HU212066B - Head - disc arrangement, first of all, for optical data storing equipments - Google Patents

Abstract

FIELD OF THE INVENTION The present invention relates to a head-plate arrangement, particularly for optical data storage devices. The arrangement includes a write and / or read head (2), a disk rotation mechanism (4), and an optical data storage disc (1) rotating in the plane of the disc (1). The arrangement comprises at least two writing and / or reading heads (2), fixed directly or indirectly, relative to the base plate (10) of the arrangement, arranged on either or both sides of the rotating plate (1). The rotating plate (1) is displaceable relative to the plane of the plate (1) in relation to the base plate (10) of the arrangement, in front of the writing and / or reading heads (2). For conveying the rotating plate (1) to the writing plate (1) in the plane of the disc (1), the arrangement comprises a disk transfer mechanism (7). ? EN 212 066 B Scope of the description: 6 pages (including 2 sheets)

Description

BACKGROUND OF THE INVENTION The present invention relates to a head-plate arrangement, in particular to an optical data storage device, which can be used mainly in disk drive units of a non-removable, rewritable optical data storage system with a sliding disk design.

For each disc-shaped information carrier, where the information is recorded on the information carrier along a track formed in a concentric or spiral shape so that the information to be written or read can be placed or accessed on the surface of the disc, rotating the information carrier disc it is also necessary to move the recording or reading head relative to the rotating disk relative to one another. This means that when writing or reading on any surface of the information storage medium, two degrees of freedom must be provided to access any point on the information storage surface. Typically, the two degrees of freedom are selected by moving the write-reader head and the disc relative to one another along a line, typically a radially straight line, while rotating the information carrier disk about its center.

An example of a rotating disk carrying a writing or reading head and information is illustrated in U.S. Patent No. 4,423,447. patent specification. In the case described herein, which is common in the art, moving the writer-reader head and the information carrier relative to one another is accomplished by rotating the disc about a fixed axis relative to the base of the device and rotating the crook and / or reader head. typically move radially in front of the plate relative to the device motherboard. This solution is widespread in both removable and fixed information storage systems with built-in disk media. With this head-to-disk movement solution, it is easy to replace the information-bearing storage disk at any given time. If information is recorded on both sides of the disk, access to both sides of the disk is also required. In general, turning the disk during operation is not desirable, so heads must be placed on both sides of the disk and the heads on both sides must be moved. Multiple heads can be used to increase storage capacity and data transfer rates, but this multiplies the moving mass in a moving head design.

in the case of iris-readable magneto-optical data storage, the recording space and the deletion also require a magnetic field at the point of recording / deletion. To create this magnetic field, permanent or electromagnets are placed on the other side of the magneto-optical disk, opposite the read-write head.

A disk storage system based on the principle of magneto-optical storage is described in U.S. Patent No. 4,610,009. In the examples described there is a permanent or electromagnet disposed in front of a plate rotated on a fixed axis relative to the base plate of the apparatus, opposite to the moved head, and a permanent magnetic field opposite the orbit of the head, longitudinal or electromagnets. Thus, in the case of magneto-optical storage, it is a particular problem to move the bulk magnets providing the magnetic field with the read-write head, or to use a large but relatively small mass magnet that provides the required magnetic field along the path of the read-write head. can provide the right strength at every point of the track. When storing information on both sides of the magneto-optical storage disk, the number of magnets to be moved is also doubled, which may also result in an increase in the mass to be moved.

With magneto-optical storage in multiple bands at one time, the mass increase due to the increase in the number of magnets required increases with the number of heads on each side of the magneto-optical disk. This is particularly unfavorable when the aim is to increase the capacity of the data storage device, while reducing or maintaining the access time, while reducing the total weight of the device and minimizing its volume. These include special applications, or applications in space, satellite technology.

A method for reducing the mass displaced is disclosed in U.S. Pat. No. 4,769,800. A patent in which the optical head is divided into two parts. One part of the optical head is standing and the other is moving. They move only those elements of the optical head that are strictly necessary. However, this solution requires an optically complex head design and also demands higher on the optical and mechanical system used. In magneto-optical storage, high-mass magnets must be moved either unchanged, or a high-strength magnet applied over the entire operating range.

