JP6988119B2 - Inverter device - Google Patents

Description

The present invention relates to an inverter device, and more particularly to an inverter device including a cooling unit.

Conventionally, an inverter device including a cooling unit is known (see, for example, Patent Document 1).

The above-mentioned Patent Document 1 discloses an inverter including a cooling fin (cooling unit). This inverter includes a base member having cooling fins and a cover member arranged so as to cover a component such as an electronic component mounted on a component mounting surface of the base member. Further, the inverter is provided with a seal member on the mating surface between the cover member and the base member. The inverter is configured to ensure watertightness (waterproofness) between the cover member and the base member by the seal member.

Japanese Unexamined Patent Publication No. 2012-33826

However, in the inverter described in Patent Document 1, since a seal member is used to ensure watertightness (waterproofness) and dustproofness between the cover member and the base member, the amount of the seal member is divided. , There is a problem that the number of parts increases.

The present invention has been made to solve the above-mentioned problems, and one object of the present invention is to suppress an increase in the number of parts while ensuring waterproofness and dustproofness. It is to provide an inverter device.

In order to achieve the above object, the inverter device according to one aspect of the present invention houses a heat generating portion including a power conversion element, a cooling portion for cooling the heat generating portion, and the heat generating portion and the cooling portion, and faces each other. A housing portion having a pair of side wall portions and a connection wall portion connecting the pair of side wall portions is formed separately from the housing portion, a heat generating portion is arranged on one side, and a cooling portion is arranged on the other side. A pair of side walls are provided along the outer edge of the partition, and the contact portion of the partition that comes into contact with the side wall is pressed sideways by the side wall. A contact structure is formed between the inner portion of the portion and the outer edge portion of the partition portion, and the contact portion of the partition portion is provided from the vicinity of one end portion of the outer edge portion of the partition portion to the vicinity of the other end portion. The inner portion of the pair of side wall portions is provided along the outer edge portion of the partition portion from the vicinity of one end portion of the side wall portion to the vicinity of the other end portion, and is in contact with and engaged with the contact portion of the partition portion. A side wall side engaging portion is provided.

In the inverter device according to one aspect of the present invention, as described above, the contact portion of the partition portion provided along the outer edge portion of the partition portion and in contact with the side wall portion is pressed by the side wall portion over the entire area. A contact structure is formed between the inner portion of the pair of side wall portions and the outer edge portion of the partition portion. As a result, in the portion between the inner portion of the pair of side wall portions and the outer edge portion of the partition portion, the contact structure can prevent liquid (water), dust, etc. from passing through the partition portion and the partition portion. It is not necessary to provide a sealing member or the like for waterproof / dustproof separately from the side wall portion. As a result, it is possible to suppress an increase in the number of parts while ensuring waterproofness and dustproofness.

In the above inverter device, preferably, the contact portion of the partition portion is pressed by the side wall portion to form a dustproof / waterproof structure as a contact structure. With such a configuration, dustproof and waterproof properties can be easily ensured between the contact portion of the partition portion and the pair of side wall portions by the dustproof / waterproof structure without providing a sealing member. In the specification of the present application, the description of "dustproof / waterproof structure" not only means a structure through which dust or liquid does not pass at all, but also at least a structure in which the possibility of dust or liquid passing through is reduced. It is described as a broad concept including.

In this case, preferably, the outer edge portion of the partition portion has a bent portion that protrudes in a direction substantially perpendicular to the partition portion main body of the partition portion, and the side wall portion side engaging portion abuts on the bent portion. It has an inclined surface. With this configuration, even if there is a dimensional error in the partition body or the bent part, or if the bent part is bent and deformed, the inclined surface can surely press the end portion of the bent part in the protruding direction. Therefore, dustproof and waterproof properties can be ensured more reliably.

In the above inverter device, preferably, the side wall portion has a side wall portion side projecting portion that protrudes inward, and the contact portion of the partition portion is a first partition that contacts and engages with the side wall portion side engaging portion. It has a portion-side contact portion, and a second partition portion-side contact portion that contacts one surface of the side wall portion-side protrusion in a state where the side wall portion-side engaging portion and the first partition portion-side contact portion are in contact with each other. With this configuration, both the first partition side contact portion and the second partition side contact portion provide liquid (water) in the portion between the inner portion of the pair of side wall portions and the outer edge portion of the partition portion. Since it is possible to suppress the passage of dust and the like, it is possible to further improve the dustproof and waterproof properties.

In this case, preferably, one surface of the side wall portion side protrusion portion and the second partition portion side contact portion are in surface contact with each other. With such a configuration, the dustproof property and the waterproof property can be further improved as compared with the case of line contact.

In the inverter device, a labyrinth structure is preferably formed by the side wall portion and the outer edge portion of the cooling portion on the other surface side of the side wall portion side protrusion. With this configuration, a dustproof / waterproof structure can be formed between the pair of side wall portions and the outer edge portion of the cooling portion, so that not only the partition portion but also the cooling portion and the pair of side wall portions can be formed. It is possible to ensure dustproof and waterproof properties between them.

In the above inverter device, preferably, the pair of side walls are inclined with respect to a direction substantially perpendicular to the connecting wall portion, and the outer edge portion of the partition portion is not pressed by the pair of side wall portions. The outer edge portion of the partition portion is pressed by the pair of side wall portions in a state where the portions are arranged in a direction substantially perpendicular to the connection wall portion. With this configuration, by changing the angle of the pair of side wall portions with respect to the connecting wall portion, it is possible to easily switch between a state in which the outer edge portion of the partition portion is pressed by the pair of side wall portions and a state in which the partition portion is not pressed. .. As a result, for example, when assembling the inverter device, if the pair of side wall portions is inclined with respect to the direction substantially perpendicular to the connecting wall portion, the partition portion is positioned at the corresponding position between the pair of side wall portions. Can be easily placed in. Further, when assembling the inverter device, if the pair of side wall portions are arranged in a direction substantially perpendicular to the connecting wall portion, the outer edge portion of the partition portion is pressed by the pair of side wall portions. Easy to assemble.

In the above inverter device, preferably, the partition portion is configured to be slidable along the inner side surface of the pair of side wall portions in a state where the pair of side wall portions are inclined from a direction substantially perpendicular to the connecting wall portion. With this configuration, when assembling the inverter device, the partition portion can be easily arranged inside the pair of side wall portions by sliding the partition portion along the inner side surfaces of the pair of side wall portions. can.

In the above inverter device, preferably, the pair of side wall portions are extruded in a direction along the outer edge portion of the partition portion. With this configuration, a plurality of types of side wall portions having different dimensions in the direction along the outer edge portion of the partition portion can be molded by the same extrusion mold, so that the complexity of the inverter device manufacturing device can be suppressed. can do.

According to the present invention, as described above, it is possible to suppress an increase in the number of parts while ensuring waterproofness and dustproofness.

