This application is based upon and claims the benefit of priority from the prior Japanese Patent Application No. 2008-235238 filed on Sep. 12, 2008, the entire contents of which are incorporated herein by reference.
The embodiment described herein relates to an electronic apparatus including a keyboard.
Recently, portable electronic apparatuses including a display for displaying information, such as portable telephones and laptop personal computers, are being widely used. There is a desire to reduce the size and weight of such portable electronic apparatuses as well as increase the speed of processing and the availability of multiple functions. In order to achieve these desired features, the electronic apparatus uses a display device using a thin light liquid crystal panel. Similarly, reduction in size and realization of high performance have progressed in electronic components built in the electronic apparatuses.
However, there are limits to reducing the size and weight of the electronic components while maintaining the required performance. Thus, recently, the electronic apparatus is reduced in size and weight by improving, for example, the materials of the housing and controls, and by improving the configuration for fixing various components inside of the housing. For example, a laptop personal computer is reduced in weight by using a keyboard formed of a resin having elasticity. However, such a soft keyboard easily becomes separated from the electronic apparatus due to, for example, the tolerance of the keyboard or the housing, whereby the keyboard feels as if it is sinking when the keys are pressed, and therefore, a user feels uncomfortable in the operation of the keyboard.
With regard to the above problem, Registered Utility Model No. 3062920 discloses a technique of previously forming a keyboard into a curved shape and abutting the keyboard against the housing. In this technique, the central portion of the keyboard is concave with respect to both ends, whereby the central portion is reliably abutted against the housing. The Registered Utility Model further discloses an embodiment in which the central portion of the keyboard protrudes, and a convex portion abutted against the central portion is provided in the housing.
However, in the above technique, a special keyboard processed into a curved shape is required instead of a mass-produced sheet-like flat keyboard. Therefore, the electronic apparatus using the curved keyboard increases in cost. In order to process the keyboard into a curved shape, a metal plate having a thickness that allows the curved shape to be maintained is required to be used in the keyboard. Therefore, the keyboard increases in weight.
According to an aspect of an embodiment, an electronic apparatus includes a keyboard having a plurality of keys arranged on an upper surface and a rib, a long side of the keyboard extending in left and right directions, the rib protruding from the long side of the keyboard except at left and right ends; a supporting portion to support a lower surface at the left and right ends of the keyboard; and a fixing portion to fix the rib of the keyboard. The supporting portion supports the lower surface at the left and right ends of the keyboard so that the lower surface of the keyboard protrudes downward.
Additional aspects and/or advantages will be set forth in part in the description which follows and, in part, will be apparent from the description, or may be learned by practice of the invention.
The above-described embodiments of the present invention are intended as examples, and all embodiments of the present invention are not limited to including the features described above.
Hereinafter, an embodiment will be described with reference to the drawings.
The personal computer 10 includes a main unit 20 and a display unit 30. The display unit 30 is connected to the main unit 20 by a hinge 40 such that the display unit may be opened and closed.
The main unit 20 is used for executing various information processes. The main unit 20 includes a CPU and a hard disk device accommodated in a main housing 21. The main housing 21 includes on its upper surface a keyboard 22, a trackpad 23, a left button 24, and a right button 25. The main housing 21 further includes a fingerprint sensor 26 provided between the left button 24 and the right button 25. A fingertip is swept across the fingerprint sensor 26, whereby fingerprint authentication is performed.
A result of the information processing performed by the main unit 20 is displayed on the display unit 30. The display unit 30 includes a display housing 31. The display housing 31 accommodates a thin liquid crystal panel, which has an image screen 32 on the front surface, a control circuit for the liquid crystal panel, and a communication antenna.
When the display unit 30, as depicted in
The main unit 20 includes, on its rear surface, a radiation outlet 220 and connector openings 221a and 222a for connector fitting. A LAN cable connector 221 and a USB connector 222 are exposed by the connector openings 221a and 222a, respectively. The main unit 20 further includes on its side surface an expansion card slot 210 and a modem connector 223. The expansion card slot 210 is used for loading an expansion card for function expansion, such as a LAN card. The main unit 20 further includes, on the side surface opposite the side surface depicted in
A keyboard 22 (see
The personal computer 10 is basically configured as above.
