JP3670644B2 - Portable electronic devices - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a portable electronic device such as a book-type portable computer or a word processor.
[0002]
[Prior art]
A book-type portable computer is easy to carry and has the advantage that it can be used freely by using a built-in battery pack as a power source even when it is away from home where a commercial power source cannot be obtained.
[0003]
By the way, since this type of computer is designed to be compact in order to improve portability, it cannot support a large number of functions as standard, and entrusts the user to select functions in the form of options.
[0004]
More specifically, a conventional computer includes a connector for expanding the functions of the computer on the bottom surface of a housing that supports a keyboard and a display unit. And when the function which the computer is not equipped with is required, the usage form which connects an external expansion apparatus to the said connector conventionally is taken.
[0005]
The function expansion connector is covered with a connector cover when the external expansion device is not connected and used. The connector cover is supported by the housing so as to be rotatable between a closed position that covers the connector and an open position that exposes the connector. In a state where the connector cover is rotated to the closed position, the connector cover is flush with the bottom surface of the housing. When the connector cover is rotated from the closed position to the open position, the connector cover protrudes downward from the housing and enters the recess of the external expansion device (see, for example, Patent Document 1).
[0006]
[Patent Document 1]
Utility Model Registration No. 2567448 (Page 3-4, Fig. 3)
[0007]
[Problems to be solved by the invention]
The conventional connector cover is composed of a single flat plate material, and has a size such that the connector can be completely covered when rotated to the closed position. For this reason, when the connector cover is rotated to the open position, the connector cover protrudes outward from the housing, and a dedicated recess is formed in the external expansion device to avoid interference with the connector cover. Must-have. In other words, in an external expansion device that does not have this recess, the connector cover becomes a hindrance and connection with a computer becomes impossible.
[0008]
In order to avoid interference between the connector cover and the external expansion device, it is conceivable to store the connector cover inside the housing when the connector cover is rotated to the open position.
[0009]
However, according to this configuration, the connector cover has a size sufficient to completely cover the connector, so that the connector cover greatly enters the inside of the housing. As a result, it is necessary to secure a large storage space inside the casing, and there is a problem in that it is impossible to arrange parts in the casing or the casing must be enlarged. This increase in the size of the housing goes against the recent miniaturization of portable computers, which is not preferable for portable computers where portability is particularly important.
[0010]
It is an object of the present invention to reduce the storage space required for the connector cover inside the housing as much as possible when the connector cover is stored inside the housing, and to realize a portable housing capable of reducing the housing size It is to obtain a shaped electronic device.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, a portable electronic device according to one aspect of the present invention includes:
A housing,
A connector provided in the housing;
A connector cover that covers the connector in an openable and closable manner.
The connector cover has a pair of cover portions, and these cover portions are rotatable between a closed position that covers the connectors side by side and an open position that wraps around a position sandwiching the connectors. It is characterized by that.
[0012]
According to this structure, since the shape of each cover part becomes compact, even if these cover parts are rotated to the open position, these cover parts do not enter the interior of the housing. For this reason, it is not necessary to secure a wide space for storing the cover portion inside the housing, and the downsizing of the housing is not impaired.
[0013]
In addition, when the cover part is rotated from the closed position to the open position, these cover parts wrap around the position where the connector is sandwiched. It is not necessary to secure an allowable space. For this reason, it is possible to bring the cover portion and the connector in the closed position as close as possible, which also contributes to the downsizing of the housing.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings applied to a portable computer.
[0015]
FIG. 1 shows an A4 size book-type portable computer 1. The computer 1 includes a housing 2 having a rectangular box shape. The housing 2 includes a lower housing 3 and an upper housing 4 removably coupled to the lower housing 3. The lower housing 3 and the upper housing 4 are made of a synthetic resin material such as ABS resin.
[0016]
The lower housing 3 has a box shape having a flat bottom wall 3a and three peripheral walls 3b, 3c, 3d connected to the left and right sides and the front end of the bottom wall 3a. The upper housing 4 has a flat upper wall 4a and four peripheral walls 4b, 4c, 4d, and 4e connected to the front and rear end portions and the left and right side portions of the upper wall 4a. The front walls of the upper housing 4 and the peripheral walls 4 b, 4 d, 4 e on both the left and right sides are flush with the peripheral walls 3 b, 3 c, 3 d of the lower housing 3. The peripheral walls 3b, 3c, 3d and 4b, 4d, 4e constitute the front surface and the left and right side surfaces of the housing 2.
[0017]
The upper housing 4 is divided into a front part 6 and a rear part 7. A keyboard mounting portion 8 and a convex portion 9 are formed on the upper surface of the rear portion 7. As shown in FIG. 6, the keyboard mounting portion 8 is constituted by a concave portion having a size over substantially the entire upper surface of the rear portion 7, and has a rectangular outlet 10 opened on the upper surface. . The keyboard mounting portion 8 has front, rear, left and right side walls 8a to 8d and a bottom wall 8e continuous to the side walls 8a to 8d. The bottom wall 8e is opposed to the outlet 10 and an opening 11 is formed at the center of the bottom wall 8e.
[0018]
The convex portion 9 extends over the entire width of the upper housing 4. The convex portion 9 has a front surface 12 extending upward from the upper surface of the rear portion 7, an upper surface 13 extending rearward from the upper end of the front surface 12, and a rear surface 14 extending downward from the rear end of the upper surface 13. It has a hollow shape opened toward the lower side of the housing 4. The rear surface 14 of the protrusion 9 is continuous with the peripheral wall 4 c on the rear side of the upper housing 4.
[0019]
The convex portion 9 has first and second leg attachment portions 17a and 17b. The first and second leg attachment portions 17a and 17b are spaced apart from each other in the width direction of the convex portion 9, and continuously open to the front, upper, and rear of the convex portion 9, respectively. Each of the leg mounting portions 17a and 17b has a bottom surface 18 connected to the upper surface of the rear portion 7 and left and right side surfaces 19 (only one is shown) connected to the bottom surface 18. The bottom surface 18 has a bottom opening 18 a, and the bottom opening 18 a is continuous with the inside of the housing 2. The side surface 19 has a side opening 19a. The side opening 19 a is continuous with the bottom opening 18 a and is continuous with the inside of the convex portion 9.
[0020]
As shown in FIGS. 1 and 4, the lower housing 3 is integrally provided with a battery housing portion 21 at the left end portion of the front half thereof. The battery accommodating portion 21 is formed on the left and right side walls 22a and 22b connected to the bottom wall 3a, the rear end wall 23 connecting the rear end portions of the side walls 22a and 22b, and the upper ends of the rear end wall 23 and the side walls 22a and 22b. It is defined by the continuous ceiling wall 24 and forms a recess that is continuously opened from the bottom surface to the front surface of the lower housing 3. Each of these walls 22 a, 22 b, 23, and 24 partitions the battery housing portion 21 from the inside of the housing 2. A power connector 25 having a plurality of contacts 25a is disposed on the rear end wall 23. The power connector 25 is exposed to the battery housing part 21.
