JP3699892B2 - Electronics - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic device such as a book-type portable computer, and more particularly to a structure for housing a battery pack serving as a driving power source in a battery housing portion thereof.
[0002]
[Prior art]
The book-type portable computer has an advantage that it can be freely used by using a battery pack built in the housing as a power source even in a place where it is easy to carry and a commercial AC power source cannot be obtained.
[0003]
A battery pack used in this type of computer has a battery case in which a plurality of secondary batteries are accommodated. The battery case has a rectangular box shape, and a plurality of terminal plates are arranged in a line on one end surface along the longitudinal direction of the battery case.
[0004]
The case of the computer includes a battery storage unit that detachably stores the battery pack. The battery housing portion is configured by a recess opened upward, and has a size such that the battery case fits tightly. A battery connector is disposed at one end of the battery housing portion. The battery connector has a plurality of connection terminals with which the terminal plate of the battery pack comes into contact, and these connection terminals face the other end of the battery housing portion.
[0005]
By the way, in the conventional portable computer, in order to attach the battery pack to the battery housing portion, first, the battery pack is inserted into the battery housing portion from above the housing in an obliquely downward posture with the terminal plate at the head, and the terminal Push the plate against the connection terminal of the battery connector. Then, the battery pack is rotated downward with the contact portion between the terminal plate and the contact terminal as a fulcrum, and the battery pack is dropped into the battery housing portion.
[0006]
Thus, the battery pack enters the battery housing portion in a posture parallel to the bottom of the battery housing portion, and is sandwiched between the connection terminal of the battery connector and the other end of the battery housing portion.
[0007]
[Problems to be solved by the invention]
However, since the battery case of the conventional battery pack has the same shape in which one end where the terminal plate is disposed and the other end opposite to the terminal plate are squared with each other, There is a risk of misunderstanding. For this reason, when the battery case is grasped by hand and inserted into the battery housing part, the battery case may be erroneously inserted into the battery housing part in an upside down orientation.
[0008]
Then, since the battery pack is housed in the battery housing portion in the wrong direction, the polarity of the connection terminal of the battery connector and the terminal plate of the battery pack do not match, which causes a failure in energization or failure.
[0009]
In addition, in the conventional computer, even if the battery pack is reversed, it can be incorporated into the battery housing portion, so when the wrong attachment is noticed, the battery pack is taken out from the battery housing portion and again. The battery pack must be installed in the battery compartment in the proper orientation. Therefore, it is necessary to pay close attention to assembling the battery pack, and there is a problem that this assembling work takes time.
[0010]
The present invention has been made based on such circumstances. When the battery pack is accommodated in the battery accommodating portion, it is possible to easily know whether or not the posture of the battery pack is appropriate. It is an object to provide an electronic device that can prevent erroneous mounting of the device.
[0011]
[Means for Solving the Problems]
  In order to achieve the above object, an electronic device according to an aspect of the present invention is housed in a housing having a battery housing portion and is detachably housed in the battery housing portion of the housing, and has a plurality of terminal plates at one end. HaveBox-shapedAnd a battery pack.
  The battery housing portion has a battery connector in contact with the terminal plate of the battery pack at one end and a support wall at the other end facing the battery connector, and the battery pack has an oblique posture with the terminal plate at the top. The battery pack is inserted from the outside of the housing into the battery housing section, and is rotated by the contact portion between the terminal plate and the battery connector as a fulcrum, and is stored in the battery housing section. When the battery pack is inserted into the battery housing portion in the correct orientation, the end portion avoids interference with the tip corner portion of the support wall at the corner portion defined by the bottom surface and the other end surface facing the battery housing portion. It is characterized by having a bent portion bent in an arc shape.
[0012]
  In such a configuration, when the battery pack is inserted into the battery housing portion in a normal posture, the bent portion of the battery pack faces the tip corner portion of the support wall. For this reason, connect the battery pack to the terminal board.Battery connectorWhen the contact portion is rotated about the fulcrum, interference between the battery pack and the tip corner portion of the support wall is avoided by the presence of the bent portion.
[0013]
  On the other hand, when the battery pack is inserted into the battery housing part in a reverse orientation,The corner on the opposite side of the battery pack's bend is angular without chamfering,Battery pack with terminal boardBattery connectorWhen the contact portion is rotated about the fulcrum, the corner portion of the battery pack is caught by the tip corner portion of the support wall. Therefore, the rotation of the battery pack is limited, and the battery pack cannot be stored in the battery housing portion.
[0014]
Therefore, it can be easily recognized that the battery pack is in the reverse direction, and erroneous attachment of the battery pack to the battery housing portion can be prevented beforehand.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
A first embodiment of the present invention will be described below with reference to FIGS. 1 to 24 applied to a portable computer.
[0020]
FIG. 1 shows an A4 size book-type portable computer 1. The computer 1 includes a base unit 2 and a display unit 3 supported by the base unit 2.
[0021]
The base unit 2 includes a casing 4 having a rectangular box shape. The housing 4 has a flat rectangular box shape having a bottom surface 5a and an upper surface 5b facing each other, a front surface 5c and a rear surface 5d connected to the bottom surface 5a and the upper surface 5b, and left and right side surfaces 5e and 5f.
[0022]
The housing 4 is divided into a lower housing 7 having a bottom surface 5a and an upper housing 8 having an upper surface 5b. The lower housing 7 and the upper housing 8 are made of a synthetic resin material such as ABS resin.
[0023]
As shown in FIGS. 4 and 10, a circuit board 10 is accommodated in the lower housing 7. The circuit board 10 is fixed to a plurality of boss portions 11 on the bottom surface 5a of the lower housing 7 via screws 12, and is arranged in parallel with the bottom surface 5a. The circuit board 10 has a quadrilateral shape that is substantially the same size as the bottom surface 5a, and its front, rear, left and right peripheral portions are adjacent to the front surface 5c, the rear surface 5d, and the left and right side surfaces 5e, 5f of the lower housing 7. Various circuit components 13 such as LSI packages are mounted on the upper and lower surfaces of the circuit board 10.
[0024]
As shown in FIG. 4, a hard disk drive device 15 and a CD-ROM drive device 16 are accommodated in the lower housing 7. The hard disk drive 15 is located at the left end of the front half of the lower housing 7 and is placed on the upper surface of the circuit board 10. The hard disk drive 15 is connected to the circuit board 10 via a hard disk connector (not shown).
[0025]
The CD-ROM drive device 16 is located at the right end of the rear half of the lower housing 7 and is screwed onto the bottom surface 5 a of the lower housing 7. For this reason, the circuit board 10 fixed to the bottom surface 5a of the lower housing 7 has a notch 18 for escaping the CD-ROM drive device 16, as shown in FIGS. The circuit board 10 is opened at the right peripheral edge.
[0026]
As shown in FIGS. 6 and 7, the CD-ROM drive device 16 includes a metal casing 20 having a flat box shape. The casing 20 has a plurality of tongue pieces 21, and these tongue pieces 21 are screwed to the bottom surface 5 a of the lower housing 7. The casing 20 has a thickness dimension that fits inside the lower housing 7. As shown in FIG. 4, the upper surface 20 a of the casing 20 is positioned at an open end of the lower housing 7.
[0027]
A disc insertion opening 22 is opened on the side surface of the casing 20. A guide frame 23 is attached to the disc insertion opening 22. Further, the disc insertion port 22 faces the right side surface 5f of the lower housing 7, and an opening 24 for exposing the disc insertion port 22 is formed on the side surface 5f.
[0028]
As shown in FIG. 7, a disk storage unit 27 and a disk drive unit 28 are stored in the casing 20 so as to overlap each other. The disk storage unit 27 includes a disk holder 30 supported by the casing 20 so as to be able to be pulled out. The disk holder 30 includes a bottom wall 32 on which a disk-shaped optical disk 31 is placed, and an end wall 33 continuous with the bottom wall 32. The bottom wall 32 faces the lower surface, which is the information recording surface of the optical disc 31, and an access window 34 is opened in the bottom wall 32. The end wall 33 has a size capable of opening and closing the disc insertion opening 22, and is exposed to the opening 24 of the side surface 5f.
[0029]
For this reason, the disc holder 30 is inserted into and removed from the disc storage portion 27 through the opening 24, and the size of the disc storage portion 27 is determined according to the diameter of the optical disc 31.
[0030]
The disk drive unit 28 includes a spindle motor that rotationally drives the optical disk 31 and a control circuit unit for the motor. The disk drive unit 28 has a smaller shape than the disk storage unit 27. For this reason, as shown in FIG. 6, a step 35 is formed at a portion defined by the side surface 28 a of the disk drive unit 28 and the lower surface 27 a of the disk storage unit 27.
[0031]
The casing 20 includes a recess 36 that is recessed so as to enter the step 35 at a position corresponding to the step 35. The recess 36 has an upper surface 36 a along the lower surface 27 a of the disk storage portion 27 and a side surface 36 b along the side surface 28 a of the disk drive portion 28, and the upper surface 36 a and the side surface 36 b cooperate with each other to form the casing 20. A space 37 is formed so as to open continuously to the side and downward.
[0032]
As shown in FIG. 6, the recess 36 of the casing 20 is located at the rear part of the casing 20. A rear portion connected to the notch 18 of the circuit board 10 enters the recess 36, and a part of the circuit board 10 and the circuit component 13 are accommodated in the space 37. Therefore, the notch 18 of the circuit board 10 is formed smaller than the planar shape of the CD-ROM drive device 16, and the mounting area of the circuit board 10 is increased accordingly.
[0033]
As shown in FIGS. 2 and 4, the lower housing 7 includes a battery accommodating portion 40 at the front end portion thereof. The battery housing portion 40 is located on the left side of the hard disk drive device 15 and in front of the CD-ROM drive device 16, and is configured by a recess opened upward from the lower housing 7. Yes. A metal shield plate 41 is disposed at the bottom of the battery housing 40, and the shield plate 41 covers and hides the upper surface of the front half of the circuit board 10.
