JP4922467B2 - Electronics - Google Patents

Description

  Embodiments described herein relate generally to a technology related to a cooling structure for cooling a heat-generating component of an electronic device.

An electronic device such as a portable computer includes a cooling structure for cooling a heat generating component mounted in a housing.
Patent Document 1 discloses a fan unit assembled in a unit shape. The fan unit includes a fan housing box body, a cooling fan housed in the fan housing box body, and a lid that closes the opening of the fan housing box body. An opening for mounting the printed board is provided on the side surface of the fan housing box main body. The printed board is accommodated in the fan accommodating box such that the card edge of the printed board protrudes from the opening to the outside of the fan accommodating box main body.

JP 2001-99098 A

  Incidentally, in recent years, heat generation components mounted on electronic devices such as portable computers tend to further increase the amount of heat generated. Therefore, the cooling structure mounted on the electronic device is required to improve the cooling performance. However, when a large cooling fan is mounted, the mounting area in the housing is limited accordingly, and the area of the circuit board is reduced.

  An object of the present invention is to provide an electronic device that can improve cooling performance without reducing the area of a circuit board.

  According to the embodiment, the electronic device includes a housing provided with an exhaust hole, a casing, and a circuit board. The casing portion is provided with an exhaust port portion in which fan blades are housed and through which air is directed toward the exhaust hole portion, a wall portion that at least partially blocks air that is directed in a direction different from the exhaust hole portion, and the wall portion. A cut-out portion. The circuit board has a portion that is inserted into the notch portion, receives air toward the exhaust hole portion inside the casing portion, and is positioned between the wall portion and the fan blade.

1 is a perspective view of a portable computer according to a first embodiment. The perspective view of the cooling fan which concerns on 1st Embodiment. The perspective view of the cooling fan which concerns on 1st Embodiment. The top view of the cooling fan and circuit board which concern on 1st Embodiment. FIG. 2 is a cross-sectional view of the portable computer shown in FIG. 1. Sectional drawing which follows the F6-F6 line of the cooling fan shown in FIG. 5, and a circuit board. Sectional drawing which follows the F7-F7 line | wire of the cooling fan and circuit board shown in FIG. Sectional drawing of the portable computer which concerns on 2nd Embodiment. Sectional drawing of the portable computer which concerns on 3rd Embodiment. Sectional drawing of the portable computer which concerns on 4th Embodiment. Sectional drawing of the portable computer which concerns on 5th Embodiment. Sectional drawing of the portable computer which concerns on 6th Embodiment. Sectional drawing which follows the F13-F13 line | wire of the cooling fan and circuit board shown in FIG. Sectional drawing of the cooling fan and circuit board which concern on the modification of 6th Embodiment. The perspective view of the cooling fan which concerns on 7th Embodiment. Sectional drawing of the portable computer which concerns on 7th Embodiment. The perspective view of the portable cooling fan and circuit board which concern on 7th Embodiment. FIG. 17 is an exemplary sectional view taken along line F18-F18 of the portable computer shown in FIG. 16; Sectional drawing of the portable computer which concerns on 8th Embodiment. Sectional drawing of the portable computer which concerns on 9th Embodiment. Sectional drawing which follows the F21-F21 line of the thermal radiation member shown in FIG. 20, and a circuit board. The front view seen from the heat dissipation member shown in FIG. 20 and the F22-F22 line of a circuit board.

Embodiments will be described below with reference to the drawings applied to a portable computer.
(First embodiment)
1 to 7 disclose a portable computer 1 as an electronic apparatus according to the first embodiment. As shown in FIG. 1, the portable computer 1 includes a main unit 2, a display unit 3, and hinge portions 4a and 4b.

  The main unit 2 is an electronic device main body on which a main board is mounted. The main unit 2 has a housing 5 formed in a flat box shape. The housing 5 has an upper wall 6, a peripheral wall 7, and a lower wall 8. The lower wall 8 is a surface facing the mounting surface when the portable computer 1 is placed on the mounting surface (for example, on a desk). The lower wall 8 extends so as to be substantially parallel to the placement surface.

  The upper wall 6 extends substantially parallel to the lower wall 8 with a space between the upper wall 6 and the lower wall 8. The upper wall 6 supports a keyboard 9. The peripheral wall 7 stands up with respect to the lower wall 8 and connects the peripheral edge of the lower wall 8 and the peripheral edge of the upper wall 6.

  As shown in FIG. 1, the display unit 3 includes a display housing 10 and a display device 11 accommodated in the display housing 10. The display device 11 has a display screen 11a. The display screen 11 a is exposed to the outside of the display housing 10 through the opening 10 a on the front surface of the display housing 10.

  The display unit 3 is supported by the rear end part of the housing | casing 5 via a pair of hinge parts 4a and 4b, for example. The display unit 3 is rotatable between a closed position where the display unit 3 is tilted so as to cover the upper wall 6 of the housing 5 from above and an open position where the display unit 3 is raised with respect to the upper wall 6.

Next, the housing 5 of the main unit 2 will be described in detail.
As illustrated in FIG. 1, the housing 5 includes a housing base 13 and a housing cover 14. The housing base 13 includes a part of the peripheral wall 7 and the lower wall 8, and is formed in a box shape whose upper side is open. The housing cover 14 includes a part of the peripheral wall 7 and the upper wall 6. The housing cover 14 is combined with the housing base 13 from above, for example. The housing 5 is formed by combining the housing cover 14 with the housing base 13.

