JP2004272644A - Information processor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce the manufacturing cost by improving the workability in the mounting work of a hard disk drive to be arranged within a device body part and reducing the number of part items. <P>SOLUTION: A drive mounting part 61b for mounting the hard disk drive 66 is formed on a circuit board 61 arranged within the device body part 3. The drive mounting part comprises a connector 65 and a bracket 70 for pressing the hard disk drive at least from the opposite side of the drive mounting part across the hard disk drive. A connector part 68a of the hard disk drive is connected to the connector, and the bracket is mounted on the circuit board to mount the hard disk drive on the drive mounting part. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an information processing device. More specifically, the present invention relates to a technical field for improving workability in mounting a hard disk drive disposed inside an apparatus main body and reducing manufacturing costs by reducing the number of components.
[0002]
[Prior art]
2. Description of the Related Art Some information processing apparatuses, for example, personal computers are provided with a hard disk drive capable of recording a large amount of data, and the hard disk drive is arranged inside a main body of the apparatus together with a circuit board and the like. .
[0003]
2. Description of the Related Art Conventionally, there is a hard disk drive that is attached to an apparatus main body via a bracket having a first attachment portion and a second attachment portion (for example, see Patent Document 1). That is, the bracket is provided with a first mounting portion for mounting the bracket to the apparatus main body and a second mounting portion for mounting the hard disk drive, and the hard disk drive is mounted on the second mounting portion by screwing. 1 The mounting portion is mounted on the apparatus main body by screwing.
[0004]
[Patent Document 1]
JP 2001-344957 A (Page 3, FIG. 1)
[0005]
[Problems to be solved by the invention]
However, as described above, first, the hard disk drive is attached to the bracket by screwing, and then, the bracket is attached to the apparatus main body by screwing. There is a problem that is bad.
[0006]
Further, it is necessary to connect the connector of the hard disk drive attached to the device main body to the connector arranged inside the device main body by a wiring board, for example, a flexible printed wiring board. In addition, the number of parts is large and complicated connection work must be performed.
[0007]
On the other hand, in a conventional information processing device, a sub-board separate from a circuit board (mother board) is used, and a hard disk drive is sandwiched between the sub-board and an outer casing of the main body of the apparatus. In some cases, a hard disk drive is attached to the apparatus main body by screwing.
[0008]
When the hard disk drive is mounted using the sub-board as described above, since the components such as the chip components and the card slots can be mounted on the sub-board separately from the circuit board, the functionality can be improved. The use of the sub-board increases the number of parts and increases the manufacturing cost of the information processing device. In addition, it is necessary to perform electrical connection work between each part of the sub-board and each part of the circuit board. There is also a problem that there are many.
[0009]
Therefore, the information processing apparatus of the present invention overcomes the above-described problems, and aims to improve workability in mounting work of a hard disk drive disposed inside the apparatus main body and reduce manufacturing costs by reducing the number of parts. Make it an issue.
[0010]
[Means for Solving the Problems]
In order to solve the above-described problems, the information processing apparatus of the present invention forms a drive mounting portion to which a hard disk drive is mounted on a circuit board disposed inside the device main body, and provides a connection connector on the drive mounting portion, A bracket is provided to hold the hard disk drive from at least the opposite side of the drive mounting part across the drive, the connector part of the hard disk drive is connected to the connector, and the bracket is mounted on the circuit board, and the hard disk drive is mounted on the drive mounting part Things.
[0011]
Therefore, in the information processing apparatus of the present invention, the hard disk drive is attached to the drive attaching portion while the connector portion of the hard disk drive is connected to the connection connector provided on the circuit board and is sandwiched between the circuit board and the bracket. .
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In the following embodiments, the present invention is applied to an information processing device (personal computer) that can be used as a portable device.
[0013]
The information processing device 1 includes a display unit 2 and a device main unit 3 (see FIGS. 1 to 3).
[0014]
The display unit 2 has a display housing 4 and a display 5 arranged on the display housing 4.
[0015]
The display housing 4 includes a frame-shaped front panel 6 having a substantially rectangular outer shape, and a shallow box-shaped rear panel 7 having a substantially rectangular shape opened to the front panel 6 side. A portion on the outer peripheral side of the display housing 4 is provided as a frame portion 8.
[0016]
The display unit 2 is rotatably supported at a rear end of the apparatus main body 3 via a hinge 9 extending in the left-right direction. When the display unit 2 is not used, the display unit 2 is rotated to a closing position at which the keyboard of the apparatus main unit 3 is closed (see FIG. 2).
[0017]
As shown in FIGS. 1 and 3, the hinge portion 9 includes a hinge tube 10 and hinge shafts 11, 11 disposed inside the hinge tube 10. The hinge tube 10 includes a display side hinge tube 12 and a main body. Side hinge cylinders 13 and 13.
[0018]
The display side hinge tube 12 protrudes from the display housing 4 and is formed integrally with the display housing 4.
[0019]
The main body side hinge cylinders 13 protrude from the rear edge of the apparatus main body 3 and are formed integrally with the outer casing of the apparatus main body 3.
[0020]
As shown in FIGS. 1 and 3, hinge shafts 11 are disposed between the left and right ends of the display side hinge tube 12 and the main body side hinge tubes 13, 13. The display side hinge tube 12 and the main body side hinge tubes 13, 13 are connected.
[0021]
As shown in FIG. 1, a horizontally long keyboard 14 is provided on the upper surface 3a of the apparatus main body 3 except for its rear end, and the keyboard 14 includes a plurality of predetermined operation keys 15, 15,. ·have. Processing means such as a CPU (Central Processing Unit) is provided inside the apparatus main body 3, and performs various processes on signals input by operating the operation keys 15, 15,. Done.