As an internal storage unit for computers, the traditional solution for storing information is the so-called. hard disk, or hard disk drive internal unit that contains a non-removable disk or disks. At present, storage systems based on the principle of magneto-optical or purely optical have been developed in this field, in addition to magnetic-read and write-only systems. Typically, a hard disc used as an internal memory unit of a computer is disclosed in U.S. Patent No. 4,791,508. U.S. Pat. No. 4,123,195, which discloses a disk disk unit having two write-read-head heads. The memory unit comprises a disk rotated about a fixed axis relative to the system board and radially moved heads of the disk. The read and write heads are disposed opposite each other on the two sides of the information carrier and move together. Low weight, e.g. for magnetic recorder readers, moving the heads in this way is not a problem, but larger

HU 212 066 B, e.g. for heads containing optical elements and systems, this head movement solution already requires a cumbersome and complicated mechanism. Due to the large weight of the movable heads, the access time to the data recorded on the disk is long. The wires and inputs of the optoelectronic and electromechanical elements in the optical head present a particular problem due to the moving or moving head, which is made more difficult by the fact that the data signal being played is a high frequency signal and must be solved.

In the development of the head-disk arrangement according to the present invention, the object was to develop a mechanical design for a typically non-removable disk hard disk storage unit intended for memory units, which allows head and disk moving mechanics to be used with multiple read / write heads. in addition to reducing the total weight, simplifying the overall mechanical structure of the structure by reducing the access time to the information stored on the disk and increasing or maintaining the storage capacity.

In order to create the present invention, it has been recognized that, contrary to the prior art and commonly used in the art, an information storage disk is rotated about a fixed axis relative to the base of the device and the recorder head is moved before the information storage surface of the disk. , it has been discovered that for systems containing a read / write information disc, the read / write heads are fixed relative to the base of the device and rotated about the axis of rotation relative to the plane of the device and moved in front of the read / write heads , it is possible to achieve the intended purpose, which is to reduce the movement mechanisms used in the storage device for the use of the other read / write heads, to achieve general mechanical simplification of the construction e, since only the mechanical application of the data storage disk is moved in the plane of the disk, rather than the mechanical movement of the heads or magnets.

The invention thus relates to a head-plate arrangement, in particular to an optical data storage device comprising a write and / or read head, a disk rotating mechanism and a rotating data storage disk. The arrangement comprises at least two writing and / or reading heads fixed directly or indirectly with respect to the base plate of the arrangement, which are disposed on the same side or both sides of the rotating disk. The rotating disk is disposed in front of the writing and / or reading heads relative to the plane of the arrangement and parallel to the plane of the disk. The arrangement includes a disk transfer mechanism for conveying the rotating disk in front of the writing and / or reading heads in the plane of the disk.

In one embodiment of the present invention, the optical data storage disk used is a write-once, erasable magneto-optical storage. In this case, due to the principle of magneto-optical storage, permanent or electromagnets are mounted on the other side of the rotating disk, opposite to the writing and reading or writing heads, which are fixed directly or indirectly with respect to the motherboard of the apparatus.

The disc rotation mechanism may be implemented such that the disc rotation motor is preferably in direct or indirect mechanical engagement with the optical disc. In the case of direct mechanical drive, a lightweight, lightweight disk rotary motor must be used, because the disk rotary motor then moves with the disk in the plane of the disk in front of the heads, thereby increasing the mass moved. The advantage is that the drive can thus be easily solved, for example, by means of a disc rotating motor, the stationary part of which is the axis around which the disc rotates and the rotating part of which is the disc holder. In the case of an indirect mechanical drive, the disc rotation motor does not move with the disc because it would cause unnecessary displaced mass, but is fixed directly or indirectly to the base board of the arrangement and the drive is transferred to the disc clamp with a slight transmission.

The disc conveying mechanism preferably comprises a linear or stepper motor as the disc conveying motor. In the case of a stepper motor, one of the possible plate conveying solutions is that the stepper motor is mounted directly or indirectly relative to the base board of the arrangement and that the disk is conveyed by a worm shaft or rack or belt. In the case of a linear motor, the stator of the linear motor is fixed to the base plate of the arrangement, while the movable part is rigidly connected to the grip of the plate rotary axis, which thus transmits the rotating plate.

The arrangement according to the invention may conveniently be provided in two or more plate arrangements. One special case of the two plate designs is, for example, the use in satellites, where the two plates are rotated in opposite directions and transmitted in front of the heads. As a result, due to the rotation and movement of the rotating plates, there are no unwanted moments and forces affecting the position and position of the satellite. However, due to the simplicity of the disk transfer mechanisms, the mass moved is minimal compared to the information stored.

An embodiment of the invention will now be described with reference to the accompanying drawings.

The figure shows a possible embodiment of the head-plate arrangement according to the invention.

Figure 2 illustrates the design of the plate transfer mechanism at a linear jetty.

Figure 3 illustrates an embodiment of a disc conveying mechanism with a stepper motor and a belt drive.

