JP4163287B2 - Electronics - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic device such as a portable computer or a mobile information terminal.
[0002]
[Prior art]
In recent years, various book-type portable computers have been provided as portable electronic devices that are easy to carry and have high functionality. These computers are provided with a computer main body having a box-shaped housing to which a keyboard or the like is attached, and a display unit provided with a housing that is supported by the computer main body and accommodates a color liquid crystal display. Various functional parts such as a circuit board and a hard disk drive are accommodated inside the casing of the computer main body.
[0003]
This type of computer is equipped with a battery pack that functions as a driving power source because it is relatively frequently used in places where commercial AC power cannot be obtained. The battery pack is detachably accommodated in a battery accommodating portion formed inside the casing of the computer main body.
[0004]
The battery accommodating portion has an opening that is opened on a bottom surface of the casing of the computer main body. The battery pack is inserted into and removed from the battery accommodating portion through the opening.
[0005]
A first end and a second end that are in contact with each other and are electrically connected to the first end connected to the opening of the battery housing and the one end of the battery pack facing the first end. Each connector is provided.
[0006]
In addition, the other end portion of the battery pack located on the opposite side of the one end portion where the second connector is provided, and the second end portion facing the first end portion of the battery housing portion, Are provided with a convex portion and a locking portion that lock each other.
[0007]
[Problems to be solved by the invention]
Since the above-described conventional portable computer has only one set of the convex portion and the locking portion described above, rattling occurs after the battery pack is attached to the battery housing portion, There was a risk of dropping from the battery housing.
[0008]
In recent years, portable electronic devices represented by portable computers and mobile information terminals have been increasingly demanded to be thinner in order to make it easier for users to carry.
[0009]
In order to prevent the battery pack from rattling or dropping off, a battery cover that covers the battery pack together with the battery housing portion may be attached to the casing of the computer main body. In this case, it becomes difficult to meet the above-described demand for thinning the casing, such as an increase in the thickness image of the computer main body.
Accordingly, an object of the present invention is to provide an electronic device that can prevent the pack-like device from rattling or unintentionally falling off and that can be thinned.
[0010]
[Means for Solving the Problems]
To achieve the above objective, The present invention Electronic equipment Enclosure A pack housing portion formed in the housing and having a first wall portion on which the first terminal is provided, and a second wall portion facing the first wall portion; Above On the second wall Multiple locking parts And detachably accommodated in the pack accommodating portion, Above One end provided with a second terminal electrically connected to the first terminal; Above A pack-like device having a second end provided with a plurality of engaging portions respectively engaged with the plurality of locking portions; While having the plurality of locking portions, it is slidable between a lock position where the locking portions are engaged with the engaging portions and a lock release position where the locking portions are released from the engaging portions. A lock mechanism having an operating body; and an engagement receiving portion provided in the housing, wherein the lock mechanism has a lock body, and the lock body is engaged with the engagement receiving portion. The operating body is slidably attached to the operating body over a first position that restricts the operating body to the locked position and a second position that allows the operating body to move away from the engagement receiving portion. Be It is characterized by that.
[0011]
According to this configuration, a plurality of locking portions that engage the engaging portions of the pack-like device are provided along a direction that intersects the direction in which the first wall portion and the second wall portion in which the connector is disposed face each other. Since it distributes, it can mount | wear with a pack accommodating part in the state which suppressed the rattling of the pack-shaped apparatus.
[0012]
Furthermore, since the pack-like device can be mounted in a state where rattling is suppressed, it is not necessary to attach a cover or the like that covers the pack-like device together with the pack housing portion to the housing.
[0013]
invention In carrying out The present invention like, The operation body includes a guide groove that is slidably movable, and the engagement receiving portion is formed to be recessed from an inner peripheral surface of the guide groove. Is desirable.
[0014]
In this case, since the engaging portion and the engaging portion are arranged along the width direction of the second wall portion of the pack housing portion and the other end portion of the pack-like device, the back of the pack-like device is provided. The sticking can be further suppressed.
[0015]
further, invention In carrying out The present invention like, The lock body has a lock operation surface, and the lock operation surface is substantially flush with the operation surface of the operation body when displaced to the first position. Is desirable.
[0016]
Also, invention In carrying out The present invention like, Biasing means for urging the operating body to the lock position is provided. Is desirable.
[0017]
In this case, the engaging portion of the pack-shaped device is engaged with the engaging portion sandwiched with the ceiling wall of the pack housing portion, so that the rattling of the pack-shaped device described above can be more reliably suppressed.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a first embodiment of the present invention will be described with reference to FIGS.
FIG. 1 shows an ultra-small portable computer 1 as an electronic apparatus having a size that can be accommodated in a suit pocket. As shown in FIGS. 1 and 2, the computer 1 includes a computer main body 2 as a main body portion and a display unit 3 as a flat display portion supported by the computer main body 2.
[0019]
The computer main body 2 has a flat box-shaped housing 4, various functional parts such as a circuit board on which a CPU, ROM, RAM, etc., housed in the housing 4 are mounted, and an upper surface of the housing. An attached keyboard 5 is provided.
[0020]
The housing 4 has a flat bottom wall 4a, a front wall 4b continuous with the bottom wall 4a, a pair of side walls 4c and 4c, a rear wall 4d and an upper wall 4e. The upper wall 4e is disposed substantially parallel to the bottom wall 4a, and the front portion of the upper wall 4e is a flat armrest 8. The armrest 8 extends along the width direction of the housing 4. Further, behind the armrest 8, the keyboard 5 described above as a means for inputting information is disposed.