[0021]
A battery pack 26 is detachably accommodated in the battery accommodating portion 21. The battery pack 26 serves as a driving power source when the computer 1 is used in a place where a commercial power source cannot be obtained. The battery pack 26 is inserted into and removed from the battery housing portion 21 from the front side of the lower housing 3. . When the battery pack 26 is accommodated in the battery accommodating portion 21, the positive and negative terminals (not shown) of the battery pack 26 come into contact with the contact 25 a of the power connector 25.
[0022]
As shown in FIG. 4, a hard disk drive device 27 and a floppy disk drive device 28 are accommodated in the front half of the lower housing 3. The hard disk drive 27 and floppy disk drive 28 are arranged side by side on the right side of the battery housing 21. The hard disk drive device 27 is supported by a bracket 29, and the bracket 29 is screwed to a boss portion 30 extending from the bottom wall 3 a of the lower housing 3.
[0023]
The floppy disk drive 28 includes a box-shaped casing 32. The casing 32 is screwed to the bottom wall 3 a of the lower housing 3 via a bracket 33. On the front surface of the casing 32, there are arranged a disk insertion slot 34 for inserting and removing the floppy disk and a push button 35 for pressing when removing the floppy disk. The casing 32 is arranged inside the lower housing 3 with the disc insertion port 34 and the push button 35 facing the front of the lower housing 3. For this reason, an opening 36 for exposing the disc insertion opening 34 and the push button 35 is formed on the front surface of the lower housing 3.
[0024]
As shown in FIGS. 3 and 5, first to fourth circuit boards 40 a to 40 d are accommodated in the rear half of the lower housing 3. The circuit boards 40a to 40d are spaced from each other in the thickness direction of the lower housing 3 in a posture substantially parallel to the bottom wall 3a of the lower housing 3 behind the battery pack 26, the hard disk drive device 27, and the floppy disk drive device 28. Are stacked.
[0025]
The first circuit board 40 a has a rectangular shape having a length extending over substantially the entire width of the lower housing 3. The first circuit board 40 a is fixed to the boss portion 41 on the bottom wall 3 a of the lower housing 3 through screws 42. A large number of circuit components 43 typified by IC chips are mounted on the upper and lower surfaces of the first circuit board 40a, and the power connector 25 and the first stacking connector are mounted on the upper surface of the first circuit board 40a. 39 are arranged. In the present embodiment, the first circuit board 40a is a system board, and the hard disk drive 27 is connected to the front end of the first circuit board 40a via a relay connector 38. A metal connector panel 44 is attached to the rear end of the first circuit board 40a. The connector panel 44 has a length extending over the entire width of the first circuit board 40a, and extends upward from the circuit board 40a.
[0026]
As shown in FIG. 7, the connector panel 44 has an RGB connector 45 for connecting an external CRT display, a parallel port 46 for connecting a printer and an external floppy disk drive, an optical disk device and an external hard disk drive. When connecting an interface connector 47 for connecting a peripheral device requiring high-speed data transfer, a connection port 48 for connecting a peripheral device having an RS232C standard interface connector, and an expansion unit (not shown) A relay connector 49 used for the above is supported. These various ports 46, 48 and connectors 45, 47, 49 are arranged in a line in the left-right direction of the connector panel 44, and the relay connector 49 is located at a substantially central portion of the connector panel 44. The various ports 46 and 48 and the connectors 45, 47 and 49 are electrically connected to the upper surface of the first circuit board 40 a, and the connection portion with the circuit board 40 a is covered from behind by the connector panel 44. ing.
[0027]
The connector panel 44 has leg portions 44a that project downward from the first circuit board 40a. The leg portion 44 a is screwed to the bottom wall 3 a of the lower housing 3. Therefore, the connector panel 44 extends upward from the bottom wall 3 a, and the various ports 46 and 48 and the connectors 45, 47 and 49 supported by the connector panel 44 are exposed rearward from the rear end of the lower housing 3. doing.
[0028]
The connector panel 44 is located below the convex portion 9 of the upper housing 4. An upper end portion of the connector panel 44 protrudes upward from the lower housing 3, a flange portion 50a extending rearward from the upper end portion of the connector panel 44, and a wall portion 50b extending upward from the rear end of the flange portion 50a, Is formed. The flange portion 50 a and the wall portion 50 b extend over substantially the entire width of the connector panel 44.
[0029]
A first connector cover 51 is attached to the rear surface of the connector panel 44. The first connector cover 51 covers the relay connector 49 so that it can be opened and closed. The first connector cover 51 has an upper cover part 51a and a lower cover part 51b. The upper and lower cover portions 51a and 51b are supported by the connector panel 44 so as to be rotatable between a closed position where the upper and lower cover parts 51a are abutted to each other behind the relay connector 49 and an open position which wraps around the upper and lower sides of the relay connector 49. And these cover parts 51a and 51b are always urged | biased by the spring which is not shown in figure toward the closed position, and have covered the relay connector 49 from back.
[0030]
A second connector cover 52 and a third connector cover 53 are attached to the rear end portion of the lower housing 3. The second connector cover 52 is used to open and close the RGB connector 45 and the parallel port 46. The second connector cover 52 falls into the closed position that covers the RGB connector 45 and the parallel port 46 from the rear and the rear of the lower housing 3, and the RGB connector 45 45 and the open position where the parallel port 46 is exposed are supported by the lower housing 3 so as to be rotatable.
[0031]
The third connector cover 53 is for opening and closing the interface connector 47 and the connection port 48. The third connector cover 53 falls into the closed position that covers the interface connector 47 and the connection port 48 from the rear and the rear of the lower housing 3, thereby 47 and the opening position where the connection port 48 is exposed are supported by the lower housing 3 so as to be rotatable.
[0032]
In a state in which the second and third connector covers 52 and 53 are rotated to the closed position, the connector covers 52 and 53 and the first connector cover 51 are flush with each other, and the rear side of the upper housing 4 is It is located on the same plane as the peripheral wall 4c.
[0033]
As shown in FIG. 3, the third circuit board 40 c disposed above the first circuit board 40 a has a first board part 55 and a second board part 56. The first board portion 55 extends in the front-rear direction from the upper side of the first circuit board 40 a toward the upper side of the hard disk drive device 27. Various circuit components 57 are mounted on the upper surface of the first substrate portion 55.
[0034]
The second substrate portion 56 extends from the front end portion of the first substrate portion 55 in the left-right direction of the lower housing 3. The left and right end portions of the second substrate portion 56 are located above the battery housing portion 21 and the floppy disk drive device 28. Both left and right end portions of the second substrate portion 56 are screwed to the ceiling wall 24 of the battery housing portion 21 and the boss portion 30 of the lower housing 3, respectively.
[0035]
The second circuit board 40b is a relay board for electrically connecting the first circuit board 40a and the third circuit board 40c, and the first circuit board 40a and the third circuit board 40c are connected to each other. Between the first substrate portion 55 and the first substrate portion 55. The support structure for the second circuit board 40b will be described with reference to FIGS.
