KR102683676B1 - Louvers and motor controls - Google Patents

Abstract

The louver has a front surface and a back surface, and overlaps a plate-shaped plate wall 1 with an opening penetrating from the surface 1b to the back surface, and at least a portion of the opening when viewed from the surface 1b side of the plate wall 1. It is provided so that, when the direction perpendicular to the front-back direction from the back side of the plate wall 1 to the surface 1b is taken as the vertical direction, the surface 1b is directed from the back side of the plate wall 1 to the surface 1b in the vertical direction. A louver wall 2, where one end of the side has a slope lower than that of the back side, intersects the vertical direction and extends along a plane direction parallel to the surface 1b, and the plane direction of the louver wall 2 The end of the louver wall (2) is provided at the connection portion between the wall portion and the first side of the louver wall (2), where the angle formed with the first side of the louver wall (2) is a right angle or an acute angle. It is provided with an inclined portion 5 having a surface 5a whose angle with the first surface 2b is an obtuse angle.

Description

Louvers and motor controls

The present disclosure relates to a louver and a motor control device provided in an opening of a housing.

Electronic devices such as a motor control device are accommodated inside the housing of the electronic device such as a motor control device. Additionally, for example, in a motor control device, air is allowed to flow in and out through vents formed in the housing. For the purpose of preventing water from entering the housing, the vent is equipped with a louver (for example, patent document 1). In such a louver, a louver wall inclined toward the outside of the housing is provided at the ventilation hole to prevent water rushing toward the ventilation hole and adhering to the louver wall from entering the interior of the housing.

Japanese Patent Publication No. 2013-221708

However, in the louver described above, when water attached to the louver wall flows toward the end of the louver wall, it collides with the wall supporting the louver wall at the end of the louver wall and bounces back toward the inside of the housing. There are cases where water intrudes inside.

The present disclosure has been made in consideration of the above, and its purpose is to obtain a louver that can prevent water from entering the housing even when water attached to the louver wall flows toward the end.

In order to solve the above-mentioned problem and achieve the purpose, the louver according to the present disclosure includes a plate-shaped plate wall having a front and a back side and an opening penetrating from the surface to the back side, and a plate wall when viewed from the surface side of the plate wall. It is provided to overlap at least part of the opening, and when the vertical direction is vertical to the front-back direction from the back side of the plate wall to the surface, one end of the surface side is larger than one end of the back side in the vertical direction from the back side of the plate wall to the surface. A louver wall that has a decreasing slope, intersects the vertical direction and extends along a plane direction parallel to the surface, and an end along the plane direction of the louver wall are in contact, so that the angle formed with one side of the louver wall is a right angle. Alternatively, it is provided with a wall portion having an inner surface that is an acute angle, and an inclined portion that is provided at a connection portion between one surface of the louver wall and the inner surface of the wall portion and has a surface whose angle with one surface of the louver wall is an obtuse angle.

According to the present disclosure, the effect of being able to obtain a louver that can prevent water from entering the housing even when water adhering to the louver wall flows toward the end is achieved.

1 is a perspective view of a motor control device according to Embodiment 1.
Figure 2 is a front view of a louver according to Embodiment 1.
Figure 3 is a perspective view of a louver according to Embodiment 1.
Figure 4 is a partially enlarged perspective view of portion A shown in Figure 3.
FIG. 5 is a view of the enlarged portion shown in FIG. 4 viewed obliquely from below.
FIG. 6 is a cross-sectional view of the louver cut along line BB shown in FIG. 2.
FIG. 7 is a partially enlarged cross-sectional view of part C shown in FIG. 6.
Figure 8 is a diagram showing a modified example of the louver according to Embodiment 1.
Figure 9 is a front view of a louver according to Embodiment 2.
Figure 10 is a perspective view of a louver according to Embodiment 2.
Fig. 11 is a partially enlarged perspective view of portion D shown in Fig. 10.
FIG. 12 is a view of the enlarged portion shown in FIG. 11 viewed obliquely from below.
FIG. 13 is a cross-sectional view of the louver cut along line EE shown in FIG. 9.
FIG. 14 is a partially enlarged cross-sectional view of portion F shown in FIG. 13.
Figure 15 is a diagram showing a first modified example of a louver wall applicable to Embodiment 1 and Embodiment 2.
Figure 16 is a diagram showing a second modification of the louver wall applicable to Embodiment 1 and Embodiment 2.
Figure 17 is a diagram showing a third modification of the louver wall applicable to Embodiment 1 and Embodiment 2.
Figure 18 is a diagram showing a fourth modification of the louver wall applicable to Embodiment 1 and Embodiment 2.
Figure 19 is a diagram showing a fifth modification of the louver wall applicable to Embodiment 1 and Embodiment 2.
Figure 20 is a diagram showing a modified example of the louver according to Embodiment 2.

