KR20000007603U - VEAL's head drum assembly with thin-filmed rotary transformer - Google Patents

Abstract

The present invention relates to a head drum assembly of V-Cal having a rotary transformer having a thin formed dust, the rotor body and stator body of the conventional rotary transformer is made of a ferrite component, which is processed on the rotor body and stator body When the magnetic field is generated by the stator coils and the rotor coils formed in the grooves, the rotor body and the stator body having a relatively small saturation magnetic flux density value become saturated, which makes it difficult to transmit a smooth signal with a uniform high magnetic field.

Therefore, the present invention forms a second thickness on the upper surface of the stator body opposite to the rotor body in which the rotor coil is wound, and a second sensor on the lower surface of the rotor body opposite to the second sender of the stator body. Since the dust is formed to a certain thickness, the saturation magnetic flux density value is high due to the characteristics of the thin film formed sender, thereby preventing the rotor body and the stator body from being saturated by electromotive force generated by the stator coil and the rotor coil.

Description

VSR head drum assembly with thin-filmed rotary transformer

The present invention relates to a head drum assembly of V-Cal having a rotary transformer having a thin film formed in the dust, more specifically, a predetermined thickness on the upper surface of the stator body and the lower surface of the rotor body opposing the transformer stator and the transformer rotor. The first sender and the second sender are respectively formed to prevent the saturation of the stator body or the rotor body due to the strong magnetic field, thereby improving the reliability of the signal transmission operation according to the recording and reproducing operations. A head drum assembly of V-Cal with a rotary transformer is provided.

In general, the term "V-al" refers to a device for reproducing or recording an audio signal and a video signal by driving a magnetic tape by a tape driving system.

Video recording and playback is possible by the magnetic head being in contact with the magnetic tape when the VR head drum is rotated, and the magnetic head is connected to the VRL signal processing system through a rotary transformer so that the video signal is transferred from the head to the signal processing system. Delivered.

Here, FIG. 1 is a structure of a general BC head drum assembly, and FIG. 2 is a view illustrating a structure of a rotary transformer of the head drum assembly. As shown in FIGS. 1 and 2, the head drum assembly is a base of a BCAL not shown. The lower drum 10 is installed on the plate, and the upper drum 20 is installed on the magnetic head 22. The motor 30 is installed below the lower drum 10. Here, the motor 30 is composed of a stator 30A and a rotor 30B, and the rotor 30B rotates together with the stator 30A when a current is supplied to the stator 30A.

The upper drum 20 is fixed to the upper position of the shaft 32 by the flange 24, and the shaft 32 is inserted into the bearing housing formed completely together with the lower drum 10. Therefore, when a current is supplied to the motor 30, the rotor 30B of the motor 30 rotates, thereby rotating the shaft 32 and the upper drum 20 together. In addition, two or four magnetic heads 22 are generally installed on the upper drum 20, and as shown in FIG. It is installed away with a car. crowd

The rotary transformer 50 transmits a signal from the magnetic head 22 at a position between the upper drum 10 and the lower drum 20. The rotary transformer 50 is composed of a transformer stator 60 and a transformer rotor 70. Here, the transformer stator 60 is composed of a stator body 62 and a stator coil 64, which is electrically connected to the recording and reproduction signal processing system of V-CAL through the stator coil 64.

The transformer rotor 70 consists of a rotor body 72 and a rotor coil 74 on the rotor body 72, which is installed on the upper drum 20 and is spaced by a gap at a predetermined interval. The space is maintained from the stator body 62. The rotor body 72 is electrically connected to the magnetic head 22 by the rotor coil 74. The transformer rotor 70 rotates together with the upper drum 20 during the recording and reproducing operation of the VR.

The stator body 62 is in the form of an annular disk in which two channels 1CH and 2CH are concentrated on the upper surface. The stator coils 64 are each independently wound and electrically connected to a VRC signal processing system.

The rotor body 72 is also in the form of an annular disk, having two channels intensively arranged on the bottom surface according to the radial position corresponding to the radial position of the stator channel. The rotor coils 74 are each independently wound and bonded to the rotor channel, and are electrically connected to the magnetic head 22 by soldering or the like.

Next, signal recording and reproducing operations of a general assembly having such a configuration will be described.

