JP4479895B2 - Motor fan shroud - Google Patents

Description

  The present invention relates to a structure of a motor fan shroud attached to a heat exchanger such as an automobile radiator or a condenser.

  Conventionally, heat exchangers such as radiators and condensers of automobiles use a motor fan to force a large amount of air to pass through the core. At this time, do not let the air taken in by the motor fan escape to the side. For this purpose, the airflow is guided by covering the motor fan and the heat exchanger with a motor fan shroud (see, for example, Patent Document 1).

Further, the rotational speed of the motor fan is controlled by electronic parts such as a register, and the electronic parts generate heat, so that they are usually fixed to a fan stay of a motor fan shroud.
JP 2003-278545 A

  However, in the conventional motor fan shroud, since the electronic component is fixed to the fan stay, there is a possibility that it acts as an air flow resistor and adversely affects the air volume and noise performance of the motor fan.

Therefore, when the electronic component is provided inside the motor fan shroud, the air flow in the vicinity of the electronic component is stagnated and the electronic component generates excessive heat, or the performance of the motor fan shroud is deteriorated. was there.
The installation position of the electronic component is limited to the vicinity of the motor fan because of the mounting layout, and the degree of freedom is small.

  The present invention has been made to solve the above-described problems, and the object of the present invention is to make the electronic components provided inside the motor fan shroud excessive without reducing the performance of the motor fan shroud. An object of the present invention is to provide a motor fan shroud that can suppress heat generation.

According to the first aspect of the present invention, a resin motor fan shroud is arranged so as to block between the heat exchanger and the periphery of the motor fan, and an electronic component or the like is disposed inside the motor fan shroud. And a first rib for guiding the air around the heating element to the motor fan side, and on the outside of the motor fan shroud, in the inner and outer directions of the first rib and the motor fan shroud. The second rib is formed so as to coincide with each other.

In the second aspect of the present invention, in the motor fan shroud of claim 1, wherein said second rib, characterized by being formed from the base of the fan stay on the fixed part of the motor fan shroud.

In the motor fan shroud according to claim 1, a heating element such as an electronic component is installed inside the motor fan shroud, and a first rib for guiding the air around the heating element to the motor fan side is formed. Since the first rib and the second rib are formed outside the motor fan shroud so as to match the inner and outer directions of the motor fan shroud , it is possible to prevent the air around the heating element from being stagnated. Excessive temperature rise of the heating element can be suppressed without degrading the performance of the motor fan shroud. In addition, the overall rigidity of the motor fan shroud can be improved.

In the motor fan shroud according to claim 2 is the second rib, for formed to extend from the base of the fan stay on the fixed part of the motor fan shroud, it is possible to improve the overall stiffness of the motor fan shroud.

  Embodiments of the present invention will be described below with reference to the drawings.

Example 1 will be described below.
1 is a view for explaining the inside of a motor fan shroud according to the first embodiment of the present invention, FIG. 2 is a perspective view thereof, FIG. 3 is a perspective view for explaining the outside of the motor fan shroud, and FIG. 4 is S4-S4 in FIG. 5 is a cross-sectional view taken along line S5-S5 in FIG. 2, and FIG. 6 is a cross-sectional view taken along line S6-S6 in FIG.

First, the overall configuration will be described.
As shown in FIGS. 1-3, the motor fan shroud A of the present Example 1 is for covering between the heat exchanger outside a figure and the circumference | surroundings of a motor fan, Comprising: In the box shape which the inside opened In addition to being formed, the whole is integrally formed of resin.
Further, a heat exchanger (not shown) is attached inside the motor fan shroud A, and a motor fan (not shown) is accommodated in the center.

Specifically, a fan opening 1 is formed at the center of the motor fan shroud A, and a fan ring 11 is formed continuously in a cylindrical shape outwardly from the fan opening 1.
Further, a plurality of fan stays 2a to 2f are extended from the fan ring 11 toward the center, and are connected to each other, thereby forming a fan fixing portion 3 for fixing the motor fan main body.
In addition, as shown in FIG. 4, the fan stays 2a to 2f of the present embodiment are formed in a U shape opening toward the outside, and a rib R is formed inside the U shape, R1 orthogonal to the rib R is formed, and rigidity is enhanced while reducing the weight of the fan stays 2a to 2f.

  Further, fixing portions 4a to 4d for fixing the motor fan shroud to the heat exchanger are formed at both upper and lower ends of the motor fan shroud A.

Further, a housing portion 5 is formed on the inner side of the motor fan shroud A so as to protrude outward in a rectangular shape, and an electronic component 6 such as a register for controlling the motor fan is provided here. (Corresponding to a heating element) is arranged.
The side wall 5a on the motor fan side of the storage unit 5 is formed in an inclined shape.

  In addition, plate-like first ribs 7a and 7b are formed on both sides of the storage portion 5 in a state of protruding inward.

