KR101567585B1 - Furmigation module for surface treatment of resin molding body - Google Patents

Abstract

The present invention relates to a fumigation module for treating the surface of a plastic molded body. More particularly, the fumigation module chemically polishes the surface of a 3D printer printout, produced by using the plastic molded body, particularly a thermoplastic resin, through a post-treatment process by a fumigation method to make the surface sleek and glossy. According to the present invention, 1) the fumigation module has less risk of fire and explosion and thus is safe even if the fumigation module uses an abrasive with high flammability as an indirect heating method is adopted instead of a direct heating method of using a heat wire heater and a contact point switch or the like; 2) the surface of the plastic molded body can be polished uniformly as a whole, as an inner container having the whole surface formed in the shape of a mesh and thus the evaporated abrasion is dispersed uniformly in the container; and 3) the surface treatment can be rapidly performed in a relatively short time by using a simple structure.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a fumigation module for surface treatment of a plastic molded article,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fumigation module for surface treatment of a plastic molded article, and more particularly, to a fumigation module for surface treatment of a plastic molded article, To a fumed module for chemically polishing to make it smooth and glossy.

BACKGROUND ART [0002] In the case of plastic molded articles manufactured by the injection molding method or a plastic molded article produced by a three-dimensional (3D) printer output method which is becoming a recent issue, There is a problem in that it is not enough to use a molded article which is considerably coarse to be put on the market as a product.

In order to solve this problem, the surface of the plastic molding to be produced is subjected to a polishing treatment to smooth and smooth the surface.

Conventionally, a method has been adopted in which a surface of a molded body is first ground and trimmed using a polishing cloth such as sandpaper to perform such post-processing. However, this method is not suitable for a three-dimensional product, .

A method of processing a surface of a molded body by a chemical polishing method has been proposed in which a liquid state abrasive is evaporated through heating in a soleplate container and the abrasive vapor is applied to the surface of the product by a fumigation method, The direct heating method using a contact switch is very dangerous due to flammable abrasive vapors due to flammable abrasive vapor, and the abrasive vapor formed by simply heating through the hot plate does not contact the entire surface of the product uniformly, There is a problem that the inherent shape of the product is damaged, while the upper part is not polished sufficiently, the surface is not sufficiently processed, and the treatment efficiency is lowered.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a method and a device for preventing a fire or an explosion, which are safe and can disperse and stagnate evenly in the inside, And to provide a fumigation module for surface treatment of a plastic molding which is simple and requires a short time.

In order to achieve the above object, according to an embodiment of the present invention, there is provided a fumigation module (A) for fuming a plastic molded article (a) with a vaporized abrasive to chemically polish the surface of the plastic molded article An outer container 10a having a lower surface made of a conductive material and having an upper end opened to contain a liquid abrasive in the inner space S1; The upper end of the outer container 10a is opened and the plastic molding body a is contained in the inner space S2 and the lower and side surfaces are formed in the form of a net mesh. An inner container 20a disposed in the inner space S1 of the outer container 10a and having a protrusion 21 on the bottom surface of the lower surface so as to be spaced apart from the upper surface of the lower surface of the outer container 10a; An inner cover 20b in the form of a mesh net for covering the open top of the inner container 20a; And an outer cover (10b) for covering the open upper end of the outer container (10a) and interrupting the flow of the evaporated abrasive to the outside or the inflow of outside air into the interior, a fumigation module .

The fumigation module (A) may further include an induction range (30) for heating and vaporizing the abrasive in contact with a bottom surface of the lower surface of the outer container (10a) in an electromagnetic induction manner.

