JPH05234024A - Magnetic head - Google Patents

Abstract

PURPOSE:To provide a magnetic head capable of maintaining constant output even when the depth of a gap varies by the wear of the magnetic tape sliding face of a core due to the sliding of a magnetic tape. CONSTITUTION:A gap 3 is formed in the magnetic tape sliding face of an annular core 1 and magnetic metal films 4 are formed on faces opposite to the gap 3. The magnetic metal film 4 is composed of a high permeability magnetic film 6 of a high permeability material formed on the magnetic sliding face side and a low permeability magnetic film 7 of a low permeability material formed on the inside of the core 1.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a magnetic head, and more particularly to a magnetic head suitable for recording and reproducing on a video tape deck or the like and having a metal magnetic film formed on the surface facing the gap.

[0002]

2. Description of the Related Art Generally, a video tape deck is equipped with a magnetic head for recording, reproducing or erasing on a magnetic tape. In such a magnetic head, a magnetic tape having a core made of a magnetic material is used. A magnetic head in which a gap is formed on a sliding surface and a metal magnetic film is formed in the gap is often used.

FIG. 4 shows such a conventional general magnetic head. The magnetic head has a core 1 formed in an annular shape. The core 1 has a pair of core blocks 2. They are integrally formed by being joined to each other.
Further, a gap 3 is formed between the core blocks 2 on the sliding surface side of the magnetic tape of the core 1, and a metal magnetic film 4 is vapor-deposited on the opposite surface of the gap 3. .. Further, a winding groove 5 for winding a coil (not shown) is formed in the center of the core 1.

In such a conventional magnetic head,
A magnetic tape (not shown) is slid at a gap 3 portion of the core 1 of the magnetic head at a predetermined speed to apply a magnetic field to the magnetic tape passing through the gap 3 for recording, or by passing the magnetic tape. The magnetic field is taken out and reproduced.

[0005]

However, in the conventional magnetic head described above, the magnetic tape slides on the magnetic head by using the magnetic head to slide the magnetic tape on the magnetic head. Is worn away, and the depth dimension of the gap 3 is gradually shortened. When the depth of the gap 3 is large, the output is small,
It is known that the output increases as the depth of the gap 3 decreases due to wear of the core 1. Conventionally, the metal magnetic film 4 formed between the gaps 3 is made of a single material. Therefore, when the depth dimension of the gap 3 changes due to wear of the magnetic tape sliding surface of the core 1, the output gradually increases, and the output cannot be maintained constant.

The present invention has been made in view of the above points. Even when the magnetic tape sliding surface of the core is worn by the sliding of the magnetic tape and the depth dimension of the gap is changed, the output of the magnetic head is changed. An object of the present invention is to provide a magnetic head that can be kept constant.

[0007]

In order to achieve the above object, a magnetic head according to the invention of claim 1 forms a gap on a magnetic tape sliding surface of an annular core, and the gap is opposed to each other. In a magnetic head having a metal magnetic film formed on a surface thereof, the metal magnetic film is formed inside the core and a high magnetic permeability magnetic film made of a high magnetic permeability material formed on the magnetic tape sliding surface side. And a low-permeability magnetic film made of a low-permeability material as described above.

According to a second aspect of the present invention, the opposing surfaces of the gap are formed so as to be inclined so that the inner portion of the core has a large gap, and the metal magnetic film is provided on the magnetic tape sliding surface side. A high magnetic permeability film formed of a high magnetic permeability material that is inclined along the facing surface of the core, and a low magnetic permeability material formed of a low magnetic permeability material on the surface of the high magnetic permeability film inside the core. It is characterized by being formed by a magnetic permeability magnetic film, and the invention according to claim 3 further comprises a metal magnetic film, a high magnetic permeability magnetic film made of a high magnetic permeability material, and the high magnetic permeability magnetic film. It is characterized in that it is formed by a low magnetic permeability magnetic film formed by diffusing a metal in the inner part of the core of the film so as to have a low magnetic permeability.

[0009]

According to the present invention, at the beginning of use of the magnetic head, the gap depth is formed to be large. However, a low magnetic permeability magnetic film is formed between the gaps. Permeability Since the magnetic permeability of the magnetic film is low, the efficiency of the gap is poor, and the depth dimension of the gap is substantially short. As a result, a relatively high output can be obtained, and the magnetic tape When the sliding surface gradually wears due to the sliding of the magnetic tape and the low-permeability magnetic film is exposed on the magnetic tape sliding surface, the permeability of the low-permeability magnetic film decreases and the gap efficiency decreases. Due to the shorter dimensions, a similarly high output can be obtained, so that the output can be held constant.