[0022]
A pointing device 16 is disposed at the rear end of the upper surface 3a of the apparatus main body 3 at the right end thereof. By operating the pointing device 16 by applying a force in an arbitrary direction with a finger, the pointer displayed on the display 5 can be moved in an arbitrary direction according to the operation direction.
[0023]
At the position near the outer periphery of the pointing device 16, four cursor keys 17, 17,... Are arranged at equal intervals in the circumferential direction. By operating the cursor keys 17, 17,..., The cursor displayed on the display 5 can be moved in a predetermined direction, that is, up, down, left, and right.
[0024]
At the positions near the outside of the cursor keys 17, 17,..., A switch button 18 formed in an arc shape and an auxiliary input button 19 for auxiliary input are arranged. The switching button 18 is for switching the orientation of the display screen and for switching the resolution of the display screen. The auxiliary input button 19 is used to activate auxiliary input software for performing character input by a simple operation. It has a function as a start button for activating the software and a function as a selection decision button for deciding an item to be selected from items displayed on the display 5 in the software.
[0025]
In the information processing apparatus 1, by operating the switching button 18, the screen displayed on the display 5 can be rotated by 90 °, and the screen can be enlarged and displayed.
[0026]
A left button 20, a right button 21, and a middle button 22 corresponding to each button of a mouse are arranged at the left end of the rear end of the upper surface 3a of the apparatus main body 3. The left button 20 and the right button 21 are arranged so as to surround the middle button 22 from the periphery, and are each formed in an arc shape.
[0027]
A power button 23, a standby button 24, and a brightness adjustment button 25 are disposed at the rear end of the upper surface 3a of the apparatus main body 3 at positions on the left side of the switching button 18 and the auxiliary input button 19, respectively, with a left and right separation. Have been. The power button 23 is for inputting power, the standby button 24 is for switching between a power saving operation mode and a normal power operation mode, and the brightness adjustment button 25 is for backlighting the display 5. For controlling the lighting of.
[0028]
A speaker 26 is provided at the rear end of the upper surface 3 a of the apparatus main body 3 at a position on the left side of the power button 23.
[0029]
When the information processing apparatus 1 is used, the display unit 2 is opened at an arbitrary angle with respect to the apparatus main body 3 (see FIGS. 1, 4 and 5). By opening the display unit 2 at an arbitrary angle with respect to the apparatus main body 3 in this manner, the information processing apparatus 1 can be used as a stationary device or a portable device.
[0030]
When the information processing device 1 is used as a portable device, the operator operates while holding the left and right side edges of the device main body 3 with both hands, for example, as shown in FIG.
[0031]
Further, in the information processing apparatus 1, as described above, the display screen can be rotated by 90 ° by operating the switching button 18, so that, for example, the information processing apparatus 1 is a portable device. As shown in FIG. 5, the apparatus main body 3 and the display unit 2 can be used sideways so that they are located on the left and right as shown in FIG.
[0032]
A mounting recess 27 is formed in the lower surface 3c of the apparatus main body 3 (see FIG. 6). The mounting concave portion 27 is a shallow concave portion which is formed to have substantially the same size as the lower surface portion 3c and is opened downward and rearward, and includes first peripheral wall portions 28, 28 provided on both right and left side edges of the device main body portion 3 and the device main body. It is formed by being surrounded by a second peripheral wall portion 29 provided at the front edge of the portion 3.
[0033]
The first peripheral wall portions 28 and 28 and the second peripheral wall portion 29 are both integrally formed on the apparatus main body 3, and two inner surfaces of the first peripheral wall portions 28 and 28 are separated from each other back and forth. .. Are provided, and engagement holes 29a, 29a are formed in the inner surface of the second peripheral wall portion 29 so as to be separated from each other in the left and right directions. As shown in the enlarged view of FIG. 6, the engagement protrusions 30, 30,... Extend rearward from the bases 30a, 30a,. , Which are projected engagement portions 30b, 30b, ....
[0034]
A hole 3d and an arrangement hole 3e are formed on the bottom surface of the mounting concave portion 27, that is, on the lower surface portion 3c of the apparatus main body 3 so as to be separated from each other. The hole 3d is closed by a metal shielding cover 31. The shielding cover 31 has a function of preventing radiation from the inside of the apparatus main body 3. A part of a hard disk drive described later is arranged in the arrangement hole 3e.
[0035]
An insertion hole 3f communicating with the inside of the apparatus main body 3 is formed at the rear end of the lower surface 3c, and a connector arrangement recess 3g opened downward and rearward at a position near the insertion hole 3f. I have. The connector 32 is arranged in the connector arrangement recess 3g. The connector 32 is mounted on the lower surface of a motherboard, which will be described later, and protrudes downward through an arrangement hole formed in the connector arrangement recess 3g and is arranged in the connector arrangement recess 3g.
[0036]
As shown in FIG. 8, a pair of shaft support portions 33, 33, a screw boss 34, and a support piece 35 are provided on the inner surface of the lower surface 3c of the apparatus main body 3, as shown in FIG.
[0037]
A lock lever 36 is rotatably supported by the shaft supports 33 (see FIGS. 8 and 9). The lock lever 36 is formed to be long in the left and right directions, and is provided with a spring receiving portion 36a protruding upward at a substantially central portion in the left and right direction, and an operating edge 36b protruding rearward at a position below the spring receiving portion 36a. A lock projection 36c is provided at the distal end, and protrudes downward. The working edge 36b is inclined so as to be displaced downward as the distance from the lock projection 36c increases.