[0021]
As shown in FIGS. 1 and 2, the casing 4 includes a lower housing 6 having the bottom wall 4a and a peripheral wall 6a connected to the bottom wall 4a, the upper wall 4e, and the upper wall 4e. It is divided into an upper housing 7 having a continuous peripheral wall 7a.
[0022]
The housings 6 and 7 are detachably connected to each other. The peripheral walls 6a and 7a of the housings 6 and 7 are continuous with each other when the housings 6 and 7 are connected to each other, and constitute a front wall 4b, a side wall 4c, a rear wall 4d, and the like of the computer main body 2. Yes. The housings 6 and 7 are made of a metal material such as a magnesium alloy such as Mg—Al—Mn or Mg—Al—Zn—Mn. The above-described circuit board and the like are accommodated in the inside of the housing 4 provided with the housings 6 and 7.
[0023]
The display unit 3 includes a housing 14 having a flat box shape as a housing, and a color liquid crystal display 15 (hereinafter referred to as LCD) accommodated in the housing 14. The LCD 15 has a screen 15a on which information such as characters and figures is displayed.
[0024]
The housing 14 of the display unit 3 includes an LCD cover 16 as a first casing member that supports the LCD 15, and an LCD mask 17 as a second casing member that covers the LCD 15 together with the LCD cover 16. ing.
[0025]
The LCD cover 16 is made of the same magnesium alloy as the upper and lower housings 6 and 7 described above. The LCD mask 17 has a display window 18 that exposes the screen 15a of the LCD 15 to the outside, and is made of a synthetic resin material such as ABS resin. The LCD mask 17 is detachably connected to the LCD cover 16.
[0026]
The display unit 3 is pivotally supported by a hinge device (not shown) provided at the rear end of the housing 4 of the computer main body 2. For this reason, the display unit 3 can be freely opened and closed over a closed position that covers the armrest 8 and the keyboard 5 and an open position that exposes the armrest 8 and the keyboard 5.
[0027]
As shown in FIGS. 3 and 4, the housing 4 of the computer main body 2 forms a battery housing portion 20 as a pack housing portion. The battery housing portion 20 extends along the width direction of the housing 4 below the armrest 8.
[0028]
The battery housing portion 20 includes a first end wall 21a, a second end wall 21b and a side wall 22 extending upward from the bottom wall 4a, and a ceiling connected to the first and second end walls 21a, 21b and the side wall 22. Defined by the wall 23.
[0029]
The first and second end walls 21 a and 21 b are arranged apart from each other in the width direction of the housing 4. The first end wall 21 a has a connector outlet 24 connected to the battery housing part 20. The second end wall 21 b is disposed substantially parallel to the side wall 4 c at a position adjacent to the side wall 4 c of the housing 4.
[0030]
Further, the first end wall 21a and the second end wall 21b are disposed substantially parallel to each other. The side wall 22 is disposed at a position spaced from the front wall 4 b in the depth direction of the housing 4. The ceiling wall 23 faces the inner surface of the armrest 8.
[0031]
The battery housing part 20 has an opening 25. The opening 25 opens to the bottom wall 4 a and the front wall 4 b and faces the ceiling wall 23. The opening 25 has a rectangular shape having a long axis extending in the width direction of the housing 4 and a short axis extending in the depth direction of the housing.
[0032]
As shown in FIG. 3, a first connector 26 as a first terminal is disposed in the battery housing portion 20. The first connector 26 includes a connector body 27 and a plurality of contacts 28 supported by the connector body 27. The connector body 27 is supported on the back surface of the circuit board described above. The connector body 27 is disposed at a position adjacent to the first end wall 21 a in a state where the surface having the contact 28 is exposed to the battery housing portion 20 through the connector outlet 24.
[0033]
The contact 28 is exposed to the battery housing part 20 through the connector outlet 24. The contacts 28 are arranged in a line in the depth direction of the housing 4. The contact 28 projects from the first end wall 21a toward the battery accommodating portion 20 side. The tips of these contacts 28 face the direction of the opening 25 of the battery housing part 20. The contact 28 can be elastically deformed in the direction of being retracted into the connector body 27.
[0034]
The first end wall 21a constitutes a first wall portion described in the present specification, and the second end wall 21b constitutes a second wall portion described in the present specification. is doing. Therefore, the first connector 26 is provided on the first wall portion, and locking portions 71 and 71 described later are provided on the second wall portion.
[0035]
A battery pack 31 (shown in FIGS. 3 and 4) as a pack-like device is detachably accommodated in the battery accommodating portion 20. The battery pack 31 functions as a driving power source when the computer 1 is used in a place where commercial power cannot be obtained. The battery pack 31 is inserted into and removed from the battery housing portion 20 along the arrow K in FIG. 8 along the thickness direction of the housing 4 through the opening 25, for example.
[0036]
The battery pack 31 includes a synthetic resin battery case 32 and a secondary battery (not shown) housed in the battery case 32. The battery case 32 fits into the battery housing portion 20 exactly. It is in the shape of a rectangular box with a size that fits in.
[0037]
The battery case 32 has first and second end faces 33a and 33b facing each other with the secondary battery interposed therebetween. The first end surface 33 a faces the first end wall 21 a of the battery housing part 20 and the first connector 26. The second end surface 33b is located on the opposite side of the first end surface 33a and faces the second end wall 21b of the battery housing portion 20.
[0038]
As shown in FIG. 3, a second connector 34 as a second terminal that is electrically connected to the first connector is disposed on the first end surface 33 a of the battery case 32. The second connector 34 has a plurality of terminal plates 35. The terminal board 35 is electrically connected to the secondary battery. These terminal plates 35 are arranged in a line at intervals from each other so as to face the contact 28 of the first connector 26.
