KR101116169B1 - Apparatus for blow-molded container alternative to glass container and process for the same - Google Patents

Abstract

PURPOSE: A blow molding machine of synthetic resin containers substituted from glass containers and a blowing molding method thereof are provided to secure molding quality of by manufacturing noncircular or square containers. CONSTITUTION: A blow molding machine of synthetic resin containers substituted from glass containers comprises an injection mold, blowing molding/metal patterns(20), and middle blowing molding/metal patterns(30). An ascending member(23) of blowing molding/metal patterns presses a bottom side of a pre-form in order to form a thickened portion on the bottom of the container. The middle blowing molding/metal patterns transfigures the outer shape of pre-form and forms a secondary pre-form(10p).

Description

Blow molding apparatus of synthetic resin container for glass container replacement and blow molding method using same {APPARATUS FOR BLOW-MOLDED CONTAINER ALTERNATIVE TO GLASS CONTAINER AND PROCESS FOR THE SAME}

The present invention relates to a blow molding apparatus for a synthetic resin container for replacing a glass container and a blow molding method using the same,

More specifically, the bottom surface of the preform during blowing in blow molding using a preform longer than the finished container for blow molding a glass container, in particular, a plastic container, which is similar to the weight, stability, and photorefraction of glass perfume bottles or cosmetic containers. A blow molding apparatus and a method of molding the same, wherein a rising member is introduced into a mold to press the press to form a thickening portion of the bottom of the container.

With regard to the blow molding apparatus and the blow molding method which are actively used for the production of beverage bottles,

Prior arts include Patent Publication No. 10-2007-0119060 (published December 18, 2007) [Multi-layer blow molding container and its manufacturing method],

The disclosed patent has a layer structure in which the polyglycolic acid layer is a deep layer and a thermoplastic polyester resin layer is disposed on the inner and outer layers, wherein the temperature of the polyglycolic acid forming the polyglycolic acid layer is 270 ° C. and the shear rate is 122 sec ^−1. Melt viscosity x measured in the above formula was 300 to 900 Pa · s, and the melt viscosity y measured at the temperature of 290 ° C. and the shear rate 122 sec ⁻¹ of the thermoplastic polyester resin forming the thermoplastic polyester resin layer was 250 to 600 Pa. s, and the melt viscosity ratio x / y of both is 0.85 to 1.80, and the multilayer blow molding container and its manufacturing method are related.

In addition, there is a Patent Publication No. 10-2010-0015434 (published February 12, 2010) [biaxial stretch blow molding container and its manufacturing method],

The above-mentioned patent discloses a biaxially stretched blow molded container having a layer made of trimethylene naphthalate polyester resin, wherein at least the container body portion of the trimethylene naphthalate polyester resin layer is (i) Tc1 in DSC measurement. When the calorific value is 10 J / g or less, and (ii) the dynamic viscoelasticity measured value, the trimethylene naphthalate polyester resin is obtained by satisfying any one or both of tanδ maximum temperature ≥90 ° C and tanδ maximum value ≤0.4. It is to provide a biaxially stretched blow molded container capable of effectively expressing excellent gas barrier properties.

On the other hand, there is a Patent Publication No. 10-2010-0029218 (published March 16, 2010) [blow molded monolithic container having a tight fitment]

The patent relates to a blow molded monolithic fluoropolymer vessel, comprising a thin walled flexible bag portion and at least one hard and thick walled fitment, wherein the bag and at least one rigid fit are integrally integrated and finished Techniques for forming from a continuous source of fluoropolymer material during the same blow molding process to form a monolithic container are presented.

However, all of these prior arts are irrelevant to blow molding of synthetic resin containers similar to the weight, stability, and photorefractive shape of lyso-based perfume bottles or cosmetic containers.

Accordingly, the present invention is a blow molding of a glass container, in particular, a plastic container, which is similar to that of a glass or perfume bottle or a cosmetic container, by using a longer preform than the finished container to blow molding a plastic container similar to a photorefractive form. It is an object of the present invention to provide a blow molding apparatus and a molding method in which a lifting member is introduced into a mold to press the press to form a thickening portion of the bottom of the container.

