KR102141932B1 - Method for manufacturing mould using seaweeds pulp - Google Patents

Abstract

A method of manufacturing a mold using seaweed pulp according to an embodiment of the present invention comprises filling a pulp solution containing seaweed pulp formed from seaweed raw materials inside a storage device, and measuring a moisture content of the pulp solution inside the storage device , If the measured moisture content is outside the preset range, adjusting the moisture content of the pulp liquid to fall within the preset range, filling the mold of the molding apparatus with the moisture content-controlled pulp liquid and And applying pressure to the pulp liquid of the mold to generate a molding in a shape corresponding to the mold.

Description

Method for manufacturing mold using seaweed pulp{METHOD FOR MANUFACTURING MOULD USING SEAWEEDS PULP}

An embodiment of the present invention relates to a method for manufacturing a mold using seaweed pulp.

Generally, a mold having a three-dimensional shape including a receiving space is produced by molding paper pulp based on wood. However, since wood is used as a raw material, there is a problem of natural damage caused by logging. In order to solve this problem, in the Republic of Korea Patent Publication No. "10-1847039" presented a method of manufacturing a pulp using a wool. The above method suggests a specific method in the manufacture of pulp using a woodpecker, but does not suggest a process for manufacturing a mold. However, as a general method of manufacturing a mold, a problem has been found that the fibers of the pulp (seaweed) pulp have a high water absorption, and thus a mold cannot be manufactured.

Therefore, there is a need for a method of manufacturing a mold in consideration of the fact that the fibers of seaweed pulp have a high water absorption rate.

Korean Registered Patent Publication No. 10-1847039 (2018. 04. 03)

An object of the present invention is to provide a mold manufacturing method using seaweed pulp for manufacturing a mold in consideration of the fact that the fibers of the seaweed pulp have a high water absorption rate.

A method of manufacturing a mold using seaweed pulp according to an embodiment of the present invention comprises filling a pulp solution containing seaweed pulp formed from seaweed raw materials inside a storage device, and measuring a moisture content of the pulp solution inside the storage device , If the measured moisture content is outside the preset range, adjusting the moisture content of the pulp liquid to fall within the preset range, filling the mold of the molding apparatus with the moisture content-controlled pulp liquid and And applying pressure to the pulp liquid of the mold to generate a molding in a shape corresponding to the mold.

The raw material of the seaweed may include at least one of woodpecker and cinderella.

The seaweed pulp may be prepared through filtering the seaweed sludge containing the softened seaweed raw material to obtain a pulp raw material solution and agitating the pulp raw material solution to pulping.

Adjusting the moisture content of the pulp liquid includes the step of reducing the moisture content of the pulp liquid to fall within the preset range by applying heat to the interior of the storage device when the moisture content is greater than or equal to the preset range. can do.

The step of reducing the moisture content by applying heat to the interior of the storage device may include stopping the heating of the interior of the storage device when the moisture content decreases and becomes lower than the upper limit of the preset range. Can.

Adjusting the moisture content of the pulp liquid may include reducing the moisture content of the pulp liquid to fall within the preset range by dehydrating the pulp liquid when the moisture content is greater than or equal to the preset range. have.

The step of dewatering the pulp liquid to reduce the moisture content may include stopping the dewatering treatment of the pulp liquid when the moisture content decreases and becomes lower than an upper limit of the preset range.

Adjusting the moisture content of the pulp liquid may include increasing the moisture content of the pulp liquid to fall within the preset range by supplying a liquid to the pulp liquid when the moisture content is less than the preset range. Can.

The step of supplying the liquid with the pulp liquid to increase the moisture content may include stopping the supply of the liquid with the pulp liquid when the moisture content increases and becomes higher than the lower limit of the preset range.

Before the step of generating the molded article, measuring the moisture content of the pulp liquid inside the mold, if the moisture content is greater than or equal to the predetermined range, heat the inside of the mold to determine the moisture content of the pulp liquid. It may further include the step of reducing to fall within the set range.

The step of reducing the moisture content by applying heat to the interior of the mold may include stopping the heating of the interior of the mold when the moisture content decreases and becomes lower than the upper limit of the preset range. .

The mold according to another embodiment of the present invention is manufactured by a mold manufacturing method using the seaweed pulp.

When explaining the effect of the mold manufacturing method using the seaweed pulp according to the present invention are as follows.

According to the disclosed embodiment, before entering the molding process, the moisture content of the seaweed pulp can be adjusted to prevent gelation of the seaweed pulp.

As the molding process is performed by using the non-gelled seaweed pulp, the shape of the mold in an intact form can be realized.