[0010]

Embodiments of the present invention will be described below with reference to FIGS.

FIG. 1 shows an embodiment of a magnetic head according to the present invention, in which an annular core 1 of the magnetic head is formed.
A gap 3 is formed on the sliding surface side of the magnetic tape, and a metal magnetic film 4 is deposited on the opposite surface of the gap 3.

In this embodiment, the metal magnetic film 4 is used.
Is a high-permeability magnetic film 6 formed on the magnetic tape sliding side of the gap 3 and having a high magnetic permeability, and a low magnetic permeability formed on the winding groove 5 side of the gap 3 having a low magnetic permeability. It is formed from the magnetic permeability magnetic film 7. As the material having high magnetic permeability, for example, Co81-Ta10-H is used.
f9 (at%) is used, this magnetic permeability is about 500 at 5 MHz, and as the material with low magnetic permeability, for example, Co84-Ta10-Hf6 (at%) is used, and this magnetic permeability is It is about 100 at 5 MHz. Also,
When the gap 3 is applied to a VHS video deck, for example, a dimension of about 20 μm is required to secure 2000 hours of recording and reproduction.
It is preferable that the depth dimension of the gap 3 of the high magnetic permeability magnetic film 6 is set to 10 to 18 μm, and the depth dimension of the gap 3 of the low magnetic permeability magnetic film 7 is set to 2 to 10 μm.

Next, the operation of this embodiment will be described.

In this embodiment, the depth of the gap 3 is large at the beginning of use of the magnetic head, but the low magnetic permeability magnetic film 7 is formed between the gaps 3. However, since the magnetic permeability of the low magnetic permeability magnetic film 7 is low, the efficiency of the gap 3 becomes poor, so that the depth dimension of the gap 3 becomes substantially short.
As a result, a relatively high output can be obtained.

When the sliding surface of the magnetic tape gradually wears and the low-permeability magnetic film 7 is exposed on the sliding surface of the magnetic tape, the magnetic permeability of the low-permeability magnetic film 7 decreases and the gap 3 is formed. Although the efficiency is reduced, the depth dimension of the gap 3 is shortened, so that similarly high output can be obtained.

Therefore, in this embodiment, the metal magnetic film 4 formed in the gap 3 is replaced with the high magnetic permeability magnetic film 6.
And a low magnetic permeability magnetic film 7 have a two-layer structure, the output is kept constant even when the magnetic tape sliding surface of the core 1 is worn by the sliding of the magnetic tape and the depth dimension of the gap 3 is changed. Can be held.

FIG. 2 shows another embodiment of the present invention, in which the facing surface of the gap 3 of the core 1 of the magnetic head is inclined so that the gap size at the end on the winding groove 5 side becomes large. A high-permeability magnetic film 6 having a predetermined thickness is formed on the opposing surface of the gap 3. A low-permeability magnetic film 7 is formed on the surface of the high-permeability magnetic film 6, so that the high-permeability magnetic film 6 is formed on the magnetic tape sliding surface side of the facing surface of the gap 3. In addition, the low-permeability magnetic film 7 is formed on the winding groove 5 side to form a two-layer structure.

Also in this embodiment, similar to the above embodiment,
At the start of use of the magnetic head, the depth dimension of the gap 3 is large, but the low permeability magnetic film 7 lowers the efficiency of the gap 3 and the depth dimension of the gap 3 becomes substantially short. You can get a relatively high output,
When the magnetic tape sliding surface is abraded and the low magnetic permeability magnetic film 7 is exposed on the magnetic tape sliding surface, the permeability of the low magnetic permeability magnetic film 7 is reduced and the efficiency of the gap 3 is reduced. Due to the shorter dimensions, a similarly high output can be obtained.

In this case, in this embodiment, since the high magnetic permeability magnetic film 6 and the low magnetic permeability magnetic film 7 are formed so as to be inclined to the facing surface of the gap 3, the core is formed by sliding the magnetic tape. When the low magnetic permeability magnetic film 7 is exposed to the magnetic tape sliding surface of the core 1 when the magnetic tape sliding surface of No. 1 is worn, the film thickness of the low magnetic permeability magnetic film 7 gradually increases. Like As a result, the magnetic permeability due to the low magnetic permeability does not decrease rapidly but gradually.
This change in the magnetic permeability appropriately corresponds to the change in the output due to the change in the depth dimension of the gap 3 due to the wear.

