KR20210101460A - Container manufacturing method based on forming of floor plate by slip dry - Google Patents

Abstract

The present invention relates to a container manufacturing method based on forming of a floor plate by slip dry. A container manufacturing method based on forming of a floor plate by slip dry of the present invention provides a structure in which a bottom of a container is integrally formed with a side body of the container while the slip is injected into an inside of the side body of the container placed on a plasterboard and dried, so that containers made of clay materials including ceramics can be mass-produced in a short time. The method provides a molding process that does not cause material deformation or stress concentration due to load application, so that it is possible to provide a container with strong and high durability. In particular, the method is effectively applied to the molding of a container having a trapezoidal vertical cross-sectional structure in which an upper line is formed to have a shorter length than a lower line, and accordingly, the container of the corresponding structure can be manufactured simply, easily and quickly.

Description

Container manufacturing method based on forming of floor plate by slip dry

The present invention relates to a method for manufacturing a container based on a soil-drying floor surface molding-based container manufacturing method, and more specifically, slip into the inside of a side body of a container placed on a gypsum board (slip, soil in a slurry state in which clay and water are stirred, hereinafter referred to as soil) ) is injected and dried, by providing a structure in which the bottom surface of the container is integrally formed with the side body of the container, so containers made of clay materials including ceramics can be mass-produced in a short time, and material deformation or stress caused by load application As it is to provide a molding process that does not cause concentration, etc., it is possible to provide a container with strong and high durability, and in particular, of a container having a trapezoidal vertical cross-sectional structure in which the upper line is formed with a smaller length than the lower line. It relates to a method for manufacturing a container based on earth-drying type bottom face molding, which is effectively applied to molding and can easily and easily and quickly manufacture a container of the corresponding structure.

In general, organic products, collectively referred to as porcelain or ceramics (hereinafter referred to as 'porcelain'), are products that are hardened by applying heat after molding them alone or by mixing inorganic materials such as clay, feldspar, silica, and ceramics. It is colorful, has low thermal and electrical conductivity, and has strong characteristics, so it has been widely used in daily life since ancient times. Such ceramics may be used as kitchenware such as tableware, containers, and pots, or may be manufactured and used as building materials, and may be used indoors and outdoors to obtain visual effects, or used as pots for growing plants. have.

Recently, in order to obtain various effects such as air cleaning, antibacterial or deodorizing in addition to the visual effect of ceramics, multifunctional ceramics made by mixing various inorganic materials such as clay, loess, germanium or charcoal are being sold.

On the other hand, as the technology related to the manufacture of ceramics, Republic of Korea Patent Publication No. 10-0602522 "Far-infrared ocher ceramics and manufacturing method thereof", Registration No. 10-1733978 "Coffee grounds-containing ceramics manufacturing method and manufacturing by the same" porcelain", etc. have been proposed.

However, when the prior art is applied, there is a limitation in that the time required for the manufacture of ceramics is long and there is a difficulty in mass production. In addition, there is a problem in that it is difficult to manufacture ceramics having a trapezoidal vertical cross-sectional structure in which the upper line is formed to have a smaller length than the lower line.

Republic of Korea Patent Publication Registration No. 10-0602522 "Far-infrared ocher porcelain and manufacturing method thereof" Republic of Korea Patent Publication Registration No. 10-1733978 "Method for manufacturing ceramics containing coffee grounds and porcelain manufactured thereby"

Therefore, the present invention improves the problems of the prior art, and the container side body with both upper and lower surfaces open is placed on a gypsum board, and then soil water in a slurry state in which clay and water are stirred is injected into the container side body and dried. By providing a molding process in which the bottom of the container is integrally formed with the side body of the container, a new type of earth-drying type bottom surface molding-based container manufacturing method that enables containers of clay materials including ceramics to be mass-produced in a short time is provided. aim to do

In addition, the present invention is a new type of soil-drying floor that can easily and quickly manufacture containers of various designs by molding the side body of the container through a ram press as well as molding the bottom body by injection and drying of soil water. An object of the present invention is to provide a method for manufacturing an octahedral molding-based container.

And the present invention is a new type of soil-drying floor surface molding base that can provide a container with a strong and high durability by preventing material deformation or stress concentration due to load application from occurring through the above-described molding process. An object of the present invention is to provide a method for manufacturing a container.

In particular, the present invention provides a new type of soil-drying floor surface that can simply and easily and quickly manufacture a container having a trapezoidal vertical cross-sectional structure in which the upper line is formed to have a smaller length than the lower line through the above-described molding process. An object of the present invention is to provide a molding-based container manufacturing method.

