JP2010116811A - Air blower - Google Patents

Abstract

In a blower device in which an electric motor is held via a vibration isolating rubber, a problem is that heat dissipation is deteriorated because the periphery of the electric motor becomes an air layer.
An electric motor 10 is sandwiched between a holding frame 13 and a holding base 14 from the axial direction of a rotary shaft 9 via vibration-proof rubbers 15a and 15b containing a filler serving as a buffer material, and is fixed to a casing 12, and the holding frame is fixed. 13 is located on the side of the heating element 3, the holding base 14 is located on the side opposite to the heating element 3, and the covering portion 16 of the heating element 3 of the outer jacket 7 transfers heat to the holding frame 13 via the vibration isolating rubber 15a. The heat generated from the heat generating element 3 by the vibration isolating rubber 15a is transmitted to the holding frame 13 and radiated from the holding frame 13, so that the heat output is good and the output is high. A blower can be provided.
[Selection] Figure 1

Description

  The present invention relates to a blower equipped with an electric motor, which is mainly used for a ventilation blower.

  In recent years, in a blower used for a ventilation blower, high output, improvement of heat dissipation performance of an electric motor, and long life have been demanded while ensuring low noise.

  Conventionally, in this type of blower, it is known that the motor is held by a steel plate cover only in the axial direction via a vibration-proof rubber, and the periphery of the other motor is a gap. (For example, refer to Patent Document 1).

  Hereinafter, the blower will be described with reference to FIG.

As shown in FIG. 5, the electric motor 102 is held by being sandwiched by a steel plate cover 112 via a vibration-proof rubber 110.
JP 11-164512 A

  However, according to such a conventional blower, since the bearing portion of the electric motor is held via the anti-vibration rubber for the purpose of reducing noise, a gap is formed between the electric motor and the steel plate cover. Since there is no path for the heat generated from the heat to be transmitted and the heat dissipation performance of the motor is deteriorated, the service life is shortened by lowering the output of the blower and increasing the operating temperature of components such as the heating elements. .

  The present invention solves such a conventional problem, and improves the heat dissipation performance of an electric motor without deteriorating the vibration isolation performance.

  In order to achieve the above object, the air blower of the present invention is formed by integrally forming a stator core around which an armature winding is wound, a printed circuit board on which a heating element is mounted, and the stator core and the printed circuit board with a resin. A molded stator having a sheath formed thereon, an electric motor comprising a rotor having a rotating shaft that is rotatably held facing the stator core, blades fixed to the rotating shaft, and a casing A blower including a configured centrifugal blower, wherein the electric motor is sandwiched by a holding frame and a holding base from the axial direction of the rotating shaft via a cushioning material and fixed to the casing. A structure that is located on the side of the heat generating element, the holding base is located on the side opposite to the heat generating element, and the covering portion of the heat generating element of the outer cover transfers heat to the holding frame via the cushioning material It is characterized in that the.

  By this means, the heat generated from the heat generating element by the cushioning material is transmitted to the holding frame and radiated from the holding frame, so that a high-output blower with good heat dissipation performance can be obtained.

  In another aspect, the holding frame is made of metal. By this means, the heat transfer in the holding frame is improved and the heat dissipation performance is improved, so that a high-output blower with better heat dissipation performance can be obtained.

  Another means is characterized in that the cushioning material is an anti-vibration rubber. By this means, transmission of vibrations to the holding frame can be effectively prevented, so that a much lower noise blower can be obtained.

  The other means is characterized in that the cushioning material is a vibration-proof elastomer. By this means, transmission of vibrations to the holding frame can be effectively prevented, so that a much lower noise blower can be obtained.

  Another means is that the buffer material contains a filler. By this means, the heat transfer in the cushioning material is improved and the heat dissipation performance is improved, so that a high-output blower with better heat dissipation performance can be obtained.

  Further, the other means is characterized in that the cushioning material is brought into contact with the entire axial end surface of the rotating shaft in the outer jacket on the heating element side. By this means, since the volume of the cushioning material is increased, heat transfer is improved, so that a high-output air blower with better heat dissipation performance can be obtained.

  The other means is characterized in that a metal member is interposed between the covering portion and the cushioning material. By this means, the heat generated from the heat generating element is transmitted and diffused through the metal member, so that a high-output air blower with better heat dissipation performance can be obtained.