[0034]
As shown in FIG. 8, a synthetic resin battery holder 42 is disposed between the battery housing 40 and the hard disk drive 15. A battery connector 44 is disposed on the surface of the battery holder 42 facing the battery accommodating portion 40. The battery connector 44 is mounted on the upper surface of the circuit board 10.
[0035]
A battery pack 46 is detachably accommodated in the battery accommodating portion 40. The battery pack 46 serves as a driving power source when the computer 1 is used in a place where commercial AC power cannot be obtained. The battery pack 46 is inserted into and removed from the battery housing portion 40 from above the lower housing 7. When the battery pack 46 is accommodated in the battery accommodating portion 40, the positive and negative terminal plates of the battery pack 46 come into contact with the battery connector 44. For this reason, in the computer 1 of this embodiment, the hard disk drive device 15 and the battery pack 46 are arranged side by side in the front half of the lower housing 7.
[0036]
As shown in FIG. 8, the upper surface of the hard disk drive device 15 is covered with a shield plate 48. The shield plate 48 is screwed to the bottom surface 5a of the lower housing 7, and the shield plate 48 is integrally provided with a plurality of board mounting seats 49.
[0037]
The acoustic board 50 is screwed to the board mounting seat 49. A terminal cover 51 is attached to the left end portion of the acoustic substrate 50. The terminal cover 51 covers a plurality of jacks (not shown) disposed on the acoustic board 50, and the terminal cover 51 includes a plurality of plug holes 53 (shown in FIG. 9) connected to the jacks. . The plug hole 53 is used to insert and remove a plug such as a headphone (not shown), and is exposed to the left side of the lower housing 7.
[0038]
The computer 1 according to the first embodiment has two types of variations: a model equipped with the CD-ROM drive device 16 and a model equipped with a floppy disk drive device instead of the CD-ROM drive device 16. However, in the model equipped with the floppy disk drive device, the acoustic board 50 is removed from the board mounting seat 49.
[0039]
As shown in FIG. 10, a first card accommodation portion 56 and a second card accommodation portion 57 are arranged on the upper surface of the circuit board 10. The first and second card accommodating portions 56 and 57 are for accommodating an expansion card 58 such as a PCMCIA (Personal Computer Card International Association) card or an interface card in a removable manner. These card accommodating portions 56 and 57 are positioned behind the hard disk drive device 15 and on the left side of the CD-ROM drive device 16 and stacked in the thickness direction of the lower housing 7.
[0040]
The first and second card accommodating portions 56 and 57 are adjacent to the left side surface 5 e of the lower housing 7. A card insertion slot 59 for inserting the expansion card 58 so that it can be inserted and removed is opened on the side surface 5e.
[0041]
As shown in FIG. 4, each of the first and second card accommodating portions 56 and 57 includes a card connector 60 to which an expansion card 58 is detachably connected and an expansion card 58 inserted from the card insertion slot 59. Guide rails 61a and 61b leading to the card connector 60 are provided.
[0042]
Each of the first and second card accommodating portions 56 and 57 includes an ejector 62 for discharging the expansion card 58. The ejector 62 has an operation lever 63 that the operator presses with a fingertip. The operation lever 63 is supported by the guide rails 61 a and 61 b so as to protrude and retract, and is exposed to the card insertion slot 59.
[0043]
As shown in FIGS. 4, 5, and 9, a card cover 65 that opens and closes the card insertion slot 59 is attached to the lower housing 7. The card cover 65 has a first opening 66 that continues to the first and second card storage portions 56 and 57. A first small cover 67 that opens and closes the first opening 66 is attached to the card cover 65. The first small cover 67 has a second opening 68 connected to the lower second card accommodation portion 57. A second small cover 69 that opens and closes the second opening 68 is attached to the first small cover 67.
[0044]
Therefore, even when the card cover 65 is closed, the first and second card accommodating portions 56 and 57 can be exposed by opening the first small cover 67, and only the second small cover 69 is opened. In this case, only the second card housing portion 57 can be exposed.
[0045]
Therefore, if only the first or second small cover 67, 69 is opened in a state where the expansion card 58 is mounted in the first card housing portion 56 or the second card housing portion 57, the first or second A cable (not shown) can be connected to the expansion card 58 through the two openings 66 and 68.
[0046]
At this time, the large card insertion slot 59 common to the first and second card accommodating portions 56 and 57 is covered with the card cover 65. Therefore, the opening area connected to the first and second card accommodating portions 56 and 57 can be minimized, and entry of dust and the like into the first and second card accommodating portions 56 and 57 can be prevented. be able to.
[0047]
As shown in FIGS. 4 and 10, a metal connector panel 72 is attached to the rear end of the circuit board 10. The connector panel 72 has a length over the entire width of the circuit board 10 and extends upward at the rear end of the circuit board 10. The connector panel 72 is integrally provided with flange portions 72a and 72b at its upper end and lower end, respectively. The upper flange portion 72 a is overlapped with the upper end portion of the rear surface 5 d of the lower housing 7. The lower flange portion 72 b is overlapped with the bottom surface 5 a of the lower housing 7.
[0048]
The connector panel 72 has a first parallel port 73 for connecting a printer and an external floppy disk drive, an expansion port 74 for connecting an external expansion station, and an RGB connector 75 for connecting an external CRT display. A connection port 76 for connecting a peripheral device having an RS232C standard interface connector and a keyboard connector 77 for connecting an external keyboard or mouse are supported.
[0049]
These various ports 73, 74, 76 and connectors 75, 77 are arranged in a row in the lateral direction of the connector panel 72, and are exposed on the rear surface 5d of the lower housing 7, as seen in FIG. ing. The various ports 73, 74, 76 and connectors 75, 77 are electrically connected to the circuit board 10, and the connection portions between these ports 73, 74, 76 and connectors 75, 77 and the circuit board 10 are The connector panel 72 is covered from the rear.
[0050]
A port cover 78 is attached to the rear surface 5d of the lower housing 7 so as to open and close the expansion port 74.
[0051]
As shown in FIG. 11, a second parallel port 80 and a power switch 81 for connecting an external floppy disk drive device are mounted on the rear portion of the circuit board 10. The second parallel port 80 and the power switch 81 are arranged side by side when the lower housing 7 is viewed from the left side.
[0052]
The second parallel port 80 is adjacent to the left side edge of the circuit board 10 on the lower surface of the circuit board 10. The second parallel port 80 faces the outlet port 82 opened on the left side surface 5e of the lower housing 7, and a side cover 83 for opening and closing the outlet port 82 is attached to the side surface 5e of the lower housing 7. Yes.
[0053]
The power switch 81 has a switch body 84 and a push-type armature 85 supported by the switch body 84. The power switch 81 has a lead (not shown) derived from the switch body 84, and is supported on the circuit board 10 by inserting the lead into the circuit board 10 and soldering the lead to the lower surface. .
[0054]
Therefore, the power switch 81 is disposed at a position avoiding the second parallel port 80 on the upper surface of the circuit board 10, and is shifted to the right side from the second parallel port 80. The armature 85 of the power switch 81 faces the left side surface 5e of the lower housing 7, and an opening 86 facing the armature 85 is formed on the side surface 5e. The opening 86 is positioned directly above the outlet 82.
[0055]
On the other hand, as shown in FIG. 1, the upper housing 8 of the housing 4 is divided into a housing main body 90 and a palm rest 91 connected to the front end of the housing main body 90. The housing main body 90 includes a keyboard mounting portion 92 and a convex portion 93.
[0056]
The keyboard mounting portion 92 includes a recess having left and right side walls 94a and 94b, a rear wall 94c, and a bottom wall 94d (shown in FIGS. 6 and 10) connected to the respective walls 94a to 94c. It has a size that covers almost the entire upper surface of 90. The bottom wall 94d of the keyboard mounting portion 92 is positioned directly above the CD-ROM drive device 16 and the first and second card storage portions 56 and 57. As shown in FIG. 8, a partition wall 94e extending downward is formed.
[0057]
The lower end portion of the partition wall 94e is screwed to the boss portion 11 of the lower housing 7 together with the circuit board 10. The partition wall 94 e also serves as the rear wall of the battery housing portion 40, and partitions the battery housing portion 40 from the inside of the lower housing 7.
[0058]
The convex portion 93 is located immediately after the keyboard mounting portion 92. The convex portion 93 protrudes upward from the upper surface of the housing body 90 and extends along the lateral direction of the housing body 90, and has a length over the entire width of the housing body 90.
[0059]
As shown in FIG. 12, the convex portion 93 includes a front surface 95 extending upward from the upper surface of the housing body 90, an upper surface 96 extending rearward from the upper end of the front surface 95, and a rear surface 97 extending downward from the rear end of the upper surface 96. As a whole, the housing body 90 has a hollow shape having an accommodation space 98 opened downward. The rear surface 97 of the convex portion 93 is continuous with the rear surface 5d of the housing 4 and is exposed to the rear of the housing 4.
[0060]
The convex part 93 has a pair of display support parts 100a and 100b. The display support parts 100a and 100b are spaced apart from each other in the lateral direction of the convex part 93, and are configured by recesses that are continuously open toward the front, upper, and rear of the convex part 93, respectively. Yes.
[0061]
Since these display support parts 100a and 100b have the same configuration on the left and right, the left display support part 100a will be described as a representative.
As shown in FIGS. 13 and 14, the display support unit 100 a includes a bottom surface 101 that is continuous with the top surface of the housing body 90, and left and right side surfaces 102 and 103 that are continuous with the bottom surface 101. The bottom surface 101 has a bottom opening 101 a, and the bottom opening 101 a is opened toward the inside of the housing main body 90. Further, the side surfaces 102 and 103 have side openings 102a and 103a, respectively. The side openings 102a and 103a are continuous with the bottom opening 101a and open into the accommodation space 98.