[0036]
The second circuit board 40b has a rectangular plate shape much smaller than the first and third circuit boards 40a and 40c. Various circuit components 58 are mounted on the second circuit board 40b. A flexible wiring board 59 is connected to the second circuit board 40b. A second stacking connector 60 is connected to one end of the wiring board 59. The second stacking connector 60 is detachably fitted to the first stacking connector 39 from above the first circuit board 40a. With this fitting, the first circuit board 40a and the second circuit board 40b are connected to each other. Are electrically connected. The second stacking connector 60 has a width dimension substantially equal to that of the second circuit board 40b.
[0037]
A hard reinforcing plate 61 is attached to the upper surface of the second stacking connector 60 so as to cover a connection portion with the wiring board 59. The reinforcing plate 61 has an elongated strip shape extending along the second stacking connector 60. The reinforcing plate 61 and the second circuit board 40 b are integrated via a metal bracket 63. The bracket 63 includes a first portion 64 that supports the second circuit board 40b, a second portion 65 that is superimposed on the upper surface of the reinforcing plate 61, and the first portion 64 and the second portion 65. A third portion 66 (shown in FIG. 3) is integrally formed.
[0038]
The first portion 64 of the bracket 63 is attached to the lower surface of the second circuit board 40b and integrated with the second circuit board 40b. As shown in FIG. 3, the first portion 64 and the second portion 65 are positioned with a level difference in the vertical direction by the height of the third portion 66, and the first portion 64 is The second portion 65 is disposed at a low position shifted to the first circuit board 40a side.
[0039]
For this reason, the second circuit board 40b and the reinforcing plate 61 are positioned at substantially the same height. A pair of left and right screw insertion holes 67a and 67b and fitting holes 68a and 68b are opened at the rear end of the second circuit board 40b including the first portion 64, respectively.
[0040]
As shown in FIG. 3, the rear end portion of the second circuit board 40 b is located immediately before the connector panel 44. A support fitting 71 is fixed to the front surface of the connector panel 44. The support fitting 71 is integrated with the connector panel 44 by means such as welding or caulking. As best shown in FIG. 9, the support fitting 71 includes a substrate receiving portion 72 that supports the rear end portion of the second circuit board 40b. The board receiving portion 72 has a width dimension substantially the same as that of the second circuit board 60b, and protrudes toward the front of the connector panel 44 above the first circuit board 40a. The rear end portion of the first portion 64 of the bracket 63 is superimposed on the upper surface of the substrate receiving portion 72.
[0041]
The board receiving portion 72 includes fitting pieces 73a and 73b and screw holes 74a and 74b extending upward at both left and right ends thereof. The fitting pieces 73a and 73b are adapted to be fitted into the fitting holes 68a and 68b when the first portion 64 of the bracket 63 is superimposed on the upper surface of the substrate receiving portion 72. By this fitting, the board receiving portion 72 is aligned with the second circuit board 40b and the bracket 63, and the screw insertion holes 67a and 67b of the second circuit board 40b are aligned with the screw holes 74a and 74b. It has become. Therefore, the rear end portion of the second circuit board 40b is fixed to the board receiving portion 72 by inserting the screws 75 through the screw insertion holes 67a and 67b and screwing the screws 75 into the screw holes 74a and 74b, respectively. .
[0042]
For this reason, the second circuit board 40 b is stretched between the reinforcing plate 61 and the support fitting 71 of the connector panel 44.
[0043]
As shown in FIG. 3, a third stacking connector 78 is disposed on the upper surface of the second circuit board 40b. The third stacking connector 78 extends along the width direction of the second circuit board 40 b at the front end of the second circuit board 40 b adjacent to the reinforcing plate 61. A fourth stacking connector 79 is disposed on the lower surface of the first board portion 55 of the third circuit board 40c. The fourth stacking connector 79 is detachably fitted to the third stacking connector 78 from above the second circuit board 40b, and by this fitting, the second circuit board 40b and the third circuit board are fitted. 40c is electrically connected.
[0044]
As shown in FIGS. 5 and 6, the rear half of the first substrate 55 faces the opening 11 of the keyboard mounting portion 8 when the lower housing 3 is covered with the upper housing 4. In this case, the bottom wall 8 e of the keyboard mounting portion 8 includes support walls 11 a and 11 b that extend downward from the left and right sides of the opening 11. The lower end portions of the support walls 11 a and 11 b are hooked on the left and right side portions of the first substrate portion 55 to suppress the first substrate portion 55 from being lifted.
[0045]
The fourth circuit board 40d is a memory board, and has a card connector 81 to which a memory card is connected. As shown in FIG. 5, the fourth circuit board 40d is arranged on the right side of the second circuit board 40b, and above the first right side of the first circuit board 40a, the first circuit board 40d. It is arranged substantially parallel to 40a.
[0046]
In this case, a fifth stacking connector 82 is disposed on the upper surface of the right end portion of the first circuit board 40a. A sixth stacking connector 83 is disposed on the lower surface of the fourth circuit board 40d facing the fifth stacking connector 82. The sixth stacking connector 83 is fitted to the fifth stacking connector 82, and the first circuit board 40a and the fourth circuit board 40d are electrically connected by this fitting.
[0047]
As shown in FIG. 9, the rear end of the left end portion of the fourth circuit board 40 d is superimposed on the right end portion of the substrate receiving portion 72, and is fixed thereto via a screw 84. Further, the left end portion of the fourth circuit board 40 d is adjacent to the bracket 63. In the case of this embodiment, the second portion 65 of the bracket 63 is integrally provided with a support piece 86 extending toward the right side, as shown in FIG. The support piece 86 faces the front end of the left end portion of the fourth circuit board 40d, and the front end of the left end portion of the fourth circuit board 40d is superimposed on the upper surface of the support piece 86.
[0048]
Therefore, the right end portion of the fourth circuit board 40d is supported via the fifth and sixth stacking connectors 82 and 83, and the left end portion is supported via the bracket 86 and the support fitting 71. Yes.
[0049]
The fourth circuit board 40d is located behind the floppy disk drive 28. A fifth circuit board 87 is disposed above the floppy disk drive 28 as shown in FIG. The fifth circuit board 87 is an acoustic board and is disposed adjacent to the front of the fourth circuit board 40d.
[0050]
As shown in FIG. 4, the second board portion 56 of the third circuit board 40 c is located below the front portion 6 of the upper housing 4. The left end portion of the second substrate portion 56 is extended to a position adjacent to the left side surface of the housing 2, and the first card accommodating portion is interposed between the second substrate portion 56 and the front portion 6. 91 is formed.
[0051]
The first card accommodating portion 91 is for accommodating a card-like electronic component 92 (shown in FIG. 12) such as an IC memory card in which an application program is stored, and is located above the battery accommodating portion 21. ing. The first card accommodating portion 91 includes a card insertion slot 93 into which the card-like electronic component 92 is inserted so that it can be inserted and removed. The card insertion slot 93 is opened on the left side surface of the housing 2. The card insertion slot 93 is adjacent to a corner defined by the left side surface and the front surface of the housing 2 as shown in FIGS. A first card cover 94 that opens and closes the card insertion slot 93 is attached to the left side surface of the lower housing 3.