At this time, the outer vessel 10a is divided into an upper fumigation part F and a lower heating part H, and the fumigation part F is a container part with an opened upper end. The internal vessel 20a and the internal lid 20b are disposed and the heating unit H is a container part provided on the bottom surface side of the lower surface of the fumigation part F. The induction part The burner 30 may be inserted into the induction cooking zone 30 so that the heating surface of the induction cooking zone 30 is in contact with the bottom surface of the lower surface of the fumigation zone F, It is preferable that a guide rail 11 for guiding the insertion arrangement of the induction cooking stove 30 is provided on the lower surface of the inner space S3 of the heating part H in which the induction cooking stove 30 is inserted.

Further, it is preferable that the plastic molding (a) is a 3D printer output product using a thermoplastic resin, and the abrasive is acetone.

As described above, the fumigation module for the surface treatment of the plastic molded article of the present invention is characterized in that: (1) an electromagnetic induction type indirect heating method is adopted instead of a direct heating method such as using a hot wire heater and a contact switch; (2) Since the vaporized abrasive is uniformly dispersed and stagnated in the container by placing an inner container having a mesh-like shape on the entire surface, the entirety of the plastic molding The surface can be polished, and (3) it is possible to perform a rapid surface treatment in a relatively short time using a simple apparatus configuration.

1 is an exploded perspective view of a fumigation module (A) according to a first embodiment of the present invention.
2 is a photograph showing each configuration of the fumigation module A according to the first embodiment of the present invention.
Fig. 3 is a photograph before and after the surface treatment of the plastic molded article (a) of the present invention with the fuming module (A) of the present invention.
4 is an exploded perspective view of a fumigation module (A) according to a second embodiment of the present invention.
5 is a perspective view showing a state in which the fumigation module A according to the second embodiment of the present invention is combined.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. Prior to the description, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and should be construed in accordance with the technical concept of the present invention.

Throughout this specification, when a member is " on " another member, this includes not only when the member is in contact with another member, but also when there is another member between the two members.

Throughout this specification, when an element is referred to as "including" an element, it is understood that it may include other elements as well, without departing from the other elements unless specifically stated otherwise.

The terms "first "," second ", and the like are intended to distinguish one element from another, and the scope of the right should not be limited by these terms. For example, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

First, the present invention provides a fumigation module (A) for surface treatment of a plastic molded body composed of an outer container, lids (10a, 10b) and an inner container and lids (20a, 20b).

The term "plastic molded article" used throughout the present specification refers to a product formed by using plastic, that is, a polymeric resin material, and is preferably injection-molded using a thermoplastic resin material such as ABS resin as a raw material Means a molded article output through a 3D printer.

The term "lower surface " used throughout this specification refers to the entire bottom surface of a container having a certain volume and an empty space formed therein, and the term" upper surface of the lower surface " And the "bottom surface of the lower surface" means the bottom surface of the entire container exposed to the outside of the container.

The term " inner space S1 " used throughout the present specification means an empty space formed inside the outer container 10a, and the term "inner space S2"Quot; inner space S3 "means a space in which the induction cooking stove 30 is inserted into an empty space formed inside the heating unit H of the outer container 10a.

The outer container 10a serves as a housing of the overall apparatus. The outer container 10a contains an abrasive in a liquid state in an inner space S1, which is an empty space inside the outer container 10a, through an open upper end. The lower surface of the outer container 10a may be made of a conductive material, and preferably the entire container may be made of stainless steel, more preferably of 24 kinds of stainless steel.

Stainless steel is a steel alloyed with various special elements to withstand corrosion and is classified into ferrite, martensite, austenitic and precipitation hardening stainless steels. The classification name is based on the name of a representative tissue that appears when subjected to temperature or heat treatment.

24 is a STS 430 product, which is one of the representative ferritic grades. It is stainless steel containing 18% Cr, which is cheaper than an austenitic stainless steel and has excellent corrosion resistance.

The abrasive may be a plastic molding, preferably a chemical for chemically polishing the rough surface of the 3D printer print or injection molding through a fuming method to provide a smooth and polished surface, preferably acetone.