Below, a louver and motor control device according to an embodiment of the present disclosure will be described in detail based on the drawings.

Embodiment 1.

1 is a perspective view of a motor control device according to Embodiment 1. The motor control device 50 includes a housing 60, a motor control unit 70, a blower 80, and a louver 51. The motor control device 50 transmits a drive signal from the motor control unit 70 accommodated inside the housing 60 to a motor (not shown) connected to the motor control device 50 to control the operation of the motor. .

A plurality of ventilation holes 61 are formed in the housing 60 . The vent 61 allows air to flow into the housing 60 and to flow out to the outside. The blower 80 is accommodated inside the housing 60. When the blower 80 is driven, the air inside the housing 60 flows, and the air enters and exits the inside of the housing through the vent 61. As the air inside the housing 60 flows, heat-generating components such as the motor control unit 70 are cooled.

The louver 51 is mounted on the ventilation hole 61. The louver 51 is provided for the purpose of preventing water from entering the interior of the housing 60 through the ventilation hole 61.

Figure 2 is a front view of a louver according to Embodiment 1. Figure 3 is a perspective view of a louver according to Embodiment 1. Figure 4 is a partially enlarged perspective view of portion A shown in Figure 3. FIG. 5 is a view of the enlarged portion shown in FIG. 4 viewed obliquely from below. FIG. 6 is a cross-sectional view of the louver taken along line B-B shown in FIG. 2. FIG. 7 is a partially enlarged cross-sectional view of part C shown in FIG. 6.

The louver 51 includes a plate wall 1, a louver wall 2, and a side wall 4. The plate wall 1 is a plate-shaped member that covers the entire vent 61. An opening 1A is formed in the plate wall 1. The opening 1A is formed in the plate wall 1 so as to penetrate from the front surface 1b to the back surface 1c of the plate wall 1. The louver wall 2 is a partition wall that divides the opening 1A formed in the plate wall 1 upward and downward. The opening 1A is divided into a plurality of evacuation openings 1a by being partitioned upward and downward by the louver wall 2. In addition, in the following description, the direction from the back surface 1c of the plate wall 1 to the surface 1b is referred to as the front, and the direction from the surface 1b to the back surface 1c is referred to as the rear (see Fig. 6). . In addition, the direction from the back surface 1c of the plate wall 1 to the surface 1b is the front-back direction, the direction perpendicular to the front-back direction is the up-down direction, and the direction parallel to the surface 1c of the plate wall 1 is the vertical direction. is in the plane direction. In addition, in each drawing, the front-back direction is shown as the X-axis, the vertical direction is shown as the Y-axis, and the planar direction is shown as the Z-axis. Hereinafter, the positive direction of the X-axis is forward and the negative direction is backward. The positive direction of the Y axis is upward and the negative direction is downward.

The louver wall 2 protrudes forward from the surface 1b of the plate wall 1. The louver wall 2 has a downward slope as it moves away from the surface 1b. That is, the louver wall 2 is directed from the back surface 1c of the plate wall 1 to the surface 1b in the vertical direction perpendicular to the front-back direction from the back surface 1c of the plate wall 1 to the surface 1b. One end (lower end 2d) on the 1b) side has a slope that is lower than one end (upper end 2e) on the back side 1c. And the louver wall 2 is provided to cover a part of the opening 1a in the front view seen from the surface 1b side. That is, the louver wall 2 is provided so as to overlap at least a part of the opening 1A when viewed from the surface 1b side. The louver wall 2 is provided to intersect the vertical direction and extend along a plane direction parallel to the surface of the plate wall 1. In this Embodiment 1, the louver wall 2 is provided to extend along a plane direction that intersects perpendicularly to the vertical direction. As a result, the water flying toward the outlet 1a collides with the louver wall 2 and is prevented from infiltrating the inside of the housing 60. Additionally, the louver wall 2 may be provided to cover the entire opening 1a when viewed from the front.