  In another aspect, the metal member is an alloy containing aluminum. By this means, heat is transmitted through aluminum having good thermal conductivity, so that a high-output air blower with better heat dissipation performance can be obtained.

  Another means is that an aluminum tape is attached to the covering portion, and the aluminum tape is in contact with the cushioning material. By this means, since the adhesiveness of the aluminum tape to the mold stator is increased, a high-output air blower with better heat dissipation performance can be obtained.

  Another means is characterized in that the covering portion is a convex portion, and a portion of the cushioning material facing the convex portion is a concave portion. By this means, the contact area between the covering portion and the cushioning material can be increased, the volume of the cushioning material is increased, and heat can be effectively transferred. An output blower can be obtained.

  Another means is characterized in that the convex portion fits into the concave portion. By this means, the adhesion between the convex part and the concave part is enhanced, and heat can be effectively transferred, so that a high-output blower with better heat dissipation performance can be obtained.

  The other means is characterized in that a metal member provided with a depression in a portion facing the convex portion is interposed between the convex portion and the concave portion. By this means, the contact area between the convex part and the metal plate is increased, and heat can be effectively transferred, so that a high-output blower with better heat dissipation performance can be obtained.

  Another means is that the metal member is an alloy containing aluminum. By this means, heat is transmitted through aluminum having good thermal conductivity, so that a high-output air blower with better heat dissipation performance can be obtained.

  Another means is characterized in that the convex portion is fitted into the recess. By this means, the adhesion between the convex portion and the recess is enhanced, and heat can be effectively transferred, so that a high-output blower with better heat dissipation performance can be obtained.

  In another aspect, the holding frame is located in the casing. By this means, the heat transmitted to the holding frame is cooled by the air blown by the blades, and the heat can be effectively radiated from the holding frame. Is obtained.

  The blower of the above means is preferably used for a ventilation blower. Ventilation blowers require low noise, high output, improved heat dissipation performance of motors, and longer life.

  According to the present invention, the heat generated from the heat generating element by the cushioning material is transmitted to the holding frame, and thus is radiated from the holding frame. Therefore, it is possible to provide a high-output air blower with good heat dissipation performance.

  In addition, according to the present invention, since the holding frame is made of metal, the heat transfer in the holding frame is improved, so that the heat dissipation performance can be improved. Equipment can be provided.

  In addition, according to the present invention, since the cushioning material is a vibration-proof rubber, transmission of vibrations to the holding frame can be effectively prevented, so that a much lower noise blowing device can be provided.

  In addition, according to the present invention, since the cushioning material is made of an anti-vibration elastomer, transmission of vibrations to the holding frame can be effectively prevented, so that a much lower noise blower can be provided.

  In addition, according to the present invention, since the cushioning material contains a filler, the heat transfer in the cushioning material is improved, so that the heat radiation performance can be improved. An output blower can be provided.

  In addition, according to the present invention, since the cushioning material is brought into contact with the entire surface of the axial end surface of the rotating shaft in the outer jacket on the heating element side, the volume of the cushioning material is increased, so that heat transfer Therefore, it is possible to provide a high-output air blower with better heat dissipation performance.

  In addition, according to the present invention, since the metal member is interposed between the covering portion and the cushioning material, the heat generated from the heating element is transmitted and diffused through the metal member, so that the heat dissipation performance is further improved. A high output blower can be provided.

  In addition, according to the present invention, since the metal member is made of an alloy containing aluminum, heat is transmitted through aluminum having good thermal conductivity. Can provide.

  Further, according to the present invention, since the aluminum tape is attached to the covering portion and the aluminum tape is brought into contact with the cushioning material, the adhesiveness of the aluminum tape to the mold stator is further increased. A high-output blower with good heat dissipation performance can be provided.

  According to the present invention, since the covering portion is a convex portion, and the portion of the cushioning material that faces the convex portion is a concave portion, the contact area between the covering portion and the cushioning material can be increased. In addition, since the volume of the cushioning material is increased and heat can be effectively transmitted, a high-output air blower with better heat dissipation performance can be provided.

  In addition, according to the present invention, since the convex portion fits into the concave portion, the adhesion between the convex portion and the concave portion is improved, and heat can be effectively transferred, so that heat dissipation performance is further improved. Can provide a high-power blower with good output.

