JP3708932B2 - Portable electronic devices - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a portable electronic device such as a portable computer in which a speaker is arranged inside a casing having a keyboard.
[0002]
[Prior art]
A book-type or notebook-type portable computer includes a computer main body that houses main components such as a hard disk drive, and a display unit supported at the rear end of the computer main body. The computer main body has a flat box-shaped housing, and a keyboard is arranged on the upper surface of the housing.
[0003]
In this type of portable computer, a speaker that outputs, for example, a warning sound or sound is accommodated in the housing. The speaker is installed at a position away from the keyboard, and a hole for releasing the sound emitted by the speaker to the outside of the housing is formed on the upper surface of the housing facing the speaker.
[0004]
[Problems to be solved by the invention]
In a conventional portable computer, the speaker is installed inside the housing in a horizontal posture so as to face the hole that emits sound. According to this configuration, most of the sound emitted from the speaker is emitted toward the upper side of the casing, and the direction of sound emission differs from the position of the operator when operating the portable computer.
[0005]
As a result, it becomes difficult to hear the sound emitted from the speaker or it is erased by ambient noise.
[0006]
The present invention has been made based on such circumstances, and an object of the present invention is to provide a portable electronic device that makes it easy to hear the sound emitted by a speaker.
[0007]
[Means for Solving the Problems]
  In order to achieve the above object, a portable electronic device according to one aspect of the present invention includes:
  A case having a keyboard on the top surface, a speaker support provided inside the case, and a keyboard provided on the speaker supportLocated at the rear end of, A speaker that tilts forward and downward with respect to the keyboard, and a ring-shaped holder body into which the speaker fitsHaveA speaker holder that supports the speaker on the speaker support and an upper surface of the housingOpen and located behind the keyboardA plurality of holes,It has.
  The speaker has a front half part that enters under the keyboard and a rear half part that faces the hole, and the holder body of the speaker holder is in contact with the lower surface of the keyboard at a position corresponding to the front half part of the speaker. A sound insulating wall that prevents the sound emitted from the front half of the speaker from being diffused into the housing, and the space surrounded by the sound insulating wall and the lower surface of the keyboard is a second half of the speaker. To be connected toIt is characterized by.
[0008]
  According to such a configuration, the sound from the speaker isKeyboard against the housing without spreading inside the housingForward obliquely upwardIs done. As a result, the inside of the housingIt becomes easy to hear the sound emitted from the speaker.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings applied to a portable computer.
[0010]
FIG. 1 shows a notebook portable computer 1 of B5 size. The computer 1 includes a computer main body 2 placed on a table. The computer main body 2 has a flat box-shaped housing 3. The housing 3 is divided into a lower housing 4 and an upper housing 5. The lower housing 4 and the upper housing 5 are made of a synthetic resin material such as ABS resin.
[0011]
The lower housing 4 has a flat rectangular bottom wall 4a, and left and right side walls 4b, 4c, a front wall 4d, and a rear wall 4e connected to the bottom wall 4a. The side walls 4b, 4c, the front wall 4d, and the rear wall 4e extend upward from the peripheral edge of the bottom wall 4a, and these walls 4b to 4d constitute front, rear, left and right peripheral walls of the housing 3.
[0012]
The upper housing 5 has a substantially flat plate shape having an upper wall 5a. The upper wall 5a faces the bottom wall 4a, and front, rear, left and right side edges of the upper wall 5a are connected to the side walls 4b, 4c, the front wall 4d, and the rear wall 4d of the lower housing 4, respectively. The upper wall 5a has a pair of display support portions 6a and 6b. The display support portions 6a and 6b protrude upward from the upper wall 5a at the left and right sides of the rear end of the upper wall 5a.
[0013]
The front half of the upper wall 5a of the upper housing 5 forms a flat palm rest 7 for placing a hand. A rectangular keyboard mounting opening 8 is opened in the latter half of the upper wall 5a connected to the palm rest 7. As shown in FIG. 2, the keyboard mounting opening 8 has a size that covers substantially the entire rear half of the upper wall 5a. As shown in FIG. 11, a downwardly extending peripheral wall 9 is integrally formed at the opening side edge and the opening rear edge of the keyboard mounting opening 8, and the lower end of the peripheral wall 9 is formed at the left end of the keyboard mounting opening 8. The support wall 10 connected to the part is integrally formed. The support wall 10 is disposed substantially parallel to the bottom wall 4 a of the lower housing 4.
[0014]
As shown in FIGS. 2 and 11, a keyboard support portion 12 is formed at the opening front edge of the keyboard mounting opening 8. The keyboard support portion 12 extends in the left-right direction along the opening front edge of the keyboard mounting opening 8, and both left and right end portions thereof are connected to the peripheral wall 9.
The keyboard support portion 12 includes first to third attachment recesses 13a to 13c. These mounting recesses 13a to 13c are located at the left and right ends and the center of the keyboard support portion 12, and the second mounting recess 13b at the center thereof is the first and third mounting recesses 13a, It is formed wider in the left-right direction than 13c.
[0015]
As shown in FIGS. 11 and 17, each of the first to third attachment recesses 13 a to 13 c has a flat upper surface 14 and an upstanding surface 15 extending upward from the rear end of the upper surface 14. The upper surface 14 is positioned substantially on the same plane as the support wall 10 of the keyboard mounting opening 8, and nuts 16 are embedded in the upper surfaces 14 of the mounting recesses 13 a to 13 c.
[0016]
As shown in FIG. 2, a keyboard 21 is detachably attached to the keyboard attachment opening 8. The keyboard 21 includes a keyboard panel 22 made of synthetic resin. The keyboard panel 22 has a flat rectangular plate shape having a size that can be fitted into the keyboard mounting opening 8. On the upper surface of the keyboard panel 22, a large number of keys 23 and a joystick 24 which is a kind of pointing device are arranged.
[0017]
A metal reinforcing plate 25 is attached to the lower surface of the keyboard panel 22. The reinforcing plate 25 is used to prevent switching noise from leaking due to key operations and to reinforce the keyboard panel 22. The reinforcing plate 25 is a flat rectangular plate having a size that covers the entire lower surface of the keyboard panel 22. There is no. And in the case of a present Example, the reinforcement board 25 is comprised with the aluminum alloy excellent in thermal conductivity.
[0018]
The keyboard panel 22 includes first to third support pieces 27a to 27c. The support pieces 27 a to 27 c are integrally extended from the front edge of the keyboard panel 22. These support pieces 27 a to 27 c enter the first to third attachment recesses 13 a to 13 c when the keyboard 21 is attached to the keyboard attachment port 8, and overlap the upper surface 14 thereof. The keyboard 21 is fixed to the keyboard mounting opening 8 by inserting a screw 28 from above into the support pieces 27 a to 27 c and screwing the insertion end of the screw 28 into the nut 16.
[0019]
In a state where the keyboard 21 is fixed to the keyboard mounting port 8, the left end portion of the reinforcing plate 25 overlaps the upper surface of the support wall 10, and the remaining portion of the reinforcing plate 25 is exposed inside the housing 3. Yes.
[0020]
As shown in FIG. 2, the decorative panel 30 is detachably locked to the opening front edge of the keyboard mounting opening 8. The decorative panel 30 covers the keyboard support portion 12 from above, and extends in the left-right direction along the opening front edge of the keyboard mounting opening 8. The decorative panel 30 is located between the palm rest 7 and the frontmost key 23 of the keyboard 21. The upper surface of the decorative panel 30 is flush with the palm rest 7 and is a part of the palm rest 7.
[0021]
A pair of click switch buttons 31 a and 31 b are arranged at a substantially central portion of the palm rest 7. The click switch buttons 31 a and 31 b are for pressing with a fingertip when executing and canceling commands, and slightly protrude from the upper surface of the palm rest 7.
[0022]
As shown in FIGS. 4 and 7, the housing 3 includes a battery housing portion 34. The battery accommodating portion 34 is configured by a recess that opens continuously to the bottom wall 4 a, the front wall 4 d and the right side wall 4 c of the lower housing 4, and extends in the left-right direction below the palm rest 7.
[0023]
The battery housing part 34 has a standing wall 35 that extends in the left-right direction continuously to the bottom wall 4 a of the lower housing 4, and a ceiling wall 36 that continues to the upper end of the standing wall 35.
The standing wall 35 and the ceiling wall 36 partition the battery housing 34 and the inside of the housing 3, and the ceiling wall 36 faces the palm rest 7. A connector outlet 37 that is continuous with the inside of the housing 3 is opened at the left end of the battery housing 34.
[0024]
A battery pack 40 is detachably attached to the battery housing portion 34.
The battery pack 40 serves as a driving power source when the computer 1 is used in a place where commercial power cannot be obtained. In a state where the battery pack 40 is mounted in the battery housing portion 34, the outer peripheral surface of the battery pack 40 is continuous with the bottom wall 4a, the front wall 4d, and the right side wall 4c of the lower housing 4.
