KR101011526B1 - Manufacturing methods of three-dimensional topography object - Google Patents

Abstract

PURPOSE: A manufacturing methods of a three-dimensional topography object is provided to improve productivity and satisfaction by repeatedly producing the three-dimensional topography object through a simple method. CONSTITUTION: A manufacturing methods of a three-dimensional topography object is comprised of the steps: carving a wood as a three-dimensional topography(20') and a bottom plate(10') thereof; manufacturing a mold for the bottom plate and a mold for the three-dimensional topography respectively; inserting urethane into the mold to manufacture the three-dimensional topography object.

Description

Manufacturing method of three-dimensional topography object

The present invention relates to a method for producing a three-dimensional topographical feature for exhibition to reduce the production of three-dimensional topography, such as Dokdo, Hallasan and the like to the actual shape, and to repeatedly produce the three-dimensional topography by a synthetic resin.

In general, tourist attractions and other educational places display famous three-dimensional topography, such as Dokdo and Halla-san, in a form that is reduced to the actual shape.

Such three-dimensional features have been manufactured by hand in most cases.

That is, since the worker works in the form of carving or adding the three-dimensional feature through the photo of the three-dimensional feature, the work is cumbersome, it is difficult to repeatedly manufacture.

For this reason, in recent years, the injection method which manufactures an injection mold, injects a liquid resin into a metal mold | die, and hardens | cures, and the press method which manufactures a press metal mold | die and puts the resin of a gel state into a metal mold | die are applied.

However, since the conventional injection method and the press method require processing of the same shape as the actual three-dimensional feature in the molding part of the injection mold and the press die, there are many difficulties in machining operation or processing cost due to three-dimensional processing of metal molds. There was a problem that the wide use is limited.

The present invention has been invented to solve all the problems of the prior art described above, while producing a three-dimensional feature such as Dokdo, Hallasan and the like for the exhibition to reduce the actual shape, the three-dimensional feature is constantly made by synthetic resin, etc. The objective is to maximize production and satisfaction as well as to allow for repeated production, as well as the process is simple and efficient.

This invention,

A step 1 process of carving the wood deck model of the three-dimensional feature and the wood feature model from wood;

A two-step process of manufacturing a bottom plate molding frame using a wooden floor plate model, and separately preparing a terrain molding frame using a wood topography model;

The bottom plate forming mold prepared in the above process is prepared by injecting and sintering urethane to manufacture a bottom plate model member. A three step process;

After the coloring of the bottom plate model member and the feature model member molded as described above, the feature is to be manufactured by a four-step process of manufacturing a three-dimensional feature by adhering the feature model member to each position of the bottom plate model member have.

In the two-step process of the present invention, the bottom plate mold is seated on the top of the bottom plate molding bottom mold among the top and bottom molds for forming the bottom plate, and a bottom plate molding frame is manufactured.

Attaching a wooden feature model to the lower mold for topography forming, and forming a groove having a larger size than the wooden feature model to insert the wood feature model in the lower mold for feature forming, After joining the lower mold, urethane is injected and sintered into the gap space between the wood topography model and the groove to manufacture a unit molding frame having a molding part corresponding to the wood topography model. After inserting and seating arrangement, it is characterized in that it is manufactured to be combined integrally by spraying the FRP on the upper surface of the wooden frame and each unit forming frame to produce a terrain molding frame.

The present invention is produced by reducing the three-dimensional features such as Dokdo, Hallasan and the like to the actual shape for exhibition, the simple three-dimensional features in a simple and efficient way by wood processing, molding frame processing, molding, coloring, assembly, etc. Since it is to be repeated production regularly, it has the effect of providing excellent work productivity, economic satisfaction and the like.

With reference to the accompanying drawings for the production method of the three-dimensional terrain of the present invention will be described in detail.

First, as shown in FIG. 3 and FIG. 4, as a first step, the wood deck plate model 10 and the wood feature model 20 of the three-dimensional feature 2 are carved into wood.

And as shown in Figure 5 and 6 as a second step, using the wooden floor plate model 10, the bottom plate forming mold 100, using the wooden topography model 20, terrain molding frame 200 To produce.

The manufacturing process of the bottom plate forming mold 100, as shown in Figure 5, the bottom plate 120 of the upper and lower molds 110, 120 for forming the bottom plate wood bottom plate model 10 on the top It is settled and completed.

At this time, the wooden floor plate model 10 should be seated so that the actual bottom plate shape and the terrain are located in the opposite direction, so that the wood topography model 20 may be assembled after molding.

And it is possible to simply provide the assembly of the timber topography model 20 after molding by making a position indication to the assembly position of the timber topography model 20 in the wood floor plate model (10).

In addition, the manufacturing process of the terrain forming mold 200 is, as shown in Figure 6, attached to the wooden topography model 20 to the top of the top mold 210 for the topography forming, the bottom mold for the topography forming The timber topography model 20 is inserted into the 220, and forms the groove 225 having a predetermined thickness larger than that of the wood topography model 20.

