DE1939254A1 - Magnetic head for a storage surface that moves relative to it - Google Patents

Description

Magnetic head for a storage surface that is moved relative thereto. The invention relates in particular to a magnetic head for a storage surface that is moved relative thereto for magnetic drums or plates, such as those commonly used in calculating machines will.

It is already known to slide magnetic heads on the air cushion that is created by the air entrained when the storage surface is moving. The magnetic head generally consists of a sliding body and the inside attached magnet system, with the mirror surfaces of the magnet system also as part the sliding surface can act. The storage surface, e.g. B. the magnetic drum or plate, facing surface of the sliding body is so curved, arched, with steps provided and otherwise designed that with rapid movement of the storage surface the sliding body through the entrained air at a preset distance of the storage surface is held.

There are facilities taken both when starting up as when Shut down the storage surface a safety distance between the sliding body and the storage surface. The sliding body may, for example, when Shutting down the memory does not rest on the surface of the memory, it also has to receive a back pressure that counteracts the arising during continuous operation of the memory Air cushion presses and holds it at the correct distance.

Furthermore, it is already known to have a flat magnetic disk Use sliding bodies, with a certain roughness of the storage surface and the surface of the sliding body facing it is required to create an air cushion to be achieved with a sufficient safety distance.

These already known magnetic heads that moved on a through the Air cushions slide caused by storage surface, have various disadvantages. In general, they do not allow smaller working distances between the magnetic head and the storage area as 2 and thus set a limit for the achievable Storage density. The limit of the working distance is determined by the relatively large area Structure of the sliding surface of the magnetic heads and the required high pressure force set, which in turn are necessary to achieve an air cushion that allows the magnetic head in a sufficient safety distance from the To keep the storage surface stable.

Contact between the magnetic head and the moving storage surface lead to damage to the magnetic head and the in the solutions already proposed Storage surface.

In addition, the recording or playback process can be carried out in the working state become faulty. The mentioned damage to the magnetic head and the memory surface can take on considerable proportions, because of the masses of the magnetic heads and the required The pressure forces of the magnetic head holders are relatively large.

It is already known to have safety devices against contact of the magnetic head with the storage surface, however, such Facilities expensive and complicated.

Furthermore, a magnetic head is known in which the mirror surface of the Magnet system is not arranged within the sliding surface of a sliding body, but with two strongly convex ruby stones the third support point of one triangularly arranged three-point slider forms. The pressure forces for the well-known Three-point gliders must be kept very small, despite the low # roughness the Storage surface their wear and tear and the wear and tear of those in direct contact Support points is kept low. These very low possible pressure forces can lead to instabilities at high relative speeds.

The known magnetic head in the form of a three-point slider has more Night ie. The adjustment for the level support of the three sliding points requires one high precision. There are also high demands on the mounting of the three-point slider posed. The spatial dimensions are also relative in this known magnetic head great.

The purpose of the invention is to provide a magnetic head for a relative To create moving storage surface, which has a simple, inexpensive structure and despite the very small possible working distance to the storage surface works reliably, stably and with little wear.

The invention is based on the object in a magnetic head geometric castings, the mechanical operating conditions and the material of the sliding body so that its working distance to the # storage surface can be placed in the order of magnitude of the roughness of the storage surface.

According to the invention, the object in a magnetic head for a relative storage surface moved for this purpose, especially for magnetic drums or disks, by suitable means with low pressure against the storage surface is pressed, the working distance between the magnetic head and the storage surface is essentially determined by a gas layer that forms in between, solved in that at least one magnet system in a very wear-resistant, is preferably made of synthetic ruby embedded sliding body, the slightly curved sliding surface of so small size and roughness that it is the Roughness peaks of the storage surface occasionally touched without this causing damage leads to the two surfaces involved.

The mirror surfaces of the magnet system are in the same plane the sliding surface, but they can also be set back a little.

With the magnetic head according to the invention are due to the small Working distance of, for example, 024 / um to the storage surface, higher storage densities than achieved with the much larger proposed planar gliders.

The wear resistance and the extraordinarily high surface quality the Sliding surface of the sliding body prevent wear on the magnetic head and cause just pressing the roughness peaks of the storage surface smooth. Elne adjustment of the magnetic head to possible ripples in the storage surface is due to the weak curvature and the smallness of the sliding surface. The influence of dust and dirt particles in the magnetic head of the present invention are small. Compared to the already proposed and the known magnetic heads is characterized by the invention Magnetic head is also characterized by its small spatial dimensions. That has Advantage that the magnetic heads on the storage surface at a small distance from each other can be arranged.

The invention is to be described in more detail below using an exemplary embodiment evaluate explained. The accompanying drawings show: FIG. 1: the top view the sliding surface of the magnetic head, Fig. 2: the section A - A according to Fig. 3, Fig. 3 #: the bottom view of the magnetic head, Fig. 4: the magnetic head in a holding device.

In the sliding body 1, according to FIG. 2, the legs 2; 3 of the Magnotsysteis used and preferably with Epo # dharz 6 attached. On the thighs 2; 3, which are firmly connected at the adhesive point 4 are the windings 5. At the front Gap of the Magnetsyste s is a film 7 to achieve the necessary gap width used.

The sliding surface 9 of the sliding body 1 is aligned with the mirror surfaces 8 of the magnet system is also shown in FIG.

In Fig. 4 is an example of a holding device of the magnetic head pictured. The leaf spring 11 is attached in the holder part 10. The magnetic head is fastened in the leaf spring 11 with the aid of the socket 12.

The sliding body 1 does not have to be in the magnetic head according to the invention the circular shape can be limited, a square shape or other shapes be used. Instead of synthetic ruby, 1 Sapphire, hard steel or ceramic can be used.

FUF starting or stopping the storage surface can be done in As is known, facilities must be taken to ensure a greater distance between adjust the sliding body 1 and the storage surface.

In principle, however, it is also possible to use a hard memory surface or to use a protective layer placed over it, in order to to be able to do without the facilities just mentioned.

Claims (1)

Claim: Magnetic head for a storage surface that is moved relative to it, in particular for magnetic drums or magnetic disks, which can be operated by suitable means with low pressure is pressed against the storage surface, the working distance between magnetic head and storage surface essentially through a gas layer forming therebetween is determined, characterized in that at least one magnet system in a very wear-resistant sliding body (1), preferably made of synthetic ruby is embedded, the slightly curved sliding surface (9) of such a small size and Roughness is that it occasionally touches the roughness peaks of the storage surface, without this leading to destruction of the two surfaces involved. L e r s e i t e