  The peripheral wall 7 of the housing 5 includes a front wall portion 7a, left and right side wall portions 7b and 7c, and a rear wall portion 7d. The front wall portion 7 a is located at an end portion (front end portion) on the opposite side to the end portion where the hinge portions 4 a and 4 b are provided in the housing 5. The front wall 7a faces the user when the portable computer 1 is used. Here, in this specification, the front, rear, left and right are defined as viewed from the user. The front wall portion 7 a extends in the width direction (left-right direction) of the housing 5.

  The rear wall portion 7d is located in an end portion (rear end portion) where the hinge portions 4a and 4b are provided in the housing 5. The rear wall portion 7d extends substantially parallel to the front wall portion 7a. The left side wall 7b extends in the front-rear direction (depth direction) of the housing 5 so as to connect the left end of the front wall 7a and the left end of the rear wall 7d. The right wall portion 7c extends in the front-rear direction (depth direction) of the housing 5 so as to connect the right end portion of the front wall portion 7a and the right end portion of the rear wall portion 7d.

  As shown in FIG. 1, for example, a plurality of exhaust hole portions 21 are provided, for example, in the left side wall portion 7 b. The exhaust hole portion 21 is provided in the left side wall portion 7b and opens in one direction (hereinafter referred to as the first direction D1). The first direction D1 is a direction facing the left side of the portable computer 1. The exhaust port 21 may be provided on the right side wall 7c instead of the left side wall 7b.

  As shown in FIG. 5, the circuit board 22 is accommodated in the housing 5. The circuit board 22 is, for example, a main board (motherboard). The circuit board 22 has a larger outer shape than a cooling fan 31 described later. The circuit board 22 is housed in the housing 5 in a horizontally laid posture.

  A heat generating component 23 is mounted on the circuit board 22. The heat generating component 23 is an electronic component that generates heat when in use, and examples thereof include a CPU, a graphic chip, North Bridge (registered trademark), and a memory. However, the heat generating component is not limited to the above example, and various components for which heat dissipation is desired are applicable. For example, a heat receiving member 24 formed of a metal plate is thermally connected to the heat generating component 23.

  As shown in FIG. 5, a cooling structure 25 is provided in the housing 5. The cooling structure 25 according to the present embodiment is for cooling the heat generating component 23, for example, but the cooling structure is not limited to this. The cooling structure can be widely applied to various purposes. For example, the cooling structure may be constituted by a single cooling fan and may have no heat radiation fin.

  As shown in FIG. 5, the cooling structure 25 according to this embodiment includes a cooling fan 31, a heat radiation member (heat sink) 32, and a heat transport member 33. As shown in FIGS. 2 to 4, the cooling fan 31 is a centrifugal type fan, and includes a fan blade 35 (impeller) and a fan case 36.

  The fan blade 35 has a plurality of blades and is rotationally driven by a motor (not shown) to blow air in the centrifugal direction of the fan blade 35. The fan case 36 according to the present embodiment is an example of a casing part. The fan case 36 is formed in a box shape and accommodates the fan blade 35.

  As shown in FIG. 2, the fan case 36 has an exhaust port 41 that opens in the centrifugal direction of the fan blade 35 as viewed from the rotation center C. As shown in FIG. 4, the exhaust port 41 is open in one direction. As shown in FIG. 5, the exhaust port 41 is directed in the direction from the cooling fan 31 toward the exhaust hole 21 of the housing 5 (that is, the first direction D1).

  As shown in FIGS. 2 to 4, the fan case 36 includes a casing main body portion 42 and a casing extending portion 43. The casing main body portion 42 and the casing extending portion 43 are integrally formed with each other. The casing body 42 is formed to be slightly larger than the fan blade 35 and accommodates the fan blade 35. The casing main body 42 faces the fan blade 35 from the axial direction of the fan blade 35 (that is, overlaps with each other in plan view).

  The casing extending portion 43 extends from the casing main body portion 42 along a direction (hereinafter referred to as a second direction D2) orthogonal to the opening direction (first direction D1) of the exhaust port portion 41.

  As shown in FIGS. 2 and 4, the exhaust port 41 is formed from one horizontal end to the other end of the fan case 36 along the second direction D2 and has a relatively large opening. . That is, the exhaust port portion 41 opens from the casing main body portion 42 to the casing extending portion 43. In other words, the casing extending portion 43 extends from the casing main body portion 42 in order to increase the opening of the exhaust port portion 41.

  As a result, as shown in FIG. 4, the exhaust port portion 41 has a first facing the fan blade 35 when viewed from the opening direction (that is, when viewed along the arrow A in FIG. 4). A portion 41a and a second portion 41b that does not face the fan blade 35 are included. The first portion 41 a is a portion formed in the casing body portion 42 in the exhaust port portion 41. The second portion 41 b is a portion formed in the casing extending portion 43 in the exhaust port portion 41.