[0062]
A cover 106 is screwed to the display support portion 100a from the inside of the housing body 90. As shown in FIGS. 10 and 13, the cover 106 includes a bottom wall portion 108 that covers the bottom opening 101a of the display support portion 100a, and a pair of left and right side wall portions 109a and 109b that fit into the side opening 102a and 103a. Have. The side wall portions 109a and 109b form openings 110a and 110b on the side surfaces 102 and 103 of the display support portion 100a in cooperation with the side openings 102a and 103a.
[0063]
The convex portion 93 is divided into a power supply accommodating portion 113 located between the display support portions 100a and 100b and hinge accommodating portions 114a and 114b located on the left and right sides of the display support portions 100a and 100b. Yes. As shown in FIG. 13, the power supply housing portion 113 and the hinge housing portions 114 a and 114 b are located above the rear end portion of the circuit board 10 and are connected to the inside of the lower housing 7.
[0064]
As shown in FIG. 14, the front surface 95 of the power supply housing portion 113 protrudes toward the keyboard mounting portion 92 ahead of the front surfaces 95 of the hinge housing portions 114 a and 114 b. Therefore, the front surface 95 of the power supply housing portion 113 and the front surface 95 of the hinge housing portions 114 a and 114 b are shifted from each other in the front-rear direction, and a step is generated between the front surfaces 95. And the upper surface of the housing main body 90 which the said front surface 95 carries respectively has the flat parts 115a and 115b which enter into the part of the said level | step difference.
[0065]
A keyboard 117 is disposed on the keyboard mounting portion 92 of the housing body 90. The keyboard 117 includes a keyboard panel 118. The keyboard panel 118 has a rectangular plate shape that can be fitted into the keyboard mounting portion 92, and is placed on the bottom wall 94 d of the keyboard mounting portion 92. On the upper surface of the keyboard panel 118, a large number of keys 119 and a joystick 120, which is a kind of pointing device, are arranged.
[0066]
The keyboard panel 118 has a front edge portion 118a (shown in FIG. 8) positioned at the front end of the keyboard attachment portion 92 and a rear edge portion 118b (shown in FIG. 12) along the rear wall 94c of the keyboard attachment portion 92. are doing. A plurality of engagement protrusions 121 (only one is shown in FIG. 12) are formed on the rear edge portion 118b of the keyboard panel 118. The engagement protrusions 121 are formed in the engagement holes 122 formed in the rear wall 94c. Is plugged into.
[0067]
Further, as shown in FIGS. 2 and 8, a keyboard presser 125 is attached to the front end portion of the keyboard mounting portion 92. The keyboard presser 125 has an elongated bar shape extending over the entire width of the keyboard panel 118. The keyboard press 125 is removably locked to the front end portion of the bottom wall 94d of the keyboard mounting portion 92, and the front edge portion 118a of the keyboard panel 118 is sandwiched between the bottom wall 94d.
[0068]
Therefore, the keyboard 117 is supported by the keyboard mounting portion 92 at the front edge portion 118 a and the rear edge portion 118 b of the keyboard panel 118. The front edge portion 118 a of the keyboard panel 118 is covered with a keyboard presser 125.
[0069]
The palm rest 91 of the upper housing 8 is located on the hand side of the keyboard 117. The palm rest 91 is connected to the front end of the keyboard mounting portion 92 and covers the hard disk drive device 15 and the battery housing portion 40 from above.
[0070]
As shown in FIGS. 1 and 8, the palm rest 91 includes a hand stand 126 when the operator operates the keyboard 117, and a peripheral wall 127 that extends downward from the front edge and the left and right side edges of the hand stand 126. And a lower end portion of the peripheral wall 127 is placed on the front half portion of the lower housing 7 so as to be movable back and forth. A pair of operation buttons 128a and 128b for executing and canceling commands are arranged in the front and rear in a substantially central portion of the hand table 126. The left peripheral wall 127 has a notch 129 that exposes the terminal cover 51.
[0071]
Such a palm rest 91 is connected to the keyboard mounting portion 92. As shown in FIG. 2, support arms 130 a and 130 b extending rearward are integrally formed at the left and right ends of the palm rest 91. The support arms 130 a and 130 b enter between the side walls 94 a and 94 b of the keyboard mounting portion 92 and the keyboard 117.
[0072]
The side walls 94a and 94b of the keyboard mounting portion 92 have fitting portions 131 into which the support arms 130a and 130b are slidably fitted, as representatively shown on the right side wall 94b in FIGS. Yes. Concave portions 132 are formed in the facing portions of the fitting portion 131 facing the support arms 130a and 130b, respectively. The recess 132 has an upper edge portion 132a extending in the front-rear direction and a front edge portion 132b extending downward from the front end of the upper edge portion 132a. The lower end of the front edge portion 132 b is continuous with the bottom wall 94 d of the keyboard mounting portion 92. And the convex part 133 extended up and down is formed in the intermediate part along the front-back direction of the recessed part 132. As shown in FIG.
[0073]
Further, the support arms 130 a and 130 b have a shaft portion 135 that fits into the recess 132. The shaft portion 135 is in contact with the upper edge portion 132a of the recess 132 so as to be slidable in the front-rear direction. For this reason, as shown in FIG. 17B, by pulling out the palm rest 91 to the hand side, the shaft part 135 is positioned at a corner defined by the upper edge part 132a and the front edge part 12b of the concave part 132. When the front end of the palm rest 91 is pulled up in this state, as shown in FIG. 17C, the palm rest 91 rotates upward with the shaft portion 135 as a fulcrum, and the hard disk drive device 15 and the battery housing portion 40 are moved upward. To be exposed. The rotation of the palm rest 91 is stopped when the rear end portion of the peripheral wall 127 of the palm rest 91 contacts the upper ends of the side walls 94a and 94b of the keyboard mounting portion 92, as shown in FIG.
[0074]
Therefore, the palm rest 91 is a keyboard that can rotate between a closed position that covers the hard disk drive 15 and the battery housing 40 from above and an open position that exposes the hard disk drive 15 and the battery housing 40 upward. It is supported by the mounting portion 92. Therefore, the battery pack 46 is inserted and removed from above the housing 4 with the palm rest 91 rotated to the open position.
[0075]
When the palm rest 91 is rotated from the open position to the closed position, the palm rest 91 is first rotated downward, and the peripheral wall 127 of the palm rest 91 is placed on the upper end portion of the lower housing 7. In this state, the palm rest 91 is slid rearward toward the keyboard mounting portion 92. Then, the support arms 130 a and 130 b are fitted into the fitting portion 131. At this time, the shaft 135 passes over the protrusion 133 while being in sliding contact with the upper edges 132a of the fitting portions 131a and 131b. At this time, a sense of movement is imparted, and it is recognized that the palm rest 91 has been slid to the closed position. can do.
[0076]
Since the palm rest 91 is long and narrow across the entire width of the housing 4, when the palm rest 91 is slid rearward, the left and right support arms 130 a and 130 b are not always slid without shifting back and forth. In some cases, the support arm 130a or 130b may be inclined in an oblique posture so as to be positioned on the operator's hand side.
[0077]
  However, even if the palm rest 91 is slid in a tilted state, the shaft portion 135 of the other support arm 130a or 130b always passes over the projection 133, so that the position of the other support arm 130a or 130b and the fitting portion 131 is determined. Matching is done. After this, one support arm 130a positioned on the hand side or130bWhen the end on the side is pressed rearward, the shaft portion 135 of one support arm 130a or 130b passes over the protrusion 133, and the one support arm 130a or 130b and the fitting portion 131 are aligned. Therefore, the slide operability to the closed position of the palm rest 91 can be maintained satisfactorily.
[0078]
As shown in FIG. 1, a pair of left and right latches 138 a and 138 b are arranged at the front end portion of the palm rest 91. The latches 138a and 138b are for holding the palm rest 91 in the closed position, and are detachably hooked on the upper front end of the lower housing 7.
[0079]
As shown in FIG. 2, a metal inner panel 140 is screwed to the back surface of the palm rest 91. The inner panel 140 is located at a portion facing the battery housing portion 40. Between the inner panel 140 and the back surface of the hand stand 126, switches 141a and 141b pressed by the operation buttons 128a and 128b and a speaker 142 are accommodated. The speaker 142 is positioned at the right end portion of the hand table 126, and the hand table 126 has a plurality of through holes 143 through which sound passes.
[0080]
By the way, an AC power supply unit 150 for converting a commercial AC power source into a DC power source and outputting it is housed inside the housing 4. As shown in FIG. 12, the AC power unit 150 includes a power circuit board 151, various circuit components 152 mounted on the power circuit board 151, and a case 153 surrounding the power circuit board 151 and the circuit parts 152. The circuit component 152 includes a component that generates heat during the conversion operation. As shown in FIG. 4, the AC power supply unit 150 has a prismatic shape extending in the lateral direction of the housing 4. The AC power supply unit 150 is accommodated in the power supply accommodating portion 113 of the housing main body 90 and is electrically connected to the circuit board 10 via the relay cable 154.
[0081]
The AC power supply unit 150 is disposed along the upper flange portion 72 a of the connector panel 72 and is located above the rear end portion of the circuit board 10. The AC power unit 150 has one end in the longitudinal direction supported on the circuit board 10 via a synthetic resin holder 155 and the other end supported by the connector panel 72.
[0082]
That is, as shown in FIG. 20, one end of the power circuit board 151 of the AC power supply unit 150 is led out through the notch 153 a of the case 153, and one end of the power circuit board 151 is connected to the holder 155. It is supported. As shown in FIGS. 13 and 22, the holder 155 has a mounting seat 156 that is placed on the upper surface of the circuit board 10. The mounting seat portion 156 is fixed to the boss portion 11 of the lower housing 7 together with the circuit board 10 with screws 12 at three positions separated in the left-right direction.
[0083]
The holder 155 has a support wall 158 that faces one end of the power circuit board 151. The support wall 158 is erected immediately before the connector panel 72, and a lower end portion of the support wall 158 is connected to the attachment seat portion 156. A pair of locking portions 159a and 159b are formed at the upper end of the support wall 158, and one end of the power circuit board 151 is removably locked to the locking portions 159a and 159b.
