JPH0210892A - Preservation tool for article and preserving method thereof - Google Patents

Abstract

PURPOSE:To prevent dusts from adhering during preservation and at the time of removing an article by filling magnetic fluid in a preservation tool for the article, composing it of a preservation vessel having magnetism and a magnet smaller than the vessel in magnetic flux density, approaching the magnet to the article when removing the article from the vessel, and removing the fluid adhering to the article. CONSTITUTION:A preservation vessel is formed of a material having magnetism, and magnetic fluid 1 is filled therein. When an article 4 is lifted from the vessel 2, the fluid 1 adheres to the surface of the article 4. When a magnet 3 is approached to the article 4, the fluid 1 adhering to the article 4 is attracted toward the magnet 3, and shifted to the magnet 3. Then, the fluid 1 shifted to the magnet 3 is attracted to the vessel 2 having larger magnetic flux density than that of the fluid 1, transferred to the wall of the vessel 2, and returned to the interior of the vessel 2. In this case, when a sheetlike article 5 having permeability is interposed between the article 4 and the magnet 3, the fluid separated from the article can be returned along the permeable material to the vessel.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a preservation device and a preservation method for articles that are easily charged, such as synthetic resin molded articles.

[Prior art] Conventionally, articles such as synthetic resin molded articles that are easily charged with static electricity and easily attract dust, etc., have been treated with antistatic agents such as surfactants, carbon, metal powders, and metals. Items for which it is difficult to apply antistatic treatment by incorporating electrically conductive substances such as fibers or attaching electrically conductive substances to their surfaces due to property problems may be placed in containers made of synthetic resin. In order to prevent the objects from becoming charged and attracting dust during storage, transportation, or when taking them out of the container, for example, the storage container should be coated with antistatic agents such as surfactants, carbon, metal powder, etc. By molding a synthetic resin raw material mixed with electrically conductive substances such as metal fibers, or by attaching electrically conductive substances to the walls of the molded container, antistatic properties are imparted to the container, and the container is prevented from becoming static. This prevents the surrounding dust from being sucked in or the stored items from being charged with electricity and from attracting dust after being removed from the storage container. Furthermore, to prevent dust from falling into the storage container from the atmospheric environment or being sucked into the charged items inside the storage container through small gaps, the storage container is stored in a nearly airtight state. I needed to.

[Problem to be solved by the invention] However, in a container in which antistatic agents such as surfactants, electrically conductive substances such as carbon, metal powder, and metal fibers are kneaded in advance, the Part of the substance is exposed on the wall of the container, and if the container is used for a long period of time, there is a risk that the mixed substance may fall off and adhere to the stored item. Once the dust has adhered, it is often difficult to completely remove it even if it is washed. In addition, an antistatic agent such as a surfactant may be applied as is, or a paint containing an antistatic agent such as a surfactant, or an electrically conductive substance such as carbon, metal powder, or metal fiber may be applied. In a container where the kneading is carried out, there is a risk that the items being stored may come into contact with the walls of the container and adhere to the items being stored, as in the case of kneading described above.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned conventional problems and provide a storage device and method for storing articles that do not allow dust to adhere to the articles during storage or when the articles are taken out from the container. .

[Means for Solving the Problems] The gist of the present invention is to provide a storage device for articles comprising a storage container whose interior is filled with magnetic fluid and has magnetism, and a magnet with a magnetic flux density smaller than that of the storage container; A method for preserving an article consists of bringing a magnet close to the article and removing magnetic fluid adhering to the article when the article is removed from a container.

The magnetic fluid used in the present invention is a particle colloid in which a ferromagnetic material of several to several + nanometers is dispersed in a solvent such as oil or water. For example, Fe, O, etc. are used as the ferromagnetic material. Examples of solvents used include water, synthetic hydrocarbon oil, perfluoropolyether, alkosylnaphthalene, kerosene, and the like, and in the case of articles that dislike moisture, a solvent other than water may be used.

