KR100715980B1 - The manufacturing method of the synthetic resin bottle having two­tone color - Google Patents

Abstract

The present invention relates to a method for producing a two-tone color synthetic resin container, wherein in the nozzle for forming a multi-layer, the molten synthetic resin flowing into the nozzle opening forming the outermost layer and the nozzle opening forming the adjacent inner layer of the outermost layer are different colors. Nozzle to form the outermost layer by alternately increasing and decreasing the screw rotational speed of the melt extruder in order to control the amount of the molten synthetic resin extruded from the melt extruder to the nozzle opening forming the outermost layer and the nozzle opening forming the inner inner layer of the outermost layer. The two-tone color synthetic resin container has a beautiful appearance in two ton colors by dividing the color of the molten synthetic resin extruded into the sphere and the color of the molten synthetic resin extruded into the nozzle hole forming the inner layer of the outermost layer. Could get

Plastic Container, Two-Tone Color

Description

The manufacturing method of the synthetic resin bottle having two tone color}

1 and 2 are schematic front and side views of an apparatus for making a container of the present invention.

3 is a schematic plan view of a screw for melt extrusion of a synthetic resin;

4 is a schematic cross-sectional view of a nozzle through which molten synthetic resin is discharged.

* Description of symbols for the main parts of the drawings.

1. Hopper 2. Melt Extruder

3. Nozzle 4. Blow Mold

5. Blowing device

The present invention relates to a method for manufacturing a two-tone color synthetic resin container, and more specifically, in a container in which a cross section of the container body is made of at least two layers of synthetic resin, the color of the outer surface of the body in a two-tone color up and down. The present invention relates to a method for producing a two-tone color synthetic resin container which is made to be expressed so that the appearance of the container is beautiful.

In general, glass containers have been mainly used as examples for containers for packing liquor such as carbonated beverages, beer or wine, seasonings, cosmetics, and detergents. However, since glass containers always have a risk of breakage, containers using synthetic resins have become mainstream in recent years.

In particular, polyesters predominantly made of polyethylene terephthalate are widely used as biaxially stretch blow molding containers in the fields of seasonings, carbonated beverages, detergents and cosmetic containers requiring transparency.

In addition, a colored container may be used to impart various functionalities to the synthetic resin container, and a synthetic resin container having a cross section of the container body having at least two layers is used in recent years. For example, a container for food and drink that requires high gas barrier properties such as oxygen and carbon dioxide is formed in a multi-layered synthetic resin of various materials.

Synthetic resin container composed of a multi-layer as described above is manufactured using a blow molding machine as shown in Figs. That is, after the synthetic resin chip is put into the hopper 1 and melt-extruded from the screw type melt extruder 2 and transferred to the nozzle 3, the synthetic resin melted from the nozzle 3 is discharged to form a parison, The blow mold 4 is moved to the bottom of the parison, and after the parison flows into the mold 4, the upper part of the parison is cut, and then the blow mold 4 is transferred to the blowing device 5 to blow molding. After being demolished, the part which is demolded and protruded beyond the neck part of the container is cut into a container.

However, the container made of a synthetic resin composed of a multi-layer manufactured by the above method is determined the color of the container according to the color of the outermost layer of synthetic resin, and is made of only one color of the outermost layer of synthetic resin, so the appearance is beautiful by a single color There was a problem of this deterioration.

Accordingly, an object of the present invention is a container in which a cross section of the container body is made of at least two layers of synthetic resin, wherein the color of the outer surface of the body is expressed in two-tone color up and down to make the appearance of the container beautiful, thereby making the appearance of the container beautiful. It is to provide a method for producing a container.