A side wall (4) is provided on the side of the louver wall (2). The side wall 4 is a wall connecting the end 2a of the louver wall 2 and the edge of the opening 1A. That is, the side wall 4 is a wall portion provided so that the ends of the louver wall 2 along the plane direction come into contact with each other. The side wall 4 can prevent water from entering the interior of the housing 60 from the side of the introduction port 1a.

As shown in FIG. 5, 1 surface 2b, which is the downward facing surface of the louver wall 2, and the inner surface 4a of the side wall 4 have an angle formed between 1 surface 2b and the inner surface 4a. has a positional relationship that is at right angles. That is, the angle formed between the first surface 2b and the inner surface 4a here is a virtual surface extending from the first surface 2b, which is the downward facing surface of the louver wall 2, and the inner surface of the side wall 4 ( It can be said to be the angle obtained at the point where the virtual plane extending 4a) intersects. At the connection portion between the first surface 2b of the louver wall 2 and the inner surface 4a of the side wall 4, there is a surface 5a where the angle formed with the first surface 2b of the louver wall 2 is an obtuse angle. ) is provided.

With reference to FIG. 7, a case where water rushing into the louver wall 2 adheres to the second side 2c, which is the back side of the first side 2b, will be described. The water adhering to the second surface 2c flows forward along the slope of the second surface 2c, gathers at the lower end 2d of the louver wall 2, and falls from the lower end 2d. Here, when the louver wall 2 is horizontal in front view, water falls from the lower end 2d of the louver wall 2, but as in the case where the motor control device 50 is installed at an angle, the louver wall 2 When one end 2a is lower than the other end 2a, the water collected at the lower end 2d flows toward the lower end 2a along the lower end 2d.

In addition, when the inclined portion 5 is not provided at the connection portion between the first surface 2b of the louver wall 2 and the inner surface 4a of the side wall 4, the water flowing to the end 2a flows to the side wall ( 4), it may collide with the inner surface 4a and scatter around, or change direction and flow toward the inside of the housing 60. Some of the water flying around scatters toward the inside of the housing 60. Therefore, there is a risk that water may enter the interior of the housing 60 from the vicinity of the lower end 2a. In this embodiment 1, the angle formed with the first surface 2b of the louver wall 2 at the connection portion between the first surface 2b of the louver wall 2 and the inner surface 4a of the side wall 4 is An inclined portion 5 having an obtuse-angled surface 5a is provided. Therefore, although the flow of water is indicated by an arrow in FIG. 5, as shown in FIG. 5, the force of water flowing toward the end portion 2a colliding with the inner surface 4a can be weakened. As a result, when water collides with the inner surface 4a, the scattering and flowing direction of the water is suppressed from changing direction to the inside of the housing 60, and the water is discharged from the front to the housing 60. It can prevent water intrusion.

Figure 8 is a diagram showing a modified example of the louver according to Embodiment 1, and is a diagram corresponding to Figure 4. As shown in FIG. 8, the surface 5a of the inclined portion 5 may have a plurality of surfaces 5a1 and 5a2 with different angles. Additionally, the number of surfaces with different angles of the inclined portion 5 is not limited to two, and may be three or more.

Additionally, as shown in Fig. 7, the inclined portion 5 may be provided in a range starting from the lower end 2d but not reaching the upper end 2e. Additionally, the inclined portion 5 may be provided throughout the louver wall 2 from the lower end 2d to the upper end 2e.

Embodiment 2.