In addition, the present invention is a blow molding apparatus of a glass container replacement synthetic resin container having an intermediate blow molding mold and an intermediate blowing molding step, respectively, when the shape of the final container is a non-circular shape, in particular a rectangular shape, to deform the outer shape of the preform to form a secondary preform. And it aims to provide a blow molding method using the same.

Blow molding apparatus of the glass container substitute synthetic resin container according to the present invention to achieve the above object

Injection molding molds for preforms longer than finished containers; And

A blow molding mold including a lifting member which presses the bottom of the preform to blow to form a thickening part when blowing;

It is made, including.

Blow molding apparatus of a synthetic resin container for replacing the glass container according to the present invention

It further comprises an intermediate blow molding mold for modifying the appearance of the preform to form a secondary preform,

The intermediate blowing molding mold is processed into a non-circular secondary preform in accordance with the shape of the completed non-circular container,

It is preferred that the blowing member lifting member has a cavity inlet end portion at which the thickening portion of the container is formed outside the bottom surface, and the center portion forms a recess.

On the other hand, the blow molding method of the glass container substitute synthetic resin container according to the present invention

Injection molding for a preform longer than the finished container; And

And a blow molding step of pressurizing the bottom of the preform to form a thickened portion while pressurizing the air into the preform.

In addition, the blow molding method of the glass container replacement synthetic resin container according to the present invention is preferably subjected to an intermediate blow molding step of forming the secondary preform by deforming the outer shape of the preform before the blowing molding step.

Blow molding apparatus and blow molding method of the glass container substitute synthetic resin container according to the present invention in the blow molding by using a preform longer than the completed container to press the bottom of the preform during blowing so that the bottom of the container to form thickening (肥厚) parts The lifting member is introduced into the mold to enable the blow molding of the plastic container, which is similar to the weight, stability, and photorefraction of the glass container, in particular, the perfume bottle or cosmetic container of glass, and the secondary preform by modifying the shape of the preform. The intermediate blowing molding mold and the intermediate blowing molding step to be formed may be further introduced to ensure the molding quality without a defect problem even when the shape of the final container is non-circular, in particular, a square.

1 and 3 are views for the preform and the finished container for the glass container replacement synthetic resin container according to the present invention, respectively.
2 and 4 are cross-sectional views of the blow molding mold for producing the container of FIGS. 1 and 3, respectively.
4 is a cross-sectional view of the combination of the roller of the different form from FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

The present invention may be modified in various ways and may have various forms, and thus embodiments (or embodiments) will be described in detail in the text. However, this is not intended to limit the present invention to the specific form disclosed, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

In each of the drawings, the same reference numerals, in particular, the tens and ones digits, or the same digits, tens, ones, and alphabets refer to members having the same or similar functions, and unless otherwise specified, each member in the figures The member referred to by the reference numeral may be regarded as a member conforming to these criteria.

In addition, in the drawings, the components are exaggerated in size (or thickness), in size (or thickness), in size (or thickness), or in a simplified form or simplified in view of convenience of understanding. It should not be.

The terminology used herein is for the purpose of describing particular embodiments (suns, aspects, and embodiments) (or embodiments) only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms “comprises” or “consists” are intended to indicate that there is a feature, number, step, action, component, part, or combination thereof described on the specification, but one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art. Terms such as those defined in the commonly used dictionaries should be construed as having meanings consistent with the meanings in the context of the related art and shall not be construed in ideal or excessively formal meanings unless expressly defined in this application. Do not.

When describing a blow molding apparatus for a glass container replacement synthetic resin container and a blow molding method using the same according to the present invention, a non-strict approximate direction reference is specified with reference to FIGS. 1 and 2 for convenience.

The spout 13 side of the container 10 and the air indentation 21 side of the blow molding mold 20 are set to the upper side, and the opposite side is set to the lower side or the bottom side, and the description related to other drawings is directed according to this standard. Specifies.