It is a perspective view of the inverter device by 1st Embodiment of this invention. It is a side view of the inverter device by 1st Embodiment of this invention. It is sectional drawing which shows the structure of the inverter device by 1st Embodiment of this invention. It is a figure which looked at the structure of the frame member by 1st Embodiment of this invention from the arrow Y2 direction side. It is sectional drawing which shows the structure in the state which the pair of side wall portions according to 1st Embodiment of this invention do not press the outer edge portion of a frame member. FIG. 3 is a partially enlarged view showing a region of reference numeral E1 in FIG. FIG. 3 is a partially enlarged view showing a region of reference numeral E2 in FIG. It is a side view which looked at the pair of side wall parts by 1st Embodiment of this invention from the inside. It is sectional drawing which shows the state which the pair of side wall portions according to 1st Embodiment of this invention press a protruding part of a frame member. It is sectional drawing for demonstrating the contact structure of a pair of side wall portions and the outer edge portion of a frame member, and the labyrinth structure of a pair of side wall portions and cooling fins according to 1st Embodiment of this invention. It is a figure for demonstrating the slide movement of a frame member with respect to a pair of side wall portions according to 1st Embodiment of this invention. It is a perspective view of the inverter device by 2nd Embodiment of this invention. It is sectional drawing of the inverter device by 2nd Embodiment of this invention. It is sectional drawing which shows the structure in the state which the pair of side wall portions by the 2nd Embodiment of this invention do not press the outer edge portion of a frame member. FIG. 3 is a partially enlarged view showing a region of reference numeral E11 in FIG. It is a figure for demonstrating the engagement of a pair of side wall portions and a rear side wall portion with the partially enlarged view which shows the region of reference numeral E12 of FIG. It is a top view for demonstrating the structure concerning the fixing of the top plate and a pair of side wall portions according to 2nd Embodiment of this invention.

Hereinafter, embodiments embodying the present invention will be described with reference to the drawings.

The configuration of the inverter device 100 according to the first embodiment will be described with reference to FIGS. 1 to 11.

[First Embodiment]
(Overall configuration of inverter device)
The inverter device 100 is configured to convert the input DC or AC power into the set AC power and output it. Then, as shown in FIGS. 1 and 2, the inverter device 100 includes a power conversion circuit 10 including a power conversion element 1 that generates heat during power conversion, a cooling fin 20 for cooling the power conversion circuit 10, and electric power. It includes a housing portion 30 that houses the conversion circuit 10 and the cooling fins 20, and a fan 21 that exhausts the air inside the housing portion 30. The power conversion circuit 10 is an example of a "heat generating portion" within the scope of the claims. Further, the cooling fin 20 is an example of a "cooling unit" within the scope of the claims.

As shown in FIG. 2, the housing portion 30 includes a front housing portion 30a arranged inside the power board 200 and a rear housing portion 30b arranged outside the power board 200. In other words, the rear housing portion 30b is exposed to the outside of the power board 200. As a result, the rear housing portion 30b comes into contact with the outside air. Then, the inverter device 100 is inside the rear housing portion 30b from the intake hole portion (not shown) provided on the lower surface (arrow Z2 direction side) of the rear housing portion 30b and the ventilation hole portion 56c provided on the side surface. It is configured to take in the outside air (air) and exhaust the air by the fan 21 to guide the outside air (air) inside the rear housing portion 30b. As a result, the power conversion circuit 10 that generates heat when the cooling fins 20 housed in the rear housing portion 30b come into contact with the outside air is cooled.

Further, the housing portion 30 is a wall portion of the power board 200 using a fastening member 40 such as a screw via a fixing member 31a provided on each of the arrow Z1 direction side and the arrow Z2 direction side of the housing portion 30. It is fixed to (dotted line portion in FIG. 2).

In the specification of the present application, for convenience of explanation, the names indicating the directions of "front", "rear", "top (heaven)", "bottom (bottom)", "left", and "right" are used. However, the arrangement state (installation state) of the inverter device 100 is not limited. That is, the front housing portion 30a may be installed so as to face upward.

Further, in the following description, the side on which the operation unit 33a is provided will be described as "front" (direction of arrow Y1 in the figure). That is, when "left" is described, the direction is arrow X1, "right" is described as arrow X2 direction, and "down (bottom)" is described as arrow Z2 direction, "up (up)". When described as "heaven)", it means the direction of arrow Z1, and when described as "rear", it means the direction of arrow Y2.

(Structure of housing)
As shown in FIG. 1, the housing portion 30 constitutes a side wall (wall in the left-right direction) of the front housing portion 30a and the rear housing portion 30b, and includes a pair of side wall portions 50 extending so as to face each other. .. Further, the housing portion 30 includes a top plate 31 constituting the upper walls of the front housing portion 30a and the rear housing portion 30b, and the lower walls of the front housing portion 30a and the rear housing portion 30b. Includes a constituent bottom plate 32. Further, the housing portion 30 is connected to the front side wall portion 33 connecting the vicinity of one end portion 54a (see FIG. 3) of the pair of side wall portions 50 on the arrow Y1 direction side of the front side housing portion 30a on the arrow Y1 direction side. On the arrow Y2 direction side of the rear housing portion 30b, the rear side wall portion 34 connecting the vicinity of the other end portions 54b (see FIG. 3) of the pair of side wall portions 50 on the arrow Y2 direction side is included. That is, the housing portion 30 has a substantially rectangular parallelepiped shape, and a wall portion formed separately for each surface is provided. The rear side wall portion 34 is an example of the "connecting wall portion" in the claims.

Here, in the first embodiment, as shown in FIG. 3, the pair of side wall portions 50 are respectively extruded in the Z direction. That is, the pair of side wall portions 50 have substantially the same cross-sectional shape parallel to the XY plane at any height position (position in the Z direction) in the portion not additionally machined. Further, the pair of side wall portions 50 contains, for example, aluminum or an aluminum alloy, and the pair of side wall portions 50 are formed as an aluminum extrusion plate.

In the following description, the side wall portion 50 arranged on the arrow X2 direction side of the pair of side wall portions 50 is referred to as one side wall portion 50a, and the side wall portion arranged on the arrow X1 direction side of the pair of side wall portions 50. The portion 50 is the other side wall portion 50b. When the one side wall portion 50a and the other side wall portion 50b are not particularly distinguished, they are simply described as a pair of side wall portions 50. The term "inside" means the side of one side wall portion 50a in the direction of arrow X1 or the other side wall portion 50b in the direction of arrow X2.

The top plate 31 and the bottom plate 32 (see FIG. 1) are, for example, cast and molded. For example, the top plate 31 and the bottom plate 32 are formed by casting (die casting) aluminum, an aluminum alloy, or the like. Further, the top plate 31 is provided with an exhaust hole portion 31b, and the exhaust hole portion 31b is configured to ventilate the exhaust gas by the fan 21. The bottom plate 32 is provided with an intake hole portion (not shown) so that outside air can be taken in.

The front side wall portion 33 and the rear side wall portion 34 are formed of, for example, sheet metal (galvanized steel plate). The front side wall portion 33 and the rear side wall portion 34 are formed by bending, punching, or the like.

Here, in the first embodiment, as shown in FIG. 3, the inverter device 100 is formed separately from the housing portion 30, and the power conversion circuit 10 is arranged on one side (arrow Y1 direction side) and the other. A frame member 60 in which the cooling fins 20 are arranged is provided on the side (the side in the direction of the arrow Y2). That is, the frame member 60 is arranged between the pair of side wall portions 50, and forms a boundary surface S (a surface parallel to the XZ plane) between the power conversion circuit 10 and the cooling fins 20. The frame member 60 is configured to partition the region where the cooling fins 20 are arranged and the region where the power conversion circuit 10 is arranged inside the housing portion 30. The frame member 60 is an example of a "partition" within the scope of the claims.

Further, the frame member 60 is formed of, for example, a sheet metal (galvanized steel plate). In the frame member 60, the cooling fins 20 are arranged inside the housing portion 30, and the area where the cooling air is guided (ventilated) and the area where the power conversion circuit 10 is arranged are separated from each other. In addition to suppressing thermal interference in the area, it also suppresses the passage of dust and other liquids (water) between the regions.

As shown in FIG. 4, the frame member main body 60a of the frame member 60 is provided with an opening 61 so as to expose a part of the cooling fins 20. The frame member main body 60a is described as meaning a flat plate-shaped portion along the XZ plane of the frame member 60. Further, the frame member 60 (frame member main body 60a) is provided with a plurality of (for example, 6) fin fixing holes 62 which are fastened to the cooling fins 20 by the fastening member 40 (see FIG. 3) and can be fixed. ing. Further, the frame member 60 (frame member main body 60a) is provided with a plurality of (for example, four) capacitor arranging holes 63 in which the plurality of capacitors 11 are arranged. The frame member body 60a is an example of a "partition body" within the scope of the claims.

