JP6981050B2 - Electronic device - Google Patents

Description

The disclosure herein relates to waterproof electronic devices.

As disclosed in Patent Document 1, a waterproof electronic device is known. This electronic device includes a waterproof housing that is watertightly sealed by a sealing member, and a circuit board is housed in the internal space of the waterproof housing. In addition, a ventilation hole is provided in the wall of the waterproof housing, and a breathing filter is attached so as to close the ventilation hole.

Japanese Unexamined Patent Publication No. 2014-57001

With the miniaturization of electronic devices, it has become difficult to ensure heat dissipation.

On the other hand, it is conceivable to arrange a blower unit on the wall of the waterproof housing to ensure heat dissipation. At that time, a through hole (mounting hole) is provided in the wall portion to attach the blower unit, and the blower unit is electrically connected to the circuit board while watertightly sealing the space between the wall portion and the wall portion around the entire circumference of the through hole. As a result, the configuration of the electronic device provided with the blower unit can be simplified.

However, a through hole is provided in the wall portion of the waterproof housing separately from the ventilation hole, and the ventilation unit is arranged at a position different from the breathing filter, which increases the dead space in the wall portion.

The present disclosure has been made in view of such a problem, and an object of the present invention is to simplify the configuration of an electronic device provided with a blower unit and to suppress an increase in dead space.

The present disclosure employs the following technical means to achieve the above objectives. It should be noted that the reference numerals in parentheses indicate the correspondence with the specific means described in the embodiment described later as one embodiment, and do not limit the technical scope.

The electronic device, which is one of the present disclosures, includes a waterproof housing (20) having a wall portion (210) in which a through hole (211) is formed, and a waterproof housing (20).
The circuit board (30) housed in the internal space of the waterproof housing,
A fan (41) including a blade (411) and a member that rotatably accommodates the fan, and is arranged on the wall portion so as to face the peripheral portion of the through hole on the outer or inner surface of the wall portion and cover the through hole. The circuit protrudes into the internal space from the housing (42), which is watertightly sealed between the wall and the entire circumference around the through hole, and the base part (422b), which is the inner part of the housing from the watertight sealing part. A blower having a terminal (43) electrically connected to the board and a ventilation hole (424) that penetrates the base portion and communicates with the inside space and the accommodation space of the fan connected to the outside space of the waterproof housing. Unit (40) and
With a breathing filter (50) that is attached to the base so as to block the ventilation holes and blocks the flow of liquid between the interior space and the containment space while allowing the flow of gas between the interior space and the containment space. , Equipped with.
In one of the present disclosures, the breathing filter is located on the bottom surface of the base, which is the surface on the accommodation space side, a vent (421) is formed on the side wall of the housing, and the ventilation unit surrounds the breathing filter. Has a protective wall (425) protruding from the bottom surface of the base portion.
In another one of the present disclosure, the housing has a vent (421) that is substantially flush with the bottom surface (422c), which is the surface of the base portion on the accommodation space side, and the bottom surface is the outer surface (21a) of the wall portion. It is located at a position farther from the circuit board in the plate thickness direction of the circuit board than the peripheral portion of the through hole in.
In another one of the present disclosure, the base portion and the breathing filter are arranged closer to the circuit board than the blades in the rotation axis direction, and the base portion and the ventilation holes are arranged in the through holes.

In this electronic device, a through hole is provided in the wall portion to attach a blower unit, and the blower unit is electrically connected to a circuit board. Therefore, the configuration of the electronic device provided with the blower unit can be simplified.

Further, a ventilation hole for a breathing filter is provided in the base portion of the housing. Since the ventilation holes are arranged in the through holes in this way, it is possible to suppress an increase in the dead space in the wall portion while providing the ventilation unit.

It is a perspective view of the electronic device which concerns on 1st Embodiment. It is a perspective view which shows the periphery of a blower unit. It is a top view which shows the periphery of a blower unit. It is a figure which shows the state which omitted the blade. It is sectional drawing which follows the VV line of FIG. It is sectional drawing which follows the VI-VI line of FIG. It is sectional drawing which shows the periphery of the blower unit in the electronic apparatus which concerns on 2nd Embodiment. It is sectional drawing which shows the periphery of the blower unit in the electronic apparatus which concerns on 3rd Embodiment. It is sectional drawing which shows the periphery of the blower unit in the electronic device which concerns on 4th Embodiment. It is a perspective partial sectional view which shows the periphery of a blower unit. It is sectional drawing which shows the blower unit of the electronic apparatus which concerns on 5th Embodiment. It is sectional drawing which shows the modification, and corresponds to FIG.

A plurality of embodiments will be described with reference to the drawings. In a plurality of embodiments, the functionally and / or structurally corresponding parts are assigned the same reference numeral. In the following, the plate thickness direction of the circuit board is referred to as the Z direction. Further, one direction orthogonal to the Z direction, the longitudinal direction of the connector is referred to as the Y direction, and the direction orthogonal to both the Z direction and the Y direction is referred to as the X direction. Unless otherwise specified, the shape when viewed in a plane in the Z direction (shape along the XY plane) is defined as a plane shape.

