JP4174229B2 - Axial blower - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an axial blower used for various blowing applications (for example, exhaust of contaminated air, atomized paint, various gases, ventilation, supply of air, etc.).
[0002]
[Prior art]
As shown in FIG. 6, the axial blower 19 is used by being attached to a duct 20 that communicates with, for example, a hood 21, and is rotatably supported at the approximate center of the cylindrical housing 22 as shown in FIG. 7. The impeller 25 is rotated by the motor 27 through the driving pulley 28, the belt 29 and the driven pulley 26 in this order, so that the contaminated air taken in from the hood 21 is discharged to the outside.
[0003]
A belt cover 23 that covers and seals the driving pulley 28, the belt 29, and the driven pulley 26 supports the impeller 25 in order to ensure safety and to protect the belt 29 from contamination and deterioration due to exhaust air. It is also provided as a support member.
[0004]
[Problems to be solved by the invention]
However, in the conventional axial blower 19, although the wind is generated inside the belt cover 23 by the rotation of the belt 29 (arrow in FIG. 6), the inside of the belt cover 23 is sealed as described above and air Therefore, the frictional heat between the belt 29 and the drive pulley 28 and the driven pulley 26 increases the temperature of the belt 29 and stores heat in the belt cover 23. Further, in order to reduce the air resistance and make the blower highly efficient, the belt cover 23 needs to be as thin as possible, and the diameters of the driving pulley 28 and the driven pulley 26 need to be reduced. For this reason, there is also the generation of deformation heat due to the belt 29 being deformed with a small radius by both pulleys 28, 26, and this deformation heat also increases the temperature of the belt 29 and is stored in the belt cover 23. Thus, when the temperature of the belt 29 rises, there is a problem that the life of the belt 29 is shortened and the replacement frequency is increased.
[0005]
Therefore, as shown in FIG. 7, a method has been adopted in which a hole 30 is formed in the outer portion of the cylindrical housing 22 of the belt cover 23 to discharge the heat inside the belt cover 23. There is a limit to the heat release from heat and heat accompanying deformation, and the influence on the life of the belt 29 cannot be ignored.
[0006]
Accordingly, an object of the present invention is to solve the above problems and to cool the belt and the pulley without reducing the efficiency of the axial blower.
[0007]
[Means for Solving the Problems]
To achieve the above object, the axial-flow fan of the present invention employs the following means.
(1) A belt is wound around a driven pulley of an impeller provided inside the cylindrical casing from a driving pulley of a motor provided outside the cylindrical casing to transmit rotational power, and the driving pulley, the belt and the driven pulley In the axial blower with the belt cover covered,
From the opening penetrating the vicinity of the driven pulley of the belt cover, the outside of the belt cover and the inside of the cylindrical casing are extended in the radial direction of the cylindrical casing, and are provided in the peripheral wall of the cylindrical casing. Provide a heat exhaust pipe with an end connected to the area around the hole,
The axial blower characterized in that the cooling air inside the belt cover is discharged from the opening to the outside of the cylindrical housing through the hole through the inside of the exhaust heat pipe as an exhaust heat path .
(2) A belt is wound around a driven pulley of an impeller provided inside the cylindrical casing from a motor driving pulley provided outside the cylindrical casing to transmit rotational power, and the driving pulley, the belt and the driven pulley In the axial blower with the belt cover covered,
The inside of the belt cover is connected to the heat radiating section covering the driving pulley and the belt by a partition provided inside the belt cover, and the belt cover is connected to the heat radiating section in the vicinity of the driving pulley and outside the cylindrical housing. And an exhaust section communicating with the exhaust port provided in
An axial blower characterized in that the cooling air inside the belt cover is discharged from the exhaust port to the outside of the cylindrical housing through the exhaust section as a heat exhaust path.
[0008]
It is preferable to use a motor with a cooling fan that flows cooling air into the motor and discharges it to the driving pulley as the motor, and takes the discharged cooling air into the belt cover and flows it to the driven pulley. .