1 is a schematic diagram for explaining a method of manufacturing a mold using seaweed pulp according to an embodiment of the present invention
Figure 2 is a flow chart for explaining a mold manufacturing method using seaweed pulp according to an embodiment of the present invention
Figure 3 is a paper cup made of seaweed pulp through a general pulp mold process
Figure 4 is a paper cup made of seaweed pulp through a mold manufacturing method using seaweed pulp according to an embodiment of the present invention

The following detailed description is provided to aid in a comprehensive understanding of the methods, apparatus and systems described herein. However, this is only an example and the present invention is not limited thereto.

In the following description, when it is determined that the detailed description of the known technology related to the present invention may obscure the subject matter of the present invention, the detailed description will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or practice. Therefore, the definition should be made based on the contents throughout this specification. The terminology used in the detailed description is only for describing embodiments of the present invention and should not be limiting. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this description, expressions such as “including” or “equipment” are intended to indicate certain characteristics, numbers, steps, actions, elements, parts or combinations thereof, and one or more other than described. It should not be interpreted to exclude the presence or possibility of other characteristics, numbers, steps, actions, elements, or parts or combinations thereof.

In the following description, the suffixes "module" and "part" for the components used in the description are given or mixed only considering the ease of writing the specification, and do not have meanings or roles distinguished from each other by themselves. .

On the other hand, directional terms such as upper side, lower side, one side, and the other side are used in connection with the orientation of the disclosed drawings. Since the components of the embodiments of the present invention can be positioned in various orientations, the directional terms are used for illustrative purposes and are not limiting.

Further, terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms may be used for the purpose of distinguishing one component from other components. For example, the first component may be referred to as a second component without departing from the scope of the present invention, and similarly, the second component may also be referred to as a first component.

When an element is said to be "connected" or "connected" to another component, it is understood that other components may be directly connected to or connected to the other component, but there may be other components in between. It should be. On the other hand, when a component is said to be "directly connected" or "directly connected" to another component, it should be understood that no other component exists in the middle.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. Regardless of reference numerals, identical or similar elements are assigned the same reference numerals, and redundant description thereof will be omitted. In addition, the accompanying drawings are only for easy understanding of the embodiments disclosed in the present specification, and the technical spirit disclosed in the specification is not limited by the accompanying drawings, and all modifications included in the spirit and technical scope of the present invention , It should be understood to include equivalents or substitutes.

1 is a schematic diagram for explaining a method for manufacturing a mold using seaweed pulp according to an embodiment of the present invention, and FIG. 2 is a flow chart for explaining a method for manufacturing a mold using seaweed pulp according to an embodiment of the present invention.

In the illustrated flow chart, the method is described by dividing it into a plurality of steps, but at least some of the steps are performed by reversing the order, combined with other steps, omitted together, divided into detailed steps, or not shown. One or more steps can be performed in addition.

Red algae (seaweed) pulp can be easily gelled. Gelling of the seaweed pulp may be that the fibers of the seaweed pulp absorb moisture and change into the shape of a gel. When the seaweed pulp is gelled, the viscosity and elasticity increase rapidly and do not condense, so it cannot be molded into a mold. That is, the seaweed pulp cannot be molded into a mold in the same way as a mold forming method using cotton pulp or wood pulp. Accordingly, the mold manufacturing method using the seaweed pulp of the present invention described below includes processes for adjusting the moisture content of the fibers of the seaweed pulp.

1 and 2, the mold manufacturing method using seaweed pulp is an inflow process (S102), a water content measurement process (S112), a water content control process (S114), a molding process (S120) and a drying process (S130) It may include.

The inflow process (S102) may introduce and store the pulp liquid into the storage device 110. The pulp liquid may be seaweed pulp without being subjected to a drying process after being pulped in the pulp manufacturing process. The seaweed pulp without the drying process may be in a state in which fibers of the seaweed pulp are uniformly spread in water. However, the present invention is not limited thereto, and the inflow process (S102) may be performed by introducing dry seaweed pulp and water into the storage device 110 and mixing them.

Seaweed pulp may be formed through a method of producing seaweed pulp from seaweed raw materials (agar-agar, ceylon moss, and sea string). The process of forming seaweed pulp from seaweed raw materials is as follows. Specifically, the seaweed pulp manufacturing method may include a sludge filtering process and a pulping process. The sludge filtering process may be a process of filtering the seaweed sludge in a state in which softened seaweed raw materials and foreign substances are mixed to obtain a pulp raw material liquid. The pulping process may be a process of obtaining a seaweed pulp by pulping the pulp raw material by stirring.

The moisture content measurement process (S112) may measure the moisture content of the pulp liquid accommodated in the storage device 110. The measured moisture content may indicate whether the concentration of the pulp liquid is suitable for molding. When the measured moisture content falls within a predetermined range, the concentration of the pulp liquid may be in a state suitable for molding.

