KR20200090293A - The method for manufacturing a laver drying filter and the laver drying filter manufactured thereby - Google Patents

Abstract

The present invention relates to a method for producing a drying screen of laver fresh, which can mass-produce a base material of a drying screen by an extrusion method and produces the same at a low unit price through a simple cutting and hole formation process. The method for producing a drying screen of laver fresh comprises the steps of: 1) mixing a resin; 2) extruding the base material of the drying screen, which forms a circle of the drying screen of laver fresh, with the resin; and 3) forming a drain hole and a locking hole in the extruded base material by pressing.

Description

The manufacturing method of Haitai dry erection and the Haitai dry erection produced thereby{the METHOD FOR MANUFACTURING A LAVER DRYING FILTER AND THE LAVER DRYING FILTER MANUFACTURED THEREBY}

The present invention relates to a method of manufacturing a dry sea stool, and more specifically, a production method of a dry sea stool that can mass-produce stool base materials by extrusion method and mass-produce them at a low cost through a simple cutting and hole forming process. It relates to a dried sea stool that is produced.

In general, dried seaweed is produced by slicing finely sliced Haitai leaf collected from aquaculture farms, then spreading the dried seaweed thinly on the foot and drying it, then separating the dried seaweed from the foot. Recently, the Haitai Dryer has been developed and used to reduce labor and increase production. These Haitai Dryers dry the dehydrated part and the dehydrated part that pressurize and dehydrate the molded seaweed and the dehydrated part that pressurizes the molded seaweed. It is usually composed of a drying section and a stripping section that separates the dried seaweed from the erection, and produces a dried seaweed while circulating the chain with a number of erections along the process.

Haitai dry stool used for this purpose should be robust and elastic, and must have good flowability such as moisture, in the early stages of laver drying, it has adhesiveness with Haitai, and in the final stage, it has to be easily peeled off. For this purpose, bamboo or plywood is divided into a certain size and woven into threads. That is, the conventional Haitai dry jangjang is made by firmly weaving jangjangsal made of bamboo or plastic into a woven thread.

However, since the elasticity of the intestine flesh or the weaving thread is not so great, when the insole pressing part in the stripping section of the Haitai dryer presses the center of the intestine, the dried and dried seaweed on the intestine is not easily separated and the steam is torn. In many cases, they stuck and produced defective products.

In particular, these erections had the disadvantage of frequently replacing erections at a high cost, since foreign substances are deposited on the erections after a long use time, and the adhesive strength with the seam is strong, so that the seams are torn or stuck and many defective products are produced.

The technical problem to be solved by the present invention is to provide a method for manufacturing a dried marine stool that can be mass produced at a low cost through a simple cutting and hole forming process and to produce a dried stool that is produced thereby. Is to do.

Method for manufacturing a dried sea stool according to the present invention for solving the above-described technical problem, 1) mixing the resin; 2) extruding the base material forming the prototype of the dried taichung stool into the resin; 3) forming a water drainage hole and a locking hole in the extruded base material by pressing.

And in the present invention, the resin is mixed at a ratio of 90 to 99% by weight of polypropylene resin and 1 to 10% by weight of polyethylene resin, and the sum of the weight% of the polypropylene resin and polyethylene resin is preferably 100%. Do.

In addition, in the method of manufacturing a dry sea stool according to the present invention, it is preferable to further mix a blowing agent with the resin.

In addition, in the present invention, the stool base material has a plurality of basic members having a rhombus-shaped cross-section and spaced apart at regular intervals; A flat plate connection section having a flat plate-shaped cross section and connecting between the basic members; And it is formed extending to the outside of the outermost basic member of the basic member, it is preferable to include a flat plate outer portion having a cross-section of a flat shape.

In addition, in the present invention, the water drainage hole is formed through the flat plate connection portion, and the locking hole is preferably formed through the flat plate outer portion.

On the other hand, the present invention also provides a sea tae dry jangjang prepared by the above-mentioned method for manufacturing a dry haetae.

And in the present invention, the Haitai dry stool has a rhombus-shaped cross-section, a plurality of basic members spaced apart at regular intervals and arranged side by side; A flat plate connection section having a flat plate-shaped cross section and connecting between the basic members; A flat plate outer portion extending from the outermost base plate among the base elements and having a flat plate-shaped cross-section; A water drainage hole formed through the flat plate connection part; It is preferable to include; a locking hole formed through the outer portion of the flat plate.

According to the method for manufacturing dry sea stool of the present invention, there is an advantage of producing a large amount of stool base material by extrusion, and mass production it at a low unit price through a simple cutting and hole forming process. It is excellent and can be used for more than 2 times longer than the existing haetai dry erection, and has the advantage of easy drainage and easy separation of dried seaweed.

1 is a perspective view showing the structure of a dried sea stool according to an embodiment of the present invention.
Figure 2 is a partial cross-sectional view showing the structure of the dry sea taejangjang according to an embodiment of the present invention.
Figure 3 is a partial cross-sectional view showing the structure of a dry sea taejangjang according to another embodiment of the present invention.
Figure 4 is a process diagram of a method of manufacturing a dry sea eel jangjang according to an embodiment of the present invention.