[0084]
As shown in FIG. 21, the other end of the power circuit board 151 is led out through the case 153. The other end portion of the power circuit board 151 is positioned on the flange portion 72a of the connector panel 72, and is fixed to the upper surface of the support piece 160 connected to the flange portion 72a via a screw 161. Therefore, the AC power supply unit 150 is positioned at the upper end portion of the connector panel 72, and most of the AC power supply unit 150 projects upward from the upper surface opening portion of the lower housing 7.
[0085]
In the state where the lower housing 7 is covered with the upper housing 8, as shown in FIG. 12, the AC power supply unit 150 enters the power supply accommodation portion 113 of the convex portion 93, and the AC power supply unit 150 is connected to the power supply accommodation portion 113. Occupies most of the space inside.
[0086]
A large number of air holes 162 are opened on the rear surface 97 of the convex portion 93. The air holes 162 correspond to the power supply accommodating portion 113, and the presence of the air holes 162 enhances the heat dissipation of the AC power supply unit 150.
[0087]
As shown in FIG. 12, the AC power supply unit 150 includes a cable 165 having a power connector 164. The cable 165 is connected to the power circuit board 151. The power connector 164 is inserted into the insertion port 166 of the connector panel 72 below the AC power unit 150 and is exposed on the rear surface 5 d of the lower housing 7.
[0088]
The power connector 164 is placed on the upper surface of the circuit board 10 at a position adjacent to the support wall 158 of the holder 155. A connector holding portion 167 that is in contact with the upper surface of the power connector 164 is integrally formed on the side surface of the support wall 158. The connector holding portion 167 is parallel to the circuit board 10 and sandwiches the power connector 164 in cooperation with the circuit board 10.
[0089]
Therefore, the power connector 164 is held in the lower housing 7 using the holder 155, and the plug 169 of the power cord 168 connected to the commercial AC power supply is detachably inserted into the power connector 164. Yes.
[0090]
As shown in FIGS. 10 and 14, an icon 173 is arranged on the flat portion 115 a on the left side of the upper surface of the housing body 90. The icon 173 is located immediately before the display support unit 100a. The icon 173 includes an icon substrate 174 made of a synthetic resin having translucency. The icon substrate 174 has a rectangular shape extending in the left-right direction, and the icon substrate 174 is flush with the flat portion 115a.
[0091]
On the icon substrate 174, a plurality of display marks 175 for displaying the operation status and function contents of the computer 1 as symbols are drawn. These display marks 175 are arranged at intervals in the left-right direction. As shown in FIG. 10, the flat portion 115 a has an opening 176 that opens in the housing 4 at a portion facing the display mark 175, and the opening 176 faces the upper surface of the circuit board 10. ing.
[0092]
As shown in FIGS. 4, 19, and 22, a plurality of light emitting diodes 178 serving as a light source of the icon 173 are arranged in a line on the upper surface of the rear portion of the circuit board 10. The light emitting diode 178 faces the display mark 175 of the icon 173. Between these light emitting diodes 178 and the display mark 175, a lens assembly 180 for guiding the light of the light emitting diode 178 to the display mark 175 is disposed. The lens assembly 180 includes a plurality of lenses 181 having a cylindrical shape. These lenses 181 are arranged vertically along the vertical direction, and the upper parts thereof are integrally connected via a connecting wall 182.
[0093]
As shown in FIGS. 19 and 22, the lens assembly 180 is located in the vicinity of the support wall 158 of the holder 155. The support wall 158 is integrally formed with a lens support portion 183 that supports the lens assembly 180. The lens support portion 183 includes a plurality of guide portions 184 having a hollow cylindrical shape, and a flat wall portion 185 straddling the upper end portions of the guide portions 184. The guide part 184 is arranged vertically along the vertical direction, and its lower end opening faces the light emitting diode 178 on the circuit board 10 and its upper end opening faces the opening 176 of the flat part 115a. Yes.
[0094]
Each lens 181 of the lens assembly 180 is inserted into the guide portion 184 from above the holder 155, and the upper connecting wall 182 of these lenses 181 is superimposed on the upper surface of the wall portion 185. Therefore, the lens 181 has a lower end surface facing the light emitting diode 178 and an upper end surface entering the opening 176 to face the display mark 175 on the icon substrate 174.
[0095]
Therefore, when the light emitting diode 178 emits light, the light is transmitted through the lens 181 in the axial direction and guided to the display mark 175 as indicated by an arrow in FIG. As a result, the display mark 178 corresponding to the light emitting diode 178 that is emitting light is lit.
[0096]
As shown in FIGS. 11 and 19, a synthetic resin switch operator 188 for turning the power switch 81 on and off is disposed on the upper surface of the rear portion of the circuit board 10. The switch operator 188 is interposed between the left side surface 5 e of the lower housing 7 and the power switch 81.
[0097]
As best shown in FIGS. 19 and 22, the switch operator 188 includes a bent portion 190 bent in a U-shape, and first and second lever portions 191a and 191b connected to both ends of the bent portion 190. And have. These lever portions 191 a and 191 b face each other and cross the left side of the power switch 81.
[0098]
The first lever portion 191 a is disposed along the side surface 5 e of the lower housing 7. The lever portion 191 a includes a pressing portion 192 at the end opposite to the bent portion 190. The pressing portion 192 is exposed to the outside of the housing 4 through an opening 86 opened in the side surface 5e. The pressing portion 192 includes a bar-shaped pressing protrusion 193. The pressing protrusion 193 passes through the notch 194 of the second lever portion 191 b and extends toward the power switch 81, and the tip thereof is in contact with the armature 85.
[0099]
The second lever portion 191 b is integrally provided with a locking portion 196 at the end opposite to the bent portion 190. The locking portion 196 extends toward the left end portion of the mounting seat portion 156, and a groove portion 197 cut upward is formed at the lower edge of the locking portion 196, as shown in FIG. Has been. In the case of the present embodiment, an engaging groove 198 cut downward is formed at the left end of the mounting seat 156 of the holder 155, and the groove 197 is inserted into the engaging groove 198. Yes. Therefore, the switch operator 188 is locked to the holder 155, and the engagement groove 198 constitutes a switch support portion.
[0100]
In addition, as shown in FIG. 19, the corner portion defined by the second lever portion 191 b and the locking portion 196 of the switch operator 188 is in contact with the rib-like wall portion 199 extending from the side surface 5 e of the lower housing 7. It is touched. Therefore, in the switch operator 188, the locking portion 196 connected to the second lever portion 191b is held by the side surface 5e of the lower housing 7 and the holder 155, and this locking portion 196 is the second lever portion 191b. It has become a fulcrum of.
[0101]
Therefore, when the pressing portion 192 is pressed with a fingertip, the first lever portion 191a is elastically deformed with the bent portion 190 as a fulcrum, and the second lever portion 191b is elastically deformed with the locking portion 196 as a fulcrum. By this deformation, the pressing protrusion 193 is pushed in to press the armature 85 of the power switch 81, and the power switch 81 is turned ON / OFF.
[0102]
On the other hand, the display unit 3 includes a housing 205 having a flat box shape of A4 size, and a color liquid crystal display 206 accommodated in the housing 205. The housing 205 is divided into a front panel 207 and a rear panel 208, and an opening 209 that exposes the color liquid crystal display 206 is formed in the front panel 207.
[0103]
The housing 205 includes first and second legs 210a and 210b. The first and second leg portions 210a and 210b are configured such that a front portion 211 connected to the front panel 207 and a rear portion 212 connected to the rear panel 209 face each other. Therefore, the first and second leg portions 210a and 210b are hollow, and the left first leg portion 210a is connected to the internal space of the housing 205 as shown in FIG. A passage 213 is formed.
[0104]
The first and second leg portions 210a and 210b are connected to the display support portions 100a and 100b of the housing 4 via hinge devices 215, respectively. This connection structure will be described on behalf of the first leg 210a.
[0105]
As shown in FIG. 13, the first leg portion 210a has left and right leg side surfaces 216a and 216b facing the side surfaces 102 and 103 of the display support portion 100a. A communication hole 217 is opened in the left leg side surface 216a. The communication hole 217 is continuous with the opening 110 a of the side surface 102. An insertion hole 218 continuous with the cable passage 213 is opened on the right leg side surface 216b. The insertion hole 218 is continuous with the opening 110 b of the side surface 103.
[0106]
The hinge device 215 includes a hinge shaft 220, a first bracket 221 fixed to one end of the hinge shaft 220, and a first bracket 221 coupled to the other end of the hinge shaft 220 so as to be rotatable about the axis. 2 brackets 222.
[0107]
The hinge shaft 220 is disposed through the opening 110a and the communication hole 217. One end of the hinge shaft 220 is introduced inside the first leg 210a, and the first bracket 221 at one end of the hinge shaft 220 is screwed to the inner surface of the rear portion 212 of the first leg 210a. ing. The other end of the hinge shaft 220 is introduced into the hinge accommodating portion 114 a of the convex portion 93, and the second bracket 222 at the other end of the hinge shaft 220 is screwed to the lower housing 7.
[0108]
Therefore, the hinge shaft 220 serves as a pivot point of the display unit 3, and the display unit 3 stands in a closed position that covers the palm rest 91 and the keyboard 117 from above, and the color liquid crystal display 206 stands behind the keyboard 117. It is supported by the housing 4 so as to be rotatable over the open position.
[0109]
The first and second leg portions 210a and 210b have leg front surfaces that are substantially flush with the front surface 95 of the hinge housing portions 114a and 114b when the display unit 3 is rotated to the open position. Yes. The front surface of the leg is shifted backward relative to the front surface 95 of the power supply housing portion 113 by the flat portions 115a and 115b. And the icon 173 is located just before the leg front surface of the 1st leg part 210a.
[0110]
As shown in FIGS. 13 and 14, a cable 226 connected to the color liquid crystal display 206 is led to the cable passage 213 of the first leg 210 a. The cable 226 is a bundle of many wires and has flexibility. The cable 226 is held between the first bracket 221 and the inner surface of the rear portion 212, and an insertion position in the cable passage 213 is determined. The cable 226 is guided to the power supply accommodating portion 113 of the convex portion 13 through the opening 110 b and the insertion hole 218, and the cable 226 is hidden from the outside of the computer 1.