(Structure related to fixing the frame member and the side wall)
Here, in the first embodiment, as shown in FIG. 5, in the inverter device 100, the pair of side wall portions 50 is outside (arrow A1 direction) with respect to the direction substantially perpendicular to the rear side wall portion 34 (Y direction). The pair of side wall portions 50 are substantially perpendicular to the rear side wall portion 34, as shown in FIG. 6, without the outer edge portion 70 of the frame member 60 being pressed by the pair of side wall portions 50 in a state of being inclined to. A strong pressure structure is configured so that the outer edge portion 70 of the frame member 60 is pressed by the pair of side wall portions 50 in a state of being arranged in the direction (Y direction). Hereinafter, a configuration for forming a strong pressure structure will be described.

<Relationship between a pair of side walls and a connecting wall>
Specifically, as shown in FIG. 7, in the first embodiment, in the inner portion of the pair of side wall portions 50, the pair of side wall portions 50 can be tilted in a direction substantially perpendicular to the rear side wall portion 34. An engaging groove 51 that engages with the outer edge portion 34b of the side wall portion 34 is provided.

The configuration relating to the engagement between the one side wall portion 50a and the rear side wall portion 34 and the frame member 60 and the configuration relating to the engagement between the other side wall portion 50b and the rear side wall portion 34 and the frame member 60 are the center lines of FIG. Since it is configured substantially line-symmetrically with respect to C1, in the following description, the configuration relating to the engagement between the one side wall portion 50a and the rear side wall portion 34 and the frame member 60 will be described, and the other side wall portion 50b and the rear side wall portion will be described. The description of the configuration regarding the engagement with the portion 34 and the frame member 60 will be omitted.

As shown in FIG. 7, the outer edge portion 34b of the rear side wall portion 34 has a substantially L-shaped cross section. Further, the rear side wall portion 34 has a rear side wall portion main body formed in a flat plate shape extending in an XZ plane and a direction perpendicular to the rear side wall portion main body (arrow Y2 direction) with respect to the outer edge portion 34b of the rear side wall portion main body. It is composed of a protruding portion 34c formed by being bent at approximately 90 °, and a tip portion 34a is arranged in the direction of arrow Y2. That is, as shown in FIG. 3, the rear side wall portion 34 is formed so that the cross-sectional shape has a substantially U-shape.

The engaging groove 51 is recessed in the direction of the arrow Y2, and has a recess 51a in which the protruding portion 34c of the outer edge portion 34b of the rear side wall portion 34 fits and the tip portion 34a of the outer edge portion 34b is in contact with the engaging groove portion 51. Further, the engaging groove portion 51 is provided with an opening portion 51b having an opening width W1 larger than the thickness t1 of the rear side wall portion 34. As a result, as shown in FIG. 7, the engaging groove portion 51 is engaged with the outer edge portion 34b of the rear side wall portion 34, and when viewed from the arrow Z1 direction side, the side wall portion 50a with respect to the rear side wall portion 34. The engaging portion between the engaging groove portion 51 and the tip end portion 34a of the outer edge portion 34b can be inclined from a substantially vertical direction (Y direction) to an outward opening direction (arrow A1 direction) with the engaging portion as the fulcrum C2. Has been done. Specifically, when the side wall portion 50a is inclined in the direction of the arrow A1 with respect to the rear side wall portion 34, the tip portion 34a of the outer edge portion 34b of the rear side wall portion 34 is in contact with the bottom portion of the engaging groove portion 51. , A part of the protruding portion 34c of the outer edge portion 34b (the side opposite to the tip portion 34a) is separated from the inner side surface 51c. Further, the rotation of the pair of side wall portions 50 inward from the direction substantially perpendicular to the rear side wall portion 34 (Y direction) is restricted because the protruding portion 34c and the inner side surface 51c of the engaging groove portion 51 come into contact with each other. ing.

<Relationship between frame member and pair of side wall parts>
In the first embodiment, as shown in FIG. 5, the frame member 60 is a frame member main body 60a formed in a flat plate shape extending in an XZ plane, and the outer edge portion 70 of the frame member main body 60a is a frame member main body 60a. On the other hand, a protruding portion 71 is provided in which a bent portion 71a projecting in a substantially vertical direction is formed. The inverter device 100 has a pair of projecting portions 71 in a state where the pair of side wall portions 50 are inclined in the outward direction (arrow A1 direction) with respect to the direction substantially perpendicular to the rear side wall portion 34 (Y direction). The protruding portion 71 is pressed by the pair of side wall portions 50 in a state where the pair of side wall portions 50 are arranged in a direction substantially perpendicular to the rear side wall portion 34 (Y direction) without being pressed by the side wall portions 50. The protruding portion 71 is an example of the "contact portion of the partition portion" and the "contact portion on the first partition portion side" in the claims.

Specifically, on the outer edge portion 70, the frame member 60 is bent at approximately 90 ° in a direction perpendicular to the frame member main body 60a (direction of arrow Y1) to form a bent portion 71a, and the tip end side thereof is further framed. A protruding portion 71 is provided which is bent at approximately 90 ° in a direction parallel to the member main body 60a (direction of arrow X1) to form an extension portion 71b.

Then, in the first embodiment, the pair of side wall portions 50 are pressed in the vicinity of the end portion 71c of the protruding portion 71 in the protruding direction (arrow Y1 direction side), and the inclined surface 52 is inclined with respect to the protruding portion 71. Is provided. Specifically, it is composed of an inclined surface 52 and an inner side surface 53a, and a recess recessed in the X2 direction is formed from the wall surface of the side wall portion 50. The inclined surface 52 and the inner side surface 53a are a pair of side walls as shown in FIG. It is formed from one end portion 54c on the arrow Z1 direction side of the portion 50 to the other end portion 54d on the arrow Z2 direction side. The inclined surface 52 is an example of the "inner portion of the side wall portion" in the claims.

Then, as shown in FIG. 9, the inclined surface 52 is at a position where the pair of side wall portions 50 interfere with the end portion 71c of the protruding portion 71 in a state where the pair of side wall portions 50 are arranged in a direction substantially perpendicular to the rear side wall portion 34. It is provided in the dotted line part). As a result, when the pair of side wall portions 50 are arranged in a direction substantially perpendicular to the rear side wall portion 34, the inclined surface 52 and the protruding portion 71 interfere with each other, so that the inclined surface 52 and the end portion 71c (corner portion) ) Is in contact with the vicinity of the end portion 71c, and a pressing force F1 is generated from the inclined surface 52 to the protruding portion 71, so that the bent portion 71a of the protruding portion 71 is bent and deformed.

Then, the bent portion 71a of the protruding portion 71 is bent and deformed, so that a repulsive force F2 is generated from the protruding portion 71 to the inclined surface 52. That is, the protruding portion 71 and the inclined surface 52 form a strong pressure structure between the pair of side wall portions 50 and the frame member 60. As a result, as shown in FIG. 3, the frame member 60 is pressed (strongly pressed) from both sides in the X direction by the pair of side wall portions 50, and the frame member 60 and the pair of side wall portions 50 are fixed.

Further, as shown in FIG. 6, in the first embodiment, each of the pair of side wall portions 50 is provided with an inner protruding portion 55 projecting from the inner side surface 53a toward the inside facing each other. The inner protruding portion 55 is configured to abut on the surface 72 on the arrow Y2 direction side of the outer edge portion 70 of the frame member 60 in a state where the protruding portion 71 is pressed against the inclined surface 52. The inner protrusion 55 is an example of the “side wall side protrusion” in the claims. Further, the surface 72 is an example of the "contact portion of the partition portion" and the "contact portion on the second partition portion side" in the claims.