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

The method for manufacturing a dry sea stool according to this embodiment starts with mixing the resin (S100), as shown in FIG. 4. In this step (S100), as a raw material to be used in the extrusion step (S200) described later, specifically, polypropylene (PolyPropylene) resin 90 ~ 99% by weight, polyethylene (Poly Ethylene) resin 1 ~ 10% by weight ratio Mix with to make a resin mixture. At this time, the sum of the weight percent of the polypropylene resin and the polyethylene resin is, of course, 100 weight percent.

Meanwhile, in the present embodiment, a blowing agent may be further mixed in the resin mixture. When the foaming agent is further mixed, the specific gravity of the dried and dried stool is reduced. The blowing agent is preferably mixed within 10% by weight of the total resin mixture.

Next, as illustrated in FIG. 4, a step (S200) of extruding the base material forming the prototype of the Haitai dry stool into the resin proceeds. That is, the resin mixture obtained in the previous step (S100) is produced by continuously extruding the long hair base material by extruding it as a raw material. The stool base material manufactured in this way is formed as a single stool base material having a dried stool size through a cooling process and a cutting process.

In this embodiment, the stool base material is integrally formed as a whole, but may be specifically configured to include a basic member 110, a flat plate connecting portion 120, and a flat plate outer portion 130. First, as illustrated in FIGS. 1 and 2, the basic member 110 has a rhombus shape and a long wire shape. The basic member 110 has a structure in which a plurality of rows are spaced apart at regular intervals.

Next, the flat plate connecting portion 120 is a component having a flat plate-shaped cross section and connecting between the basic members, as shown in FIGS. 1 and 2. That is, the flat plate connecting portion 120 is a flat plate shape as a whole, and is formed in a form of connecting the opposite edges between the adjacent base members 110. A water drainage hole 150 to be described later is formed through the flat plate connection part 120.

Next, as shown in FIGS. 1 and 2, the outer plate 130 is formed to extend outside the outermost basic member among the basic members 110 and is a component having a flat-shaped cross-section. The flat plate outer portion 130, like the flat plate connection portion 120, has a flat plate shape, but is preferably formed to have a wider width than the flat plate connection portion 120.

A locking hole 140, which will be described later, is formed on the outer plate 130. Therefore, it has a sufficient width to have sufficient strength.

Next, as shown in FIG. 4, a step (S300) of forming a water drainage hole 150 and a locking hole 140 in the extruded base material extruded in the previous step (S200) by press is performed. That is, the drainage hole 150 is formed in the flat plate connecting portion 120 and the locking hole 140 is formed in the flat outer portion 130 with respect to the stool base material manufactured in one sheet unit.

At this time, the water drainage hole 150 is formed by a plurality of regular intervals through the plate connecting portion 120, and the locking hole 140 is formed by a plurality of spaced apart through the outer plate 130 It is desirable to be. In the present embodiment, the water drainage hole 150 is sufficient when the water of the drainage is smoothly discharged, so it is preferable that the size is minimized, and the locking hole 140 may be used to remove the Haitai dry stool 100 during the drying process. It is preferably formed to a size sufficient to have a size that can be hung on the drying rack.

Meanwhile, as shown in FIG. 3, the Haitai dry stool according to this embodiment may have a structure in which a hollow 260 is formed in the center of the basic member 210. In this case, the hollow 260 has an advantage in that the Haitai dry jangjang is better elongated in the width direction, and the specific gravity is reduced and the raw material is also reduced.

100: Haitai dry jangjang according to an embodiment of the present invention
110: basic member 120: flat plate connection
130: flat plate outer portion 140: a locking hole
150: water falling hole

Claims (6)

1) mixing the resin;
2) extruding the base material forming the prototype of the dried taichung stool into the resin;
3) forming a drainage hole and a locking hole in the extruded base material by pressing; According to claim 1, The resin,
Polypropylene resin 90 to 99% by weight, polyethylene resin 1 to 10% by weight, but mixed in a ratio, the sum of the weight percentage of the polypropylene resin and the polyethylene resin is 100% Haitai dry erection manufacturing method. According to claim 2,
A method of manufacturing dry sea eel stool, further comprising a foaming agent mixed with the resin. The method of claim 1, wherein the jangjang base material,
A plurality of basic members having a rhombus-shaped cross-section and spaced apart at regular intervals;
A flat plate connection section having a flat plate-shaped cross section and connecting between the basic members; And
It is formed extending to the outside of the outermost basic member of the basic member, the outer plate having a flat plate-shaped cross-section; Haitai dry jangjang manufacturing method comprising a. According to claim 4,
The water drainage hole is formed through the flat plate connection portion, the locking hole is a method of manufacturing a dry sea stool characterized in that it is formed through the outer portion of the flat plate. Claim 1 to claim 5, dried haetae produced by the manufacturing method according to any one of claims.

Images