According to the features of the present invention for achieving the above-described object, the present invention is a container side body 110 in which both the upper surface 140 and the lower surface 150 communicating with the inner space 130 are opened are molded, The container side body 110 is a container side body forming step containing clay; a container side body plasterboard arrangement step in which the container side body 110 is placed on the upper surface 410 of the plasterboard 400; Earthen water 2 containing clay is injected into the inner space 130 through the upper surface 140 of the container side body 110 by a set amount, and the soil water 2 is applied to the side body 110 of the container. Injecting soil water to fill the lower portion of the inner space 130 as much as a set height (h); In the process in which the soil water 2 fills the inner space 130 of the container side body 110 for a set time, only the water component of the soil water 2 is absorbed into the inside of the gypsum board 400, The container bottom body 120 is molded as the earthen water 2 becomes clay, and the container bottom body 120 is formed while being integrally connected with the container side body 110. Including; , It provides a method for manufacturing a container based on soil drying-type bottom surface molding, characterized in that the container 100 is formed in which the container side body 110 and the container bottom body 120 are integrally formed.

In such a method for manufacturing a container based on soil drying-type bottom surface molding according to the present invention, the container side body 110 has a trapezoidal vertical cross-sectional structure in which the upper surface 140 is formed in a size smaller than the lower surface 150. can

In the above-described method for manufacturing a container based on soil drying type bottom face molding according to the present invention, in the container side body molding step, the material is disposed in the mold 300 for the intermediate mold of the ram press 200, the mold for the intermediate mold ( 300) is a material arrangement step in a mold for a ram press intermediate mold to form a cavity 330 having an inverted trapezoidal vertical cross-sectional structure in which the upper surface 140 of the container side body 110 forms the bottom surface 331 ; As the material 1 is pressed in the mold 300 for the intermediate mold by driving the ram press 200, the side intermediate molded body 100' is produced, and the side intermediate molded body 100' is the container side body ( 110) forming a lower surface 160 corresponding to the upper surface 140 of the side intermediate molded body manufacturing step in which only the upper surface 170 is opened; and a container side body forming step in which the container side body 110 is formed while the lower surface 160 of the side intermediate molded body 100 ′ is removed.

As described above, in the method for manufacturing a container manufacturing method based on soil drying type bottom surface according to the present invention, the soil water injection step is such that the soil water in a slurry state in which the clay material and water are stirred is injected into the inner space 130 of the container side body 110 . However, the soil water may have a specific gravity of 1.5 to 2.0.

As described above, in the method for manufacturing a container based on soil drying type floor surface according to the present invention, the soil water injection step is such that the soil water is made of a composition including clay, water, and a deflocculant, and the soil water is, with respect to 100 parts by weight of clay. It may be made by mixing 40-50 parts by weight of water and 5-10 parts by weight of a peptizing agent.

According to the method for manufacturing a container based on earth-drying floor surface molding according to the present invention, there is an effect that containers made of clay materials including ceramics are mass-produced in a short time, or containers of various designs are easily and quickly mass-produced. In addition, according to the method for manufacturing a container based on a soil-drying floor surface molding according to the present invention, there is an effect of providing a container having a strong and high durability.

In particular, the present invention is effectively applied to the molding of a container having a trapezoidal vertical cross-sectional structure in which the upper line is formed to have a smaller length than the lower line, and has the effect of simply and easily and quickly manufacturing the container of the corresponding structure.

1 and 2 are views for showing a container to which the soil-drying type floor surface molding-based container manufacturing method according to the present invention is applied;
Figure 3 is a block diagram of a method for manufacturing a container based on a soil-drying floor surface molding-based container according to an embodiment of the present invention;
Figure 4 is a schematic diagram of a method for manufacturing a container based on a soil-drying floor surface molding-based container according to an embodiment of the present invention;
Figure 5 is a detailed sequence block diagram of the forming step of the side body of the container according to an embodiment of the present invention;
6 is a schematic diagram of a container side body forming step according to an embodiment of the present invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings 1 to 6 . On the other hand, in the drawings and detailed description, general containers, ceramics, ram presses, molds for intermediate molds, cavities, clays, deflocculants, earth water (slips), etc. show the composition and action that can be easily understood by those working in this field References have been abbreviated or omitted. In particular, in the drawings and detailed descriptions, detailed descriptions and illustrations of specific technical configurations and actions of elements not directly related to the technical features of the present invention are omitted, and only the technical configurations related to the present invention are briefly illustrated or described. did.

