KR200385462Y1 - Sanding Machine - Google Patents

Abstract

The present invention is a sanding machine using ceramic beads as an abrasive, characterized in that the metal exposed portion of the inner wall of the sanding machine and the entire machining parts inside the coating is made of a soft elastic material, in particular the elastic material is At least one of urethane, silicone, or latex is selected, and in a sanding machine using ceramic beads as an abrasive, the inner wall of the sanding machine, the suction tank, the dust removal hopper, and the machined parts exposed from the inside are made of stainless steel. It relates to a sanding machine characterized in that.

According to the present invention, the particles of the ceramic bead are not coated with a steel component, and the sharp acute crystal surface of the ceramic bead is not dullly contaminated. Thus, as the processing process continues, the surface acute angle of the ceramic bead does not gradually disappear so that the surface is processed There is an advantage that the sanding machine is provided that does not affect the processing life of the ceramic beads is maintained continuously processing efficiency.

Description

Sanding Machine

The present invention relates to a sanding machine using ceramic beads as an abrasive, wherein the inner wall of the sanding machine and the metal exposed portion of the whole machined part are coated with a soft elastic material.

The present invention also relates to a sanding machine using ceramic beads as an abrasive, wherein the inner wall of the sanding machine, a suction tank, a dust removal hopper, and a machining part exposed from the inside are made of stainless steel.

In general, the majority of metal material members (aluminum articles, steel, magnesium articles, etc.) used in home appliances such as automobiles, motorcycles, mobile phones, etc. are required to be coated and used after various surface treatments because they require corrosion resistance or aesthetics.

The purpose of the surface treatment is to remove contaminants such as cutting oil remaining on the surface of the material to form a dense chemical film to give corrosion resistance and paint adhesion.

An apparatus used for such a surface treatment is a particulate abrasive spray metal surface treatment apparatus called a sanding machine.

The particulate abrasive is made of a material such as glass vis, gold steel, plastic, etc., and provides a grinding force and a uniform polishing effect on the surface of the workpiece such as metal by the continuous spraying of the geometrical shape of the particulate crystal.

In addition, the countless sharp acute crystals that grind during the grinding operation grind the workpiece, and another acute angle is repeated again to have excellent grinding power and continuous durability.

Since the impurities on the surface of the particles are completely removed in the cleaning process using the particulate abrasive, it has high chemical affinity with any kind of adhesive and at the same time shows strong adhesion by synergy with the ideal physical shape of the crystal grains.

Therefore, the particulate abrasive (bead) has excellent chemical and physical properties, and its use is rapidly increasing, such as burr removal, mold cleaning, and finish polishing, which are produced during the production of parts such as iron, nonferrous metals, hard alloys, and ceramics. .

In general, the abrasives (beads) are currently widely used in the fine grinding and microdispersion of the paint, pigments, magnetic coating materials, agrochemical composition industry, for this purpose, these beads are used in the chemical composition and color for the product to be processed Properties such as inertness, mechanical impact strength, wear resistance, low abrasion to machinery, high density for good grinding and high open porosity for easy cleaning.

Commercially available beads in consideration of these properties include round granular sand, glass beads, metal beads, ceramic beads, and the like, and are selected from a practical point of view.

Among the beads, ceramic beads have good strength, high density, and excellent chemical inertness, which are currently attracting attention, which are separated into sintered ceramic beads and molten ceramic beads.

Sintered ceramic beads are obtained by cold forming ceramic powder and sintering by sintering at high temperature, whereas molten ceramic beads are made by melting ceramic components at very high temperature, forming spherical droplets, and then solidifying them. Most of the beads are composed of zirconia-silica (ZrO2-SiO2) based zirconia crystallized from monoclinic crystal and formed glassy silicate phase, and have low abrasion and optimum polishing characteristics (mechanical strength, high density, Chemically inert).

Hereinafter, referring to the state diagram of the bead collided inside the sanding machine according to the prior art method of Figure 4, in the case of the ceramic bead is sprayed at high speed through the sanding gun inside the sanding machine, as well as the surface of the workpiece, Will crash strongly inside.

