JPH10315308A - Liquid receiving vessel and manufacture thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To permit sure pouring of liquid by eliminating spattering of the liquid from the pouring port of a vessel by a simple structure. SOLUTION: A vessel is constituted of a hollow injection molding made of thermoplastic synthetic resin, and is provided with a main body part 14 for receiving liquid while a tubular pouring port 16, molded integrally with the main body part 14 and a lid member is attached thereto so that the liquid will not be overflowed, is provided. A projected string 18, formed on the internal peripheral surface of the pouring port 16 near a boundary between the main body part 14 orthogonally to the projecting direction of the pouring port 16 substantially so as to surround the pouring port 16, is provided. The main body part 14 is formed so as to have a width larger than that of the pouring port 16 and a shoulder part 12 is formed near the pouring port 16 of the main body part 14 while the projected string 18 is formed continuously from the internal surface of the shoulder part 12 so as to be flush with the inner surface of the shoulder part 12.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a synthetic resin liquid container having a cylindrical spout to which a cap and a nozzle are attached, and a method of manufacturing the same.

[0002]

2. Description of the Related Art Conventionally, a liquid container 1 as an injection-stretched hollow molded product made of synthetic resin has a cylindrical main body 2 having a shoulder 4 as shown in FIG. And a spout 3 formed with a male screw to which a cap and a nozzle (not shown) are attached.

In the method of manufacturing the liquid container 1, first, a thermoplastic synthetic resin as a material is heated and softened and injected into a mold having a predetermined shape. At this time, the mold includes an outer mold that forms the outer surface of the spout 3, an inner mold that forms the inner surface of the spout 3 and the inner surface of the main body 2, and the outer mold of the main body 2. The lower mold to be provided is provided adjacently. Then, after the synthetic resin of the spout 3 in the mold is cooled and solidified to an appropriate temperature, the inner mold and the lower mold are removed, and then the outer surface of the main body is reformed to have a large area. The mold is mounted adjacent to the outer mold. Then, high-pressure air is sent into the liquid container 1 from the spout 3. Thereby, the main body 2 where the plasticity remains at a predetermined temperature is expanded by air pressure and stretched along the inside of the main body mold.
Molded. Then, it is further cooled and solidified, and the outer mold and the main body mold are removed.

[0004]

In the case of the above-mentioned prior art, when a medicinal solution or lotion, which is a product, is put into the liquid container 1, the operation is automatically performed by a machine. It is injected at high speed and injected. As a result, the liquid hitting the inner bottom portion of the main body portion 2 rebounds and sometimes jumps out of the spout 3 through the shoulder portion 4 along the inner surface. For this reason, there is also a problem that the splashed liquid contaminates the environment of the work site and the outer surface of the main body 2.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems of the prior art, and has a simple structure that eliminates liquid splash from a spout and ensures that liquid is injected and a method of manufacturing the same. The purpose is to provide.

[0006]

SUMMARY OF THE INVENTION The present invention is an injection-molded hollow molded article made of a thermoplastic synthetic resin and has a main body for containing a liquid, and is formed integrally with the main body to prevent the liquid from spilling. It is a liquid container provided with a cylindrical spout to which a member is attached. On the inner peripheral surface of the spout, a ridge is formed in the vicinity of the boundary with the main body so as to make a round in a direction substantially perpendicular to the projecting direction of the spout. The main body is formed to have a width larger than the spout, a shoulder is formed near the spout of the main body, and the ridge is continuously flush from the inner surface of the shoulder. Is formed.

The method for manufacturing a liquid container according to the present invention comprises a mold having a mold for a liquid container in which a main body for accommodating liquid and a cylindrical spout are integrally formed. In the mold forming the inner surface, a recess is formed near the boundary between the spout and the main body so as to make a round in a direction substantially perpendicular to the direction in which the spout protrudes. Then, a thermoplastic synthetic resin such as PET, which is a material of the liquid storage container, is heated and softened, and the softened synthetic resin is injected into the molding die. After solidifying the spout of the synthetic resin, the inner mold and the like are removed. At this time, the ridge formed by the concave portion is fitted into the concave portion without a gap, but since this synthetic resin has an appropriate elasticity, it can be easily elastically deformed and removed from the mold. Separately, after that, the mold of the main body portion is positioned at a portion forming the above-mentioned end portion of the synthetic resin which is injection-molded, and pressurized air is fed into the synthetic resin which has been formed and blow-molded to form the main body portion. Form.