The method for manufacturing a container based on earth-drying bottom face molding according to the present invention is applied to the manufacture of a container with an open top, and in particular, it can be applied to the manufacture of a container made of a clay material such as ceramics. The container may be a cup, a barrel, a bowl, etc., and performs a function of containing various objects including water, beverages, and food. And the method for manufacturing a container based on soil drying type bottom face molding according to the present invention is a container having a trapezoidal vertical cross-sectional structure in which the upper surface 140 is formed in a size smaller than the lower surface 150 as shown in FIGS. 1 and 2 ( 100) can be effectively applied.

For this purpose, the method for manufacturing a container based on soil drying-type floor surface molding according to an embodiment of the present invention is as shown in FIGS. 3 and 4 , a container side body molding step, a container side body plasterboard placement step, an earthen water injection step, and a container bottom surface molding step. carried out through steps.

The container side body forming step is a step in which the container side body 110 in which both the upper surface 140 and the lower surface 150 communicating with the inner space 130 are opened are formed. The container side body 110 is made of a material containing clay. In particular, the container side body 110 according to the embodiment of the present invention has a trapezoidal vertical cross-sectional structure in which the upper surface 140 is formed in a size smaller than the lower surface 150 .

Correspondingly, in the container side body forming step, as shown in FIGS. 5 and 6 , a material arrangement step in a mold for a ram press intermediate forming body, a side intermediate forming body manufacturing step, and a container side body forming step are performed.

The step of arranging the material in the mold for the intermediate molding for the ram press is a step for placing the material in the mold 300 for the intermediate molding for the ram press 200 . The mold 300 for the intermediate mold is a cavity of an inverted trapezoidal vertical cross-section structure in which the upper surface 140 of the container side body 110 forms a bottom surface 331 when the upper mold 310 and the lower mold 320 are engaged ( 330) is formed. Here, in the ram press 200 according to the embodiment of the present invention, the mold 300 for the intermediate molded body customized according to the shape and size of the container 100 implemented in various designs is installed in a replaceable manner. This makes it possible to manufacture containers of various designs.

The side intermediate molded body manufacturing step is a step in which the side intermediate molded body 100 ′ is produced while the material 1 is pressed in the mold 300 for the intermediate molded body by driving the ram press 200 , and the side intermediate molded body 100 ′) is to form a lower body 160 corresponding to the upper surface 140 of the container side body 110, only the upper surface 170 is opened.

The container side body forming step is a step in which the container side body 110 is formed while the lower body 160 of the side intermediate molded body 100 ′ is removed. The lower body 160 of the side intermediate molded body 100 ′ may be removed by cutting or the like.

The container side body plasterboard arrangement step is a step in which the container side body 110 is placed on the upper surface 410 of the plasterboard 400, and the container side body 160 from which the lower body 160 is removed in the container side body forming step ( 110) is placed on the upper surface 410 of the gypsum board 400 in a state in which the vertical direction is inverted.

The soil water injection step is a step in which the soil water 2 containing clay is injected into the inner space 130 through the upper surface 140 of the side body 110 of the container by a set amount. The soil 2 fills the lower portion of the inner space 130 of the side body 110 of the container as much as the set height (h). The clay contained in the earth water 2 is preferably made of the same component as the container side body 110 .

Here, in the soil water injection step according to the embodiment of the present invention, soil water in a slurry state in which the clay material and water are stirred is injected into the inner space 130 of the side body 110 of the container, and soil water having a specific gravity of 1.5 to 2.0 is used. It is desirable to have it injected.

In addition, the soil water used in the earth water injection step according to an embodiment of the present invention is composed of a composition including clay, water, and a deflocculant, and 40 to 50 parts by weight of water and 5 to 10 parts by weight of a peptizing agent with respect to 100 parts by weight of the clay It is preferable to use soil water made by mixing.

In the container bottom body forming step, only the water component of the soil water 2 is moved to the inside of the gypsum board 400 in the process in which the soil water 2 fills the inner space 130 of the container side body 110 for a set time. It is a step in which the bottom surface of the container 120 is formed as the soil water 2 is absorbed and becomes clay. The container bottom body 120 is formed while being integrally connected with the container side body 110 . Through this, the container 100 in which the container side body 110 and the container bottom body 120 are integrally formed is formed.