Specifically, as shown in FIG. 10, the inner protrusion 55 has a side surface 55a that is substantially perpendicular to the inner side surface 53a and an inner side that is substantially parallel to the inner side surface 53a that is formed continuously from the side surface 55a. The side surface 55b and the side surface 55c substantially perpendicular to the inner side surface 53a formed continuously from the side surface 55b are included. Further, as shown in FIG. 8, the inner protruding portion 55 is formed from one end portion 54c on the arrow Z1 direction side of the pair of side wall portions 50 to the other end portion 54d on the arrow Z2 direction side. The side surface 55a is an example of "one side" in the claims. Further, the side surface 55c is an example of the "other side" of the claims.

When the protruding portion 71 is pressed against the inclined surface 52, the bent portion 71a of the protruding portion 71 bends and deforms, so that the surface 72 and the side surface 55a come into contact with each other and the side surface of the inner protruding portion 55 from the surface 72. A pressing force F3 is generated with respect to 55a. Further, since the shape of the inner protrusion 55 does not substantially change, a pressing force F4 is generated from the side surface 55a to the surface 72. As a result, the frame member 60 is in a pressed (strong pressure) state while being sandwiched from both sides in the front-rear direction (Y direction) by the inclined surface 52 and the inner protruding portion 55. As a result, the arrangement position of the frame member 60 and the pair of side wall portions 50 in the front-rear direction is fixed.

Here, in the inverter device 100 according to the first embodiment, the screw (fastening member) for fixing the pair of side wall portions 50 and the frame member 60 is not provided. That is, in the inverter device 100, a screwless structure is configured between the pair of side wall portions 50 and the frame member 60. Further, the inverter device 100 is not provided with screws (fastening members) for fixing the pair of side wall portions 50 and the rear side wall portions 34. That is, in the inverter device 100, a screwless structure is configured between the pair of side wall portions 50 and the rear side wall portions 34.

Further, as shown in FIG. 11, in the first embodiment, the housing portion 30 has a frame in a state where the pair of side wall portions 50 are inclined from a direction substantially perpendicular to the rear side wall portion 34 (a state in which the housing portion 30 is not pressed). The member 60 is configured to be slidable along the inner side surface 53a (Z direction) of the pair of side wall portions 50. That is, as shown in FIG. 5, when the pair of side wall portions 50 are inclined from a direction substantially perpendicular to the rear side wall portion 34, the inclined surface 52 and the protruding portion 71 do not come into contact with each other, so that the protruding portion 71 It is not pressed by the inclined surface 52 and can move to each other.

Further, the inner protrusion 55 functions as a guide when the frame member 60 is slid and moved. That is, when assembling the inverter device 100, the position in the Y direction is determined by sliding the frame member 60 in the Z direction while bringing the surface 72 of the frame member 60 into contact with the side surface 55a of the inner protrusion 55. In this state, the frame member 60 can be moved in the Z direction. The details of the assembly method (manufacturing method) of the inverter device 100 will be described later.

<Structure related to fixing a pair of side wall portions to the top plate and bottom plate>
As shown in FIG. 1, in the first embodiment, the housing portion 30 includes a top plate 31 and a bottom plate 32 arranged substantially perpendicular to each of the pair of side wall portions 50 and the rear side wall portion 34. The top plate 31 and the bottom plate 32 are fixed to the pair of side wall portions 50 in a state where the pair of side wall portions 50 are arranged substantially perpendicular to the rear side wall portion 34.

Specifically, in the top plate 31, the top plate 31 is fixed to the pair of side wall portions 50 by a plurality of fastening members 40 in a state where the pair of side wall portions 50 are arranged substantially perpendicular to the rear side wall portion 34. ing. A plurality of fastening holes 56a extending from the arrow Y1 direction side to the arrow Y2 direction side are formed in the pair of side wall portions 50. Then, the side wall portion 50 and the top plate 31 are fastened with the fastening member 40 arranged in the fastening hole portion 56a. As a result, the pair of side wall portions 50 are fixed in a state of being arranged substantially perpendicular to the rear side wall portion 34, and the pair of side wall portions 50 are in a state of pressing (strong pressure) the frame member 60 to be fixed.

The bottom plate 32 constitutes a wall portion of the housing portion 30 on the arrow Z2 direction side. Then, in the bottom plate 32, similarly to the top plate 31, the pair of side wall portions 50 are arranged substantially perpendicular to the rear side wall portion 34, and the bottom plate 32 is attached to the pair of side wall portions 50 by a plurality of fastening members 40. It is fixed.

<Structure related to fixing other parts>
As shown in FIG. 1, the front side wall portion 33 is provided with an operation portion 33a, a plurality of fastening hole portions 33b, and a ventilation hole portion 33c. The operation unit 33a is configured to receive an operation from the user. Further, the front side wall portion 33 is fastened and fixed to the top plate 31 and the bottom plate 32 by a plurality of fastening members 40 via the fastening hole portion 33b, respectively. The ventilation hole portion 33c is configured to allow air to be ventilated in the front housing portion 30a.

As shown in FIG. 3, the cooling fins 20 are fixed to the frame member 60 by a plurality of fastening members 40 via a sealing member (not shown). Further, the cooling fins 20 are fixed by a pair of side wall portions 50 and a plurality of fastening members 40 arranged in fin fixing holes 56b (see FIG. 1).

As shown in FIG. 2, the fan 21 is fixed to the top plate 31, and the fan 21 is on the lower side of the top plate 31 (arrow Z2 direction side) and on the upper side of the cooling fin 20 (arrow Z1 direction). Is located on the side).

The power conversion circuit 10 is arranged in contact with the arrow Y1 direction side of the cooling fin 20. As a result, the heat generated from the power conversion circuit 10 is transferred to the cooling fins 20. The capacitor 11 is fixed to the capacitor arrangement hole 63 of the frame member 60 by a mounting member and a fastening member via a sealing member (not shown).

(Dustproof / waterproof structure between the frame member and the pair of side walls)
Next, with reference to FIGS. 6, 10 and 11, a dustproof / waterproof structure between the frame member 60 and the pair of side wall portions 50 according to the first embodiment will be described.

Here, in the first embodiment, the protruding portion 71 and the surface 72 provided along the outer edge portion 70 of the frame member 60 and in contact with the pair of side wall portions 50 are pressed by the pair of side wall portions 50. An abutting structure is formed between the inclined surface 52 and the inner protruding portion 55 of the pair of side wall portions 50 and the outer edge portion 70 of the frame member 60 over the entire area of the inclined surface 52 and the inner protruding portion 55 in the arrow Z direction. ..

Specifically, as shown in FIGS. 8 and 11B, the protruding portion 71 of the outer edge portion 70 is located on the arrow Z2 direction side from the vicinity of one end portion 70a on the arrow Z1 direction side of the outer edge portion 70 of the frame member 60. It is provided over the vicinity of the other end portion 70b of the above. Further, as shown in FIG. 6, the pair of side wall portions 50 are provided along the outer edge portion 70 (Z direction), and the inclined surface 52 that contacts the protruding portion 71 of the outer edge portion 70 and the outer edge portion 70. A side surface 55a that comes into surface contact with the surface 72 is provided. That is, the end portion 71c of the protruding portion 71 comes into contact with the inclined surface 52 while being pressed (strongly pressed) against the inclined surface 52, and the surface 72 of the outer edge portion 70 comes into contact with the side surface 55a (surface contact). The structure is such that liquid does not flow between the outer edge portion 70 of the frame member 60 and the pair of side wall portions 50 over the entire vertical direction (Z direction), and dust and the like do not pass through. There is. That is, in the first embodiment, a dustproof / waterproof structure as a contact structure is configured between the pair of side wall portions 50 and the outer edge portion 70 of the frame member 60.