  In addition, according to the present invention, since a recess is provided in a portion of the metal plate facing the convex portion, the contact area between the convex portion and the metal plate is increased, and heat can be effectively transferred. Therefore, it is possible to provide a high-output air blower with better heat dissipation performance.

  In addition, according to the present invention, since the convex portion fits into the recess, the adhesion between the convex portion and the recess is enhanced, and heat can be effectively transferred, so that heat dissipation performance is further improved. Can provide a high-power blower with good output.

  According to the present invention, since the holding frame is located in the casing, the heat transmitted to the holding frame is cooled by air blown by the blades, and heat is effectively radiated from the holding frame. Therefore, it is possible to provide a high-output air blower with better heat dissipation performance.

  The blower of the above means is preferably used for a ventilation blower. Ventilation blowers require low noise, high output, improved heat dissipation performance of motors, and longer life.

  According to the first aspect of the present invention, the stator core around which the armature winding is wound, the printed circuit board on which the heating elements are mounted, and the stator core and the printed circuit board are integrally formed of resin. A mold stator having an outer cover, an electric motor including a rotor having a rotating shaft that is rotatably held facing the stator iron core, blades fixed to the rotating shaft, and a casing. A blower including a centrifugal blower, wherein the electric motor is sandwiched by a holding frame and a holding base from the axial direction of the rotating shaft via a cushioning material and fixed to the casing, and the holding frame is on the heating element side The holding base is located on the opposite side of the heating element, and the covering portion of the heating element of the outer cover is configured to transfer heat to the holding frame via the cushioning material. Is intended to be, heat generated from the heat generating element by the buffer material to transfer to the holding frame, has the effect of heat is radiated from the holding frame.

  The invention according to claim 2 is characterized in that the holding frame is made of metal, and heat transfer in the holding frame is improved, so that heat radiation performance can be improved.

  The invention described in claim 3 is characterized in that the cushioning material is a vibration-proof rubber, and has an effect of effectively preventing transmission of vibration to the holding frame.

  The invention according to claim 4 is characterized in that the cushioning material is made of an anti-vibration elastomer, and has an effect of effectively preventing transmission of vibration to the holding frame.

  The invention described in claim 5 is characterized in that the cushioning material contains a filler, and has the effect of improving heat transfer and improving heat dissipation performance in the cushioning material.

  The invention according to claim 6 is characterized in that the cushioning material is brought into contact with the entire axial end surface of the rotary shaft in the outer jacket on the heat generating element side, and the volume of the cushioning material is Since it becomes large, heat transfer is improved, and the heat dissipation performance is improved.

  The invention according to claim 7 is characterized in that a metal member is interposed between the covering portion and the cushioning material, and heat generated from the heating element is transmitted through the metal member and diffused. , Has the effect of improving the heat dissipation performance.

  The invention according to claim 8 is characterized in that the metal member is an alloy containing aluminum, heat is transmitted through aluminum having good thermal conductivity, and heat dissipation performance is improved. Has the effect of causing

  The invention according to claim 9 is characterized in that an aluminum tape is attached to the covering portion, and the aluminum tape is in contact with the cushioning material, and the adhesiveness of the aluminum tape to the mold stator is good. As a result, the heat dissipation performance is improved.

  The invention according to claim 10 is characterized in that the covering portion is a convex portion, and a portion of the cushioning material facing the convex portion is a concave portion, and the covering portion and the cushioning material are in contact with each other. The area can be increased, the volume of the buffer material is increased, heat can be effectively transferred, and the heat radiation performance is improved.

  The invention according to claim 11 is characterized in that the convex part is fitted into the concave part, and the adhesion between the convex part and the concave part can be improved, and the heat radiation performance is improved. Have

  The invention according to claim 12 is characterized in that a metal member provided with a depression in a portion facing the convex portion is interposed between the convex portion and the concave portion. The contact area between the metal plates is increased, heat can be effectively transferred, and the heat radiation performance is further improved.

  The invention according to claim 13 is characterized in that the metal member is an alloy containing aluminum, and heat is transmitted through aluminum having good thermal conductivity, so that heat dissipation performance is further improved. A high-output blower with good output can be obtained.

  The invention according to claim 14 is characterized in that the convex portion is fitted in the depression, and the adhesion between the convex portion and the depression can be improved, and the heat radiation performance is improved. Have.

