KR19990057755A - Devices for corrosion protection of hard disk drives - Google Patents

Abstract

The present invention relates to a hard disk drive, and more particularly, to an apparatus for preventing corrosion of a hard disk drive for preventing corrosion inside the hard disk drive.

An apparatus for preventing corrosion of a hard disk drive according to the present invention, in the head of a hard disk drive, by connecting a sacrificial anode plate having a chemically oxidizing power higher than the material of the head pole to the head pole to prevent corrosion of the head pole. It is characterized by.

According to the present invention, the sacrificial anode plate having a high oxidizing power is connected to a head pole which is a corrosive material inside the hard disk drive, thereby preventing the head pole from corroding even if the hard disk drive is in a corrosive environment.

Description

Devices for corrosion protection of hard disk drives

The present invention relates to a hard disk drive, and more particularly, to an apparatus for preventing corrosion of a hard disk drive for preventing corrosion inside the hard disk drive.

In general, the apparatuses in the conventional hard disk drive are prevented from being corroded by using a corrosion resistant material, and also inhibiting the creation of a corrosive environment inside the hard disk drive by blocking the inside and the outside of the hard disk drive.

However, most of the mechanism inside the conventional hard disk drive uses a corrosion resistant material, but the head pole can not use a corrosion resistant material due to its electrical characteristics, so that even if a weak corrosion environment occurs, the head pole may be corroded. There was this concentrated issue.

The technical problem to be solved by the present invention is to provide a device for preventing corrosion of a hard disk drive to prevent corrosion of the head pole by connecting the sacrificial anode material which is more easily oxidized than the head pole chemically to the head pole to solve the above problems. It is.

1 is a block diagram of an apparatus for preventing corrosion of a hard disk drive according to the present invention.

In order to achieve the above technical problem, an apparatus for preventing corrosion of a hard disk drive according to the present invention includes a sacrificial anode plate having a chemically oxidizing force higher than that of a material of a head pole in a head of a hard disk drive, by connecting to the head pole. To prevent corrosion of the head pole.

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

As shown in FIG. 1, the apparatus for preventing corrosion of a hard disk drive according to the present invention includes a head pole 11, a zinc plate 12 made of a sacrificial anode material, and a head pole 11 constituting a hard disk drive. Consists of a conductive wire 13 for electrically coupling the zinc plate 12.

In general, the phenomenon that the metal material in the air is corroded is generated by the reaction in combination with oxygen in the air. This is chemically called an oxidation reaction.

First of all, oxidation is broadly defined as a phenomenon in which a pure substance combines with oxygen, but it generally refers to a change in which electrons are widely deprived, or a chemical reaction accompanying it. For example, a reaction in which a metal is combined with oxygen is centered on a phenomenon in which a metal is deprived of electrons and becomes a cation, and the generated metal cation is combined with an oxygen anion to form a metal oxide. According to this view, the phenomenon in which the positive charge of the atom or group of atoms making the ionic bond increases to increase the positive atom and the negative charge decreases to decrease the negative atom are all oxidation reactions. When the covalent bond is also made, the oxidation reaction may be judged in the same manner by considering the oxidation number resulting from the electronegativity. Next, the reaction of depriving hydrogen from the compound of the nonmetallic element can also be regarded as oxidation.

Such oxidation reactions occur easily or not depending on the kind of the substance. As an example, a material in which oxidation occurs relatively easily includes magnesium (Mg) and zinc (Zn).

In the present invention, even if the inside of the hard disk drive becomes a corrosive environment by using a sacrificial anode plate made of a material which facilitates oxidation reactions such as magnesium and zinc, the corrosive materials in the hard disk drive preferentially combine with ions of the corrosive environment. This prevents corrosion of the head pole, which is a corrosive material.

That is, when the inside of the hard disk drive is not completely disconnected from the outside, a corrosion environment is generated, causing cations to cause corrosion inside the hard disk drive. In this case, the zinc plate 12 having a higher oxidation power than the head pole 11 and The cation is chemically reacted as in Equation 1 below.

Zn → Zn ²⁺ + 2e ^-

That is, the zinc plate 12 is first oxidized by attracting a cation causing corrosion before the head pole 11 undergoes a chemical reaction and oxidizes, and moves electrons to the head pole 11 through the lead 13 to the head pole. Prevents oxidation of (11).

Due to such a chemical reaction, even if the head pole 11 is placed in a corrosive environment, the highly oxidizing zinc plate 12 serving as a sacrificial anode causes an oxidation reaction before the head pole 11, so that the head pole 11 is oxidized. You lose the chance to cause it.

As described above, according to the present invention, the sacrificial anode plate having high oxidizing power is connected to the head pole which is a corrosive material inside the hard disk drive, thereby preventing the head pole from corroding even if the hard disk drive is in a corrosive environment.

Claims (2)

In the hard disk drive, A device for preventing corrosion of a hard disk drive, characterized by connecting a sacrificial anode plate chemically higher in oxidizing power than the material of the head pole to the head pole to prevent corrosion of the head pole. The apparatus of claim 1, wherein the sacrificial anode plate is a zinc (Zn) plate.