The inner container 20a is provided in the inner space S1 of the outer container 10a and serves as a container in which the plastic molded article a is contained in the inner space S2. And may be in the form of a mesh. The abrasive vaporized through the net mesh structure is drawn into the inner vessel 20a and the inner lid 20b covering the inner vessel 20a also has the same or similar structure, So that the evaporated abrasive is uniformly dispersed in the container and stagnated in the form of a smog so as to uniformly contact the surface of the plastic molded article (a).

The inner container 20a is smaller in size than the outer container 10a so as to be inserted into the inner space S1 of the outer container 10a and more specifically smaller in cross section and height than the outer container 10a, The projecting portion 21 may be provided on the bottom surface of the lower surface of the inner container 20a so as to be spaced apart from the bottom surface of the inner space S1 of the inner container 20a (the upper surface of the lower surface of the outer container 10a)

The protrusions 21 may be protrusions or elongated rails. In the case of protrusions, at least three protrusions 21 may be provided so as to be aligned with the center of gravity. More preferably, In case of the inner container 20a having the bottom surface, it may be formed at each vertex of the bottom surface. A liquid-state abrasive is contained in a space formed at a predetermined distance and evaporated through subsequent heating to vaporize into the inner space S2 of the inner container 20a.

The inner lid 20b is configured to cover the opened upper end of the inner container 20a and is formed in the form of a net like the lower surface and the side surface of the inner container 20a. Lt; RTI ID = 0.0 > S1). ≪ / RTI > In addition, a knob made of an insulating material may be provided at a predetermined position to facilitate opening and closing.

The outer cover 10b is configured to cover the open upper end of the outer container 10a so that the evaporated abrasive is stagnated in the outer and inner containers 10a and 20a and does not flow out to the outside, Processing is performed. As in the case of the inner lid 20b, a handle made of an insulating material may be provided at a predetermined position to facilitate opening and closing. The inner lid 20b may be made of a transparent material, for example, And the like. It is preferable that a separate sealing portion such as a silicone packing is provided at a portion where the outer cover 10b and the outer container 10a abut each other to keep the airtight so as to prevent leakage of the evaporated abrasive and inflow of outside air.

Meanwhile, the fumigation module (A) of the present invention may further include an induction range (30) for heating and vaporizing the abrasive in contact with the bottom surface of the lower surface of the outer container (10a) by an electromagnetic induction method. Electromagnetic induction is a phenomenon in which a voltage is induced and a current flows when a magnetic field is changed in the periphery of a conductor. The induction range 30 of the present invention is an electromagnetic induction method in which a material contained in a container and a container Heating device.

If the induction cooking stove 30 is used, it is advantageous in that the risk of fire or explosion can be significantly reduced in a surface treatment operation using a highly flammable abrasive because it is indirectly heated by electromagnetic induction.

By performing the surface grinding process of the output of the plastic molding, preferably the 3D printer, using the fumigation module (A) of the present invention, the surface treatment can be completed in a relatively short time in a simple manner, , About 5 minutes for fumigation, and about 5 minutes for drying, so that the surface treatment can be easily performed with a total time of about 10 minutes.

Hereinafter, embodiments of the fumigation module for surface treatment of the plastic molded article of the present invention will be described. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents. shall.

≪ Embodiment 1 > Induction range separated type>

An exploded perspective view of the fumigation module (A) according to the first embodiment of the present invention is shown in Fig. This is a separate type module which is not a combined type of induction cooking stove 30, and is composed of an outer container, a lid, an inner container and a lid, and a separate induction cooking stove 30 is provided on the bottom surface of the lower surface of the outer container 10a And the surfaces are brought into contact with each other to heat and evaporate the abrasive.

2 is a photograph of each configuration of the fumigation module A according to the first embodiment. The left photograph is a photograph in which the outer container 10a is placed on the heating surface of the induction cooking stove 30 and the center photograph is a photograph in which the inner space S2 of the inner container 20a is made of 3D The photo on the printout is on the right, and the photo on the right shows the fumigation after putting together all the configurations.