[0039]
The first end surface 33a and the vicinity of the end surface 33a constitute one end portion described in the present specification, and the second end surface 33b and the vicinity of the end surface 33b are described in the present specification. The other end is configured. For this reason, the second connector 34 is provided at the one end, and engaging portions 41, 41 described later are provided at the other end.
[0040]
The battery case 32 has a flat upper surface 36a and a lower surface 36b. The upper surface 36a and the lower surface 36b are connected to the first and second end surfaces 33a and 33b. When the battery pack 31 is accommodated in the battery accommodating portion 20, the upper surface 36a is opposed to the ceiling wall 23, and the lower surface 36b is substantially flush with the bottom wall 4a. It has become.
[0041]
As shown in FIG. 4, the battery case 32 includes a pair of engaging portions 41 and 41 that are formed to protrude outward and are respectively engaged by a pair of locking portions 71 and 71 described later. These engaging portions 41, 41 are juxtaposed on the second end surface 33 b of the battery case 32 along the width direction of the end surface 33 b, and are disposed on the opposite side of the second connector 34. When the battery pack 31 is accommodated in the battery accommodating portion 20, these engaging portions 41, 41 are provided at the end face 42 that faces the second end wall 21 b and when the battery pack 31 is attached to the battery accommodating portion 20. And an inclined surface 43 that comes into contact with a cam surface 72 of a locking portion 71 of a lock mechanism 51 as a holding mechanism described later.
[0042]
The inclined surface 43 extends from the front wall 4b of the housing 4 to the side wall of the battery housing part 20 as the battery pack 31 is housed in the battery housing part 20 as it goes from the upper surface 36a to the lower surface 36b of the battery case 32. It is formed so as to be gradually inclined toward 22. Thus, the inclined surface 43 is formed along the direction intersecting the arrow K.
[0043]
As shown in FIG. 5, a guide groove 45 is formed on the peripheral wall 6 a of the lower housing 6 that constitutes one side wall 4 c adjacent to the second end wall 21 b of the pair of side walls 4 c, 4 c of the housing 4. Is formed. The guide groove 45 is provided in the vicinity of a corner portion 46 where the front wall 4b and the side wall 4c of the housing 4 intersect each other. The guide groove 45 extends along the depth direction of the housing 4, and is formed in a size that allows a connecting portion of an operation body 52 to be described later to slide.
[0044]
The guide groove 45 has a slit-like insertion port 47 opened at a mating portion with the upper housing 7. The insertion port 47 is formed in a size that allows a connecting portion of an operation body 52 described later to enter and exit.
[0045]
The guide groove 45 is formed with an engagement receiving portion 48 that engages with an engagement portion 75a located at an upper end portion of a hook portion 75 of the lock body 53 described later. The engagement receiving portion 48 is disposed on the front wall 4 b side of the insertion port 47, and is recessed from the inner peripheral surface 45 a of the guide groove 45 toward the mating portion with the upper housing 7.
[0046]
In addition, a pair of slide grooves 49, 49 facing the guide groove 45 are disposed on the second end wall 21 b of the battery housing portion 20. The slide groove 49 includes a slit-like insertion groove 49a opened at a mating portion with the upper housing 7, and a depth direction of the housing 4 from the lower end portion of the insertion groove 49a toward the rear wall 4d. And a locking portion slide groove 49b extending along.
[0047]
The insertion groove 49a is formed in a size that allows a locking portion 71 (described later) of the operating body 52 to enter and exit, and the locking portion slide groove 49b has the locking portion 71 at a depth of the casing 4. It is formed in a size that can be slid along. The lower housing 6 includes a connecting wall 6b that connects the second end wall 21b and the peripheral wall 6a to each other.
[0048]
As shown in FIGS. 4 and 5, in the lower housing 6, a lock mechanism 51 as a holding mechanism is provided between the second end wall 21b of the battery housing portion 20 and the peripheral wall 6a. As shown in FIG. 5, the lock mechanism 51 includes an operation body 52, a lock body 53, and a return spring 54 as an urging means.
[0049]
When the operation body 52 is attached to the lower housing 6, the operation body 52 is accommodated between the operation portion 61 exposed on the outer wall such as the side wall 4 c of the housing 4, and the second end wall 21 b and the peripheral wall 6 a. The wall portion 62 and a connection portion (not shown) for connecting the operation portion 61 and the wall portion 62 to each other are integrally provided.
[0050]
The operation portion 61 has a rectangular shape extending along the depth direction of the housing 4 when the operation body 52 is attached to the lower housing 6, and the operation surface 64 exposed to the outer wall of the housing 4. And a plurality of protrusions 65 for hanging a plurality of fingertips and the like formed on the operation surface 64. The protrusions 65 are formed so as to protrude outward from the housing 4 and to extend in parallel with each other along the thickness direction of the housing 4. The operation part 61 has a notch 66 formed by being cut downward from the upper end surface 61a.
[0051]
The wall portion 62 has a rectangular shape extending along the depth direction of the housing 4 when the operating body 52 is attached to the lower housing 6, and passes through the slide groove 49 to form the pack housing portion. 20 has a pair of locking portions 71 and 71 (shown in FIG. The locking portions 71 and 71 are juxtaposed along the depth direction of the casing 4 that intersects the direction in which the first end wall 21a and the second end wall 21b face each other. Thus, the said latching | locking parts 71 and 71 are distribute | arranged along the width direction of the 2nd end wall 21b.
[0052]
Each of the locking portions 71 is formed in a size that can slide along the depth direction of the housing 4 through the insertion groove 49a and within the locking portion slide groove 49b.
