WO2012096247A1 - 電動ファン - Google Patents
電動ファン Download PDFInfo
- Publication number
- WO2012096247A1 WO2012096247A1 PCT/JP2012/050232 JP2012050232W WO2012096247A1 WO 2012096247 A1 WO2012096247 A1 WO 2012096247A1 JP 2012050232 W JP2012050232 W JP 2012050232W WO 2012096247 A1 WO2012096247 A1 WO 2012096247A1
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- WO
- WIPO (PCT)
- Prior art keywords
- fan
- wall
- boss
- stator
- bracket
- Prior art date
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04B—POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
- F04B17/00—Pumps characterised by combination with, or adaptation to, specific driving engines or motors
- F04B17/03—Pumps characterised by combination with, or adaptation to, specific driving engines or motors driven by electric motors
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D25/00—Pumping installations or systems
- F04D25/02—Units comprising pumps and their driving means
- F04D25/06—Units comprising pumps and their driving means the pump being electrically driven
- F04D25/0606—Units comprising pumps and their driving means the pump being electrically driven the electric motor being specially adapted for integration in the pump
- F04D25/0613—Units comprising pumps and their driving means the pump being electrically driven the electric motor being specially adapted for integration in the pump the electric motor being of the inside-out type, i.e. the rotor is arranged radially outside a central stator
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04D—NON-POSITIVE-DISPLACEMENT PUMPS
- F04D29/00—Details, component parts, or accessories
- F04D29/08—Sealings
- F04D29/083—Sealings especially adapted for elastic fluid pumps
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K5/00—Casings; Enclosures; Supports
- H02K5/04—Casings or enclosures characterised by the shape, form or construction thereof
- H02K5/10—Casings or enclosures characterised by the shape, form or construction thereof with arrangements for protection from ingress, e.g. water or fingers
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K7/00—Arrangements for handling mechanical energy structurally associated with dynamo-electric machines, e.g. structural association with mechanical driving motors or auxiliary dynamo-electric machines
- H02K7/14—Structural association with mechanical loads, e.g. with hand-held machine tools or fans
Definitions
- the present invention relates to an electric fan used for cooling a radiator of an automobile, for example.
- This application claims priority based on Japanese Patent Application No. 2011-002953 filed in Japan on January 11, 2011, the contents of which are incorporated herein by reference.
- an outer rotor type electric brushless motor is sometimes used as an electric fan for cooling a radiator of an automobile.
- This type of electric motor includes a stator formed by winding a coil around a plurality of teeth, a bottomed cylindrical rotor yoke that covers the stator from its front surface, a permanent magnet disposed on the inner peripheral surface of the rotor yoke, and a stator And a rotary shaft that rotatably supports the rotor yoke.
- a fan blade is provided on the outer periphery of the rotor yoke. When a current is supplied to the coil, a magnetic field is formed on the teeth of the stator.
- the electric motor since the rotor yoke rotates outside the stator, a separate cover is required to ensure the watertightness inside, and the electric motor becomes large.
- the electric motor is usually constituted by an open type in which the rotor yoke is exposed, and as a result, water tends to easily enter from the outside.
- the motor described in Patent Document 1 is provided with a waterproof wall to prevent water from entering from the air intake port on the front surface of the rotor yoke provided for cooling the inside.
- the structure is provided with a drain hole for discharging the water to the outside.
- the stator is provided with a motor holder so as to close the opening of the rotor yoke. The motor holder prevents water from entering the rotor yoke.
- the motor according to the related art described above has a structure in which the rotor yoke rotates with respect to the motor holder, a gap needs to be formed between the motor holder and the opening of the rotor yoke. Water enters the interior from this gap, and the intrusion path is simply formed, so that it is not possible to effectively suppress water intrusion into the rotor yoke.
- the present invention has been made in view of the above-described circumstances, and an object of the present invention is to provide an electric fan that can effectively prevent water from entering the motor.
- an electric fan includes an electric motor, a fan body attached to the electric motor, and a fan shroud for fixing the electric motor.
- the electric motor includes a stator formed by winding a coil, a rotating shaft provided in a radial center of the stator and rotatably provided with respect to the stator, a rotating shaft, and the stator.
- a rotor yoke formed in a bottomed cylindrical shape so as to cover from the front surface, a bracket formed to cover a rear surface of the stator, and for fixing the stator to the fan shroud, the rotating shaft, and
- the fan body is provided to rotate integrally with the rotor yoke.
- the fan body includes a fan boss formed in a bottomed cylindrical shape so as to cover the rotor yoke from the front surface, and a plurality of blades projecting radially from the outer peripheral surface of the fan boss.
- a first labyrinth portion is provided between the opening of the fan boss and the fan shroud.
- the electric motor can be covered with the fan boss and the fan shroud.
- the first labyrinth portion is formed between the fan boss and the fan shroud, the infiltration path of water into the electric motor is complicated. For this reason, the penetration
- the fan shroud is formed so as to rise toward the fan body side at the outer peripheral portion of the base portion to which the bracket is attached, and the fan boss opening.
- a cylindrical first intrusion restriction wall that covers the portion from the outside in the radial direction.
- the peripheral wall of the fan boss and the first intrusion restriction wall are formed so as to overlap each other in the radial direction.
- the first labyrinth portion is constituted by the peripheral wall of the fan boss and the first intrusion restriction wall.
- the first labyrinth portion can be formed with a simple structure, and the entry of water into the electric motor can be reliably suppressed at a low cost.
- the base portion has a cylindrical second intrusion restriction wall extending radially inward from the first intrusion restriction wall until reaching the front wall of the fan boss. It is formed so as to stand out.
- a bag path is formed by the base portion of the fan shroud, the first intrusion restriction wall, and the second intrusion restriction wall. The amount of this path is formed, so that the water intrusion path is long and complicated, and water intrusion into the electric motor can be suppressed.