(First Embodiment)
First, the electronic device according to the present embodiment will be described with reference to FIGS. 1 to 6. FIG. 4 omits the blades constituting the blower unit with respect to FIG. In FIG. 5, the flow of air accompanying the rotation of the fan is indicated by the arrow of the alternate long and short dash line.

As shown in FIGS. 1 to 6, the electronic device 10 includes a waterproof housing 20, a circuit board 30, a blower unit 40, and a breathing filter 50. The electronic device 10 is configured as an electronic control unit (ECU) that controls an engine of a vehicle.

The waterproof housing 20 accommodates the circuit board 30 and protects the circuit board 30. The waterproof housing 20 is divided into two members in the Z direction, which is the plate thickness direction of the circuit board 30. The waterproof housing 20 has a case 21 and a cover 22, for example, as shown in FIG. The waterproof housing 20 is configured by assembling the case 21 and the cover 22 to each other via a seal member (not shown).

The case 21 has a box shape with one side open. In this embodiment, the case 21 is formed of a metal material for heat dissipation. Specifically, the case 21 is molded by aluminum die casting.

The bottom wall 210 of the case 21 has a substantially rectangular shape in a plane. The bottom wall 210 of the case 21 corresponds to the wall portion of the waterproof housing 20. One of the four side walls connected to the bottom wall 210 is provided with a notch (not shown). This notch leads to an opening on one side of the case 21.

A through hole 211 is formed in the bottom wall 210, for example, as shown in FIGS. 2 to 4. The through hole 211 is an opening for attaching the blower unit 40 to the case 21 of the waterproof housing 20. The through hole 211 is formed over the outer surface 21a and the inner surface 21b of the case 21.

In the present embodiment, the case 21 has a first accommodating portion 212 and a second accommodating portion 213 provided recessed with respect to other portions of the bottom wall 210 as a part of the bottom wall 210. The first accommodating portion 212 is provided on one end side in the X direction to accommodate the connector 34. The second accommodating portion 213 is provided to accommodate tall components such as aluminum electrolytic capacitors among the electronic components 32 constituting the circuit board 30. The second accommodating portion 213 is extended in the X direction, and one end thereof is connected to the first accommodating portion. The through hole 211 is formed in a portion of the bottom wall 210 excluding the first accommodating portion 212 and the second accommodating portion 213. The through hole 211 is formed in a substantially flat portion of the bottom wall 210.

Reference numeral 214 shown in FIG. 1 is a mounting portion for mounting the electronic device 10 on the vehicle, and reference numeral 215 is a fixing hole for fixing the case 21 and the cover 22. A screw (not shown) is inserted into the fixing hole 215. These mounting portions 214 and fixing holes 215 are provided integrally with the case 21.

The case 21 has a plurality of heat radiation fins 216 on the outer surface 21a side. Each radiating fin 216 extends along the X direction. The heat radiating fins 216 are formed on the bottom wall 210 except for the arrangement region of the first accommodating portion 212, the second accommodating portion 213, and the blower unit 40.

As shown in FIGS. 5 and 6, the cover 22 together with the case 21 forms an internal space 20s for accommodating the circuit board 30. By assembling the case 21 and the cover 22, the cover 22 closes the opening on one side of the case 21. Further, by closing the opening on one surface of the case 21 by the cover 22, the notch formed in the side wall is partitioned, and the opening is not shown. A part of the connector 34 is exposed to the outside by this opening.

In the present embodiment, the cover 22 is also formed by using a metal material in order to improve heat dissipation. The cover 22 is also molded by die casting aluminum. The cover 22 has a shallow box shape with one side open. The cover 22 has a plurality of heat radiation fins 220 on the outer surface side.

The sealing member of the waterproof housing 20 has an internal space 20s outside the waterproof housing 20 via the case 21 and the cover 22, the case 21 and the connector 34, and the cover 22 and the connector 34. It is provided to block communication with the space of. This sealing member is arranged on the peripheral edge of the case 21 and the cover 22 so as to surround the internal space 20s. The peripheral portions of the case 21 and the cover 22 are watertightly sealed by the sealing member. As the sealing member, for example, a liquid adhesive can be adopted before curing.

The circuit board 30 is fixed to the case 21. As shown in FIGS. 5 and 6, the circuit board 30 has a printed circuit board 31 and an electronic component 32 mounted on the printed circuit board 31. The printed circuit board 31 is formed by arranging wiring on a base material formed of an electrically insulating material such as resin. A circuit is formed by the wiring and the electronic component 32. The printed circuit board 31 has a substantially rectangular shape in a plane.

The electronic component 32 is mounted on at least one of the one surface 31a, which is the surface on the case 21 side, and the back surface 31b, which is the surface on the cover 22 side, of the printed circuit board 31. In the present embodiment, among the electronic components 32, a heat generating element 32a such as a power MOSFET is one surface 31a of the printed circuit board 31, and is arranged around the blower unit 40 in a plan view in the Z direction. The heat generating element 32a is thermally connected to the bottom wall 210 of the case 21 via the heat radiating gel 33. Further, the atmospheric pressure sensor 32b is mounted on the printed circuit board 31 as an electronic component 32. The circuit board 30 executes a predetermined process by using the information of the air in the external space detected by the atmospheric pressure sensor 32b, that is, the atmospheric pressure information.