Subsequently, each component of the personal computer 10 will be described in detail.
(Configuration of the Disk Storage Opening for Loading a Hard Disk Drive)
First, a configuration of the disk storage opening 241 loaded with a hard disk drive and the inside of the main housing 21 will be described.
The personal computer 10 includes:
a circuit board;
a housing which incorporates the circuit board and includes, on the bottom surface of the housing, an opening, through which a portion of one surface of the circuit board is visible, and a fastening hole;
an electronic component loaded into the opening and accommodated in the housing; and
a fastening member inserted into the fastening hole and fixing the housing.
The housing has a rib which extends from the circumferential edge of the opening toward the circuit board over the entire circumference of the opening and prevents the fastening member that has fallen into the opening from entering the housing.
A hard disk drive unit 310 is fitted into the disk storage opening 241. The hard disk drive unit 310 is loaded into the disk storage opening 241, and thereafter, fixed to the main housing 21 by a plurality of screws 312. The hard disk drive unit 310 includes a hard disk drive 320 and a mounting member 330 for fixing the hard disk drive 320 to the main housing 21. After the hard disk drive unit 310 is fixed to the main housing 21, a disk cover 242 depicted in
As depicted in
The main housing 21 further includes a rib 412 provided by extending an edge of the disk storage opening 241 toward the circuit board 400.
Holes 413 provided in the lower cover 212 are used for attaching the lower cover 212 to the upper housing 211 by a screw penetrating through the hole 413 and a hole 414 of the circuit board 400 depicted in
As described above, the plate 331, which is one end of the mounting member 330, is fixed to the main housing 21 by the screws 312, and the plate 332, which is the other end, is pressed by the disk cover 242 so as to be fixed to the main housing 21.
As illustrated in
As illustrated in
As depicted in
In this embodiment, the electronic component is preferably a hard disk drive.
The hard disk drive 320 may be attached and detached after shipment of the personal computer 10. Therefore, the disk storage opening 241 is provided in the main housing 21, and the hard disk drive 320 is inserted into the disk storage opening 241 to be thereafter fastened by screws. Therefore, the screws 312 may easily fall into the disk storage opening 241 during the production or repair of the personal computer 10. However, in this embodiment, a path from the inside of the opening to the inside of the housing is closed or narrowed by the rib 412, and trouble caused by the screws 312 entering the main housing 21 may be reduced if not prevented, and thus the need to disassemble the main housing 21 in order to find the screws 312 is greatly reduced if not prevented.
It is preferable that a gap is provided between the circuit board and the rib. It is further preferable that a fan forming an air flow through the gap is provided at a position so that the rib is between the fan and the electronic component.
In this embodiment, as illustrated in
In this embodiment, the screws are used as an example of the fastening member; however, other kinds of fasteners such as a press-fit pin may be used.
The description of the configuration of the disk storage opening 241 ends here.
(Method for Mounting a Keyboard)
Subsequently, a method for mounting the keyboard 22 to the main housing 21 will be described.
The personal computer 10 includes:
a keyboard having a plurality of keys arranged on an upper surface and a rib, a long side of the keyboard extending in left and right directions, the rib protruding from the long side of the keyboard except at left and right ends;
a supporting portion to support a lower surface at the left and right ends of the keyboard; and
a fixing portion to fix the rib of the keyboard,
wherein the supporting portion supports the lower surface at the left and right ends of the keyboard so that the lower surface of the keyboard protrudes downward.
The upper housing 211 of the main housing 21 includes an opening 511 on the upper surface. The keyboard 22 is mounted in the opening 511. The keyboard 22 is an example of the keyboard.