[0052]
A pair of guide rails 95a and 95b and a first connector 96 connected to one end of the guide rails 95a and 95b are attached to the upper surface of the second board portion 56 facing the first card housing portion 91. Yes. The guide rails 95a and 95b extend from a position adjacent to the card insertion slot 93 toward the end of the first card accommodating portion 91, and both side portions of the card-like electronic component 92 are slidably fitted. A guide groove 97 is provided. The guide groove 97 is for guiding the card-like electronic component 92 to the first card connector 96. The guide groove 97 is opened at the other end of the guide rails 95a and 95b facing the card insertion port 93. doing.
[0053]
The first connector 96 has the same configuration as that conventionally known, and has a large number of pin terminals (not shown) at a portion facing the card insertion slot 93. In a state where the card-like electronic component 92 is connected to the first connector 96, the card-like electronic component 92 completely enters the first card accommodating portion 91 without protruding from the card insertion opening 93. ing. A metal support plate 98 is attached in a range from the upper surface of the first connector 96 to the upper surfaces of the guide rails 95 and 95b.
[0054]
As shown in FIG. 4, a metal shield plate 100 is attached to the right end portion of the second substrate portion 56. The shield plate 100 is extended to a position adjacent to the right side surface of the housing 2, and the right end portion of the shield plate 100 is stopped on the upper surface of the bracket 33 of the floppy disk drive device 28.
[0055]
Between the shield plate 100 and the front portion 6, a second card housing portion 101 is formed. The second card accommodating portion 101 is for accommodating a card-like electronic component 92 and another card-like electronic component (not shown) having a different standard from the card-like electronic component 92, and a floppy disk drive device. 28 is located above.
[0056]
The second card accommodating portion 101 includes a card insertion slot 102 into which a card-like electronic component is inserted so that it can be inserted and removed. The card insertion slot 102 is opened on the right side surface of the housing 2. As shown in FIG. 11, the card insertion slot 102 is adjacent to a corner defined by the right side surface and the front surface of the housing 2. A second card cover 103 that opens and closes the card insertion slot 102 is attached to the right side surface of the lower housing 3.
[0057]
Similarly to the first card accommodating portion 91, the second card accommodating portion 101 can be removed with a pair of guide rails 104 (only one is shown) for guiding insertion of the card-like electronic component and the card-like electronic component. And the second connector 105 connected to the. The guide rail 104 is attached from the upper surface of the shield plate 100 to the lower surface of the second substrate portion 56. The second connector 105 is attached to the right end portion of the second board portion 56 and faces the card insertion slot 102.
[0058]
Ejectors 110 for discharging the card-like electronic component 92 are disposed in the first and second card accommodating portions 91 and 101, respectively. The ejectors 110 of the card accommodating portions 91 and 101 have substantially the same structure, and in this embodiment, the ejector 110 of the first card accommodating portion 91 will be described as a representative.
[0059]
As shown in FIG. 12, the ejector 110 includes a slide plate 111 supported on the lower surface of the support plate 98, an operation lever 112 that the operator operates with a fingertip, and a linkage mechanism that links the slide plate 111 and the operation lever 112. 113.
[0060]
The slide plate 111 is supported by the support plate 98 so as to be slidable in the insertion direction of the card-like electronic component 92 between the guide rails 95a and 95b. The slide plate 111 includes a pair of pressing pieces 115a and 115b extending downward. The pressing pieces 115a and 115b are disposed immediately before the first connector 96, and come into contact with the insertion tip when the card-like electronic component 92 is inserted into the first card housing portion 91. .
[0061]
The linkage mechanism 113 includes a base 117 made of synthetic resin, a slider 118 supported on the upper surface of the base 117, and a rotation lever 119 that connects the slider 118 and the slide plate 111. The base 117 is disposed between one guide rail 95 a and the front surface of the front portion 6 of the upper housing 4, and has a long and narrow plate shape extending in the left-right direction along the front surface of the front portion 6. The base 117 is screwed to the ceiling wall 24 of the battery housing portion 21 together with the second substrate portion 56.
[0062]
As shown in FIG. 15, the upper surface of the base 117 forms a flat slide guide surface 120, and a spring receiver 121 and a pair of engagement protrusions 122 a and 122 b are disposed on the slide guide surface 120. The spring receiver 121 extends upward at an intermediate portion along the left-right direction of the slide guide surface 120. The spring receiver 121 has a guide groove 123 that opens at the upper end thereof. The engagement protrusions 122a and 122b are spaced apart from each other in the left-right direction and protrude upward from the slide guide surface 120.
[0063]
The slider 118 has a bottom wall 125 that is slidably mounted on the slide guide surface 120 in the left-right direction, and a first side wall 126 a and a second side wall 126 b that are continuous with the bottom wall 125. The bottom wall 125 is formed with a pair of engagement holes 127a and 127b extending in the left-right direction. The engagement holes 127a and 127b are spaced apart in the left-right direction, and the engagement protrusions 122a and 122b are slidably engaged with the engagement holes 127a and 127b. By this engagement, the slider 118 is supported by the base 117 so as to be slidable in the left-right direction.
[0064]
A seat 130 is integrally formed at one end of the bottom wall 125. On the upper surface of the seat portion 130, an engaging convex portion 131 is projected. A lock portion 132 is formed integrally with the other end portion of the bottom wall 125 opposite to the seat portion 130. The lock portion 132 has a lock wall 132a extending in the vertical direction.
[0065]
The rotation lever 119 is installed between the seat 130 and the slide plate 111. The intermediate portion of the rotation lever 119 is pivotally supported by the support plate 98. One end of the rotating lever 119 is connected to the slide plate 111. The other end of the rotating lever 119 is led out in front of one guide rail 95a. A connecting hole 133 is opened at the other end of the rotating lever 119, and the engaging convex portion 131 is rotatably fitted in the connecting hole 133.
[0066]
For this reason, when the slider 118 is slid left and right, the rotation lever 119 rotates about the connecting portion with the support plate 98, and the slide plate 111 is slid in the direction opposite to the slider 118 by this rotation. It is like that. Therefore, the slider 118 has a standby position where the pressing pieces 115a, 115b of the slide plate 111 are positioned immediately before the first connector 96, and a pressing position where the pressing pieces 115a, 115b are pushed toward the insertion tip of the card-like electronic component 92. It is slid over.
[0067]
The first side wall 126a and the second side wall 126b of the slider 118 are opposed to each other between the front surface of the front portion 6 and one guide rail 95a. The first side wall 126a is positioned inside the front surface of the front portion 6, and the operation lever 112 is integrally formed on the front surface of the first side wall 126a.
[0068]
As shown in FIG. 11, a through hole 135 extending in the left-right direction is opened on the front surface of the front portion 6. The through hole 135 has a long hole shape along the sliding direction of the slider 118. The first side wall 126 a covers the through hole 135 from the inside of the front portion 6, and the operation lever 112 is exposed to the front surface of the front portion 6 through the through hole 135.
[0069]
The second side wall 126b of the slider 118 is integrally provided with a rod-shaped guide portion 137 extending in parallel with the side wall 126b. The distal end of the guide portion 137 penetrates the guide groove 123 of the spring receiver 121 so as to be slidable, and a compression coil spring 138 is attached to the outer periphery of the guide portion 137. The compression coil spring 138 is compressed between the end of the second side wall 126 b and the spring receiver 121. By this compression, the slider 118 is pressed toward the standby position and is always held at the standby position.
