JP2848637B2 - Notebook type electronic devices - Google Patents

Description

[Detailed Description of the Invention] [Object of the Invention] (Industrial application field) The present invention relates to a notebook-type electronic device which is particularly adapted to a reduction in thickness.

(Prior Art) FIG. 5 is a perspective view of a conventional magnetic disk drive 1, and FIG. 6 is a front view thereof.

The magnetic disk drive 1 has a device mechanism 9 mounted on an upper portion of a chassis 3 via a screw 5 and an anti-vibration rubber 7.
And a circuit board section 11 which is attached to a base 17 via a spacer 10 with screws 12 so as to be located below the apparatus mechanism section 9.

The illustrated mechanism 9 includes a spindle motor 15 for rotating a magnetic disk 13 on which data is recorded on both upper and lower surfaces at a predetermined speed, a base 17 and a shaft 19 erected on the base 17. An actuator arm 21 provided so as to be able to swing and rotate in parallel to the head arm, a head arm 23 attached vertically to the actuator arm 21, an upper and lower magnetic head 25 attached to the tip of each head arm 23, and a shaft. A drive coil 27 wound around the end of the actuator arm 21 opposite to the side on which the head arm 23 is mounted with respect to 19, and the drive coil 27 is disposed vertically so as to sandwich the drive coil 27 from above and The upper and lower yokes 31, 33 attached to the coil 17 and magnets (not shown) attached to the yokes 31, 33 so as to oppose the coil 27 from above and below. Is composed,
When the current flowing through the drive coil 27 is controlled, the magnetic disk of the actuator arm 21 is actuated by the action of the magnet.
This is a structure in which seek rotation with respect to 13 is controlled.

The illustrated circuit board unit 11 is for performing operation control of the device mechanism unit 9 such as the current control of the drive coil 27 and signal processing for recording and reproducing data on the magnetic disk 13 by the magnetic head 25. , And is mainly constituted by a printed wiring board 35 and electrical circuit components 37 mounted on the printed wiring board 35.

(Problems to be Solved by the Invention) In the conventional magnetic disk drive 1, the device mechanism 9 and the circuit board 11 are arranged so as to overlap each other in the vertical direction. Although it can be accommodated to the outer dimensions of the part 9, the thickness is determined by the thickness t ₁ of the device mechanism part 9 and the thickness of the electric circuit component 37 and the printed wiring board 35 as shown in FIG. Circuit board
The sum of the thickness t _{2 of} 11 and the total thickness T of the magnetic disk device 1 results in a problematic configuration when the main purpose is to reduce the thickness of the device.

Although not shown in the drawings, there is a so-called hard card type magnetic disk device, which has a structure in which the magnetic disk device is mounted on a part of a circuit board portion. Although the thickness is reduced as compared with the above, even in the hard card type, since the circuit board portion is arranged in the thickness direction at the lower portion of the magnetic disk device, there is a limit for further thinning.

In particular, for example, in the case of a magnetic disk device having a disk diameter of 3.5 inches or less, when the magnetic disk device is mounted on a so-called notebook type model configured for a personal computer or a word processor, the thickness is as thin as possible. However, the thickness of about 12.7 mm (1/2 inch) is the limit in the above-mentioned conventional vertical overlapping type, and about 17 mm is slightly thicker in the known example.

SUMMARY OF THE INVENTION An object of the present invention is to respond to recent demands by proposing a notebook-type electronic device equipped with a magnetic disk device designed to solve the problem of the conventional device and to be as thin as possible. .

[Structure of the Invention] (Means for Solving the Problems) In order to solve the above problems, the present invention provides a device in which a display can be opened and closed with respect to a keyboard, and these are integrated with a device main body. In a notebook-type electronic device provided with a magnetic disk device, the magnetic disk device includes a spindle motor for rotating a magnetic disk, and an actuator arm provided with a magnetic head performs seek movement parallel to the magnetic disk surface. And a circuit board section provided with an electric circuit for controlling the apparatus mechanism section and processing a data recording / reproducing signal by the magnetic head to constitute the magnetic disk drive. The device mechanism unit and the circuit board unit are connected to the device main body below the keyboard by a cable that electrically connects the two. It is constituted to be arranged in parallel with each other at a predetermined interval.

The device mechanism section and the circuit board section may be arranged on substantially the same plane.

In addition, the display can be opened and closed with respect to the keyboard, these are integrated with the device main body, and a notebook type including a main body circuit board on which a magnetic disk device and a circuit for controlling the device main body are mounted in the device main body. In the electronic apparatus, the magnetic disk device includes a spindle motor for rotating the magnetic disk, and an actuator mechanism provided with a magnetic head is configured to perform a seek movement parallel to the magnetic disk surface. And a circuit board section having an electric circuit for controlling the apparatus mechanism section and processing data recording / reproducing signals by the magnetic head. The apparatus mechanism section and the circuit board section constituting the magnetic disk drive are provided with the keyboard. Parallel to each other at a predetermined interval by a cable that electrically connects Together they are placed, and the body circuit board and the circuit board unit, may be configured to be placed in a fixed state superposed on each other.