The keyboard 22 is formed of a generally soft flexible resin. The keyboard 22 includes a sheet and a plurality of keys 22a disposed on the sheet in a predetermined arrangement. The keyboard 22 further includes a thin metal plate on the lowermost surface of the keyboard for reinforcement. The keyboard 22 further includes a plurality of ribs 22b in a central portion other than the left and right ends on the circumferential edges of the front and back sides of the keyboard 22. The ribs 22b are used for mounting the keyboard 22 to the upper housing 211 of the main unit 20. The rib 22b is an example of the rib.
As depicted in
The supporting portion is preferably a metal material. The support portion further preferably includes a second supporting portion for supporting the lower surface of the keyboard in a area closer to the center than the left and right ends supported by the supporting portion.
In this embodiment, the central portion of the mounting plate 501 is made up of the plastic bulkhead portion 530 so that the personal computer 10 is reduced in weight. Further, in this embodiment, the left and right ends of the mounting plate 501 are made up of the metal supporting portion 520 so that the supporting strength of the keyboard 22 is enhanced, and when the keys are pressed, a good clicking feeling is realized. The bulkhead portion 530 is an example of the second supporting portion.
The configurations of the upper housing 211 and the supporting portion 520 will be described in detail.
The bulkhead portion 530 includes the rib holes 541 into which the ribs 22b of the keyboard 22 are fixed. The bulkhead portion 530 further includes a plurality of openings 531a and 531b. The supporting portion 520 further includes a plurality of protrusions 521 projecting upward and provided at a portion closer to the end of the upper housing 211 than the endmost rib hole 541 in the arrangement direction.
The supporting portion 520 includes a housing fixing portion 523 and a hinge fixing portion 522. The housing fixing portion 523 is fixed to the upper housing 211. The hinge fixing portion 522 is fixed to the hinge 40. As depicted in
As depicted in
It is preferable that the supporting portion has, on its upper surface, a plurality of protrusions aligned in the short side direction of the keyboard, and that the keyboard is supported with the lower surfaces of the left and right ends of the keyboard raised by the protrusions.
The protrusions 521 press up both ends of the keyboard 22 to thereby increase the contact between the keyboard 22 and the metal supporting portion 520, whereby the keyboard 22 is reliably electrically connected.
Here, there will be described another method for pressing up the left and right ends of the keyboard 22 and supporting the keyboard so that the lower surface of the keyboard is protruding downward.
The supporting portion has on its upper surface a rib extending in the short side direction of the keyboard, and the keyboard may be supported so that the lower surfaces of the left and right ends of the keyboard are lifted by the rib.
In
It is also preferable that the supporting portion has on its upper surface slopes that slope upward from the central portion of the keyboard toward the left and right ends, and that the keyboard is supported so that the lower surfaces of the left and right ends of the keyboard are pushed upward by the slopes.
In
The description of the method for mounting the keyboard ends here.
(Connector Stiffening Member)
Subsequently, the connector stiffening member 820 also depicted in
The personal computer 10 includes:
a circuit board including a connector mounted at an end edge and a metal member reinforcing the connector, the connector including a fitting surface of the connector facing outside;
a housing which accommodates the circuit board and includes a first opening for a keyboard arrangement formed in an upper surface thereof and a second opening for fitting with a mating connector formed on a side surface thereof, the second opening facing the fitting surface of the connector mounted on the circuit board; and
a keyboard exposed to the outside from the first opening and having a plurality of keys arranged on an upper surface thereof.
The metal member extends under the keyboard and supports a portion of the lower surface of the keyboard.
The connectors 221 and 222 are mounted on the first surface (lower surface) side of the circuit board 400 so that the fitting surfaces of the connectors face outward. The connector stiffening member 820 for preventing trouble due to static electricity and reinforcing the connectors 221 and 222 is attached to the connectors 221 and 222. The connectors 221 and 222 are fitted into the connector openings 221a and 222a for the connector fitting depicted in
As depicted in
As a preferred embodiment, the connector is mounted on a first surface of the circuit board facing the bottom surface side of the housing, and the metal member includes a first portion reinforcing the connector on the first surface side and a second portion which wraps around and extends from the first surface side to the second surface side of the circuit board and supports the keyboard.