Figure 9 is a front view of a louver according to Embodiment 2. Figure 10 is a perspective view of a louver according to Embodiment 2. Fig. 11 is a partially enlarged perspective view of portion D shown in Fig. 10. FIG. 12 is a view of the enlarged portion shown in FIG. 11 viewed obliquely from below. Fig. 13 is a cross-sectional view of the louver taken along line E-E shown in Fig. 9. FIG. 14 is a partially enlarged cross-sectional view of portion F shown in FIG. 13. Configurations similar to those of Embodiment 1 above are given the same reference numerals and detailed descriptions are omitted. Also in Embodiment 2, the direction from the back surface 1c of the plate wall 1 to the surface 1b is set as the front-back direction, and the direction perpendicular to the front-back direction is the up-down direction, and the surface 1c of the plate wall 1 is The direction parallel to ) is considered the plane direction. In addition, in each drawing, the front-back direction is shown as the X-axis, the vertical direction is shown as the Y-axis, and the planar direction is shown as the Z-axis. Hereinafter, the positive direction of the X-axis is forward and the negative direction is backward. The positive direction of the Y axis is upward and the negative direction is downward.

As shown in FIG. 13, in Embodiment 2, the louver wall 2 does not protrude from the surface 1b of the plate wall 1, but is between the surface 1b and the back surface 1c of the plate wall 1. It's in. Also, like Embodiment 1, the louver wall 2 has a slope that lowers the front, and one end of the surface 1b side of the plate wall 1 becomes the lower end 2d. Also in Embodiment 2, the louver wall 2 is provided so as to overlap at least a part of the opening 1A when viewed from the surface 1b side. The louver wall 2 is provided to intersect the vertical direction and extend along a plane direction parallel to the surface 1b of the plate wall 1. Additionally, the louver wall 2 is provided to extend along a plane direction that intersects perpendicularly to the vertical direction. In Embodiment 2, the upward facing surface of the louver wall 2 becomes first surface 2b. As shown in FIG. 12, 1 surface 2b, which is the upward facing surface of the louver wall 2, and inner surface 1A1, which is the edge of the opening 1A, are in contact with 1 surface 2b and inner surface 1A1. The positional relationship is such that the angles formed are right angles. That is, the angle formed between the first surface 2b and the inner surface 1A1 here is the virtual surface extending from the first surface 2b, which is the upward facing surface of the louver wall 2, and the inner surface, which is the edge of the opening 1A. It can be said to be an angle obtained at the point where the virtual plane extending the side surface 1A1 intersects. The inclined portion 5 is provided at a connection portion between one surface 2b facing upward and the inner surface 1A1, which is the edge of the opening 1A. That is, in Embodiment 2, the edge of the opening 1A becomes a wall portion where the louver wall 2 abuts.

Even in the case where the louver wall 2 is provided between the front surface 1b and the back surface 1c of the plate wall 1 as in Embodiment 2, one end 2a of the louver wall 2 is connected to the other end ( In the case where it is lower than 2a), the water adhering to the louver wall 2 flows on one side 2b, which is the upwardly facing side, and heads toward the low end 2a. In Embodiment 2, the inclined portion 5 is provided on the first surface 2b, which is the surface facing upward, to weaken the force of water colliding with the inner surface 1A1, preventing water from entering the inside of the housing 60. You can prevent it from happening.

Figure 15 is a diagram showing a first modified example of a louver wall applicable to Embodiment 1 and Embodiment 2. As shown in FIG. 15, the louver wall 2 may be configured to have a width extending from the upper end 2e to the lower end 2d toward one end 2a along the plane direction in which the louver wall extends. By configuring in this way, the width of the flow path through which water flows on the louver wall 2 can be expanded, the flow rate of water flowing on the louver wall 2 can be lowered, and the force of water colliding on the inner surfaces 1A1 and 4a can be weakened. there is.

Figure 16 is a diagram showing a second modification of the louver wall applicable to Embodiment 1 and Embodiment 2. As shown in FIG. 16, the louver wall 2 may be configured so that the width from the upper end 2e to the lower end 2d becomes narrower toward both ends along the plane direction in which the louver wall extends. By configuring in this way, water can easily fall from the tip of the widest part of the central part, reducing the water flowing toward the end 2a and weakening the force of water colliding with the inner surfaces 1A1 and 4a. there is.