[0009]
The belt cover may be provided integrally with the belt cover provided outside the cylindrical casing and may be separate from the intake portion that takes in the cooling air discharged from the motor with the cooling fan.
[0010]
Preferably, the driven pulley is provided with blades that create a flow toward the exhaust heat path in the surrounding cooling air.
[0011]
The shape of the exhaust heat pipe of the above (1) is not particularly limited, but is preferably formed in a cross-sectional streamline having a low flow resistance with respect to the axial flow of the blower. The direction in which the exhaust heat pipe is formed extends in the radial direction of the cylindrical housing, and examples include those extending in a direction substantially perpendicular to the belt cover and those extending substantially parallel to the belt cover. The number of exhaust heat pipes is not particularly limited, but is appropriately selected in consideration of production costs and the effect of exhaust heat .
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a first embodiment in which the present invention is embodied in an axial flow fan for forced exhaust in a factory will be described with reference to FIGS.
[0013]
The axial blower of the present invention includes a cylindrical housing 1, an impeller 7, a motor 8 for rotating the impeller 7, a drive pulley 9 for transmitting the rotational power of the motor 8 to the impeller 7, A belt 10 and a driven pulley 6 are provided.
[0014]
The cylindrical housing 1 is formed in a cylindrical shape, and flanges 1a extending in the radial direction are provided at both ends thereof. A part of the cylindrical casing 1 includes a cylindrical inner cover 2 a that passes through a part of the cylindrical casing 1 from a substantially central portion of the cylindrical casing 1 and opens to the outside of the cylindrical casing 1. And an outer cover 2b formed so as to enclose the opening of the inner cover 2a or the output side of the motor 8 is formed.
[0015]
A motor 8 is attached to a pair of attachment portions 1b provided outside the cylindrical housing 1, and a drive pulley 9 fixed to the rotation shaft of the motor 8 is positioned above the opening of the inner cover 2a. Yes. As the motor 8, a motor with a cooling fan 8 a for flowing cooling air into the motor 8 and discharging it to the drive pulley 9 side is used, and the discharged cooling air is taken into the belt cover 2 to be driven pulley 6. It is designed to flow to the side.
[0016]
The inner end of the inner cover 2a is closed, and a bearing mounting portion 3 having a plane perpendicular to the axial direction of the cylindrical housing 1 is formed on the side near the inner end. A shaft 4 extending in the axial direction in and out of the inner cover 2a is disposed at the approximate center of the bearing mounting portion 3 so that the shaft 5 can rotate on a substantially frustoconical bearing 5 formed outside the bearing mounting portion 3. It is worn.
[0017]
A driven pulley 6 is attached to the proximal end of the shaft 4 inside the inner cover 2a. The driven pulley 6 is provided with blades 6a that create a flow toward the exhaust heat path described later in the surrounding cooling air.
[0018]
An impeller 7 is attached to the tip of the shaft 4 that extends to the outside of the inner cover 2a. The impeller 7 is provided inside the cylindrical casing 1 so as to coincide with the cylindrical casing 1 in the axial direction. The impeller 7 has a plurality of (six in the illustrated example) blades 7a.
[0019]
Further, from the vicinity of the driven pulley 6 inside the belt cover 2, an exhaust heat pipe 11 as an exhaust heat path communicating with the outside of the cylindrical housing 1 is provided separately from the belt cover 2. The cooling air is discharged through the exhaust heat pipe 11.
[0020]
The exhaust heat pipe 11 extends from the opening provided in the vicinity of the driven pulley 6 of the inner cover 2a to the outer surface of the inner cover 2a and reaches the cylindrical housing 1, and the cylindrical housing 1 is substantially orthogonal to the inner cover 2a. Two are extended in the radial direction. The outer end of each heat exhaust pipe 11 is connected to the cylindrical housing 1, and the inside of the heat exhaust pipe 11 is outside the cylindrical housing 1 by, for example, three holes 1 c penetrating the cylindrical housing 1 at the connection site. Communicating with The exhaust heat pipe 11 is formed in a cross-sectional streamline shape having a low flow resistance with respect to the axial flow of the blower.