In this case, when the inside of the sanding machine is made of a steel material, a steel component is coated on the particles of the ceramic bead 10, thereby causing a dull contamination of the sharp acute crystal surface of the ceramic bead.

However, the steel component 120-a coated on the ceramic bead 10 is continuously added to the continuous process of reworking the workpiece without being removed even in the dust removal hopper of the sanding machine, and as the processing process continues, the ceramic bead The surface acute angle of (10) gradually disappears, so that the surface processing efficiency drops rapidly, and there is a problem in that it acts as an element for determining the processing life of the ceramic beads.

An object of the present invention is to provide a sanding machine that improves the internal material of the sanding machine to solve the problem of dull contamination of the sharp acute crystal surface of the ceramic bead by coating a steel component on the particles of the ceramic bead.

Therefore, as the machining process continues, the surface acute angle of the ceramic beads does not gradually disappear, so that the surface processing efficiency is continuously maintained, thereby providing a sanding machine that does not affect the processing life of the ceramic beads.

In order to achieve the above object, the present invention is a sanding machine using ceramic beads as an abrasive, characterized in that the inner wall of the sanding machine and the metal exposed portion of the entire machined parts inside the coating is composed of a soft elastic material, characterized in that It is preferable that the elastic material is a sanding machine, characterized in that at least one of urethane, silicone, or latex is selected. In addition, the present invention provides a sanding apparatus using ceramic beads as an abrasive. In the machine, another technical gist of the sanding machine is characterized in that the inner wall of the sanding machine and the metal exposed portion of the whole machined parts are made of stainless steel.

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Hereinafter, the present invention will be described with reference to the accompanying drawings. In describing the present invention, when it is determined that the detailed description of the related well-known technology or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. .

In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users or operators, and the definitions should be made based on the contents throughout the present specification for describing the present invention.

1 is a cross-sectional structural view of a sanding machine according to the present invention, Figure 2 is a drive block diagram of a sanding machine according to the present invention, Figure 3 is a state diagram of the bead that collides inside the sanding machine according to the present invention.

As shown in the drawings, the present invention is characterized in that the inner surface of the sanding machine, the suction tank, the dust removal hopper, and the metal exposed surface of the machined parts exposed from the inside are coated with urethane, silicon, or latex.

In general, the sanding machine 100 removes contaminants such as cutting oil remaining on the material surface of a metal material member (aluminum article, steel, magnesium article, etc.) used in home appliances such as automobiles, motorcycles, mobile phones, etc. to form a dense chemical conversion film. It is used to give corrosion resistance and paint adhesion.

The particulate abrasive used in the sanding machine 100 is made of a material such as glass beads, gold steel, plastic, etc., and the abrasive grains are uniformly ground on the surface of the object such as metal by the continuous spraying of the geometrical shape of the grains. Provide effect.

Therefore, the particulate abrasive (bead) has excellent chemical and physical properties, and its use is diverse, such as burr removal, mold cleaning, and finish polishing, which are produced during the production of parts such as iron, nonferrous metals, hard alloys, and ceramics. In the case of beads, a myriad of sharp acute crystals that grind during grinding operations grind the workpiece, and another acute angle is repeated again, which has excellent grinding power and continuous durability.

Hereinafter, referring to FIGS. 1 and 2, impurities in the surface of the workpiece are removed in the cleaning process by the ceramic beads 10, and thus have high chemical affinity with the adhesive.

By the way, in the case of the ceramic bead 10 is sprayed at high speed through the sanding gun in the sanding machine 100, not only the surface of the workpiece, but also hits the inside of the sanding machine 100 strongly.

In this case, when the inside of the sanding machine 100 is made of a steel material, as shown in FIG. 4, the steel component is coated on the particles of the ceramic bead 10, thereby bluntly contaminating the sharp acute crystal surface of the ceramic bead.

The steel component coated on the ceramic beads 10 is continuously added to the continuous process of reworking the workpiece without being removed from the dust removal hopper 150 of the sanding machine.