Figure 17 is a diagram showing a third modification of the louver wall applicable to Embodiment 1 and Embodiment 2. As shown in Fig. 17, a plurality of irregularities 6 may be provided at the lower end 2d of the louver wall 2. The direction of the unevenness 6 is parallel to the direction from the upper end 2e to the lower end 2d. Additionally, the shape of the irregularities 6 is square. With this configuration, it becomes easy for water to fall on the convex portion, reducing the water flowing toward the end portion 2a, and weakening the force of water colliding with the inner surfaces 1A1 and 4a. The unevenness 6 may be provided on the entire lower part 2d, or may be provided only on a part of it.

Figure 18 is a diagram showing a fourth modification of the louver wall applicable to Embodiment 1 and Embodiment 2. As shown in Fig. 18, a plurality of irregularities may be provided at the lower end 2d of the louver wall 2. The direction of the unevenness is parallel to the direction from the upper end 2e to the lower end 2d. Additionally, the shape of the unevenness is triangular. With this configuration, it becomes easier for water to fall from the tip of the convex portion, thereby reducing the water flowing toward the end portion 2a and weakening the force of water colliding with the inner surfaces 1A1 and 4a. The unevenness 6 may be provided on the entire lower part 2d, or may be provided only on a part of it. Additionally, the rectangular irregularities 6 and triangular irregularities 6 may be combined.

Figure 19 is a diagram showing a fifth modification of the louver wall applicable to Embodiment 1 and Embodiment 2. As shown in FIG. 19, a plurality of irregularities may be provided at the lower end 2d of the louver wall 2. The direction of the irregularities is perpendicular to the first surface 2b. Additionally, the shape of the irregularities is square. With this configuration, it becomes easy for water to fall into the concave portion, thereby reducing the water flowing toward the end portion 2a and weakening the force of the water colliding with the inner surfaces 1A1 and 4a. Additionally, the shape of the unevenness may be triangular.

Figure 20 is a diagram showing a modified example of the louver according to Embodiment 2. As shown in Fig. 20, the louver wall 2 is tilted so that one end 2a is lower than the other end 2a in the initial state. That is, the louver wall 2 is provided to intersect the vertical direction and extend along a plane direction parallel to the surface 1b of the plate wall 1. In the modified example shown in FIG. 20, the plane direction in which the louver wall 2 extends intersects the vertical direction, but unlike Embodiment 2, it does not intersect perpendicularly to the vertical direction. In this case, surface 2b, which is the upward facing surface of the louver wall 2, and the inner surface 1A1 of the opening 1A, have an acute angle between surface 2b and the inner surface 1A1. It is in a positional relationship. Even in this case, by providing an inclined portion 5 having a surface 5a at the connection portion between the first surface 2b and the inner surface 1A1, the force of the water colliding with the inner surface 1A1 is weakened, It is possible to prevent water from entering the interior of the housing 60. In addition, if the angle formed by the first surface 2b of the louver wall 2 and the surface 5a of the inclined portion 5 is greater than the angle formed by the first surface 2b and the inner surface 1A1, the force of the colliding water It can have a weakening effect.

20 illustrates the louver wall 2 that does not protrude from the surface 1b of the plate wall 1, but the louver wall 2 protrudes from the surface 1b as illustrated in Embodiment 1. As in this modification, it may be tilted from the initial state.

In addition, in Embodiment 1 and Embodiment 2, the surface roughness of the first surface 2b, the lower end 2d of the louver wall 2, and the surface 1b of the plate wall 1 may be roughened. As a result, the surface tension between the first surface 2b and the lower end 2d of the louver wall 2 and the water in contact with the surface 1b of the plate wall 1 increases, slowing down the flow rate of the flowing water. It is possible to prevent water from entering the interior of the housing 60.

The configuration shown in the above embodiments is an example, and can be combined with other known technologies, and the embodiments can be combined, and part of the configuration can be omitted or changed as long as it does not deviate from the gist. possible.