[0111]
In this case, as shown in FIG. 13, a cable introduction passage 227 is formed between the right side surface 103 of the display support portion 100 a and the AC power supply unit 150 accommodated in the power supply accommodation portion 113. The cable introduction passage 227 is opened directly above the holder 155 toward the inside of the lower housing 7, and the cable 226 is introduced into the cable introduction passage 227.
[0112]
The cable 226 is bent downward in the cable introduction passage 227, and the bent tip of the cable 226 is bent forward on the circuit board 10. A cylindrical hard core 228 is coaxially attached to a portion of the cable 226 located on the circuit board 10.
[0113]
A first stacking connector 229 as shown in FIG. 14 is attached to the tip of the cable 226. The first stacking connector 229 is connected to the second stacking connector 230 on the upper surface of the circuit board 10. With this connection, the display unit 3 and the base unit 2 are electrically connected.
[0114]
As shown in FIG. 18, the core 228 of the cable 226 is located between the support wall 158 of the holder 155 and the lens support portion 183. A core support portion 232 is integrally formed between the support wall 158 and the lens support portion 183. As shown in FIG. 22, the core support portion 232 is configured by a concave portion opened upward, and the core support portion 232 extends in the front-rear direction on the circuit board 10. The core 228 of the cable 226 is fitted inside the core support portion 232. Therefore, the core 228 is held on the circuit board 10 via the holder 155 in the vicinity of the connection portion between the cable 226 and the circuit board 10.
[0115]
Therefore, the holder 155 has a function of holding not only the AC power supply unit 150 but also the power connector 164, the lens assembly 180, the switch operator 188, and the cable 226.
[0116]
Further, in the computer 1 of the first embodiment, the icon 173 is arranged on the upper surface of the housing main body 90. Therefore, when the display unit 3 is rotated to the closed position, the icon 173 is also covered by the display unit 3. Will be. For this reason, if the icon 173 is provided with a display function relating to the power supply, the display relating to the power supply cannot be seen when the display unit 3 is closed.
[0117]
Therefore, as shown in FIG. 1, the computer 1 includes an indicator 240 that displays a power supply at the center of the front surface 5 c of the lower housing 7. Indicator 240 has two light emission parts 241a and 241b. These light emitting units 241a and 241 are arranged side by side.
[0118]
One light-emitting unit 241a is for displaying whether or not the computer 1 is connected to a commercial AC power source, and emits light when the commercial AC power source is connected when the power switch 81 is OFF.
[0119]
The other light emitting unit 241b is for identifying the charging state of the battery pack 46. When the commercial AC power source is connected to the computer 1 with the power switch 81 turned off, the battery pack 46 is green during charging. The battery emits light in orange, and when it is fully charged, it emits orange light. Since charging to the battery pack 46 is performed when the power switch 81 is OFF, when the power switch 81 is turned ON, charging to the battery pack 46 is stopped and the light emitting unit 241b is turned off. .
[0120]
Such light emitting portions 241a and 241b have lenses 243 exposed to the front surface 5c of the lower housing 7, as shown in FIG. The lens 243 is made of a transparent synthetic resin material and is positioned in front of the front edge portion of the circuit board 10.
[0121]
A pair of light emitting diodes 244 serving as a light source of the indicator 240 is disposed on the lower surface of the front end of the circuit board 10. The light emitting diode 244 faces not the front surface 5c but the bottom surface 5a of the lower housing 7, and the light emitting diode 244 irradiates light toward the bottom surface 5a.
[0122]
Therefore, as shown in FIG. 23, the lens 243 is integrally provided with a light guide portion 245 extending from the front surface 5c of the lower housing 7 toward the bottom surface 5a. The light guide unit 245 has a front surface 245a and a rear surface 245b facing each other. The front surface 245a and the rear surface 245b form flat inclined surfaces that are inclined backward as they proceed downward.
[0123]
A light receiving portion 246 that receives light from the light emitting diode 244 is integrally formed at the lower end of each light guide portion 245. The light receiving portion 246 enters between the bottom surface 5 a of the lower housing 7 and the light emitting diode 244. The light receiving unit 246 has an upper surface 246a and a lower surface 246b that face each other. The upper surface 246 a is substantially parallel to the lower surface of the circuit board 10 and faces the light emitting diode 244. Further, the lower surface 246b is inclined in a direction away from the bottom surface 5c as it proceeds to the rear of the light receiving unit 246.
[0124]
Therefore, as shown in FIG. 24B, the light emitted downward from the light emitting diode 244 is incident on the upper surface 246a of the light receiving portion 246, and then refracted forward and obliquely upward by the inclined lower surface 246b. And is guided to the light guide unit 245. Since the front surface 245a and the rear surface 245b of the light guide unit 245 are inclined backward as they proceed downward, the light from the light receiving unit 246 is reflected so as to be refracted upward as the front surfaces 245a and 245b are inclined. The light is guided to the lens 243 while being repeatedly irradiated to the front of the lower housing 7.
[0125]
Note that the light receiving portions 246 of the lens 243 are connected to each other via a connecting portion 248. On the lower surface of the connecting portion 248, a tongue piece 249 is formed integrally with the bottom surface 5a, and the tongue piece 249 is stopped by a convex portion 250 projecting from the bottom surface 5a.
[0126]
According to such an indicator 240, although the light emitting diode 244 is attached to the lower surface of the circuit board 10, the light emitted downward from the light emitting diode 244 is transmitted via the light receiving unit 246 and the light guiding unit 245. Thus, it can be guided to the front surface 5 c of the lower housing 7. Therefore, it is not necessary to arrange the light emitting sections 241a and 241b of the indicator 240 and the light emitting diode 244 to face each other, and the degree of freedom of the installation positions of the indicator 240 and the light emitting diode 244 increases.
[0127]
The present invention is not limited to the first embodiment described above, and FIGS. 25 to 44 show a second embodiment of the present invention.
The computer 1 shown in the second embodiment is different from the first embodiment mainly in the configuration around the battery pack 46 and the attachment of the speaker 142. The configuration is the same as that of the first embodiment. Therefore, in this 2nd Embodiment, the same referential mark is attached | subjected to the component same as the computer 1 of 1st Embodiment, and the description is abbreviate | omitted.
[0128]
As shown in FIG. 25, the computer 1 of the second embodiment is equipped with a floppy disk drive device 300 instead of the CD-ROM device 16. The floppy disk drive 300 has a floppy disk loading port 301, and this loading port 301 is opened on the right side surface 5 f of the lower housing 7.
[0129]
As shown in FIG. 28, the battery pack 46 used in the computer 1 includes a synthetic resin battery case 303. The battery case 303 has a rectangular box shape having a long axis X1 extending in the width direction of the computer 1 and a short axis X2 extending in the depth direction of the computer 1.
[0130]
The battery case 303 includes a case body 303a that is opened upward, and a cover plate 303b that closes an open end of the case body 303a. In the battery case 303, for example, ten nickel hydrogen secondary batteries 304 are accommodated, and a thermistor 305, a breaker 306, and a thermal fuse 307 are utilized by utilizing a gap between the adjacent secondary batteries 304. Is arranged.
[0131]
A terminal holder 309 is disposed at one end portion of the battery case 303 along the direction of the long axis Xl. The terminal holder 309 supports the first to fifth terminal plates 310a to 310e. As shown in FIG. 27, the terminal plates 310a to 310e are arranged in a line in the direction of the short axis X2 of the battery case 303 in a state where the terminal plates 310a to 310e are substantially flush with the one end surface 303c of the battery case 303. Yes. The first and fifth terminal plates 310 a and 310 e are connected to the secondary battery 304 and serve as positive and negative output terminals of the battery pack 46. The second and fourth terminal plates 310b and 310d are connected to the thermistor 305. The third terminal plate 310c is used as a spare terminal or a terminal for determining the type of the secondary battery 304.
[0132]
As shown in FIG. 27, a plurality of rib-shaped partition walls 311 are formed on one end surface 303 c of the battery case 303. These partition walls 311 extend in the thickness direction of the battery case 303 and are arranged at intervals in the direction of the short axis X2 of the battery case 303. A part of the partition wall 311 is interposed between the first to fifth terminal plates 310a to 310e, and the leading ends of these partition walls 311 protrude from the first to fifth terminal plates 310a to 310e. ing.
[0133]
Therefore, even when a conductive foreign material such as a clip contacts the one end surface 303c of the battery case 303, the foreign material does not need to contact the first to fifth terminal plates 310a to 310e. It is possible to prevent a short circuit between ˜310e.
[0134]
Also, as shown in FIGS. 26 and 28, a pair of first fitting recesses 312 and a pair of second fitting recesses 313 are formed in the cover plate 303b which is the upper surface of the battery case 303. Yes. The first fitting recess 312 and the second fitting recess 313 are arranged in the direction of the minor axis X2 of the battery case 303, respectively. The first fitting recess 312 and the second fitting recess 313 are The battery case 303 is arranged away from each other in the direction of the long axis Xl.
[0135]
As shown in FIG. 28, a pair of third fitting recesses 314 and a pair of fourth fitting recesses 315 (only one of which is shown) are formed in the case main body 303a which is the bottom surface of the battery case 303. ing. The third fitting recess 314 and the fourth fitting recess 315 are arranged in the direction of the minor axis X2 of the battery case 303, and the third fitting recess 314 and the fourth fitting recess 315 are the same. The battery case 303 is arranged away from each other in the direction of the long axis Xl.
[0136]
And as shown to (A) of FIG. 28, the 1st fitting recessed part 312 and the 2nd fitting recessed part 313, the 3rd fitting recessed part 314, and the 4th fitting recessed part 315 are battery cases. On the upper surface and the bottom surface of 303, the battery case 303 is displaced in the direction of the long axis X1. In addition, as shown in FIG. 28B, the arrangement interval of the first and second fitting recesses 312 and 313 and the arrangement interval of the third and fourth fitting recesses 314 and 315 are different from each other. ing. Therefore, in the present embodiment, the arrangement interval between the third and fourth fitting recesses 314 and 315 is set larger than the arrangement interval between the first and second fitting recesses 312 and 313. .