[0025]
As shown in FIGS. 5, 6, and 28, first to third circuit boards 43 to 45 are accommodated in the lower housing 4. The first circuit board 43 is a system board and has a front surface 43a and a back surface 43b. As shown in FIGS. 19 and 26, the first circuit board 43 is fixed to a plurality of boss portions 46 on the bottom wall 4 a of the lower housing 4 via screws 47. For this reason, the first circuit board 43 is accommodated in the lower housing 4 in a posture parallel to the bottom wall 4a.
[0026]
The first circuit board 43 is located below the keyboard 21. A first stacking connector 50 and a second stacking connector 51 are disposed on the left side of the surface 43 a of the circuit board 43.
[0027]
The second circuit board 44 is a power supply board. The second circuit board 44 is disposed substantially parallel to the first circuit board 43 above the left end portion of the first circuit board 43. The second circuit board 44 has an extension 44 a that enters between the connector outlet 37 of the battery housing 34 and the left side wall 4 b of the lower housing 4.
[0028]
The second circuit board 44 includes a third stacking connector 52 on the lower surface of the portion facing the first circuit board 43. The third stacking connector 52 is fitted to the first stacking connector 50 from above, and the first circuit board 43 and the second circuit board 44 are electrically connected by this fitting. Yes.
The first and third stacking connectors 50 and 52 have a rectangular shape extending in the front-rear direction of the lower housing 4.
[0029]
The third circuit board 45 is an acoustic board. The third circuit board 45 is disposed above the second circuit board 44 and substantially parallel to the second circuit board 44. The third circuit board 45 extends in the left-right direction along the palm rest 7, and a substantially right half of the third circuit board 45 enters between the palm rest 7 and the ceiling wall 36 of the battery housing portion 34. The third circuit board 45 is screwed to the upper surface of the ceiling wall 36.
[0030]
A fourth stacking connector 54 is connected to the third circuit board 45 via a flexible wiring board 53. The fourth stacking connector 54 is fitted to the second stacking connector 51 from above, and the first circuit board 43 and the third circuit board 45 are electrically connected by this fitting. Yes.
[0031]
As shown in FIG. 5, a battery connector 57 is attached to the extension 44 a of the second circuit board 44. The battery connector 57 includes a connector body 58 made of synthetic resin and a plurality of connection terminals 59 supported by the connector body 58. The connector main body 58 has an elongated rectangular box shape that faces the connector outlet 37 of the battery housing portion 34, and is attached to the lower surface of the extension portion 44a. The connection terminals 59 are exposed to the battery accommodating portion 34 through the connector outlet 37, and the connection terminals 59 are in contact with the power supply terminals and signal terminals (not shown) of the battery pack 40.
[0032]
As shown in FIG. 9, the lower housing 4 includes a pair of fitting grooves 61 a and 61 b for positioning the battery connector 57. The fitting grooves 61 a and 61 b are located at the opening edge portions before and after the connector outlet 37. One fitting groove 61 a extends in the vertical direction along the inner surface of the front wall 4 d of the lower housing 4. The other fitting groove 61 b extends in the vertical direction along the end portion of the standing wall 35 of the battery housing portion 34.
[0033]
The connector main body 58 includes fitting convex portions 62a and 62b at both ends in the longitudinal direction. The fitting convex portions 62 a and 62 b extend along the vertical direction of the connector main body 58. These fitting projections 62a and 62b are adapted to fit into fitting grooves 61a and 61b from above the lower housing 4 when the second circuit board 44 is accommodated in the lower housing 4. . By this fitting, the battery connector 57 is held by the lower housing 4 with the connection terminal 59 exposed to the connector outlet 37.
[0034]
In a state where the battery connector 57 is held by the lower housing 4, the inner cover 64 is attached to the upper part of the battery outlet 37. The inner cover 64 is for closing a gap between the upper surface of the connector main body 58 and the upper portion of the connector outlet 37, and a pair of inner covers 64 fitted into the fitting grooves 61a and 61b at both ends of the inner cover 64. Guide portions 65a and 65b are formed.
[0035]
A support piece 66 that overlaps the upper surface of the ceiling wall 36 is formed at the upper end of the inner cover 64. The support piece 66 is configured to be held between the circuit board 45 and the ceiling wall 36 when the third circuit board 45 is screwed to the ceiling wall 36, whereby the inner cover 64. Is retained at the upper part of the connector outlet 37.
[0036]
As shown in FIG. 7 and FIG. 8, the lower end corner defined by the front wall 4 d and the bottom wall 4 a of the lower housing 4 is a curved portion that is bent in an arc shape in accordance with a request from the design side of the computer 1. 69. Due to the presence of the bent portion 69, the lower end portion of the one fitting groove 61a is formed in a tapered shape as it proceeds downward as shown in FIG.
[0037]
In this case, the lower end corner portion 63 of the fitting convex portion 62a fitted into the fitting groove 61a is squared at a right angle. Therefore, when the fitting convex portion 62a is fitted into the fitting groove 61a, the fitting convex portion 62a is fitted. The lower end corner portion 63 of the convex portion 62a interferes with the inner surface of the fitting groove 61a, and the fitting of the fitting convex portion 62a is prevented.
[0038]
Therefore, in the present embodiment, a plurality of vent holes 70 connected to the inside of the lower housing 4 are formed in a line in the left-right direction at positions corresponding to the bent portions 69 in the front wall 4d. One of the vent holes 70 opens at the lower end of the fitting groove 61a as shown in FIG. For this reason, when the fitting convex part 62a of the connector main body 58 is fitted into the fitting groove 61a from above, the lower end corner part 63 of the fitting convex part 62a enters the vent hole 70, and the fitting convex part 62a and the fitting groove Interference with 61a is avoided.
[0039]
In this embodiment, the fitting convex portion 62a of the connector main body 58 is inserted into the vent hole 70. However, for example, interference between the end portion of the second circuit board 44 and the bent portion 69 becomes a problem. If so, the vent hole 70 may be formed in a slit shape extending in the left-right direction, and the end of the second circuit board 44 may be inserted into the vent hole 70.
[0040]
As shown in FIG. 5, at the end of the third circuit board 45, a pair of jacks 72a and 72b serving as an audio input terminal and an output terminal and a volume adjusting dial 73 are arranged. These jacks 72 a and 72 b and the dial 73 are exposed on the left side wall 4 b of the lower housing 4.
[0041]
The surface of the third circuit board 45 faces the palm rest 7, and a pair of click switches 75a and 75b are disposed on this surface. The click switches 75a and 75b are pressed by the click switch buttons 31a and 31b, and are connected to the third circuit board 45 via a flexible wiring board 76.
[0042]
As shown in FIG. 4, at the rear end of the surface 43a of the first circuit board 43, for example, a connection port 80 for connecting a peripheral device having an RS232C standard interface and a parallel port for connecting a printer. 81, an expansion connector 82 used when expanding the function of the computer 1, and a power connector 83 into which a power plug is inserted are arranged in a line in the left-right direction.
[0043]
Further, a metal connector panel 85 is attached to the rear end portion of the first circuit board 43 as shown in FIG. The connector panel 85 supports the connection port 80, the parallel port 81, and the expansion connector 82. The connector panel 85 stands up with respect to the first circuit board 43. A locking portion 85 a extending in the left-right direction is formed on the upper portion of the connector panel 85. The locking portion 85 a is located above the connection port 80 and the expansion connector 83.
[0044]
The connector panel 85 has an extension portion 85 b that enters between the first circuit board 43 and the bottom wall 4 a of the lower housing 4. The extension portion 85b is substantially parallel to the bottom wall 4a, and the end portion of the extension portion 85b is supported by the boss portion 46 on the bottom wall 4a together with the first circuit board 43. (See Figure 26)
The connector panel 85 extends in the left-right direction along the rear wall 4 e of the lower housing 4. In the rear wall 4e, a first connector outlet 86 for exposing the connection port 80, the parallel port 81, and the expansion connector 82 and a second connector outlet 87 for exposing the power connector 83 are opened.
[0045]
The lower housing 4 includes a connector cover 88. The connector cover 88 is supported by the lower housing 4 so as to be movable between a first position where the first connector outlet 86 is opened and a second position where the first connector outlet 86 is closed.
When the connector cover 88 is moved to the first position, the connector cover 88 is stored between the bottom wall 4 a of the lower housing 4 and the extension portion 85 b of the connector panel 85.
[0046]
As shown in FIG. 4, a card accommodating portion 91 is disposed on the surface 43 a of the first circuit board 43. The card accommodating portion 91 is located on the right end portion of the first circuit board 43a and on the rear side of the battery accommodating portion 34. The card accommodating portion 91 is for accommodating an expansion card (not shown) such as a PCMCIA (personal computer memory card international association) card or an interface card.