[0053]
When the operating body 52 attached so as to be slidable along the depth direction of the housing 4 is positioned on the most front wall 4b side as the lock position, the locking portion 71 is inclined surface 43 of the engaging portion 41. Respectively have cam surfaces 72 that are slidably contactable. As shown in FIG. 8 and the like, the cam surface 72 gradually approaches the front wall 4b from the lower housing 6 toward the upper housing 7, that is, from the bottom wall 4a of the housing 4 toward the upper wall 4e. Inclined in the direction.
[0054]
As described above, the locking portion 71 locks the engaging portion 41 of the battery pack 31 when the operating body 52 is positioned closest to the front wall 4b, and the battery pack 31 is connected to the battery accommodating portion 20. It is supposed to hold on.
[0055]
The locking portion 71 releases the engaging portion 41 of the battery pack 31 when the operating body 52 is positioned on the rear wall 4d side of the housing 4. The wall portion 62 is integrally provided with a convex portion 73 that protrudes toward the rear wall 4d when the wall portion 62 is accommodated between the second end wall 21b and the peripheral wall 6a.
[0056]
The connecting portion connects the operation portion 61 and the wall portion 62 to each other, is formed in a size that allows the insertion opening 47 to enter and exit, and the inside of the guide groove 45 extends in the depth direction of the housing 4. It is formed in a size that can be slid along.
[0057]
The return spring 54 is arranged such that one end thereof is engaged with the convex portion 73 of the wall 62 and the other end is in contact with the connecting wall 6b. The casing 4 is biased toward the front wall 4b.
[0058]
With the configuration described above, as shown in FIG. 5, the operating body 52 includes the connecting portion inserted into the guide groove 45 through the insertion port 47 and the locking portion 71 locked through the insertion groove 49a. The lower housing 6 is inserted into the part slide groove 49b so that the operation part 61 is exposed to the outer wall of the housing 4 and the wall part 62 is accommodated between the peripheral wall 6a and the second end wall 21b. It can be mounted on.
[0059]
The operating body 52 includes a locking position where the engaging portion 71 engages the engaging portion 41 of the battery pack 31, and a locking portion 71, as the connecting portion slides in the guide groove 45. Is slidable over the unlocking position where the engaging portion 41 of the battery pack 31 is released. The return spring 54 urges the operating body 52 to the locked position.
[0060]
The lock body 53 includes a hook portion 75 and a lock operation surface 76. The hook portion 75 is adapted to be engaged with the notch portion 66 of the operation portion 61, and an engaging portion 75 a located at the upper end portion thereof engages with the engagement receiving portion 48 of the guide groove 45. It is like that.
[0061]
Further, the hooking portion 75 has a first position where the engaging portion 75a shown in FIG. 6 engages with the engaging receiving portion 48, and the engaging portion 75a shown in FIG. It is attached to the operating body 52 so as to be slidable over the second position.
[0062]
The lock operation surface 76 is substantially the same as the operation surface 61 of the operation body 52 when the upper end portion 75a of the engagement portion 75 is engaged with the engagement receiving portion 48 and displaced to the first position described above. It is formed to become one. The lock operation surface 76 includes a plurality of protrusions 77 on which a fingertip or the like is applied.
[0063]
The lock body 53 includes a convex portion 78 as positioning means, and the operating body 52 includes first and second concave portions (not shown). The convex portion 78 of the lock body 53 is engaged with the first concave portion of the operating body 52 to position the lock body 53 at the first position, and the second concave portion and the second concave portion. The lock body 53 is locked and positioned in the second position.
[0064]
In addition, the lock body 53 can be slid from the first position to the second position by placing a fingertip or the like on the protrusion 77 of the lock operation surface 76. .
[0065]
With the above-described configuration, when the lock body 53 is displaced to the first position, the upper end portion 75a of the engagement portion 75 is engaged with the engagement receiving portion 48 of the guide groove 45, so that the operation body 52 is engaged. The housing 4 is moved along the depth direction of the housing 4 to be restricted to the locked position, and when displaced to the second position, the upper end portion 75a of the engaging portion 75 is detached from the engaging receiving portion 48, The operation body 52 is allowed to move.
[0066]
According to the above-described configuration, when the battery pack 31 is attached to the battery housing unit 20, first, the computer 1 is inverted and the bottom wall 4 a of the housing 4 is directed upward. Next, as shown in FIG. 4, the battery pack 31 is inserted into the battery housing part 20 through the opening 25. At this time, the second connector 34 provided on the first end surface 33a is opposed to the first connector 26 of the first end wall 21a of the battery housing portion 20, and the first end surface 33a is The battery is inserted into the battery housing unit 20 in a slanting downward posture at the top.
[0067]
Then, the contact 28 of the first connector 26 and the terminal plate 35 of the second connector 34 are brought into contact with each other, and the end of the battery pack 31 on the first end surface 33a side is connected to the battery housing portion 20. Is inserted into the end of the first end wall 21a.
[0068]
After the terminal plate 35 of the second connector 34 and the contact 28 of the first connector 26 are brought into contact with each other, the battery pack 31 is rotated downward with the contact portion as a fulcrum, and the battery pack 31 The end portion on the second end surface 33 b side where the engaging portion 41 is provided is dropped into the battery housing portion 20.
[0069]
At this time, as shown in FIG. 8 (A), since the operating body 52 including the locking portion 71 that holds the battery pack 31 in the battery housing portion 20 is biased to the lock position, The inclined surface 43 of the joint portion 41 and the cam surface 72 of the locking portion 71 are in contact with each other. The lock body 53 is displaced to the second position.