In order to achieve the above objects as well as other objects that can be easily expressed, in the present invention, the molten synthetic resin flowing into the nozzle port forming the outermost layer and the nozzle hole forming the adjacent inner layer of the outermost layer are different in the nozzle for forming the multilayer. In order to control the amount of molten synthetic resin extruded from the melt extruder to the nozzle hole forming the outermost layer and the nozzle hole forming the inner inner layer of the outermost layer in the melt extruder, the screw rotational speed of the melt extruder is alternately increased and decreased. Two-tone color synthetic resin with a beautiful appearance of the container by dualizing with the color of the molten synthetic resin extruded into the nozzle port to be formed and the color of the molten synthetic resin extruded into the nozzle port forming the inner layer of the outermost layer so that the color of the surface of the container is expressed in two-tone up and down I could get my courage.

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

1 and 2 are schematic front and side views of an apparatus for producing a container of the present invention, Figure 3 is a schematic plan view of a screw for melt extrusion of the resin, Figure 4 is a nozzle of the melted synthetic resin discharged A schematic cross section.

The method for manufacturing a two-tone color synthetic resin container according to the present invention is a method for producing a container in which a cross section of the container body is made of at least two or more layers of synthetic resins, the nozzle opening 31 forming the outermost layer and the adjacent inner layer of the outermost layer. The molten synthetic resin flowing into the nozzle holes 32 to be formed are each different in color, and the nozzle holes 32 forming the outermost layer in the melt extruder 2 and the nozzle holes 32 forming the adjacent inner layers of the outermost layer. In order to control the amount of the molten synthetic resin extruded into), the color of the molten synthetic resin extruded to the nozzle port 31 forming the outermost layer by alternately increasing and decreasing the screw rotation speed of the melt extruder 2 and the adjacent inner layer of the outermost layer It is characterized by dualizing the color of the molten synthetic resin extruded to the nozzle hole 32 to be formed so that the color of the surface of the container is expressed in two tones up and down.

Synthetic resins used in the present invention include thermoplastic polyester resins, polyolefin resins, polycarbonates, polyacrylonitrile, polyvinyl chloride, polystyrene, and the like, and thermoplastic polyester resins are most preferred.

In the present invention, when produced in a multilayer container having gas barrier properties, a resin having gas barrier ability can be used for at least one layer. Examples of the resin having gas barrier ability include MX nylon, saponified ethylene / vinyl acetate copolymer resin, polyacrylonitrile copolymer resin, and polyvinylidene chloride resin, and MX nylon is most preferred.

Thermoplastic polyester resins are typically polyesters having an acid component consisting of at least 80 mole percent, preferably at least 90 mole percent terephthalic acid, and a glycol component consisting of at least 80 mole percent, preferably at least 90 mole percent ethylene glycol. Refers to. Other acid components in the polyester include isophthalic acid, diphenyl ether-4,4-dicarboxylic acid, naphthalene-1,4- or 2,6-dicarboxylic acid, adipic acid, sebacic acid, decane- It may be at least one selected from the group consisting of 1,10-dicarboxylic acid and hexahydroterephthalic acid, and other glycol components include propylene glycol, 1,4-butanediol, neopentyl glycol, diethylene glycol, cyclo At least one selected from the group consisting of hexanedimethanol, 2,2-bis (4-hydroxyphenyl) propane and 2,2-bis (4-hydroxyethoxyphenyl) propane. Polyester resins containing hydroxycarboxylic acids such as p-hydroxybenzoic acid may be used.

MX nylon includes less than 30 mole percent, based on the total amount of alpha, omega-aliphatic dicarboxylic acids and p-xylylene diamines having 6 to 10 carbon atoms, m-xylene diamine alone or m-xylylene diamine The polymer containing 70 mol% or more of structural units obtained from the mixed xylylene diamine.

Examples of MX nylons include homopolymers such as poly-m-xylylene, poly-m-xylylene sebaamide and poly-m-xylylene suveramide; such as m-xylylene / p-xylylene adiamide copolymer, m-xylylene / p-xylylene pimelamide copolymer, m-xylylene / p-xylylene azelamide copolymer Copolymers; And aliphatic diamines such as hexamethylenediamine, alicyclic diamines such as vperazine, aromatic diamines such as p-bis- (2-aminoethyl) benzene, aromatic dicarboxylic acids such as terephthalic acid, lactams such as epsilon-caprolactam, There is a copolymer obtained by copolymerizing a copolymer of an omega-amino carboxylic acid such as omega-aminoheptanoic acid and an aromatic amino carboxylic acid such as p-amino benzoic acid or a component of a homopolymer thereof.