First, in order to record a video signal on a VCA magnetic tape, the recording signal processing system applies a video signal to the stator coil 64 in the form of a change in the magnitude of the current, and the current magnitude of the stator coil 64 changes. At this time, the electromotive force is generated at the same position as the rotor coil (74). That is, when the current size of the stator coil 64 changes, the magnetic flux flows in a direction perpendicular to the opposite portion of the rotor coil 74. As a result, electromotive force is generated in the rotor coil 74, and the video signal is transmitted from the transformer stator 60 to the transformer rotor 70.

The video signal transmitted to the transformer rotor 70 is then transmitted to the magnetic head 22 electrically connected to the rotor coil 74. Accordingly, the signal transmitted to the magnetic head 22 is recorded on the BC magnetic while the magnetic head 22 is in contact with the magnetic tape and the upper drum 20 rotates.

Meanwhile, in order to reproduce the video signal from the magnetic tape, the magnetic head 22 installed on the upper drum 30 is in contact with the magnetic tape, and the video signal is read from the magnetic tape while the upper drum 30 is rotating. The change amount of the current signal flows through the rotor coil 74. At this time, the current size of the rotor coil 74 generates electromotive force in the stator coil 64, thereby changing the current size of the stator coil 64. As a result, the signal from the magnetic head 22 is reproduced through the rotary transformer 50 and transmitted to the signal processing system. The signal processing system then reproduces the video signal from the magnetic head 22 using the change in current magnitude.

That is, as described above, the recording and reproducing operation in VRC generates the electromotive force through the rotary transformer, and the magnetic head connected to the rotor coil writes the signal on the magnetic tape, or the signal recorded on the magnetic tape is magnetized. The reproduction operation is performed by reading by the head and transmitting it to the signal processing system.

However, the rotor body and the stator body of the conventional rotary transformer are made of ferrite, and the magnetic flux is generated by the stator coil and the rotor coil formed in the grooves formed in the rotor body and the stator body. This small rotor body and the stator body are saturated, and there is a problem that smooth signal transmission due to strong and uniform electromotive force is difficult.

In this regard, the present invention is designed to solve the above-mentioned problems, and a second thickness of the stator body is formed on the upper surface of the stator body opposite to the rotor body in which the rotor coil is wound, and the second sensor of the stator body is formed. On the lower surface of the rotor body facing the dust, the second sender is formed to a certain thickness. At this time, the saturation magnetic flux density value is high due to the characteristics of the thin film formed sender, so the rotor body and stator are caused by the electromotive force generated by the stator coil and the rotor coil. It is an object of the present invention to provide a head drum assembly of V-Cal having a rotary transformer having a thin film formed of a sender to prevent the body from being saturated.

On the other hand, the present invention for achieving the above object is a transformer of the stator body and stator coil VT head of the transformer having a rotor transformer and a rotor rotor consisting of a rotor body and the rotor coil is installed to face a predetermined gap In the assembly, a second thin dust is formed on the upper surface of the stator body facing the one side of the rotor body, the rotor coil is wound to a certain thickness, and the first sensor on the lower surface of the rotor body facing the stator body The dust is characterized in that a thin film formed to a predetermined thickness.

1 is a view showing the structure of a rotary transformer in a typical BC head drum assembly.

FIG. 2 is a view showing the structure of a rotary transformer in the BC head drum assembly shown in FIG. 1; FIG.

Figure 3 is a view showing the structure of the rotary transformer in the BC head drum assembly according to the present invention.

<Description of the code | symbol about the principal part of drawing>

1: rotor body 2: stator body

3: rotor coil 4: stator coil

5: first sender 6: 2nd sender

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

In the device of the present invention, as shown in FIG. 3, the head drum assembly is provided with a lower drum 10 on a base plate of a VAL not shown, and an upper drum 22 is installed on a magnetic head 22. The motor 30 is installed below the lower drum 10. Here, the motor 30 is composed of a stator 30A and a rotor 30B, and the rotor 30B rotates together with the stator 30A when a current is supplied to the stator 30A.

The upper drum 20 is fixed to the upper position of the shaft 32 by the flange 24, and the shaft 32 is inserted into the bearing housing formed completely together with the lower drum 10. Therefore, when a current is supplied to the motor 30, the rotor 30B of the motor 30 rotates, thereby rotating the shaft 32 and the upper drum 20 together. In addition, two or four magnetic heads 22 are generally installed on the upper drum 20, and as shown in FIG. It is installed away with a car.