[0047]
The card accommodating portion 91 includes a card connector 92 to which an expansion card is connected, and a card case 93 having a guide for guiding the expansion card to the card connector 92. The card case 93 is made of a metal material such as stainless steel. The card case 93 has a flat upper surface 93 a, and the upper surface 93 a is exposed at the right end of the keyboard mounting opening 8. The upper surface 93 a of the card case 93 is located on the same plane as the upper surface of the support wall 10 and the upper surface 14 of the keyboard support portion 12 inside the keyboard mounting opening 8.
[0048]
As shown in FIGS. 2 and 19, the hard disk mounting portion 100 is formed on the surface 43 a of the first circuit board 43. The hard disk mounting unit 100 is surrounded by the card housing part 91, the second circuit board 44, and the battery housing part 34, and is located at a substantially central part of the first circuit board 43. The hard disk mounting unit 100 has a hard disk connector 101. The hard disk connector 101 is located at the rear end portion of the first circuit board 43 and faces the standing wall 35 of the battery housing portion 34.
[0049]
The hard disk mounting portion 100 is connected to the substantially central portion of the keyboard mounting opening 8 and is exposed to the outside of the housing 3 by removing the keyboard 21 and the decorative panel 30 from the keyboard mounting opening 8. .
[0050]
A hard disk drive 103 (hereinafter referred to as HDD) is detachably accommodated in the hard disk mounting unit 100. The HDD 103 is inserted into and removed from the hard disk mounting unit 100 through the keyboard mounting opening 8, and details thereof are shown in FIG.
[0051]
The HDD 103 includes a metal housing 104. The housing 104 has a flat rectangular box shape with an open upper end, and the upper end of the housing 104 is airtightly closed by a top cover 105.
[0052]
The housing 104 has a bottom wall 104a in which a motor mounting hole 106 is opened. A motor bracket 107 is attached to the motor mounting hole 106 of the bottom wall 104a. The motor bracket 107 has a body 108 fitted in the motor mounting hole 106, and the body 108 has a flat bottom surface 108a protruding below the bottom wall 104a.
[0053]
A motor 110 is accommodated in the housing 104. The motor 110 has a shaft 111 supported by the body 108 of the motor bracket 107, and a boss 112 a of the rotor 112 is rotatably supported on the outer peripheral surface of the shaft 111. A disc-shaped magnetic recording medium 113 is supported on the outer periphery of the rotor 112.
[0054]
The housing 104 houses a carriage having a magnetic head (not shown) and a voice coil motor that rotates the carriage.
[0055]
A circuit board 115 is supported on the bottom wall 104 a of the housing 104. The circuit board 115 has a rectangular plate shape having substantially the same size as the housing 104. The circuit board 115 is disposed substantially parallel to the bottom wall 104a of the housing 104, and the motor 110, the magnetic head, and the voice coil motor are electrically connected to the circuit board 115.
[0056]
A relay connector 116 is attached to the circuit board 115. The relay connector 116 is located at one end of the housing 104 in the longitudinal direction, and is detachably fitted to the hard disk connector 101.
[0057]
The circuit board 115 is formed with an opening 117 into which the body 108 of the motor bracket 107 enters. The opening 117 is for avoiding interference between the circuit board 115 and the body 108, and the bottom surface 108 a of the body 108 slightly protrudes from the lower surface of the circuit board 115.
[0058]
As shown in FIG. 15, a sheet metal bracket 121 is attached to the housing 104 of the HDD 103. The bracket 121 has a pair of side plate portions 122a and 122b that are screwed to the left and right side surfaces of the housing 104, and a top plate portion 123 that connects the side plate portions 122a and 122b.
[0059]
The top plate portion 123 is superposed on the top surface of the top cover 105. The top plate portion 123 includes an extending portion 124 that extends horizontally. The extension part 124 protrudes from the end of the HDD 103 opposite to the relay connector 116, and a pair of tongue pieces 125 a and 125 b are integrally formed at the tip part of the extension part 124. When the HDD 103 is mounted on the hard disk mounting portion 100, the tongue pieces 125a and 125b are superimposed on the upper surface 14 of the second mounting recess 13b of the keyboard support portion 12, and the tongue pieces 125a and 125b are screwed onto the tongue pieces 125a and 125b. Insertion holes 126a and 126b through which 28 is passed are opened. And as shown in FIG.12 and FIG.17, the escape holes 127a and 127b in which the tongue pieces 125a and 125b enter are formed in the standing surface 15 of the 2nd attachment recessed part 13b continuing to the upper surface 14. As shown in FIG.
[0060]
As shown in FIG. 2, a pair of left and right guide walls 128 a and 128 b extending downward toward the hard disk mounting portion 100 are integrally formed on the peripheral wall 9 connected to the rear edge of the keyboard mounting opening 8. The guide walls 128a and 128b position the hard disk connector 101 and the HDD 103 in the left-right direction, and the HDD 103 is inserted between the guide walls 128a and 128b.
[0061]
Next, a procedure for mounting the HDD 103 to the hard disk mounting unit 100 will be described.
First, the keyboard 21 is removed from the housing 3, and the hard disk mounting unit 100 is opened upward of the housing 3 through the keyboard mounting opening 8.
[0062]
Then, as shown in FIGS. 12 and 17, the HDD 103 is inserted into the hard disk mounting unit 100 through the keyboard mounting opening 8 from above the housing 3. At this time, the HDD 103 is inserted toward the hard disk mounting portion 100 in an obliquely downward posture with the tongue pieces 125a and 125b at the head, and the tongue pieces 125a and 125b are escape holes 127a and 127b of the second mounting recess 13b. And the edge of the extension 124 of the bracket 121 is brought into contact with the corner defined by the upper surface 14 and the upright surface 15 of the second mounting recess 13b.
[0063]
Next, the HDD 103 is rotated downward with the tip of the extension portion 124 as a fulcrum, and the HDD 103 is dropped into the hard disk mounting portion 100 through the guide walls 128a and 128b. As a result, as shown in FIG. 18, the HDD 103 is placed on the surface 43a of the first circuit board 43, the relay connector 116 faces the hard disk connector 101, and the extension portion 124 of the bracket 121 is attached to the second attachment. It overlaps with the upper surface 14 of the recess 13b.
[0064]
In this state, as shown in FIG. 19, the HDD 103 is slid toward the rear of the housing 3, and the relay connector 116 is fitted to the hard disk connector 101. By this fitting, the tongue pieces 125 a and 125 b come out of the escape holes 127 a and 127 b and move to the upper surface 14 of the second mounting recess 13 b, and the insertion holes 126 a and 126 b of these tongue pieces 125 a and 125 b match the nut 16. To do.
[0065]
Finally, the screw 28 is inserted into the insertion holes 126 a and 126 b of the tongue pieces 125 a and 125 b, and the insertion end of the screw 28 is screwed into the nut 16. As a result, the HDD 103 is fixed to the hard disk mounting unit 100, and a series of mounting operations is completed.
[0066]
The screw 28 for fixing one tongue piece 125b also serves to fix the keyboard 21. The tongue piece 125b is fixed to the second mounting recess 13b together with the second support piece 27b of the keyboard 21.
[0067]
According to such a mounting structure of the HDD 103, when the HDD 103 is inserted into the hard disk mounting unit 100 in a posture inclined obliquely downward, the escape holes 127a and 127b into which the tongue pieces 125a and 125b of the HDD 103 enter are provided on the housing 3 side. Since it is formed, it is not necessary to secure a special space around the second mounting recess 13b that allows the tongue pieces 125a and 125b to move when the HDD 103 is slid. Therefore, it is possible to prevent a useless space from being generated inside the housing 3 and to achieve high-density mounting.
[0068]
As shown in FIG. 14, the surface 43 a of the first circuit board 43 facing the hard disk mounting unit 100 is covered with a smooth insulating sheet 131. The insulating sheet 131 is for preventing contact between the circuit board 115 of the HDD 103 and the first circuit board 43. When the HDD 103 is slid, the circuit board 115 comes into slidable contact. ing.
[0069]
Since the body 108 of the motor bracket 107 of the HDD 103 passes through the opening 117 of the circuit board 115 and slightly protrudes from the lower surface of the circuit board 115 as described above, the insulating sheet 131 avoids the body 108. An escape hole 132 is provided. The escape hole 132 has an elliptical shape that is elongated in the sliding direction of the HDD 103, and has an opening shape larger than that of the body 108.
[0070]
According to this configuration, since the escape hole 132 for escaping the body 108 of the HDD 103 is formed in the insulating sheet 131 slidably contacting the circuit board 115 of the HDD 103, the bottom surface 108a of the body 108 is formed when the HDD 103 is slid. It does not get caught on the insulating sheet 131. Therefore, the sliding operation of the HDD 103 can be performed smoothly, and damage to the insulating sheet 103 can be prevented.
[0071]
Of course, the shape of the escape hole 132 is not limited to an ellipse, and may be a perfect circle.