In addition, nylon 6, nylon 66, nylon 610 and nylon 11 may be included in the polymer.

Meanwhile, additives such as colorants, ultraviolet absorbers, antistatic agents, antioxidants, lubricants, nucleating agents and the like may be added to the synthetic resin used in the present invention in an amount that does not impair the object of the present invention.

In the two-tone color synthetic resin container according to the present invention, a synthetic resin chip is introduced into a hopper 1 and melt-extruded in a screw-type melt-extruder 2 and transferred to a nozzle 3, and then the synthetic resin melted in the nozzle 3 is After being discharged to form a parison, the blow mold 4 is moved to the lower end of the parison, and after the parison flows into the mold 4, the upper part of the parison is cut, and then the blow mold 4 is blown to the blowing apparatus. (5) and then blow-molded, using a known method that is demoulded and cut into portions protruding beyond the neck of the container to be made into a container, the nozzle sphere 31 and the outermost layer forming the outermost layer. The nozzles for forming the innermost layer of the outermost layer and the nozzle opening 31 for forming the outermost layer in the melt extruder 2 using the different colors of molten synthetic resin flowing into the nozzle holes 32 for forming the inner inner layer. Molten synthetic resin extruded into a sphere (32) In order to control the amount of the nozzle nozzle 32 to form the color of the molten synthetic resin extruded to the nozzle hole 31 to form the outermost layer by alternately increasing and decreasing the screw rotational speed of the melt extruder (2) 32 It is dualized with the color of the melted synthetic resin which is extruded into) so that the color of the surface of the container is expressed in two tones up and down.

The manufacturing method of the container according to the present invention will be described with reference to the nozzle shown in FIG. 4 as an example.

The nozzle shown in FIG. 4 is a longitudinal cross-sectional view of a nozzle for producing a container having a six-layered cross section of the container body, and six nozzle holes 31, 32, 33, 34, and 35 are connected to the melt extruder 2. It is composed of a form that is connected to one from the middle portion and the thickness is narrowed from the top to the bottom to be able to manufacture a multi-layer container consisting of up to six different synthetic resin material cross section of the container body.

In the present invention, a synthetic resin which is a raw material of the molten synthetic resin flowing into the nozzle port 31 forming at least the outermost layer and the nozzle hole 32 forming the adjacent inner layer of the outermost layer uses at least a different color.

That is, the objective of the present invention is achieved by using different colors of synthetic resins to be introduced into the hopper 1a and the hopper 1b.

The amount of synthetic resin melt-extruded from the melt extruder 2 is determined by the rotational speed of the motor 21 driving the screw (not shown) which is melt extruded from the melt extruder 2. In the apparatus for manufacturing a container having a conventional multilayer structure, the rotational speed of the drive motor 21 is set in advance and rotates constantly, so that even in the multilayer container produced, each layer thickness is kept substantially constant.