First, as shown in Figures 1 and 3, there is shown a blow molding apparatus of the synthetic resin container for replacing the glass container according to the present invention and the preform and the finished container used in the blow molding method using the same.

Fig. 1 ([A] is a perspective view, [B] is a longitudinal cross-sectional view) shows a container 10 having a circular cross section (particularly the body 11), in particular a bottle-shaped container 10, mainly a glass material. It is not intended to replace cosmetic containers or perfume bottles, or for other uses (such as drug bottles).

The preform 10P for the blow molding is usually molded by injection, and a one-stage process in which a blow molding is performed immediately after the molding may be mainly used. However, if necessary, the preform 10P undergoes a separate heating step after cooling after preform molding. It is also possible to use a two-stage process where the next blow molding takes place.

The finished container 10 has a spout 13 on the top of the body 11, the spiral portion (13a) for screwing the lid (not shown) is provided on the outer peripheral surface of the spout, the shoulder portion (13b) It is provided at the bottom

The snout and helix (up to the shoulder, if necessary) remain the same in the preform and in the finished container.

The preform 10P has a body 11P, a spout 13P, and a spiral portion 13P 'corresponding to the container.

The core of the present invention is a preform (10P) longer than the completed container, that is, the bottom portion 15 of the completed container 10, that is, the lower portion of the lower portion 15P to be raised and reduced It is in the point of having.

Due to the rising and contracting bottom surface portion 15P of the lower portion of the preform 10P, the container has a bottom portion 15 structure having a thickening portion 15A. In addition, as can be more reliably identified in the cross-sectional view of FIG. 1B, the thickening portion 15A of the container 10 is formed outside the bottom 15 to ensure the upright of the completed container 10. It is preferable that the center portion is raised to have a recess 15B (so that the bottom portion of the space in the inner surface of the container forms the rise portion 15b).

As in the conventional blow molding process, the spiral portion 13P 'of the preform 10P is the same as the spiral portion 13a of the completed container 10 without deformation.

Next, in FIG. 3 ([A] is a plan view, [B] is a perspective view, [C] is a longitudinal cross-sectional view), unlike FIG. 1, the cross section of the completed container 10 is rectangular, especially rectangular (particularly, the body 11 is shown). A container 10 is shown.

As such, when the body 11 cross-section of the container 10 is a non-circular shape represented by a rectangle, in particular, a rectangular shape, the shape of the non-circular container completed through the intermediate blow molding mold and the intermediate blow molding step is improved to improve the blowing quality. It is preferable to process the secondary preform into a non-circular shape (square in the drawing).

In the secondary preform 10p, only the body 11p was deformed as compared to the preform 10P, and the lengths of the spouts 13p and the lower portion 15p of the scheduled to be up and down are kept the same. However, in order to improve the quality of the finished container, the section length of the raised and reduced scheduled bottom portion 15p may be blown while being shorter or longer than the bottom portion 15P of the preform 10P.

In this case, it is preferable that the second preform 10p and the finished container 10 also proceed in one stage at a time without cooling after the preform injection molding 10P.

If necessary, cool down after preform molding or cool down to secondary preform.

The blow molding of the secondary preform or the blow molding of the finished container may be performed by a two-stage (or three-stage) method of separately undergoing a heating process.

As can be seen in Figure 3 [C], the bottom portion 15 of the completed container 10 has a thickening portion, specifically, the rear portion 15A of the container 10 is a bottom portion 15 to ensure the upright. ) Is formed in the outer periphery, the central portion is raised to form the recess 15B and the riser 15b.

Next, the blow molding apparatus of the glass container replacement synthetic resin container is demonstrated.

Although injection molding molds for the preforms are not shown, conventionally known molds are used. It should have a cavity structure for molding preforms longer than the finished container.

Blow molding mold 20 for the container 10 of FIG. 1 has an air indentation 21 at the top, in many cases this air indentation is arranged in the lower portion based on the direction of gravity, in the present invention for convenience of description It is shown that the air inlet 21 is provided at the top. As the air press-fitting part 21, a stretching rod is generally inserted into the preform inner space together with the inflow of air, thereby pressurizing the bottom of the preform to assist in stretching the preform.