The rotary transformer 100 transmits a signal from the magnetic head 22 at a position between the upper drum 10 and the lower drum 20. This rotary transformer 100 consists of a transformer stator 8 and a transformer rotor 7. Here, the transformer stator 8 is composed of a stator body 2 and a stator coil 4, which are electrically connected to the recording and reproduction signal processing system of V-CAL through the stator coil 4.

The transformer rotor (7) consists of a rotor body (1) and a rotor coil (3) on the rotor body (1), the rotor body (1) is installed on the upper drum (20) by a gap of a predetermined interval The space is maintained from the stator body 2. The rotor body 1 is electrically connected to the magnetic head 22 by the rotor coil 3. The transformer rotor 7 rotates together with the upper drum 20 during the recording and reproducing operation of the VR.

The stator body 2 is in the form of an annular disk in which two channels are concentrated on the upper surface. The stator coils 4 are independently wound and bonded to the stator, and electrically connected to the VRC signal processing system.

The rotor body 1 also has the form of an annular disc, which has two channels intensively arranged on the lower surface according to the radial position corresponding to the radial position of the stator channel.

In addition, a second sender 6 is formed on an upper surface of the stator body 2 opposite to one side of the rotor body 1 on which the rotor coil 4 is wound, and a second of the stator body 2 is formed. The second sender 5 is formed on the lower surface of the rotor body 1 facing the sender 6.

Next will be described the operation, effect of the present invention made of the configuration as described above.

First, in order to record a video signal on the magnetic tape of V-Cal, the recording signal processing system applies the video signal to the stator coil 4 in the form of a change in the magnitude of the current, and the current magnitude of the stator coil 4 changes. The electromotive force is generated at the same place as the rotor coil (3).

At this time, a first thin dust is formed on the lower surface of the rotor body (1) on which the rotor coil (3) is wound to a thickness of 3 to 5 μm, and the thin film is opposed to the first send dust (5). On the upper surface of the stator body 2, the second sender 6 having a thickness of 3 to 5 mu m is also formed. Therefore, the magnetic field generated in the stator coil 4 is induced into the rotor coil 3 without being saturated in the stator body 2, and the magnetic field induced in the rotor coil 3 is also saturated by the rotor body 1. The video signal is then transmitted to the magnetic head 22 connected to the rotor coil 3 in the form of a magnetic field. Accordingly, the signal transmitted to the magnetic head 22 is recorded on the BC magnetic while the magnetic head 22 is in contact with the magnetic tape and the upper drum 20 rotates.

The first sender 5 and the second sender 6 may be formed of a thin film on the stator body 2 and the rotor body 1 by sputtering with an alloy of aluminum, silicon, and iron. The saturation magnetic flux density of the first sender 5 and the second sender 6 is about 10000 Gauss, which is more than 5000 gauss, the magnetic flux density of ferrite, which is mainly composed of manganese zinc. The magnetic flux density is about twice as high.

Therefore, high density recording and digitization require high magnetic values in the stator coil and rotor coil. The thin film formed on the stator body and the rotor body proposed in the present application can prevent the ferrite body from easily saturating.

As described above, the present invention provides a rotor body and a stator body by a strong magnetic field by forming a thin film on the stator body and the rotor body facing the stator body and the rotor body formed in the transformer stator and the transformer rotor with a constant gap, respectively. By preventing the saturation of, there is an effect of improving the reliability of the transfer operation due to recording and reproduction.

Claims (1)

A transformer stator 8 composed of a stator body 2 and a stator coil 4 and a transformer rotor 7 composed of a rotor body 1 and a rotor coil 3 are installed so as to face each other with a predetermined gap. In the head drum assembly of V-Cal with 100), On the upper surface of the stator body 2 opposite to one side of the rotor body 1 on which the rotor coil 3 is wound, a second sender 6 is formed in a thin film, and the stator body 2 and The head drum assembly of V-Cal having a rotary transformer formed with thin film of the sender, characterized in that the first sender (5) is formed in a thin film on the lower surface of the opposite rotor body (1).