  The invention according to claim 15 is characterized in that the holding frame is located in the casing, and the heat transmitted to the holding frame is cooled by air blown by the blades, and the heat dissipation performance is good. It has the effect of making it.

  The blower of the above means is preferably used for a ventilation blower. Ventilation blowers require low noise, high output, improved heat dissipation performance of motors, and longer life.

(Embodiment 1)
As shown in FIG. 1, a stator core 2 around which an armature winding 1 is wound and a printed circuit board 4 on which a heating element 3 is mounted are integrally molded with a resin 5 to form a mold stator 6 and an outer cover 7. Is forming. A rotor 8 is rotatably held facing the stator core 2, and a shaft 9 passes through the center to constitute an electric motor 10. A blade 11 is attached to the shaft 9 and its periphery is covered with a casing 12 to constitute a centrifugal blower. The electric motor 10 is fixed to the casing 12 by being sandwiched by a steel frame holding frame 13 and a holding base 14 from the axial direction through anti-vibration rubbers 15a and 15b containing a filler serving as a buffer material. The holding frame 13 is located on the side of the heating element 3, the holding base 14 is located on the side opposite to the heating element 3, and the holding frame 13 is located in the casing 12. The entire end face in the axial direction of the outer cover 7 on the heating element 3 side has a structure for transferring heat to the holding frame 13 via the anti-vibration rubber 15a.

  According to such a blower of the present invention, the heat generated from the heat generating element 3 is transmitted to the anti-vibration rubber 15 a and is transmitted to the holding frame 13. Since the holding frame 13 is located in the casing 12, the heat is efficiently radiated by the air blown by the blades 11. Therefore, since the heat radiation performance is improved and the temperature during use of the heat generating element 3 and other components is reduced, a high-power and long-life blower can be realized. In addition, since the anti-vibration rubber 15a is mixed with a filler, heat can be transferred efficiently. Further, since the holding frame 13 is made of a steel plate, heat can be transferred efficiently.

  In the first embodiment, the vibration-proof rubbers 15a and 15b are used as the shock-absorbing materials. However, there is no difference in function and effect even when the vibration-proof elastomer is used, and a high-output and long-life blower with good heat dissipation performance can be realized.

  Further, in the first embodiment, the structure is such that the vibration isolating rubber 15a is provided on the entire axial end surface of the outer cover 7 on the heating element 3 side, but even if only a part of the covering portion of the heating element 3 is provided as necessary. Similarly, it is possible to achieve a high output and long life blower with good heat dissipation performance.

(Embodiment 2)
As shown in FIG. 2, the blower according to the second embodiment of the present invention has a metal plate between the covering portion 16 of the heat generating element 3 of the outer cover 7 and the antivibration rubber 15 a containing a filler as a cushioning material. As a result, an aluminum plate 17 is interposed. Other parts that are the same as those in the embodiment are excluded from the drawings and description thereof is omitted.

  According to such a blower of the present invention, the heat generated from the heating element 3 is transmitted and diffused through the aluminum plate 17, so that it is possible to realize a blower with high heat dissipation and high output and long life.

  In the second embodiment, the aluminum plate 17 is used. However, even when an aluminum tape is applied, the adhesiveness of the aluminum tape to the mold stator 6 is increased. A device can be realized.

(Embodiment 3)
As shown in FIG. 3, the blower of the third embodiment of the present invention has a vibration-proof rubber 15 a containing a filler as a cushioning material, with the covering portion 16 of the heating element 3 of the outer cover 7 as a convex portion 18. Of these, a portion facing the convex portion 18 is a concave portion 19. Other parts that are the same as those in the embodiment are excluded from the drawings and description thereof is omitted.

  According to such a blower of the present invention, the heat transfer area can be increased and the buffering area can be increased by increasing the contact area between the covering portion 16 and the vibration isolating rubber 15a containing the filler serving as a buffer material. Since the volume of the anti-vibration rubber 15a containing the filler, which is a material, is increased and heat can be transferred effectively, a high output and long life blower with good heat dissipation performance can be realized.

  In the third embodiment, the concave portion 19 facing the convex portion 18 is used. However, by fitting the concave portion 19 to the convex portion 18, the adhesion between the convex portion 18 and the concave portion 19 is improved, and heat is effectively applied. Therefore, it is possible to realize a high output and long life blower with good heat dissipation performance.