[0070]
When the battery pack 31 is further rotated downward from this state, the engaging portion 41 moves downward as shown in FIG. 8B, and the shape of the inclined surface 43 and the cam surface 72 is changed. Thus, the operating body 52 is slid from the lock position toward the lock release position. When the engaging portion 41 gets over the cam surface 72 by the slide of the operating body 52, the engaging portion 41 enters the insertion groove 49a, and the pressing of the operating body 52 by the engaging portion 41 is released. .
[0071]
As a result, as shown in FIG. 8C, the operating body 52 is forcibly pushed back to the locked position by the return spring 54, and the engaging portion 41 is located between the locking portion 71 and the ceiling wall 23. Engaged with each other. At this time, the battery pack 31 completely enters the battery housing portion 20, the upper surface 36a of the battery case 32 overlaps the ceiling wall 23, and the lower surface 36b of the battery case 32 is substantially the same as the bottom wall 4a. It will be the same.
[0072]
Then, the lock body 53 is displaced from the second position to the first position, and the operation body 52 is held at the lock position. Since the operating body 52 is urged to the lock position by the return spring 54 and is held at the lock position by the lock body 53, the battery pack 31 is locked in a state of being housed in the battery housing portion 20. And even if an operator's fingertip etc. move the said operation surface 64 along the depth direction of the housing | casing 4 accidentally, the fall of the battery pack 31 from the battery accommodating part 20, etc. are prevented.
[0073]
Next, when taking out the battery pack 31 from the battery accommodating portion 20, first, as shown in FIG. 2, the computer 1 is turned upside down so that the bottom wall 4a of the housing 4 faces upward. Next, the lock body 52 is displaced to the second position. Then, the operating body 52 is moved from the lock position toward the lock release position against the elastic restoring force of the return spring 54.
[0074]
Then, the engaging portion 41 is released from being locked by the locking portion 71, and the battery pack 31 is moved from the end on the second end surface 33b side where the engaging portion 41 is provided to the inside of the battery housing portion 20. Will leave
According to this embodiment, the locking portions 71 and 71 that lock the engaging portion 41 of the battery pack 31 are connected to the second end wall 21b with the first end wall 21a and the second end wall 21b. Since the battery pack 31 is arranged along a direction intersecting with the opposite direction, the battery pack 31 can be attached to the battery housing portion 20 in a state in which the rattling of the battery pack 31 is suppressed. Therefore, it is possible to prevent the battery pack 31 from being unexpectedly dropped.
[0075]
Furthermore, since the battery pack 31 can be mounted in a state in which rattling is suppressed, it is not necessary to attach a cover or the like covering the battery pack 31 together with the battery housing portion 20 to the housing 4. For this reason, it is possible to reduce the thickness of the casings 4 and 14 of the entire device 1.
[0076]
Further, the locking portions 71 and 71 and the engaging portions 41 and 41 are arranged along the width direction of the second end wall 21b of the battery housing portion 20 and the second end face 33b of the battery pack 31, respectively. Therefore, rattling of the battery pack 31 can be further suppressed.
[0077]
Further, the engaging portions 41, 41 of the battery pack 31 are engaged with the engaging portions 71, 71 together with the ceiling wall 23 of the battery housing portion 20, so that the above-described rattling of the battery pack 31 is further ensured. Can be suppressed.
[0078]
Since the lock body 53 that restricts and allows the movement of the operation body 52 is engaged with the notch 66 of the operation body 52 having the engagement portion 71 and attached, the thin casings 4 and 14 of the entire device 1 are thin. It can be shaped. Further, since the lock operation surface 76 of the lock body 53 and the operation surface 64 of the operation body 52 are formed to be substantially flush with each other, it is possible to further reduce the size of the casings 4 and 14. Become.
[0079]
Next, a second embodiment will be described with reference to FIGS. 9 to 15. Note that the same components as those in the first embodiment described above are denoted by the same reference numerals and description thereof is omitted.
In the present embodiment, as shown in FIG. 9, a guide groove 81 is formed on the peripheral wall 6 a of the lower housing 6 constituting one side wall 4 c adjacent to the second end wall 21 b of the side walls 4 c of the housing 4. Is formed. The guide groove 81 is provided in the vicinity of the corner portion 46 where the front wall 4b and the side wall 4c intersect each other. The guide groove 81 extends along the depth direction of the housing 4 and is formed in a size that allows an engagement portion 91 of an operation lever 86 to be described later to slide.
[0080]
The guide groove 81 is formed with an engagement receiving portion 82 that engages with an engagement portion 98a located at an upper end portion of a hook portion 98 of a second lock body 88 described later. The engagement receiving portion 82 is formed in a concave shape from the inner peripheral surface 81 a of the guide groove 81 toward the mating portion with the upper housing 7.
[0081]
In addition, a pair of slide grooves 83, 83 facing the guide groove 81 are arranged on the second end wall 21 b of the battery housing portion 20. Each of the slide grooves 83 includes a slit-like insertion groove 84 opened at a mating portion with the upper housing 7, and the depth of the housing 4 from the lower end portion of the insertion groove 84 toward the rear wall 4d. And a locking portion slide groove 85 extending along the direction.
[0082]
The insertion groove 84 is formed in a size that allows a locking portion 94 of a first lock body 87 described later to enter and exit. The locking portion slide groove 85 is formed in such a size that the locking portion 94 can slide along the depth of the housing 4.
[0083]
As shown in FIGS. 9 and 10, the lock mechanism 51 includes an operation lever 86 that is exposed and attached to an outer wall such as the side wall 4 c of the housing 4, and the peripheral wall 6 a and the second end wall 21 b of the lower housing 6. A first lock body 87 accommodated therebetween, a second lock body 88 attached to the operation lever 86, and a return spring 89 as an urging means are provided.