[0137]
The positions of the first to fourth fitting recesses 312 to 315 are appropriately determined according to the type and performance of the battery pack 46. For this reason, the fitting recesses 312 to 315 have a certain regularity according to the type and performance of the battery pack 46, and the battery pack 46 can be seen by looking at the positions of these fitting recesses 312 to 315. It can be easily determined whether or not the computer 1 can be used.
[0138]
Further, the battery case 303 has a bent portion 316 that is bent in an arc shape at the end opposite to the terminal plates 310a to 310e. The bent portion 316 is located at a corner defined by the other end surface 303d and the bottom surface of the battery case 303. Due to the presence of the bent portion 316, the lower end corner portion of the other end surface 303d of the battery case 303 is rounded. A chamfer with a surface is given.
[0139]
As shown in FIGS. 31 and 32, the battery connector 44 to which the battery pack 46 is connected has first to fifth connection terminals 44a to 44e. These first to fifth connection terminals 44 a to 44 e correspond to the first to fifth terminal plates 310 a to 310 e of the battery pack 46, and are always elastically biased in a direction protruding from the battery connector 44. ing.
[0140]
As shown in FIGS. 30 and 31, a plurality of battery support walls 320 are formed on the right side surface 5 f of the lower housing 7. The battery support wall 320 protrudes toward the inside of the battery housing portion 40 on the side opposite to the battery connector 44, and is arranged in a line in the direction of the short axis X <b> 2 of the battery case 303. An upper end corner portion 320a of the battery support wall 320 facing the battery housing portion 40 is bent in an arc shape.
[0141]
As shown in FIG. 32, the battery holder 42 has a guide surface 322 that continues to the battery connector 44 and a pair of insertion guide portions 323 a and 323 b that protrude toward the battery housing portion 40 above the guide surface 322. are doing. The insertion guide portions 323a and 323b are spaced apart from each other in the direction of the short axis X2 of the battery case 303.
[0142]
A plurality of engagement protrusions 324 having a comb shape are integrally formed on the upper end portion of the guide surface 322. The engagement protrusions 324 are arranged with a space in the direction of the short axis X <b> 2 of the battery case 303. Some of the engaging protrusions 324 are positioned directly above the first to fifth connection terminals 44 a to 44 e of the battery connector 44, and when the battery pack 46 is inserted into the battery housing portion 40, the battery pack 46 Between the partition walls 311.
[0143]
In addition, a pair of convex portions 326 are formed on the shield plate 41 that is the bottom surface of the battery housing portion 40. The convex portion 326 corresponds to the third fitting concave portion 314 of the battery pack 46, and enters the third fitting concave portion 314 when the battery pack 46 is attached to the battery accommodating portion 40.
[0144]
To attach the battery pack 46 to the battery housing portion 40, first, the one end surface 303 c of the battery case 303 having the first to fifth terminal plates 310 a to 310 e is directed toward the battery connector 44, and the battery case 303 The battery pack 46 is held in a posture in which the bent portion 316 is directed downward. Then, the battery pack 46 is inserted into the battery housing portion 40 from above the base unit 2 in an oblique posture with the first to fifth terminal plates 310a to 310e at the head, and as shown in FIG. One end portion of 46 is interposed between the shield plate 41 and the insertion guide portions 323a and 323b.
[0145]
As the battery pack 46 is inserted, the partition wall 311 of the battery case 303 enters between the engaging protrusions 324 of the battery holder 42, and the first to fifth terminal plates 310 a to 310 e are connected to the first to fifth terminals of the battery connector 44. The fifth connection terminals 44a to 44e are in contact with each other.
[0146]
Next, the battery pack 46 is rotated downward with the contact portion between the terminal plates 310 a to 310 e and the connection terminals 44 a to 44 e as fulcrums, and the battery pack 46 is dropped into the battery housing portion 40. At this time, since the bottom corner of the battery case 303 opposite to the terminal plates 310a to 310e is chamfered with roundness, the battery case 303 is rotated when the battery pack 46 is rotated downward. And the battery support wall 320 are avoided.
[0147]
That is, as shown in FIG. 30, when the battery pack 46 is inserted upside down into the battery housing portion 40, the lower end corner of the battery pack 46 opposite to the terminal plates 310a to 310e Since the lower end corner is hooked on the upper end corner 320a of the battery support wall 320, the battery pack 46 can no longer be dropped into the battery housing 40.
[0148]
Therefore, the operator can recognize that the battery pack 46 is upside down, and can prevent the battery pack 46 from being erroneously attached.
[0149]
As shown in FIG. 28, when the battery pack 46 is dropped into the battery housing portion 40, the convex portion 326 at the bottom of the battery housing portion 40 enters the third fitting concave portion 314 of the battery pack 46, and this battery pack 46. Is suitable for the computer 1.
[0150]
At this time, another battery pack having a different position of the third fitting recess 314 is inserted into the battery housing part 40, or the battery pack 46 is turned upside down and inserted into the battery housing part 40 as shown in FIG. Then, the convex portion 326 of the battery housing portion 40 abuts against the lower surface of the battery pack 46. Then, the battery pack 46 remains inclined in the battery housing portion 40, and the battery pack 46 cannot be reliably attached to the battery housing portion 40. Therefore, the presence of the convex portion 326 can also prevent the battery pack 46 from being erroneously selected or erroneously attached.
[0151]
When the battery pack 46 is correctly attached to the battery accommodating portion 40, the battery pack 46 is pressed toward the battery support wall 320 by the first to fifth connection terminals 44a to 44e of the battery connector 44, and these It is sandwiched between the connection terminals 44a to 44e and the battery support wall 320. As a result, the battery pack 46 is held in the battery housing portion 40 while being electrically connected to the battery connector 44.
[0152]
When the attachment of the battery pack 46 to the battery accommodating portion 40 is completed, as shown in FIGS. 26 and 28, the first to fifth connection terminals 44a to 44e and the first to fifth terminal plates 310a to 310e. The partition wall 311 of the battery case 303 and the engagement protrusion 324 of the battery holder 42 are brought close to each other in a positional relationship so as to mesh with each other.
[0153]
Therefore, it is possible to prevent a conductive foreign substance such as a clip from entering the contact portion between the first to fifth connection terminals 44a to 44e and the first to fifth terminal plates 310a to 310e from above. It is possible to prevent a short circuit accident due to the entry of the foreign matter.
[0154]
Further, as shown in FIG. 32, the shield plate 41 has an edge portion 41 a adjacent to the battery connector 44. The edge portion 41 a is formed with a relief portion 327 cut out in a direction away from the battery connector 44. The escape portion 327 is positioned below the contact portion between the first to fifth connection terminals 44a to 44e and the first to fifth terminal plates 310a to 310e.
[0155]
Therefore, even when a conductive foreign object such as a clip is caught between the insertion tip of the battery pack 46 and the shield plate 41 when the battery pack 46 is inserted into the battery housing portion 40, This foreign matter enters the escape portion 327. Therefore, it is possible to solve the problem that the first to fifth terminal plates 310a to 310b and the shield plate 41 are short-circuited through the foreign matter.
[0156]
As shown in FIG. 31, a ribbon 331 used for removing the battery pack 46 from the storage unit 40 is disposed in the battery storage unit 40. The ribbon 331 is formed of a synthetic resin sheet material and has a strip shape with a width of about 20 mm. And this ribbon 331 has the intensity | strength which can maintain a linear shape.
[0157]
The ribbon 331 is supported by the shield plate 41. The support structure of the ribbon 331 will be described with reference to FIGS.
[0158]
The shield plate 41 includes a support portion 332 for fixing the ribbon 331. The support portion 332 has a pair of insertion holes 332a and 332b through which the ribbon 331 passes. The insertion holes 332 a and 332 b have a slit shape extending in the direction of the short axis X <b> 2 of the battery case 303 and are spaced apart from each other in the direction of the long axis Xl of the battery case 303. The support portion 332 is disposed at a position that is largely biased toward the battery support wall 320 than the battery connector 44.
[0159]
A locking piece 334 is formed continuously at one end of the ribbon 331. The locking piece 334 is bent at a substantially right angle from one end of the ribbon 331 and has a rectangular shape wider than the ribbon 331. The locking piece 334 is stacked on the upper surface of the shield plate 41, and a slit-like communication hole 335 through which the ribbon 331 can be pushed is opened in the locking piece 334. The ribbon 331 having such a shape is fixed to the support portion 332 of the shield plate 41 by being continuously hidden in the insertion holes 332 a and 332 b and the communication hole 335.
[0160]
That is, in order to attach the ribbon 331 to the support portion 332, first, as shown in FIG. 34, the end 331a opposite to the locking piece 334 of the ribbon 331 is inserted into one insertion hole 332a from above the shield plate 41. Go through. Next, as shown in FIG. 35, the end 331a of the ribbon 331 is inverted upward below the shield plate 41, and is inserted into the other insertion hole 332b from below the shield plate 41.
[0161]
In this state, the end portion 331 a of the ribbon 331 is inserted from below into the communication hole 335 of the locking piece 334, and the end portion 331 a is pulled upward of the shield plate 41. As a result, as shown in FIG. 36, the locking piece 334 overlaps the upper surface of the shield plate 41, and the ribbon 331 extends over the insertion holes 332a and 332b in a loop, so that the ribbon 331 is shielded. The support portion 332 is fixed to prevent it from coming off.
[0162]
In the state where the ribbon 331 is fixed to the shield plate 41 in this way, as shown in FIG. 31, the ribbon 331 protrudes upward from the end of the battery housing portion 40 on the battery support wall 320 side due to its own strength. The state is maintained. When the battery pack 46 is attached to the battery housing portion 40, the ribbon 331 is sandwiched between the battery pack 46 and the bottom surface of the battery housing portion 40, and the remaining portion of the ribbon 331 is sandwiched between the portions of the ribbon 331. The portion passes between the other end surface 303 d of the battery pack 46 and the battery support wall 320 and is led out above the battery pack 46.