- a second labyrinth portion is provided between the fan shroud and the bracket.
- the base portion of the fan shroud is formed in a substantially annular shape so that a central portion is largely opened and overlaps with an outer peripheral portion of the bracket in the axial direction. Further, the fan shroud is provided so that a gap is formed between the base portion and the bracket, and the bracket and the base portion constitute a second labyrinth portion.
- the second labyrinth portion can be formed with a simple structure. For this reason, it is possible to suppress the intrusion of water into the electric motor at a low cost and to drain the water that has entered inside to the outside. Furthermore, by forming a gap, cooling of the bracket is promoted, and heat damage to the electric motor can be suppressed.
- the rotor yoke has a bottom wall and a peripheral wall formed so as to rise in the axial direction from the bottom wall. .
- hub part which protrudes on the same side as the said surrounding wall is integrally formed in the radial direction center of the said rotor yoke.
- a water shield ring is attached to the periphery of the boss portion from the inner surface side of the bottom wall in the vicinity of the stator, and a third labyrinth portion is provided between the water shield ring and the stator.
- the bearing can be prevented from getting wet even when water enters the rotor yoke. Therefore, the outflow of the lubricant of the bearing is suppressed, and sound vibration performance and durability are improved.
- the electric motor can be covered with the fan boss and the fan shroud.
- the first labyrinth portion is formed between the fan boss and the fan shroud, the infiltration path of water into the electric motor is complicated. For this reason, the penetration
- FIG. 1 is a plan view in which a part of the electric fan is cut out
- FIG. 2 is a cross-sectional view in which the electric fan is cut in the vertical direction.
- the arrow F in FIG. 2 points to the front side of the vehicle.
- the direction indicated by the arrow F (left direction in FIG. 2) is expressed as “front”, and the direction opposite to the direction indicated by the arrow F (right direction in FIG. 2) is expressed as “rear”. .
- the electric fan 1 is a member used for cooling a radiator of a vehicle, for example, and is installed on the front side of a radiator (not shown).
- the electric fan 1 includes an electric motor 2 that is a drive unit, and a fan body 3 that is rotationally driven by the electric motor 2.
- the electric fan 1 is configured such that the electric motor 2 is attached to a radiator (not shown) via a fan shroud 4.
- the electric motor 2 is configured by an outer rotor type brushless motor, and includes a stator 11 around which a plurality of exciting coils 10 are wound, a bracket 12 that supports the stator 11, and a rotary shaft that is rotatably supported by the bracket 12. 13, a rotor yoke 14 formed by press-molding a steel plate material and coupled to the rotary shaft 13 so as to be integrally rotatable, and a control unit 15 that feeds back the rotation of the rotor yoke 14 and controls energization of the coil 10. .
- the stator 11 has an annular stator core 18 formed by laminating a plurality of metal plates.
- the stator core 18 is provided with a plurality of teeth 18a projecting radially outward in the radial direction.
- a coil 10 is wound around these teeth 18a via an insulator 19 which is an insulating member.
- the stator core 18 can also be formed by pressurizing soft magnetic powder.
- the bracket 12 includes a base portion 51 formed in a substantially disc shape so as to cover the rear surface of the stator 11, and a substantially cylindrical intrusion restricting wall 52 formed so as to rise forward from the outer peripheral edge of the base portion 51. Is an integrally molded member.
- the intrusion restricting wall 52 is a member for suppressing water from entering the rotor yoke 14.
- An outer flange portion 53 is integrally formed on the opening edge 52a of the intrusion restriction wall 52 toward the outer side in the radial direction. In the present embodiment, a part of the outer flange portion 53 rises forward from the base portion 51 in parallel with the intrusion restricting wall 52 at a position where the outer flange portion 53 protrudes radially outward. It is formed of a double intrusion restricting wall composed of a wall portion to be formed, and is configured such that the gap between the peripheral wall 34b of the fan boss 34 and the outer flange portion 53 is constant, as will be described later.
- FIG. 5 is a perspective view of a single bracket 12 as viewed from the front side.
- the intrusion restricting wall 52 disposed on the outermost peripheral side of the bracket 12 has a circular curved surface in the entire inner peripheral surface excluding the vertically lower region.
- the bracket 12 is formed with a concave portion 51a in which a base portion side is recessed in a stepped shape by a predetermined depth d with respect to an inner peripheral surface region (general portion of the inner peripheral surface) forming a circular curved surface. As shown in FIG.
- the inner peripheral surface of the intrusion restricting wall 52 has a gap between the opening edge of the peripheral wall 29 of the rotor yoke 14 (including the outer flange portion 33) when the rotor yoke 14 is assembled to the bracket 12. It is a part which has and.
- the recessed portion 51a formed in the vertically lower region is formed to be recessed radially outward with respect to the general portion, the separation width between the recessed portion 51a and the edge on the opening side of the rotor yoke 14 is different from that of the other portion ( Partial enlargement with respect to (general part).
- the recess 51a is formed in a groove shape in a range extending from the base portion of the water intrusion restriction wall 52 (a portion rising substantially horizontally from the vertical surface of the bracket 12) to the extending end.
- the bottom surface 51b of the recess 51a is formed as an inclined surface that is inclined downward from the base portion toward the extending end.
- the water droplets that have entered the inner peripheral side of the intrusion restriction wall 52 flow downward along the inner peripheral surface of the intrusion restriction wall 52, the vertical surface of the bracket 12, the outer peripheral surface of the cylindrical wall 26, and the like. Then, after flowing into the recess 51a in the lower region, it is discharged to the outside through a gap between the opening edge of the rotor yoke 14 and the recess 51a.
- the depth d of the recess 51a formed in the water intrusion restricting wall 52 is determined by the fact that water droplets adhere to the corner of the base of the water intrusion restricting wall 52 of the recess 51a due to surface tension, and the water droplets freeze.