  On the outside of the motor fan shroud A, second ribs 8a to 8d projecting outward from the base portions of the fan stays 2a to 2d over the fixing portions 4a to 4d are formed.

  The second ribs 8a to 8d are four longitudinal ribs 9a from the base portions of the fan stays 2a to 2d to the fixing portions 4a to 4d, and a transverse direction that is orthogonally coupled to the four longitudinal ribs 9a to 9d. Accordingly, the rigidity around the fixing portions 4a to 4d and the fan fixing portion 3 where the stress is most likely to be concentrated in the motor fan shroud A is greatly improved.

  Further, as shown in FIGS. 5 and 6, one of the four ribs 9a in the second ribs 8a and 8b coincides with the inside and outside directions of the first ribs 7a and 7b and the motor fan shroud A, As a result, the overall rigidity of the motor fan shroud is improved.

The operation will be described below.
In the motor fan shroud thus configured, after the motor fan main body is mounted on the motor fan fixing portion 3 and the electronic component 6 is mounted on the storage portion 5, the fixing portions 4c and 4d are placed below the heat exchanger. By inserting and fastening bolts into the mounting holes 10 of the respective fixing portions 4a and 4b and the mounting holes (not shown) above the heat exchanger in the state of being inserted into the mounting holes (not shown), the motor fan A shroud is attached to the heat exchanger.

When the motor fan is activated by the control of the electronic component 6, forced air from the motor fan passes through the core of the heat exchanger while using the motor fan shroud A as a guide.
At this time, the air around the electronic component 6 inside the motor fan shroud A is smoothly guided to the motor fan side along the first ribs 7a and 7b as shown by broken arrows in FIG. It is discharged from the opening 1 to the outside.

Moreover, since the electronic component 6 is provided in the storage part 5 formed so as to protrude in a rectangular shape to the outside of the motor fan shroud A, there is no possibility of becoming an air flow resistor.
Further, since the side wall 5a on the motor fan side of the storage unit 5 is formed in an inclined shape, the air flow in the storage unit 5 is smoothly guided to the motor fan side so as to get over the side wall 5a.

The effects will be described below.
In the motor fan shroud of the present embodiment, the resin motor fan shroud A is disposed so as to close the space between the heat exchanger and the motor fan, and inside the motor fan shroud A, Since the heating element such as the electronic component 6 is installed and the first ribs 7a and 7b for guiding the air around the heating element to the motor fan side are formed, it is possible to prevent the air flow around the heating element from stagnating. The excessive temperature rise of the heating element can be suppressed without degrading the performance of the motor fan shroud A.

  Further, second ribs 8a to 8d are formed outside the motor fan shroud A from the base portions of the fan stays 2a to 2d to the fixing portions 4a to 4d of the motor fan shroud A, and the first ribs 7a and 7b are formed. Since the second ribs 8a and 8b are formed so as to coincide with the inner and outer directions of the motor fan shroud A, the overall rigidity of the motor fan shroud A can be improved.

Although the present embodiment has been described above, the present invention is not limited to the above-described embodiment, and design changes and the like within a scope not departing from the gist of the present invention are included in the present invention.
For example, although the heating element is an electronic component such as a register in this embodiment, peripheral members other than the electronic component may be installed.
Further, the formation position, the number of formations, and the shape of the first and second ribs can be set as appropriate.
For example, in the present embodiment, the first ribs 7a and 7b are two. However, the number of the first ribs 7a and 7b may be increased as appropriate, and the air flow may be made to flow more effectively.

It is a figure explaining the inner side of the motor fan shroud of Example 1 of this invention. It is a perspective view explaining the inner side of the motor fan shroud of Example 1 of this invention. It is a perspective view explaining the outer side of a motor fan shroud. It is sectional drawing in the S4-S4 line | wire of FIG. It is sectional drawing in the S5-S5 line | wire of FIG. It is sectional drawing in the S6-S6 line of FIG.

Explanation of symbols

A Motor fan shroud R, R1 Rib 1 Fan opening 2a, 2b, 2c, 2d, 2e, 2f, 2g Fan stay 3 Fan fixing part 4a, 4b, 4c, 4d Fixed part 5 Storage part 5a Side wall 6 Electronic component 7a, 7b 1st rib 8a, 8b, 8c, 8d 2nd rib 9a Longitudinal rib 9b Lateral rib 10 Mounting hole 11 Fan ring

Claims (2)

A resin motor fan shroud arranged so as to block between the heat exchanger and the periphery of the motor fan,
A heating element such as an electronic component is installed inside the motor fan shroud, and a first rib for guiding the air around the heating element to the motor fan side is formed .
A motor fan shroud, wherein a second rib is formed outside the motor fan shroud so as to coincide with the inside and outside directions of the first rib and the motor fan shroud. The motor fan shroud of claim 1.
Motor fan shroud, characterized in that said second rib was formed from the base of the fan stay on the fixed part of the motor fan shroud.

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