A connector 34 is mounted on the circuit board 30. The connector 34 is mounted on one end side of the circuit board 30 in the X direction. A part of the connector 34 is exposed to the outside through the above-mentioned opening of the waterproof housing 20, and the rest is housed in the internal space 20s. Although not shown, the connector 34 has a housing formed of a resin material and a plurality of terminals formed of a conductive material and held in the housing.

The blower unit 40 is attached to the bottom wall 210 of the case 21. The blower unit 40 is attached to the through hole 211 of the case 21. The blower unit 40 rotates to form an air flow, which cools the case 21 and thus the circuit board 30. The blower unit 40 includes a fan 41, a housing 42, a terminal 43, and a fan board 44. The structure of the fan 41 is the same as that of a well-known axial fan. Therefore, in each figure, the fan 41 is simplified and shown.

The fan 41 has a shaft portion 410 and a plurality of blades 411. The shaft portion 410 includes a rotating shaft 410a. The blade 411 rotates integrally with the rotating shaft 410a. Therefore, the rotating shaft 410a becomes the rotating shaft of the fan 41. The blower unit 40 is attached to the case 21 so that the axial direction of the rotary shaft 410a, that is, the direction of the rotary shaft of the fan 41 coincides with the Z direction.

The shaft portion 410 has a boss and a magnet (not shown) in addition to the rotating shaft 410a. The boss has a bottomed cylindrical shape that opens toward the circuit board 30 side in the Z direction and closes toward the other end side. A plurality of blades 411 are provided at equal intervals on the outer peripheral surface of the boss. The blade 411 is located above the peripheral portion of the through hole 211 on the outer surface 21a in the Z direction. The boss and the blade 411 are integrally molded as a so-called impeller. The rotary shaft 410a is provided inside the boss, and one end thereof is fixed to substantially the center of the boss. The metal rotary shaft 410a is insert-molded into a resin impeller and integrated into the impeller. A magnet is attached to the inner peripheral surface of the boss. As described above, the rotor is configured to include the boss, the blade 411, the rotating shaft 410a, and the magnet.

In addition to the above, the shaft portion 410 has a coil, a bearing, a bearing holder, and the like (not shown). The bearing rotatably supports the rotary shaft 410a. The bearing holder holds the bearing. The bearing holder projects in the Z direction from the bottom wall 422 of the housing 42, which will be described later. In this embodiment, the bearing holder is integrally provided using the same material as the housing 42. The bearing is arranged on the inner peripheral surface of the bearing holder. The coil is arranged on the outer peripheral surface of the bearing holder. As described above, the stator is configured to include the coil, the bearing, and the bearing holder. That is, the fan 41 has a motor.

The housing 42 rotatably houses the fan 41. The housing 42 is arranged so as to cover the through hole 211 while facing the peripheral portion of the through hole 211 on the outer surface 21a or the inner surface 21b so as to close the through hole 211. The housing 42 and the case 21 (bottom wall 210) are hermetically sealed around the entire circumference of the through hole 211. That is, a waterproof structure is also formed around the through hole 211. In this embodiment, as shown in FIGS. 5 and 6, the housing 42 is inserted into the through hole 211. The housing 42 is arranged inside and outside the case 21 through the through hole 211.

A plurality of vents are formed in the housing 42. The plurality of vents are formed at different positions in the Z direction so that an air flow along the outer surface 21a of the bottom wall 210 is formed with the rotation of the fan 41 (blades 411).

The housing 42 has a first vent 420 and a second vent 421. One of the first vent 420 and the second vent 421 functions as an air inlet, and the other functions as an exhaust port. Both the first vent 420 and the second vent 421 are formed above the peripheral portion of the through hole 211 on the outer surface 21a, that is, at a position away from the circuit board 30 than the outer surface 21a in the Z direction. The first vent 420 is formed so that at least a part thereof is located above the blade 411, and the second vent 421 is formed so that at least a part thereof is located below the blade 411.

The housing 42 of this embodiment has a bottom wall 422 and a side wall 423. The housing 42 is formed using a resin material. The bottom wall 422 and the side wall 423 have a bottomed tubular shape with one end opening in the Z direction. The opening of this cylinder is the first vent 420. The first vent 420 is provided above the blade 411 in the Z direction. The inside of the cylinder is a storage space 42s for accommodating the fan 41. The accommodation space 42s is connected to the space outside the waterproof housing 20. Hereinafter, the space outside the waterproof housing 20 is simply referred to as an external space.

The housing 42 has four side walls 423. The four side walls 423 are integrally connected to form a substantially rectangular cylinder. The side wall 423 extends in the Z direction from the bottom wall 422. In FIG. 6, the boundary between the bottom wall 422 and the side wall 423 is shown by a broken line. A second vent 421 is formed in at least one of the side walls 423. In the present embodiment, a second vent 421 is formed on each of the four side walls 423. The second vent 421 is formed so that the Z direction is the lateral direction and the direction orthogonal to the Z direction is the longitudinal direction. The corners of the adjacent side walls 423, that is, the connecting portions, have an R shape, and the second vent 421 is formed in a flat portion excluding the R-shaped portion.