- the depth is set such that the ice block does not come into contact with the edge of the rotor yoke 14 on the opening side.
- the intrusion restriction wall 52 is formed so that the clearance between the peripheral wall 34b of the fan boss 34 and the peripheral wall 34b of the fan boss 34 is slightly increased on the outer periphery on the ground side in the vertical direction, and water droplets flowing into the lower region inside the peripheral wall 34b 34 may be easily discharged to the outside.
- reference numerals 54 and 55 denote waterdrop discharge tapered surfaces formed in the vertically lower regions of the inner peripheral surfaces of the cylindrical walls 26 and 27.
- the base portion 51 is provided with a fixed arm 12a so as to extend outward from the outer peripheral edge in the radial direction.
- the fixed arm 12 a is a member for fastening and fixing the bracket 12 to the fan shroud 4.
- a cylindrical boss portion 12 b is projected from the front side of the base portion 51 at the center in the radial direction.
- a substantially cylindrical stator fixing pipe 17 that fixes the stator 11 on the outer peripheral side is attached to the boss portion 12b.
- stator fixing pipe 17 One end of the stator fixing pipe 17 is press-fitted and fixed inside the boss portion 12b, and the other end is provided to protrude forward from the front end portion of the boss portion 12b.
- the stator core 18 is fitted and fixed to the outer peripheral surface of the region protruding forward from the boss portion 12b of the stator fixing pipe 17.
- two cylindrical walls 26 and 27 having an outer diameter smaller than the intrusion restricting wall 52 are formed on the front surface of the base portion 51 coaxially with the boss portion 12b.
- the cylindrical walls 26 and 27 enter the interior of the rotor yoke 14, and water droplets flowing from the outer peripheral side of the upper portion of the bracket 12 to the center side where the electrical contacts and the control unit 15 are disposed are aligned along the outer peripheral surface of the bracket 12. It is a member for making it drip below.
- the rotating shaft 13 extends substantially horizontally along the longitudinal direction of the vehicle body and is rotatably supported by the boss portion 12b of the bracket 12 and the stator fixing pipe 17 via a pair of bearings 20a and 20b. .
- a rear end portion of the rotating shaft 13 protrudes rearward from the bearing 20a, and a sensor ring 21 for detecting rotation is attached to the protruding end.
- the rotation of the rotating shaft 13 detected using the sensor ring 21 is output to the control unit 15 as rotation information of the rotor yoke 14.
- the control unit 15 has a sensor case 55 fixed to the bracket 12 via a screw (not shown).
- the sensor case 55 accommodates a control board 56 on which a Hall element (not shown) for detecting a change in the magnetic field generated from the sensor ring 21 is mounted.
- the control board 56 is also provided with a drive circuit including a switching element that sequentially supplies current to the predetermined coil 10 and a rectifier circuit.
- control board 56 and the coil 10 are electrically connected to each other via a connection terminal 57.
- a connection terminal 57 On the bracket 12 side of the sensor case 55, a conductive portion 58 that guides the connection terminal 57 is formed to protrude.
- An insertion hole 59 that penetrates the sensor case 55 in the thickness direction is formed in the conduction portion 58.
- a connection terminal 57 is inserted through the insertion hole 59.
- the sensor case 55 is provided with connector portions 59a and 59b for outputting an output signal from the control board 56 to an external control device (not shown) or the like so as to protrude outward in the radial direction.
- an output signal from the control board 56 is output to the control device.
- the front end portion of the rotating shaft 13 protrudes forward from the bearing 20b, and the rotor yoke 14 and the fan body 3 are attached to the protruding portion.
- the rotor support portion 22 is formed in the projecting region on the front side of the rotating shaft 13 so as to be adjacent to the bearing 20 b and the diameter of the rotor support portion 22 is increased, and the rotor support portion is adjacent to the rotor support portion 22.
- a fan fixing portion 23 having a diameter smaller than 22 is formed.
- a male screw portion 24 having a diameter smaller than that of the fan fixing portion 23 is formed on the front end side of the fan fixing portion 23 of the rotating shaft 13.
- the rotor yoke 14 is a member formed in a bottomed cylindrical shape so as to cover the stator 11 from the front surface thereof.
- the rotor yoke 14 has a bottom wall 28 and a peripheral wall 29 formed so as to rise from the bottom wall 28 toward the rear in the axial direction.
- a plurality of drain holes 61 are formed at equal intervals in the circumferential direction on the outer peripheral side of the bottom wall 28.
- the drain hole 61 has a function of discharging the water that has entered the rotor yoke 14.
- the drain hole 61 has a function of discharging air from the inside of the rotor yoke 14.
- a boss portion 28 a that protrudes on the same side as the peripheral wall 29 is integrally formed at the center in the radial direction of the bottom wall 28.
- the boss portion 28 a is press-fitted and fixed to the outer periphery of the rotor support portion 22 of the rotating shaft 13.
- a water shield ring 60 is spotted around the boss portion 28 a of the bottom wall 28 of the rotor yoke 14 from the inner surface (back surface) side of the bottom wall 28 concentrically with the boss portion 28 a. It is attached by welding.
- the water shield ring 60 is an annular member that is formed of the same material as the rotor yoke 14 and includes an inner ring portion 60a and an outer ring portion 60b that is formed eccentrically in the axial direction from the inner ring portion 60a.
- a peripheral edge portion of the outer ring portion 60b is provided inside the peripheral wall of the insulator 19 of the stator 11 and close to a midway portion in the height direction.
- An annular groove is formed by the bottom wall 28 and the outer ring portion 60b.