The core of the blow molding apparatus of the synthetic resin container for reclaim container replacement according to the present invention is that the blow molding mold 20 has a lifting member 23 for the bottom thickening portion of the container 10.

Lifting of the lifting member 23 can be made by pneumatic, hydraulic, electric motor, or the like, and may use cooling water that circulates through the internal cooling path of the mold, if necessary.

The lifting member 23 has a cavity inlet end 25 at its central end to form an outer thickening portion 15A and a recess 15B of the bottom portion 15 of the container. The cavity of the blow molding mold 20 has a first cavity C1 suitable for the shape of the finished container, and is to be raised and reduced in the first cavity region of the preform 10P (or the secondary preform 10p). Except for the bottom portion 15P (or 15p), the second cavity C2 region for the preform 10P (or the secondary preform 10p) is contained.

Next, FIG. 4A illustrates an intermediate blowing mold 30 for blowing molding the secondary preform 10p of FIG. 3. Also having an upper portion of the pneumatic indentation 31, when the length of the preform (10P) and the secondary preform (10p) is the same, it is preferable that the stretching rod is not used.

After forming the secondary preform 10p by blow-molding the preform 10P according to the shape of the completed container 10, in particular, the cross-sectional shape, more specifically, the cross-sectional shape of the body 11,

The blow molding step is performed according to FIG. 2 using the bone blowing mold 20 of FIG. 4B.

In FIG. 4B, the cavity of the blow molding mold 20 also has a first cavity C1 that matches the shape of the completed container, and the secondary preform 10p is raised and reduced in this first cavity region. Except for the predetermined bottom portion 15p, the second cavity C2 region for the secondary preform 10p is contained.

The blow molding method of the synthetic resin container for glass container replacement using the blow molding mold 20 according to FIG. 2 or 4 is carried out by injection molding for a preform longer than the finished container, and then air is introduced into the preform. While press-fitting, the pressure is applied to the bottom surface of the preform so that the bottom surface of the container forms a thickening portion.

In addition, through the intermediate blow molding step of forming the secondary preform by modifying the outer shape of the preform before the blowing molding step, it is possible to improve the quality of the blow molding container having a non-circular cross section.

In the above description, the well-known techniques related to injection molding and blow molding, resin material, blowing pressure, operating speed and power source of the lifting member, etc. are omitted, but those skilled in the art can easily infer, infer, and reproduce them.

In addition, in the above description of the present invention with reference to the accompanying drawings, a preform, a container having a specific shape and structure, and a blow molding mold were described mainly, but various modifications, changes, and substitutions are possible by those skilled in the art. , Changes and substitutions should be construed as falling within the protection scope of the present invention.

10: container 11: body
13: spout 15: bottom
15A: posterior 15B: recessed
10P: Preform 10p: Secondary Preform
20: blow molding mold 23: rising member
30: Medium Blow Molding

Claims (6)

Injection molding molds for preforms longer than finished containers; And
Blowing molding mold including a rising member for pressing the bottom of the preform when blowing the bottom surface of the container to form a thickening (肥 厚);
Blow molding apparatus for a glass container replacement synthetic resin container, characterized in that it further comprises an intermediate blow molding mold to deform the preform to form a secondary preform. delete delete The method of claim 1,
The blowing member of the blow molding die is blow molding apparatus for glass container replacement synthetic resin container, characterized in that the rear portion of the container is formed on the outer periphery of the bottom, the central portion has a cavity intrusion end to form a recess. Injection molding for a preform longer than the finished container; And
While blowing the air into the preform, the blow molding step of pressurizing the bottom of the preform to form a thickening portion (肥 부를);
Blow molding method of the glass container replacement synthetic resin container, characterized in that further passing through the intermediate blow molding step of forming the secondary preform by deforming the outer shape of the preform before the blowing molding step. delete

Images