  As shown in FIG. 2, the fan case 36 has an upper surface portion 45, a side surface portion 46, and a lower surface portion 47. The upper surface portion 45 and the lower surface portion 47 are arranged above or below the fan blade 35 and face the fan blade 35 from the axial direction of the fan blade 35. The upper surface portion 45 and the lower surface portion 47 are each formed in a plate shape and spread in the horizontal direction. The upper surface portion 45 and the lower surface portion 47 are provided from the casing main body portion 42 to the casing extending portion 43, respectively. In the upper surface portion 45 and the lower surface portion 47, intake ports 48 are opened.

  As shown in FIGS. 2 and 3, the side surface portion 46 is an upright wall extending in the vertical direction between the edge portion of the upper surface portion 45 and the edge portion of the lower surface portion 47. As shown in FIG. 4, the side surface portion 46 is provided on the entire periphery of the fan blade 35 except the air inlet portion 48, and the fan blade 35 is rotated in the centrifugal direction (that is, the centrifugal direction viewed from the rotation center C). ). The side surface portion 46 includes a first wall portion 46a, a second wall portion 46b, and a third wall portion 46c. The first and second wall portions 46 a and 46 b are provided on the casing body portion 42. The third wall portion 46 c is provided in the casing extension portion 43.

  As shown in FIG. 4, the first wall portion 46 a is located on the opposite side of the fan blade 35 from the exhaust port portion 41 in the fan case 36. The first wall portion 46 a extends in a curved shape along the outer periphery of the fan blade 35. The second wall portion 46 b is located on the opposite side of the fan blade 35 from the casing extending portion 43 in the fan case 36. The second wall 46b extends from the end of the first wall 46a toward the exhaust port 41 along the first direction D1. The second wall portion 46b faces the fan blade 35 along the second direction D2.

  The third wall portion 46 c is located on the opposite side of the fan blade 35 from the second wall portion 46 b in the fan case 36. The third wall portion 46 c extends along the outer shape of the casing extension portion 43 from the end portion of the first wall portion 46 a. The third wall portion 46c extends, for example, so as to incline away from the fan blade 35 with respect to the first direction D1. The exhaust port 41 is formed by the tip of the third wall 46c, the tip of the second wall 46b, the tip of the upper surface 45, and the tip of the lower surface 47. Yes.

  As shown in FIG. 4, the third wall portion 46 c stands on the side of the fan blade 35 and faces the fan blade 35 from a direction orthogonal to the direction in which the exhaust port portion 41 is opened. The third wall 46c is an example of a “wall”. The third wall portion 46c faces the second portion 41b of the exhaust port portion 41 when viewed along the first direction D1.

  The third wall portion 46c guides the wind sent from the fan blade 35 toward the exhaust port portion 41 in a direction different from the opening direction of the exhaust port portion 41 (for example, the second direction D2). . The third wall portion 46 c and the casing main body portion 42 are integrally formed with the fan case 36.

  As shown in FIGS. 3 and 4, the fan case 36 is provided with a notch 51 into which a part of the circuit board 22 can be inserted. The notch 51 is formed in the third wall 46c. The notch 51 is, for example, a slit obtained by notching a part of the third wall 46c. The notch 51 opens in a direction different from the direction in which the exhaust port 41 opens in the centrifugal direction viewed from the rotation center C of the fan blade 35.

  The notch 51 extends in the horizontal direction. The notch 51 is provided in a region of the fan case 36 that does not overlap the fan blade 35 (region that does not overlap in plan view). The notch 51 is formed in a region that does not overlap the fan blade 35 when viewed from the opening direction of the exhaust port 41 (that is, when viewed along the arrow A in FIG. 4).

  As shown in FIG. 4, the circuit board 22 has a notch 22 a along the outer shape of the casing main body 42, and does not have a notch corresponding to the outer shape of the casing extending portion 43. As shown in FIGS. 5 and 6, a part of the circuit board 22 is inserted into the notch 51 of the fan case 36 and enters the inside of the fan case 36. That is, a part of the circuit board 22 extends to the inside of the fan case 36 through the notch 51. As shown in FIG. 7, the tip of the circuit board 22 is aligned with the surface of the cooling fan 31 in which the exhaust port 41 is formed, for example.

  As shown in FIGS. 6 and 7, the thickness of the notch 51 is larger than the thickness of the circuit board 22. That is, a gap S is formed between the circuit board 22 and the notch 51. This gap S absorbs component tolerances of the circuit board 22 and the cooling fan 31.

  As shown in FIG. 5, the heat radiating member 32 is disposed between the cooling fan 31 and the exhaust hole 21 of the housing 5. The heat dissipating member 32 extends along the second direction D2 and faces the exhaust port 41 over substantially the entire width of the exhaust port 41 of the cooling fan 31. That is, the heat radiating member 32 is opposed from the first portion 41 a to the second portion 41 b of the exhaust port portion 41.

  An example of the heat transport member 33 is a heat pipe. The heat transport member 33 has a heat receiving end 33a and a heat radiating end 33b. The heat receiving end portion 33 a is thermally connected to the heat generating component 23 via the heat receiving member 24. The heat radiating end portion 33 b is thermally connected to the heat radiating member 32. The heat transport member 33 moves a part of the heat received by the heat receiving end 33a to the heat radiating end 33b.

Next, the operation of the portable computer 1 will be described.
When the portable computer 1 is used, the heat generating component 23 generates heat. This heat is transmitted to the heat radiating member 32 by the heat transport member 33.