- the third labyrinth portion 61 is formed between the outer ring portion 60 b of the water shield ring 60 and the peripheral wall of the insulator 19. For this reason, even when water enters the portion of the water shield ring 60, the water is guided downward along the concave groove between the bottom wall 28 and the water shield ring 60, and the rotor yoke is passed through the water drain hole 61. 14 is discharged to the outside. As a result, entry of water into the bearings 20a and 20b is prevented. Therefore, the third labyrinth portion 61 prevents the water that has entered the rotor yoke 14 from entering the bearings 20a and 20b. Therefore, the outflow of the lubricant in the bearings 20a and 20b is suppressed, the lubricating performance of the bearings 20a and 20b is maintained, and sound vibration performance and durability are improved.
- a plurality of magnets 30 are attached to the inner surface of the circumferential wall 29 of the rotor yoke 14 along the circumferential direction. These magnets 30 are attached so as to face the tips of the teeth 18 a of the stator 11.
- an outer flange portion 33 that is bent radially outward is provided on the peripheral wall 29 of the rotor yoke 14 so as to protrude from an opening edge (rear edge) 29a.
- the opening edge 29a of the rotor yoke 14 including the outer flange portion 33 is formed between the intrusion restricting wall 52 of the bracket 12 and the cylindrical wall 26 in a state where the rotor yoke 14 is assembled to the bracket 12 via the rotary shaft 13 and the bearings 20a and 20b. Arranged in the space between.
- the opening edge 29a of the rotor yoke 14 is configured to overlap the infiltration restricting wall 52 and the cylindrical wall 26 by a predetermined amount in the radial direction.
- the rotor yoke 14, the intrusion restricting wall 52, and the cylindrical wall 26 form a wrap region R1 (see the hatched portion).
- the outer flange portion 33 has a function as a restriction wall that restricts water droplets dropped on the outer peripheral surface of the peripheral wall 29 of the rotor yoke 14 from flowing into the opening edge 29a side, and also functions as a reinforcing portion of the rotor yoke 14. Have.
- the fan body 3 includes a fan boss 34 formed in a bottomed cylindrical shape so as to cover the rotor yoke 14 from the front surface thereof, and a plurality of blades 35 provided so as to protrude radially from the outer peripheral surface of the fan boss 34. ing.
- the fan boss 34 and the blade 35 are integrally formed of resin.
- the fan boss 34 is a member in which a bottom wall 34a and a peripheral wall 34b formed so as to rise rearward from the bottom wall 34a are integrally formed.
- An opening 36 is formed in the center of the bottom wall 34a.
- a separate metal plate 37 is attached to the bottom wall 34a from the rear side so as to close the opening 36.
- the metal plate 37 is a member constituting a shaft fixing portion for directly fixing the fan body 3 to the rotating shaft 13.
- a fitting hole 38 into which the fan fixing portion 23 of the rotating shaft 13 is fitted is formed at the center of the metal plate 37.
- the metal plate 37 is fitted to the fan fixing portion 23 of the rotating shaft 13 together with the washer 39, and the nut 40 is tightened into the male screw portion 24 of the rotating shaft 13 protruding from the metal plate 37.
- the washer 39 fitted to the fan fixing portion 23 together with the metal plate 37 is formed in contact with the vicinity of the rotor support portion 22 having a larger diameter than the fan fixing portion 23 on the rotating shaft 13. Therefore, a gap S ⁇ b> 1 that is separated in the axial direction is secured between the bottom wall 28 of the rotor yoke 14 and the metal plate 37.
- the metal plate 37 that is a shaft fixing portion is fixed to the bottom wall of the fan boss 34 by a plurality of screws 31.
- the fixing of the metal plate 37 to the fan boss 34 is not limited to screwing, and the metal plate 37 may be embedded and fixed to the inner peripheral edge of the fan boss 34 by insert molding.
- the edge portion of the opening 34d in the peripheral wall 34b of the fan boss 34 is more than the outer flange portion 53 of the intrusion restricting wall 52 in the bracket 12 in a state where the fan body 3 is assembled to the rotating shaft 13 via the metal plate 37. Is also arranged radially outward.
- the edge of the opening 34d in the peripheral wall 34b of the fan boss 34 is configured to overlap the infiltration restricting wall 52 by a predetermined amount in the radial direction, and the peripheral wall 34b of the fan boss 34 and the outer flange portion 53 It is comprised so that the clearance gap between may become constant.
- the peripheral wall 34b and the intrusion restricting wall 52 form a wrap region R2 (see the hatched portion). With this configuration, the opening side (rear end side) of the rotor yoke 14 is covered with the peripheral wall 34 b of the fan boss 34 and the intrusion restricting wall 52 of the bracket 12.
- a second peripheral wall 34c is formed on the bottom wall 34a of the fan boss 34 such that the second peripheral wall 34c rises toward the rear side on the radially inner side of the peripheral wall 34b.
- the second peripheral wall 34c is provided to extend from the bottom wall 34a to the front of the intrusion restriction wall 52 of the bracket 12.
- the bottom wall 34a and the peripheral wall 34b of the fan boss 34 form a bag path portion 62.
- the peripheral wall 34 b of the fan boss 34, the intrusion restricting wall 52 of the bracket 12, and the outer flange portion 53 formed on the intrusion restricting wall 52 are used to suppress water from entering the rotor yoke 14 from the outside.
- a labyrinth portion 63 is configured.
- FIG. 3 is a perspective view of the fan shroud.
- the fan shroud 4 for fixing the electric motor 2 is a member configured to be fixedly installed on the front side of the radiator.
- the fan shroud 4 has a base frame 41 formed in a substantially C shape so as to take in the periphery of the bracket 12.
- a protective frame 42 is integrally formed on the opening side of the base frame 41 so as to surround one side of the control unit 15. That is, the fan shroud 4 is formed in a generally annular shape in plan view as a whole.
- the protection frame 42 is a member for protecting the connector portions 59a and 59b so as to avoid contact with external components while avoiding interference with the connector portions 59a and 59b provided in the control unit 15. .
