JP2728083B2 - Disk drive - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a disk drive such as a floppy disk drive, and more particularly, to a recording and / or reproducing apparatus for recording and / or reproducing information signals on a disk. Alternatively, the present invention relates to an apparatus having a head transfer mechanism for feeding a reproducing head by a stepping motor. 2. Description of the Related Art Conventionally, in a disk drive device for recording and reproducing information signals on a floppy disk such as a micro floppy disk using a magnetic head, a magnetic head is moved along a radial direction of the disk using a stepping motor. To be transported. A stepping motor for moving the magnetic head is mounted in a disk drive by fixing a mounting piece or the like integrally provided on a motor housing of the stepping motor to a chassis. A screw shaft for transferring the head is connected to the motor shaft of the stepping motor by using a coupling or the like. The screw shaft is instructed rotatably on the chassis with the distal end and the proximal end directed to the bearing. [0005] Then, in the screw portion of the screw shaft,
A needle mounted on a movable carriage is pressed against a guide bar on which a magnetic head is mounted, and the screw shaft is driven to rotate by a predetermined angle by a stepping motor. The head is sequentially moved on each recording track, for example, along the radial direction of the micro floppy disk. By the way, in such a structure in which a screw shaft is connected to a drive shaft of a stepping motor with such a configuration, for example, a phase adjustment which is a position adjustment between a magnetic head and a reference track by using a disk sheet for inspection. However, there is a problem that it is difficult to adjust the screw shaft by a small angle. This is because, for example, when the screw shaft is rotated and adjusted by loosening the coupling, or when the attachment of the motor body to the chassis is loosened and the rotation of the motor body is adjusted, the screw shaft or the motor body is completely loosened. This makes it difficult to adjust the rotation of a small angle, and it is difficult to adjust the angle by loosening the screws. If the screw shaft and the guide bar for guiding the carriage on which the magnetic head is mounted are not precisely arranged in parallel, the feed amount for the rotation of the motor will be slightly different. become unable. Therefore, it is necessary to adjust the mounting position of the screw shaft, but if the amount of adjustment is large, the coupling that connects the screw shaft and the drive shaft of the motor cannot absorb the deviation, and the mounting part of the motor body must be loosened. In addition, it is necessary to adjust the mounting position of the motor body. For this reason, Japanese Utility Model Publication No. 49-13867, Japanese Utility Model Publication No. 50-110616 and Japanese Utility Model Application Laid-Open No.
As disclosed in Japanese Patent Publication No. 8071, there has been proposed an apparatus in which a motor main body is attached to a unit for indicating a screw shaft, and this unit is attached to a chassis of a disk drive. With such a configuration, the position of the screw shaft is adjusted integrally with the motor main body, and there is no need to perform readjustment or the like of mounting the motor main body. However, in the above publications, it is difficult to accurately and inexpensively fix the motor body to the screw shaft loosening unit so that the screw shaft and the motor shaft are completely parallel to each other. In order to adjust the screw shaft and the motor shaft so as to be completely parallel, a coupling mechanism for absorbing an error between the screw shaft and the motor shaft is required. The above-mentioned coupling mechanism is intended to absorb an error in the degree of parallelism between the screw shaft and the motor shaft, but has some elastic deformation. Therefore, the interposition of the coupling mechanism causes a delay in the response of the head feed and a change in the feed amount due to the deformation of the coupling mechanism. When such a change in the feed amount occurs, when the magnetic head is fed, there is a possibility that the stop position may be shifted from the target recording track when the disk is fed from the outer peripheral side and the inner peripheral side of the disk. There is. In order to solve the problems caused by the use of the coupling mechanism as described above, an arrangement constructed without using the coupling mechanism has been proposed.
