DE1222114B - Laminated core magnetic head for recording and / or reproducing signals - Google Patents

Description

Laminated core magnetic head for recording and / or reproduction of signals The invention relates to a magnetic head with a laminated core for recording and / or reproducing signals with at least one unilateral sharply delimited magnetically homogeneous gap edge and steeply sloping gap field. A wide variety of known soft magnetic materials can be used for lamination be used.

There are magnetic heads with laminated cores for recording and / or Playback of signals known in particular from the audio frequency range, their pole ends in the form of packets of sheets stacked at right angles to the plane of the gap the non-magnetic gap foil is in contact. Thereby between adjacent sheets of the pole ends formed a secondary column, which a homogeneous formation of the magnetic field exclude at the gap edges. The stray fields emerging from the secondary gaps also influence the particles magnetized after leaving the gap of the recording medium is disadvantageous, especially in the range of the higher frequencies with full control of the magnetic layer of the recording medium.

It is known to address these shortcomings through the use of magnetic heads to fix with layered pole ends, their layer plane parallel to the cleavage plane lies and wherein at least on the run-off side of the recording medium the outer Sheets of the relevant pole end except for the sheet immediately adjacent to the gap are shortened and have no contact with the recording medium. With this well-known Arrangement inevitably results in small polar mirror lengths in the direction of movement of the recording medium, which leads to a frequency response ripple when played back in lower transmission range.

The invention, which describes a magnetic head of the initially specified This genus has set itself the goal of addressing the aforementioned shortcomings of known magnetic heads to correct with laminated core. This aim is achieved according to the invention in that one of the two ferromagnetic pole ends forming the gap edges of the magnetic core from one or more lamellae layered parallel to the gap plane exists, while the second pole end is angled, in the extreme case below 90 °, to the cleavage plane is layered. As has been established by experiments, according to the invention Both high frequencies are optimally recorded and low frequencies without disturbing ones Reproduce frequency response ripple.

In the following, on the basis of FIG. 1 to 3 an embodiment of the invention and various modifications. From these figures show the essential parts of a magnetic head according to FIG of the invention, FIG. 2 a, 2 b and 2 c each have a modified design of the pole end with lamellae layered parallel to the cleavage plane and FIG. 3 a multiple head according to the invention. The magnetic head shown in FIG. 1 according to the invention has a two-part laminated core. The left laminated core part l consists of a plurality of C-shaped stamped sheets, which in particular also in the Area of the pole end 7 with its layer plane perpendicular to the nonanagnetizable Gap layer 2 are layered. Against the other side of the gap layer 2 lies the other core part 3 with the pole end 8, which is punched from rectangular Sheet metal 4 is layered parallel to the gap plane. This core part can consist of a then generally stronger or more, then generally weaker sheets 4 exist.

The length of the polar mirror surface 5, which is parallel to the cleavage plane laminated metal sheets 4 belonging to existing pole end 8 is in the direction of movement 15 of the recording medium 6 is several times shorter than the length of the polar mirror surface 9 of the other end of the pole 7. On the aforementioned pole mirror surfaces is the tape-shaped recording medium 6 with the pole ends in contact.

The at least one excitation winding 10 of the magnetic head is on one or arranged on both core parts.

As shown in FIGS. 2a, 2b and 2c can be seen, the one pole end 8 stepped off or the like be tapered. at the one shown in FIG. 2 a shown modified embodiment of the pole end with Shorter mirror lengths become secondary gaps by shortening them step by step the flat sheets 4 avoided. At the in: the F i g. 2b, shown modified In the embodiment, the sheet metal 4 ′ adjacent to the gap layer 2 has a pole end part 11, which is bent in the direction of the gap layer 2. At the in the F i g. 2 c, however, another modified embodiment shown is for the sheet 4 ″ adjacent to the gap layer 2, one with a reinforced one Polendentei112 and such a design used that the spacing of the record carrier 6 with the removal from the gap layer 2 continuously and / or discontinuously gets bigger.

Finally, FIG. 3 one by assembling several Magnetic heads according to the invention created the same or different training Multiple head, the individual magnetic cores of which are formed from magnetic core parts 1 and 3, respectively are, the part of a plurality of sheets 13 perpendicular to the gap layer 2 and are partially formed from a thicker sheet 4 parallel to the gap layer 2. The magnetic core parts 1 and 3 are inclusive of the exciter windings 10 inserted in a known manner in housing parts 14 made of non-magnetizable material, which are likewise known by screwing or gluing to one another be connected to a unified whole. The completed magnetic head is as from Fig. 3 can be seen, provided with a round cut, whereby the polar mirror with the desired dimensions for contact with the recording medium free will.

Claims (7)

Claims: 1. Magnetic head with laminated core for recording and / or reproduction of signals with at least one sharply delimited on one side, magnetically homogeneous gap edge and steeply sloping gap field, characterized in that that one (8) of the two ferromagnetic pole ends (7, 8) of the magnetic core from one or more layers parallel to the gap plane Lamellae (4) consists, while the second pole end (7) is angled, in the extreme case below 90 ° to the cleavage plane is layered. 2. Magnetic head according to claim 1, characterized in that that the pole end consisting of laminations (4) layered parallel to the plane of the gap (8), based on the movement of the recording medium (6), the downstream side assigned. 3. Magnetic head according to claim 1 and 2, characterized in that the length of the polar mirror surface (5), which is layered from parallel to the cleavage plane Lamellae (4) existing pole end (8) belongs in the direction of movement of the recording medium (6) is several times shorter than the length of the polar mirror surface (9) of the other Polendes (7). 4. Magnetic head according to claim 1 to 3, characterized in that the Pole end (8) on the downstream side stepped off in the drainage direction (F i G. 2a) or the like is tapered (Fig. 2b, 2c). 5. Magnetic head according to claim 4, characterized in that the steps are shortened in steps are formed by flat lamellae (4). 6. Magnetic head according to claim 4, characterized characterized in that the lamella (4 ') adjacent to the gap layer (2) has a pole end part (11.), which is bent in the direction of the gap layer. 7. Magnetic head according to claim 4, characterized in that the one adjacent to the gap layer (2) Lamella (4 ") has a reinforced pole end part (12) of such a design, that the distance of the running recording medium (6) from the pole mirror (5) with the distance from the gap layer increases continuously and / or discontinuously will. B. arrangement with magnetic heads according to claim 1 or one or more of following claims, characterized by the assembly of several magnetic heads below the same or different training (Fig. 3). Considered publications: U.S. Patent Nos. 2,967,750, 2,799,732.