[0038]
A supported shaft 37 is inserted and attached to one end of the lock lever 36, that is, the end opposite to the lock protrusion 36c. The supported shaft 37 protrudes forward and backward from the lock lever 36, and each protruding portion is inserted into and supported by the shaft support portions 33, 33, respectively. Accordingly, the lock lever 36 is rotatable about the supported shaft 37 in a direction in which the lock protrusion 36c is moved substantially up and down, and the lock protrusion 36c is moved substantially downward (the direction of the arrow R1 shown in FIG. 9). In this state, it is projected from the insertion hole 3f of the lower surface 3c (see FIGS. 6 and 9).
[0039]
The lock lever 36 is urged by an urging spring 38 in a direction in which the lock projection 36c is moved substantially downward. The biasing spring 38 is formed by processing a plate-shaped metal material (see FIGS. 8 and 9), and is provided with a base portion 39 and an elastic contact protruding laterally from the base portion 39 and formed to be long right and left. The base 40 includes pressing portions 41, 41 formed by being bent at 90 ° from both front and rear edges of the base portion 39, and a positioning projection 42 projecting from the base portion 39 to the opposite side of the elastic contact portion 40. A screw insertion hole 39a is formed in the base portion 39. The holding portions 41, 41 are respectively formed with shaft holding notches 41a, 41a opened downward.
[0040]
The biasing spring 38 is positioned by inserting the positioning protrusion 42 into the support piece 35, and is attached to the screw boss 34 on the lower surface 3c by the mounting screw 43 inserted through the screw insertion hole 39a. When the urging spring 38 is attached to the screw boss 34, the elastic contact portion 40 is elastically contacted with the spring receiving portion 36a of the lock lever 36 from above, and the lock lever 36 has the lock projection 36c substantially downward (see FIG. (In the direction of arrow R1 shown in FIG. 9).
[0041]
A horizontally long rear panel 44 is attached to a rear surface 3h of the apparatus main body 3 (see FIGS. 3, 6, and 7). As shown in FIG. 8, a slide recess 44a opened rearward is formed in the back panel 44, and a rectangular communication hole 44b is formed in the slide recess 44a. One opening edge in the left-right direction of the communication hole 44b is formed as a stopper edge 44c, and the other opening edge is formed as a regulating edge 44d. On the inner surface of the back panel 44, a spring hook projection 44e is provided on the side of the communication hole 44b.
[0042]
An operation knob 45 is slidably supported in the slide concave portion 44a of the rear panel 44 in the left-right direction (S1-S2 directions shown in FIG. 8) (see FIGS. 3, 6, 7, and 8). As shown in FIG. 8, the operation knob 45 includes an operated portion 46 and mounting pieces 47, 47 protruding forward from the operated portion 46. The mounting pieces 47, 47 are vertically separated from each other. Is provided. The operated portion 46 has a protrusion insertion hole 46 a formed between the mounting pieces 47, 47. Engagement claws 47a, 47a protruding upward or downward, respectively, are formed at the tips of the mounting pieces 47, 47, respectively.
[0043]
The operation knob 45 is attached to the regulating member 48 (see FIGS. 8 and 10). The regulating member 48 includes a horizontally long frame-shaped main body portion 49, a regulating portion 50 protruding laterally from an inner peripheral edge of the main body portion 49, and a pressed protruding portion 51 protruding rearward from the regulating portion 50. And a spring hanging shaft 52 protruding forward from the main body 49 are integrally formed of a resin material. A restricting projection 50a is provided at the tip of the restricting portion 50 so as to protrude rearward. The upper and lower spaces of the restricting portion 50 of the restricting member 48 are formed as insertion slits 48a, 48a, respectively, and the main body 49 is formed with mounting recesses 48b, 48b which are partially cut out and open to the insertion slits 48a, 48a. Have been.
[0044]
As shown in FIG. 10, the operation knob 45 has the mounting pieces 47, 47 inserted through the communication holes 44 b of the rear panel 44, and the mounting pieces 47, 47 are elastically deformed into the mounting recesses 48 b, 48 b of the regulating member 48. When the engagement claws 47a, 47a are inserted and the insertion slits 48a, 48a exceed the insertion slits 48a, the attachment pieces 47, 47 are elastically restored, and the engagement claws 47a, 47a are engaged with the main body 49, and are attached to the regulating member 48. When the operation knob 45 is attached to the regulating member 48, the pressed projection 51 of the regulating member 48 projects rearward from the projection insertion hole 46a of the operation knob 45 (see FIGS. 10 and 12). .
[0045]
A tension coil spring 53 is stretched between the spring hook shaft 52 of the regulating member 48 and the spring hook projection 44 e of the rear panel 44. Accordingly, the operation knob 45 and the regulating member 48 are urged in the S1 direction shown in FIGS. 8 and 12 by the extension coil spring 53 (see FIG. 12), and the mounting pieces 47 of the operation knob 45 communicate with the rear panel 44. The movement in the S1 direction is regulated by engaging with the regulating edge 44d of the hole 44b, and the regulating protrusion 50a of the regulating member 48 is engaged with the stopper edge 44c of the communication hole 44b, whereby the movement in the S2 direction is regulated. You.
[0046]
The battery 54 is inserted and mounted in the mounting recess 27 of the apparatus main body 3 (see FIGS. 6 and 7). The battery 54 has a flat plate shape, is formed to have substantially the same size as the mounting recess 27, and has the same thickness as the depth of the mounting recess 27. Insertion protrusions 54a, 54a protruding forward are provided on the front surface of the battery 54 so as to be separated to the left and right (see FIGS. 6 and 13).
[0047]
Pads 56, 56,... Formed of a flexible material such as rubber are attached to the lower surface 55 of the battery 54 (see FIGS. 6 and 7). The pads 56, 56,... Protrude slightly downward from the lower surface 55.