-24861. In this publication, a motor shaft is extended by an amount corresponding to a screw shaft and a screw groove is formed in the extended portion. One end of the motor shaft and an intermediate portion are connected to a bearing unit. And a rotor part of the motor is attached to the motor shaft and the other end, so that the other end of the motor shaft contacts the inner surface of the bottom plate of the motor body. In such a configuration, there is a possibility that the rotation center of the stator portion of the motor and the rotation center of the rotor portion may not always coincide with each other. The average error of the shaft is absorbed, the coupling mechanism can be omitted, and the screw driving characteristics can be improved. However, in the magnetic head transfer mechanism disclosed in Japanese Utility Model Laid-Open Publication No. Sho 61-24861, the screw shaft is connected to the inner surface of the bottom plate of the motor body in order to remove backlash in the bearing. Is provided separately from the bearing unit of the screw shaft. In addition, since the leaf spring and the bearing unit are structured to be fixed to different chassis, the number of structural steps increases,
Further, the pressing force tends to vary, and when the pressing force is insufficient, backlash occurs. Therefore, it is necessary to strictly control the pressing force at the time of assembling the structure, and there is a problem that the structure is difficult to assemble. Accordingly, the present invention is intended to solve such a problem, to enable a stable head transfer with an easy structure and assembly, and to facilitate alignment of a reference track of a disk with a magnetic head. It has been proposed for the purpose of providing a disk drive device. A disk drive according to the present invention has a head for scanning a disk-shaped recording medium, an engaging means, and the above-mentioned head, in order to achieve the above object. Is mounted, head moving means for moving the head in the radial direction of the disk-shaped recording medium,
A stepping motor that engages the engaging means with a screw groove formed in a motor shaft and moves the head moving means by rotating the motor shaft, and a motor of the stepping motor having a mounting portion on a front surface thereof. A housing, a first bearing for supporting one end of the motor shaft, a second bearing between the first bearing and the motor housing for supporting an intermediate portion of the motor shaft, A motor housing supporting portion for supporting a mounting portion of the housing; and a stepping motor supporting means having first and second bearing supporting portions for supporting the first and second bearing portions, respectively, wherein the motor shaft A biasing means for biasing the other end of the motor housing toward the first bearing portion is provided inside the bottom surface of the motor housing. . In this disk drive, the motor housing is supported by the motor housing support, and the first and second bearings supporting the motor shaft having the screw groove are supported by the first and second bearing support. By doing so, the stepping motor and the drive shaft of the stepping motor are positioned and fixed to the motor support means as an integrated block. Then, the motor shaft on which the screw shaft is formed is placed in a state of being pressed and urged by the first bearing portion by the urging means provided inside the bottom surface of the motor housing. Further, since the stepping motor is fixed to the stepping motor mounting base via the elastic member, the stepping motor is mounted on the motor mounting base in a state where elastic force is applied. Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. FIG. 1 is a plan view showing a head transfer device according to the present invention, FIG. 2 is a side view thereof, and FIG. 3 is a sectional view seen from the side. A head transfer device according to the present invention applied to a floppy disk drive will be described with reference to FIGS. 1 to 3. A motor mounting base for mounting a stepping motor 2 on a chassis 1 of the floppy disk drive will be described. The table 3 is attached by screws 4. The motor mounting base 3 includes a motor housing support 3A and a first
And a second support 3C for supporting the second bearing 8. The motor mounting base 3 is mounted on the chassis 1
The positioning is performed by the positioning pins 5 which are more erected. The motor housing support 3A of the motor mounting base 3 supports the motor housing 2A of the stepping motor 2. That is, a flange portion 6 serving as an attachment portion to the motor housing support portion 3A is integrally attached to a front surface portion of the motor housing 2A of the stepping motor 2. The flange portion 6 is provided with a bearing 8 serving as a second bearing portion that supports the intermediate portion of the motor shaft 7 of the stepping motor 2 and is disposed on the front side of the main body of the stepping motor 2. A second support 3C is provided at the position of the motor housing support 3A corresponding to the motor shaft 7 of the stepping motor 2. The second support portion 3C supports the bearing 8 fitted in the flange portion 6 and is provided with the motor housing support portion 3C.
A is formed as a coaxial fitting hole 13 on the outer periphery of the shaft hole 11 provided in A. Next, a first support portion 3B provided on the motor mounting base 3 supports a metal bearing 12, which is a first bearing portion for supporting one end of a motor shaft 7 of the stepping motor 2. Things. On the other hand, a screw groove 9 is formed in the outer periphery of the motor shaft 7 protruding from the motor housing 2A of the stepping motor 2. Thus, in this stepping motor 2, the motor shaft 7 is configured to also serve as the screw shaft. On the inner side of the stepping motor 2 on the bottom side of the motor housing 2A, there is provided a pressing biasing portion for preloading the motor shaft 7. The pressing biasing portion is configured by disposing a thrust spring 10A inside the motor housing 2A of the pressing member 10 disposed on the bottom side of the motor housing 2A, and pressing and supporting the other end of the motor shaft 7 by the thrust spring 10A. The motor shaft 7 is urged toward the first support 3B. In the stepping motor 2 configured as described above, the motor shaft 7 is inserted into the shaft hole 11 provided in the motor housing support 3A of the motor mounting base 3, and is supported by the first support 3B. Metal bearings 12
The shaft 8 supports the tip of the motor shaft 7 and the bearing 8 supporting the intermediate portion of the motor shaft 7 fitted in the flange 6 of the stepping motor 2 is the second support 3C. It is mounted on the motor mounting base 3 in a state of being fitted into the hole 13. At the time of this attachment, the flange 6 is pressed down and
This is performed by fastening the pressing leaf spring 14 having the above to the mounting base 3 using a screw 15. A needle 18 mounted on a carriage 17 which is movable on a guide bar 16 disposed on the side of the mounting base 3 is provided with a screw groove 9 of the motor shaft 7.
