KR20050110296A - Forming method of automobile interior part without skin forming process - Google Patents

Abstract

The present invention relates to a method for manufacturing the interior materials for automobiles, in which a skin forming process can be omitted by forming a cured layer having the same physical properties as the skin layer on the surface using a functional epoxy resin whose reaction varies depending on temperature. A mold manufacturing step of forming an upper mold and a lower mold having a gate and a bubble outlet formed therein; A cooling step of cooling the surfaces of the upper mold and the lower mold to a temperature of 5 to 15 ° C .; A foaming step of injecting and foaming a functional epoxy resin through the gate; And a trimming step of removing the protrusion after demolding the product.

According to the present invention, since the skin molding process is omitted, the process is shortened, and since the skin molding mold is not separately manufactured, the manufacturing cost is reduced.

Description

Forming method of automobile interior part without skin forming process}

The present invention relates to a method for manufacturing a car interior material in which the skin forming process is omitted, and more particularly, by forming a cured layer having the same physical properties as the skin layer on the surface by using a functional epoxy resin whose reaction varies with temperature. The present invention relates to a method for manufacturing a car interior material in which a skin forming process which can omit a process is omitted.

Generally, foam layers such as instrument panels, which are interior materials of automobiles, are formed to have a lot of pores therein to make them soft for comfort, and at the same time, hard surfaces having a thickness of 0.2-1 mm for a beautiful appearance. The skin part is formed.

That is, the process of forming the foam layer of the vehicle interior material, as shown in Figure 5, after making the skin portion to be the surface layer, and then through the process of foam molding by filling the foam urethane foam portion, wherein the skin molding mold and foam molding Each must be manufactured separately.

In more detail, a master model having the same shape as that of forming a product is manufactured by processing, and then, a skin molding mold and a foaming mold are separately produced using the master model.

In order to mold the skin using the skin molding mold, the skin sheet is pre-heated by an electric oven or the like and then mounted on the top of the molding mold. Next, a vacuum is formed through a vacuum line and molded.

At this time, the skin molding is completed while supplying the cooling water of approximately 5 ~ 15 ℃ through the cooling water pipe installed between the vertical vacuum line to prevent shape deformation.

Next, after attaching the skin to the lower mold of the foam mold, the polyurethane foam is poured onto the skin. Subsequently, the upper mold is closed and aged for a predetermined time, and then the upper mold is opened using a hydraulic cylinder to extract the molded product, and the finished work is completed to remove the unnecessary polyurethane foam that protrudes.

In the method of manufacturing the interior material for automobiles using the skin forming and foaming process according to the prior art, the production of the skin mold is required separately, so that the overall manufacturing process is increased due to the increase in manufacturing cost due to the skin mold processing and the increase in the working time. There is a delay.

The present invention has been made to solve the above problems, a method for manufacturing a car interior material is omitted, the skin forming process that can be formed on the surface of the skin layer in the foaming process without the need for a separate skin mold manufacturing and skin forming process The purpose is to provide.

The present invention for achieving the above object, the mold manufacturing step of forming the upper mold and the lower mold is formed gate and bubble outlet; The surface of the upper mold and the lower mold 5 ~ 15 ?? A cooling step of cooling to a temperature; A foaming step of injecting and foaming a functional epoxy resin through the gate; And a trimming step of removing the protrusion after demolding the product.

Another feature of the present invention is that the functional epoxy resin injected through the gate of the upper mold maintains the injection temperature 20 ~ 30 ℃ or more than the reaction temperature so that foaming can occur after the injection.

Another feature is that the functional epoxy resin contains a latent catalyst type curing agent.

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

1 is a view showing a lower mold manufacturing process according to the present invention, Figure 2 is a view showing a manufacturing process of the upper mold according to the present invention, Figure 3 is a view showing a product manufacturing process according to the present invention, Figure 4 is A diagram showing an epoxy foaming process according to the present invention.

In the method for manufacturing the interior material for automobiles, in which the skin forming process according to the present invention is omitted, as illustrated in FIGS. 1 to 4, a mold manufacturing step (S10) of forming an upper mold and a lower mold having a gate and a bubble outlet, and the upper portion Mold cooling step (S20) for cooling the surface of the mold and the lower mold to 5 ~ 15 ℃, foaming step (S30) by injecting and foaming functional epoxy resin through the gate, and trimming after demoulding the product Step S40 is made.

In more detail, the mold manufacturing step (S10) is a step of first producing a master model by wood or processing, and then divided into a lower mold 24 and an upper mold 44.

As shown in FIG. 1, the lower mold 24 has a master model 14 on the upper portion of the base 10, and after the guide plate 20 is installed so that the solution resin does not overflow around the base 10, the resin is formed. Pour and solidify.

