KR101859987B1 - IMG vacuum-molded automotive interior materials forming a shell for manufacturing method - Google Patents

Abstract

The present invention can increase the efficiency of production by remarkably reducing the time and cost of production by manufacturing the molding frame used as the outer mold of the automobile interior material through the spray lamination method using the ceramic and phenol resin type adhesive rather than the electrodeposition type There are advantages.

Description

TECHNICAL FIELD [0001] The present invention relates to a method for manufacturing an automobile interior material molded shell for IMG vacuum molding,

The present invention relates to a method of manufacturing an automobile interior material molded shell for IMG vacuum molding, and more particularly, to a method of molding an automobile interior material 11 including a predetermined pattern 210 on a surface of a dashboard or a door trim of the automobile 10 A method for manufacturing an automobile interior molding material shell for IMG vacuum molding, the method comprising: a first model molding step (S1) of molding a base sheet (100) made of epoxy resin into a predetermined shape; A second model forming step S2 in which a pattern sheet 200 on which the pattern 210 is formed is coupled to the top of the base sheet 100 to form a model forming part M; A ceramic sheet 300 in which ceramic particles 301 and a liquid adhesive 302 are sprayed from the first and second nozzles 20 and 30 to a predetermined thickness is formed on the upper surface of the ceramic sheet 300, The pattern 210 is inverted on the lower surface of the sheet 300 so that the reverse pattern 303 A first curing step S4 of thermally curing the ceramic sheet 300 wrapped on the model forming part M at a temperature of 150 ° C to 200 ° C; A second curing step (S6) of thermally curing the ceramic sheet (300) wrapped on the model forming part (M) after the first curing step (S4) at 350 ° C; And a molding shell completion step (S7) in which the ceramic sheet (300) after the curing step (D6) is demolded from the model forming section (M) to form a molding shell. And a method of manufacturing a shell.

Generally, automobile interior materials such as a dashboard, a door trim, and a seat of an automobile are formed inside a vehicle by molding a poly-series material.

Such an automobile interior material is manufactured by irregularly or regularly forming patterns such as a wood pattern and an animal pattern on the surface in order to produce a luxurious automobile interior atmosphere to the driver or the passenger.

Meanwhile, the automobile interior material having various patterns on the surface is formed into a desired shape through processes such as injection molding, vacuum molding and wrapping. Among them, the raw material is vacuum-adsorbed in a state where the molding frame is attached, IMG (In Mold Grainning) vacuum forming method in which emboss is transferred to form raw material into automobile interior material and emboss is formed on the surface of raw material is a tendency to manufacture automobile interior material.

The conventional IMG vacuum forming method is a method in which a nickel-plated mold 40 is attached to a lower portion of an upper molding machine 31 of a vacuum molding machine 30, as shown in FIG. 2, The manufacturing frame 40 is continuously cooled through the cooling pipe 33 through which the cooling water flows at 80 캜.

Thereafter, when the upper molding equipment 31 is lowered while the raw material 50 is positioned between the upper and lower molding equipment 31 and 35, the raw material 50 is molded in the same shape as the molding frame 40, At this time, air is sucked through the vacuum chamber 32 through the air layer 34 so that the raw material 50 is brought into close contact with the mold 40.

As described above, there are various methods for manufacturing the automobile interior material through vacuum suction, such as the electric pole work and the vacuum suction. Among them, the method of processing the electric molding model for automobile interior material (Korean Patent Laid-Open Publication No. 10-2015-0115161 ) &Quot; is posted.

The "method of processing a preform model for an automobile interior material" of Patent Document 1 is a method in which a molding model in which nickel metal attached to the surface of a master model electrodeposited by flowing an electric current in an electrolytic bath (electrolyte bath) A master point M is set in the master model 10 and a master hole A is set in four corners of the master model 10 on the basis of the master point M, A master hole B is set in the middle between the four master holes A and plugs are attached to the set master holes A and B so that a master hole A and B can be extracted so that master holes are formed in the middle of the four corners and edges of the master model on the master model such as the dash board and the door interior cover, Of a solution containing ions of The master holes formed in the molding model are set on the base line of the press mold, and then the molding holes are formed on the mold base with respect to the base line, So that the thickness of the molding model can be uniformly adjusted by making the surface of the molding model to be machined by accurately aligning the horizontal according to the height and height.