[0070]
As shown in FIG. 15, the base 117 is integrally provided with a support piece 141 at the end of the slider 118 opposite to the seat 130. The support piece 141 extends upward and extends in the front-rear direction of the housing 2. The support piece 141 supports a synthetic resin lock lever 143 that restricts sliding of the slider 118.
[0071]
The lock lever 143 has a finger hook portion 144. A mounting groove 145 is formed in the finger hanging portion 144, and a support piece 141 is fitted in the mounting groove 145 so as to be slidable in the front-rear direction. A lock piece 146 is formed integrally with the finger hook portion 144. The lock piece 146 is opposed to the lock wall 132a of the slider 118 when the slider 118 is slid to the standby position.
[0072]
Therefore, the lock lever 143 is supported by the base 117 so as to be slidable between a lock position where the lock piece 146 is hooked on the lock wall 132a of the slider 118 and a release position where the lock piece 146 is detached from the lock wall 132a. Yes. The sliding direction of the lock lever 143 is orthogonal to the sliding direction of the slider 118.
[0073]
As shown in FIG. 16, the finger hook portion 144 is located at a corner defined by the front surface and the left side surface of the front portion 6. The corner 150 is formed with an opening 150 that exposes the finger rest 144. The opening 150 is continuously opened from the front surface to the left side surface of the front portion 6 and continues to the card insertion slot 93.
[0074]
The finger hanging portion 144 has a first surface 151 that is continuous with the left side surface of the front portion 6, and a second surface 152 that is continuous with the front surface of the front portion 6. These first and second surfaces 151 and 152 are continuous in a circular arc so as to follow the curvature of the corner of the front portion 6. The first surface 151 and the second surface 152 are connected to the left side surface and the front surface of the front portion 6 in a state where the lock lever 143 is slid to the lock position, and become a part of the front portion 6. Yes. When the lock lever 143 is slid to the unlocking position, the second surface 152 protrudes from the front surface of the front portion 6 toward the front of the housing 2 as shown in FIG.
[0075]
As shown in FIG. 12, the finger hooking portion 144 of the lock lever 143 includes a metal retaining piece 155 at the end facing the card insertion slot 93. The retaining piece 155 advances into the card insertion slot 93 when the lock lever 143 is slid to the locked position, and faces the rear end of insertion of the card-like electronic component 92 accommodated in the first card accommodating portion 91. It comes to fit.
[0076]
According to the ejector 110 having such a configuration, when the card-like electronic component 92 is housed in the first card housing portion 91 and the lock lever 143 is slid to the lock position as shown in FIG. The piece 146 is caught on the lock wall 132 a of the slider 118. In this case, since the lock piece 146 is hooked on the lock wall 132a from a direction orthogonal to the slide direction of the slider 118, the slide of the slider 118 is restrained by the lock piece 146.
[0077]
Therefore, even when the card-like electronic component 92 is connected to the first connector 96 and used, even if the operating lever 112 is accidentally pressed toward the pressing position, the movement of the slider 118 integral with the operating lever 112 Therefore, the operation lever 112 cannot be slid toward the pressing position. For this reason, the slider 118 and the slide plate 111 remain stationary, and the card-like electronic component 92 is not pushed out from the first card housing portion 91.
[0078]
According to the ejector 110, the presence of the lock lever 143 prevents the pressing force of the operation lever 112 from being transmitted to the card-like electronic component 92, thereby generating an unreasonable force on the card-like electronic component 92 and the first connector 96. Therefore, the card-like electronic component 92 can be prevented from being pushed out. Accordingly, it is possible to prevent the card-like electronic component 92 and the first connector 96 having high added value from being damaged.
[0079]
Similarly, excessive force is also applied to the connecting portion between the slide plate 111 and the rotating lever 119 and the connecting portion between the seat portion 130 of the slider 118 and the rotating lever 119, including the pressing pieces 115a and 115b of the slide plate 111. Thus, the ejector 110 can be prevented from being damaged.
[0080]
When the lock lever 143 is further slid to the locked position, the retaining piece 155 advances into the card insertion slot 93 and faces the rear end of the card-like electronic component 92. For this reason, the card-like electronic component 92 can be held in the first card housing portion 91 by the retaining piece 155, and the slide of the operation lever 112 is restrained, and the card-like electronic component 92 is Undesirable extrusion can be prevented twice.
[0081]
On the other hand, in order to take out the card-like electronic component 92 accommodated in the first card accommodating portion 91, first, the lock lever 143 is slid toward the unlock position to unlock the slider 118. Then, the operation lever 112 exposed on the front surface of the housing 2 is slid rightward from the standby position toward the pressing position. Then, as shown by the arrow in FIG. 12, the rotation lever 119 rotates counterclockwise, and the slide plate 111 slides leftward toward the card-like electronic component 92. By this slide, the card-like electronic component 92 is pressed by the pressing pieces 115 a and 115 b, and the card-like electronic component 92 is pushed out in a direction to be detached from the first connector 96.
[0082]
As a result, the end portion of the card-like electronic component 92 protrudes outward from the card insertion opening 93 from the card insertion opening 93, so that the protruding portion is grasped with a fingertip and pulled out from the card insertion opening 93. Thereby, the card-shaped electronic component 92 can be taken out from the first card housing portion 91.
[0083]
When the lock lever 143 is slid to the unlock position, the second surface 152 of the lock lever 143 protrudes forward from the corner of the front portion 6 as shown in FIG. For this reason, the second surface 152 of the lock lever 143 and the front surface of the front portion 6 are discontinuous, and a step is formed at the corner of the front portion 6, so the operator can check whether the operation lever 112 is locked or not. Can be easily recognized from the front of the computer 1 without looking into the opening of the card insertion slot 93.
[0084]
In this case, since the lock lever 143 protrudes forward of the front portion 6, it is not necessary to secure a space for allowing the lock lever 143 to slide within the front portion 6. 2 can be miniaturized.
[0085]
Moreover, since the operation lever 112 of the ejector 110 is exposed on the front surface of the housing 2 as is apparent from FIG. 1, the operation lever 112 is positioned on the operator's hand side. For this reason, during operation of the computer 1, the operation lever 112 is positioned within the range of the operator's visual field, and the operator can slide the operation lever 112 without checking the position of the operation lever 112 each time. .
[0086]
Further, according to the ejector 110 having the above configuration, the base 117 and the slider 118 are housed in a dead space between one guide rail 95a of the first card housing portion 91 and the front surface of the upper housing 4. There is no need to newly secure a large space inside the housing 2, which contributes to the compactness of the housing 2.
[0087]
In addition, since the lock lever 143 that locks the operation lever 112 is supported by the base 117 of the linkage mechanism 113, the lock lever 143 and the linkage mechanism 113 can be assembled as one unit. Therefore, the lock lever 143 and the linkage mechanism 113 can be incorporated into the lower housing 3 at a time, and the assembly work of the computer 1 can be easily performed.