  When the fan blade 35 is driven to rotate, the cooling fan 31 sucks air from the inside of the housing 5 through the intake port portion 48 and discharges the sucked air from the exhaust port portion 41. More specifically, most of the air sent from the fan blade 35 in the first direction D1 is discharged from the first portion 41a of the exhaust port 41 toward the heat radiating member 32 as it is. Most of the air sent from the fan blade 35 in the second direction D2 collides with the third wall 46c and changes the direction of the wind toward the exhaust port 41, and is guided to the third wall 46c. Then, the air is discharged from the second portion 41 b of the exhaust port 41 toward the heat radiating member 32.

  According to the portable computer 1 having such a configuration, the cooling performance of the cooling structure 25 can be improved without reducing the area (substrate area) of the circuit board 22. That is, by adopting a structure in which the notch 51 is formed in the fan case 36 of the cooling fan 31 and a part of the circuit board 22 enters into the fan case 36 through the notch 51, a relatively large fan Even if the cooling fan 31 having the case 36 and securing the large exhaust port 41 is employed, the area of the circuit board 22 does not have to be reduced. Thereby, the cooling performance of the cooling structure 25 can be improved without reducing the area of the circuit board 22.

  In other words, the notch 51 is provided in the fan case 36 and a part of the circuit board 22 is extended to the inside of the fan case 36 through the notch 51 without affecting the area of the circuit board 22. The exhaust port 41 of the cooling fan 31 can be widened. Thereby, when compared with a normal cooling fan having the same wing shape, the cooling fan according to the present embodiment can increase the fan air volume.

  In order to increase the fan air volume of the cooling fan 31, it is conceivable to employ a so-called two-way exhaust cooling fan having two exhaust ports facing in different directions. However, since a battery or the like is mounted on the rear end portion of the housing 5, it is difficult to provide the exhaust hole portion 21 in the rear wall portion 7d. Moreover, since the front wall part 7a of the housing | casing 5 is a wall part which faces a user, providing the exhaust hole part 21 is not preferable. Therefore, it is difficult to mount a cooling fan for two-way exhaust.

  On the other hand, as in the present embodiment, the exhaust port portion 41 of the fan case 36 opens in one direction and rises to the side of the fan blade 35 to guide the wind toward the exhaust port portion 41. When the wall portion (third wall portion 46c) is provided, the exhaust port portion 41 can be widened in the cooling fan 31 including the exhaust port portion 41 facing in one direction. The area of the circuit board 22 is not reduced by forming the notch 51 in the wall.

  If the casing main body 42 and the wall are integrally formed by the fan case 36, the cooling structure 25 of the present embodiment can be assembled relatively easily.

(Second Embodiment)
Next, a portable computer 1 as an electronic apparatus according to the second embodiment will be described with reference to FIG. In addition, the same code | symbol is attached | subjected to the structure which has the same or similar function as the structure of the said 1st Embodiment, and the description is abbreviate | omitted. The configuration other than that described below is the same as that of the first embodiment.

  As shown in FIG. 8, the third wall portion 46 c of the fan case 36 according to the present embodiment has a portion extending in a curved shape so as to expand toward the outside of the fan case 36. Thereby, the fan case 36 according to the present embodiment has a larger area in the fan case 36 than, for example, the fan case 36 of the first embodiment. The shape of the third wall portion 46c is not limited to the above shape, and may be a shape that avoids an electronic component mounted on the circuit board 22, for example. The shape of the third wall portion 46c may be the same as the shape of the third wall portion 46c of the first embodiment, for example.

  A first heat generating component 23 and a second heat generating component 61 are mounted on the circuit board 22. The first heat generating component 23 corresponds to the heat generating component 23 described in the first embodiment. The second heat generating component 61 is a component that generates less heat than the first heat generating component 23. An example of the second heat generating component 61 is a power supply component.

  The circuit board 22 includes a first board area 62 located outside the fan case 36 and a second board area 63 entering the inside of the fan case 36 when combined with the cooling fan 31. The first heat generating component 23 is mounted on the first board region 62. The second heat generating component 61 is mounted on the second board region 63 and is located inside the fan case 36.

  According to the portable computer 1 having such a configuration, the cooling performance of the cooling structure 25 can be improved without reducing the area of the circuit board 22 as in the first embodiment. Further, when the second heat generating component 61 is mounted on the second board region 63 of the circuit board 22, the second heat generating component 61 receives wind directly from the fan blade 35 inside the fan case 36. To be cooled. Thereby, although it is not necessary to employ | adopt RHE (Remote Heat Exchanger) type cooling structure, the heat-emitting component 23 with which a certain amount of cooling is preferable can be cooled with the cooling fan 31. FIG. Thereby, the cooling performance of the cooling structure 25 is further improved.

(Third embodiment)
Next, a portable computer 1 as an electronic apparatus according to a third embodiment will be described with reference to FIG. In addition, the structure which has the same or similar function as the structure of the said 1st and 2nd embodiment attaches | subjects the same code | symbol, and abbreviate | omits the description. The configuration other than that described below is the same as that of the second embodiment.

  As shown in FIG. 9, a plurality of second heat generating components 61 are mounted on the second board region 63 of the circuit board 22. The plurality of second heat generating components 61 may be the same type of components or different types of components.