[0072]
As shown in FIG. 11, in a state where the HDD 103 is fixed to the hard disk mounting portion 100, the top plate portion 123 of the bracket 121 is located between the support wall 10 of the keyboard mounting opening 8 and the upper surface 93 a of the card case 93. ing. The top plate portion 123 is integrally formed with a convex portion 135 extending in the left-right direction of the keyboard mounting opening 8. The convex portion 135 is raised in a circular arc shape with respect to the ceiling surface 123. The tip of the convex portion 135 is located on substantially the same plane as the upper surface 93 a of the card case 93 and the upper surface of the support wall 10.
[0073]
Therefore, when the keyboard 21 is attached to the keyboard mounting opening 8, the convex portion 135 of the bracket 121 and the upper surface 93 a of the card case 93 are in contact with the lower surface of the reinforcing plate 25 of the keyboard 21.
Therefore, the keyboard 21 can be supported from the inside of the housing 3 by using the bracket 121 and the card case 93 of the HDD 103, and it is possible to prevent rattling of the keyboard 21 and bending of the keyboard panel 22 when the key 23 is operated. Can be prevented.
[0074]
As shown in FIGS. 11 and 15, a ribbon 140 used when the HDD 103 is taken out from the hard disk mounting portion 100 is attached to the top plate portion 123 of the bracket 121. The ribbon 140 is made of a synthetic resin sheet and has a strip shape with a width of about 30 mm. The ribbon 140 has a strength sufficient to maintain a linear shape.
[0075]
The ribbon 140 has a locking piece 141 at one end thereof. The locking piece 141 is bent at a right angle from one end of the ribbon 140, and has a rectangular shape wider than that of the ribbon 140. The locking piece 141 is superimposed on the top surface of the top plate portion 123, and a slit-shaped insertion hole 142 into which the ribbon 140 can be inserted is formed in the locking piece 141.
[0076]
In addition, the top plate portion 123 is formed with an attachment hole 143 through which the ribbon 140 is inserted. The attachment hole 143 has a slit shape extending in the left-right direction of the top plate portion 123.
[0077]
In order to attach the ribbon 140 to the top plate portion 123, first, the locking piece 141 is superimposed on the top surface of the top plate portion 123, and the insertion hole 142 and the attachment hole 143 are opposed to each other. Then, the leading end 140 a of the ribbon 140 opposite to the locking piece 141 is guided to the opening of the attachment hole 143 through the lower part of the top plate part 123, and is inserted into the attachment hole 143 from below the top plate part 123.
[0078]
Next, the leading end 140a of the ribbon 140 is inserted into the insertion hole 142 from below the locking piece 141, and the leading end is pulled upward. As a result, as shown in FIG. 15, the locking piece 141 overlaps the upper surface of the top plate portion 123, and one end of the ribbon 140 connected to the locking piece 141 is wound around the top plate portion 123. It is secured to the top plate portion 123 to prevent it from coming off.
[0079]
In a state where the ribbon 140 is fixed to the top plate portion 123, as shown in FIG. 11, the ribbon 140 maintains a state in which it protrudes upward from the HDD 103 toward the keyboard mounting port 8 due to its own strength. Therefore, if the tip 140a of the ribbon 140 is grasped with a fingertip and pulled toward the palm rest 7, the HDD 103 can be slid toward the front of the housing 3, and the fitting between the hard disk connector 101 and the relay connector 116 is released. be able to.
[0080]
Then, after releasing the fitting of the connectors 110 and 116, the HDD 103 can be taken out from the hard disk mounting unit 100 by pulling the ribbon 140 obliquely forward.
[0081]
When the keyboard 21 is attached to the keyboard attachment port 8, the ribbon 140 is folded between the keyboard 21 and the HDD 103 so that the attachment of the keyboard 21 is not hindered.
[0082]
As shown in FIGS. 20 to 23, a TCP (Tape Carrier Package) 150 as a circuit element is mounted on the first circuit board 43. The TCP 150 has a very large amount of heat generated during operation in order to increase the speed and capacity accompanying the diversification of functions of the computer 1. The TCP 150 is located on the back surface 43 b of the first circuit board 43 and is located below the left rear end portion of the keyboard 21.
[0083]
As shown in FIG. 24A, the TCP 150 includes a carrier 151 made of a flexible resin film and a semiconductor chip 152 supported by the carrier 151. The carrier 151 has a quadrangular frame shape having four edges that are orthogonal to each other, and a number of leads 154 made of copper foil are formed on the carrier 151.
[0084]
The semiconductor chip 152 has a substantially square shape having a flat front surface 152a and a back surface 152b. One ends of a plurality of leads 154 are bonded to the outer periphery of the back surface 152b of the semiconductor chip 152. Connection portions of these leads 154 are covered with a potting resin 155. The leading end of the lead 154 is led out from the edge of the carrier 151. The tips of the leads 154 are soldered to the connection pads 156 on the back surface 43 b of the first circuit board 43.
[0085]
The surface 152a of the semiconductor chip 152 is exposed to the outside as it is without being covered with the potting resin 155, and the entire surface 152a is subjected to conductive plating.
[0086]
As shown in FIGS. 20 and 24, the first circuit board 43 includes a square hole 158 in the TCP 150 mounting portion. The hole 158 is similar to the semiconductor chip 152 and has an opening shape larger than the planar shape of the semiconductor chip 152. The hole 158 faces the semiconductor chip 152.
[0087]
As shown in FIG. 24A, the first circuit board 43 has a large number of through holes 160 arranged so as to surround the periphery of the hole 158. These through-holes 160 penetrate the first circuit board 43 in the thickness direction. Therefore, one end of the through hole 160 is opened on the back surface 43 b of the first circuit board 43 and is adjacent to the semiconductor chip 152, and the other end of the through hole 160 is the surface of the first circuit board 43. 43a is opened. Then, as shown in FIG. 24B, the inner surface of each through hole 160 is subjected to copper plating with excellent thermal conductivity, and the entire inner surface of the through hole 160 is covered with a plating layer 161. Yes.
[0088]
On the surface 43a of the first circuit board 43, a heat transfer layer 162 formed by depositing a copper foil is formed. The heat transfer layer 162 is disposed so as to surround the periphery of the hole 158, and the other end of the through hole 160 is opened in the heat transfer layer 162. Therefore, the heat transfer layer 162 is continuous with the plating layer 161 on the inner surface of the through hole 160.
[0089]
As shown in FIGS. 20 to 25, a heat dissipation unit 165 is attached to the TCP 150 mounting portion of the first circuit board 43. The heat radiating unit 165 includes a heat radiating member 166 disposed on the front surface 43 a of the first circuit board 43 and a cover 167 disposed on the back surface 43 b of the first circuit board 43.
[0090]
The heat radiating member 166 is made of a metal material having excellent thermal conductivity such as brass or aluminum alloy. The heat dissipating member 166 has a flat square shape having a plane shape far larger than the hole 158. The heat radiating member 166 has a flat lower surface 166 a facing the surface 43 a of the first circuit board 43, and an upper surface 166 b serving as a heat radiating surface exposed above the first circuit board 43.
[0091]
The lower surface 166a includes seats 169 at its four corners. The seat portion 169 slightly protrudes from the lower surface 166a. The front end surfaces of these seat portions 169 are located on the same plane and are in contact with the surface 43 a of the first circuit board 43.
[0092]
Therefore, as shown in FIG. 24A, when the heat radiating member 166 is installed on the surface 43a of the first circuit board 43, the heat radiating member 166 has a first portion corresponding to the height of the seat portion 169. The first heat insulating gap 170 is formed so as to be separated from the surface 43 a of the circuit board 43 and between the surface 43 a and the lower surface 166 a of the heat dissipation member 166.
[0093]
A convex portion 171 protrudes integrally at the center of the lower surface 166a of the heat dissipation member 166. The convex portion 171 enters the hole 158. Between the outer peripheral surface of this convex part 171 and the inner peripheral surface of the hole 158, the 2nd heat insulation gap 172 continuous in the circumferential direction is formed.
[0094]
The convex portion 171 has a flat heat receiving surface 173 exposed on the back surface 43 b of the first circuit board 43. The heat receiving surface 173 has a larger area than the front surface 152 a of the semiconductor chip 152 and is located on substantially the same plane as the back surface 43 b of the first circuit board 43. In the case of this embodiment, the surface 152a of the semiconductor chip 152 is bonded to the heat receiving surface 173 of the convex portion 171 through a heat conductive adhesive 174 as a die attach material without any gap.
[0095]
A heat transfer portion 175 surrounding the periphery of the convex portion 171 is formed on the lower surface 166 a of the heat radiating member 166. The heat transfer portion 175 slightly protrudes from the lower surface 166a, like the seat portion 169. The heat transfer section 175 has a flat front end surface 175a. As shown in FIG. 24B, the front end surface 175a is in contact with the heat transfer layer 162 of the first circuit board 43 and closes the open end of the through hole 160.