In addition, the upper mold 44, as shown in Figure 2, the same as the manufacturing of the lower mold 24, the master model 14 is placed on top of the base 10, the solution resin is not overflowing around the The guide plate 20 is installed, but the gate core 36 and the bubble outlet core 38 are inserted to allow the gate 46 and the epoxy curing reaction to pass through the functional epoxy resin into the mold. Bubble discharge port 48 that is a passage through which bubbles generated during discharge are discharged to the outside is formed.

Here, the resin used as the upper and lower mold materials may use a general thermosetting material. The thermosetting material has excellent mechanical strength when solidified by cooling and does not easily deform even when heat is applied again.

In the next mold cooling step (S20), the upper and lower molds 24 and 44 manufactured as described above are put in a cooling furnace to cool the surface to 5 to 15 ° C. The reason for cooling the surface of the mold is to make the cooling rate of the inside and outside different when the functional resin for forming the product is injected into the inside of the mold.

That is, the external temperature of the functional epoxy resin injected into the mold is rapidly cooled by the low temperature of the mold surface to fall below the reaction temperature, thereby preventing the added catalyst from working.

Subsequently, the foaming step (S30) is a step in which the upper mold 44 and the lower mold 24 are in close contact with each other, and a functional epoxy resin is injected and foamed through the gate 46 formed on the upper mold 44.

That is, the functional resin injected into the mold is rapidly cooled by a cold mold and falls below the foaming temperature, so that pores are not formed much and become a hard material, while the inside is formed by a chemical reaction. Gases create a lot of pores, so they turn into a soft material.

Generally, epoxy resin refers to a resin having an epoxy bond as a chemical unit of a molecule, and refers to a polymer made by polymerizing epichlorohydrin and bisphenol A. Generally, an epoxy resin is used without adding an epoxy resin alone. .

The functional epoxy resin according to the present invention refers to a volume expandable resin which has no volume shrinkage upon curing but rather increases in volume, and such a volume expandable functional epoxy resin is added to a epoxy cationic latent catalyst containing hexafluoroantimonate. It is prepared by, and when cured at 120 ~ 180 ℃ the volume of the resin is expanded by about 5 to 20%.

Therefore, when a functional epoxy resin containing a cationic latent catalyst containing hesafluoroantimonate is added into a mold having a cooled surface, the mold shrinks slightly in the vicinity of the mold surface as in the curing process of a general epoxy resin. At the same time forming a hard cured layer of 1 mm, while the inside of the temperature is sufficiently high, the cation latent catalyst acts, the volume is rather expanded during polymerization to form a soft material.

There is no bubble in the cured layer formed on the surface of the product as described above can have a beautiful appearance.

In addition, since bubbles generated during the curing process are discharged to the outside through only one bubble outlet 48 formed in the upper mold 44, the majority of bubbles remain in the resin to form a porous resin.

Finally, in the trimming step (S40), after the solidified product is completely cooled and demolded from the upper and lower molds 44 and 24, the protrusion solidified while overflowing through the gate 46 and the bubble outlet 48. 56, 58) by processing to complete the product.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make modifications without departing from the essential characteristics of the present invention. Therefore, the technical idea of the present invention is not limited to the above embodiment.

According to the method for manufacturing the interior material for automobiles, in which the skin forming process according to the present invention is omitted, the skin forming process is omitted, and thus the process is shortened, and thus, the manufacturing cost is reduced because the skin forming mold is not manufactured separately.

In addition, the present invention can secure a beautiful appearance similar to the automotive interior material having a skin layer by forming a hard cured layer of about 0.2 to 1 mm on the surface using a functional epoxy resin to which a special catalyst is added.

1 is a view showing a lower mold manufacturing process according to the present invention,

2 is a view showing a manufacturing process of the upper mold according to the present invention,

3 is a view showing a product manufacturing process according to the present invention,

4 is a view showing an epoxy foaming process according to the present invention,

5 is a view showing a skin forming and foaming process according to the prior art.

<Description of the symbols for the main parts of the drawings>

10,30: base 14,32: master model

16,34 release agent 18,40 resin

20: guide plate 24: lower mold

36: core for gate 38: core for bubble outlet

44: upper mold 46: gate

48: bubble outlet 52: product

56, 58: protrusions

Claims (3)

A mold manufacturing step of forming an upper mold and a lower mold having a gate and a bubble outlet, Cooling step of cooling the surface of the upper mold and the lower mold to 5 ~ 15 ℃ temperature, Foaming step of injecting and foaming a functional epoxy resin through the gate, Method for manufacturing a car interior material is omitted, characterized in that the skin forming process consisting of a trimming step of removing the protrusion after demolding the product. The method of claim 1, Functional epoxy resin injected through the gate is a method for manufacturing a car interior material is omitted, characterized in that the injection temperature is maintained at 20 ~ 30 ℃ or more than the reaction temperature so that foaming occurs after the injection. The method of claim 1, The functional epoxy resin is a method for producing a car interior material is omitted, characterized in that it comprises a cationic latent catalyst.