KR930001745Y1 - Static electricity absorption device for vtr - Google Patents

Abstract

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Description

Electrostatic Absorber of VTR Head Drum

1 is a cross-sectional view of a drum with a conventional electrostatic absorber.

2 is a cross-sectional view of the head drum provided with the electrostatic absorber of the present invention.

3 is a cross-sectional view of another embodiment of a head drum provided with an electrostatic absorber of the present invention.

Figure 4 is a cross-sectional view of another embodiment of the head drum with the electrostatic absorber of the present invention.

* Explanation of symbols for main parts of the drawings

3: drum shaft 6: lower drum

7 boss part 17 flow prevention ring

C: Condctive Oil

The present invention relates to a head drum (Head Drum) of the VTR, and more particularly to an electrostatic absorber for absorbing static electricity generated in addition to the rotational friction between the magnetic tape and the upper drum.

1 shows a static electricity absorbing device of a conventional VTR head drum.

The head drum for recording signals on the magnetic tape T or reproducing the recorded signals is integrally rotated with the drum shaft 3 driven by the motor 5 by the upper drum 1 with the head 2 attached thereto. The upper flange 4 is fixed to the upper flange (4), the upper shaft (4) is supported by the upper and lower bearings (8) and the lower bearing (9) provided on the upper and lower bosses 7 of the lower drum (6) 3) It is press-fitted and supported to rotate together with the drum shaft 3, and around the upper flange 4, an upper rotary trans 10 is transmitted to the lower part of the lower drum 6 to the trans stator. And a signal read from the head 2 is transmitted from the upper drum 1 to the upper rotary transformer 10 through the upper flange 4, and the lower transstater 11 magnetically receives the signal. Transfer to a circuit of a substrate not shown.

However, the upper drum 1 is in frictional contact with the magnetic tape (T) made of synthetic resin at a high speed to generate a large amount of static electricity, but the rotating upper drum 1 and the upper flange 4 may be energized with the substrate. Since there is no part electrically connected to the lower drum 6 or the like, the static electricity generated in the upper drum 1 is conventionally caused by the upper flange 4, the drum shaft 3, the brush 15, the brush holder 13, and the drum holder ( 12) is absorbed into the substrate (not shown) and the static electricity generated in the lower drum 6 is absorbed into the substrate through the drum holder (12).

However, such a conventional brush assembly requires not only a large number of separate parts, but also a small contact area, so that sufficient electrostatic absorption is not achieved and noise is generated when the brush 15 is eccentric, and thus a damper (DAMPER: 16) is required. The leaf spring 14 is very thin so that it is easily deformed when transporting or assembling, which makes handling and manufacturing very difficult.

The present invention is devised to solve the above-described problems, will be described in detail based on the accompanying drawings.

2 shows an electrostatic absorber according to the present invention. The electrostatic absorbing device according to the present invention is formed between the boss portion 7 of the drum shaft 3 and the lower drum 6 and the upper and lower bearings 8 and 9 mounted therebetween. It is formed by filling (H) with conductive lubricating oil (C).

The conductive lubricant is formed by mixing a metal powder having good conductivity such as carbon powder with the lubricant.

Filling of the conductive lubricant (C) is an upper bearing forcibly fitted to the boss portion (7) of the lower drum (6) with the drum shaft (3), the upper flange (4), and the upper drum (1) integrated together. It is coupled to the lower (8) and the lower bearing (9) and can be easily charged during the assembly process.

The filling amount of the conductive lubricating oil (C) filled in the boss portion (7) of the lower drum (6) sufficiently transfers the charge of static electricity transferred to the drum shaft (3) to the lower drum (6) through the conductive lubricating oil (C). To be able to charge.

The electrostatic absorption process of the electrostatic absorber configured as described above will be described.

Static electricity generated by the rotational friction between the magnetic tape T and the head 2 and the upper drum 1 is transmitted through the upper flange 4, and the static electricity is transferred to the lower drum 6 through the conductive lubricant C. It is transmitted to and is absorbed to the substrate (not shown) through the drum holder 12, the static electricity generated between the magnetic tape (T) and the lower drum (6) is immediately passed through the drum holder (12) It is absorbed by a substrate.

As discussed above, the present invention is capable of efficiently absorbing static electricity by using conductive lubricant instead of omitting all the conventional brush assemblies. The filling amount may be selected to be designed to maintain the most suitable use state in consideration of the amount of static electricity generated between the magnetic tape T and the drum, the volume of the space H, and the like.

For example, depending on the selected design, sufficient electrostatic absorption effect can be obtained even if the quantity is reduced, without filling the whole space part H with electroconductive lubricating oil.

At this time, however, since the amount of the conductive lubricant is small, it is located under the boss portion 7 (lower bearing side) of the lower drum 6. In this state, when the motor 5 rotates for the use of the VTR, the drum shaft 3 Due to the centrifugal force generated by the rotation, the conductive lubricant C is scattered to the outside of the drum shaft 3 while the conductive lubricant C is in contact with the drum shaft 3 and the lower drum boss 7. There is a fear that the conduction area of the conduction is reduced, so that the conduction and absorption of static electricity is reduced.

As a method for preventing the reduction of the conductive area as described above, a configuration for preventing the flow of the conductive lubricant is adopted.

3 shows a flow preventing ring 17 formed in the middle of the inside of the boss 7 as one embodiment of the flow preventing configuration.

The flow preventing ring 17 may be formed separately and fixed at a proper position inside the boss 7, or when the boss 7 is formed, the flow preventing ring 17 may be integrally formed at the same time.

Since the flow preventing ring 17 is formed in this way, the conductive lubricant C can be prevented from being scattered by the centrifugal force generated by the high speed rotation of the drum shaft 3, thereby preventing it from being pushed toward the upper portion of the boss portion 7. Since the contact area between 3) and the lower drum 6 is prevented from being reduced, the conductive area can be sufficiently maintained at all times.

4 shows the elastic flow prevention ring 18 being inserted into the drum shaft 3 and the boss portion 7 inner diameter as another embodiment of the flow prevention configuration.

The grooves are machined into one or both of the drum shaft 3 and the boss 7 inner diameter, respectively, and then an elastic flow preventing ring made of a silicon-like material having a low coefficient of friction is inserted into the grooves.

Thus, by forming the elastic flow prevention ring 18, the conductive lubricant is not scattered or spilled out of the elastic flow prevention ring 18 by centrifugal force due to the high speed rotation of the drum shaft, and the drum shaft 3 and the lower drum boss portion 7 The electrical conductivity can be improved by maintaining the contact area with

Accordingly, it is possible to omit the conventional brush assembly, the manufacturing cost and assembly time is shortened, not only does not generate noise, but also the contact area is large, there is an advantage of high conductivity efficiency.

Claims (3)

A conventional VTR head drum, wherein the electrostatic lubricating oil (C) is filled into the boss portion (7) of the lower drum (6) in which the drum shaft (3) is accommodated. The static electricity absorbing device of a VTR head drum according to claim 1, wherein a flow preventing ring (17) is protruded in the middle of the boss portion of the lower drum (6). 2. The electrostatic absorption device of a VTR head drum according to claim 1, wherein an elastic flow prevention ring (18) is inserted into an internal drum shaft (3) of the boss portion (7) of the lower thread (6).