[0084]
As shown in FIGS. 9, 11, and 12, the operation lever 86 includes an operation portion 90 that is exposed to an outer wall such as a side wall 4 c of the housing 4 when attached to the lower housing 6, and the guide groove. An engagement portion 91 that passes through 81 and engages with an engagement groove 95 described later of the first lock body 87 is integrally provided.
[0085]
The operation unit 90 has a rectangular shape extending along the depth direction of the housing 4 when attached to the lower housing 6, and the operation surface 100 exposed on the outer wall of the housing 4, and this operation And a plurality of protrusions 92 for hanging a fingertip or the like formed on the surface 100. The protrusions 92 are formed so as to protrude outward from the housing 4 and to extend in parallel with each other along the thickness direction of the housing 4.
[0086]
The operation unit 90 has a cutout portion 93 formed by cutting downward from the upper end surface 90a. The engagement portion 91 is engageable with the engagement groove 95, and the operation lever 86 and the first lock body 87 can be engaged with and disengaged from each other.
[0087]
As shown in FIGS. 9, 11, and 12, the first lock body 87 extends in the depth direction of the housing 4 when it is accommodated between the peripheral wall 6 a and the second end wall 21 b. A rectangular shape extending along the pair, and a pair of locking portions 94, 94 projecting into the pack housing portion 20 through the slide groove 83, and an engaging portion 91 engaging with the engaging portion 91 of the operating lever 86. A groove 95 and a convex portion 96 protruding toward the rear wall 4d are integrally provided.
[0088]
As shown in FIGS. 10 and 15, the locking portions 94, 94 are arranged in the depth direction of the housing 4 that intersects the direction in which the first end wall 21 a and the second end wall 21 b face each other. Along the line. Thus, the locking portions 94 are arranged along the width direction of the second end wall 21b.
[0089]
When the first lock body 87 slidably mounted along the depth direction of the housing 4 is positioned on the most front wall 4b side as the lock position, the locking portion 94 is engaged with the engagement portion 41. Each of the inclined surfaces 43 has a cam surface 97 that is slidably contactable.
[0090]
As shown in FIG. 15, the cam surface 97 gradually approaches the front wall 4b from the lower housing 6 toward the upper housing 7, that is, from the bottom wall 4a of the housing 4 toward the upper wall 4e. It is formed to be inclined.
[0091]
When the first lock body 87 is located closest to the front wall 4b, the locking portion 94 engages the engaging portion 41 of the battery pack 31 and holds the battery pack 31 in the battery housing portion 20. It is supposed to be. The engaging portion 94 is configured to release the engaging portion 41 of the battery pack 31 when the first lock body 87 is positioned on the rear wall 4d side of the housing 4.
[0092]
The engagement groove 95 has a slit shape extending along the depth direction of the housing 4, and the engagement portion 91 of the operation lever 86 engages with the engagement portion 91. Are slidable along the depth direction.
[0093]
The return spring 89 has one end engaged with the convex portion 96 of the first lock body 87 and the other end in contact with the connecting wall 6b. One locking body 87 is urged toward the front wall 4 b of the housing 4, and the operation lever 86 is connected to the front wall 4 b of the housing 4 through the engaging groove 95 and the engaging portion 91. Energized to the side.
[0094]
Further, the engagement portion 91 of the operation lever 86 and the engagement groove 95 of the first lock body 87 cause the operation lever 86 to be displaced toward the rear wall 4 d against the elastic restoring force of the return spring 89. When the first lock body 87 is displaced, the first lock body 87 is displaced to the rear wall 4b side, and when only the first lock body 87 is displaced to the rear wall 4d side, the operation lever 86 is interlocked. Therefore, it is formed in a size that does not displace.
[0095]
With the above-described configuration, as shown in FIG. 9, the operation lever 86 and the first lock body 87 are configured such that the operation portion 90 of the operation lever 86 is exposed on the outer wall of the housing 4 and the engagement portion 91 is Through the guide groove 81, it engages with the engagement groove 95 of the first lock body 87 accommodated between the peripheral wall 6 a and the second end wall 21 b and can be attached to the lower housing 6. ing.
[0096]
The first lock body 87 is supported by the engaging portion 91 of the operating lever 86 that engages with the engaging groove 95 and slides in the guide groove 81, and the locking portion 94 is connected to the battery pack. The engagement portion 41 of the battery pack 31 is slidable between a lock position where the engagement portion 41 is engaged and a lock release position where the engagement portion 94 releases the engagement portion 41 of the battery pack 31. The return spring 89 biases the first lock body 87 to the lock position.
[0097]
The second lock body 88 includes a hook portion 98 and a lock operation surface 99. The hook portion 98 is adapted to be engaged with the notch portion 93 of the operation portion 90 of the operation lever 86, and the engagement portion 98 a located at the upper end portion thereof is the engagement receiving portion 82 of the guide groove 81. To be engaged.
[0098]
The second lock body 88 includes a first position where the engagement portion 98a shown in FIG. 13 engages with the engagement receiving portion 82, and the engagement portion 98a shown in FIG. It is attached to the operation lever 86 so as to be slidable over a second position where it is separated from the second position.
[0099]
When the upper end 98a of the engagement portion 98 is engaged with the engagement receiving portion 82 of the guide groove 81 and is displaced to the first position described above, the lock operation surface 99 is the operation surface of the operation lever 86. It is formed so as to be substantially flush with 100. The lock operation surface 99 includes a plurality of protrusions 101 on which fingertips and the like are applied.
[0100]
Further, as shown in FIG. 9, the second lock body 88 includes a convex portion 102 as positioning means, and the operation lever 86 includes first and second concave portions (not shown). The convex portion 102 of the second lock body 88 is adapted to engage with the first concave portion of the operation lever 86 to position the second lock body 88 at the first position. The second locking body 88 is positioned at the second position by engaging with the second recess.