[0048]
On the upper surface 57 of the battery 54, that is, the surface facing the lower surface 3c of the device main body 3, a terminal electrode 58 protruding upward is provided at the rear end. At a position near the terminal electrode 58 on the upper surface 57, a locked concave portion 57a is formed.
[0049]
Two engaging recesses 60, 60,... Are formed on the side surfaces 59, 59 of the battery 54, which are separated from each other back and forth. As shown in the enlarged view of FIG. 6, the engaging recesses 60, 60,... Are respectively opened at the introduction portions 60a, 60a,. And extending engagement portions 60b.
[0050]
The procedure for mounting the battery 54 in the mounting recess 27 and removing the mounted battery 54 will be described below.
[0051]
When the battery 54 is not mounted, the lock lever 36 is urged by the urging spring 38, and the lock projection 36c projects from the insertion hole 3f formed in the lower surface 3c (see FIG. 11).
[0052]
First, when the battery 54 is inserted into the mounting recess 27 so that the upper surface 57 approaches the lower surface 3c, as shown in FIG. 14, the engagement protrusions 30 provided on the first peripheral wall portions 28, 28,. , 30,... Are relatively inserted into the introduction portions 60a, 60a,. At this time, as shown in FIG. 15, the lock projection 36c of the lock lever 36 is pressed by the battery 54 and is rotated in the R2 direction shown in FIG. 11 against the urging force of the urging spring 38, so that the insertion hole 3f is formed. Drawn into. The terminal electrode 58 of the battery 54 is located immediately behind the connector 32.
[0053]
Next, when the battery 54 is slid forward with respect to the apparatus body 3, the insertion protrusions 54a of the battery 54 are inserted into the engagement holes 29a formed in the second peripheral wall 29, respectively. Also, as shown in FIG. 16, the engagement portions 30b, 30b,... Of the engagement protrusions 30, 30,. 60b, 60b,... Are engaged. At this time, the terminal electrode 58 is connected to the connector 32 as the battery 54 slides. At the same time, the lock projection 36c of the lock lever 36 is positioned corresponding to the locked concave portion 57a of the battery 54. As shown in FIG. 17, the urging force of the urging spring 38 moves the lock lever 36 in the R1 direction shown in FIG. And the lock projection 36c is inserted into the locked concave portion 57a. Therefore, the sliding of the battery 54 with respect to the apparatus main body 3 is restricted and locked to the apparatus main body 3, and the mounting of the battery 54 in the mounting concave portion 27 is completed.
[0054]
When removing the battery 54 from the mounting recess 27, first, the pressed protrusion 51 of the regulating member 48 protruding from the protrusion insertion hole 46 a of the operation knob 45 is pressed. When the pressed protruding portion 51 is pressed, as shown in FIG. 18, the regulating portion 50 is elastically deformed, the engagement of the regulating protruding portion 50 a with the stopper edge 44 c of the back panel 44 is released, and the operation knob 45 can be slid. It becomes a state.
[0055]
Next, the operation knob 45 is operated in the S2 direction shown in FIG. When the operation knob 45 is operated in the S2 direction, the regulating member 48 is moved integrally with the operation knob 45 in the S2 direction against the urging force of the extension coil spring 53, and the spring hook shaft 52 is moved to the operating edge of the lock lever 36. 36b. When the spring hanging shaft 52 is slid on the action edge 36b, as shown in FIG. 15, the lock lever 36 is rotated in the R2 direction shown in FIG. The portion 36c is drawn into the insertion hole 3f, and the lock of the battery 54 to the apparatus main body 3 is released.
[0056]
Then, the battery 54 is slid backward to engage the engaging portions 60b, 60b of the engaging concave portions 60, 60, and the engaging portions 30b, 30b of the engaging protrusions 30, 30,. , And the engagement protrusions 30, 30,... Are pulled out from the engagement recesses 60, 60,. Complete.
[0057]
When the operation on the operation knob 45 is released, the operation knob 45 and the regulating member 48 are integrally moved in the S1 direction shown in FIG. 15 by the urging force of the tension coil spring 53, and as shown in FIG. The attachment pieces 47, 47 of the knob 45 are engaged with the regulating edge 44d of the communication hole 44b of the rear panel 44 to restrict the movement in the S1 direction shown in FIG. 12, and the regulating protrusion 50a of the regulating member 48 communicates. Engagement with the stopper edge 44c of the hole 44b restricts the movement in the S2 direction shown in FIG. Further, the lock lever 36 is rotated in the R1 direction shown in FIG. 15 by the urging force of the urging spring 38, and the lock protrusion 36c projects outward from the communication hole 44b of the rear panel 44 (see FIG. 11).
[0058]
As described above, in the information processing apparatus 1, since the battery 54 formed in a substantially flat shape is mounted in the mounting recess 27, the battery 54 does not protrude downward from the apparatus main body 3, and the information processing is performed. The thickness of the device 1 can be reduced.
[0059]
When the battery 54 is mounted in the mounting recess 27, the battery 54 serves as a bottom surface when the information processing apparatus 1 is placed on a desk or the like, and thus the lower surface 3 c of the apparatus main body 3. Of the information processing apparatus 1 can be made thinner.
[0060]
When the information processing device 1 is mounted in the mounting recess 27, the battery 54 having a substantially flat shape is mounted on a desk or the like, so that the mounting state can be stabilized.
[0061]
Further, when the information processing device 1 is used as a portable device (see FIGS. 4 and 5), a hand for gripping the lower surface 55 of the battery 54 formed in a substantially flat shape is attached. There is no uncomfortable feeling when gripping.