  A partition member 65 extending along the direction of the wind is installed between the plurality of second heat generating components 61. The partition member 65 divides the internal space of the fan case 36 into several ventilation paths 66a, 66b, and 66c. A second heat generating component 61 is disposed in each of the ventilation paths 66a, 66b, 66c. The winds sent from the fan blade 35 and passed through the ventilation paths 66a, 66b, 66c merge with each other at a position downstream of the wind flow from the position where the second heat generating components 61 are arranged.

  According to the portable computer 1 having such a configuration, the cooling performance of the cooling structure 25 can be improved without reducing the area of the circuit board 22 as in the first and second embodiments.

  Further, when the partition member 65 is provided, the air heated near one second heat generating component 61 does not pass near the other second heat generating component 61, and each heat generating A relatively cool air can be supplied around the part 23. Thereby, the cooling performance of the cooling structure 25 further improves.

(Fourth embodiment)
Next, a portable computer 1 as an electronic apparatus according to a fourth embodiment will be described with reference to FIG. In addition, the structure which has the same or similar function as the structure of the said 1st and 2nd embodiment attaches | subjects the same code | symbol, and abbreviate | omits the description. The configuration other than that described below is the same as that of the second embodiment.

  At least a part of the notch 51 of the fan case 36 has an opening larger than the total thickness of the circuit board 22 and the heat transport member 33. The heat transport member 33 extends while facing the circuit board 22. A part of the heat transport member 33 faces the second substrate region 63 of the circuit board 22 and enters the inside of the fan case 36 from the notch 51 in a state of overlapping the circuit board 22. A part of the heat transport member 33 extends inside the fan case 36 and extends to the outside of the fan case 36 through, for example, the exhaust port 41 of the fan case 36.

  According to the portable computer 1 having such a configuration, the cooling performance of the cooling structure 25 can be improved without reducing the area of the circuit board 22 as in the first embodiment. Further, when the heat transport member 33 extends into the fan case 36 and extends, a part of the heat transport member 33 receives air directly from the fan blade 35 inside the fan case 36 and is cooled. Thereby, the cooling performance of the cooling structure 25 is further improved.

(Fifth embodiment)
Next, a portable computer 1 as an electronic apparatus according to a fifth embodiment will be described with reference to FIG. In addition, the same code | symbol is attached | subjected to the structure which has the same or similar function as the structure of the said 1st Embodiment, and the description is abbreviate | omitted. The configuration other than that described below is the same as that of the first embodiment.

  As shown in FIG. 11, the fan case 36 includes a casing main body portion 42, a first casing extending portion 43, and a second casing extending portion 71. The first casing extending portion 43 corresponds to the casing extending portion 43 according to the first embodiment. In the present embodiment, a second casing extending portion 71 extending to the opposite side of the casing main body portion 42 from the first casing extending portion is provided.

  The second wall portion 46 b extends along the outer shape of the second casing extending portion 71 from the end portion of the first wall portion 46 a. The second wall portion 46b extends, for example, so as to incline away from the fan blade 35 with respect to the first direction D1. The exhaust port portion 41 is formed from the first casing extending portion 43 to the second casing extending portion 71.

  The notch 51 is provided in each of the second wall portion 46b and the third wall portion 46c. A part of the circuit board 22 is inserted into the notch 51 formed in the second wall 46b and the notch 51 formed in the third wall 46c, respectively, and enters the fan case 36. It is out.

  According to the portable computer 1 having such a configuration, the cooling performance of the cooling structure 25 can be improved without reducing the area of the circuit board 22 as in the first embodiment. If the fan case 36 is extended to both sides of the casing body 42, the exhaust port 41 can be secured more widely. Thereby, the cooling performance of the cooling structure 25 further improves.

(Sixth embodiment)
Next, a portable computer 1 as an electronic apparatus according to a sixth embodiment will be described with reference to FIGS. In addition, the same code | symbol is attached | subjected to the structure which has the same or similar function as the structure of the said 1st Embodiment, and the description is abbreviate | omitted. The configuration other than that described below is the same as that of the first embodiment.

  As shown in FIG. 12, the cooling structure 25 according to this embodiment includes a gap sealing member 75 that closes the gap S between the circuit board 22 and the notch 51. As shown in FIG. 11, the gap sealing member 75 is provided over substantially the entire length of the notch 51 along the longitudinal direction (horizontal direction) of the notch 51. As shown in FIG. 13, the gap sealing member 75 is interposed between the circuit board 22 and the fan case 36.

  The gap sealing member 75 is formed of, for example, a material having elasticity, and functions as a buffer member. The gap sealing member 75 is formed of, for example, a sponge. The gap sealing member 75 fits between the circuit board 22 and the fan case 36 in a state of being deformed following the component tolerance of the fan case 36 and the circuit board 22. When the opening shape of the notch 51 has irregularities, the gap sealing member 75 fits between the circuit board 22 and the fan case 36 in a shape following the irregularities.

  According to the portable computer 1 having such a configuration, the cooling performance of the cooling structure 25 can be improved without reducing the area of the circuit board 22 as in the first embodiment.