[0096]
The upper surface 166b of the heat dissipating member 166 includes columnar boss portions 177 at the four corners. These boss portions 177 protrude upward from the upper surface 166 b and are disposed at positions corresponding to the seat portions 169.
[0097]
As shown in FIGS. 23 and 24A, the heat dissipating member 166 has four screw holes 178 extending from the seat portion 169 to the boss portion 177. One end of the screw hole 178 is opened on the front end surface of the seat portion 169, and the other end of the screw hole 178 is opened on the upper surface of the boss portion 177.
[0098]
As shown in FIG. 21, the first circuit board 43 has four attachment holes 180 at the contact portion with the seat portion 169. The attachment hole 180 is located outside the mounting area of the TCP 150. Each attachment hole 180 is connected to the screw hole 178 of the heat dissipation member 166.
[0099]
Among the four mounting holes 180, screws 187 are inserted from below the first circuit board 43 into two mounting holes 180 positioned on the diagonal line of the heat dissipation member 166. The screw 187 passes through the attachment hole 180 and is screwed into the screw hole 178 of the heat dissipation member 166. By this screwing, the heat dissipation member 166 is fixed to the surface 43 a of the first circuit board 43.
[0100]
As shown in FIGS. 20, 21, and 24 (A), the cover 167 includes a square panel 183 having substantially the same size as the heat radiating member 166 and a support frame 184 bonded to the lower surface of the panel 183. And has. The panel 183 is made of a metal material having excellent thermal conductivity such as an aluminum alloy, for example, and the center of the upper surface of the panel 183 faces the back surface 152 b of the semiconductor chip 152. The support frame 184 is made of a synthetic resin material, and surrounds the connection portion between the lead 154 and the connection pad 156 of the TCP 150 from the outside.
Therefore, the cover 167 integrally covers and conceals not only the TCP 150 but also the connection portion between the TCP 150 and the first circuit board 43.
[0101]
The panel 183 includes insertion holes 186a to 186d at its four corners. The insertion holes 186 a to 186 d are located outside the mounting area of the TCP 150 and are connected to the screw holes 178 of the heat dissipation member 166 through the attachment holes 180 of the first circuit board 43.
[0102]
Among these four insertion holes 186a to 186d, screws 235 are inserted into the two insertion holes 186a and 186b located on the diagonal line of the panel 183 from below the cover 167, respectively. The screw 235 passes through the attachment hole 180 and is screwed into the screw hole 178 of the heat dissipation member 166. By this screwing, the heat radiating member 166 and the cover 167 are fastened and fixed to each other with the first circuit board 43 sandwiched therebetween, and the TCP 150 is housed inside the cover 167.
[0103]
A soft elastic sheet 189 is bonded to the center of the upper surface of the panel 183. The elastic sheet 189 is a rubber-like elastic body obtained by adding alumina to a silicone resin, for example, and has thermal conductivity. The elastic sheet 189 is sandwiched between the panel 183 and the back surface 152b of the semiconductor chip 152 as the screw 235 is tightened.
[0104]
Therefore, due to the presence of the elastic sheet 189, the semiconductor chip 152 is sandwiched between the panel 183 of the cover 167 and the convex portion 171 of the heat dissipation member 166. Therefore, the contact state between the panel 183 and the semiconductor chip 152 is kept good, and the heat of the semiconductor chip 152 is efficiently transmitted to the panel 183. A small hole 190 is opened at the center of the elastic sheet 189.
[0105]
In the present embodiment, the cover 167 includes a thermistor 191 for measuring the heat of the semiconductor chip 152. As shown in FIG. 24A, the thermistor 191 is supported by a flexible thin wiring board 192, and the wiring board 192 is attached to the elastic sheet 189 via a reinforcing plate 193. The thermistor 191 is embedded in the small hole 190 of the elastic sheet 189 and faces the center of the panel 183. Therefore, the thermistor 191 measures the temperature of the panel 183 that is mainly affected by the heat of the semiconductor chip 152.
[0106]
The wiring board 192 has an elongated lead portion 195. The lead portion 195 is led out of the cover 167, and the terminal portion 195 a at the tip of the lead portion 195 is connected to the connector 196 on the back surface 43 b of the first circuit board 43. Therefore, the temperature information of the panel 183 measured by the thermistor 191 is input to the control unit of the first circuit board 43.
[0107]
As shown in FIGS. 20 and 21, the main heat sink 201 is detachably mounted on the heat radiating member 166 of the heat radiating unit 165. The heat sink 201 is formed by die-casting a metal material having excellent thermal conductivity such as an aluminum alloy.
[0108]
The heat sink 201 includes a heat dissipation panel 202. The lower surface of the heat dissipating panel 202 forms a flat heat receiving surface 203 that faces the upper surface 166b of the heat dissipating member 166. The heat receiving surface 203 has a planar shape that is much larger than the upper surface 166b. The upper surface of the heat dissipation panel 202 forms a flat heat dissipation surface 204 exposed inside the housing 3. A large number of columnar heat radiation projections 205 are integrally formed on the heat radiation surface 204, and the existence of these heat radiation projections 205 ensures a sufficient heat radiation area of the heat radiation surface 204.
[0109]
Four recesses 206 into which the bosses 177 of the heat radiation member 166 are fitted are formed on the heat receiving surface 203. The recess 206 protrudes from the upper surface of the heat dissipation panel 202, and the heat dissipation member 166 and the heat dissipation panel 202 are positioned by fitting the recess 206 and the boss 177.
[0110]
A communication hole 207 is opened at each end of the recess 206. The communication hole 207 is continuous with the screw hole 178 of the boss portion 177 and is opened on the upper surface of the heat dissipation panel 202. Screws 209 are inserted into the communication holes 207 from above, and the heat dissipation panel 202 and the heat dissipation member 166 are connected to each other by screwing the insertion ends of the screws 209 into the screw holes 178.
[0111]
A soft elastic sheet 210 is disposed between the heat receiving surface 203 of the heat radiating panel 202 and the upper surface 166 b of the heat radiating member 166. The elastic sheet 210 is a rubber-like elastic body obtained by adding alumina to a silicone resin, for example, and has thermal conductivity. The elastic sheet 210 is sandwiched between the heat receiving surface 203 and the upper surface 166b as the screw 209 is tightened. For this reason, the upper surface 166b of the heat dissipation member 166 is in close contact with the heat receiving surface 203 of the heat dissipation panel 202 via the elastic sheet 210, and the heat of the semiconductor chip 152 released to the heat dissipation member 166 is efficiently transmitted to the heat dissipation panel 202. I have come to communicate well.
[0112]
As shown in FIG. 5, the heat dissipation panel 202 is located on the left end of the surface 43 a on the surface 43 a of the first circuit board 43, and is adjacent to the HDD 103.
[0113]
As shown in FIGS. 21 and 23, a fan support portion 212 is integrally formed at the rear end portion of the heat dissipation panel 202. The fan support portion 212 has a pair of left and right support walls 213a and 213b extending in the vertical direction, and horizontal tongue pieces 214a and 214b connected to the lower ends of the support walls 213a and 213b. The fan support 212 is located at the rear end of the first circuit board 43. In this case, a notch 215 that avoids the fan support 212 is formed at the left rear corner of the first circuit board 43, and the lower ends of the support walls 213a and 213b are connected to the first notch 215 through the notch 215. It protrudes below the circuit board 43.
[0114]
As shown in FIG. 25 and FIG. 26, connecting pieces 216 a to 216 c are integrally formed at the rear end portion of the fan support portion 212 and the two front and rear portions of the left side portion of the heat dissipation panel 202, respectively. The connecting piece 216 a of the fan support portion 212 is overlapped with the surface 43 a of the first circuit board 43 and is fixed to the boss portion 46 of the lower housing 4 via a screw 47. The connecting pieces 216b and 216c of the heat dissipating panel 202 are fixed to the boss portion 46 of the lower housing 4 via screws 217. Therefore, the heat sink 201 is supported not only by the first circuit board 43 but also by the lower housing 4.
[0115]
Electric fan 220 is supported by fan support 212. The electric fan 220 has a square fan frame 221 and a rotor 222 supported at the center of the fan frame 221. A plurality of blades 223 are integrally formed on the outer peripheral surface of the rotor 222.
[0116]
The fan frame 221 is made of a metal material having excellent thermal conductivity such as an aluminum alloy. The fan frame 221 is disposed between the support walls 213a and 213b, and the lower end portion of the fan frame 221 is screwed to the upper surfaces of the tongue pieces 214a and 214b. Therefore, the fan frame 221 is integrally connected to the heat dissipation panel 202 via the support walls 213a and 213b, and the lower part of the rotor 222 is located between the first circuit board 43 and the bottom wall 4a of the lower housing 4. It is overhanging.
[0117]
As shown in FIG. 6, the electric fan 220 is connected to the first circuit board 43 via the lead wire 226. For this reason, the electric fan 226 is controlled by the control unit of the first circuit board 43. In the case of the present embodiment, the temperature of the panel 183 measured by the thermistor 191 exceeds 80 degrees. Sometimes the rotor 222 is driven to rotate.