1: plate wall 1A: opening
1A1: Medial surface 1a: Introductory opening
1b: Surface 1c: Back side
2: Louver wall 2a: End
2b: 1 side 2c: 2 sides
2d: bottom 2e: top
4: side wall 4a: inner side
5: slope 5a: surface
6: unevenness 50: motor control device
51: Louver 60: Housing
61: vent 70: motor control unit
80: blower

Claims (20)

A plate-shaped plate wall having a front surface and a rear surface and an opening penetrating from the surface to the rear surface,
When viewed from the surface side of the plate wall, it is provided to overlap at least a portion of the opening, and when the vertical direction is vertical to the front-back direction from the back surface of the plate wall to the surface, the vertical direction is from the back surface of the plate wall in the vertical direction. A louver wall that has an inclination toward the surface where one end of the surface side is lower than that of the rear side, intersects the vertical direction and extends along a plane direction parallel to the surface;
A wall portion having an inner surface where an end portion of the louver wall along the plane direction abuts, and an angle formed with one surface of the louver wall is a right angle or an acute angle,
A louver, characterized in that it is provided at a connection portion between the first surface of the louver wall and the inner surface of the wall portion and has an inclined portion having a surface whose angle with the first surface of the louver wall is an obtuse angle. In claim 1,
The louver wall is provided between the surface and the back surface,
A louver, characterized in that the wall portion is an edge of the opening of the plate wall. In claim 1,
The louver wall protrudes from the surface,
A louver, characterized in that the wall portion is a wall connecting an end along the plane direction along which the louver wall extends and an edge of the opening of the plate wall. In claim 1,
A louver, characterized in that the width of the louver wall increases from one end on the back side to one end on the front side toward one end along the plane direction along which the louver wall extends. In claim 2,
A louver, characterized in that the width of the louver wall increases from one end on the back side to one end on the front side toward one end along the plane direction along which the louver wall extends. In claim 3,
A louver, characterized in that the width of the louver wall increases from one end on the back side to one end on the front side toward one end along the plane direction along which the louver wall extends. In claim 1,
A louver, characterized in that the width of the louver wall increases from an end along the plane direction along which the louver wall extends toward the center of the louver wall, from one end on the back side to one end on the front side. In claim 2,
A louver, characterized in that the width of the louver wall increases from an end along the plane direction along which the louver wall extends toward the center of the louver wall, from one end on the back side to one end on the front side. In claim 3,
A louver, characterized in that the width of the louver wall increases from an end along the plane direction along which the louver wall extends toward the center of the louver wall, from one end on the back side to one end on the front side. The method according to any one of claims 1 to 9,
A plurality of irregularities are provided at one end of the surface side of the louver wall,
A louver, characterized in that the direction of the irregularities is a direction parallel to a direction from one end of the back surface side of the louver wall to one end of the surface side. The method according to any one of claims 1 to 9,
A plurality of irregularities are provided at one end of the surface side of the louver wall,
A louver, characterized in that the direction of the irregularities is a direction perpendicular to the one side of the louver wall. The method according to any one of claims 1 to 9,
A louver, characterized in that the surface of the inclined portion has a plurality of surfaces having different angles from the one surface. In claim 10,
A louver, characterized in that the surface of the inclined portion has a plurality of surfaces having different angles from the one surface. In claim 11,
A louver, characterized in that the surface of the inclined portion has a plurality of surfaces having different angles from the one surface. A housing formed with a ventilation hole,
A blower provided inside the housing,
A motor control unit provided inside the housing,
A motor control device comprising the louver according to any one of claims 1 to 9 mounted on the vent. A housing formed with a ventilation hole,
A blower provided inside the housing,
A motor control unit provided inside the housing,
A motor control device comprising the louver according to claim 10 mounted on the ventilation hole. A housing formed with a ventilation hole,
A blower provided inside the housing,
A motor control unit provided inside the housing,
A motor control device comprising the louver according to claim 11 mounted on the ventilation hole. A housing formed with a ventilation hole,
A blower provided inside the housing,
A motor control unit provided inside the housing,
A motor control device comprising the louver according to claim 12 mounted on the ventilation hole. A housing formed with a ventilation hole,
A blower provided inside the housing,
A motor control unit provided inside the housing,
A motor control device comprising the louver according to claim 13 mounted on the ventilation hole. A housing formed with a ventilation hole,
A blower provided inside the housing,
A motor control unit provided inside the housing,
A motor control device comprising the louver according to claim 14 mounted on the vent.

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