[0062]
Since the pads 56, 56,... Slightly projecting from the lower surface 55 are attached to the lower surface 55 of the battery 54, the information processing apparatus 1 to which the battery 54 is attached is placed on a desk or the like. Sometimes, the battery 54 is prevented from being damaged, and the function of the battery 54 is not reduced.
[0063]
Since the pads 56, 56,... Are formed of a flexible material such as rubber, a stable mounting state of the information processing apparatus 1 can be ensured.
[0064]
Further, in the information processing apparatus 1, since the depth of the mounting recess 27 and the thickness of the battery 54 are substantially the same, the battery 54 and the first peripheral wall portions 28 and 28 and the second peripheral wall portion 29 are formed. And a stable mounting state can be ensured while the information processing apparatus 1 is made thinner.
[0065]
In addition, in the information processing device 1, when the battery 54 is slid with respect to the lower surface 3 c of the device main body 3, the battery 54 is mounted on the mounting recess 27 and connected to the connector 32 of the terminal electrode 58 of the battery 54. Therefore, it is not necessary to separately mount the battery 54 in the mounting recess 27 and connect the terminal electrode 58 to the connector 32, and it is possible to improve workability in mounting work.
[0066]
The battery 54 can be mounted in the mounting recess 27 simply by mounting the battery 54 in the mounting recess 27 and sliding the battery 54. The battery 54 can be removed from the mounting recess 27 by operating the operation knob 45. Since the operation can be performed simply by sliding the battery 54 out of the mounting concave portion 27, the mounting operation and the removing operation of the battery 54 can be easily performed.
[0067]
Next, the internal structure of the apparatus main body 3 will be described (see FIGS. 19 to 28).
[0068]
A motherboard (circuit board) 61 is arranged inside the apparatus main body 3 (see FIGS. 19 and 20). As shown in FIGS. 19 and 20, on the main surface (lower surface) 61a of the motherboard 61, the connector 32, the storage medium slot 62, the card slot 63, the PCI (Peripheral Component Interconnect) connector 64, The connector 65 and various electronic components are mounted.
[0069]
As shown in FIG. 19, one end of the motherboard 61 is formed as a drive mounting portion 61b to which a hard disk drive 66 is mounted, and the connection connector 65 is provided on the drive mounting portion 61b. Screw drive holes 61c, 61c,... Are formed in the drive mounting portion 61b.
[0070]
The hard disk drive 66 is mounted on the drive mounting portion 61b (see FIGS. 19 and 20). The hard disk drive 66 includes a main body 67 and a frame 68 provided on a peripheral edge of the main body 67, and the main body 67 projects downward from the frame 68. At one end of the frame 68, a connector 68a is provided.
[0071]
Dampers 69, 69 are respectively attached to side edges of the frame portion 68 of the hard disk drive 66 which are located on opposite sides. The dampers 69, 69 are formed to be long in one direction and have mounting recesses 69a, 69a into which the respective side edges of the frame 68 are inserted.
[0072]
The hard disk drive 66 is mounted on the drive mounting portion 61b via a bracket 70. As shown in FIG. 21, the bracket 70 is formed by integrally forming a holding portion 71, and elastic engaging portions 72 and 73 and a protrusion 74 protruding from the holding portion 71 in predetermined directions.
[0073]
The holding portion 71 has a first pressing portion 71a formed in a frame shape and second pressing portions 71b, 71b,... Formed by being bent at right angles in the same direction with respect to the first pressing portion 71a.・ Consists of At the inner peripheral edge of the first holding portion 71a, holding pieces 71c, 71c,... Formed by bending to the opposite side to the second holding portions 71b, 71b,. At one end edges of the second holding portions 71b, 71b, there are provided mounting pieces 71d, 71d, 71d formed by being bent outward, and the mounting pieces 71d, 71d, 71d are provided with mounting holes or mounting screw holes. Is formed.
[0074]
The elastic engaging portions 72 and 73 are formed by being bent at right angles from the first pressing portion 71a in the same direction as the second pressing portions 71b, 71b,. Parts 72b and 73b. The connecting portions 72a and 73a are formed vertically long, and the bent portions 72b and 73b are formed in an inwardly convex V-shape that is connected to the edge of the connecting portions 72a and 73a on the side opposite to the first holding portion 71a. ing.
[0075]
The protruding portion 74 protrudes forward from the second pressing portion 71b, and has a mounting portion 74a formed by being bent inward at the front end thereof. A mounting hole is formed in the mounting piece 74a.
[0076]
Hereinafter, a procedure for attaching the hard disk drive 66 to the drive attaching portion 61b will be described.
[0077]
First, the dampers 69, 69 are attached to the frame 68 of the hard disk drive 66.
[0078]
Next, the connector section 68a of the hard disk drive 66 is inserted into the connection connector 65 provided on the drive mounting section 61b to be connected.
[0079]
Next, the bracket 70 is attached to the motherboard 61 such that the frame portion 68 of the hard disk drive 66 is covered by the holding portion 71. As shown in FIG. 22, the bracket 70 is attached to the motherboard 61 by sliding the bent portions 72b, 73b of the elastic engaging portions 72, 73 against the outer edge of the motherboard 61 to elastically deform the elastic engaging portions 72, 73. Then, the bracket 70 is pushed into the motherboard 61 so that the elastic engaging portions 72 and 73 are elastically returned.
[0080]
In a state where the bracket 70 is attached to the motherboard 61, portions of the connecting portions 72a, 73a of the elastic engaging portions 72, 73 near the bent portions 72b, 73b are respectively engaged with the respective edges of the motherboard 61 ( See FIG. 23). Further, in this state, the frame portion 68 of the hard disk drive 66 is pressed from the outside by the first pressing portion 71a and the second pressing portions 71b, 71b,. Are pressed from outside by the holding pieces 71c, 71c,....