[0021]
Inside the belt cover 2, a belt 10 is wound around a driving pulley 9 and a driven pulley 6 to transmit rotational power. Accordingly, the driving pulley 9, the belt 10 and the driven pulley 6 are covered with the belt cover 2.
[0022]
By using the axial blower as described above, after the cooling air generated by the cooling fan 8a built in the motor 8 is discharged to the drive pulley 9 side, the inside of the inner cover 2a is formed by the outer cover 2b of the belt cover 2. And is allowed to flow to the driven pulley 6 side. This allows air to flow around the drive pulley 9, the belt 10 and the driven pulley 6 (arrows in FIGS. 1 to 3), and the drive pulley 9, the belt 10 and the driven pulley 6 are cooled by cooling air in that order. . Thereafter, the cooling air flows from the inner end to the outer end of the exhaust heat pipe 11 and is discharged to the outside of the cylindrical housing 1, so that the heat is not stored inside the belt cover 2. Therefore, the temperature of the belt 10 is unlikely to rise, and the service life is extended, so the frequency of replacement is low.
[0023]
In addition, since the blade 6a is formed on the driven pulley 6, when the driven pulley 6 rotates, the blade 6a also rotates to promote the inflow of the cooling air into the exhaust heat pipe 11, and the heat exhaust effect is enhanced. Furthermore, since the exhaust heat pipe 11 is formed in a cross-sectional streamline shape having a low flow resistance with respect to the axial flow of the blower, the internal cross-sectional area of the exhaust heat pipe 11 is secured to enhance the exhaust heat effect and the air by the exhaust heat pipe 11 Resistance can be reduced.
[0024]
Next, FIG. 4 shows a second embodiment of the axial blower, which differs from the first embodiment only in the exhaust heat path, and only the differences will be described.
[0025]
The exhaust heat path in the present embodiment is an exhaust section 12 formed in a part of the belt cover 2 in place of the exhaust heat pipe 11 of the first embodiment. A partition 13 extending from the upper end of the outer cover 2b in FIG. 4 to the vicinity of the driven pulley 6 is formed inside the outer cover 2b and the inner cover 2a. Inside the outer cover 2b and the inner cover 2a, a heat radiating section 15 as a portion covering the drive pulley 9 and the belt 10 and an exhaust section 12 separated from the heat radiating section 15 by a partition 13 are formed. ing. The heat radiation section 15 and the exhaust section 12 communicate with each other in the vicinity of the driven pulley 6. Further, an exhaust port 14 communicating with the outside of the belt cover 2 is provided on the exhaust compartment 12 side of the outer cover 2b.
[0026]
In the axial blower of the present embodiment, the cooling air that flows toward the driven pulley 6 along the heat radiating section 15 cools the driving pulley 9, the belt 10, and the driven pulley 6 in that order, and the cooling air after cooling becomes It flows into the exhaust compartment 12. The cooled cooling air flows through the exhaust section 12 toward the exhaust port 14 and is discharged from the exhaust port 14 to the outside of the cylindrical housing 1.
[0027]
Therefore, this embodiment differs from the first embodiment only in the configuration of the exhaust heat path, and is basically the same as the first embodiment. And according to this embodiment, the same effect as a first embodiment is acquired.
[0028]
Next, FIG. 5 shows a third embodiment of the axial blower, which is different from the first embodiment only in the exhaust heat path, and only the differences will be described.
[0029]
In the present embodiment, only the portion corresponding to the heat radiating section 15 is left in the outer cover 2b, and the portion corresponding to the exhaust section 12 is excluded. In the axial blower of the present embodiment, the cooled cooling air is discharged from a part of the outer end of the inner cover 2a through the exhaust section 12 of the inner cover 2a. It is the same as that of a form and 2nd embodiment. And according to this embodiment, the effect similar to 1st embodiment and 2nd embodiment is acquired.