- a flange base 43 is integrally formed on the outer peripheral edge of the base frame 41 so as to protrude rearward by a step.
- a cylindrical first intrusion restricting wall 44 is provided on the outer peripheral edge of the flange base 43 so as to rise toward the fan main body 3 side.
- the first intrusion restriction wall 44 is formed so as to be positioned on the outer side in the radial direction from the peripheral wall 34 b of the fan boss 34 in a state where the electric motor 2 is attached to the fan shroud 4.
- the first intrusion restriction wall 44 is formed so that the opening edge 44a side overlaps the peripheral wall 34b of the fan boss 34 by a predetermined amount in the radial direction.
- a wrap region R3 (see the hatched portion in FIG. 2) is formed by the first intrusion restriction wall 44 and the peripheral wall 34b of the fan boss 34.
- the electric motor 2 is covered with the fan boss 34 and the fan shroud 4.
- the first labyrinth portion 46 for suppressing the ingress of water into the interior is formed by forming the wrap region R3 by the peripheral wall 34b of the fan boss 34 and the first intrusion restricting wall 44 of the fan shroud 4. Is done.
- a reinforcing frame 71 for enhancing the rigidity of the base frame 41 is integrally formed around the first intrusion restriction wall 44.
- the reinforcing frame 71 has a plurality of ribs 71a.
- the plurality of ribs 71 a are provided on the outer peripheral surface of the first intrusion restriction wall 44, thereby increasing the overall rigidity of the base frame 41.
- the base frame 41 has a stepped portion 43 a formed between the flange base 43, that is, a cylindrical second intrusion restriction wall 45 extending from the inner peripheral edge of the flange base 43 toward the fan body 3. Is integrally molded. A plurality of ribs 72 are provided at equal intervals in the circumferential direction between the first intrusion restriction wall 44 and the second intrusion restriction wall 45. As a result, the rigidity of the first intrusion restriction wall 44 and the second intrusion restriction wall 45 is increased.
- the second intrusion restriction wall 45 is formed to extend from the base frame 41 to the front of the peripheral wall 34 b of the fan boss 34. By forming the second intrusion restricting wall 45 in this manner, the second intrusion restricting wall 45 and the first intrusion restricting wall 44 form the bag path portion 47 by the flange base 43.
- the second intrusion restriction wall 45 is formed so as to be located radially inward of the peripheral wall 34b of the fan boss 34 in a state where the electric motor 2 is attached to the fan shroud 4.
- the opening 34 d of the fan boss 34 has the first intrusion restriction wall 44 and the second intrusion restriction when the electric motor 2 is attached to the fan shroud 4 and the fan body 3 is further attached to the electric motor 2. It arrange
- the base frame 41 is formed with a pedestal portion 48 on which the fixed arm 12a can be placed at a portion corresponding to the fixed arm 12a of the bracket 12.
- a gap S2 is formed between the base frame 41 and the base portion 51 of the bracket 12.
- the base frame 41 and the base portion 51 of the bracket 12 are configured to overlap each other in the axial direction, and the base frame 41 and the base portion 51 form a wrap region R4 (see the hatched portion in FIG. 2).
- the base frame 41 and the base part 51 of the bracket 12 constitute a second labyrinth part 49.
- the rotor yoke 14 and the fan boss 34 of the electric fan 1 cover the stator 11 from the front surface, the ingress of water from the front side of the stator 11 is prevented.
- the first labyrinth portion 46 is constituted by the peripheral wall 34 b of the fan boss 34 and the first intrusion restriction wall 44 of the fan shroud 4. Since the second labyrinth portion 49 is configured by the base frame 41 and the base portion 51 of the bracket 12, entry of water into the electric motor 2 is suppressed.
- FIG. 4 is an explanatory diagram of the behavior of water when water is applied to the outer periphery of the fan shroud.
- the first labyrinth portion 46 is formed between the fan shroud 4 and the peripheral wall 34b of the fan boss 34. It is difficult for water to enter the space between the fan shroud 4 and the peripheral wall 34b of the fan boss 34 (see arrow Y1 in FIG. 4). It is desirable that the wrap region R3 (see FIG. 2) where the first labyrinth portion 46 is formed be set as large as possible. By setting the wrap region R3 to be large, the entry of water is more effectively suppressed.
- the bag path portion 47 is formed by the base 43, the water intrusion route to the electric motor 2 is complicated and long. For this reason, it is difficult for water to enter the electric motor 2. Further, since the bag shroud portion 47 is formed in the fan shroud 4, water can be prevented from entering the electric motor 2 from behind the fan shroud 4 (right side in FIG. 4) (see arrow Y2 in FIG. 4). .
- the intrusion restricting wall 52 is integrally formed with the base portion 51 of the bracket 12, and the opening edge 52a of the intrusion restricting wall 52 is further formed. Since the outer flange portion 53 is integrally formed, water hardly flows from the bracket 12 to the electric motor 2 side. Further, since the gap S2 is formed between the base frame 41 and the base portion 51 of the bracket 12, the water that has entered the inside through the fan shroud 4 and dripped onto the intrusion regulation wall 52 of the bracket 12 is It drains to the outside through the gap S2.
- the cooling of the bracket 12 is promoted by forming the gap S2. That is, since the stator 11 of the electric motor 2 is attached to the bracket 12, the heat of the electric motor 2 is easily transmitted to the bracket 12. At this time, since a gap S2 is formed between the bracket 12 and the fan shroud 4, air passes through the gap S2, and cooling of the bracket 12 is promoted. As a result, the heat dissipation performance of the bracket 12 for the electric motor 2 is also improved.
- the bracket 12 side from the rear of the fan shroud 4 is formed. It is difficult for water to enter the interior (see arrow Y3 in FIG. 4).