[0163]
Therefore, as shown in FIG. 33, if the end 331a of the ribbon 331 led out above the battery pack 46 is grasped by the fingertip F and pulled upward, the end of the battery pack 46 is accommodated in the battery via the ribbon 331. The battery pack 46 can be taken out from the battery housing portion 40 by being pulled up from the portion 40.
[0164]
In the case of the present embodiment, the upper surface of the shield plate 41 serving as the bottom surface of the battery housing 40 is covered with, for example, a black insulating sheet 338 as shown in FIGS. 31 and 32. The insulating sheet 338 has a plurality of openings 339 through which the convex portions 326 and the ribbon 331 pass. For this reason, even when the battery pack 46 is detached from the battery housing portion 40, the bottom of the battery housing portion 40 including the shield plate 41 is covered with the insulating sheet 338, and the appearance of the battery housing portion 40 is maintained well. It has become so.
[0165]
By the way, as shown in FIGS. 25 and 37, the switches 141a and 141b pressed by the operation buttons 128a and 128b on the hand stand 126 are supported by a flat flexible printed wiring board 343. The printed wiring board 343 is held on the back surface of the handstand 126 via a metal protective cover 344. The protective cover 344 is fixed to the back surface of the hand table 126 via screws 345.
[0166]
As shown in FIGS. 37 and 38, the protective cover 344 has a cable outlet 346 and a locking piece 344a at an end adjacent to the keyboard 117. The locking piece 344a is detachably hooked to the hook 42a on the upper surface of the battery holder 42 when the palm rest 91 including the hand rest 126 is rotated to the closed position.
[0167]
The printed wiring board 343 has a flat and flexible cable portion 347 integrally. The cable portion 347 has a belt shape with a width of about 5 mm, and a wiring pattern (not shown) connected to the switches 141a and 141b is formed on one surface of the cable portion 347. A terminal portion 347a is formed at the tip of the cable portion 347, and the wiring pattern is guided to the terminal portion 347a.
[0168]
As shown in FIGS. 37 and 38, the cable portion 347 is guided between the hard disk drive 15 and the battery housing portion 40 through the cable insertion port 346 of the protective cover 344. The cable portion 347 is bent in an arc shape toward the keyboard 117 at a position corresponding to the battery holder 42, and then passes through the cable passage 350 between the keyboard retainer 125 and the partition wall 94e. It is drawn down. The terminal portion 347 a of the cable portion 347 is connected to the connector 351 on the circuit board 10 just below the front end of the keyboard 117.
[0169]
Since the palm rest 91 on which the printed wiring board 343 is supported is rotated up and down between the closed position and the open position, the cable portion 347 of the printed wiring board 343 is provided between the keyboard 117 and the circuit board 10. In FIG. 1, after being led backward from the connector 351, it is folded back in a substantially U shape toward the front. By this folding, the full length of the cable portion 347 is sufficiently secured, and the cable portion 347 does not hinder the rotation of the palm rest 91.
[0170]
A protective member 355 is attached to the protective cover 344. The protection member 355 is for protecting the cable portion 347 led out from the protection cover 344, and is made of a synthetic resin sheet material capable of elastic deformation. The protective member 355 includes a support piece 356 attached to the protective cover 344 and a cable guide 357 extending from the support piece 356. As shown in FIG. 25, the cable guide 357 is substantially the same as the cable portion 347. It has a strip shape with the same width.
[0171]
As shown in FIG. 37, the cable guide 357 has a bent portion 357a bent obliquely downward toward the cable passage 350 when the palm rest 91 is rotated to the closed position. The tip of the bent portion 357 a extends through the cable passage 350 to the lower side of the keyboard 117. And this cable guide 357 has the intensity | strength which can maintain the said shape while having elasticity.
[0172]
The cable guide 357 is slidably superimposed on the lower surface of the cable portion 347 led out from the protective cover 344. For this reason, the flexible cable portion 347 is forcibly pushed down from the cable passage 350 toward the lower side of the keyboard 117 along the upper surface of the cable guide 357. The bending shape and insertion path of the cable portion 347 Is stipulated.
[0173]
Then, as shown in FIG. 38, when the palm rest 91 is rotated from the closed position to the open position, the cable guide 357 is bent in a circular arc shape obliquely upward and forward at the portion of the cable passage 350 against its elasticity. It has become. For this reason, the cable portion 347 superimposed on the cable guide 357 is bent obliquely upward and forward while being pressed toward the lower side of the keyboard 117 using the cable guide 357 as a guide surface, and the cable portion 347 is bent and inserted. A route is defined by the cable guide 357.
[0174]
The presence of the cable guide 357 determines the bent shape and insertion path of the cable portion 347 from the palm rest 91 toward the inside of the housing 4, so that even when the palm rest 91 is opened or closed for replacement of the battery pack 46, for example. The cable portion 347 is inserted / removed below the keyboard 117 through the cable passage 350 while maintaining a smooth shape.
[0175]
Therefore, as the palm rest 91 is opened and closed, the flexible cable portion 347 is not folded into a messy shape or bent into an unreasonable shape at a portion passing through the cable passage 350, and the wiring pattern of the cable portion 347 Disconnection and damage can be prevented in advance.
[0176]
In the above configuration, the tip of the cable guide 357 is a free end that is simply inserted below the keyboard 117. For example, the tip of the cable guide 357 may be fixed to the lower housing 7 via a screw. . In this case, it is needless to say that the cable guide 357 needs to be formed to a length that does not hinder the opening / closing operation of the palm rest 91.
[0177]
On the other hand, as shown in FIG. 39, the speaker 142 that outputs sound is disposed below the rear end portion of the keyboard 117. As shown in FIG. 40, the speaker 142 includes a ring-shaped frame 361 that supports a diaphragm (not shown), and a cover 362 that is fixed to the frame 361 and covers the upper surface of the diaphragm. As a flat disk shape. And this speaker 142 is supported by the housing main body 90 of the upper housing 8, and the support structure of this speaker 142 is demonstrated below.
[0178]
As shown in FIGS. 40 to 43, a speaker mounting portion 365 is formed on the bottom wall 94d of the keyboard mounting portion 92. The speaker mounting portion 365 has a support wall 366 that is inclined downward as it goes to the rear end of the bottom wall 94d. A circular speaker mounting hole 367 is opened in the support wall 366, and the speaker mounting hole 367 faces the lower surface of the keyboard panel 118. A rear wall 368 extending upward is formed on one side of the rear end of the support wall 366.
[0179]
As shown in FIG. 44, the lower surface of the support wall 366 forms a flat speaker support surface 366a. A guide wall 370 is formed in the front half of the speaker support surface 366a. The guide wall 370 has an arc shape along the opening periphery of the speaker mounting hole 367.
[0180]
Further, a locking claw 371 that protrudes downward and a boss portion 372 that also protrudes downward are formed on the bottom bottom 94d of the keyboard mounting portion 92. The locking claws 371 and the boss portions 372 are located on both the left and right sides of the speaker mounting hole 367.
[0181]
The speaker 142 is held by the speaker holder 373. The speaker holder 373 is configured by a flexible rubber-like elastic body. The speaker holder 373 has a ring-shaped holder main body 374 to which the frame 361 of the speaker 142 is fitted. The holder main body 374 has a bottom wall 375 that receives the bottom of the speaker 142, and an upright wall 376 that extends upward from the outer periphery of the holder main body 374.
[0182]
As shown in FIG. 44, the speaker 142 is attached to the speaker attachment portion 365 from below the keyboard attachment portion 92 together with the speaker holder 373. In this mounted state, as shown in FIG. 40, the upper surface of the holder main body 374 is in contact with the speaker support surface 366a, and the upright wall 376 is continuous with the rear wall 368 of the speaker mounting portion 365. For this reason, the speaker mounting hole 367 is closed without a gap by the speaker holder 373.
[0183]
The speaker 142 and the speaker holder 373 are held by the speaker mounting portion 365 via a sheet metal bracket 380. The bracket 380 has a flat plate-like support portion 381 that overlaps the bottom wall 375 of the speaker holder 373, and a pair of locking pieces 382a and 382b formed at both ends of the support portion 381. The bracket 380 is fixed to the speaker mounting portion 365 by hooking one locking piece 382a on the locking claw 371 and connecting the other locking piece 382b to the lower surface of the boss portion 372 via a screw 383. .
[0184]
Thus, the speaker 142 is held together with the speaker holder 373 by the speaker mounting portion 365, and the holder main body 374 of the speaker holder 373 is interposed between the speaker 142 and the support surface 366a. Therefore, the speaker 142 is disposed below the keyboard 117 so as to be inclined rearward along the speaker support surface 366a.
[0185]
The lead wire 384 of the speaker 142 is connected to a speaker connector (not shown) on the circuit board 10 after being led out through the holder main body 374.
[0186]
As shown in FIGS. 40 and 42, a sound emitting hole 386 is formed in the rear wall 94c of the keyboard mounting portion 92. The hole 386 has a rectangular shape extending in the left-right direction of the keyboard mounting portion 92 and continues to the speaker mounting portion 365. The housing main body 90 has a reflection wall 387 extending downward behind the rear wall 94c of the keyboard mounting portion 92. The reflection wall 387 faces the sound emitting hole 386, and the lower end of the reflection wall 387 is substantially flush with the standing wall 376 of the speaker holder 373.
[0187]
Further, a decorative cover 388 interposed in the sound emitting hole 386 is attached to the keyboard mounting portion 92. The decorative cover 388 has a mesh shape having a large number of through holes 389. The decorative cover 388 constitutes a sound emitting portion 390 for emitting sound from the speaker 142 at a substantially central portion of the rear wall 94c of the keyboard mounting portion 92 in cooperation with the sound emitting hole 386. . The sound emitting unit 390 is positioned immediately after the key 119 in the last row of the keyboard 117, and faces the operator when the display unit 3 is rotated to the open position.