For example, inside the housing portion 30, from the rear housing portion 30b, that is, from the cooling fin 20 side (arrow Y2 direction side), the outer edge portion 70 of the frame member 60 and the inner side surface 53a of the pair of side wall portions 50. The structure is such that water is prevented from flowing into the front housing portion 30a, that is, the power conversion circuit 10 side (arrow Y1 direction side), and dust is prevented from passing through the space.

Here, as shown in FIG. 10, in the first embodiment, a labyrinth structure is formed by the pair of side wall portions 50 and the outer edge portion 22 of the cooling fins 20 on the side surface 55c side of the inner protrusion 55. Specifically, the outer edge portion 22 of the cooling fin 20 is provided with a concave portion 22a that is recessed inward so that the inner protruding portion 55 can be fitted, and is provided with a convex portion 22b on the arrow Y2 direction side of the concave portion 22a. ing. Then, the inner protruding portion 55 fits into the concave portion 22a, and the inner side surface 53b and the convex portion 22b of the pair of side wall portions 50 come into close contact with each other, so that the outer edge portion 22 of the cooling fin 20 and the pair of side wall portions 50 are brought into close contact with each other. The space (gap) between the two is formed in a labyrinth shape. As a result, a dustproof / waterproof structure is formed between the outer edge portion 22 of the cooling fin 20 and the pair of side wall portions 50.

A seal member as a separate member is not arranged between the pair of side wall portions 50 and the frame member 60. Further, a seal member as a separate member is not arranged between the pair of side wall portions 50 and the cooling fins 20. That is, in the inverter device 100 according to the first embodiment, a dustproof / waterproof structure is formed without arranging a seal member between the frame member 60 and the pair of side wall portions 50.

(Structure related to cooling of inverter device)
Next, with reference to FIG. 2, a structure relating to cooling of the inverter device 100 according to the first embodiment will be described.

In the inverter device 100, a power conversion circuit 10 as a heat generating portion is arranged in contact with the cooling fins 20. As a result, the heat from the power conversion circuit 10 is transferred to the cooling fins 20.

Further, a plurality of fans 21 are provided on the arrow Y2 direction side of the top plate 31. Further, the pair of side wall portions 50 are provided with a plurality of ventilation holes 56c and 56d along the X direction. The ventilation hole portion 56c is a portion corresponding to the rear housing portion 30b of the pair of side wall portions 50, and is provided on the lower side (arrow Z2 direction side) of the cooling fin 20. The ventilation hole portion 56d is a portion corresponding to the front housing portion 30a of the pair of side wall portions 50, and is provided on the lower side (arrow Z2 direction side) of the power conversion circuit 10. Further, although not shown, the bottom plate 32 is provided with an intake hole portion.

Further, the front side wall portion 33 is provided with a plurality of ventilation holes 33c. Then, the fan 21 guides the air (outside air) taken in from the intake hole portion provided in the ventilation hole portion 56c and the bottom plate 32 inside the housing portion 30, and also guides the air inside the housing portion 30. It is configured to exhaust. Then, the cooling fin 20, the power conversion circuit 10, and the capacitor 11 are dissipated by coming into contact with the air to be guided. As a result, the power conversion circuit 10 and the capacitor 11 are cooled.

[Manufacturing method of inverter device according to the first embodiment]
Next, a manufacturing method (assembly method) of the inverter device 100 according to the first embodiment will be described with reference to FIGS. 1 to 11.

Here, in the first embodiment, aluminum or an aluminum alloy is extruded in the Z direction by an extrusion molding die (not shown) to form a pair of side wall portions 50 constituting the housing portion 30 shown in FIG. The pair of side wall portions 50 are formed by additionally machining each hole portion (fastening hole portion 56a, fin fixing hole portion 56b, ventilation hole portion 56c and 56d).

Then, the rear side wall portion 34, the frame member 60 (see FIG. 4), and the front side wall portion 33 constituting the housing portion 30 are formed by punching and bending a sheet metal (for example, a galvanized steel plate) or the like. .. Further, the top plate 31 and the bottom plate 32 are formed by die casting.

Then, as shown in FIG. 7, a pair of side wall portions 50 are attached to the rear side wall portion 34. Specifically, the outer edge portion 34b of the rear side wall portion 34 is combined so as to fit into the engaging groove portion 51 of the pair of side wall portions 50. Specifically, the pair of side wall portions 50 are inclined from a direction (Y direction) substantially perpendicular to the rear side wall portion 34 (see FIG. 7A) so as to be sandwiched from both sides of the rear side wall portion 34 in the X direction. A pair of side wall portions 50 are arranged in the wall. In this state, the pair of side wall portions 50 are in a state in which rotation is restricted inward from the direction substantially perpendicular to the rear side wall portion 34 (Y direction) (see FIG. 7B).

Then, as shown in FIG. 11, the frame is inside the pair of side wall portions 50 in a state where the pair of side wall portions 50 are inclined from a direction (Y direction) substantially perpendicular to the rear side wall portion 34 (see FIG. 5). The member 60 is slid and moved in the direction of arrow Z1 and is arranged at a predetermined position. At this time, the side surface 55a of the inner protrusion 55 functions as a guide in the movement of the frame member 60.

Further, as shown in FIG. 3, in a state where the pair of side wall portions 50 are inclined from a direction substantially perpendicular to the rear side wall portion 34 (Y direction), the cooling fins 20 are slid and moved in the arrow Z1 direction to determine a predetermined position. Placed in position. Then, the cooling fin 20 and the frame member 60 are fastened and fixed by the fastening member 40.

Then, as shown in FIG. 6, the pair of side wall portions 50 are arranged in a direction substantially perpendicular to the rear side wall portion 34. In this state, the protruding portion 71 of the frame member 60 and the inclined surface 52 of the pair of side wall portions 50 are in contact with each other over the entire Z direction, and the surface 72 of the frame member 60 and the side surface 55a of the inner protruding portion 55 are Z. Contact (surface contact) over the entire direction. As a result, a dustproof / waterproof structure is formed between the outer edge portion 70 of the frame member 60 and the pair of side wall portions 50. Then, as shown in FIG. 10, a labyrinth structure is formed between the outer edge portion 22 of the cooling fin 20 and the inner protruding portions 55 (side surfaces 55b and 55c) and the inner side surface 53b of the pair of side wall portions 50.

Then, as shown in FIGS. 1 and 2, with the pair of side wall portions 50 arranged in a direction substantially perpendicular to the rear side wall portion 34, the top plate 31 and the fan 21 are arranged in the arrow Z1 direction of the pair of side wall portions 50. Arranged on the side, the top plate 31 and the pair of side wall portions 50 are fastened and fixed by the fastening member 40. As a result, the projecting portion 71 of the frame member 60 and the inclined surface 52 of the pair of side wall portions 50 are pressed (strong pressure), and the inclined surface 52 and the projecting portion 71 are pressed (strong pressure) with the frame member 60. The pair of side wall portions 50 are fixed. Further, the cooling fin 20 and the pair of side wall portions 50 are fastened and fixed by the fastening member 40.

Then, the bottom plate 32 and the pair of side wall portions 50 are fastened and fixed. Further, the power conversion circuit 10 and the capacitor 11 are fixed to the frame member 60 by a fastening member (not shown).

Then, the front side wall portion 33 is fastened and fixed to the top plate 31 and the bottom plate 32 by the fastening member 40. After that, the manufacturing process (assembly process) of the inverter device 100 according to the first embodiment is completed.

(Effect of the first embodiment)
In the first embodiment, the following effects can be obtained.