However, in the " method of processing an electroforming model for an automobile interior material " in Patent Document 1, since a molding model is inserted into an electrolytic cell (electrolytic cell) and current is flowed to nickel metal to be electrodeposited, It takes a long time and a lot of production cost, resulting in a decrease in efficiency of production.

Patent Document 1: Korean Patent Laid-Open Publication No. 10-2015-0115161

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a mold for molding a car interior material, which is manufactured by a spray lamination method using an adhesive of a ceramic- And an object of the present invention is to provide a method for manufacturing an IMG automobile interior molded shell for IMM vacuum molding.

Also, IMG vacuum molding automobile interior molding shell production method which can give the driver or passenger a luxurious aesthetic feeling by providing the effect of matte by reducing the reflectance of light by forming the pattern of the mold surface through dense ceramic particles To provide a car interior material.

In order to solve the above problems, a method for manufacturing an automobile interior molded body shell for IMG vacuum molding according to the present invention is characterized by comprising: A method of manufacturing an automobile interior material molding shell for IMG vacuum molding for molding an interior material (11), comprising: a first model molding step (S1) of molding a base sheet (100) made of an epoxy resin into a predetermined shape; A second model forming step S2 in which a pattern sheet 200 on which a predetermined pattern 210 is formed is coupled to an upper portion of the base sheet 100 to form a model forming portion M, A ceramic sheet 301 and a liquid adhesive 302 are sprayed from the first and second nozzles 20 and 30 to the upper portion of the model forming unit M and wrapped to a predetermined thickness, (2) is formed on the lower surface of the ceramic sheet (300) 10) is inverted to form an inverted pattern 303. The ceramic sheet 300 wrapped on the model forming section M is heated at a temperature of 150 to 200 占 폚 A second curing step (S4) of curing the ceramic sheet (300) which is wrapped on the model forming section (M) after the first curing step (S4) And a molding shell completion step (S7) in which the ceramic sheet (300) after the second curing step (D6) is demolded from the model forming section (M) to form a molding shell .

The ceramic (301) is made of any one of alumina or silicon carbide, and the liquid adhesive (302) is made of a waste-based resin material.

The injection ratio of the ceramic (301) particles to the liquid adhesive (302) is set to 8: 2 to 9: 1.

After the first curing step S4, a vent hole piercing step S5-1 for forming a plurality of vent holes 310 so as to secure pores through the inside of the ceramic sheet 300, ) Is performed.

As described above, according to the present invention, since the forming frame used as the outer frame of the automobile interior material is manufactured through the spray lamination method using the ceramic and phenol resin type adhesive rather than the electrodeposition type, the time and production cost are remarkably reduced It has the advantage of increasing the efficiency of production.

In addition, the pattern of the surface of the mold is formed through dense ceramic particles, and the reflectance of light is lowered to provide a matte effect, thereby giving the driver or passenger a luxurious aesthetic feeling.

1 is a schematic view showing a pattern formed on an automobile interior material;
FIG. 2 is a schematic view showing a state where a raw material is molded into an automobile interior material containing a pattern through a conventional IMG vacuum molding method
3 is a flowchart showing a procedure of a method for manufacturing an automobile interior material molded shell for IMG vacuum molding according to a preferred embodiment of the present invention
4 to 7 are views showing a process of a method for manufacturing an automobile interior material molded shell for IMG vacuum molding according to a preferred embodiment of the present invention
8 is a cross-sectional view showing a molded body of an automobile interior material for IMG vacuum molding according to a preferred embodiment of the present invention

Hereinafter, with reference to the accompanying drawings, a description will be made of a method for manufacturing an automotive interior material molded shell for IMG vacuum molding according to an embodiment of the present invention. First, it should be noted that, in the drawings, the same components or parts are denoted by the same reference numerals whenever possible. In describing the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

3, a first model forming step S1, a second model forming step S2, a spray laminating step S3, and a third laminating step S3, , A first curing step (S4), a second curing step (S6) and a molding shell completion step (S7).