  When the gap sealing member 75 that closes the gap S between the circuit board 22 and the notch 51 is provided, the leakage of wind from the gap S is suppressed, so that the cooling performance of the cooling structure 25 is improved. For example, when the surface mounting component 76 or the like is mounted in the area of the circuit board 22 that enters the fan case 36, the notch 51 of the fan case 36 is compared in consideration of the height of the surface mounting component 76. Since there is a thick gap, the amount of notches increases. In such a case, providing the gap sealing member 75 is particularly useful.

  FIG. 14 shows an example of a modified example of the gap sealing member 75. The gap sealing member 75 is not limited to the one interposed between the circuit board 22 and the fan case 36 as described above, and the circuit board 22 and the notch are formed from the outside of the fan case 36 as in the present modification. It may be opposed to the gap S with respect to 51 and close the gap S.

(Seventh embodiment)
Next, a portable computer 1 as an electronic apparatus according to a seventh embodiment will be described with reference to FIGS. In addition, the same code | symbol is attached | subjected to the structure which has the same or similar function as the structure of the said 1st Embodiment, and the description is abbreviate | omitted. The configuration other than that described below is the same as that of the first embodiment.

  As shown in FIG. 16, the cooling structure 25 according to the present embodiment includes a cooling fan 31, a heat radiating member 32, a heat transport member 33, and first and second wind shielding members 81 and 82. In the present embodiment, the fan case 36 of the cooling fan 31 and the first and second wind shielding members 81 and 82 cooperate to form the casing portion 83.

  As shown in FIG. 15, the cooling fan 31 according to the present embodiment is a two-way exhaust cooling fan. The fan case 36 is formed to be slightly larger than the fan blade 35 and accommodates the fan blade 35. The fan case 36 according to the present embodiment is a casing main body 42 and faces the fan blade 35 from the axial center direction of the fan blade 35.

  The fan case 36 has first and second discharge port portions 84 and 85. The first and second discharge port portions 84 and 85 are open in directions orthogonal to each other. As shown in FIG. 16, the first discharge port portion 84 faces the first direction D <b> 1 and faces the exhaust hole portion 21 of the housing 5. The second discharge port portion 85 faces the second direction D2.

  As shown in FIG. 16, the circuit board 22 is adjacent to the second discharge port portion 85 of the fan case 36. The circuit board 22 has a notch 22a along the outer shape of the fan case 36 and does not overlap the fan case 36 in plan view.

  As shown in FIGS. 16 and 17, the cooling structure 25 according to this embodiment includes two first and second wind shielding members 81 and 82, for example. The first and second wind shielding members 81 and 82 are wall portions each formed in a plate shape. The first and second wind shielding members 81 and 82 are made of an elastic material, such as a sponge.

  The first wind shielding member 81 faces the circuit board 22 from a direction perpendicular to the surface of the circuit board 22. The two first wind shielding members 81 are arranged separately on the upper and lower sides of the circuit board 22, for example. As shown in FIG. 16, the first wind shielding member 81 is located away from the fan case 36 in the centrifugal direction (for example, the second direction D2) viewed from the rotation center C of the fan blade 35. The second discharge port portion 85 is opposed.

  As shown in FIG. 16, the 1st wind-shielding member 81 has the 1st and 2nd end parts 81a and 81b which are the edge parts of a longitudinal direction, respectively. The first end portion 81a is an end portion located on the inner side of the housing 5 among the first and second end portions 81a and 81b. The first end portion 81 a is located in the vicinity of the fan case 36. The second end 81b is an end opposite to the first end 81a, and is located closer to the exhaust hole 21 of the housing 5 than the first end 81a. The first wind shielding member 81 is disposed to be inclined with respect to the fan case 36 so as to be separated from the fan case 36 as it proceeds from the first end portion 81a toward the second end portion 81b.

  As shown in FIG. 18, the first wind shielding member 81 is interposed between the circuit board 22 and the inner surface 5a of the housing 5, and the circuit board 22 and the inner surface 5a of the housing 5 over the entire length in the longitudinal direction. The gap between is closed. More specifically, one first wind shielding member 81 is provided between the circuit board 22 and the upper wall 6 (housing cover 14) of the housing 5. The other first wind shielding member 81 is provided between the circuit board 22 and the lower wall 8 (housing base) of the housing 5.

  As shown in FIGS. 16 to 18, in the present embodiment, the casing portion is provided between the distal end portion of the second end portion 81 b of the first wind shielding member 81 and the distal end portion of the second wall portion 46 b. 83 exhaust ports 41 are formed. The exhaust port 41 is directed in one direction (the first direction D1).

  The two first wind shielding members 81 of the present embodiment cooperate with each other to form an example of a “wall”. The first wind shielding member 81 stands on the side of the fan blade, and faces the fan blade 35 from a direction orthogonal to the direction in which the exhaust port 41 is opened. That is, in the present embodiment, the “wall portion” is formed by the first wind shielding member 81 which is a member different from the fan case 36.

  The first wind shielding member 81 is opposed to the exhaust hole portion 21 of the housing 5 along the first direction. The first wind shielding member 81 changes the direction of the wind discharged from the second discharge port portion 85 of the fan case 36 so as to face the exhaust hole portion 21 of the housing 5. That is, the air discharged from the second discharge port portion 85 of the fan case 36 is guided so as to be discharged from the exhaust port portion 41 opened in the first direction D1.