[0088]
By the way, as shown in FIG. 1, the housing 2 supports the display unit 161. The display unit 161 includes a thin box-shaped housing 162 and a liquid crystal display 163 accommodated in the housing 162. The housing 162 is divided into a front housing 164 and a rear housing 165, and an opening 166 for exposing the liquid crystal display 163 is formed in the front housing 164.
[0089]
The housing 162 includes a first pivot leg 168 and a second pivot leg 169. The first and second pivot support legs 168 and 169 are configured such that a front portion 170 connected to the front housing 164 and a rear portion 171 connected to the rear housing 165 abut each other. These pivot legs 168 and 169 have a hollow cylindrical shape that continues to the inside of the housing 162.
[0090]
The first and second pivot support legs 168 and 169 are positioned at the leg attachment portions 17a and 17b of the upper housing 4, respectively. The first and second pivoting leg portions 168 and 169 have left and right leg side surfaces 175a and 175b facing the side surface 19 of the first and second leg mounting portions 17a and 17b. Communication holes 176 are opened in the left leg side surface 175a of the first pivot support leg 168 and the right leg side surface 175b of the second pivot support leg 169, respectively. The communication hole 176 is continuous with the side openings 19a of the leg attachment portions 17a and 17b.
[0091]
As shown in FIGS. 18 to 20, the first and second pivot legs 168 and 169 are supported by the lower housing 3 via the first hinge device 177 and the second hinge device 178. . The hinge devices 177 and 178 are pivotable around the hinge shafts 179 and 180, the first brackets 181 and 182 fixed to one end of the hinge shafts 179 and 180, and the other end of the hinge shafts 179 and 180. The second brackets 183 and 184 connected to each other and a plurality of spring washers 185 for restricting the free rotation of the hinge shafts 179 and 180 are provided. Such hinge devices 177 and 178 are arranged on the left and right outer sides of the first and second pivot legs 168 and 169.
[0092]
The hinge shafts 179 and 180 are disposed across the leg attachment portions 17a and 17b and the pivot support legs 168 and 169. Therefore, the hinge shafts 179 and 180 pass through the side surfaces 19 of the leg mounting portions 17a and 17b and the outer leg side surfaces 175b and 175a of the pivot support leg portions 168 and 169, respectively. One ends of the hinge shafts 179 and 180 are introduced inside the pivot legs 168 and 169, and first brackets 181 and 182 connected to one end of the hinge shafts 179 and 180 are respectively connected via screws 186. It is fixed to the inner surface of the rear housing 165 and the inner surface of the rear portion 171 of each pivot leg 168, 169. The second brackets 183 and 184 are screwed to the bottom wall 3a of the lower housing 3 together with the first circuit board 40a.
[0093]
In a state where the first brackets 181 and 182 and the second brackets 183 and 184 are fixed to the rear housing 165 and the lower housing 3, the hinge shafts 179 and 180 are arranged coaxially with each other. Is the pivot point of the display unit 161.
[0094]
Therefore, as shown in FIG. 2, the display unit 161 includes a first position that covers the casing 2 from above, a second position that causes the liquid crystal display 163 to stand behind the keyboard mounting portion 8, and the casing 2. It is supported by the housing 2 so as to be rotatable over a third position that falls to an angle that is substantially horizontal toward the rear. In the state where the display unit 161 is rotated to the first position, the housing 162 of the display unit 161 is substantially flush with the front surface, the left and right side surfaces of the housing 2 and the upper surface 13 of the convex portion 9. Has a box shape that is convenient to carry.
[0095]
As shown in FIG. 19 and FIG. 20, the first bracket 181 of the first hinge device 177 is located in the right half of the first pivot leg 168. A cylindrical microphone 191 is disposed in a space opened on the left side of the first bracket 181. The microphone 191 is for recording, for example, an operator's voice, and is supported by a synthetic resin holder 192. The holder 192 has a wall portion 193 that faces the inner surface of the rear portion 171, and a pair of upper and lower engagement holes 194 a and 194 b are opened in the wall portion 193. Engaging protrusions 195a and 195b extending from the inner surface of the rear portion 171 are inserted into the engaging holes 194a and 194b, whereby the microphone 191 is supported on the inner surface of the rear portion 171.
[0096]
As shown in FIGS. 18 and 19, the first bracket 181 has a screw insertion hole 181a. The screw insertion hole 181 a is located on the right side of the microphone 191.
[0097]
As shown in FIGS. 18 to 20, a cable 197 having a connector 196 is connected to the microphone 191. The cable 197 is led into the housing 2 through a communication hole 176 opened in the left leg side surface 175a of the first pivot support leg 168 and a side opening 19a of the leg attachment portion 17a. The cable 197 is routed to the fifth circuit board 87 through the upper side of the fourth circuit board 40d inside the housing 2, and the connector 196 at the end of the cable 197 is connected to the fifth circuit board 87. 87.
[0098]
As shown in FIG. 22, a first through hole 198 a and a second through hole 198 b are opened side by side on the front portion 170 that abuts against the rear portion 171. The first through hole 198a faces the microphone 191. The second through hole 198 b faces the screw insertion hole 181 a of the first bracket 181. As shown in FIG. 22, a screw 201 is inserted through the second through hole 198b. The screw 201 passes through the screw insertion hole 181a and is screwed into the rear portion 171. By this screwing, the front portion 170 and the rear portion 171 of the first pivot leg 168 are coupled to each other.
[0099]
A decorative panel 199 that covers the first and second through holes 198 a and 198 b and the screws 201 is attached to the front surface of the front portion 170. The decorative panel 199 has a large number of small holes 200, and these small holes 200 are located at a portion facing the first through hole 198 a.
[0100]
As shown in FIG. 20, a cable 202 connected to the liquid crystal display 163 is led inside the second pivot leg 169. The cable 202 is guided into the inside of the convex portion 9 through a communication hole 176 opened in the right leg side surface 175b of the second pivot support leg portion 169 and a side opening 19a of the second leg attachment portion 17b. . The cable 202 is led from the inside of the convex portion 9 to the upper surface of the second circuit board 40b, and the connector 203 at the tip of the cable 202 is connected to the second circuit board 40b. A cylindrical core 204 is attached to the introduction portion of the cable 202 to the convex portion 9.
[0101]
As shown in FIGS. 3 and 18, the convex portion 9 of the housing 2 includes an icon mounting opening 205. The icon mounting opening 205 is opened inside the convex portion 9, and an icon 206 is arranged in the icon mounting opening 205. The icon 206 is located between the first leg attachment portion 17a and the second leg attachment portion 17b. This icon 206 includes an icon substrate 207 made of a synthetic resin having translucency. The icon substrate 207 is fixed to the icon mounting opening 205 by means such as adhesion.
[0102]
The icon substrate 207 includes a display surface 208 exposed to the outside of the convex portion 9. The display surface 208 includes a first surface 208 a that is flush with the front surface 12 of the convex portion 9, and a second surface 208 b that is flush with the upper surface 13 of the convex portion 9. On the display surface 208, a plurality of display marks 209 for displaying the operation state and function contents of the computer 1 with symbols are drawn. The display marks 209 are arranged at intervals in the left-right direction of the convex portion 9. The display mark 209 extends over the first surface 208a and the second surface 208b, and even if the display unit 161 is rotated to the first position as shown in FIG. The upper surface 13 is exposed above the computer 1.