Therefore, in this embodiment, since the change in the magnetic permeability can properly correspond to the change in the depth dimension of the gap 3, the sliding surface of the magnetic tape of the core 1 is worn and the depth of the gap 3 is increased. The output can be held more constant even if the size changes. Moreover, since the magnetic films 6 and 7 are formed on the facing surfaces of the gap 3 which are inclined, the film formation becomes extremely easy and the manufacturing efficiency of the film formation can be improved.

Further, FIG. 3 shows another embodiment of the present invention. A high permeability magnetic film 6 is formed on the surface of the core 1 facing the gap 3 and the gap of the winding groove 5 of the core 1 is formed. 3 A metal 8 such as Cr, Al, or Si is vapor-deposited on the formed portion, and then a heat treatment is performed to diffuse the metal 8 into the high-permeability magnetic film 6 portion to form a gap on the winding groove 5 side. The high-permeability magnetic film 6 in the three parts is a low-permeability magnetic film 7. In this case, the diffusion depth of the metal is
It is set to about 2 to 5 μm.

Also in this embodiment, the metal magnetic film 4 formed in the gap 3 has a two-layer structure of the high magnetic permeability magnetic film 6 and the low magnetic permeability magnetic film 7 as in the above embodiments. Even when the magnetic tape sliding surface of the core 1 is worn by the sliding of the magnetic tape and the depth of the gap 3 is changed, the output can be kept constant, and the low-permeability magnetic film 7 is provided. Since the metal 8 is formed by diffusion, the permeability is gradually decreased due to the low permeability, and the change in the permeability is output based on the change in the depth dimension of the gap 3 due to the wear. Can properly respond to changes in Furthermore, since the low magnetic permeability magnetic film 7 is formed by diffusing the metal 8 in the gap 3 where the high magnetic permeability magnetic film 6 is formed, the film formation becomes extremely easy and the manufacturing efficiency of the film formation is improved. Can be improved.

The present invention is not limited to the above embodiment, but various modifications can be made as necessary.

[0024]

As described above, in the magnetic head according to the present invention, the metal magnetic film formed in the gap has the two-layer structure of the high magnetic permeability magnetic film and the low magnetic permeability magnetic film.
Even when the magnetic tape sliding surface of the core is worn by the sliding of the magnetic tape and the depth dimension of the gap is changed, the output can be kept constant.

[Brief description of drawings]

FIG. 1 is a partial sectional view showing an embodiment of a magnetic head according to the present invention.

FIG. 2 is a partial sectional view showing another embodiment of the magnetic head according to the present invention.

FIG. 3 is a partial sectional view showing another embodiment of the magnetic head according to the present invention.

FIG. 4 is a front view showing a conventional magnetic head.

[Explanation of symbols]

 1 core 3 gap 4 metal magnetic film 5 winding groove 6 high permeability magnetic film 7 low permeability magnetic film 8 metal

Claims (3)

[Claims] 1. A magnetic head comprising a ring-shaped core having a gap formed on a sliding surface of a magnetic tape, and a metal magnetic film formed on the opposite surface of the gap. A high magnetic permeability magnetic film made of a high magnetic permeability material formed on the sliding surface side, and a low magnetic permeability magnetic film made of a low magnetic permeability material formed inside the core. head. 2. A magnetic head comprising a ring-shaped core having a gap formed on a sliding surface of a magnetic tape, and a metal magnetic film formed on the facing surface of the gap. A high magnetic permeability made of a high magnetic permeability material, which is formed so as to be inclined so that the gap between the portions becomes large, and the metal magnetic film is formed so as to be inclined along the facing surface of the gap on the magnetic tape sliding surface side. A magnetic head comprising: a magnetic film; and a low-permeability magnetic film made of a low-permeability material formed on the surface of the high-permeability magnetic film inside the core. 3. A magnetic head comprising a ring-shaped core having a gap formed on a sliding surface of a magnetic tape, and a metal magnetic film formed on a surface opposite to the gap, wherein the metal magnetic film has a high magnetic permeability. A high magnetic permeability magnetic film made of a material, and a low magnetic permeability magnetic film formed by diffusing a metal into the inside of the core of the high magnetic permeability magnetic film to form a low magnetic permeability. Magnetic head.