[0081]
Finally, the bracket 70 is fixed to the motherboard 61 with a screw member (not shown), whereby the mounting of the hard disk drive 66 to the drive mounting portion 61b is completed. To fix the bracket 70 to the motherboard 61, each screw member is inserted through the mounting pieces 71d, 71d, 71d, 74a of the bracket 70, and the screw members are further inserted into the screw insertion holes 61c, 61c,. The insertion is performed by screwing into a screw hole (not shown) provided inside the apparatus main body 3.
[0082]
In this manner, the screw member is inserted into the mounting pieces 71d, 71d, 71d, 74a of the bracket 70 and the screw insertion holes 61c, 61c,. The fixing of the motherboard 61 to the motherboard 61 and the fixing of the motherboard 61 to the apparatus main body 3 can be performed, and the workability can be improved.
[0083]
When the motherboard 61 to which the hard disk drive 66 is fixed is fixed inside the apparatus main body 3, the main body 67 of the hard disk drive 66 is disposed in the hole 3d formed in the lower surface 3c of the apparatus main body 3. (See FIG. 6).
[0084]
As described above, in the information processing apparatus 1, the connection connector 65 is provided on the drive mounting portion 61b of the motherboard 61, and the bracket 70 that holds the hard disk drive 66 from the opposite side of the drive mounting portion 61b across the hard disk drive 66. Since the hard disk drive 66 is mounted on the drive mounting portion 61b by using, the step of separately mounting the hard disk drive 66 and the bracket 70 is not required, and the workability can be improved.
[0085]
Further, since there is no need to connect the hard disk drive 66 using a wiring board such as a flexible printed wiring board, the number of components can be reduced and workability can be improved.
[0086]
Further, since it is not necessary to mount the hard disk drive 66 using a sub-substrate different from the motherboard 61, the number of components can be reduced, and the connection work with each part of the sub-substrate is not required. The process can be simplified.
[0087]
As described above, the bracket 70 is provided with the holding portion 71, and the holding portion 71 is provided with the first holding portion 71a and the second holding portion formed by bending the first holding portion 71a. 71b, 71b,... Therefore, the rigidity of the holding portion 71 is high, and a stable holding state of the hard disk drive 66 by the bracket 70 can be ensured.
[0088]
In addition, since the bracket 70 is provided with the elastic engaging portions 72 and 73, it is easy to attach the bracket 70 to the motherboard 61. The motherboard 61 can be clamped while the bracket 70 is attached to the bracket 61, and workability in fixing the motherboard 61 to the apparatus main body 3 and the like can be improved.
[0089]
Further, since the frame portion 68 of the hard disk drive 66 is held by the holding portion 71 of the bracket 70, the bracket 70 does not exist on the main body 67, and the information processing device 1 can be made thinner accordingly.
[0090]
Note that there are two types of hard disk drives: a type having a screwed portion for fixing to a circuit board or the like and a type having no screwed portion. It is suitable for use in a hard disk drive of a type in which a stopper is not provided.
[0091]
A PCI board 75 is connected to a PCI connector 64 provided on the motherboard 61 (see FIGS. 19 and 20).
[0092]
A first connector terminal 77 and a second connector terminal 78 are provided on a substrate 76 of the PCI board 75. The first connector terminal portion 77 and the second connector terminal portion 78 have respective terminals connected to the same signal line and have the same function.
[0093]
The first connector terminal portion 77 is provided on one end edge of the substrate 76 and includes a plurality of copper foil terminals 77a, 77a,... Formed on the substrate 76 (see FIGS. 24 and 25). ). The first connector terminal portion 77 has a plurality of terminals 77a, 77a,... Formed on a first surface 76a of the substrate 76 facing the motherboard 61 and a second surface 76b opposite to the first surface 76a.・ Consists of
[0094]
The second connector terminal portion 78 is provided at a position near one end of the second surface 76b of the substrate 76, and includes a base 79 mounted on the substrate 76 and a plurality of terminals 80, 80,. (See FIG. 26).
[0095]
The base 79 is formed of a resin material, is formed in a frame shape that is long in one direction, and has terminal placement portions 79a, 79a that are long in one direction and fitting portions 79b, 79b that are orthogonal to the terminal placement portions 79a, 79a. I have. The terminal arrangement portions 79a, 79a are positioned in parallel, and a plurality of terminals 80, 80,... Protrude from the terminal arrangement portions 79a, 79a in a direction orthogonal to the surface direction of the substrate 76. Both end portions of the terminal arrangement portions 79a, 79a are connected by both end portions of the fitting portions 79b, 79b, respectively. The fitting portions 79b, 79b are higher in height than the terminal placement portions 79a, 79a. The space inside the base 79 is formed as an insertion space 79c.
[0096]
Various electronic components 81, 81,... Are mounted on the first surface 76a of the PCI board 75 (see FIG. 25). Are not provided on the second surface 76b on which the second connector terminal portion 78 is provided (see FIG. 24).
[0097]
As the electronic component 81, for example, a logic IC (Integrated Circuit) 81a, a flash ROM (Read Only Memory) 81b, an SRAM (Static Random Access Memory) 81c, an oscillator 81d, a processor 81e, and an RF (Radio Frequency) module 81 are provided. Have been. The logic IC 81a is a logic control IC, the flash ROM 81b is a memory for storing an ID (Integrated Date) code, the SRAM 81c is a cache memory in which a large number of flip-flop circuits are incorporated, and the oscillator 81d is a reference frequency. The processor 81e is a processing device that controls access to a physical transmission medium of a LAN (Local Area Network) and controls an information signal, and the RF module 81f is a circuit unit that functions as a wireless communication circuit. is there.