[0103]
As shown in FIGS. 3 and 19 to 21, a synthetic resin holder 211 is disposed between the convex portion 9 of the upper housing 4 and the rear end portion of the lower housing 3. The holder 211 integrally includes first and second covers 212 and 213 and a connecting portion 214 that connects the covers 212 and 213.
[0104]
The first and second covers 212, 213 cover the bottom openings 18 a of the first and second leg attachment portions 17 a, 17 b from the inside of the upper housing 4, and are substantially flush with the upper surface of the upper housing 4. It is continuous. The first and second covers 212 and 213 include side walls 215a and 215b that extend upward at the left and right ends, respectively. The side walls 215a and 215b are fitted in the side openings 19a of the first and second leg attachment portions 17a and 17b, and cooperate with the side openings 19a on the side surfaces 19 of the leg attachment portions 17a and 17b. A cable passage 216 through which the cables 197 and 202 pass is formed. (See Figure 18)
A pair of left and right positioning projections 212a, 212b, 213a, and 213b extending downward are integrally formed on the bottom surfaces of the first and second covers 212 and 213. Further, as shown in FIG. 7, rear end walls 217 and 218 extending downward are formed at the rear ends of the first and second covers 212 and 213, and these rear end walls 217 and 218 are It continues to the positioning protrusions 212a, 212b, 213a, 213b.
[0105]
As shown in FIG. 21, the connecting portion 214 of the holder 211 has first to fourth component receiving portions 220a to 220d. The first to third component receivers 220a to 220c are arranged side by side in the left-right direction between the first and second covers 212 and 213, and the fourth component receiver 220d is a third component receiver 220d. It is arranged immediately after the component receiving part 220c.
[0106]
As shown in FIGS. 3 and 7, the holder 211 is overlaid on the upper surface of the flange portion 50 a of the connector panel 44. In this case, the positioning protrusions 212a, 212b, 213a, and 213b of the first and second covers 212 and 213 are inserted into slits (not shown) formed in the flange portion 50, and the lower housing is thereby inserted. The holder 211 is positioned in the left-right direction with respect to 3. Further, the rear end walls 217 and 218 of the first and second covers 212 and 213 cover the rear surface of the wall portion 50b connected to the flange portion 50a, and thereby, the holder 211 in the front-rear direction with respect to the lower housing 3 is covered. Positioning has been made.
[0107]
The first and second covers 212 and 213 of the holder 211 enter the bottom openings 18a of the first and second leg attachment portions 17a and 17b by covering the rear housing 7 with the rear portion 7 of the upper housing 4, and this The bottom opening 18 is closed. At this time, the side walls 215a and 215b of the first and second covers 212 and 213 are fitted into the side openings 19a of the first and second leg mounting portions 17a and 17b. Covers 212 and 213 are sandwiched between the connector panel 44 and the rear portion 7 of the upper housing 4.
[0108]
When the rear portion 7 of the upper housing 4 is put on the lower housing 3, the connecting portion 214 is positioned at the lower end of the convex portion 9. As shown in FIG. 3, the connecting portion 214 forms an accommodating space 219 between the inner surface of the convex portion 9. The accommodation space 219 is located between the first leg mounting portions 17a and 17b, and the first to fourth component receiving portions 220a to 220d are located in the accommodation space 219.
[0109]
As shown in FIGS. 20 and 21, the first to third component receiving portions 220a to 220c of the holder 211 are respectively provided with a core 204 of the cable 202, a cylindrical sub-battery 221 for installing a resume function, and A disk-shaped speaker 222 is arranged. The first and third component receiving portions 220a and 220c that receive the core 204 and the sub-battery 221 have a concave shape opened upward, and the core 204 and the sub-battery 221 are connected to the component receiving portions 220a and 220c. Mated and held.
[0110]
The second component receiving portion 220b that receives the speaker 222 has a plurality of engaging pieces 223 integrally. The engagement piece 223 is detachably engaged with the upper and lower ends of the speaker 222. Due to this engagement, the speaker 222 is held in a substantially upright posture on the second component receiving portion 220b.
[0111]
As shown in FIG. 3, the fourth component receiving portion 220 d is located below the icon substrate 207. A diode substrate 225 is supported on the fourth component receiving portion 220d. The fourth component receiving portion 220d has a plurality of engaging pieces 226, and these engaging pieces 226 are detachably locked to the corners and peripheral portions of the diode substrate 225. By this engagement, the diode substrate 225 is supported by the fourth component receiving portion 220d in a substantially upright posture, and the front surface of the diode substrate 225 is close to the icon substrate 207.
[0112]
A flexible wiring substrate 228 is attached to the front surface of the diode substrate 225. On the wiring board 228, a plurality of light emitting diodes 229 are arranged at intervals in the left-right direction. The light emitting diodes 229 serve as a light source for the icon 206 and are disposed at positions facing the display marks 209 on the icon substrate 207, respectively. For this reason, when the light emitting diode 229 emits light, a display mark 209 corresponding to the light emitting diode is turned on, and the operation state and function contents of the computer 1 are displayed.
[0113]
In this embodiment, a diffusion sheet (not shown) is attached to the surface of the icon substrate 207 facing the light emitting diode 229. The diffusion sheet is for diffusing light from the light-emitting diode 229 having strong directivity over a wide range. Due to the presence of the diffusion sheet, the display mark 209 is lighted uniformly over the entire area without emitting light locally. It is supposed to do.
[0114]
The tip of the wiring board 228 is connected to the relay connector 230 on the fourth circuit board 40d as shown in FIG. 19 and FIG.
[0115]
As shown in FIG. 1, a keyboard 235 for inputting information and commands is detachably mounted on the keyboard mounting portion 8 of the upper housing 4. As seen in FIGS. 23 and 24, the keyboard 235 includes a keyboard panel 236. The keyboard panel 236 has a rectangular plate shape that can be fitted into the keyboard mounting portion 8, and is placed on the bottom wall 8 e of the keyboard mounting portion 8. On the upper surface of the keyboard panel 236, a large number of keys 237 and a joystick 238 which is a kind of pointing device are arranged.
[0116]
The keyboard panel 236 has a front edge portion 236a along the front side wall 8a of the keyboard mounting portion 8 and a rear edge portion 236b along the rear side wall 8b. A plurality of first engaging protrusions 240 are provided on the front edge 236a of the keyboard panel 236 so as to protrude in the left-right direction. A plurality of second engaging protrusions 241 protrude from the rear edge portion 236b of the keyboard panel 236 in the left-right direction at intervals.