In the method for manufacturing a container based on soil drying type bottom face molding-based container according to an embodiment of the present invention configured as described above, the container side body 110 with both upper and lower surfaces open is placed on the gypsum board 400, and then clay and water are stirred. Since the soil water 2 in the slurry state is injected into the container side body 110 and dried in the process of being dried, the container bottom body 120 provides a molding process in which the container side body 110 and the container side body 110 are integrally formed. The clay container 100 can be mass-produced in a short time.

In addition, in the method for manufacturing a container based on soil drying type bottom face molding according to an embodiment of the present invention, the container bottom body 120 is molded by the injection and drying of the soil water 2 , and the container side surface through the ram press 200 . Since the sieve 110 is molded, it is possible to easily and quickly manufacture the containers 100 of various designs. And, the method for manufacturing a container based on soil drying type floor surface molding according to an embodiment of the present invention prevents material deformation or stress concentration due to load application through the above-described molding process, so that it is strong and has high durability. It is possible to provide the container 100 .

In particular, the method for manufacturing a container based on a soil drying type bottom surface molding-based container 100 according to an embodiment of the present invention has a trapezoidal vertical cross-sectional structure in which the upper line is formed to a smaller length than the lower line through the above-described molding process (100) to make it easy and quick to manufacture.

As described above, although the method for manufacturing a container based on earthen drying type bottom face molding according to an embodiment of the present invention has been illustrated according to the above description and drawings, this is merely an example and does not depart from the technical spirit of the present invention. It will be appreciated by those skilled in the art that various changes and modifications are possible therein.

1: Material
2: dirt
100: courage
100': side intermediate molded body
110: container side body
120: container bottom
130: internal space
140: upper surface
150: lower surface
160: lower body
170: top
200: ram press
300: mold for intermediate molding
310: hieroglyph
320: lower type
330: cavity
331: bottom surface
400: plasterboard
410: upper surface

Claims (5)

The container side body 110 in which both the upper surface 140 and the lower surface 150 communicating with the inner space 130 are opened is molded, and the container side body 110 contains clay. ;
a container side body plasterboard arrangement step in which the container side body 110 is placed on the upper surface 410 of the plasterboard 400;
Earthen water 2 containing clay is injected into the inner space 130 through the upper surface 140 of the container side body 110 by a set amount, and the soil water 2 is applied to the side body 110 of the container. Soil injection step of filling the lower portion of the inner space 130 as much as a set height (h);
In the process in which the soil water 2 fills the inner space 130 of the container side body 110 for a set period of time, only the water component of the soil water 2 is absorbed into the inside of the gypsum board 400, The container bottom body 120 is molded while the earthen water 2 becomes clay, and the container bottom body 120 is formed while being integrally connected with the container side body 110. Including; ,
The container side body 110 and the container bottom body 120 are integrally formed with the container 100, characterized in that the container manufacturing method based on soil drying type bottom face molding. The method of claim 1,
The container side body 110 is a container manufacturing method based on soil drying type floor surface, characterized in that it has a trapezoidal vertical cross-sectional structure in which the upper surface 140 is formed in a size smaller than the lower surface 150 . 3. The method of claim 2,
The container side body forming step is,
The material is disposed in the mold 300 for the intermediate molded body of the ram press 200, and the mold 300 for the intermediate mold is the reverse in which the upper surface 140 of the container side body 110 forms the bottom surface 331. A material arrangement step in a mold for a ram press intermediate mold to form a cavity 330 having a trapezoidal vertical cross-sectional structure;
As the material 1 is pressed in the mold 300 for the intermediate mold by driving the ram press 200, the side intermediate molded body 100 ′ is produced, and the side intermediate molded body 100 ′ is the container side body ( 110) forming a lower body 160 corresponding to the upper surface 140 of the side intermediate molded body manufacturing step in which only the upper surface 170 is opened;
The container side body forming step in which the container side body 110 is formed while the lower surface 160 of the side intermediate molded body 100 ′ is removed; . The method of claim 1,
In the soil water injection step, soil water in a slurry state in which the clay material and water are stirred is injected into the inner space 130 of the side body 110 of the container, and the soil water has a specific gravity of 1.5 to 2.0. A method for manufacturing a container based on a dry bottom face molding. The method of claim 1,
In the soil injection step, the soil water is made of a composition containing clay, water, and a dissolving agent,
The soil is
40 to 50 parts by weight of water and 5 to 10 parts by weight of a peptizing agent with respect to 100 parts by weight of clay.

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