[0098]
The second connector terminal portion 78 of the PCI board 75 is connected to the PCI connector 64 via the wiring board 82 (see FIGS. 19 and 20). As the wiring board 82, for example, a flexible flat cable or a flexible printed wiring board is used.
[0099]
The wiring board 82 is provided with a first connection portion 84 at one end of a substrate 83 and a second connection portion 85 at a position near the other end.
[0100]
The first connection portion 84 is configured by a plurality of copper foil terminals formed on the substrate 83.
[0101]
The second connecting portion 85 is composed of a connecting base 86 mounted on a substrate 83 and a plurality of terminals 87, 87,... (See FIG. 27).
[0102]
The connection base 86 is formed of a resin material, and has an outer peripheral portion 88 formed in a frame shape that is long in one direction, and a fitting portion 89 provided inside the outer peripheral portion 88. The outer peripheral portion 88 includes long portions 88a, 88a positioned in parallel and short portions 88b, 88b positioned in parallel. The fitting portion 89 is formed in a long block shape in the direction in which the longitudinal portions 88a, 88a extend, and is disposed at a predetermined interval from the outer peripheral portion 88.
[0103]
The space between the longitudinal portions 88a, 88a of the outer peripheral portion 88 and the fitting portion 89 is formed as first insertion spaces 90, 90, and the terminals 87, 87,. Is formed. The space between the short portions 88b, 88b of the outer peripheral portion 88 and the fitting portion 89 is formed as second insertion spaces 91, 91.
[0104]
The first connector 84 of the wiring board 82 is connected to the PCI connector 64 provided on the motherboard 61.
[0105]
The second connector terminal portion 78 of the PCI board 75 and the second connection portion 85 of the wiring board 82 are joined and connected (see FIG. 28). The connection between the second connector terminal portion 78 and the second connection portion 85 is performed by inserting the fitting portions 79b, 79b of the PCI board 75 into the second spaces 91, 91 of the wiring board 82, respectively, and fitting them. .. Of the board 75 are inserted into the first spaces 90, 90 of the wiring board 82 and connected to the terminals 87, 87,. This is performed by being inserted and fitted into the insertion space 79c of the board 75.
[0106]
The first connector terminal portion 77 of the PCI board 75 is used, for example, in an information processing apparatus provided with a type of PCI connector directly connected to the first connector terminal portion 77 on a motherboard. Can be connected to
[0107]
As described above, in the information processing apparatus 1, the PCI board 75 is provided with the first connector terminal 77 and the second connector terminal 78 having the same function, and one of the terminal It is possible to connect.
[0108]
Therefore, depending on the type of the information processing apparatus, either the first connector terminal 77 or the second connector terminal 78 can be selected as the connector terminal to be connected. And the information processing apparatus 1 can be made thinner and smaller.
[0109]
Also, the height of the electronic components 81, 81,... Mounted on the PCI board 75 and the height of the electronic components mounted on the motherboard 61 can be changed according to the arrangement position of the PCI board 75 with respect to the motherboard. .., And the layout efficiency of the electronic components mounted on the motherboard 61 can be improved.
[0110]
Further, the size of the PCI connector provided on the motherboard can be changed according to the size of the first connector terminal portion 77 and the second connector terminal portion 78, and the size of the PCI connector 64 can be reduced. Thereby, the size of the information processing apparatus 1 can be reduced.
[0111]
Furthermore, the first connector terminal portion 77 can be directly connected to the PCI connector, and the second connector terminal portion 78 can be connected to the PCI connector 64 via the wiring board 82. Since either the first connector terminal portion 77 or the second connector terminal portion 78 can be selected in consideration of the position and the relationship with other components other than the PCI board 75, the arrangement of the PCI board 75 can be selected. The degree of freedom can be further improved.
[0112]
In addition, since the PCI board 75 has the electronic components 81, 81,... Mounted only on the first surface 76a, the electronic components 81, 81,. Without interfering with the wiring board 82 that connects the terminal portion 78, workability in connecting the wiring board 82 can be improved and damage to the wiring board 82 can be prevented.
[0113]
Although a personal computer has been described above as an example of an information processing apparatus, the information processing apparatus is not limited to a personal computer, and may be another type of information processing apparatus such as a PDA or a mobile phone. .
[0114]
The specific shapes and structures of the respective parts shown in the above-described embodiments are merely examples of the embodiment when the present invention is implemented, and the technical scope of the present invention is limited by these. It must not be interpreted in a tentative way.
[0115]
【The invention's effect】
As is apparent from the above description, the information processing apparatus of the present invention is an information processing apparatus including a display and a device main body in which a circuit board is disposed, and a hard disk drive is attached to the circuit board. A drive mounting part is formed, a connection connector is provided on the drive mounting part, a bracket is provided for holding the hard disk drive from at least the opposite side of the drive mounting part across the hard disk drive, and the connector part of the hard disk drive is connected to the connection connector and the bracket is connected. Is mounted on a circuit board, and the hard disk drive is mounted on the drive mounting portion.
[0116]
Therefore, it is not necessary to separately install the hard disk drive and the bracket, and the workability can be improved.
[0117]
Further, since it is not necessary to connect the hard disk drive using a wiring board such as a flexible printed wiring board, the number of components can be reduced and workability can be improved.
[0118]
Furthermore, since it is not necessary to mount the hard disk drive using a sub-board separate from the circuit board, the number of components can be reduced, and since connection work with each part of the sub-board is not required, the work process Can be simplified.