In the first embodiment, as described above, the protruding portion 71 and the surface 72 provided along the outer edge portion 70 of the frame member 60 and in contact with the pair of side wall portions 50 are pressed by the pair of side wall portions 50. A contact structure is formed between the inner portion of the pair of side wall portions 50 and the outer edge portion 70 over the entire area. As a result, in the portion between the inner portion and the outer edge portion 70 of the pair of side wall portions 50, it is possible to suppress the passage of liquid (water), dust, etc. due to the contact structure, so that the frame member 60 and It is not necessary to provide a sealing member or the like for waterproof / dustproof separately from the side wall portion 50. As a result, it is possible to suppress an increase in the number of parts while ensuring waterproofness and dustproofness.

Further, in the first embodiment, as described above, the projecting portion 71 and the surface 72 of the frame member 60 are pressed by the side wall portion 50, so that a dustproof / waterproof structure as a contact structure is formed. The device 100 is configured. As a result, dustproof and waterproof properties can be easily ensured between the projecting portion 71 and the surface 72 and the pair of side wall portions 50 by the dustproof / waterproof structure without providing a seal member.

Further, in the first embodiment, as described above, the protruding portion 71 is provided from the vicinity of one end portion 70a of the outer edge portion 70 to the vicinity of the other end portion 70b. Then, an inclined surface 52 provided along the outer edge portion 70 and in contact with the protruding portion 71 is provided on the inner portion of the pair of side wall portions 50. As a result, dustproofness and waterproofness can be ensured over a wide range from the vicinity of one end 70a of the outer edge 70 to the vicinity of the other end 70b without providing a sealing member.

Further, in the first embodiment, as described above, the outer edge portion 70 is provided with a bent portion 71a projecting in a direction substantially perpendicular to the frame member main body 60a. The side wall portion 50 is provided with an inclined surface 52 that abuts on the bent portion 71a. As a result, even if a dimensional error of the frame member main body 60a or the bent portion 71a or a bending deformation occurs in the bent portion 71a, the end portion 71c of the protruding portion 71 can be reliably pressed by the inclined surface 52. Therefore, dustproofness and waterproofness can be ensured more reliably.

Further, in the first embodiment, as described above, the side wall portion 50 is provided with an inward projecting portion 55 projecting inward. Then, the outer edge portion 70 of the frame member 60 is provided with a protruding portion 71 that is in contact with the inclined surface 52 and a surface 72 that is in contact with the side surface 55a of the inner protruding portion 55 in a state where the inclined surface 52 and the protruding portion 71 are in contact with each other. prepare. As a result, both the protrusion 71 and the surface 72 can prevent liquid (water), dust, and the like from passing through the portion between the inner portion and the outer edge portion 70 of the pair of side wall portions 50. , Dustproof and waterproof can be further improved.

Further, in the first embodiment, as described above, the inverter device 100 is configured so that the side surface 55a and the surface 72 of the inner protrusion 55 are in surface contact with each other. As a result, the dustproof property and the waterproof property can be further improved as compared with the case of line contact.

Further, in the first embodiment, as described above, a labyrinth structure is formed by the pair of side wall portions 50 and the outer edge portion 22 of the cooling fins 20 on the side surface 55c side of the inner protrusion 55. As a result, a dustproof / waterproof structure can be formed between the pair of side wall portions 50 and the outer edge portion 22 of the cooling fins 20, so that not only the frame member 60 but also the cooling fins 20 and the pair of side wall portions 50 can be formed. It is possible to ensure dustproof and waterproof properties between the two.

Further, in the first embodiment, as described above, the outer edge portion 70 is formed by the pair of side wall portions 50 in a state where the pair of side wall portions 50 are inclined outward with respect to the direction substantially perpendicular to the rear side wall portion 34. The inverter device 100 is configured so that the outer edge portion 70 is pressed by the pair of side wall portions 50 in a state where the pair of side wall portions 50 are arranged in a direction substantially perpendicular to the rear side wall portion 34 without being pressed. do. Thereby, by changing the angle with respect to the rear side wall portion 34 of the pair of side wall portions 50, it is possible to easily switch between the state in which the outer edge portion 70 is pressed by the pair of side wall portions 50 and the state in which the outer edge portion 70 is not pressed. As a result, for example, when assembling the inverter device 100, if the pair of side wall portions 50 are inclined outward with respect to the direction substantially perpendicular to the rear side wall portion 34, the frame member 60 can be placed on the pair of side wall portions. It can be easily placed in the corresponding position between 50. Further, when the pair of side wall portions 50 are arranged in a direction substantially perpendicular to the rear side wall portion 34 when assembling the inverter device 100, the outer edge portion 70 is pressed by the pair of side wall portions 50. Can be easily assembled.

Further, in the first embodiment, as described above, the frame member 60 is inclined along the inner side surface 53a of the pair of side wall portions 50 in a state where the pair of side wall portions 50 are inclined from a direction substantially perpendicular to the rear side wall portion 34. , The housing portion 30 is configured so as to be slidable. As a result, when assembling the inverter device 100, the frame member 60 is slid along the inner side surfaces of the pair of side wall portions 50, so that the frame member 60 can be easily arranged inside the pair of side wall portions 50. Can be done.

Further, in the first embodiment, as described above, the pair of side wall portions 50 are extruded and molded in the direction along the outer edge portion 70. As a result, a plurality of types of side wall portions 50 having different dimensions in the direction along the outer edge portion 70 can be molded by the same extrusion mold, so that the complexity of the manufacturing device of the inverter device 100 can be suppressed. ..

[Second Embodiment]
Next, the configuration of the inverter device 300 according to the second embodiment will be described with reference to FIGS. 12 to 17. The inverter device 300 in the second embodiment is configured such that the pair of side wall portions 50 do not press the frame member 60 in a state where the pair of side wall portions 50 are inclined outward from a direction substantially perpendicular to the rear side wall portion 34. Unlike the first embodiment, the pair of side wall portions 350 are configured so as not to press the frame member 360 in a state where the pair of side wall portions 350 are inclined inward from a direction substantially perpendicular to the rear side wall portion 334. Has been done. In the figure, the same reference numerals are given to the parts having the same configuration as that of the first embodiment, and the description thereof will be omitted.

As shown in FIGS. 12 and 13, the inverter device 300 according to the second embodiment includes a housing portion 330 and a frame member 360. The housing portion 330 includes a top plate 331, a bottom plate 332, a front side wall portion 333, a rear side wall portion 334, and a pair of side wall portions 350. The frame member 360 is an example of a "partition" within the scope of the claims. Further, the rear side wall portion 334 is an example of the "connecting wall portion" in the claims.

Then, as shown in FIG. 14, the frame member 360 has a frame member main body 360a formed in a flat plate shape extending in an XZ plane, and the frame member 360 is attached to the frame member main body 360a at the outer edge portion 370 of the frame member main body 360a. A protruding portion 371 is provided in which a bent portion 371b is formed by bending by approximately 90 ° on the vertical direction (arrow Y1 direction) side. The frame member main body 360a is an example of the "partition main body" in the claims.

Then, as shown in FIG. 14, the pair of side wall portions 350 are inclined inward (arrow A11 direction) with respect to the direction substantially perpendicular to the rear side wall portion 334 (Y direction). In the state, the protruding portion 371 is in a state where the pair of side wall portions 350 are arranged in a direction substantially perpendicular to the rear side wall portion 334 (Y direction) as shown in FIG. 15 without engaging with the protruding portion 371. A second engaging groove portion 352 to be engaged with is provided.

Then, as shown in FIG. 15, in the second embodiment, the outer edge portion 370 of the frame member 360 has the pair of side wall portions 350 in a state where the pair of side wall portions 350 are arranged substantially perpendicular to the rear side wall portion 334. The frame member 360 is fixed to the pair of side wall portions 350 by being pressed outward.