It is also preferable to provide an opening from which the metal member facing the lower surface of the keyboard is partially exposed, and to provide a mounting member which supports the keyboard in cooperation with the metal member with the lower surface of the keyboard placed on the mounting member.
When the keyboard 22 is mounted on the mounting plate as depicted in
The description of the connector stiffening member ends here.
(Optical Disc Drive)
Subsequently, the optical disc drive 810 also depicted in
The metal holding member 811 is attached to the optical disc drive 810. The holding member 811 is fixed to the lower cover 212 of the main housing 21 to be thereby mounted on the lower cover 212.
The optical disc drive 810 has a thin plate shape. The holding member 811 has a side portion 811a, an upper surface portion 811c, and a fixing portion 811b. The side portion 811a holds the side surface of the optical disc drive 810. The upper surface portion 811c holds the upper surface of the optical disc drive 810. The fixing portion 811b is fixed to the lower cover 212. When the holding member 811 is mounted on the optical disc drive 810, the upper surface portion 811c of the holding member 811 wraps around and extends onto the upper surface of the optical disc drive 810.
When the optical disc drive 810 is mounted on the lower cover 212 of the main housing 21, the upper surface portion 811c of the holding member 811 is positioned higher than the upper surface of the optical disc drive 810. The upper housing 211 is mounted on the lower cover 212 as depicted in
The description of the optical disc drive ends here.
(Expansion Card Slot)
Subsequently, the configuration of the expansion card slot 210 also depicted in
The personal computer 10 includes:
a circuit board;
a housing accommodating the circuit board and having a card insertion slot on a side surface thereof; and
a card holding portion fixed on the circuit board and having a card receiving slot facing the card insertion slot and provided closer to a center side of the circuit board than a side edge of the circuit board on the card insertion slot side.
The card holding portion receives a card, inserted through the card insertion slot, from the card receiving slot and holding the card.
The housing has a guiding rib which extends from the card insertion slot to the vicinity of the card receiving slot and guides the card, inserted into the card insertion slot, to the card receiving slot.
The expansion card slot 210 is provided in the side surface of the upper housing 211. An expansion card is inserted through the expansion card slot 210 and mounted in parallel along the circuit board 400. The expansion card slot 210 is an example of the card insertion slot.
As depicted in
It is preferable that the card holding portion holds a card with a gap between the card holding portion and a circuit board.
The processor chip 400a is mounted in the gap S provided between the expansion card holding member 610 and the circuit board 400 so that the entire device size is reduced.
As depicted in
As depicted in
As depicted in
In this embodiment, the expansion card 620 inserted into the expansion card slot 210 is guided to the card receiving slot 611 by the guiding rib 630, and held parallel to the circuit board 400 by the expansion card holding member 610. Therefore, the trouble that the expansion card 620 is obliquely inserted into the expansion card slot 210 to be caught in the gap S (see
It is preferable that the card holding portion holds a card parallel to a substrate, and that the guiding rib extends between the card held by the card holding portion and the substrate.
The guiding rib 630 is formed on the side of the expansion card slot 210, which is closer to the circuit board 400, whereby the guiding rib 630 is positioned between the expansion card 620 held by the expansion card holding member 610 and the circuit board 400. According to this configuration, since the guiding rib 630 blocks the path to the gap S depicted in
The description of the configuration of the expansion card slot 210 ends here.
(Mounting Configuration of Dust Filter)
Subsequently, the mounting configuration of the dust filter 252 also depicted in
The personal computer 10 includes:
a housing including an outlet formed in a first surface thereof and a filter storage opening formed in a second surface thereof extending to intersect with the first surface;
a heating electronic component disposed in the housing;
a heat radiating member disposed closer to the outlet than the filter storage opening in the housing, the heat radiating member having an inlet on the filter storage opening side and an outlet on the outlet side and radiating heat received from the heating electronic component to the air flowing through the inlet;
a filter member inserted into the housing through the filter storage opening and disposed on the front surface of the inlet;
a filter receiving portion; and
a fan disposed at a position in the housing where the filter member is held between the fan and the heat radiating member and feeding air in the housing into the inlet.