[0119]
According to the invention described in claim 2, the bracket has a first holding portion for holding the hard disk drive from the opposite side of the drive mounting portion with the hard disk drive interposed therebetween, and a substantially right angle with respect to the first holding portion. Since the second pressing portion which is bent to bend and presses the outer peripheral surface of the hard disk drive is provided integrally, the rigidity of the bracket is high, and a stable holding state of the hard disk drive by the bracket can be secured.
[0120]
According to the third aspect of the present invention, the bracket is formed of a metal material, and the bracket is provided with an elastic engagement portion that is elastically deformable by engaging with the circuit board, so that the bracket is attached to the circuit board. The circuit board can be clamped, for example, in a state where the bracket is attached to the circuit board by the elastic engagement portion before screwing, and the work in the fixing work of the circuit board to the device main body part and the like can be performed. Performance can be improved.
[0121]
According to the invention described in claim 4, the hard disk drive is provided with a frame portion and a main body portion provided inside the frame portion and protruding from the frame portion to the opposite side of the drive mounting portion, and the first portion of the bracket is provided. Since the frame portion of the hard disk drive is pressed by the pressing portion and the second pressing portion, the bracket does not exist on the main body of the hard disk drive, so that the thickness of the information processing apparatus can be reduced accordingly.
[Brief description of the drawings]
FIG. 1 shows an embodiment of the present invention together with FIGS. 2 to 28. FIG. 1 is a perspective view of an information processing apparatus with a display unit opened.
FIG. 2 is a perspective view of the information processing apparatus shown with the display unit closed.
FIG. 3 is a rear view of the information processing apparatus in a state where a display unit is closed.
FIG. 4 shows an example of use when the information processing apparatus is used as a portable device together with FIG. 5, and FIG. 4 is a perspective view showing one example.
FIG. 5 is a perspective view showing another example.
FIG. 6 is a perspective view showing a bottom side of the information processing apparatus with a battery separated.
FIG. 7 is a perspective view illustrating a bottom side of the information processing apparatus.
FIG. 8 is an enlarged exploded perspective view showing an operation knob, a lock lever, and the like.
FIG. 9 is an enlarged perspective view showing a state where the lock lever is supported.
FIG. 10 is an enlarged sectional view showing a state in which the operation knob is attached to the regulating member.
FIG. 11 is a schematic enlarged side view partially showing a cross section of a state in which a lock projection of a lock lever is projected from a communication hole.
FIG. 12 is an enlarged sectional view showing a state in which the movement of the operation knob is restricted.
FIG. 13 is a perspective view of a battery.
FIG. 14 is an enlarged sectional view showing a state of an engagement protrusion and an engagement recess before a battery is mounted.
FIG. 15 is a schematic enlarged side view partially showing a cross section of a state in which a lock projection of a lock lever is drawn into a communication hole.
FIG. 16 is an enlarged cross-sectional view showing a state of an engagement protrusion and an engagement recess when a battery is mounted.
FIG. 17 is a schematic enlarged side view showing a state in which a battery is locked by a lock lever, with a part thereof being sectioned;
FIG. 18 is an enlarged cross-sectional view showing a state where restriction on movement of the operation knob is released.
FIG. 19 is an exploded perspective view showing the internal structure of the apparatus main body.
FIG. 20 is a perspective view showing the internal structure of the apparatus main body.
FIG. 21 is an enlarged perspective view of a bracket.
FIG. 22 is an enlarged sectional view showing a state immediately before the bracket is attached to the motherboard.
FIG. 23 is an enlarged sectional view showing a state where the bracket is attached to the motherboard.
FIG. 24 is an enlarged bottom view of the PCI board.
FIG. 25 is an enlarged plan view of the PCI board.
FIG. 26 is an enlarged perspective view showing a second connector terminal portion of the PCI board.
FIG. 27 is an enlarged perspective view showing a second connection portion of the wiring board.
FIG. 28 is an enlarged cross-sectional view showing a state where a second connector terminal portion of the PCI board and a second connection portion of the wiring board are connected.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Information processing apparatus, 3 ... Device main body part, 5 ... Display, 61 ... Motherboard (circuit board), 61a ... Drive mounting part, 65 ... Connector, 66 ... Hard disk drive, 67 ... Main body part, 68 ... Frame part, 68a: connector portion, 70: bracket, 71a: first pressing portion, 71b: second pressing portion, 72: elastic engaging portion, 73: elastic engaging portion

Claims (4)

An information processing apparatus comprising a display and an apparatus body in which a circuit board is disposed,
Forming a drive mounting portion to which the hard disk drive is mounted on the circuit board, providing a connector on the drive mounting portion,
Provide a bracket that holds the hard disk drive from at least the opposite side of the drive mounting part across the hard disk drive,
An information processing apparatus, wherein a connector portion of a hard disk drive is connected to a connection connector and a hard disk drive is mounted on a drive mounting portion by mounting a bracket on a circuit board. A first holding portion for holding the hard disk drive from the opposite side of the drive mounting portion with the hard disk drive interposed therebetween, and a second holding portion which is bent substantially at right angles to the first holding portion and holds the outer peripheral surface of the hard disk drive. The information processing apparatus according to claim 1, wherein the holding section is integrally provided. The bracket is formed of a metal material,
2. The information processing apparatus according to claim 1, wherein the bracket is provided with an elastic engagement portion that is elastically deformable by engaging with the circuit board. The hard disk drive has a frame portion and a main body portion provided inside the frame portion and protruding from the frame portion to the opposite side of the drive mounting portion,
The information processing apparatus according to claim 2, wherein the frame portion of the hard disk drive is pressed by the first pressing portion and the second pressing portion of the bracket.

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