Specifically, the second engaging groove portion 352 is provided with an engaging protruding portion 352a including an inclined surface 352b that presses the vicinity of the tip portion 371a of the protruding portion 371 and is inclined with respect to the protruding portion 371. There is. The engaging protrusion 352a protrudes in the direction opposite to the protrusion direction (arrow Y1 direction) of the bent portion 371b of the frame member 360 (arrow Y2 direction), and overlaps with the bent portion 371b when viewed in the X direction. It is configured to do.

Then, as shown in FIG. 15, a gap CL1 is provided between the inner side surface 353a of the second engaging groove portion 352 on the arrow X2 direction side and the bent portion 371b of the protruding portion 371, and FIG. 14 shows. As shown, when the pair of side wall portions 350 are inclined in the arrow A11 direction with respect to the Y direction, the second engaging groove portion 352 and the bent portion 371b of the protruding portion 371 do not engage with each other.

Therefore, also in the second embodiment, similarly to the housing portion 30 of the first embodiment, in the housing portion 330, the pair of side wall portions 350 is indicated by an arrow A11 from a direction (Y direction) substantially perpendicular to the rear side wall portion 334. The frame member 360 is configured to be slidable along the inner side surface 353a of the pair of side wall portions 350 in a state of being inclined in the direction.

Then, as shown in FIG. 15, in a state where the pair of side wall portions 350 are arranged so as to be substantially perpendicular to the rear side wall portion 334 (Y direction), the inclined surface 352b makes the tip portion 371a of the protruding portion 371. By pressing, a strong pressure structure is formed between the pair of side wall portions 350 and the frame member 360, and the pair of side wall portions 350 and the frame member 360 are fixed. Further, when the frame member 360 is pressed by the pair of side wall portions 350, a dustproof / waterproof structure is formed between the pair of side wall portions 350 and the frame member 360.

Further, each of the pair of side wall portions 350 includes an inner protruding portion 355 that projects inward facing each other, and the outer edge portion 370 of the frame member 360 has a pair of side wall portions in the vicinity of the tip portion 371a of the protruding portion 371. Includes a surface 372 that abuts on the side surface 355a of the medial protrusion 355 while being pressed by the 350. This also forms a dustproof / waterproof structure between the pair of side wall portions 350 and the frame member 360. The inner protrusion 355 is an example of the "side wall side protrusion" in the claims. Further, the side surface 55a is an example of "one side" in the scope of claims.

Further, the outer edge portion 322 of the cooling fin 320 is provided with a concave portion 322a that fits the inner protruding portion 355 and a convex portion 322b that is close to the side surface 355c on the arrow Y2 direction side of the inner protruding portion 355. A labyrinth structure is formed by the side surfaces 355b and 355c of the inner protrusions 355 of the pair of side wall portions 350, the inner side surfaces 353b, and the concave portions 322a and the convex portions 322b of the cooling fin 320. As a result, a dustproof / waterproof structure is formed between the pair of side wall portions 350 and the cooling fins 320. The cooling fin 320 is an example of a "cooling unit" within the scope of the claims. Further, the side surface 355c is an example of the "other side" of the claims.

As shown in FIG. 16, in the pair of side wall portions 350, the pair of side wall portions 350 engages with the protruding portion 334a of the rear side wall portion 334 so as to be inclined in a direction substantially perpendicular to the rear side wall portion 334. An engaging groove portion 351 is provided. The protruding portion 334a is an example of the "outer edge portion of the connecting wall portion" in the claims.

Specifically, the first engaging groove portion 351 has an opening inside in the pair of side wall portions 350, and is configured to be recessed in the direction of the arrow Y1. Further, the rear side wall portion 334 is provided with a protruding portion 334a projecting in the arrow Y1 direction at the outer edge portion. Further, the protruding portion 334a is provided with a stepped portion 334b.

Then, as shown in FIG. 16A, the pair of side wall portions 350 is inclined in the direction of the arrow A12 between the protruding portion 334a of the rear side wall portion 334 and the first engaging groove portion 351 of the pair of side wall portions 350. It is configured to fit in the state.

Further, as shown in FIG. 16B, when the protruding portion 334a of the rear side wall portion 334 and the first engaging groove portion 351 of the pair of side wall portions 350 are engaged with each other, the protruding portion 334a and the first engaging portion are engaged with each other. The contact of the groove portion 351 with the protruding portion 351a restricts the outward rotation of the pair of side wall portions 350. On the other hand, the gap CL2 is provided between the protruding portion 334a and the side surface 351b of the first engaging groove portion 351 and the gap CL3 is provided between the stepped portion 334b and the protruding portion 351a. As shown in FIG. 16C, the inverter device 300 has a pair of side wall portions in a state where the protruding portion 334a of the rear side wall portion 334 and the first engaging groove portion 351 of the pair of side wall portions 350 are engaged with each other. The 350 is configured to be tiltable inward (toward the arrow A11) from the Y direction.

As shown in FIG. 17, the top plate 331 has a pair of side walls by a fastening member 40 arranged in the fastening hole 331a in a state where the pair of side wall portions 350 are arranged substantially perpendicular to the rear side wall portion 334. It is fixed to the portion 350. As for the frame member 360, similarly to the frame member 60 according to the first embodiment, the pair of side wall portions 350 is substantially perpendicular to the rear side wall portion 334 in a state where the top plate 331 is fixed to the pair of side wall portions 350. The outer edge portion 370 is pressed by a pair of side wall portions 350. As a result, the top plate 331, the pair of side wall portions 350, and the frame member 360 are fixed. The other configurations of the second embodiment are the same as those of the first embodiment.

[Manufacturing method of inverter device according to the second embodiment]
Next, a manufacturing method (assembly method) of the inverter device 300 according to the second embodiment will be described with reference to FIGS. 12 to 17. The same description as the manufacturing method of the inverter device 100 according to the first embodiment will be omitted.

Here, in the second embodiment, as shown in FIGS. 16A and 16B, a pair of side wall portions 50 are attached to the rear side wall portion 334. Specifically, in a state where the pair of side wall portions 350 are tilted in the direction of the arrow A12, the pair of side wall portions 350 are combined so that the protruding portion 334a of the rear side wall portion 334 fits into the first engaging groove portion 351 of the pair of side wall portions 350.

Then, as shown in FIG. 14, the inside of the pair of side wall portions 50 is in a state where the pair of side wall portions 50 are inclined inward (toward the arrow A11 direction) from the direction substantially perpendicular to the rear side wall portion 34 (Y direction). In, the frame member 60 is slid and moved in the direction of the arrow Z1 and is arranged at a predetermined position. At this time, the side surface 355a and the second engaging groove portion 352 of the inner protruding portion 355 function as guides in the movement of the frame member 360.

After that, as shown in FIG. 17, the top plate 331 and the pair of side wall portions 350 are fixed in a state where the pair of side wall portions 350 are arranged in a direction substantially perpendicular to the rear side wall portion 334. As a result, the protruding portion 371 of the frame member 360 and the inclined surface 352b of the pair of side wall portions 350 are in contact with each other over the entire Z direction, and the surface 372 of the frame member 360 and the side surface 355a of the inner protruding portion 355 are Z. Contact (surface contact) over the entire direction. As a result, a dustproof / waterproof structure is formed between the outer edge portion 370 of the frame member 360 and the pair of side wall portions 350. Then, a labyrinth structure is formed between the outer edge portion 322 of the cooling fin 320 and the inner protruding portion 355 and the inner side surface 353b of the pair of side wall portions 350. Further, the top plate 331 is provided with a ventilation hole portion 331b, and outside air is guided to the cooling fins 320 and the like to dissipate heat from the cooling fins 320. The other manufacturing methods of the second embodiment are the same as those of the first embodiment.