It should be noted that prior to the description, the present invention corresponds to a method of forming a workpiece for an automobile interior material shape, which is formed by electroplating using nickel plating in a manufacturing process of an automobile interior material manufactured by a conventional IMG vacuum molding method.

In the meantime, in the description of the present invention, wrapping refers to wrapping material or packaging, or sticking a sticker on a car surface in an automobile field, attaching a protective film, etc. In the present invention, It should be noted that it is used to mean wrapped and stacked.

First, the first model forming step S1 will be described. The first model molding step S1 is a step of molding the base sheet 100 made of epoxy resin into the outer shape of the automobile interior material 11, to be.

At this time, the base sheet 100 can be mounted on a guide frame G made of a plastic material so as to more accurately form an outer shape of the automobile interior material 11.

Meanwhile, when the base sheet 100 is made of epoxy resin and the elasticity of the base sheet 100 is secured, it is possible to prevent breakage of the cross section of the base sheet 100 when the automobile interior material 11 is bent, Thereby enabling the appearance of the interior material 11 to be realized.

Next, the second model molding step S2 will be described. In the second model molding step S2, the pattern sheet 200, on which a predetermined pattern 210 is formed on the surface of the automobile interior material 11 through an engraved surface such that various patterns 210 are expressed, And is coupled to the upper portion of the base sheet 100 to form the model forming portion M.

At this time, it is preferable that the base sheet 100 and the pattern sheet 200 are bonded with an alcohol-based material.

Meanwhile, the pattern sheet 200 may be formed of a leather, a poly-based material, and a fiber material.

On the other hand, the depth h of the pattern 210 formed on the pattern sheet 200 is 150 mu m so that the curved shape formed through the ceramic particles 301 described later on the surface of the reverse pattern 303, Thereby making it possible to reduce roughness on the surface of the automobile interior material 11 as well as to reduce the reflectance of light to provide a matte effect and provide a luxurious aesthetic feeling to the driver or passenger through a matte effect .

Next, the spray lamination step S3 will be described. In the spraying step S3, the ceramic particles 301 and the liquid adhesive 302 are sprayed from the first and second nozzles 20 and 30 on the upper side of the model forming part M, respectively, A wrapped ceramic sheet 300 is formed on the ceramic sheet 300 and the pattern 210 is inverted on the lower surface of the ceramic sheet 300 to form an inverted pattern 303. [

At this time, it is preferable that the ceramic (301) particle is made of any one material of alumina or silicon carbide, and the liquid adhesive (320) is made of a waste-based resin material.

On the other hand, the injection ratio of the ceramic (301) particles and the liquid adhesive 302 is preferably set to 8: 2 to 9: 1.

As described above, by providing fine voids between the ceramic 301 and the adhesive 302 that are sprayed by the first and second nozzles 20 and 30 and the wrapping material 302, The upper molding equipment 31 is lowered while being positioned between the equipments 31 and 35 so that the raw material 50 is attached to the lower molding equipment 31, It is possible to increase the adsorption rate of the raw material 50 which is brought into contact with the forming die by the air suction of the vacuum chamber 32 so as to maintain a more intimate contact state.

It is preferable that the ceramic 301 is made of any one material of alumina or silicon carbide, and the thickness H of the ceramic sheet 300 is 1 mm.

Since the durability, conductivity, and rigidity of the ceramic sheet 300 are generally 3 mm to 5 mm, it is preferable to laminate the ceramic sheet 300 three to five times.

On the other hand, when the grain size d of the ceramics 301 is set to 10 μm smaller than the depth of the pattern 210, it is possible to cause the surface of the inverted pattern 303 to bend through the ceramic particles 301 .