FIG. 3 is a comparative photograph showing the surface state of the workpiece before and after the fumigation by this process. FIG. 3 is a 3D printer output image after the fumigation on the left and before the fumigation on the right. It can be seen that during the printing process, the layered or rough surface condition is smoothly relaxed, and the overall color is treated to be clean and polished.

≪ Embodiment 2 > Induction Range Combined Type>

An exploded perspective view of a fumigation module (A) according to a second embodiment of the present invention is shown in FIG. 4 and a perspective view showing the combined configuration is shown in FIG. This is because the induction cooking stove 30 is not a separate type but a combined type module.

In this embodiment, the outer container 10a simultaneously performs the role of the container accommodating the abrasive and the inner container 20a, and the container accommodating the induction cooking stove 30. The former is performed in the fuming portion F above the outer vessel 10a and the latter is performed in the lower heating portion H.

The heating section H is a container section provided on the bottom surface side of the lower surface of the fumigation section F and has an inner space S3 And the heating surface of the induction cooking stove 30 is brought into contact with the bottom surface of the lower surface of the fumigated portion F so that one side of the induction cooking stove 30 is open.

A guide rail 11 for guiding the insertion arrangement of the induction cooking stove 30 is provided on the lower surface of the inner space S3 of the heating section H so that the induction cooking stove 30 can be easily inserted and removed. . The guide rail 11 may be appropriately formed to correspond to the lower structure of the induction cooking stove 30.

The present invention is not limited to the above-described specific embodiments and descriptions, and various modifications can be made to the present invention without departing from the gist of the present invention claimed in the claims. And such modifications are within the scope of protection of the present invention.

a: plastic molding body
A: The fumigation module of the present invention
F: Fumigation
H: heating section
10a: outer container
10b: outer cover
11: Guide rail
20a: inner container
20b: inner cover
21:
30: induction range

Claims (5)

A fumigation module (A) for fuming a plastic molding (a) with a vaporized abrasive to chemically polish the surface of the plastic molding (a)
An outer container 10a whose lower surface is made of a conductive material and whose upper end is opened to contain a liquid abrasive in the inner space S1;
The upper end of the outer container 10a is opened and the plastic molding body a is contained in the inner space S2 and the lower and side surfaces are formed in the form of a net mesh. An inner container 20a disposed in the inner space S1 of the outer container 10a and having a protrusion 21 on the bottom surface of the lower surface so as to be spaced apart from the upper surface of the lower surface of the outer container 10a;
An inner cover 20b in the form of a mesh net for covering the open top of the inner container 20a; And
An outer cover 10b covering the open upper end of the outer container 10a and controlling the flow of the evaporated abrasive to the outside or the inflow of outside air into the inside;
A fumigation module for surface treatment of the plastic molded article. The method according to claim 1,
The fumigation module (A)
An induction cooking stove 30 for heating and vaporizing the abrasive in contact with the bottom surface of the lower surface of the outer container 10a in an electromagnetic induction manner;
The fumigation module for surface treatment of a plastic molded article. 3. The method of claim 2,
The outer vessel 10a is divided into an upper fumigation part F and a lower heating part H,
The fumigant portion F is a container portion with an open upper end. The inner container 20a and the inner lid 20b are disposed in the inner space S1,
The heating section H is a container part provided on the bottom surface side of the lower surface of the fumigation section F. The induction range 30 is inserted into the internal space S3, And a heating surface of the induction cooking stove (30) is brought into contact with the bottom surface of the lower surface of the induction cooking stove (30). The method of claim 3,
A guide rail 11 for guiding the insertion arrangement of the induction cooking stove 30 is provided on a lower surface of the internal space S3 of the heating part H in which the induction cooking stove 30 is inserted Fumigation module for surface treatment of plastic moldings. The method according to claim 1,
The plastic molding (a) is a 3D printer output product using a thermoplastic resin,
Characterized in that the abrasive is acetone.

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