[0118]
As shown in FIG. 25, the heat radiating panel 202 in which the electric fan 220 is integrated is positioned below the support wall 10 of the keyboard mounting opening 8 and the reinforcing plate 25 of the keyboard 21. A part of the support wall 10 and the reinforcing plate 25 faces the heat radiating surface 204 of the heat radiating panel 202, and forms a cooling air passage 227 in the housing 3 in cooperation with the heat radiating surface 204. . The cooling air passage 227 is connected to the electric fan 220, and the heat radiation convex portion 205 is located in the cooling air passage 227.
[0119]
When the rotor 222 of the electric fan 220 rotates, the air in the cooling air passage 227 and the air between the first circuit board 43 and the bottom wall 4a of the lower housing 4 are sucked toward the rotor 222. This air is discharged toward the rear of the rotor 222.
[0120]
As shown in FIGS. 6 and 26, the electric fan 220 is arranged on the left side of the connector panel 85, and is located inside the rear wall 4 e of the lower housing 4 together with the connector panel 85. An exhaust port 228 as shown in FIG. 10 is opened in the rear wall 4e. The exhaust port 228 is connected to the electric fan 220 and is adjacent to the second connector outlet 87.
[0121]
As shown in FIGS. 20 and 21, the sub heat sink 230 is attached to the cover 167. The sub heat sink 230 is made of a metal material having excellent thermal conductivity, such as an aluminum alloy.
[0122]
The sub heat sink 230 has a flat plate portion 231. The plate portion 231 is overlaid on the lower surface of the panel 183 of the cover 167. The plate portion 231 has a substantially square shape that is slightly larger than the panel 183. The plate portion 231 has a pair of first communication holes 232a and 232b and a pair of second communication holes 233a and 233b. The first and second communication holes 232 a, 232 b, 233 a, 233 b are positioned on the diagonal line of the plate portion 231 and are adapted to match the insertion holes 186 a-186 b of the panel 183.
[0123]
The plate portion 231 of the sub heat sink 230 is fixed to the cover 167 using the screw 235. The screw 235 is inserted into the first communication holes 232 a and 232 b from below the plate portion 231, passes through the two insertion holes 186 a and 186 b of the panel 183, and the mounting hole 180 of the first circuit board 43, and the heat dissipation member 166 Screw holes 178.
[0124]
The second communication holes 233a and 233b of the plate portion 231 have a size that allows the screws 187 to fix the heat dissipation member 166 to the first circuit board 43 to be inserted, and are formed inside the communication holes 233a and 233b. The head of the screw 187 is stored.
[0125]
The plate portion 231 includes a pair of brackets 236a and 236b. As shown in FIG. 26, one bracket 236a is interposed between the connecting piece 216a of the heat dissipating panel 202 and the boss portion 46 of the lower housing 4, and is fixed to the boss portion 46 together with the connecting piece 216a. As shown in FIG. 25, the other bracket 236b is interposed between the connecting piece 216c of the heat dissipation panel 202 and the boss portion 46 of the lower housing 4, and is fixed to the boss portion 46 together with the connecting piece 216c. Therefore, the sub heat sink 230 is connected to the lower housing 4 and the heat dissipation panel 202.
[0126]
As shown in FIG. 6, the heat sink 201 having the electric fan 220 is adjacent to the rear end portion of the left side wall 4 b of the lower housing 4. A number of cooling air inlets 240 are opened in the side wall 4b. The cooling air introduction port 240 is disposed at a position biased forward of the heat sink 201 and faces the left edge of the second circuit board 44. Therefore, the cooling air introduction port 240 is located on the opposite side of the electric fan 220 with the cooling air passage 227 interposed therebetween.
[0127]
As shown in FIG. 26, the right support wall 213 b of the fan support 212 is adjacent to the connector panel 85. A bracket 245 is integrally formed at the upper end of the support wall 213b. A first heat radiating plate 246 is attached to the bracket 245. The first heat radiating plate 246 is made of a metal material having excellent thermal conductivity such as an aluminum alloy.
[0128]
The first heat radiating plate 246 includes an elongated plate body 247 extending in the left-right direction of the lower housing 4 and a connecting piece 248 connected to one end of the plate body 247. The first heat radiating plate 246 is integrally supported by the support wall 213b by fixing the connecting piece 248 to the lower surface of the bracket 245 via a screw 250. The plate body 247 is disposed along the connector panel 85, and the rear end portion of the plate body 247 is hooked on the locking portion 85 a of the connector panel 85.
[0129]
For this reason, the first heat radiating plate 246 extends between the heat sink 201 and the connector panel 85, and the heat of the heat sink 201 is released to the connector panel 85.
[0130]
The first heat radiating plate 246 is located below the rear end portion of the upper housing 5. A large number of heat radiation holes 252 as shown in FIG. 10 are opened at the rear end portion of the upper housing 5, and outside air is guided to the periphery of the first heat radiation plate 246 through these heat radiation holes 252. . A large number of cooling fins 253 are formed on the upper surface of the plate body 247, and the presence of these cooling fins 253 ensures a sufficient contact area between the plate body 247 and the outside air.
[0131]
As shown in FIGS. 6 and 13, a support wall 256 is integrally formed at the right end portion of the heat dissipation panel 202. The support wall 256 is adjacent to the HDD 103, and a second heat radiating plate 257 is attached to the upper end of the support wall 256. The second heat radiating plate 257 is made of a metal material having excellent thermal conductivity such as an aluminum alloy.
[0132]
As shown in FIG. 13, the second heat radiating plate 257 has a plate main body 258 that extends in the left-right direction of the housing 3 across the upper surface of the HDD 103, and one end of the plate main body 256 is supported by a screw 259. The upper surface of 256 is fixed.
[0133]
The plate body 258 is disposed inside the keyboard mounting opening 8. The upper surface of the plate body 258 is located substantially flush with the support wall 10 of the keyboard mounting opening 8, the upper surface 93 a of the card case 93, and the tip of the convex portion 135 of the bracket 121. Therefore, the upper surface of the plate main body 258 is in contact with the reinforcing plate 25 of the keyboard 21 so as to support the keyboard 21 from below and to release the heat of the heat sink 201 to the reinforcing plate 25.
[0134]
Note that the plate body 258 of the second heat radiating plate 257 may be formed to have substantially the same size as the reinforcing plate 25. According to this configuration, the heat dissipation performance of the heat sink 201 is further improved, and it is more convenient for preventing the keyboard 21 from being bent during key operation.
[0135]
As shown in FIGS. 27 to 29, an expansion space 261 is formed inside the housing 3. The expansion space 261 is located between the bottom wall 4 a of the lower housing 4 and the first circuit board 43 and is adjacent to the TCP 150. The expansion space 261 is for accommodating the memory substrate 262 for expansion. The memory board 262 has a stacking connector 263 on the upper surface facing the first circuit board 43. The stacking connector 263 is disposed at a position biased toward one end side of the memory substrate 262.
[0136]
The expansion space 261 includes a board insertion port 264 for taking in and out the memory board 263. The board insertion port 264 is opened in the bottom wall 4a of the lower housing 4, and a bottom lid 265 that closes the board insertion port 264 is detachably attached to the bottom wall 4a. The bottom cover 265 is made of a sheet metal material and has a substantially flat rectangular plate shape. The bottom cover 265 has a pair of screw insertion holes 266a and 266b at one end thereof and a pair of locking pieces 267a and 267b at the other end opposite to the screw insertion holes 266a and 266b. .
[0137]
A support portion 270 that receives the peripheral edge portion of the bottom lid 265 is formed at the opening edge portion of the substrate insertion opening 264. The support portion 270 is provided with a pair of nuts 271a and 271b connected to the screw insertion holes 266a and 266b, and a metal conductive piece 272 in contact with the bottom cover 265.
[0138]
The bottom lid 265 is overlapped with the support portion 270 of the substrate insertion port 264 with the engaging pieces 267 a and 267 b hooked to the opening edge of the substrate insertion port 264. The bottom lid 265 is fixed to the bottom wall 4a by inserting screws 272 into the screw insertion holes 266a and 266b and screwing the insertion ends of the screws 272 into the nuts 271a and 271b.
[0139]
A stacking connector 275 is disposed on the back surface 43 b of the first circuit board 43 facing the expansion space 261. The stacking connector 275 is fitted to the stacking connector 263 of the memory board 262, and the first circuit board 43 and the memory board 262 are electrically connected by this fitting.
[0140]
As shown in FIG. 28A, a pair of boss portions 277 a and 277 b that support the memory substrate 262 are arranged in the expansion space 261. The boss portions 277a and 277b are formed integrally with the support portion 270 of the board insertion port 264, and are arranged in the front-rear direction inside the board insertion port 264. An intermediate portion of the memory substrate 262 is overlaid on the lower surfaces of the boss portions 277a and 277b. The memory substrate 262 is detachably supported by the boss portions 277a and 277b via screws 278.