The preset range of moisture content may be set to a range in which the pulp liquid is sufficiently fluid to fill the molding apparatus 120 but does not gel easily. The detailed description is as follows. The low moisture content of the pulp liquid may decrease fluidity, making it difficult to evenly fill the corners of the molds of the molding apparatus 120 (lower mold 122 and upper mold 124). Accordingly, it may be difficult to implement a mold having a uniform thickness or a mold having a precise shape in the molding process S120. On the other hand, the pulp liquid with a high moisture content can be easily gelled.

In consideration of this, the preset range of the appropriate moisture content of the pulp liquid may be 30% to 50%. When the moisture content of the pulp measured in the moisture content measurement process (S112) does not fall within a predetermined range, the pulp liquid may undergo a moisture content control process (S114).

The moisture content control process (S114) may control the moisture content of the pulp liquid inside the storage device 110 to fall within a predetermined range. When the moisture content of the pulp liquid is higher than a predetermined range, the moisture content control process (S114) may evaporate the moisture of the pulp liquid by applying heat to the storage device 110 containing the pulp liquid. The moisture content of the pulp liquid may be reduced by evaporation. In the moisture content control process (S114 ), when the moisture content of the pulp liquid becomes lower than the upper limit of the predetermined range, the heating of the storage device 110 may be stopped.

In addition, the moisture content control step (S114) may not only evaporate the moisture by heating the pulp liquid, but may also directly dehydrate the pulp liquid. When the moisture content of the pulp liquid is higher than a predetermined appropriate range, the moisture content control step (S114) may dehydrate the pulp liquid. When the moisture content of the pulp liquid is lowered and lower than the upper limit of the preset range, the moisture content control process (S114) may stop dewatering the pulp liquid with the storage device 110.

Conversely, when the moisture content of the pulp liquid is lower than a predetermined range, the moisture content control process (S114) supplies the liquid (for example, water) to the storage device 110 containing the pulp liquid, thereby causing the moisture of the pulp liquid to The content can be increased. In the moisture content adjustment process (S114 ), when the moisture content of the pulp liquid becomes higher than the lower limit of the preset range, the supply of the liquid to the storage device 110 may be stopped.

The pulp liquid whose moisture content is adjusted inside the storage device 110 may be supplied to the molding device 120 to be molded into a shape of a mold.

In the molding process (S120 ), the mold of the molding apparatus 120 is filled with pulp liquid and pressure is applied to generate a molded product. The molding apparatus 120 may include a lower mold 122 and an upper mold 124. The molding process S120 may include one or more of a wet molding process and a dry molding process. In the wet molding process and the dry molding process, a method in which the lower mold 122 is filled with pulp liquid may be different from each other. In the wet molding process, the lower mold 122 is immersed in a liquid tank filled with the pulp liquid and then vertically rises to fill the lower mold 122 with the pulp liquid. In the dry forming process, as shown in FIG. 1, the pulp liquid may be poured directly into the lower mold 122.

In the molding process (S120), before molding the pulp liquid inside the molding apparatus 120, the moisture content of the pulp liquid can be adjusted once more in a preventive dimension. The moisture content of the pulp liquid has already been adjusted in the moisture content measuring step (S112) and the thickening control step (S114), but in case the moisture content of the pulp liquid is changed even slightly, the pulp liquid is once again in the molding step (S120). You can check and adjust the moisture content of. However, the present invention is not limited thereto, and the moisture content measurement process (S112) and the thickening control process (S114) may be omitted and the moisture content of the pulp liquid may be adjusted only in the molding process (S120).

The molding process (S120) may measure the moisture content of the pulp liquid inside the molding apparatus 120. The description of the moisture content of the pulp liquid is omitted in the same manner as the description of the moisture content in the moisture content measurement step (S112). In the molding process (S120), when the moisture content of the pulp liquid is higher than a predetermined range, heat may be applied to the lower mold 122 containing the pulp liquid to evaporate the moisture of the pulp liquid. The moisture content of the pulp liquid may be reduced by evaporation. In the molding process (S120), when the moisture content of the pulp liquid becomes lower than the upper limit of the predetermined range, the heating of the storage device 110 may be stopped.

In the upper portion of the lower mold 122 containing the pulp liquid, the upper mold 124 vertically descends to pressurize the pulp liquid contained in the lower mold 122. The pulp liquid may be pressurized to form a molded product. The molding process (S120) may press the molding multiple times to control the thickness, density, and shape of the molding. Specifically, the molding formed by the first pressing of the pulp liquid is transferred to the next lower mold, and the next upper mold corresponding thereto may be lowered and pressed again as the molding is pressed. The molding formed in the molding process (S120) may be transferred to the drying device 130 to remove moisture, and may enter the drying process (S130).

The drying process S130 may dry the molding by applying at least one of heat and wind to the molding transferred to the drying apparatus 130. The drying device 130 may be a conveyor belt and a drying device (blowing device and heating device) that receive a molding from the forming device 120. The molded product may be dried in a drying process (S130) to become a finished product.