Further, the storage container used in the present invention is not particularly limited in size, shape, etc., as long as it is made of a magnetic material. The storage container is made of a material such as a ferromagnetic material such as iron, stainless steel, or nickel, a ferrimagnetic material such as ferrite, or a synthetic resin containing these magnetic materials.

In addition, the magnet used in the present invention may be made of a material such as a ferromagnetic material such as iron, stainless steel, or nickel, a ferrimagnetic material such as ferrite, or a synthetic resin containing these magnetic materials, and may be made of any material that can function as a magnet. The size, shape, etc. are not particularly limited.

Furthermore, in the present invention, in order to take out a stored article from a storage container, in the process of pulling the article out of the storage container, a magnet is brought close to the article to peel off the magnetic fluid attached to the surface of the article from the article. The ferrofluid is then returned to the storage container. At this time, if a relatively thin magnetically permeable material such as a plastic film, sheet, paper-like material, etc. is interposed between the article and the magnet, the magnetic fluid separated from the article will be stored by flowing along the surface of the magnetically permeable material. You can return to the container.

In addition, in the present invention, after the magnetic fluid adhering to the surface of the article is peeled off with a magnet, in order to cleanly remove the solvent of the magnetic fluid remaining on the surface of the article, it is necessary to dissolve or dissolve the magnetic fluid in water or the article. It may be washed with a solvent that does not swell.

[Function] According to the present invention, since the storage container has a larger magnetic flux density than the magnet, the magnetic fluid separated from the surface of the article by the magnet is attracted to the storage container and can easily return into the container.

[Example] Hereinafter, the present invention will be explained in detail based on Examples.

FIGS. 1 and 2 are schematic diagrams showing a state in which the magnetic fluid adhering to the surface of an article lifted from a storage container is peeled off from the surface and returned to the storage container in the present invention. In FIG. 1, a storage container 2 is filled with a magnetic fluid 1. In FIG. The article 4 is pulled up from the storage container 2. Article 4
A magnetic fluid 1 is attached to the surface of the article 4, and a magnet 3 is attached to the article 4.
When the magnetic fluid 1 attached to the surface of the article 4
is attracted toward the magnet 3 and migrates to the surface of the magnet 3. Next, the magnetic fluid 1 that has migrated to the surface of the magnet 3 is attracted toward the storage container 2, which has a larger magnetic flux density than the magnetic fluid 1, migrates to the wall surface of the storage container 2, and returns to the inside of the storage container 2. To go. If the article 4 has a complicated shape, the article 4 or the magnet 3 may be rotated or the like during the process of lifting it from the storage container 2 so that the magnet 3 approaches the entire surface of the article 4 at approximately the same distance. good. As shown in FIG. 2, when the magnet 3 is brought close to the article 4 and the magnetic fluid l is peeled off from the article 4, a sheet-like material 5 having magnetic permeability is interposed between the article 4 and the magnet 3. The magnetic fluid l separated from the article 4 is deposited on the surface of the sheet-like object 5, is attracted toward the storage container 2 having a larger magnetic flux density than the magnet 3, and returns to the inside of the storage container 2 along the surface. go.

[Effects] As described above, in the present invention, since the article is immersed in magnetic fluid during storage, there is almost no risk of dust adhering to the surface of the article during storage, transportation, etc., and the storage container is The effect is that there is almost no risk of dust adhering to the surface of the article even if it is not in a substantially sealed state, even if it is in an unsealed state, and even in a normal non-clean environment.

[Brief explanation of the drawing]

FIGS. 1 and 2 are schematic diagrams showing an example of the preservation method of the present invention. 1-Magnetic fluid, 2-Storage container, 3-Magnet, 4-Article

Claims (3)

[Claims] (1) A storage device for articles, comprising a storage container whose interior is filled with magnetic fluid and has magnetism, and a magnet whose magnetic flux density is smaller than that of the storage container. (2) A method for preserving an article, which comprises, when taking out the article from the article storage container according to claim 1, bringing a magnet close to the article to remove magnetic fluid adhering to the article. (3) A method for preserving an article according to claim 2, characterized in that a magnetically permeable material is interposed between the article and the magnet.