(Effect of the second embodiment)
In the second embodiment, the following effects can be obtained.

In the second embodiment, as described above, the outer edge portion 370 of the frame member 360 is provided with a protruding portion 371 that protrudes substantially perpendicular to the rear side wall portion 334 and extends along the pair of side wall portions 350. Then, in a state where the pair of side wall portions 350 are inclined inward with respect to the direction substantially perpendicular to the rear side wall portion 334 on the pair of side wall portions 350, the pair of side wall portions 350 do not engage with the protruding portion 371. A second engaging groove portion 352 that engages with the protruding portion 371 is provided in a state where the portion 334 is arranged in a direction substantially perpendicular to the rear side wall portion 334. As a result, when assembling the inverter device 300, if the pair of side wall portions 350 are inclined inward with respect to the direction substantially perpendicular to the rear side wall portion 334, the protruding portion 371 and the second engaging groove portion 352 are provided. The frame member 60 can be easily placed at the corresponding position between the pair of side wall portions 350 without engaging with. Further, when assembling the inverter device 300, if the pair of side wall portions 350 are arranged in a direction substantially perpendicular to the rear side wall portion 334, the protruding portion 371 and the second engaging groove portion 352 can be easily arranged. Can be in a state of engagement. The other effects of the second embodiment are the same as those of the first embodiment.

[Modification example]
It should be noted that the embodiments disclosed this time are exemplary in all respects and are not considered to be restrictive. The scope of the present invention is shown by the scope of claims rather than the description of the above-described embodiment, and further includes all modifications (modifications) within the meaning and scope equivalent to the scope of claims.

For example, in the first and second embodiments, an example of forming a screwless structure between a partition portion and a side wall portion has been shown, but the present invention is not limited to this. That is, the partition portion and the side wall portion may be fixed by using a screw (fastening member). From the viewpoint of suppressing an increase in the number of parts, it is preferable that a screwless structure is formed between the partition portion and the side wall portion.

Further, in the first and second embodiments, examples of fixing the inverter device to the power panel have been shown, but the present invention is not limited to this. That is, the inverter device may be arranged as a single unit without being fixed to the power panel.

Further, in the first and second embodiments, an example is shown in which the inverter device is configured so that the surface of the outer edge portion of the partition portion and the inner protruding portion are in surface contact with each other, but the present invention is not limited to this. .. For example, if a contact structure (dustproof / waterproof structure) is formed between the outer edge of the partition and the inner protrusion, the surface of the outer edge of the partition and the inner protrusion are in line contact with each other. , Inverter device may be configured.

Further, in the first and second embodiments, an example is shown in which a protruding portion having a protruding direction on the front side (arrow Y1 direction side) is provided on the outer edge portion of the frame member, but the present invention is not limited to this. That is, the outer edge portion of the frame member may be provided with a protruding portion whose protruding direction is on the rear side (arrow Y2 direction side).

Further, in the first and second embodiments, an example is shown in which a pair of side wall portions are formed by extrusion molding, a frame member is formed by bending, and a top plate and a bottom plate are formed by die casting. Not limited to this. That is, the molding method of the pair of side wall portions, the frame member, the top plate, and the bottom plate may be appropriately changed depending on the type of the inverter device and the like. For example, a pair of side wall portions may be formed by die casting. It is preferable that the pair of side wall portions are extruded because parts can be shared among different inverter devices.

Further, in the first and second embodiments, an example is shown in which the inverter device is configured so that the frame member can slide and move with respect to the pair of side wall portions, but the present invention is not limited to this. For example, if there is no problem in assembling the inverter device, even if the inverter device is configured so that the frame member can be arranged from the front side (arrow Y1 direction side) with the pair of side wall portions tilted. good.

Further, in the first and second embodiments, an example in which the frame member is slidably moved and arranged on a pair of side wall portions by itself is shown, but the present invention is not limited to this. That is, the frame member may be slid and arranged on the pair of side wall portions with the cooling fins fixed to the frame member.

1 Power conversion element 10 Power conversion circuit (heat generating part)
20, 320 Cooling fins (cooling part)
30, 330 Housing section 34, 334 Rear side wall section (connection wall section)
34a Outer edge (outer edge of connection wall)
50, 350 Side wall 52, 352b Inclined surface (side contact)
53a, 353a Inner side surface 55, 355 Inner protrusion (side protrusion side protrusion)
55a, 355a side surface (one side)
55c, 355c side surface (other side)
60, 360 frame member (partition)
60a, 360a Frame member body (partition body)
70, 370 outer edge (outer edge of partition)
71, 371 Protruding parts (contact part of partition part, contact part on first partition part side)
71a, 371b Bent parts 72, 372 surfaces (contact part of partition part, contact part on side of second partition part)
100, 300 Inverter device 334a Projection (outer edge of connection wall)

Claims (9)

A heat generating part including a power conversion element and
A cooling unit that cools the heat generation unit and
A housing portion that houses the heat generating portion and the cooling portion, and has a pair of side wall portions facing each other and a connecting wall portion connecting the pair of side wall portions.
It is formed separately from the housing portion, and includes a partition portion in which the heat generating portion is arranged on one side and the cooling portion is arranged on the other side.
Inside the pair of side wall portions over the entire area, with the contact portion of the partition portion provided along the outer edge portion of the partition portion and in contact with the side wall portion pressed sideways by the side wall portion. A contact structure is formed between the portion and the outer edge portion of the partition portion.
The contact portion of the partition portion is provided from the vicinity of one end portion of the outer edge portion of the partition portion to the vicinity of the other end portion.
The inner portion of the pair of side wall portions is provided along the outer edge portion of the partition portion from the vicinity of one end portion of the side wall portion to the vicinity of the other end portion, and is in contact with the contact portion of the partition portion. An inverter device provided with an engaging portion on the side wall side to be engaged. The inverter device according to claim 1, wherein the contact portion of the partition portion is pressed by the side wall portion to form a dustproof / waterproof structure as the contact structure. The outer edge portion of the partition portion has a bent portion that protrudes in a direction substantially perpendicular to the partition portion main body of the partition portion.
The inverter device according to claim 1 or 2, wherein the side wall portion side engaging portion has an inclined surface that abuts on the bent portion. The side wall portion has a side wall portion side protrusion that protrudes inward.
The contact portion of the partition portion is such that the first partition portion side contact portion that contacts and engages with the side wall portion side engaging portion, and the side wall portion side engaging portion and the first partition portion side contact portion are in contact with each other. The inverter device according to any one of claims 1 to 3, further comprising a second partition side contact portion that comes into contact with one surface of the side wall portion side protrusion in this state. The inverter device according to claim 4, wherein one surface of the side wall protruding portion and the second partition side contact portion are in surface contact with each other. The inverter device according to claim 4 or 5, wherein a labyrinth structure is formed by the side wall portion and the outer edge portion of the cooling portion on the other surface side of the side wall portion side protrusion. In a state where the pair of side wall portions are inclined with respect to a direction substantially perpendicular to the connection wall portion, the outer edge portion of the partition portion is not pressed by the pair of side wall portions, and the pair of side wall portions is formed. The inverter according to any one of claims 1 to 6, wherein the outer edge portion of the partition portion is pressed by the pair of side wall portions in a state of being arranged in a direction substantially perpendicular to the connection wall portion. Device. Claims 1 to 7 are configured such that the partition portion can be slidably moved along the inner side surface of the pair of side wall portions in a state where the pair of side wall portions are inclined from a direction substantially perpendicular to the connection wall portion. The inverter device according to any one of the above items. The inverter device according to any one of claims 1 to 8, wherein the pair of side wall portions are extruded in a direction along the outer edge portion of the partition portion.

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