[0030]
In addition, this invention is not limited to the said embodiment, For example, it can also be suitably changed and embodied as follows, for example in the range which does not deviate from the meaning of invention.
(1) Change the number of exhaust heat pipes 11 such as one or three or more, or change the radiation direction in the cylindrical housing 1.
(2) Instead of the partition 13, a pipe extending from the vicinity of the driven pulley 6 to the vicinity of the exhaust port 14 is provided inside the belt cover 2.
[0031]
【The invention's effect】
As described in detail above, according to the axial fan according to the present invention, the belt and the pulley can be cooled without reducing the efficiency of the axial fan.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an axial blower according to an embodiment of the present invention.
FIG. 2 is a side view showing a coaxial flow blower.
FIG. 3 is a front view showing a coaxial flow blower.
FIG. 4 is a side view showing an axial blower according to a second embodiment of the present invention.
FIG. 5 is a side view showing an axial blower according to a third embodiment of the present invention.
FIG. 6 is a schematic view showing an example of use of an axial blower.
FIG. 7 is a perspective view showing a conventional axial fan.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Cylindrical housing 2 Belt cover 6 Driven pulley 7 Impeller 8 Motor 9 Drive pulley 10 Belt 11 Waste heat pipe as a waste heat path

Claims (5)

A belt (10) from a driving pulley (9) of a motor (8) provided outside the cylindrical housing (1) to a driven pulley (6) of an impeller (7) provided inside the cylindrical housing (1). ) To transmit the rotational power, and the axial flow fan in which the driving pulley (9), the belt (10) and the driven pulley (6) are covered with a belt cover (2),
From the opening penetrating the belt cover (2) in the vicinity of the driven pulley (6), the outside of the belt cover (2) and the inside of the cylindrical casing (1) are arranged in the radial direction of the cylindrical casing (1). A heat exhaust pipe (11) having an end connected to a peripheral portion of a hole (1c) penetrating the peripheral wall of the cylindrical casing (1),
Cooling air inside the belt cover (2) is discharged from the opening to the outside of the cylindrical housing (1) through the hole (1c) through the heat exhaust pipe (11) as a heat exhaust path. An axial blower characterized by being made to do so. The axial-flow fan according to claim 1 , wherein the exhaust heat pipe (11) is formed in a cross-sectional streamline shape having a low flow resistance with respect to the axial flow of the fan. A belt (10) from a driving pulley (9) of a motor (8) provided outside the cylindrical housing (1) to a driven pulley (6) of an impeller (7) provided inside the cylindrical housing (1). ) To transmit the rotational power, and the axial flow fan in which the driving pulley (9), the belt (10) and the driven pulley (6) are covered with a belt cover (2),
The inside of the belt cover (2) is divided into a heat radiating section (15) covering the drive pulley (9) and the belt (10) by a partition (13) provided therein, and the heat radiating section (15). A section is formed in the vicinity of the drive pulley (9) and an exhaust section (12) communicating from the cylindrical housing (1) to an exhaust port (14) provided in the belt cover (2) outside.
The cooling air inside the belt cover (2) is discharged from the exhaust port (14) to the outside of the cylindrical housing (1) through the exhaust section (12) as a heat exhaust path. An axial blower characterized by . As the motor (8), a motor with a cooling fan (8a) for flowing cooling air into the motor (8) and discharging it to the drive pulley (9) side is used, and the discharged cooling air is used as the belt cover (2). The axial blower according to claim 1, 2 or 3, wherein the axial flow fan is taken into the interior of the fan and flows toward the driven pulley (9) . Wherein the driven pulley (6), axial-flow fan according to claim 1, 2, 3 or 4, wherein providing the blade (6a) to make a flow toward the exhaust heat path to the cooling air of the surrounding.

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