In the direction orthogonal to the Z direction, the bottom wall 422 extends outward from the side wall 423. The flange portion 422a, which is the extended portion, faces the inner surface 21b of the case 21 around the through hole 211. A seal member 45 is interposed between the flange portion 422a and the inner surface 21b of the case 21, and a waterproof seal portion is formed.

The seal member 45 is provided in an annular shape so as to surround the through hole 211. In this embodiment, a liquid adhesive is used as the sealing member 45 before curing. The blower unit 40 is adhesively fixed to the case 21 by the sealing member 45. A seal groove for accommodating the seal member 45 is formed on the inner surface 21b of the case 21. Further, a seal protrusion is formed on the surface of the housing 42 facing the case 21 so as to correspond to the seal groove.

The bottom wall 422 has a base portion 422b that is a portion inside the watertightly sealed portion that is watertightly sealed with the case 21 by the seal member 45, that is, a portion surrounded by the waterproof seal portion. .. In the present embodiment, the portion inside the flange portion 422a is the base portion 422b. In FIGS. 5 and 6, the boundary between the flange portion 422a and the base portion 422b is shown by a broken line. The bottom surface 422c, which is the surface of the base portion 422b on the side of the accommodation space 42s, forms the entire bottom surface of the cylindrical housing 42 forming the accommodation space 42s.

As shown in FIG. 5, the bottom surface 422c of the base portion 422b is positioned away from the circuit board 30 in the Z direction from the peripheral portion of the through hole 211 on the outer surface 21a of the case 21. That is, the bottom surface 422c is located above the outer surface 21a with respect to the circuit board 30. The above-mentioned second vent 421 is provided at the lower end of the side wall 423, and the lower surface defining the second vent 421 and the bottom surface 422c are substantially flush with each other. The second vent 421 corresponds to the vent.

As shown in FIG. 6, a ventilation hole 424 is formed in the base portion 422b of the bottom wall 422. The ventilation hole 424 penetrates the base portion 422b. The ventilation holes 424 are open to the bottom surface 422c described above and the back surface 422d of the base portion 422b opposite to the bottom surface 422c. The ventilation hole 424 communicates the accommodation space 42s of the housing 42 with the internal space 20s of the waterproof housing 20.

A part of the fan 41 including the blade 411 is provided with a gap between the fan 41 and the bottom surface 422c of the base portion 422b. For example, a portion outside the bearing holder is provided with a gap between the bottom surface 422c and the bottom surface 422c while facing the bottom surface 422c. The ventilation hole 424 is provided directly below a part of the fan 41 described above. In this embodiment, a ventilation hole 424 is provided directly below the blade 411. That is, the ventilation hole 424 is provided at a position overlapping the blade 411 in the stationary state in the plan view in the Z direction.

The terminal 43 projects from the base portion 422b of the housing 42 toward the internal space 20s, and is electrically connected to the circuit board 30. One end of the terminal 43 is electrically connected to the fan board 44, and the other end is connected to the circuit board 30. In this way, the fan board 44, that is, the blower unit 40 and the circuit board 30 are electrically connected via the terminal 43.

A drive circuit for rotating the fan 41 is formed on the fan substrate 44. A coil constituting the shaft portion 410 is electrically connected to the fan substrate 44. When the coil is energized through the circuit board 30, the terminal 43, and the fan board 44, the rotor described above rotates in the positive direction. Then, a pressure difference of air is generated in the housing 42 due to the predetermined shape of the blade 411, and as shown in FIG. 5, the air sucked from the first vent 420 is discharged from the second vent 421. When the rotor is rotated in the direction opposite to the forward direction, the air sucked from the second vent 421 is discharged from the first vent 420.

The fan substrate 44 is fixed to the housing 42 below the blade 411. The fan substrate 44 of the present embodiment is insert-molded into a resin housing 42 together with a metal terminal 43. A part of the terminal 43 and the fan substrate 44 are embedded in the bottom wall 422.

The breathing filter 50 blocks the flow of liquid while allowing the flow of gas. The breathing filter 50 prevents the liquid from entering the interior space 20s from the containment space 42s (ie, the exterior space) through the vents 424. As the liquid, rainwater, water used for car washing (for example, high-pressure washing water), water rolled up when the vehicle is running, a solution of calcium chloride used as a snow melting agent by melting snow, an organic solvent such as brake oil, etc. are assumed. .. The breathing filter 50 is attached to the base portion 422b so as to close the ventilation hole 424.

The breathing filter 50 of the present embodiment has only the ventilation membrane 51. The breathable membrane 51 is waterproof and breathable. The breathable membrane 51 has water repellency and oil repellency. As the breathable membrane 51, for example, a porous membrane formed by using fluororesin or polyolefin can be adopted. The ventilation film 51 is fixed to the bottom surface 422c of the base portion 422b so as to close the ventilation holes 424 by an adhesive or the like (not shown).