[0141]
As shown in FIG. 29, the boss portions 277 a and 277 b are located directly below the fitting portion between the first stacking connector 50 and the third stacking connector 52. The boss portions 277a and 277b are integrally coupled via the bridge portion 280. The upper surfaces of the boss portions 277a and 277b and the bridge portion 280 form a flat support surface 281. The support surface 281 extends along the first and third stacking connectors 50 and 52.
[0142]
As shown in FIG. 27 and FIG. 28A, a metal conductive piece 283 is attached to the bridge portion 280. The conductive piece 283 integrally includes a pair of first conductive portions 285a and 285b that cover the lower surfaces of the boss portions 277a and 277b, and a second conductive portion 284 that covers the support surface 281.
[0143]
The first conductive portions 284 a and 284 b are in contact with the upper surface of the memory substrate 262. On the upper surface of the memory substrate 262, as shown in FIG. 28B, a ground wiring layer 286 facing the first conductive portions 285a and 285b is formed. The ground wiring layer 286 is in contact with the first conductive portions 285a and 285b when the memory substrate 262 is screwed to the boss portions 277a and 277b, so that the memory substrate 262 is grounded to the housing 3 by this contact. It has become.
[0144]
The second conductive portion 284 is in contact with the back surface 43 b of the first circuit board 43. As shown in FIG. 28B, a ground wiring layer 287 facing the second conductive portion 284 is formed on the back surface 43b of the first circuit board 43, and the ground wiring layer 287 is formed as a bridge. It extends along the part 280. The ground wiring layer 287 is in contact with the second conductive portion 284 when the first circuit board 43 is fixed to the lower housing 4, so that the first circuit board 43 is grounded to the housing 3 by this contact. It has become.
[0145]
Therefore, the support surface 281 of the bridge portion 280 is in contact with the back surface 43b of the first circuit board 43 via the second conductive portion 284, and the first circuit board 43 is connected to the first and third stacking connectors. It supports from the lower part in the position corresponding to the fitting part with 50,52.
[0146]
According to this configuration, even when the third stacking connector 52 is pressed against the first stacking connector 50 from above when connecting the second circuit board 44 to the first circuit board 43, these stacking connectors are used. The fitting portions 50 and 52 can be supported by the boss portions 277a and 277b and the bridge portion 280 from below. Therefore, when the first and third stacking connectors 50 and 52 are fitted, the first circuit board 43 can be prevented from bending downward or sinking, and the stacking connectors 50 and 52 are fitted. Can be reliably and easily performed.
[0147]
As shown in FIG. 1, the display unit 300 is supported on the display support portions 6 a and 6 b of the housing 3. The display unit 300 includes a housing 301 having a flat box shape, and a color liquid crystal display 302 accommodated in the housing 301. The housing 301 is divided into a front panel 303 and a rear panel 304, and an opening 305 for exposing the color liquid crystal display 302 is formed in the front panel 303.
[0148]
The housing 301 includes a connecting portion 307 interposed between the display support portions 6a and 6b. The connecting portion 307 extends along the left-right direction of the housing 3, and both left and right ends of the connecting portion 307 support the display of the housing 3 via hinge devices 308 (one of which is shown in FIGS. 25 and 26). The parts 6a and 6b are rotatably supported.
[0149]
Therefore, the display unit 300 can be rotated between a closed position that covers the palm rest 7 and the keyboard 21 from above and an open position where the color liquid crystal display 302 is raised behind the keyboard 21.
[0150]
As shown in FIG. 30, a recess 310 is formed in the connecting portion 307 of the housing 301. A cable 311 connected to the driving circuit of the color liquid crystal display 302 is led to the recess 310. A cable guide 313 is attached to the rear end portion of the upper wall 5 a of the upper housing 5. The cable guide 313 is continuous with the inside of the housing 3 and enters the recess 310 of the connecting portion 307. A cable insertion opening 314 facing the side surface of the recess 310 is opened on the side surface of the cable guide 313. (See FIG. 23). The cable 311 is guided from the side surface of the recess 310 into the housing 3 through the cable insertion port 314 and the cable guide 313.
[0151]
The cable 311 is guided below the right end portion of the keyboard 21 along the inner surface of the rear end portion of the upper wall 5 a, and the connector 315 at the end of the cable 311 is connected to the first circuit board 43.
[0152]
As shown in FIGS. 30 to 32, an icon attachment port 318 is opened at the rear end of the upper wall 5a. The icon mounting port 318 is located immediately after the keyboard mounting port 8 and between the display support portions 6a and 6b. An icon 319 is disposed in the icon mounting opening 318. The icon 319 is made of a synthetic resin material having translucency, and is adhered to the icon mounting opening 318.
[0153]
On the surface of the icon 319, a plurality of display marks 321 for displaying the operation state and function contents of the computer 1 with symbols are drawn. The display marks 321 are arranged at intervals in the left-right direction of the housing 3, and are exposed on the housing 3 together with the keyboard 21 when the display unit 300 is rotated to the open position. .
[0154]
As shown in FIG. 30, a synthetic resin holder 325 is disposed inside the rear end of the upper wall 5a. The holder 325 is integrally provided with a substrate support part 326, a speaker support part 327, and a cable support part 328. These support portions 326 to 328 are arranged in a line along the rear opening edge of the keyboard mounting opening 8, and the end portions of the substrate support portion 326 and the cable support portion 328 are connected to the upper wall 5 a via screws 329. It is supported on the inner surface of.
[0155]
As shown in FIG. 32, the substrate support unit 326 is located below the icon 319. A diode substrate 331 is supported on the upper surface of the substrate support portion 326. The diode substrate 331 is disposed substantially parallel to the icon 319, and a flexible wiring substrate 332 is attached to the upper surface of the diode substrate 331. As shown in FIG. 30, the wiring board 332 has an elongated lead portion 332 a, and the tip of the lead portion 332 a is connected to the first circuit board 43.
[0156]
A plurality of light emitting diodes 333 are arranged in a line on the upper surface of the wiring board 332. The light emitting diode 333 is disposed at a position facing the display mark 321 of the icon 319. When the light-emitting diode 333 emits light, a display mark 321 corresponding to the light-emitting diode 333 is lit, and the operation state and function contents of the computer 1 are displayed.
[0157]
As shown in FIGS. 30 and 33, the speaker support 327 supports a speaker 335 that outputs sound. The speaker 335 includes a ring-shaped frame 336 that supports a diaphragm (not shown) and a guard 337 that is fixed to the frame 336 and covers the front surface of the diaphragm, and has a flat disk shape as a whole. Yes.
[0158]
The speaker support portion 327 that supports the speaker 335 includes a circular fitting portion 340 into which the speaker 335 is fitted. As shown in FIG. 33, the fitting portion 340 is located in a range extending from the rear end portion of the upper wall 5a to the lower side of the keyboard 21, and is inclined downward as it proceeds from the upper wall 5a to the keyboard 21. . For this reason, the speaker 335 is disposed inside the housing 3 in a posture inclined forward and downward, and the front half of the speaker 335 enters the lower side of the keyboard 21.
[0159]
The speaker 335 is fitted into the fitting portion 340 via the speaker holder 341. The speaker holder 341 is configured by a flexible rubber-like elastic body. The speaker holder 341 has a ring-shaped holder main body 342 into which the frame 336 of the speaker 335 is fitted, and a sound insulating wall 343 extending upward is integrally formed on the front half of the holder main body 342. The upper end portion of the sound insulating wall 343 is in contact with the lower surface of the reinforcing plate 25 of the keyboard 21 and the lower surface of the second heat radiating plate 257.
[0160]
  Therefore, the sound insulation wall 343 has the reinforcing plate 25 andSecondThe space 345 that suppresses the diffusion of sound emitted from the front half of the speaker 335 in cooperation with the heat dissipation plate 257 is configured.
[0161]
As shown in FIG. 33, the rear half of the speaker 335 is located below the upper wall 5a. A plurality of slit-like holes 346 for emitting sound from the speaker 335 are opened on the upper wall 5a. The hole 346 faces the rear half of the speaker 335 and is located on the side of the icon 319.
[0162]
As shown in FIG. 31 and FIG. 33, when the speaker 335 is attached to the upper housing 5 together with the holder 325, the peripheral wall 9 connected to the opening rear edge of the keyboard attachment opening 8 is between the front half and the rear half of the speaker 335. positioned. A notch 347 is formed at the lower end of the peripheral wall 9 to communicate the space 345 with the space around the rear half of the speaker 335.
[0163]
The lead wire 348 of the speaker 335 is connected to the first circuit board 43.