Figure 1 shows a possible embodiment of the head-plate arrangement according to the invention. The magneto-optical data storage disk 1, the receiver 6 and the disk rotation mechanism 4 are arranged on the shaft 5. Information recording surface of disc 1 in front of read / write heads 2 fixed to the system board 10

HU 212 066 B is available. Opposite the heads 2 are magnets 3 for insertion and deletion on the other side of the disc 1, which are also secured to the base board 10 of the arrangement. The shaft 5 engages the disk conveying mechanism 7 which includes the worm shaft 9 and the disk motor 8 fixed to the base plate 10 of the arrangement by the intermediate element 11.

The arrangement of Figure 1 is as follows. The disc 1 fixed by the catch 6 is rotated by the disc rotation mechanism 4 about the axis 5 in front of the read / write heads 2. The heads 2 attached to the motherboard 10 and the magnets 3 remain fixed and fixed during playback and recording. The rotation of the disc 1 by rotation is provided by the disc conveying mechanism 7 which, during recording or reading, transmits the rotating disc 1 radially in the plane of the disc 1 before the heads 2 and the magnets 3. The shaft of the drive motor 8 drives the worm shaft 10. As the rotation of the worm shaft 10 increases with the auger thread, the rotating plate 1 is displaced before the heads 2.

Fig. 2 shows a linear motor design of the disc conveying mechanism 7. The disk conveying mechanism 7 then consists essentially of a linear motor used as the disk conveying motor 8, the stationary part of which is fixed to the base plate of the arrangement and the movable part connected to the shaft 5 by the rigid intermediate element 11.

The arrangement shown in Figure 2 is as follows. The movable part of the plate conveying motor 8 moves the axis 5 of the rotating plate 1 by means of the rigid intermediate element 11, thereby moving the rotating plate 1 to the desired position in front of the heads 2 and magnets 3.

Figure 3 illustrates an embodiment of the disc conveying mechanism 7 with a stepper motor and belt drive 12. The stepping motor 8 is used as a stepping motor 8 to which a pulley 13 is connected. A further pulley 13 is used to form the belt drive mechanism 12. The shaft 12 engages the shaft 5 around which the plate 1 rotates by interposing the rigid intermediate member 11.

The arrangement of Figure 3 is as follows. The plate conveying motor 8 moves the belt 12 by means of one of the pulleys 13. With the movement of the belt 12, the rotating plate 1 moves in front of the heads 2 and the magnets 3 with the help of the intermediate element 11.

An advantage of the head-plate arrangement of the present invention is that it allows the use of more sophisticated entry-reading optics in optical data storage systems without increasing the mass and volume of the optical elements without strictly restricting the weight and volume of the optical elements. Since the typing-scan optics are not moved properly, the otherwise delicate design can be applied to mechanical vibrations. In order to reduce the access time and increase the data transfer speed, it is possible to place more than one write-reader optic on both sides of the disk without increasing the mass being moved. With the use of a magneto-optical data storage disk, the arrangement of the present invention has the additional advantage that the eraser magnets do not need to be moved together with the write-reader heads, and do not require a large magnet along the entire path of the head. , place small magnets mounted on the back of the disc relative to the system board.

Claims (5)

PATENT CLAIMS A head-plate arrangement, in particular for an optical data storage device comprising a write and / or read head, a disc rotation mechanism and a rotating data storage disk, characterized in that the arrangement comprises at least two writers and / or discs fixed directly or indirectly to the base board (10). and / or a reading head (2) disposed on the same side or on both sides of the rotating disk (1), the rotating disk (1) being disposed in a position relative to the plane of the arrangement (10), parallel to the plane of the disk (1); The arrangement comprises a disc conveying mechanism (7) for transmitting the rotating disc (1) in front of the read heads (2) and the read and (2) heads in the plane of the disc (1). Arrangement according to Claim 1, characterized in that the optical data storage disk (1) used is a multi-writable, erasable magneto-optical storage and a rotating disk (1) opposite to the read and write heads (2). ) is provided with a permanent or electromagnetic magnet (s) (3), directly or indirectly attached to the system board (10) on the other side. Arrangement according to claim 1 or 2, characterized in that the disc rotation mechanism (4) comprises a disc rotation motor which is in direct or indirect mechanical engagement with the optical disc (1). 4. Arrangement according to any one of claims 1 to 3, characterized in that the disc conveying mechanism (7) is connected directly or via an intermediate element (11) to the disc rotation mechanism (4). 5. Arrangement according to one of Claims 1 to 3, characterized in that the arrangement comprises two or more independently rotating plates (1).