  As shown in FIG. 18, a gap S for interposing the circuit board 22 is provided between the two first wind shielding members 81. In other words, the two first wind shielding members 81 form one large wall portion, and a cutout portion 51 into which the circuit board 22 can be inserted is formed in the wall portion.

  A part of the circuit board 22 extends through the notch 51 to the inside of the casing 83. That is, the circuit board 22 extends beyond the first wind shield member 81 from the position away from the first wind shield member 81 with respect to the fan case 36 toward the fan case 36.

  As shown in FIGS. 16 to 18, the plurality of second wind shielding members 82 are interposed between the cooling fan 31 and the inner surface 5 a of the housing 5. More specifically, one second wind shielding member 82 is provided between the fan case 36 and the upper wall 6 (housing cover 14) of the housing 5. The other second wind shielding member 82 is provided between the fan case 36 and the lower wall 8 (housing base) of the housing 5. The first and second wind shielding members 81 and 82 cooperate with each other to vent the air discharged from the second discharge port portion 85 so as not to go to the intake port portion 48 of the cooling fan 31. Forming a road.

  According to the portable computer 1 having such a configuration, the cooling performance of the cooling structure 25 can be improved without reducing the area of the circuit board 22 as in the first embodiment.

  When the first wind-shielding member 81, which is a member different from the fan case 36, forms a ventilation path that directs the wind sent to the exhaust port 41 in a direction different from the opening direction of the exhaust port 41. A structure similar to that of the above-described embodiment can be realized while using a conventional two-way exhaust cooling fan.

(Eighth embodiment)
Next, a portable computer 1 as an electronic apparatus according to an eighth embodiment will be described with reference to FIG. In addition, the same code | symbol is attached | subjected to the structure which has the same or similar function as the structure of the said 1st and 7th embodiment, and the description is abbreviate | omitted. The configuration other than that described below is the same as that of the seventh embodiment.

  The housing 5 according to this embodiment has first and second protrusions 91 and 92. The first protrusions 91 are provided on the upper wall 6 and the lower wall 8, respectively, and protrude into the housing 5. The first protrusion 91 has the same shape and function as the first wind shielding member 81 of the seventh embodiment. That is, the first protrusion 91 stands on the side of the fan blade 35 in a direction perpendicular to the opening direction of the exhaust port 41 and forms an example of a “wall”.

  The second protrusions 92 are provided on the upper wall 6 and the lower wall 8, respectively, and protrude into the housing 5. The 2nd projection part 92 has the same shape and function as the 2nd wind shielding member 82 of the said 7th Embodiment.

  According to the portable computer 1 having such a configuration, the cooling performance of the cooling structure 25 can be improved without reducing the area of the circuit board 22 as in the first embodiment.

(Ninth embodiment)
Next, a portable computer 1 as an electronic apparatus according to a ninth embodiment will be described with reference to FIGS. In addition, the same code | symbol is attached | subjected to the structure which has the same or similar function as the structure of the said 1st Embodiment, and the description is abbreviate | omitted. The configuration other than that described below is the same as that of the first embodiment.

  The heat radiating member 32 has a first portion 32a and a second portion 32b. The second portion 32b faces the wall portion 46c of the fan case 36 provided with the notch 51 along the first direction D1. The first portion 32a is the remaining portion of the heat dissipation member 32 excluding the second portion 32b.

  As shown in FIG. 22, the second portion 32b is provided with a notch 101 into which a part of the circuit board 22 can be inserted. More specifically, in the second portion 32 b of the heat radiating member 32, the fins 102 are arranged on the upper side and the lower side of the region that becomes the notch 101. As shown in FIG. 21, the notch 101 of the heat dissipation member 32 is formed at a position facing the notch 51 of the fan case 36. On the other hand, the first portion 32 a of the heat dissipation member 32 is not provided with a notch.

  As shown in FIGS. 20 to 22, a part of the circuit board 22 is inserted into the notch 101 of the heat dissipation member 32 and extends into the heat dissipation member 32.

  According to the portable computer 1 having such a configuration, the cooling performance of the cooling structure 25 can be improved without reducing the area of the circuit board 22 as in the first embodiment. Furthermore, if the heat radiating member 32 has the notch 101 and a part of the circuit board 22 extends into the heat radiating member 32, a larger area of the circuit board 22 can be secured.

  Although the portable computer 1 according to the first to ninth embodiments has been described above, the present invention is not limited to these. The components according to the first to ninth embodiments can be used in appropriate combination. Further, the present invention is not limited to the above-described embodiment as it is, and can be embodied by modifying the constituent elements without departing from the gist thereof in the implementation stage.

  For example, in the fifth to ninth embodiments, similar to the second embodiment, a heat-generating component may be mounted in the area of the circuit board inserted into the casing portion, and the same as in the third embodiment. In addition, a partition member may be provided. In the fifth to ninth embodiments, similarly to the fourth embodiment, the heat transport member may be extended into the casing portion. In the seventh to ninth embodiments, a second casing extending portion may be provided as in the fifth embodiment. In the second to ninth embodiments, a gap sealing member may be provided as in the sixth embodiment. In the seventh and eighth embodiments, similarly to the ninth embodiment, a notch portion may be provided in the heat dissipation member.

  The following is a list of some electronic devices.