3 is a paper cup made of seaweed pulp through a general pulp mold process, and FIG. 4 is a paper cup made of seaweed pulp through a mold manufacturing method using seaweed pulp according to an embodiment of the present invention.

Referring to FIGS. 3 and 4, a difference between a paper cup (mold) produced through a general pulp mold process and a paper cup (mold) produced through an embodiment of the present invention can be confirmed.

The paper cup of the general mold process in FIG. 3 has a large number of damaged parts and cannot be used as an original paper cup. In a typical mold process, seaweed pulp is gelled and is not easily compressed and dried in the mold during the molding process. Accordingly, the molded product that is not compressed and dried does not adhere to the mold and does not fall off neatly, and only the portion away from the mold is manufactured in the shape of a final paper cup (mold).

The paper cup of the embodiment of the present invention in FIG. 4 has the shape of an intact paper cup without a damaged portion, and may be used as a purpose of the paper cup. In the mold manufacturing method using the seaweed pulp of the present invention, the seaweed pulp is prevented from being gelled, so that compression and drying can be smoothly performed in the molding process (S130). Accordingly, the entire molded article is neatly separated from the mold (the lower mold 122 and the upper mold 124), so that a final paper cup (mold) of the intact shape can be formed.

The above detailed description should not be construed as limiting in all respects, but should be considered illustrative. In addition, it will be apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit and essential features of the present invention. Therefore, the scope of rights of the present invention should be determined by rational interpretation of the appended claims, and all changes within the equivalent scope of the present invention are included in the scope of the present invention.

110: storage device
120: molding machine
122: lower mold
124: upper mold
130: drying device

Claims (12)

Preparing seaweed pulp;
Filling a pulp liquid containing seaweed pulp formed from seaweed raw materials inside the storage device;
Measuring the moisture content of the pulp liquid inside the storage device;
Adjusting the moisture content of the pulp liquid to fall within the predetermined range when the measured moisture content is outside a preset range;
Filling the pulp liquid with the adjusted moisture content into a mold of a molding apparatus; And
And applying pressure to the pulp liquid of the mold to generate a molding in a shape corresponding to the mold,
The step of manufacturing the seaweed pulp,
Filtering the seaweed sludge containing the softened seaweed raw material to obtain a pulp raw material liquid; And
And agitating and pulping the pulp raw material solution,
Adjusting the moisture content of the pulp liquid,
If the moisture content is greater than or equal to the predetermined range, dewatering the pulp liquid to reduce the moisture content of the pulp liquid to fall within the predetermined range; And
When the moisture content is less than the predetermined range, the step of supplying a liquid to the pulp liquid and increasing the moisture content of the pulp liquid to fall within the predetermined range,
The step of adjusting so that the moisture content of the pulp liquid falls within the predetermined range,
By adjusting the moisture content of the pulp liquid to be within a predetermined range to prevent the fibers of the seaweed pulp contained in the pulp liquid from absorbing moisture and changing into the shape of a gel,
The preset range,
The water content of the pulp liquid is lower than the preset range so as not to decrease fluidity, and is set to a range of moisture content that is higher than the preset range so that the pulp liquid does not gel, using seaweed pulp. Mold manufacturing method.
delete delete The method according to claim 1,
Adjusting the moisture content of the pulp liquid,
If the moisture content is more than the predetermined range, including the step of reducing the moisture content of the pulp liquid to fall within the predetermined range by applying heat to the interior of the storage device, mold manufacturing method using seaweed pulp.
The method according to claim 4,
The step of reducing the moisture content by applying heat to the interior of the storage device,
When the moisture content is reduced and lower than the upper limit of the predetermined range, including the step of stopping the heat to the interior of the storage device, mold manufacturing method using seaweed pulp.
delete The method according to claim 1,
The step of reducing the moisture content by dehydrating the pulp liquid is
When the moisture content is reduced and lower than the upper limit of the predetermined range, including the step of stopping the dehydration treatment of the pulp liquid, mold manufacturing method using seaweed pulp.
delete The method according to claim 1,
The step of increasing the water content by supplying a liquid to the pulp liquid,
When the moisture content is increased and higher than the lower limit of the predetermined range, including the step of stopping the supply of liquid to the pulp liquid, mold manufacturing method using seaweed pulp.
The method according to claim 1,
Measuring the moisture content of the pulp liquid inside the mold prior to the step of generating the molding;
If the moisture content is more than the predetermined range, further comprising the step of reducing the moisture content of the pulp liquid to fall within the predetermined range by applying heat into the mold, the mold manufacturing method using seaweed pulp.
The method according to claim 10,
The step of reducing the moisture content by applying heat to the interior of the mold,
When the water content is reduced and lower than the upper limit of the predetermined range, including the step of stopping the heat to the interior of the mold, mold manufacturing method using seaweed pulp.
delete

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