[0101]
In addition, the second lock body 88 can be slid from the first position to the second position by hooking a fingertip or the like on the protrusion 101 of the lock operation surface 99. It has become.
[0102]
With the configuration described above, when the second lock body 88 is displaced to the first position, the upper end portion 98a of the engagement portion 98 is engaged with the engagement receiving portion 82 of the guide groove 81, The movement of the operation lever 86 along the depth direction of the casing 4 is restricted, and when the operation lever 86 is displaced to the second position, the upper end portion 98a of the engagement portion 98 is detached from the engagement receiving portion 82, and the operation is performed. The lever 86 is allowed to move.
[0103]
In addition, the first lock body 87 is configured so that the operation lever 86 resists the elastic restoring force of the return spring 89 when the operation lever 86 is displaced from the front wall 4b side toward the rear wall 4d. In conjunction with the displacement, the sliding movement from the locked position toward the unlocked position.
[0104]
When only the first lock body 87 is displaced from the lock position toward the lock release position, the first lock body 87 does not displace the operation lever 86 and moves the slide groove 84. It slides along the locking part slide groove 85. For this reason, even when the second lock body 88 is displaced to the first position and the sliding movement of the operation lever 86 is restricted, the first lock body 87 is not locked to the lock position. The slide movement is possible across the position.
[0105]
According to the above-described configuration, when the battery pack 31 is attached to the battery housing unit 20, first, the computer 1 is inverted and the bottom wall 4 a of the housing 4 is directed upward. Next, the battery pack 31 is inserted into the battery housing part 20 through the opening 25. At this time, the first end face in a state in which the second connector 34 provided on the first end face 33a is opposed to the first connector 26 of the first end wall 21a of the battery accommodating portion 20. Inserted into the battery housing portion 20 in an obliquely downward posture with 33a at the top.
[0106]
Then, the contact 28 of the first connector 26 and the terminal plate 35 of the second connector 34 are brought into contact with each other, and the end of the battery pack 31 on the first end surface 33a side is connected to the battery housing portion 20. Is inserted into the end of the first end wall 21a.
[0107]
After the terminal plate 35 of the second connector 34 and the contact 28 of the first connector 26 are brought into contact with each other, the battery pack 31 is rotated downward with the contact portion as a fulcrum, and the battery pack 31 The end portion on the second end surface 33 b side where the engaging portion 41 is provided is dropped into the battery housing portion 20.
[0108]
At this time, as shown in FIG. 15 (A), the first lock body 87 including the locking portion 94 that holds the battery pack 31 in the battery housing portion 20 is biased to the lock position. The inclined surface 43 of the engaging portion 41 and the cam surface 97 of the locking portion 94 are in contact with each other.
[0109]
When the battery pack 31 is further rotated downward from this state, the engaging portion 41 moves downward as shown in FIG. 15B and the shape of the inclined surface 43 and the cam surface 97 is changed. Thus, the first lock body 87 is slid from the lock position toward the lock release position. When the engagement portion 41 gets over the cam surface 97 by the sliding of the first lock body 87, the engagement portion 41 enters the insertion groove 84, and the first lock body by these engagement portions 41 is inserted. The pressing of 87 is released.
[0110]
As a result, as shown in FIG. 15C, the first lock body 87 is forcibly pushed back to the lock position by the return spring 89, and the engagement portion 41 has the engagement portion 94 and the ceiling wall 23. It is locked in a state sandwiched between the two. At this time, the battery pack 31 completely enters the battery housing portion 20, the upper surface 36a of the battery case 31 overlaps the ceiling wall 23, and the lower surface 36b of the battery case 31 is substantially the same as the bottom wall 4a. It will be the same.
[0111]
Then, the second lock body 88 is displaced from the second position to the first position, or kept at the first position. Since the first lock body 87 is urged to the lock position by the return spring 89 and the operation lever 86 is held in the lock position by the second lock body 88, the battery pack 31 has the battery housing portion 20. Locked in the housed state. Even if the operator's fingertip or the like mistakenly moves the operation surface 100 of the operation lever 86 along the depth direction of the housing 4, the battery pack 31 is prevented from falling off from the battery housing portion 20.
[0112]
Next, when taking out the battery pack 31 from the battery accommodating portion 20, first, the computer 1 is turned upside down so that the bottom wall 4a of the housing 4 faces upward. Next, the second lock body 88 is displaced to the second position. Then, the operation lever 86 is moved from the front wall 4b side toward the rear wall 4d against the elastic restoring force of the return spring 89.
[0113]
Then, the engagement of the engagement portion 41 of the battery pack 31 by the engagement portion 94 is released, and the battery pack 31 is accommodated in the battery from the end on the second end surface 33b side where the engagement portion 41 is provided. Will be disengaged from the inside of the section 20
According to the present embodiment, the locking portions 94 and 94 that lock the engaging portion 41 of the battery pack 31 are connected to the second end wall 21b by the first end wall 21a and the second end wall 21b. Since it arrange | positions along the direction which cross | intersects with the opposing direction, it can mount | wear with the battery accommodating part 20 in the state which suppressed the rattling of the battery pack 31. FIG. Therefore, it is possible to prevent the battery pack 31 from being unexpectedly dropped.
[0114]
Further, since the battery pack 31 can be mounted in a state in which rattling is suppressed, it is not necessary to attach a cover or the like covering the battery pack 31 together with the battery housing portion 20 to the housing 4. For this reason, it is possible to reduce the thickness of the casings 4 and 14 of the entire device 1.