[0188]
According to the speaker mounting portion 365 having such a configuration, the speaker 142 is arranged in a posture inclined downward and below the rear end portion of the keyboard 117. Therefore, the sound from the speaker 142 is shown in FIG. As shown by the arrows in FIG. 4, after being emitted obliquely upward and backward, it is reflected obliquely upward and forward by the reflection wall 387. Then, this voice is guided to the operator side through the sound emitting unit 390.
[0189]
Therefore, although the speaker 142 is disposed below the keyboard 117, the sound from the speaker 142 is not blocked by the keyboard 117, and this sound can be actively guided to the operator side.
[0190]
In addition, the circuit board 10 is only located below the central portion of the keyboard 117, and it is easy to obtain a larger space than the lower portion of the palm rest 91 covering the battery pack 46. A good thick speaker 142 can be accommodated without difficulty.
[0191]
Moreover, according to the above configuration, since the rubber speaker holder 373 is interposed between the speaker 142 and the speaker support surface 366a of the speaker mounting portion 365, the vibration of the speaker 142 is hardly transmitted to the housing body 90. The resonance of the housing main body 90 can be prevented.
[0192]
In addition, the presence of the speaker holder 373 does not cause a gap between the speaker 142 and the speaker mounting hole 367, and the sound emitted toward the upper side of the speaker 142 and the lower side of the speaker 142 are emitted. It is possible to prevent the voice from interfering with each other. Accordingly, there is an advantage that the sound quality can be improved and the sound volume can be increased in addition to the resonance of the housing main body 90 being prevented.
[0193]
【The invention's effect】
  According to the present invention detailed above,The attitude of the battery pack relative to the battery compartmentThe reverse orientation can be easily recognized, and erroneous mounting of the battery pack to the battery housing portion can be prevented beforehand.
[Brief description of the drawings]
FIG. 1 is a perspective view of a portable computer according to a first embodiment of the present invention.
FIG. 2 is a perspective view of a computer showing a state in which a palm rest is opened and a battery pack is exposed.
FIG. 3 is a perspective view of a computer with a display unit closed.
FIG. 4 is a perspective view showing a state in which a hard disk drive device, a CD-ROM drive device, and an AC power supply unit are incorporated in the lower housing.
FIG. 5 is a perspective view showing a positional relationship between an AC power supply unit and a lower housing.
FIG. 6 is a cross-sectional view of a mounting portion of a CD-ROM drive device.
FIG. 7 is a perspective view of the CD-ROM drive device viewed from the bottom side.
FIG. 8 is a perspective view of the computer showing a state in which the palm rest is opened and the battery pack is taken out from the battery accommodating portion.
FIG. 9 is a perspective view of a computer with a card cover opened.
FIG. 10 is a cross-sectional view of the latter half of the base unit.
FIG. 11 is a cross-sectional view of a base unit showing a mounting portion of a power switch and a second parallel port.
FIG. 12 is a cross-sectional view of the latter half of the base unit.
FIG. 13 is a cross-sectional view of a connecting portion between the display unit and the base unit.
FIG. 14 is a perspective view of a computer in which a connecting portion between a display unit and a base unit is enlarged.
FIG. 15 is an exploded perspective view showing a connecting portion between a palm rest and a keyboard mounting portion.
FIG. 16A is a plan view partially showing a state where the palm rest is pushed toward the keyboard mounting portion.
(B) is a top view which shows the state which pulled out the palm rest from the keyboard mounting part in a partial cross section.
FIG. 17A is a cross-sectional view showing the positional relationship between the shaft portion and the recess when the palm rest is pushed toward the keyboard mounting portion.
(B) is sectional drawing which shows the positional relationship of the axial part and a recessed part, when a palm rest is pulled out from a keyboard mounting part.
(C) is sectional drawing which shows the positional relationship of the axial part and a recessed part, when turning a palm rest upward.
FIG. 18 is a perspective view showing the AC power supply unit and the holder around the attachment portion.
FIG. 19 is a perspective view of the AC power supply unit and the holder around the attachment portion.
FIG. 20 is an exploded perspective view showing the relationship between the AC power supply unit and the locking portion of the holder.
FIG. 21 is an exploded perspective view showing the relationship between the power supply unit and the connector panel.
FIG. 22 is an exploded perspective view showing a holder, a lens assembly, and a switch operator.
FIG. 23 is a perspective view of an indicator.
FIG. 24A is a cross-sectional view of the base unit showing an attachment portion of the indicator.
(B) is sectional drawing which shows the path | route of the light from a light emitting diode to a lens.
FIG. 25 is a perspective view showing a state in which the palm rest is rotated to the open position in the computer according to the second embodiment of the present invention.
FIG. 26 is a plan view showing a state in which the battery pack is mounted in the battery accommodating portion.
FIG. 27 is a perspective view of the battery pack as viewed from the terminal plate side.
FIG. 28A is a cross-sectional view showing a state in which the battery pack is mounted in the battery housing portion.
(B) is sectional drawing of a battery case.
FIG. 29 is a cross-sectional view showing a state in which the battery pack is inserted into the battery accommodating portion.
FIG. 30 is a cross-sectional view showing a state where the battery pack is inserted into the battery housing part of the housing in the wrong direction.
FIG. 31 is a perspective view of a battery housing portion.
FIG. 32 is a perspective view around the battery accommodating portion and the battery connector.
FIG. 33 is a perspective view showing a state where the battery pack is pulled up via a ribbon.
FIG. 34 is a perspective view showing a state where the ribbon is inserted into the insertion hole of the shield plate.
FIG. 35 is a perspective view showing a state in which the ribbon is pulled through the insertion hole of the shield plate.
FIG. 36 is a perspective view showing a state in which the ribbon is fixed to the shield plate.
FIG. 37 is a cross-sectional view of a computer showing a state in which a palm rest is rotated to a closed position.
FIG. 38A is a cross-sectional view of a computer showing a state in which a palm rest is rotated to an open position.
FIG. 39B is an enlarged cross-sectional view illustrating a portion A of FIG.
FIG. 39 is a perspective view of the computer showing a state in which the keyboard is removed from the keyboard mounting portion.
FIG. 40 is a cross-sectional view of a computer showing a speaker mounting portion.
FIG. 41 is a cross-sectional view showing a speaker mounting portion.
FIG. 42 is a perspective view of a speaker mounting portion.
FIG. 43 is a perspective view of the speaker mounting portion viewed from the inside of the housing body.
44 is an exploded perspective view showing a speaker mounting portion. FIG.
[Explanation of symbols]
  DESCRIPTION OF SYMBOLS 4 ... Case, 40 ... Battery accommodating part, 44 ... Battery connector, 44a-44e ... Connection terminal, 46 ... Battery pack, 303d ... Other end surface, 310a-310e ... Terminal board, 316 ... Curved part, 320 ... Support wall, 320a ... a tip corner.

Claims (10)

A housing having a battery housing;
In an electronic device comprising a box-shaped battery pack that is removably housed in the battery housing portion of the housing and has a plurality of terminal plates at one end,
The battery accommodating portion has a battery connector in contact with the terminal plate of the battery pack at one end, and a support wall at the other end facing the battery connector,
The battery pack is inserted into the battery housing portion from the outside of the housing in an oblique posture with the terminal plate at the top, and is rotated around a contact portion between the terminal plate and the battery connector. Is housed in the battery housing section,
The other end portion opposite to the above terminal plate of the battery pack, the battery pack in the correct orientation when inserted into the battery receptacle, a corner portion defined by the bottom surface and other end surface opposite its battery receptacle The electronic device further includes a bent portion that is bent in an arc shape so as to avoid interference with the tip corner portion of the support wall.   The battery connector according to claim 1, wherein the battery connector has a plurality of connection terminals that contact the terminal plate of the battery pack, and the connection terminals protrude elastically and retractably toward the support wall, An electronic apparatus, wherein the battery pack is sandwiched between the support wall. In apparatus according to claim 1 or claim 2, the battery pack has a rectangular box-shaped battery case having a major axis and a minor axis, and the terminal plate and the other end face of the battery pack, the battery case An electronic device, wherein the electronic devices are spaced apart from each other in the major axis direction. 4. The battery pack according to claim 3, wherein the terminal plates of the battery pack are arranged in a line along the minor axis direction of the battery case, and the battery case includes a plurality of partitions interposed between adjacent terminal plates. has a wall, tips of the partition walls, electronic apparatus, characterized in that protrudes to the outside of the battery case than the terminal plate. 5. The battery connector according to claim 4, wherein the battery connector has a plurality of engaging protrusions that enter between the partition walls of the battery case when the battery pack is accommodated in the battery accommodating portion. Electronics. 2. The battery pack according to claim 1, wherein the battery pack has a box-shaped battery case for accommodating a secondary battery, and the battery case is accommodated when the battery pack is accommodated in the battery accommodating portion in a correct orientation. A bottom surface facing the bottom of the portion and a top surface located on the opposite side of the bottom surface, and forming recesses on the bottom surface and the top surface, respectively, and these recesses are shifted from each other without facing the battery case. In addition, the battery housing portion has a convex portion that enters the concave portion of the bottom surface of the battery case at the bottom thereof. 7. The battery case according to claim 6, wherein the battery case has a rectangular box shape having a major axis and a minor axis, and the concave portion on the bottom surface and the concave portion on the top surface are displaced from each other in the major axis direction of the battery case. An electronic device characterized by being formed at a different position . 8. The electronic apparatus according to claim 6, wherein the position of the recess is determined according to the type and performance of the battery pack . 9. The electronic device according to claim 6, wherein the battery housing portion has a metal shield plate at a bottom thereof, and the convex portion is formed on the shield plate. machine. 10. The electronic apparatus according to claim 9, wherein the shield plate is covered with an insulating sheet, and the insulating sheet has an opening through which the convex portion passes at a position corresponding to the convex portion. .

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