[0117]
As shown in FIG. 25, a rib-shaped seat 242 is formed at a corner defined by the front side wall 8a and the bottom wall 8e of the keyboard mounting portion 8. The seat portion 242 extends over the entire width of the keyboard mounting portion 8, and a plurality of engaging recesses 243 are formed in the seat portion 242. The engagement recesses 243 are arranged at intervals in the left-right direction, and are continuously opened on the upper surface and the rear surface of the seat portion 242. The first engaging protrusions 240 of the keyboard panel 236 are inserted into the engaging recesses 243 from above when the keyboard 235 is mounted on the keyboard mounting portion 8. The upper surfaces of the first engagement protrusions 240 are substantially flush with the upper surface of the seat portion 242.
[0118]
As shown in FIGS. 21 and 24, a plurality of engagement holes 245 are formed at corners defined by the rear side wall 8b and the bottom wall 8e of the keyboard mounting portion 8. The engagement ports 245 are arranged at intervals in the left-right direction. The second engagement protrusions 241 of the keyboard panel 236 are inserted into the engagement holes 245 so as to be removable.
[0119]
As shown in FIG. 1, the front portion 6 of the upper housing 4 has a length that extends over the entire length along the width direction of the keyboard 235. The front portion 6 has a holding wall portion 247 extending downward at a front edge portion continuous with the keyboard mounting portion 8. The holding wall portion 247 extends over the entire width of the front portion 6. When the front portion 6 and the rear portion 7 are brought into contact with each other, the holding wall portion 247 overlaps the rear surface of the side wall 8a on the front side of the keyboard mounting portion 8, and the lower end thereof is the upper surface of the seat portion 242. To come in contact with.
[0120]
Further, the front portion 6 is located on the hand side of the keyboard 235. The upper surface of the front portion 6 is a hand table 250 on which a hand is placed when operating the keyboard 235. Operation buttons 251a and 251b for executing and canceling the commands displayed on the liquid crystal display 163 are arranged in the front and rear direction at a substantially central portion of the hand stand 250.
[0121]
According to the portable computer 1 having such a configuration, the first connector cover 51 that covers the relay connector 49 so as to be openable / closable is divided into the upper cover portion 51a and the lower cover portion 51b. In comparison with the case where the connector cover 51 is composed of a single plate, the shapes of the upper cover portion 51a and the lower cover portion 51b are compact.
[0122]
For this reason, even when the upper cover portion 51a and the lower cover portion 51b are rotated to the open position, the upper cover portion 51a and the lower cover portion 51b do not enter the inside of the housing 2 greatly. It is not necessary to secure a wide space for storing the upper cover portion 51a and the lower cover portion 51b inside.
[0123]
In addition, when the upper cover portion 51 a and the lower cover portion 51 b are rotated from the closed position to the open position, the upper cover portion 51 a and the lower cover portion 51 b go around the upper and lower sides of the relay connector 49. For this reason, it is not necessary to ensure the space which allows rotation of the upper cover part 51a and the lower cover part 51b between the upper cover part 51a and the lower cover part 51b in the closed position, and the relay connector 49. The upper cover portion 51a and the lower cover portion 51b and the relay connector 49 can be made as close as possible.
[0124]
Therefore, the housing 2 can be downsized together with the fact that a large storage space is not required inside the housing 2.
[0125]
Note that the portable electronic device according to the present invention is not limited to a computer, and can be similarly applied to a portable word processor.
[0126]
【The invention's effect】
According to the present invention described above in detail, it is not necessary to secure a wide space for storing the cover part inside the housing, and the housing can be miniaturized.
[Brief description of the drawings]
FIG. 1 is a perspective view of a portable computer showing a state in which a display unit is rotated to a second position.
FIG. 2 is a perspective view of a portable computer showing a state in which a display unit is rotated to a first position.
FIG. 3 is a cross-sectional view of a casing of a portable computer.
4 is a cross-sectional view taken along line AA in FIG.
5 is a cross-sectional view taken along line BB in FIG.
FIG. 6 is a perspective view of a casing of a portable computer.
FIG. 7 is a rear view of the portable computer showing a state in which a second connector cover and a third connector cover are opened.
FIG. 8 is a rear view of the portable computer showing a state in which a second connector cover and a third connector cover are closed.
FIG. 9 is a perspective view showing a relationship between a bracket for supporting a second circuit board and a support bracket of the connector panel.
FIG. 10 is a perspective view showing a mounting state of the second circuit board and the third circuit board.
FIG. 11 is a perspective view of a housing in which a portion of the first card accommodating portion is cut away.
FIG. 12 is a plan view of a first card accommodating portion.
FIG. 13 is a perspective view of a state where the lock of the ejector is released by sliding the lock lever to the release position.
FIG. 14 is a perspective view of a state where the ejector is locked by sliding the lock lever to the lock position.
FIG. 15 is an exploded perspective view showing an ejector linkage mechanism;
FIG. 16 is a perspective view of the housing when the lock lever is slid to the lock position.
FIG. 17 is a perspective view of the housing when the lock lever is slid to the release position.
FIG. 18 is a perspective view showing a state where a microphone is attached to a first pivot leg of the display unit.
FIG. 19 is a perspective view showing a wiring path of a cable connected to a microphone.
FIG. 20 is a front view of a portable computer showing a state in which various functional parts are supported by a holder.
FIG. 21 is an exploded perspective view showing the relationship between the upper housing and the holder.
FIG. 22 is a perspective view of a portable computer showing a connecting portion between a housing and a display unit.
FIG. 23 is a perspective view of a keyboard.
FIG. 24 is a side view of the portable computer with the keyboard mounting portion broken away.
FIG. 25 is a perspective view of the portable computer showing a state in which a front portion of the upper housing is removed from the lower housing.
FIG. 26 is a perspective view of the portable computer showing a state where the front portion of the upper housing is attached to the lower housing.
FIG. 27 is a side view of a portable computer showing a state in which a keyboard is incorporated in a housing.
[Explanation of symbols]
2 ... Case
40a ... Circuit board (first circuit board)
49 ... Connector
51. Connector cover (first connector cover)
51a, 51b ... Cover part (upper cover part, lower cover part)

Claims (6)

A housing,
A connector provided in the housing;
A connector cover that covers the connector in an openable and closable manner;
The connector cover has a pair of cover portions, and these cover portions are rotatable between a closed position that covers the connector side by side and an open position that goes around to a position sandwiching the connector. A portable electronic device characterized by that. A housing for housing the circuit board;
A connector that is electrically connected to the circuit board and exposed outside the housing;
A connector cover that covers the connector in an openable and closable manner;
The connector cover has a pair of cover portions, and these cover portions are rotatable between a closed position that covers the connector side by side and an open position that goes around to a position sandwiching the connector. A portable electronic device characterized by that. 3. The portable electronic device according to claim 1, wherein the cover portions are brought into contact with each other when the cover portion is rotated to the closed position. 3. The housing according to claim 1, wherein the housing has a peripheral wall, and the cover portion of the connector cover is continuous with the peripheral wall of the housing when the cover portion is rotated to the closed position. A portable electronic device. 3. The connector according to claim 1, wherein the connector is exposed rearward from a rear end of the housing, and the connector cover moves the connector rearward when the cover portion is rotated to the closed position. A portable electronic device characterized by being concealed. 6. The portable electronic device according to claim 5, wherein the cover portion of the connector cover wraps around both the upper and lower sides of the connector when rotated to the open position.

Images