Next, the first curing step (S4) will be described. The first curing step S4 includes thermally curing the ceramic sheet 300 wrapped on the model forming part M at 150 ° C to generate durability and rigidity of the ceramic sheet 300 to be.

Meanwhile, the ceramic sheet 300 after the first curing step S4 may be subjected to an external inspection step S5-1 'for inspecting the external appearance of the ceramic sheet 300 through human eyes.

In addition, the porosity of the inside of the ceramic sheet 300 is ensured against the case where the size of the pores is small inside the ceramic sheet 300 before and after the appearance inspection step S5-1 ' It is preferable that a vent hole piercing step (S5-1) for piercing a plurality of vent holes (310) is performed.

When the raw material 50 is brought into surface contact with the forming die fabricated by the present invention bonded to the lower portion of the upper molding equipment 31 due to the formation of the vent holes 310, It is possible to further increase the adsorption rate of the raw material 50 that is in contact with the molding die by suction, thereby making it possible to maintain a more intimate contact state.

Next, the second curing step (S6) will be described. The second curing step S6 thermally cures the ceramic sheet 300 wrapped on the model forming part M after the first curing step S4 to 350 DEG C to form the ceramic sheet 300 ) In order to increase the durability and rigidity of the steel sheet.

Next, the molding shell completion step (S7) will be described. In the forming shell completion step S7, the ceramic sheet 300 having been subjected to the second curing step D6 is demolded from the model forming part M to complete the molding shell, So that the outer shape of the automobile interior material 11 and the surface pattern 210 of the automobile interior material 11 can be formed.

The molded shell manufactured through such a process step is manufactured through a sheet stacking method using the ceramic 30 instead of the existing electrodeposition method, so that the molded shell manufactured through nickel plating, which required a manufacturing time of about 70 days, The manufacturing time can be reduced by up to 80% compared with the case 40, which saves time and reduces cost, thereby providing a significant increase in production efficiency.

Optimal embodiments have been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: car 11: automobile interior material
20: first nozzle 30: second nozzle
100: base sheet 200: pattern sheet
210: pattern
300: ceramic sheet
301: Ceramic particle 302: Adhesive
310: Ventilation holes
G: Guide panel M: Model forming section

Claims (5)

A method of manufacturing an automobile interior material molding shell for IMG vacuum molding for molding an automobile interior material (11) having a predetermined pattern (210) on a surface of a dashboard or a door trim of the automobile (10)
A first model forming step (S1) of molding the base sheet (100) made of an epoxy resin into a predetermined shape;
A second model forming step (S2) in which a pattern sheet (200) on which a predetermined pattern (210) is formed on a surface of the base sheet (100) is bonded to the base sheet (100) to form a model forming part (M);
A ceramic sheet 301 and a liquid adhesive 302 are sprayed from the first and second nozzles 20 and 30 to the upper portion of the model forming unit M and wrapped to a predetermined thickness, (S3) in which the pattern (210) is inverted to form a reverse pattern (303) on the lower surface of the ceramic sheet (300);
A first curing step (S4) of thermally curing the ceramic sheet (300) wrapped on the model forming part (M) at 150 ° C to 200 ° C;
A second curing step (S6) of thermally curing the ceramic sheet (300) wrapped on the model forming part (M) after the first curing step (S4) to 350 deg.
And a molding shell completion step (S7) in which the ceramic sheet (300) after the second curing step (D6) is demolded from the model forming part (M) to form a molding shell How to make molded shell of automobile interior material The method according to claim 1,
The ceramic 301 is made of any one material of alumina or silicon carbide,
Wherein the liquid adhesive (302) is made of a waste-based resin material. The method according to claim 1,
Wherein the injection ratio of the ceramic (301) particles to the liquid adhesive (302) is set to 8: 2 to 9: 1. The method according to claim 2,
A vent hole piercing step S5-1 for forming a plurality of vent holes 310 so as to ensure air permeability inside the ceramic sheet 300 after the first curing step S4 is performed, A method for manufacturing an IMG automobile interior material molding shell for vacuum molding An automobile interior material molding shell manufactured through any one of claims 1 to 4

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