on one end side in the axial direction of the rotating shaft (3), A casing (5) having the electric motor (4) attached to the other end side in the axial direction of the rotating shaft (3);
The fan (2) and the electric motor (4) are installed such that the rotating shaft (3) is parallel to the horizontal direction,
The casing (5) has a motor-side wall (9) to which the electric motor (4) is attached,
On the motor side wall (9),
A cylindrical first wall (31) projecting parallel to the rotating shaft (3) toward the fan (2) and surrounding the electric motor (4);
Out of the first wall (31) in the fan radial direction, the first wall (31) protrudes in parallel with the rotating shaft (3) toward the fan (2), and is arranged concentrically with the first wall (31). A cylindrical second wall (32) is provided,
The second wall (32) is provided on the motor side so that the blown air from the fan (2) does not flow directly between the first wall (31) and the second wall (32). is disposed inside the fan radial direction from a position facing the outer peripheral edge (2a) of the position or the fan opposed to the outer peripheral edge (2a) (2) of the fan (2) of the wall (9) ,
The fan (2) connects the plurality of blades (11) at the other axial end of the rotating shaft (3) and is coupled to the rotating shaft (3) to connect the electric motor (4). It has a main plate (13) with a covering shape,
The second wall (32) faces the outer end (13a) of the main plate (13) or the position facing the outer end (13a) of the main plate (13) in the motor side wall (9). It is arranged inside the fan radial direction from the position,
The second wall (32) has a height (H2) in a direction parallel to the rotating shaft (3) from the motor-side wall (9), so that the height of the first wall (31) ( H1) or higher than the height (H1) of the first wall (31) and parallel to the rotating shaft (3), the motor-side wall (9) and the fan (2 ) Or more than half the distance (D1),
The motor side wall (9) protrudes in parallel with the rotating shaft (3) toward the fan (2) outside the second wall (32) in the fan radial direction, and the first, A cylindrical third wall (33) arranged concentrically with the second wall (31, 32) is provided;
The centrifugal blower characterized in that the third wall (33) is disposed on the outer side in the fan radial direction with respect to the outer peripheral end (2a) of the fan (2) . The height (H3) of the third wall (33) in a direction parallel to the rotation shaft (3) from the wall (9) on the motor side is the height (H2) of the second wall (32). The centrifugal blower according to claim 1 , wherein the centrifugal blower is the same.

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