As described above, the breathing filter 50 is provided corresponding to the ventilation hole 424. The breathing filter 50 is also provided directly below a part of the fan 41, specifically, directly below the blade 411.

Next, an example of the procedure for assembling the electronic device 10 described above will be described.

First, the case 21, the cover 22, the circuit board 30, and the blower unit 40 are prepared. At this time, a ventilation unit 40 having a ventilation hole 424 and an integrated breathing filter 50 is prepared.

Next, the blower unit 40 is mounted on the circuit board 30. In this embodiment, the insertion-mounted terminal 43 is adopted, and the circuit board 30 and the blower unit 40 are integrated by inserting the terminal 43 into the through hole of the circuit board 30 and soldering the terminal 43. The connector 34 may be mounted on the circuit board 30 at the same timing as the blower unit 40, or may be mounted at a different timing from the blower unit 40. In this embodiment, the electronic component 32, the connector 34, and the blower unit 40 to be inserted and mounted are soldered at the same timing.

Next, the circuit board 30 is attached to the case 21. For example, the case 21 has a pedestal (not shown) on the inner surface 21b side of the bottom wall 210, and the circuit board 30 is arranged on the pedestal and fixed by screws. At this time, the blower unit 40 is also attached to the case 21. Before arranging the circuit board 30 on the pedestal of the case 21, the seal member 45 is applied to the seal groove of the case 21. Further, a seal member (not shown) is also applied to the peripheral portion of the case 21 where the housing of the connector 34 faces. Then, with the blower unit 40 positioned with respect to the through hole 211, the circuit board 30 is arranged on the pedestal, and the circuit board 30 is fixed to the case 21.

Next, after applying the seal member to the peripheral portion of the case 21 and the portion of the connector 34 facing the cover 22, the cover 22 is assembled to the case 21. From the above, the above-mentioned electronic device 10 can be obtained.

Next, the effect of the electronic device 10 described above will be described.

In a configuration without a through hole in the bottom wall of the case, for example, a connector must be provided in the blower unit and an electrical connection must be made outside the waterproof housing. On the other hand, in the present embodiment, a through hole 211 is provided in the bottom wall 210 of the case 21 constituting the waterproof housing 20 to attach the blower unit 40, and the blower unit 40 is electrically connected to the circuit board 30 through the through hole 211. Is connected to. Therefore, the configuration of the electronic device 10 provided with the blower unit 40 can be simplified.

By the way, on the bottom wall of the case, the heat radiation fins cannot be provided at the locations where the blower unit and the breathing filter are arranged. Further, it is not possible to arrange a heat dissipation gel for dissipating the heat of the heat generating element to the case at the place where the through hole for attaching the blower unit and the ventilation hole for the breathing filter are formed. Therefore, if the through hole and the ventilation unit and the ventilation hole and the breathing filter are provided at different positions on the bottom wall of the case, the dead space on the bottom wall increases, and the installation area of the heat radiation fin and the application area of the heat radiation gel increase. It will decrease. If an attempt is made to secure the installation area of the heat dissipation fins and the application area of the heat dissipation gel in order to secure the heat dissipation property, the physique of the electronic device increases in the direction orthogonal to the Z direction.

On the other hand, in the present embodiment, the ventilation holes 424 are provided not in the case 21 but in the base portion 422b of the housing 42. That is, the ventilation holes 424 are arranged in the through holes 211. Therefore, even though the blower unit 40 is provided, it is possible to suppress an increase in the dead space in the bottom wall 210 of the case 21. This makes it possible to reduce the size of the electronic device 10 while ensuring heat dissipation.

As described above, according to the electronic device 10 of the present embodiment, the configuration can be simplified and the increase of the dead space can be suppressed.

If the area occupied by the case 21 is the same, the cooling capacity of the blower unit 40 is higher than that of the heat radiation fins, so that the physique of the electronic device 10 can be reduced. Further, since a part of the blower unit 40 is arranged in the through hole 211, it is possible to reduce the size of the electronic device 10 in the Z direction while simplifying the configuration. Further, since a part of the blower unit 40 is arranged in the internal space 20s, the physique can be reduced in the Z direction.

Further, in the present embodiment, since the breathing filter 50 is arranged on the bottom surface 422c of the base portion 422b, it is difficult for liquids and foreign substances to collect in the ventilation holes 424. Therefore, it is possible to suppress the clogging of the breathing filter 50 and the tearing of the ventilation membrane 51. That is, the waterproofness and breathability of the breathing filter 50 can be ensured for a long period of time.

Further, in the present embodiment, the ventilation holes 424 and the breathing filter 50 are provided directly below the blades 411. Therefore, even if a separate member is not provided, it is possible to prevent a liquid such as a foreign substance or high-pressure washing water from directly hitting the breathing filter 50. In particular, in the present embodiment, the breathing filter 50 can be simplified by using only the breathing membrane 51, and the waterproofness and breathability of the breathing filter 50 can be ensured for a long period of time.

The positions of the ventilation holes 424 and the breathing filter 50 are not limited to directly below the blades 411. As described above, the same effect can be obtained if the fan 41 is directly below the portion having a gap between the fan 41 and the bottom surface 422c of the base portion 422b.