(Operation) An apparatus mechanism mainly including a magnetic disk and an actuator arm and a circuit board section provided with an electric circuit for controlling the apparatus mechanism are arranged in parallel at a predetermined interval by a cable. Therefore, the thickness of the notebook-type electronic device can be reduced, and the degree of freedom in the arrangement of the device mechanism and the circuit board below the keyhole is improved.

Also, by arranging the device mechanism and the circuit board on the same plane, the thickness of the magnetic disk device is sufficiently thin so as to be substantially equal to the thicker of the device mechanism and the circuit board. As a result, the thickness of the notebook type electronic device can be reduced to about 1/2 of that of the conventional device in which the device mechanism and the circuit board are vertically stacked.

(Example) Further, by arranging a main body circuit board having a circuit for controlling the main body and a circuit board portion in a state of being superposed and fixed to each other, other parts are laid out in the main body of the apparatus. The above-mentioned design flexibility is improved.

 Next, an embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a perspective view of the magnetic disk drive 41, and FIG. 2 is a front view of FIG.

The device mechanism 9 is mounted on the base 43, and the electric circuit components 37 are mounted.
A circuit board part formed by mounting on a printed wiring board 35
Reference numeral 11 is arranged on one lateral side of the device mechanism 9. The device mechanism section 9 and the circuit board section 11 are arranged in parallel with each other at a predetermined interval so as to be substantially on the same plane by a flexible cable which is a cable for electrically coupling the two.

The device mechanism section 9 and the circuit board section 11 of FIG. 1 may have the same configuration as the device mechanism section 9 and the circuit board section 11 of the conventional apparatus described with reference to FIGS. 5 and 6.

That is, the device mechanism 9 includes a spindle motor 15 for rotating the magnetic disk 13, a base 43, and a shaft erected on the base 43.
19, the actuator arm 21 pivotally supported by the shaft 19, the upper and lower head arms 23 and the magnetic head 25 attached thereto, the drive coil 27 wound on the actuator arm 21, and the upper and lower attached to the base 43. York 31,33
And a magnet (not shown) attached to each of the yokes 31 and 33. The actuator arm 21 is rotated by a seam by the action of the magnet by controlling a current flowing through the drive coil 27. 9 is
It is covered with a top cover 49 attached to the base 43 with screws 47.

The circuit board section 11 is connected to an apparatus body such as a notebook type personal computer or a word processor as shown in FIG. 3 by an interface connector 49 attached to the printed wiring board 35.

As described above, in the magnetic disk drive 41, the device mechanism 9 and the circuit board 11 that controls the device mechanism 9 are arranged so as to be substantially parallel to each other in the lateral direction and substantially on the same plane.
The thickness of the magnetic disk device 41 is configured to be sufficiently thin so as to be substantially equal to the thicker one of the device mechanism section 9 and the circuit board section 11, and the device mechanism section and the circuit board section are separated from each other as in the conventional apparatus. In the above-described embodiment, the thickness is approximately 比 べ of that of the vertically stacked structure.

The magnetic disk device 41 thus thinned is mounted on a base.
By providing screw holes 57 and 59 on 43 and the printed wiring board 35, respectively, and mounting it on a notebook type word processor or personal computer electronic device as shown in Fig. 3, it is possible to make the electronic device thinner Thus, the convenience of the notebook type, which is required to be lightweight and thin, is improved. In FIG. 3, reference numeral 73 denotes a display, and reference numeral 75 denotes a keyboard. The display 73 can be opened and closed with respect to the keyboard 75. The attachment to the device main body is performed between the mounting portion on the device main body side and the magnetic disk device 41.
As shown in the figure, the vibration isolating rubbers 67 and 69 are interposed. However, the vibration isolating rubbers 67 and 69 may not be provided, and the spacers may be simply interposed.

1 and 2, the device mechanism 9 is connected to the circuit board 11 by a flexible cable 45. For example, the circuit board 11 is connected to the device mechanism using the flexible cable 45. By shifting the portion 9 upward from a position substantially on the same plane as shown in FIG.

Further, when the device mechanism section 9 and the circuit board section 11 cannot be adjacent to each other due to the layout of components in a device such as a personal computer or the like, the flexible cable 45 may be extended and the flexible cable 45 may be arranged at a position separated from the circuit board section.

As described above, by connecting the device mechanism unit 9 and the circuit board unit 11 by the flexible cable 45, the degree of freedom in designing the layout of the magnetic disk device in the electronic device main body as shown in FIG. Will be higher.