- the wrap region R4 (see FIG. 2) in which the second labyrinth portion 49 is formed is desirably set as large as possible. By setting the wrap region R4 to be large, the entry of water is more effectively suppressed.
- a water shield ring 60 is attached around the boss portion 28 a of the bottom wall 28 of the rotor yoke 14 from the back side of the bottom wall 28.
- the 3rd labyrinth part 61 is formed because the peripheral part of the outer peripheral part is provided inside the peripheral wall of the insulator 19 and close to the midway part in the height direction. Therefore, it is possible to prevent water that has entered the rotor yoke 14 from reaching the bearings 20a and 20b.
- the wrap region R3 (see the hatched portion in FIG. 2) is formed by the first intrusion restricting wall 44 of the fan shroud 4 and the peripheral wall 34b of the fan boss 34, and the first labyrinth portion 46 is formed.
- the electric motor 2 can be covered with the fan boss 34 and the fan shroud 4.
- water can be effectively prevented from entering the fan shroud 4, that is, the electric motor 2.
- the wrap region R3 by the first intrusion restricting wall 44 of the fan shroud 4 and the peripheral wall 34b of the fan boss 34, the first labyrinth portion 46 can be formed with a simple structure. For this reason, it is possible to suppress the entry of water into the electric motor 2 at a low cost.
- first intrusion restriction wall 44 is formed on the base frame 41 of the fan shroud 4 so as to rise
- second intrusion restriction wall 45 is formed on the radially inner side of the first intrusion restriction wall 44
- the first intrusion restricting wall 44, the second intrusion restricting wall 45, and the flange base 43 form a bag path portion 47. For this reason, the water intrusion route to the electric motor 2 is complicated and long, and water intrusion into the electric motor 2 can be more reliably suppressed.
- the second labyrinth portion 49 is formed so that the base portion 51 and the base frame 41 overlap in the axial direction while the gap S2 is provided between the base portion 51 of the bracket 12 and the base frame 41 of the fan shroud 4. Is formed. For this reason, the water that has entered the fan shroud 4 can be quickly drained while suppressing the intrusion of water into the fan shroud 4 from behind the fan shroud 4 with a simple structure. Therefore, water can be prevented from accumulating inside. In addition to this, cooling of the bracket 12 can be promoted, and thermal damage to the electric motor 2 can be suppressed.
- the third labyrinth portion 61 can prevent water from reaching the bearings 20a and 20b. Therefore, the outflow of the lubricant in the bearings 20a and 20b is suppressed, the lubricating performance of the bearings 20a and 20b is maintained, and sound vibration performance and durability are improved.
- the cooling fan 1 includes the triple water intrusion prevention structure by the first labyrinth portion 46, the second labyrinth portion 49, and the third labyrinth portion 61. Therefore, the bearings 20a and 20b are surely provided. Can be prevented from getting wet.
- the present invention is not limited to the above-described embodiment, and includes various modifications made to the above-described embodiment without departing from the spirit of the present invention.
- the wrap region R3 is formed by the peripheral wall 34b of the fan boss 34 and the first intrusion restricting wall 44 of the fan shroud 4, thereby preventing the intrusion of water into the inside.
- the case where the 1 labyrinth part 46 is configured has been described.