[0115]
Further, the locking portions 71 and 71 and the engaging portions 41 and 41 are arranged along the width direction of the second end wall 21b of the battery housing portion 20 and the second end face 33b of the battery pack 31, respectively. Therefore, rattling of the battery pack 31 can be further suppressed.
[0116]
Further, the engaging portions 41, 41 of the battery pack 31 are engaged with the engaging portions 71, 71 together with the ceiling wall 23 of the battery housing portion 20, so that the above-described rattling of the battery pack 31 is further ensured. Can be suppressed.
[0117]
Further, the second lock body 88 that restricts and permits the movement of the operation lever 86 that slides the first lock body 87 having the engagement portion 94 in an interlocking manner is engaged with the notch portion 93 of the operation lever 86. Thus, the casings 4 and 14 of the entire device 1 can be thinned. Further, since the lock operation surface 99 of the second lock body 88 and the operation surface 100 of the operation lever 86 are formed to be substantially flush with each other, the housings 4 and 14 can be further downsized. It becomes possible.
[0118]
Furthermore, even when the movement of the operation lever 86 is restricted by the second lock body 88, the first lock body 87 can slide along the depth direction of the housing 4, and thus the battery pack 31. Can be attached to and held in the pack housing portion 20 through the opening 25 of the housing 4. Therefore, the operability of the lock mechanism 51 and the like when the battery pack 31 is mounted is further improved.
[0119]
Even in a state where the slide movement of the operation lever 86 is restricted, the first lock body 84 can slide, so that the engaging portion 41 of the battery pack 31 and the engaging portion 94 of the lock mechanism 51 are damaged. Is prevented.
[0120]
Furthermore, in the first and second embodiments described above, the battery pack 31 is shown as a pack-like device. However, for example, a hard disk drive device or a CD-ROM drive device may be used as the pack-like device.
[0121]
【The invention's effect】
According to the present invention described in detail above, the locking portion that engages the engaging portion of the pack-like device is along the direction intersecting the direction in which the first wall portion and the second wall portion face each other. Since a plurality of devices are arranged, the pack-like device can be attached to the pack housing portion in a state where rattling is suppressed. Therefore, unexpected dropping of the pack-like device can be prevented.
[0122]
Furthermore, since the pack-like device can be mounted in a state in which rattling is suppressed, it is not necessary to attach a cover or the like that covers the pack-like device together with the pack housing portion to the housing. For this reason, it is possible to reduce the thickness of the casing of the entire device.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a portable computer according to a first embodiment of the present invention.
FIG. 2 is a perspective view of the portable computer of the embodiment as viewed from the bottom side.
FIG. 3 is a perspective view showing a first connector of the battery housing unit and a second connector of the battery pack according to the embodiment;
FIG. 4 is a perspective view showing a state in which the battery pack according to the embodiment is inserted into a battery housing portion.
FIG. 5 is an exploded perspective view showing the lock mechanism of the embodiment.
FIG. 6 is a side view showing a state where the lock body of the embodiment is displaced to a first position.
FIG. 7 is a side view showing a state where the lock body of the embodiment is displaced to a second position.
FIG. 8 is a cross-sectional view showing a state in which the battery pack of the embodiment is locked to the locking portion.
FIG. 9 is an exploded perspective view showing a locking mechanism according to a second embodiment of the present invention.
FIG. 10 is a plan view showing the lock mechanism of the embodiment.
11 is a sectional view taken along line XI-XI in FIG.
12 is a cross-sectional view taken along line XII-XII in FIG.
FIG. 13 is a side view showing a state in which the second lock body of the embodiment is displaced to the first position.
FIG. 14 is a side view showing a state in which the second lock body of the embodiment is displaced to the second position.
FIG. 15 is a cross-sectional view showing a state in which the battery pack of the embodiment is locked to the locking portion.
[Explanation of symbols]
1 ... Portable computer
4 ... Case
4a ... Bottom wall
20 ... Battery storage part (pack storage part)
21a ... 1st end wall (1st wall part)
21b ... 2nd end wall (2nd wall part)
23 ... Ceiling wall
25 ... Opening
26 ... 1st connector (1st terminal)
31 ... Battery pack (packed equipment)
33a ... 1st end surface (one end part)
33b ... 2nd end surface (other end part)
34 ... Second connector (second terminal)
41 ... engaging portion
71 ... Locking part
94: Locking part

Claims (4)

A housing ,
A pack housing portion formed in the housing and having a first wall portion provided with a first terminal, and a second wall portion facing the first wall portion;
A plurality of engagement portions that are provided on the second wall portion,
Together is detachably accommodated in the pack accommodating portion, said second end portion to which the terminal is provided that is electrically connected to the first terminal, a plurality of which are respectively engaged with the plurality of engaging portions A pack-like device having the other end provided with the engaging portion;
While having the plurality of locking portions, it is slidable between a lock position where the locking portions are engaged with the engaging portions and a lock release position where the locking portions are released from the engaging portions. A lock mechanism having an operating body;
An engagement receiver provided in the housing;
Equipped with,
The lock mechanism includes a lock body, and the lock body is disengaged from the engagement receiving portion and a first position that engages with the engagement receiving portion to restrict the operating body to the lock position. The electronic device is attached to the operation body so as to be slidable over a second position where the operation body is allowed to move . A guide groove formed on the housing and slidably movable by the operating body;
The electronic device according to claim 1 , wherein the engagement receiving portion is formed to be concave from an inner peripheral surface of the guide groove . The lock body has a lock operation surface, and the lock operation surface is substantially flush with the operation surface of the operation body when displaced to the first position. Electronic equipment. The electronic apparatus according to claim 3 , further comprising an urging unit that urges the operation body toward the lock position .

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