Therefore, as the processing process continues, the surface acute angle of the ceramic beads gradually disappears, thereby rapidly decreasing the surface processing efficiency, and eventually the ceramic beads need to be replaced.

That is, the internal material of the sanding machine 100 contaminates the ceramic beads 10 and acts as an element for determining the processing life of the ceramic beads 10.

The present invention aims to prevent surface contamination of the ceramic beads 10, and for this purpose, it is essential to coat urethane, silicone, or latex of an elastic material inside the sanding machine 100.

In general, the ceramic beads 10 are formed by forming a chemical film by innumerable acute angles formed on the surface of the abrasive particles by hitting the surface of the workpiece at high speed.

Therefore, as described above, the inner wall of the sanding machine 100, the suction tank, the dust removal hopper, and the machined parts (parts embedded therein for driving the sanding machine, such as sanding guns) are exposed from the inside. In the case of coating with the soft elastic material 110, as shown in FIG. 3, the ceramic beads 10 are machined parts in which the inner wall of the sanding machine 100, the suction tank, the dust removal hopper, and the metal surface are exposed inside. There is no surface damage of the ceramic bead 10 when the impact on the 120, at this time, the dust (110-a) generated from the inner wall of the sanding machine and the suction tank, dust removal hopper, machining parts exposed from the inside is made of a light material Since the dust is made from the dust removal hopper 150 of the sanding machine (100).

Therefore, the contamination problem caused by the surface coating of the ceramic bead is also eliminated, thereby greatly improving the polishing life of the ceramic bead.

On the other hand, since the lifespan of the ceramic beads 10 is in the surface coating of steel, the inner wall of the sanding machine, the suction tank, the dust removal hopper, and the machining parts exposed from the inside are made of stainless steel, Steel coatings can also be prevented.

That is, the inner wall and suction tank of the sanding machine 100, the dust removal hopper, the machined parts exposed from the inside by forming a strong stainless steel inner wall and suction tank, dust removal hopper, the machine exposed from the inside By preventing processing of the workpiece, damage to the surface of the particles can be prevented.

1 to 3 is an embodiment in which the present invention is embodied, and as shown in the drawings, it can be seen that various forms of combinations are possible to realize the subject matter of the present invention.

Therefore, as shown in the drawings is only one embodiment for carrying out the present invention, the present invention is not limited to the above embodiment, without departing from the gist of the present invention as claimed in the following utility model claims Anyone with ordinary knowledge in the field to which the present invention belongs will have a technical spirit of the present invention to the extent that various modifications can be made.

According to the present invention described above, there is an advantage that a sanding machine is provided which does not coat a steel component on the particles of the ceramic bead and does not dullly contaminate the sharp acute crystal surface of the ceramic bead.

Therefore, as the processing process continues, the surface acute angle of the ceramic beads does not gradually disappear, so that the surface processing efficiency is continuously maintained, thereby providing a sanding machine that does not affect the processing life of the ceramic beads.

1 is a cross-sectional structural view of a sanding machine according to the present invention

2 is a drive block diagram of a sanding machine according to the present invention

Figure 3 is a state diagram of the bead hit in the sanding machine according to the present invention

4 is a state diagram of a bead that collides inside the sanding machine according to the prior art

* Explanation of symbols on main parts of drawings *

10: ceramic bead 100: sanding machine

110: elastic material 110-a: dust

120: inner wall and suction tank, dust removal hopper, machined parts exposed from the inside

120-a: Coated Steel

150: Dust Removal Hopper

Claims (3)

In a sanding machine using ceramic beads as an abrasive, The sanding machine, characterized in that the metal exposed portion of the inner wall and the entire machining parts of the sanding machine is formed by coating a soft elastic material. The method of claim 1 wherein the elastic material Sanding machine, characterized in that at least one of urethane, silicone, or latex is selected. In the sanding machine using ceramic beads as an abrasive Sanding machine, characterized in that the metal exposed portion of the inner wall of the sanding machine and the entire internal machining parts made of stainless steel.