- the configuration is not limited to the above, and a labyrinth portion may be formed between the fan shroud 4 and the peripheral wall 34b of the fan boss 34, and the shape of the labyrinth portion is not particularly specified.
- the base frame 41 and the base portion 51 of the bracket 12 are formed so as to overlap each other in the axial direction, and the base frame 41 and the base portion 51 are overlapped with each other in the wrap region R4 (hatched in FIG. 2).
- the second labyrinth portion 49 is configured by the base frame 41 and the base portion 51 of the bracket 12.
- the configuration is not limited to the above, and it is only necessary that a labyrinth portion is formed between the bracket 12 and the fan shroud 4, and the shape of the labyrinth portion is not particularly specified.
- the electric motor can be covered with the fan boss and the fan shroud.
- the first labyrinth portion is formed between the fan boss and the fan shroud, the infiltration path of water into the electric motor is complicated. For this reason, the penetration
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Abstract
Description
また、ロータヨークの外周にはファンブレードが設けられている。そして、コイルに電流が供給されるとステータのティースに磁界が形成される。その結果、ステータのティースとロータヨークの永久磁石との間に磁気的な吸引力や反発力が生じてロータヨークが回転し、ファンブレードによって回転軸の軸方向に冷却風が発生する。
例えば、特許文献1に記載されたモータは、内部を冷却するために設けられたロータヨークの前面の空気取り入れ口から水が浸入することを防止するために防水壁が設けられ、水が浸入した際にこの水を外部に排出するための水抜き孔が設けられた構造を備える。
また、ステータには、ロータヨークの開口部を閉塞するようにモータホルダが設けられている。モータホルダによって、ロータヨークの内部への水の浸入が抑制される。
次に、本発明の一実施形態を図面に基づいて説明する。
図1は、電動ファンの一部を切り欠いた平面図、図2は、電動ファンを鉛直方向に沿って切った断面図である。なお、図2における矢印Fは、車両の前方側を指している。以下の説明においては、矢印Fの指す方向(図2における左方向)を「前」、矢印Fの指す方向と逆の方向(図2における右方向)を「後」などと表現して説明する。
電動モータ2は、アウタロータ型のブラシレスモータによって構成され、励磁用の複数のコイル10が巻装されたステータ11と、ステータ11を支持するブラケット12と、ブラケット12に回転自在に支持される回転軸13と、鋼板材をプレス成形してなり、回転軸13に一体回転可能に結合されたロータヨーク14と、ロータヨーク14の回転をフィードバックしてコイル10の通電を制御する制御ユニット15とを備えている。
ここで、水浸入規制壁52に形成される凹部51aの窪みの深さdは、凹部51aの水浸入規制壁52の付け根部側のコーナに水滴が表面張力によって付着し、その水滴が凍結して氷塊となった場合に、その氷塊がロータヨーク14の開口側の縁部と接触することがない深さに設定されている。
なお、浸入規制壁52を天地方向の地側にて外周でファンボス34の周壁34bとの間の隙間が若干大きくなるように形成し、周壁34bの内側の下方領域に流れ込んだ水滴をファンボス34の外部に排出しやすくしてもよい。
なお、図5において、符号54,55は、各円筒壁26、27の内周面の各鉛直下方領域に形成された水滴排出用のテーパ面を示す。
また、ベース部51の前面側には、径方向の中央に円筒状のボス部12bが突設されている。ボス部12bには、外周側でステータ11を固定する略円筒状のステータ固定パイプ17が取り付けられている。
また、ベース部51の前面には、外径が浸入規制壁52よりも小さい2つの円筒壁26,27がボス部12bと同軸に形成されている。円筒壁26,27は、ロータヨーク14の内部に浸入し、ブラケット12の上部の外周側から、電気接点や制御ユニット15の配置されている中心側に流入する水滴を、ブラケット12の外周面に沿わせて下方に滴下させるための部材である。
また、センサケース55には、制御基板56からの出力信号を外部の制御機器(不図示)等に出力するためのコネクタ部59a,59bが径方向の外側に向かって突出して設けられている。コネクタ部59a,59bに外部の制御機器(不図示)から延びるハーネスが接続されることにより、制御機器に制御基板56からの出力信号が出力される。
具体的には、回転軸13の前部側の突出領域には、軸受20bに隣接してロータ支持部22が拡径して形成されるとともに、そのロータ支持部22に隣接してロータ支持部22よりも径が小さいファン固定部23が形成されている。そして、回転軸13のファン固定部23よりも先端側にはファン固定部23よりも径が小さい雄ねじ部24が形成されている。
また、底壁28の径方向中央には、周壁29と同側に突出するボス部28aが一体的に形成されている。そして、ボス部28aが回転軸13のロータ支持部22の外周に圧入されて固定されている。
ウォータシールドリング60は、ロータヨーク14と同じ材質で形成され、内輪部60aと内輪部60aより軸方向に偏心して形成された外輪部60bとで構成される環状部材である。外輪部60bの周縁部は、ステータ11のインシュレータ19の周壁内側であって高さ方向の中途部に近接して設けられている。そして、底壁28と外輪部60bとで環状の凹溝が形成されている。この構成により、ウォータシールドリング60の外輪部60bとインシュレータ19の周壁との間に第3ラビリンス部61が形成される。
そのため、ウォータシールドリング60の部位まで水が浸入した場合でも、水は、底壁28とウォータシールドリング60の間の凹溝を伝って下方に誘導され、前述の水抜き孔61を介してロータヨーク14の外部に排出される。その結果、軸受20a、20b部分への水の浸入が防止される。したがって、ロータヨーク14の内部に浸入した水の軸受20a,20bへの侵入は、第3ラビリンス部61によって防止される。そのため、軸受20a,20bにおける潤滑材の流出が抑制され、軸受20a,20bの潤滑性能が維持され、音振性能及び耐久性が向上する。
なお、外フランジ部33は、ロータヨーク14の周壁29の外周面に滴下した水滴が、開口縁29a側に流れ込むのを規制する規制壁としての機能を有するとともに、ロータヨーク14の補強部としての機能も有する。
ファンボス34は、底壁34aと、底壁34aから後方に向かって立ち上がるように形成された周壁34bとが一体的に成形された部材である。底壁34aの中央には開口部36が形成される。さらに、底壁34aには、開口部36を閉塞するように別体の金属プレート37が後面側から取り付けられている。