Further, in the present embodiment, the bottom surface 422c of the base portion 422b is located at a position farther from the circuit board 30 than the peripheral portion of the through hole 211 on the outer surface 21a of the case 21. Therefore, even if the liquid enters the accommodation space 42s of the housing 42, the liquid can escape to the outer surface 21a side through the second vent 421. That is, it is possible to prevent the liquid from staying around the breathing filter 50.

Further, in the present embodiment, the blower unit 40 is attached to the case 21 so that the rotation axis of the fan 41 substantially coincides with the Z direction, which is the plate thickness direction of the circuit board 30. Then, in the housing 42, the first vents 420 and the first vents 420 are located at different positions in the Z direction so that an air flow along the outer surface 21a of the case 21 is formed with the rotation of the fan 41 (blades 411). A second vent 421 is formed. Therefore, the blower unit 40 can efficiently cool the case 21 and the circuit board 30.

In particular, in the present embodiment, the first vent 420 is a suction port and the second vent 421 is a discharge port. According to this, the flow velocity on the outer surface 21a of the case 21 can be increased even at the same rotation speed as compared with the configuration in which the second vent 421 is the suction port and the first vent 420 is the discharge port. That is, the temperature of the case 21 and eventually the circuit board 30 can be lowered. This point has been confirmed by simulation.

As described above, in the configuration in which the bottom wall of the case is not provided with a through hole, for example, a connector is provided in the blower unit to make an electrical connection outside the waterproof housing. In this case, the harness connected to the connector is arranged on the outer surface of the case, which hinders cooling. That is, the arrangement of electronic components such as heat generating elements is also limited. On the other hand, in the present embodiment, the terminal 43 of the blower unit 40 protrudes from the base portion 422b and is connected to the circuit board 30. With this structure, since the above-mentioned connectors and harnesses are not obstructed, the degree of freedom in arranging the electronic components 32 can be improved.

Further, the rotation of the fan 41 of the blower unit 40 can cool the bottom wall 210 of the case 21, and thus the circuit board 30. If the area occupied by the case 21 is the same, the cooling capacity of the blower unit 40 is higher than that of the heat radiation fins, so that the physique of the electronic device 10 can be reduced. In particular, in the present embodiment, since the connector and the harness are not obstructed, the second vent 421 can be provided on all four side walls 423 of the housing 42. As a result, the air sucked from the first vent 420 spreads in all directions on the outer surface 21a of the case 21. Therefore, the case 21 can be effectively cooled.

(Second Embodiment)
This embodiment can refer to the preceding embodiment. Therefore, the description of the parts common to the electronic device 10 shown in the preceding embodiment will be omitted.

As shown in FIG. 7, the breathing filter 50 of the present embodiment is fixed to the back surface 422d of the base portion 422b. The breathing filter 50 also has only the ventilation film 51, and the ventilation film 51 is attached to the back surface 422d so as to close the ventilation hole 424. Other than that, the configuration is the same as that of the prior embodiment.

Even with such a configuration, the same effect as that of the preceding embodiment can be obtained. Since the ventilation hole 424 and the breathing filter 50 are located directly below a part of the fan 41, it is possible to prevent liquid or the like from entering the ventilation hole 424 while providing the breathing filter 50 on the back surface 422d side. Further, since the breathing filter 50 is fixed to the back surface 422d, it is difficult for a liquid such as high-pressure washing water to directly hit the breathing filter 50.

(Third Embodiment)
This embodiment can refer to the preceding embodiment. Therefore, the description of the parts common to the electronic device 10 shown in the preceding embodiment will be omitted.

As shown in FIG. 8, the blower unit 40 of the present embodiment has a fan cover 46. The fan cover 46 protects the fan 41 and the ventilation film 51. The fan cover 46 is arranged so as to cover the fan 41 and the ventilation film 51. The fan cover 46 is arranged on the side opposite to the base portion 422b with the fan 41 interposed therebetween.

The fan cover 46 has a box shape with one side open. A vent 46a is formed in a part of the side wall of the fan cover 46. This vent 46a corresponds to the first vent 420 shown in the prior embodiment. The fan cover 46 is fixed to a cylindrical side wall 423, and the fan 41 and the ventilation film 51 are arranged in the space defined by the fan cover 46 and the housing 42.

According to this, the fan cover 46 can prevent liquids and foreign substances from entering the accommodation space 42s. For example, it is possible to prevent the high-pressure washing water from directly hitting the breathing filter 50. In addition, it is possible to prevent the rotation of the fan 41 from being hindered by foreign matter.

(Fourth Embodiment)
This embodiment can refer to the preceding embodiment. Therefore, the description of the parts common to the electronic device 10 shown in the preceding embodiment will be omitted.

As shown in FIGS. 9 and 10, the blower unit 40 of the present embodiment has a protective wall 425 protruding from the bottom surface 422c of the base portion 422b so as to surround the breathing filter 50.