(Embodiment 4)
As shown in FIG. 3, the blower according to the fourth embodiment of the present invention includes an aluminum plate 17 as a metal plate between the covering portion 16 of the heating element 3 of the outer cover 7 and the vibration-proof rubber 15a that is a cushioning material. The covering portion 16 is a convex portion 18 and the portion of the aluminum plate 17 that faces the convex portion 18 is a recess 20. Other parts that are the same as those in the embodiment are excluded from the drawings and description thereof is omitted.

  According to such a blower of the present invention, by increasing the contact area between the convex portion 18 and the aluminum plate 17, the heat transfer area can be widened and heat can be effectively transferred, A high output and long life blower with good heat dissipation performance can be realized.

  In the fourth embodiment, the depression 20 is opposed to the projection 18, but by fitting the depression 20 to the projection 18, the adhesion between the projection 18 and the depression 20 is increased, and heat is effectively applied. Therefore, it is possible to realize a high output and long life blower with good heat dissipation performance.

  The blower of the above means is preferably used for a ventilation blower. Ventilation blowers require low noise, high output, improved heat dissipation performance of motors, and longer life.

  As described above, the blower according to the present invention has both a vibration isolating performance and a heat radiating performance, and is a ventilation blower, an air conditioner, and an air purifier that are required to achieve high output and long life. It is useful to install on air conditioners, dehumidifiers, humidifiers, etc.

Sectional drawing of the air blower of Embodiment 1 of this invention Sectional drawing of holding frame vicinity of Embodiment 2 of this invention Sectional drawing of holding frame vicinity of Embodiment 3 of this invention Sectional drawing of holding frame vicinity of Embodiment 4 of this invention Cross-sectional view of a conventional blower

Explanation of symbols

1 Armature Winding 2 Stator Core 3 Heating Element 4 Printed Circuit Board 5 Resin 6 Mold Stator 7 Outer Cover 8 Rotor 9 Shaft 10 Motor 11 Blade 12 Casing 13 Holding Frame 14 Holding Base 15a, 15b Anti-Vibration Rubber 16 Covering Part 17 Aluminum plate 18 Convex part 19 Concave part 20 Dimple

Claims (15)

A stator core around which armature windings are wound, a printed circuit board on which a heating element is mounted, a mold stator in which an outer cover is formed by integrally molding the stator core and the printed circuit board with resin, and A blower provided with an electric motor comprising a rotor having a rotating shaft, which is rotatably held facing the stator iron core, a blade fixed to the rotating shaft, and a centrifugal blower composed of a casing. The electric motor is sandwiched by a holding frame and a holding base from the axial direction of the rotating shaft via a cushioning material and fixed to the casing, the holding frame is located on the heating element side, and the holding base is the heating element An air blower characterized in that the heat generating element covering portion of the outer cover is configured to transmit heat to the holding frame via the cushioning material. The blower according to claim 1, wherein the holding frame is made of metal. The blower according to claim 1 or 2, wherein the cushioning material is a vibration-proof rubber. The blower according to claim 1 or 2, wherein the cushioning material is an anti-vibration elastomer. The blower according to any one of claims 1 to 4, wherein the cushioning material contains a filler. The blower according to any one of claims 1 to 5, wherein the cushioning material is brought into contact with the entire surface of the end surface in the axial direction of the rotation shaft in the outer jacket on the heating element side. The blower according to any one of claims 1 to 6, wherein a metal member is interposed between the covering portion and the cushioning material. The blower according to claim 7, wherein the metal member is an alloy containing aluminum. The blower according to any one of claims 1 to 6, wherein an aluminum tape is attached to the covering portion, and the aluminum tape is in contact with the cushioning material. The blower according to claim 1, wherein the covering portion is a convex portion, and a portion of the cushioning material that faces the convex portion is a concave portion. The blower according to claim 10, wherein the convex portion is fitted into the concave portion. The blower according to claim 10 or 11, wherein a metal member provided with a depression in a portion facing the convex portion is interposed between the convex portion and the concave portion. The blower according to claim 12, wherein the metal member is an alloy containing aluminum. The blower according to claim 12 or 13, wherein the convex portion is fitted into the recess. The blower according to claim 1, wherein the holding frame is located in the casing.

Images