本実施形態の場合、軸固定部である金属プレート37はファンボス34の底壁に複数のビス31によって固定されている。ただし、ファンボス34に対する金属プレート37の固定はビス止めに限らず、金属プレート37がファンボス34の内周縁部にインサート成形によって埋め込まれて固定されてもよい。
また、ファンボス34の周壁34bと、ブラケット12の浸入規制壁52と、浸入規制壁52に形成されている外フランジ部53とにより外部からロータヨーク14の内部への水の浸入を抑制するためのラビリンス部63が構成される。
図3は、ファンシュラウドの斜視図である。
図1~図3に示すように、電動モータ2を固定するためのファンシュラウド4は、ラジエータの前方側に固定して設置されるように構成された部材である。ファンシュラウド4は、ブラケット12の周囲を取り込むように略C字状に形成されたベースフレーム41を有している。ベースフレーム41の開口側には、制御ユニット15の一側を取り囲むように、保護フレーム42が一体成形されている。すなわち、ファンシュラウド4は、全体として平面視略環状に形成されている。
保護フレーム42は、制御ユニット15に設けられているコネクタ部59a,59bとの干渉を回避しつつ、コネクタ部59a,59bと外部の部品との接触を回避できるように保護するための部材である。
その結果、ファンボス34とファンシュラウド4とで電動モータ2が覆われる。また、ファンボス34の周壁34bと、ファンシュラウド4の第1浸入規制壁44とでラップ領域R3が形成されることにより、内部への水の浸入を抑制するための第1ラビリンス部46が構成される。
また、第2浸入規制壁45は、ベースフレーム41からファンボス34の周壁34bの手前に至るまで延出して形成される。このように第2浸入規制壁45が形成されることにより、第2浸入規制壁45と第1浸入規制壁44とがフランジベース43とにより袋小路部47が形成される。
さらに、ベースフレーム41、およびブラケット12のベース部51は、互いに軸方向で重なり合うように構成されており、ベースフレーム41とベース部51とでラップ領域R4(図2におけるハッチ部参照)が形成される。そして、ベースフレーム41と、ブラケット12のベース部51とにより、第2ラビリンス部49が構成される。
より詳しく、図4に基づいて、第1ラビリンス部46、第2ラビリンス部49、および第3ラビリンス部61の作用について説明する。
図4は、ファンシュラウドの外周部に水がかかった場合の水の挙動についての説明図である。
なお、第1ラビリンス部46が形成されるラップ領域R3(図2参照)は、できるかぎり大きく設定されることが望ましい。ラップ領域R3が大きく設定されることにより、より効果的に水の浸入が抑制される。
また、ファンシュラウド4に袋小路部47が形成されているので、ファンシュラウド4の後方(図4における右方)から電動モータ2内部への水の浸入が防止される(図4における矢印Y2参照)。
また、ベースフレーム41とブラケット12のベース部51との間に隙間S2が形成されているので、ファンシュラウド4を介して内部に浸入し、ブラケット12の浸入規制壁52に垂れ落ちた水は、隙間S2を通って外部に排水される。
なお、第2ラビリンス部49が形成されるラップ領域R4(図2参照)は、できるかぎり大きく設定されていることが望ましい。ラップ領域R4が大きく設定されることにより、より効果的に水の浸入が抑制される。
上述の実施形態によれば、ファンシュラウド4の第1浸入規制壁44とファンボス34の周壁34bとによりラップ領域R3(図2におけるハッチ部参照)が形成され、第1ラビリンス部46が形成される。そのため、ファンボス34とファンシュラウド4とで電動モータ2を覆うことができる。その結果、ファンシュラウド4の内部、つまり、電動モータ2の内部への水の浸入を効果的に抑制することができる。
ファンシュラウド4の第1浸入規制壁44とファンボス34の周壁34bとによりラップ領域R3が形成されることにより、簡素な構造で第1ラビリンス部46を形成することができる。このため、安価に電動モータ2の内部への水の浸入を抑制することができる。
例えば、上述の実施形態では、ファンボス34の周壁34bと、ファンシュラウド4の第1浸入規制壁44とでラップ領域R3が形成されることにより、内部への水の浸入を抑制するための第1ラビリンス部46が構成される場合について説明した。しかしながら、上記構成に限られず、ファンシュラウド4とファンボス34の周壁34bとの間にラビリンス部が形成されていればよく、特にラビリンス部の形状は特定されない。
2 電動モータ
3 ファン本体
4 ファンシュラウド
10 コイル
11 ステータ
12 ブラケット
13 回転軸
14 ロータヨーク
34 ファンボス
34b 周壁
34d 開口部
35 ブレード
41 ベースフレーム(ベース部)
42 保護フレーム(ベース部)
43 フランジベース(ベース部)
44 第1浸入規制壁
45 第2浸入規制壁
46 第1ラビリンス部
49 第2ラビリンス部
51 ベース部
60 ウォータシールドリング
61 第3ラビリンス部
Claims (6)
- 電動モータと、
前記電動モータに取り付けられるファン本体と、
前記電動モータを固定するためのファンシュラウドとを備え、
前記電動モータは、
コイルが巻装されているステータと、
前記ステータの径方向中央に設けられ、前記ステータに対して回転自在に設けられた回転軸と、
前記回転軸に設けられ、前記ステータをその前面から覆うように有底筒状に形成されたロータヨークと、
前記ステータの後面を覆うように形成され、前記ステータを前記ファンシュラウドに固定するためのブラケットとを有し、
前記回転軸、および前記ロータヨークと一体に回転するように前記ファン本体が設けられている電動ファンであって、
前記ファン本体は、
前記ロータヨークをその前面から覆うように有底筒状に形成されたファンボスと、
前記ファンボスの外周面から放射状に突出して設けられた複数のブレードとを有し、
前記ファンボスの開口部と前記ファンシュラウドとの間に第1ラビリンス部が設けられた電動ファン。 - 前記ファンシュラウドは、
前記ブラケットが取り付けられるベース部と、
前記ベース部の外周部に前記ファン本体側に向かって立ち上がるように形成され、前記ファンボスの開口部を径方向外側から覆う筒状の第1浸入規制壁とを有し、
前記ファンボスの周壁、および前記第1浸入規制壁は、互いに径方向で重なるように形成され、
前記ファンボスの周壁、および前記第1浸入規制壁によって前記第1ラビリンス部が構成されている請求項1に記載の電動ファン。 - 前記ベース部には、前記第1浸入規制壁よりも径方向内側に、筒状の第2浸入規制壁が前記ファンボスの周壁の手前に至るまで延出するように立ち上がって形成されている請求項2に記載の電動ファン。
- 前記ファンシュラウドと前記ブラケットとの間に、第2ラビリンス部が設けられた請求項1~請求項3の何れかに記載の電動ファン。
- 前記ファンシュラウドの前記ベース部が、中央部が大きく開口するように、かつ前記ブラケットの外周部と軸方向で重なるように略環状に形成され、
前記ベース部と前記ブラケットとの間に隙間が形成されるように前記ファンシュラウドが設けられ、
前記ブラケット、および前記ベース部によって第2ラビリンス部が構成されている請求項4に記載の電動ファン。 - 前記ロータヨークは、底壁と、前記底壁から軸方向に向かって立ち上がるように形成された周壁とを有し、
前記ロータヨークの径方向中央には、前記周壁と同側に突出するボス部が一体的に形成され、
前記ボス部の周囲には、前記底壁の内側面側から前記ステータに近接してウォータシールドリングが取付けられ、前記ウォータシールドリングと前記ステータとの間に第3ラビリンス部が設けられた請求項1に記載の電動ファン。
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Also Published As
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US20130287605A1 (en) | 2013-10-31 |
JP5536236B2 (ja) | 2014-07-02 |
JPWO2012096247A1 (ja) | 2014-06-09 |
US9249788B2 (en) | 2016-02-02 |
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