In this embodiment, the protective wall 425 is provided as part of the housing 42. The protective wall 425 is a protrusion protruding from the base portion 422b toward the accommodation space 42s. The protective wall 425 is discontinuously provided around the breathing filter 50 so as to surround the breathing filter 50 (ventilation membrane 51).

According to this, even if a liquid or a foreign substance enters the accommodation space 42s through the second vent 421 of the side wall 423, it is possible to suppress the direct contact with the breathing filter 50. That is, the waterproofness and breathability of the breathing filter 50 can be ensured for a longer period of time.

(Fifth Embodiment)
This embodiment can refer to the preceding embodiment. Therefore, the description of the parts common to the electronic device 10 shown in the preceding embodiment will be omitted.

As shown in FIG. 11, the breathing filter 50 of the present embodiment has a filter case 52, a filter cover 53, and a sealing member 54 in addition to the ventilation membrane 51.

The filter case 52 is formed by using a resin material. The filter case 52 has a cylindrical shape with both ends open. The filter case 52 has a locking projection on one end side, and is fixed to the base portion 422b of the bottom wall 422 with the one end side inserted in the ventilation hole 424. A ventilation membrane 51 is fixed to the other end side of the filter case 52 so as to close the opening of the filter case 52.

The filter cover 53 protects the ventilation membrane 51. The filter cover 53 is arranged so as to cover the ventilation film 51. The filter cover 53 has a box shape in which the surface on the ventilation film 51 (filter case 52) side is open. A vent 53a is formed in a part of the side wall of the filter cover 53. The filter cover 53 is fixed to the filter case 52, and the ventilation film 51 is arranged in the space defined by the filter cover 53 and the filter case 52.

The sealing member 54 is watertightly sealed between the filter case 52 and the base portion 422b. In this embodiment, a rubber-like elastic body is used as the seal member 54. The seal member 54 is sandwiched between the filter case 52 and the base portion 422b.

As described above, even if the breathing filter 50 having the filter cover 53 is adopted, the same effect as that of the prior embodiment can be obtained. Further, the filter cover 53 can prevent liquids and foreign substances from directly hitting the ventilation film 51. In the present embodiment, since the ventilation membrane 51 is provided directly under the blade 411, it is difficult for liquids and the like to hit the ventilation membrane 51.

The breathing filter 50 shown in the present embodiment may be combined with the configuration shown in the third embodiment (fan cover 46) or the configuration shown in the fourth embodiment (protective wall 425).

The disclosure of this specification is not limited to the exemplified embodiments. Disclosures include exemplary embodiments and modifications by those skilled in the art based on them. For example, the disclosure is not limited to the combination of elements shown in the embodiments. Disclosure can be carried out in various combinations. The technical scope disclosed is not limited to the description of the embodiments. Some technical scopes disclosed are indicated by the description of the scope of claims and should be understood to include all modifications within the meaning and scope equivalent to the description of the scope of claims. ..

As the electronic device 10, an example of an electronic control device that controls a vehicle engine has been shown, but the electronic device 10 is not limited thereto.

An example is shown in which the housing 42 of the blower unit 40 is fixed to the inner surface 21b of the case 21, but the present invention is not limited to this. For example, as shown in the modified example of FIG. 12, the housing 42 may be fixed to the outer surface 21a of the case 21. In the bottom wall 422, the portion inside the watertightly sealed portion where the seal member 45 is interposed between the bottom wall 422 and the case 21 is the base portion 422b.

The positions of the first vent 420 and the second vent 421 are not limited to the above example. Both the first vent 420 and the second vent 421 are located above the outer surface 21a around the through hole 211. The first vent 420 may be at least partially located above the blade 411 in the Z direction, and the second vent 421 may be at least partially located below the blade 411 in the Z direction.

An example in which the terminal 43 is inserted and mounted on the circuit board 30 is shown, but the present invention is not limited thereto. A surface mount structure can also be adopted.

An example is shown in which the housing 42 is adhesively fixed to the case 21 by the sealing member 45, but the present invention is not limited thereto. When other fixing means are adopted, a rubber-like elastic body or the like can be adopted as the sealing member 45.

The arrangement of the ventilation holes 424 and the breathing filter 50 is not limited to the above example. The ventilation hole 424 may be provided in the base portion 422b.

10 ... Electronic device, 20 ... Waterproof housing, 20s ... Internal space, 21 ... Case, 21a ... Outer surface, 21b ... Inner surface, 210 ... Bottom wall, 211 ... Through hole, 212 ... First accommodating part, 213 ... Second accommodating Part, 214 ... Mounting part, 215 ... Fixing hole, 216 ... Radiation fin, 22 ... Cover, 220 ... Radiation fin, 30 ... Circuit board, 31 ... Printed circuit board, 31a ... One side, 31b ... Back side, 32 ... Electronic component, 32a ... heating element, 32b ... atmospheric pressure sensor, 33 ... heat dissipation gel, 34 ... connector, 40 ... ventilation unit, 41 ... fan, 410 ... shaft, 410a ... rotating shaft, 411 ... blades, 42 ... housing, 42s ... accommodation space , 420 ... 1st vent, 421 ... 2nd vent, 422 ... bottom wall, 422a ... flange, 422b ... base, 422c ... bottom, 422d ... back, 423 ... side wall, 424 ... vent, 425 ... protection Wall, 43 ... Terminal, 44 ... Fan board, 45 ... Sealing material, 46 ... Fan cover, 46a ... Vent, 50 ... Breathing filter, 51 ... Ventilation film, 52 ... Filter case, 53 ... Filter cover, 53a ... Vent , 54 ... Seal member