Abuts on the contact. This allows the stepping motor 2
When the motor shaft 7 is driven at a predetermined angle, the magnetic head 19 mounted on the carriage 17 is sequentially transferred on each recording track, for example, along the radial direction of the micro floppy disk. In the head feeder constructed as described above, the screw shaft also serves as the motor shaft 7 of the stepping motor, and the bearing 8 as the second bearing is disposed on the motor housing 2A side of the stepping motor 2. Therefore, in mounting the stepping motor 2 on the mounting base 3, the bearing 8 is pressed against the second support portion 3 </ b> C of the mounting base 3, and the flange portion 6 formed integrally with the motor housing 2 </ b> A of the stepping motor 2.
Is fixed to the motor housing support portion 3A by using a pressing leaf spring 14 which is an elastic member. Therefore, for example, when the magnetic head 19 is aligned with the reference track of the disk using a disk sheet for inspection, the stepping motor 2 not directly mounted on the motor housing support 3A of the mounting base 3 is used. Even if the motor portion is rotated by loosening the screw 15, the motor housing 2A of the stepping motor 2 is pressed and supported by the holding plate spring 14 via the flange portion 6, so that displacement such as wobble is prevented. . At this time, the motor shaft 7 is moved to the first support member 3B side by a thrust spring 10A disposed inside a pressing member 10 constituting a pressing portion disposed inside the bottom surface side of the motor housing 2A of the stepping motor 2. , So that there is no backlash. Therefore, in this state, the stepping motor 2
The operation of rotating the motor housing 2A and the motor shaft 7 by a small angle becomes easy, and the positioning with the reference track can be performed with high accuracy and easily. As described above, in the disk drive device according to the present invention, the first and second bearings support the motor housing on the motor housing supporting portion and support the motor shaft having the screw groove formed therein. The stepping motor and the drive shaft of the stepping motor are supported on one stepping motor mounting base by supporting the portion on the first and second bearing supporting parts, and the stepping motor and the driving shaft are integrated through the stepping motor mounting base. Since the block is positioned and fixed to the chassis, it is possible to prevent a change in the head feed amount due to the use of the coupling mechanism. The motor shaft having the screw groove formed thereon is configured to be urged against the first bearing by urging means provided inside the bottom of the motor housing. The mechanism for pressing and biasing can be configured in the stepping motor, the configuration is simplified, and the assembly is easy. Further, since the stepping motor, the driving shaft of the stepping motor, and the pressing portion for pressing the driving shaft are integrally incorporated on a common stepping motor mounting base, the pressing force of the driving shaft is Can be attached to the chassis in a state where it is provided, so that adjustment of the pressing force at the time of attachment to the chassis becomes unnecessary, and assembly as a head feeder becomes extremely easy. Further, since the stepping motor is mounted by pressing and fixing the mounting member fixed to the front portion of the stepping motor main body to the motor mounting base using an elastic member, the elastic member is tightened. Even if the screw is loosened and the stepping motor main body can be rotated, the main body of this stepping motor does not wobble, and by rotating the main body of the stepping motor, the motor shaft with the screw groove is rotated by a small angle. The alignment with the reference track to be performed can be easily performed.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a plan view of a disk drive according to the present invention. FIG. 2 is a side view showing a mounting state of a stepping motor of the disk drive device. FIG. 3 is a cross-sectional view of a mounting state of the stepping motor as viewed from a side. [Description of Signs] 1 chassis, 2 stepping motor, 3 motor mounting base, 6 flange, 7 motor shaft, 9
Screw shaft, 10 pressing member, 14 pressing leaf spring, 16 guide bar, 17 carriage, 18
Needle, 19 magnetic head

Claims (1)

(57) [Claims] A head for scanning the disk-shaped recording medium, and an engagement means, wherein the head is mounted, and a head moving means for moving the head in a radial direction of the disk-shaped recording medium; and The head is engaged by engaging the formed screw groove and rotating the motor shaft.
A stepping motor for moving a moving means , a motor housing of the stepping motor having a mounting portion on a front surface thereof, a first bearing portion for supporting one end of the motor shaft, the first bearing portion and the motor housing , A second bearing portion that supports an intermediate portion of the motor shaft, a motor housing support portion that supports a mounting portion of the motor housing, and a first bearing that supports the first and second bearing portions, respectively. And a stepping motor support means having a second bearing support portion, and the other end of the motor shaft is attached to the first bearing portion .
A disk drive device, wherein a biasing means for biasing is provided inside a bottom portion of the motor housing.