The filter member includes:
a filter portion disposed on the front surface of the inlet and forming a plurality of vents;
a tip supporting portion to support the front end of the filter portion; and
a lid portion to support the rear end of the filter portion and to close the filter storage opening when the filter member is inserted through the filter storage opening.
The filter receiving portion receiving, at a position away from the inlet, the tip supporting portion passing through the front of the inlet when the filter member is inserted through the filter storage opening.
The lid portion has such a dimension that the filter storage opening is closed when the tip supporting portion is supported by the filter receiving portion.
As depicted in
As depicted in
When the dust filter 252 is removed from the filter storage opening 251, some heat radiating fins 431 (see
The heat radiating member 430 and the fan 420 are provided in the main housing 21. The heat radiating member 430 is disposed closer to the outlet 220 than a filter mounting position P corresponding to the filter storage opening 251. The fan 420 is disposed further toward the inside of the main housing 21 than the heat radiating member 430. The heat radiating member 430 and the fan 420 are connected by a supporting portion 910. The supporting portion 910 includes, at the filter mounting position P, a filter receiving portion 911 to which the tip supporting portion 720 of the dust filter 252 is mounted.
The heat radiating member 430 includes an inlet 431a and an outlet 431b. The inlet 431a includes a plurality of the heat radiating fins 431 arranged in a row, and the air sent from the fan 420 flows into the inlet 431a. The outlet 431b faces the outlet 220 of the main housing 21. The heat radiating member 430 is an example of the heat radiating member. The fan 420 is an example of the fan. The inlet 431a is an example of the inlet. The outlet 431b is an example of the outlet.
As depicted in
The air sent from the fan 402 passes through the vents Q formed by the plate members 730 of the dust filter 252 to reach the inlet 431a of the heat radiating member 430. The heat generated in various electronic components is absorbed by a heatsink 433 and transferred to the air flowing through the inlet 431a. The air absorbing the heat passes through spaces, respectively held by the heat radiating fins 431, to be discharged outside the housing through the outlet 220.
As depicted in
It is preferable to provide a supporting portion which supports the heat radiating member and the fan and includes the filter receiving portion, and it is preferable that the filter receiving portion is formed in the shape of a groove and receives the tip supporting portion.
The filter receiving portion 911 is easily formed by forming the shape of a groove in the supporting portion 910 supporting the heat radiating member 430 and the fan 420. The supporting portion 910 is an example of the supporting portion.
It is preferable that the heat radiating member has a plurality of heat radiating fins aligned so that the end surfaces of the heat radiating members are positioned at the inlet and the outlet, and that the filter portion includes a plurality of members that extend to a position between the lid portion and the tip supporting portion so as to be parallel to each other and are aligned at a wider interval than the alignment interval of the heat radiating fins.
According to the above configuration, the entry of dust into the inlet can be efficiently reduced if not prevented, whereby the blocking of air flow due to the dust filter 252 may be reduced if not prevented.
As depicted in
In the above embodiment, the personal computer is used as an example of an electronic apparatus. However, the electronic apparatus may be various apparatuses such as a notebook computer, a PDA, a game machine, a television, or a portable telephone.
In the above embodiment, although the dust filter uses a plurality of the plate members aligned parallel, a filter portion of the filter member may be formed into, for example, a net.
All examples and conditional language recited herein are intended for pedagogical purposes to aid the reader in understanding the invention and the concepts contributed by the inventor to furthering the art, and are to be construed as being without limitation to such specifically recited examples and conditions, nor does the organization of such examples in the specification relate to a showing of the superiority and inferiority of the invention. Although the embodiment of the present inventions has been described in detail, it should be understood that the various changes, substitutions, and alterations could be made hereto without departing from the spirit and scope of the invention.
Number | Date | Country | Kind |
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2008-235238 | Sep 2008 | JP | national |