Then, after combining the upper and lower molds 210 and 220 for forming the features, the urethane is injected into the gap space between the wood features 20 and the groove 225, and then sintered to make the wood features 20. The unit molding frame 230 having a molding unit 235 corresponding to the manufacturing is manufactured.

The unit forming mold 230 manufactured as described above is seated and arranged in a shape of inserting into a hole formed in the wooden frame 240, and then, by spraying FRP on the upper surface of the wooden frame 240 and each unit forming frame 230, FRP Each unit forming mold 230 is manufactured to be integrally coupled to the wooden frame 240 by the layer 245.

At this time, the wood frame 240 may be manufactured to form a mold so that a plurality of seat model 230 can be molded at the same time by arranging the seat forming frame 230 in a plurality.

In this manner, the terrain molding die 200 is manufactured.

And as shown in Figures 7 and 8 as a three-step, the bottom plate modeling member (10 ') is manufactured using the bottom plate forming mold 100, and the topography model using the terrain forming frame 200 The member 20 'is manufactured.

That is, as illustrated in FIG. 7, urethane is injected into the bottom plate forming mold 100 and sintered to manufacture the bottom plate model member 10 ′.

In addition, as shown in FIG. 8, a mold release agent is applied to the unit forming mold 230 of the terrain forming mold 200, and the resin and glass mat are compressed and sintered to manufacture the terrain model member 20 '. .

As described above, the bottom plate model member 10 'and the feature model member 20' are repeatedly generated using the bottom plate molding frame 100 and the terrain molding frame 200.

The bottom plate model member 10 'and the feature model member 20' manufactured as described above are colored in each step in four steps, and then the bottom plate model member 10 'is shown in FIG. By attaching the feature model member 20 'at each position, the three-dimensional feature 2 is manufactured.

In addition, the bottom plate model member 10 'and the topographic model member 20' of the three-dimensional feature (2) is attached to the LED lamp (3) to the important position to mark the position, shown in Figure 1 As will be seated on top of the display stand (5).

At this time, the lamp (3) is to be used to confirm the position by emitting light by the operation of the button (4) in front of the display stand (5).

Therefore, the present invention is produced by reducing the three-dimensional feature (2), such as Dokdo, Hallasan and the like to the actual shape for display, the simple three-dimensional feature by wood processing, forming mold processing, molding, coloring, assembly, etc. While manufacturing in an efficient manner, of course, it can be repeatedly produced.

1 is a perspective view showing a three-dimensional feature display stand.

2 is a front configuration diagram showing a three-dimensional feature installed in FIG.

3 and 4 is a front configuration diagram showing a one-step manufacturing process of the present invention.

5 and 6 is a front configuration diagram showing a two-step manufacturing process of the present invention.

7 and 8 is a front configuration diagram showing a three-step manufacturing process of the present invention.

9 is a process diagram of the present invention.

* Description of the symbols for the main parts of the drawings **
10: wood deck model 20: wood topography model

10 ': base plate model member 20': feature model member

100: bottom plate forming mold 200: terrain forming mold

230: unit molding frame 235: molding part

240: wooden frame 110,120: upper and lower molds for forming the bottom plate

210,220: Upper and lower molds for forming features

Claims (2)

In the three-dimensional feature display method for producing a reduced three-dimensional feature, A step 1 process of carving the wood floor plate model 10 and the wood feature model 20 of the three-dimensional feature 2 into wood; The two-step process of manufacturing the bottom plate forming frame, 100 using the wooden floor plate model 10, and separately preparing and preparing the terrain forming frame 200 using the wooden topography model 20, respectively. and; Urethane is injected and sintered into the bottom plate forming mold 100 prepared in the two-step process to manufacture the bottom plate model member 10 ', and the unit forming frame 230 of the terrain forming mold 200 includes resin and A three-step process of compressing, spraying and sintering the glass mat to produce the feature model member 20 '; The bottom plate model member 10 'prepared by injecting and sintering urethane in the three-step process, and the bottom plate model member after coloring the surface of the topography model member 20' manufactured by compression spraying and sintering a resin and a glass mat. Method for producing a three-dimensional feature for display, characterized in that the manufacturing by the four-step process of manufacturing a three-dimensional feature (2) by adhering the feature model member (20 ') at each position of (10'). The method of claim 1, In the two-step process, the bottom plate molding frame 100 is manufactured by mounting a wooden bottom plate model 10 on the bottom mold 120 of the bottom plate forming upper and lower molds. Attaches the wooden feature model 20 to the upper mold 210 for the topography, and the feature model 20 is inserted into the bottom mold 220 for the feature molding is larger than the feature model 20 After forming the groove 225 having a size and combining the upper and lower molds 210 and 220 for forming the terrain, urethane is injected and sintered into the gap space between the wood topography model 20 and the groove 225. After manufacturing a unit molding frame 230 having a molding unit 235 corresponding to the water model 20, and inserting the unit molding frame into a hole formed in the wooden frame 240, and then placed and arranged, the wooden frame 240 3) A three-dimensional topographical manufacturing method for a display, characterized in that the top surface and each unit forming frame 230 is produced by spraying the FRP to be combined integrally to produce a terrain molding frame 200.

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