Claims (9)

A waterproof housing (20) having a wall portion (210) formed with a through hole (211), and a waterproof housing (20).
The circuit board (30) housed in the internal space of the waterproof housing and
The fan (41) including the blade (411) and a member that rotatably accommodates the fan, and covers the through hole while facing the peripheral portion of the through hole on the outer or inner surface of the wall portion. A housing (42) that is arranged on the wall and is watertightly sealed between the wall and the entire circumference around the through hole, and a base portion (422b) that is an inner portion of the watertightly sealed portion in the housing. ) To the internal space, the terminal (43) electrically connected to the circuit board, the base portion, and the fan accommodation space and the internal space connected to the space outside the waterproof housing. A ventilation unit (40) having a ventilation hole (424) and a ventilation unit (40) for communicating with the air.
Attached to the base so as to close the vents, it blocks the flow of liquid between the interior space and the containment space while allowing the flow of gas between the interior space and the containment space. With a breathing filter (50) ,
The breathing filter is arranged on the bottom surface of the base portion, which is a surface on the accommodation space side.
A vent (421) is formed on the side wall of the housing.
An electronic device having a protective wall (425) in which the ventilation unit projects from the bottom surface of the base portion so as to surround the breathing filter. A waterproof housing (20) having a wall portion (210) formed with a through hole (211), and a waterproof housing (20).
The circuit board (30) housed in the internal space of the waterproof housing and
The fan (41) including the blade (411) and a member that rotatably accommodates the fan, and covers the through hole while facing the peripheral portion of the through hole on the outer surface or the inner surface of the wall portion. A housing (42) that is arranged on the wall and is watertightly sealed between the wall and the entire circumference around the through hole, and a base portion (422b) that is an inner portion of the watertightly sealed portion in the housing. ) To the internal space, the terminal (43) electrically connected to the circuit board, the base portion, and the fan accommodation space and the internal space connected to the space outside the waterproof housing. A ventilation unit (40) having a ventilation hole (424) and a ventilation unit (40) for communicating with the air.
Attached to the base so as to close the vents, it blocks the flow of liquid between the interior space and the containment space while allowing the flow of gas between the interior space and the containment space. With a breathing filter (50) ,
The housing has a vent (421) that is substantially flush with the bottom surface (422c), which is the surface of the base portion on the side of the accommodation space.
An electronic device in which the bottom surface is located farther from the circuit board in the plate thickness direction of the circuit board than the peripheral portion of the through hole on the outer surface (21a) of the wall portion. A waterproof housing (20) having a wall portion (210) formed with a through hole (211), and a waterproof housing (20).
The circuit board (30) housed in the internal space of the waterproof housing and
Look including a blade (411), wherein the fan (41) to the thickness direction of the circuit board and the rotation axis direction, a member for rotatably accommodating the fan, the through hole in the external or internal surface of the wall portion A housing (42) arranged on the wall portion so as to cover the through hole while facing the peripheral portion of the above, and watertightly sealed between the wall portion and the entire circumference around the through hole, and the housing. The waterproof housing that protrudes into the internal space from the base portion (422b), which is an inner portion of the watertightly sealed portion, penetrates the terminal (43) electrically connected to the circuit board, and the base portion. A ventilation unit (40) having a ventilation hole (424) for communicating the accommodation space of the fan connected to the external space of the fan and the internal space of the fan.
Attached to the base so as to close the vents, it blocks the flow of liquid between the interior space and the containment space while allowing the flow of gas between the interior space and the containment space. With a breathing filter (50) ,
In the direction of the rotation axis, the base portion and the breathing filter are arranged closer to the circuit board than the blades.
The base portion and the ventilation hole are electronic devices arranged in the through hole. The electronic device according to claim 2 or 3 , wherein the breathing filter is arranged on the bottom surface of the base portion, which is a surface on the accommodation space side. The breathing filter has a ventilation membrane (51) and has.
The electronic device according to any one of claims 2 to 4 , wherein the ventilation film is attached to the base portion so as to close the ventilation holes. The electron according to claim 5 , wherein the blower unit has a fan cover (46) arranged on a side opposite to the base portion with the fan interposed therebetween and fixed to the housing so as to cover the fan and the ventilation membrane. Device. The electronic device according to claim 4 , wherein the breathing filter has a ventilation membrane (51) arranged so as to close the ventilation holes, and a filter cover (53) arranged so as to cover the ventilation membrane. A part of the fan including the blades is provided with a gap between the base portion and the bottom surface, which is a surface on the accommodation space side.
The electronic device according to any one of claims 2 to 7 , wherein the breathing filter is arranged directly under a part of the fan. The electronic device according to claim 8 , wherein the breathing filter is arranged directly under the blade.

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