However, in the present invention, the outside of the container body by varying the rotational speed of the motor 21 of the melt extruder 2 connected to the nozzle port 31 forming the outermost layer and the nozzle hole 32 forming the inner layer adjacent to the outermost layer. Allows the color of the surface to be expressed in two-tone colors up and down. That is, in driving the melt extruder 2 so that the parison is formed continuously, at the beginning of the period in which the parison is formed once, the motor rotation speed of the melt extruder connected to the nozzle port 31 forming the outermost layer is increased and The amount of molten synthetic resin extruded from the nozzle port 31 forming the outermost layer by reducing the rotational speed of the motor 21 of the melt extruder 2 connected to the nozzle port 32 forming the inner layer of the outer layer is the outermost layer. The amount of the melted synthetic resin extruded from the nozzle hole 31 forming the outermost layer is expressed to be significantly greater than the amount of the melted synthetic resin extruded from the nozzle hole 32 forming the adjacent inner layer. After the formation, the melt extrusion is reduced by the motor rotational speed of the melt extruder connected to the nozzle port 31 forming the outermost layer and connected to the nozzle port 32 forming the adjacent inner layer of the outermost layer. The amount of the molten synthetic resin extruded from the nozzle port 31 forming the outermost layer by increasing the rotational speed of the motor 21 of (2) is that of the molten synthetic resin extruded from the nozzle port 32 forming the adjacent inner layer of the outermost layer. The color of the melted synthetic resin extruded from the nozzle hole 32 forming the innermost layer of the outermost layer is made to be markedly smaller than the amount.

At this time, the increase or decrease of the motor rotational speed can be adjusted through repeated experiments according to the chromaticity of the synthetic resin used, and the rotational speed of the motor can be increased or decreased in the opposite way to the above-mentioned method, and the color of the surface of the container is clearly up and down. A line may not be formed to be expressed as a two-tone, but may be changed rapidly or gradually changed from the color of the lower part to the color of the upper part.

As described above, in the present invention, in the method of manufacturing a container in which the cross section of the container body is made of at least two or more layers of synthetic resin, the nozzle port 31 forming the outermost layer and the nozzle hole 32 forming the adjacent inner layer of the outermost layer are provided. Melt molten resin is introduced into the melt melt resin extruded into the nozzle port 31 to form the outermost layer and the nozzle hole 32 to form the inner layer of the outermost layer in the melt extruder (2) In order to control the amount of the nozzle nozzle 32 to form the color of the molten synthetic resin extruded to the nozzle hole 31 to form the outermost layer by alternately increasing and decreasing the screw rotational speed of the melt extruder (2) 32 It was dualized with the color of the melted synthetic resin that is extruded into) so that the color of the surface of the container was expressed in two tones up and down, thereby obtaining a container having a beautiful appearance.

Claims (4)

After the synthetic resin chip is put into the hopper 1 and melt-extruded from the screw type melt extruder 2 and transferred to the nozzle 3, the melted synthetic resin is discharged from the nozzle 3 to form a parison, and then the blow mold (4) is moved to the lower end of the parison, and after the parison flows into the mold 4, the upper part of the parison is cut, and then the blow mold 4 is transferred to the blowing device 5 for blow molding. In the manufacturing method of the container which is demolded and the part which protruded more than the neck part of a container, and the cross section of a container body is manufactured by the synthetic resin of 2 or more layers, The molten synthetic resin flowing into the nozzle port 31 forming the outermost layer of the container and the nozzle hole 32 forming the inner layer adjacent to the outermost layer are used in different colors, and the outermost layer is formed in the melt extruder 2. In order to control the amount of molten synthetic resin extruded into the nozzle port 31 to form and the nozzle port 32 forming the inner layer of the outermost layer, the screw rotational speed of the melt extruder 2 is alternately increased and decreased to form the outermost layer. The color of the molten synthetic resin extruded to the nozzle sphere 31 and the color of the molten synthetic resin extruded to the nozzle sphere 32 forming the innermost layer of the outermost layer so that the cross section of the container is dualized into at least two different colors. A method for producing a two-tone color synthetic resin container. The method of claim 1, wherein the synthetic resin is a thermoplastic polyester resin, polyolefin resin, polycarbonate, polyacrylonitrile, polyvinyl chloride or polystyrene. The method according to claim 1 or 2, wherein at least one or more layers of MX nylon, saponified ethylene / vinyl acetate copolymer resin, polyacrylonitrile copolymer resin, and polyvinyl are used to prepare a multilayer container having gas barrier properties. A method for producing a two-tone color synthetic resin container, characterized in that a resin having a gas barrier ability such as lidene chloride resin is used. delete

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