[0164]
According to such a mounting structure of the speaker 335, since the front half of the speaker 335 enters the lower side of the keyboard 21, the sound from the front half of the speaker 335 is a space between the keyboard 21 and the lower housing 4. Is released towards
[0165]
However, since the speaker holder 341 into which the speaker 335 is fitted has the sound insulation wall 343 in contact with the reinforcement plate 25 of the keyboard 21, the sound from the front half of the speaker 335 is surrounded by the reinforcement plate 25 and the sound insulation wall 343. As a result, diffusion to the inside of the housing 3 is prevented.
[0166]
Since the space 345 is connected to the space around the second half of the speaker 335 through the notch 347, the sound emitted to the space 345 is guided to the space around the second half of the speaker 335 through the notch 347, and the second half of the speaker 335. Together with the sound emitted from the part, the sound is emitted to the outside of the housing 3 through the sound emission hole 346.
[0167]
For this reason, although the front half of the speaker 335 has entered the lower side of the keyboard 21, the sound emitted from the front half is not greatly diffused inside the housing 3. Therefore, there is an advantage that the sound quality of the speaker 335 can be improved and the sound volume emitted to the outside of the housing 3 is increased.
[0168]
Furthermore, as shown in FIG. 33, the sound emitted by the speaker 335 is emitted obliquely upward and forward with respect to the housing 3 by tilting the speaker 335 in the forward-downward posture. As a result, when operating the portable computer 1, it becomes easier to hear the sound from the speaker 335.
[0169]
As shown in FIG. 30, the cable support portion 328 of the holder 325 has a bottom wall 350 facing the upper wall 5a. The bottom wall 350 extends from the lower side of the cable guide 313 toward the right side, and a core (not shown) of the cable 311 guided to the inside of the housing 3 through the cable guide 313 is held on the bottom wall 350. ing.
[0170]
As shown in FIG. 1, a pair of left and right buffer members 355 are attached to the housing 301 of the display unit 300. The buffer member 355 is for preventing collision between the front panel 303 of the housing 301 and the upper surface of the palm rest 7 when the display unit 300 is rotated to the closed position, and is configured by a flexible rubber-like elastic body. ing.
[0171]
As shown in FIGS. 34 and 35, the buffer member 355 is attached to the front surface of the front panel 303. A recess 356 for attaching the buffer member 355 is formed on the front surface of the front panel 303. A small-diameter insertion hole 357 is formed on the end surface serving as the bottom of the recess 356. The insertion hole 357 is opened toward the inside of the front panel 303.
[0172]
The buffer member 355 integrally includes a main body 358 fitted in the concave portion 356 and a string-like gripping portion 359 continuous with the main body 358. The gripping portion 359 has a diameter that can be inserted into the insertion hole 357, and a large-diameter portion 360 is integrally formed at an end portion of the gripping portion 359 that is continuous with the main body 358. The diameter of the large diameter portion 360 is set to be slightly larger than the diameter of the insertion hole 357.
[0173]
In order to attach such a buffer member 355 to the front panel 303, first, the tip of the gripping portion 359 is inserted through the insertion hole 357 from the outside of the front panel 303. Then, the front end of the grip portion 359 is gripped from the inside of the front panel 303 with a fingertip, and the grip portion 359 is pulled toward the inside of the front panel 303.
[0174]
Then, the main body 358 fits into the concave portion 356, and the large diameter portion 360 of the gripping portion 359 bites into the inner surface of the insertion hole 357, so that the main body 358 is held in the concave portion 356. Therefore, as shown in FIG. 34, the main body 358 is held by the front panel 303 in a state of slightly protruding from the front surface of the front panel 303.
[0175]
Note that the portable electronic device according to the present invention is not limited to a notebook portable computer, and can be similarly applied to other portable information processing apparatuses such as a word processor.
[0176]
【The invention's effect】
According to the present invention described in detail above, it is easy to hear the sound emitted by the speaker in the housing.
[Brief description of the drawings]
FIG. 1 is a perspective view of a portable computer according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view of a portable computer showing a state where a keyboard and an HDD are removed from a housing.
FIG. 3 is a front view of the portable computer.
FIG. 4 is a perspective view showing a state in which a first circuit board having a heat sink is incorporated in a lower housing.
FIG. 5 is an exploded perspective view showing a state in which the first to third circuit boards are assembled in the lower housing.
FIG. 6 is a perspective view showing a state in which the first to third circuit boards are incorporated in the lower housing.
FIG. 7 is a perspective view of a battery housing portion.
FIG. 8 is a cross-sectional view of a housing showing a battery connector attachment portion.
FIG. 9 is a plan view of a housing showing a battery connector attachment portion.
FIG. 10 is a rear view of the portable computer.
FIG. 11 is a perspective view showing a state in which the HDD is incorporated in the hard disk mounting portion of the housing.
FIG. 12 is a perspective view showing a state where the HDD is tilted and inserted into the hard disk mounting portion of the housing.
FIG. 13 is a cross-sectional view of a housing showing a positional relationship between an HDD incorporated in a hard disk mounting portion and a keyboard.
FIG. 14 is a sectional view of an HDD.
FIG. 15 is a perspective view of an HDD to which a bracket is attached.
FIG. 16 is a perspective view of the HDD viewed from the back side.
FIG. 17 is a cross-sectional view of the portable computer showing a state in which the HDD is tilted and inserted into the hard disk mounting portion of the housing.
FIG. 18 is a cross-sectional view of a portable computer showing a state where an HDD is dropped into a hard disk mounting portion of a housing.
FIG. 19 is a cross-sectional view of a portable computer showing a state where an HDD is incorporated in a hard disk mounting portion of a housing.
FIG. 20 is an exploded perspective view illustrating a structure for attaching a TCP, a heat dissipation unit, a heat sink, and a sub heat sink to the first circuit board.
FIG. 21 is an exploded perspective view illustrating a structure for attaching a TCP, a heat dissipation unit, a heat sink, and a sub heat sink to the first circuit board.
FIG. 22 is a perspective view showing a state in which a cover having a thermistor is removed from the first circuit board.
FIG. 23 is a cross-sectional view of a portable computer showing a structure of a mounting portion of a TCP, a heat dissipation unit, a heat sink, and a sub heat sink.
FIG. 24A is a cross-sectional view of a TCP mounting portion. FIG. 25B is an enlarged cross-sectional view of a portion X in FIG.
FIG. 25 is a cross-sectional view of a portable computer showing the structure of the TCP, heat radiating unit, heat sink, and sub heat sink attachment portion.
FIG. 26 is a cross-sectional view of a portable computer showing a structure of a mounting portion of the heat sink, the sub heat sink, and the first heat radiating plate with respect to the housing.
FIG. 27 is an exploded perspective view of the portable computer showing a state where the memory board and the bottom cover are removed from the housing.
FIG. 28A is a cross-sectional view of a portable computer showing a structure of a mounting portion of a memory board and a bottom lid with respect to a housing. FIG. 28B is an enlarged cross-sectional view of a Y portion in FIG.
FIG. 29 is a cross-sectional view of a portable computer showing a structure of a portion where a memory board and a bottom lid are attached to a housing.
FIG. 30 is an exploded perspective view of the portable computer showing a state where the holder is removed from the upper housing.
FIG. 31 is a perspective view of a portable computer showing a state where an icon and a speaker are incorporated in a housing.
FIG. 32 is a cross-sectional view of a portable computer showing the structure of an icon attachment portion.
FIG. 33 is a cross-sectional view of a portable computer showing the structure of a speaker mounting portion.
FIG. 34 is a perspective view showing a state in which a buffer member is attached to the housing of the display unit.
FIG. 35 is a perspective view showing a state where the buffer member is removed from the housing of the display unit.
[Explanation of symbols]
  DESCRIPTION OF SYMBOLS 3 ... Housing | casing, 21 ... Keyboard, 327 ... Speaker support part, 335 ... Speaker, 341 ... Speaker holder, 342 ... Holder main body, 343 ... Sound insulation wall.

Claims (2)

A housing having a keyboard on the top surface;
A speaker support provided inside the housing;
A speaker that is provided at the speaker support portion and is positioned at the rear end of the keyboard and tilted in a front-down position with respect to the keyboard;
A speaker holder that has a ring-shaped holder body into which the speaker is fitted, and that supports the speaker on the speaker support;
A portable electronic device having a plurality of holes that are open on an upper surface of the housing and located behind the keyboard ;
The speaker has a front half part that enters the lower side of the keyboard and a rear half part that faces the hole, and the holder body of the speaker holder is in contact with the lower surface of the keyboard at a position corresponding to the front half part of the speaker. A sound insulating wall that prevents the sound emitted from the first half of the speaker from being diffused into the housing, and the space surrounded by the sound insulating wall and the lower surface of the keyboard is a second half of the speaker. A portable electronic device characterized by being connected to . 2. The display device according to claim 1, wherein the housing includes a display support portion that supports the display unit at a rear end portion thereof, and the display unit stands at a closed position that covers the keyboard from above and behind the keyboard. A portable electronic device characterized by being capable of rotating between an open position .

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