Further, as shown in FIG. 2, the thickness of the circuit board portion 11 is considerably smaller than the thickness of the device mechanism portion 9, so that the device mechanism portion 9 has a smaller thickness.
If the thickness is substantially the same as the thickness of the circuit board, a circuit board (not shown) on the device main body side may be overlapped and fixed to the circuit board section 11. As a result, the degree of freedom in designing the layout of other components in the device body is improved.

FIG. 4 is a plan view schematically showing the width and depth dimensions of the magnetic disk drive 41 in order to explain the features of the embodiment. In the figure, the area + is the device mechanism 9
The area corresponds to the external dimensions of the conventional magnetic disk drive for 3.5 inches in which the substrate and the circuit board section 11 are superimposed, and the area corresponds to the external dimensions of the conventional magnetic disk drive for 2.5 inches, which is smaller than that.

Here, considering the case where the embodiment is applied to a 2.5-inch disk device having a smaller disk diameter than the 3.5-inch magnetic disk device, the depth of the device
The width is designed to be about the width of the inch magnetic disk drive, and the width is designed to be about half the depth of the conventional 3.5-inch magnetic disk drive. If it is designed to be about the same size as the conventional 3.5-inch magnetic disk drive, it will be possible to design a standardized magnetic disk drive with the overall width x depth dimensions being about the same as the conventional 3.5-inch magnetic disk drive. The thickness can be reduced to about 1/2.

Although not shown, the actuator arm 21 in the above embodiment may be of a type that moves linearly instead of pivotally, and may have one magnet in the vertical direction.

[Effects of the Invention] As is clear from the above, according to the configuration of the present invention, the device mechanism and the circuit board are arranged in parallel with each other at a predetermined interval by a cable that electrically couples them. The thickness of the notebook type electronic device can be reduced, and the degree of freedom in the arrangement of the device mechanism and the circuit board below the keyboard is improved.

Further, by arranging the device mechanism section and the circuit board section on substantially the same plane, the thickness of the magnetic disk drive constituted by these sections is substantially equal to the thicker of the apparatus mechanism section and the circuit board section. It becomes thin enough
Compared to the conventional device in which the device mechanism and the circuit board are stacked one on top of the other, the thickness is reduced to approximately 1/2, which can further contribute to the reduction in the thickness of notebook-type electronic devices. In addition, the convenience of the notebook type, which is required to be lightweight and thin, is improved.

Furthermore, by arranging the main body circuit board having a circuit for controlling the main body of the device and the circuit board portion in a superimposed and fixed state, the degree of design freedom in laying out the other end in the main body of the device. Is improved.

[Brief description of the drawings]

FIG. 1 is a perspective view of one embodiment of the present invention, FIG. 2 is a front view of FIG. 1, FIG. 3 is a perspective view of a word processor or a personal computer equipped with the magnetic disk device of FIG. 1, and FIG. FIG. 5 is a plan view for explaining the external dimensions of the magnetic disk drive, FIG. 5 is a perspective view of the conventional apparatus, and FIG. 6 is a front view of FIG. 9 Device mechanism unit 11 Circuit board unit 13 Magnetic disk 15 Spindle motor 21 Actuator arm 25 Magnetic head 73 Display 75 Keyboard

Claims (3)

(57) [Claims] 1. A notebook type electronic device having a display which can be opened and closed with respect to a keyboard, which is integrated with a device main body and which has a magnetic disk device in the device main body, wherein the magnetic disk device comprises: A device mechanism unit including a spindle motor for rotating the magnetic disk, and an actuator arm provided with the magnetic head configured to perform seek movement parallel to the magnetic disk surface; It has a circuit board part provided with an electric circuit for processing a data recording / reproducing signal, and an apparatus mechanism part and a circuit board part constituting the magnetic disk drive are both provided in a device main body below the keyboard. Notebooks characterized by being arranged in parallel with each other at a predetermined interval by a cable to be electrically coupled Type electronic devices. 2. The notebook-type electronic device according to claim 1, wherein the device mechanism and the circuit board are disposed on substantially the same plane. 3. A display is openable and closable with respect to a keyboard, and these are integrated with an apparatus main body, and the apparatus main body includes a magnetic disk device and a main body circuit board on which a circuit for controlling the apparatus main body is mounted. In a notebook-type electronic device, the magnetic disk device includes a spindle motor for rotating a magnetic disk, and an actuator arm provided with a magnetic head is configured to perform a seek movement parallel to a magnetic disk surface. A device mechanism unit and a circuit board unit having an electric circuit for controlling the device mechanism unit and processing a data recording / reproducing signal by a magnetic head, the device mechanism unit and the circuit board unit constituting the magnetic disk device Are connected to each other at predetermined intervals by a cable that electrically connects In conjunction with arranged in parallel, the main body circuit board and the circuit and the substrate portion, notebook electronic apparatus characterized in that it is arranged in a fixed state superposed on each other.