[1] (i) a housing provided with an exhaust hole, (ii) an exhaust port that houses a fan blade and opens in a first direction toward the exhaust hole, and the first direction And a casing portion having a wall portion located next to the fan blade in a second direction perpendicular to the fan blade, and a notch portion provided in the wall portion, and (iii) inserted into the notch portion, A circuit board having a portion facing the part of the exhaust port portion in the first direction from the inside of the casing portion and positioned next to the fan blade in the second direction in the casing portion And electronic equipment.

[2] In the description of [1], the casing portion includes a casing main body portion that houses the fan blades, a casing that swells from the casing main body portion in the second direction and communicates with the casing main body portion. An extending portion, the exhaust port portion opens from the casing body portion to the casing extending portion, the notch portion is provided in the casing extending portion, and the circuit board extends from the casing extending portion. Electronic equipment inserted into the interior of the department.

[3] In the description of [1], at least a part of the wall part swells away from the fan blade as it advances in the first direction, and a part of the notch part is formed on the wall part. An electronic device provided in a bulged portion, wherein the circuit board is inserted into the bulged portion of the wall portion.

[4] In the description of [1], the casing portion has a longitudinal direction in the second direction, and the exhaust port portion extends from one end portion to the other end portion of the casing portion in the longitudinal direction. The fan blade is eccentric in the longitudinal direction with respect to the center of the casing portion, and the circuit board is inserted into an end portion of the casing portion which is opposite to the eccentric direction of the fan blade. Electronic equipment.

[5] In the description of [1], the notch is an electronic device communicating with the exhaust port.

[6] In the description of [2], the casing part is an electronic device formed of a fan case in which the casing body part and the wall part are integrated.

[7] In the description of [1], the casing portion has a fan case that houses the fan blade, and the wall portion is a shield interposed between the circuit board and the inner surface of the casing. Electronic equipment formed with wind elements.

[8] In the description of [1], the casing portion includes a fan case that houses the fan blade, and the wall portion is formed by a part of the casing that protrudes toward the circuit board. Electronic equipment.

[9], (i) a fan blade, (ii) an exhaust port portion that accommodates the fan blade and opens in a first direction toward the exhaust hole portion of the housing, and the first direction is orthogonal A wall portion located next to the fan blade in the second direction, and a notch portion provided in the wall portion, and a part of the circuit board inserted into the notch portion is the first portion. And a fan case that faces a part of the exhaust port portion in the direction of and is located next to the fan blade in the second direction.

[10] In the description of [9], the casing portion includes a casing main body portion that houses the fan blades, a casing that swells in the second direction from the casing main body portion and that communicates with the casing main body portion. A cooling fan provided in the casing extending portion. The exhaust port portion opens from the casing main body portion to the casing extending portion, and the notch portion is provided in the casing extending portion.

  DESCRIPTION OF SYMBOLS 1 ... Portable computer, 5 ... Housing, 5a ... Inner surface, 22 ... Circuit board, 25 ... Cooling structure, 31 ... Cooling fan, 35 ... Fan blade, 36 ... Fan case, 41 ... Exhaust port part, 42 ... Casing main-body part , 46c ... wall part, 51 ... notch part, 61 ... heat generating component, 75 ... gap sealing member, 81 ... wind shield member, 84, 85 ... discharge port part, 91, 92 ... projection part.

Claims (10)

A housing provided with an exhaust hole,
An exhaust port portion in which fan blades are housed and allows air to flow toward the exhaust hole portion, a wall portion that blocks at least a part of air that is directed in a direction different from the exhaust hole portion, and a notch portion provided in the wall portion A casing portion having
A circuit board that is inserted into the notch and receives air toward the exhaust hole inside the casing and has a portion located between the wall and the fan blade;
An electronic device comprising In the description of claim 1,
The wall portions are electronic devices provided respectively above and below the circuit board in the thickness direction of the circuit board. In the description of claim 1,
The wall portion is an electronic device having a shape extending toward the exhaust hole. In the description of claim 1,
An electronic device in which a heat generating component is mounted on a portion of the circuit board inserted into the notch. In the description of claim 1,
Fins are provided between the exhaust hole and the exhaust port,
The fin is an electronic device that is shorter than the exhaust hole and longer than the exhaust port in a direction orthogonal to the thickness direction of the circuit board. In the description of claim 1,
An electronic device in which an edge of a portion inserted into the cutout portion of the circuit board intersects a direction in which the exhaust port portion extends. In the description of claim 1,
A fin located between the exhaust hole and the exhaust port, and a heat pipe thermally connected to the fin,
The heat pipe is an electronic device located on the opposite side to the wall portion. In the description of claim 1,
An electronic device in which a partition member along the direction of the wind is provided in the casing portion . In the description of claim 8 ,
The said partition member is an electronic device provided between the components mounted in the part inserted in the said notch part of the said circuit board.   A housing provided with an exhaust hole,
  An exhaust port portion for passing air toward the exhaust hole portion, and a wall portion provided with a notch portion communicating with the exhaust port portion and blocking at least part of the air in a direction different from the exhaust hole portion. With fans
  A circuit board housed in the housing and partially inserted into the notch,
  A plurality of components mounted on the part inserted into the notch of the circuit board and positioned inside the fan,
  A partition member provided between the plurality of components inside the fan, and along a wind direction;
  An electronic device comprising

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