In the liquid container and the method of manufacturing the same according to the present invention, the liquid ejected at a high speed hits the bottom of the liquid container when the liquid, which is a commercial product, is injected, and rebounds through the inner surface. The liquid rebounds along the lower end surface of the ridge provided on the inner peripheral surface of the spout, hits the inner wall in the liquid container, and does not jump out.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to the drawings. FIG. 1 shows an embodiment of the present invention.
Is formed of a thermoplastic resin such as PET, PP, PS, PC, PMMA, AS, nylon resin, etc.
A main body 14 having a cylindrical shape and a spout 16 formed integrally with an upper part of the main body 14 and having a male screw to which a cap and a nozzle (not shown) are attached are provided. On the inner side of the liquid container 10, a ridge 18 projecting inward is formed at substantially the same position as the shoulder portion 12 so as to make a round. The ridge 18 is located on an extension of the curve of the inner surface of the shoulder 12. Since the protruding length of the ridge 18 is short, the opening surrounded by the ridge 18 is formed to a size that does not hinder the inflow and outflow of the liquid.

The liquid container 10 is manufactured by an injection molding machine 20 shown in FIG. The injection molding machine 20 is provided with a hopper 22 for containing a thermoplastic synthetic resin material.
The lower end of 2 communicates with the heating cylinder 24. A screw 26 is provided at the longitudinal center of the heating cylinder 24. A nozzle 28 is provided at the end of the heating cylinder 24, and dies which are fastened to each other at high pressure via the nozzle 28 are provided. The mold is a liquid container 1
0, an outer mold 30 for molding the outer surface of the spout 16, an inner mold 32 for molding the inner surface of the spout 16 and the inner surface of the main body 12, and a lower mold for molding the outer surface of the main body 14. Mold 3
4 are provided adjacent to each other. The middle mold 32 has a cylindrical shape, and has a concave portion 33 which is located below the spout 16 and extends around the side peripheral surface.

Next, a method of manufacturing the liquid container 10 will be described. First, a thermoplastic synthetic resin 40, which is a material of the liquid container 10, is put into the hopper 22, heated in the heating cylinder 24, and pressed and extruded by the screw 26 so that the synthetic resin 40 is melted and extruded from the nozzle 28. It is. The synthetic resin 40 is injected into the inside of a molding die of the liquid container 10 formed by the outer mold 30, the middle mold 32, and the lower mold 34, and the synthetic resin 40 in the spout 16 is provided.
Is left to cool down to a temperature that leaves an appropriate elasticity, and the synthetic resin 40 is solidified.

Thereafter, the middle mold 32 and the lower mold 34 are removed from the injected synthetic resin 40. At this time, the middle mold 32
The ridge 18 formed by the concave portion 33 is fitted into the concave portion 33 without any gap, but since the synthetic resin 40 still has elasticity, it is easily elastically deformed and the middle mold 32 is pulled out. Can be taken. At this time, the synthetic resin 40 is molded into the spout 16 having a predetermined shape shown in FIG.
Reference numeral 4 denotes a cylindrical shape smaller than the shape shown in FIG.

Next, as shown in FIG. 3, a main body mold 36 for forming the main body 14 having the shoulder portion 12 into a large size is attached below the outer mold 30. Then, a push member 38 having a rounded lower end is inserted downward from the spout 16, and the bottom of the main body 14 is pushed down to release the main body mold 3.
6 against the bottom. At this time, since the synthetic resin 40 is still hot and has plasticity, it is easily deformed.
Further, high-pressure air is sent from the spout 16 into the main body portion 14, and the synthetic resin 40 is pushed and spread laterally by the air pressure and stretched along the inside of the main body portion mold 36, and the shoulder portion 12 is expanded.
Is formed into a thick cylindrical main body 14 having the following shape. Then, the synthetic resin 40 is allowed to cool and solidify, and the outer mold 30 and the main body mold 36 are removed.

According to the liquid container 10 and the method of manufacturing the same according to the present invention, when a product such as a medicine or lotion is put into the liquid container 10, pressure is applied to the liquid to inject it at a high speed. However, even if the liquid repelled at the bottom of the liquid storage container 10 vigorously reaches the lower end surface of the ridge 18 along the inner wall of the main body 14, the liquid is formed by the ridge 16 projecting to the side of the inner wall. The liquid falls on the facing inner wall of the liquid container 10. For this reason, the liquid does not jump out of the liquid container 10, the loss of the liquid is reduced, and the environment of the main body 14 and the work site is kept clean without the liquid spilled out. Also, since the ridge 18 is located on an extension of a curved surface that is continuous with the inner surface of the shoulder 12, the liquid that has jumped up along the curve of the shoulder 12 surely hits the ridge 18 and the liquid jumps out. Can be effectively prevented. The liquid container 10 has a simple structure, does not increase the number of manufacturing steps, and does not increase the cost.

The liquid container of the present invention is not limited to the above embodiment, but is applicable to liquid containers of various shapes which are injection-stretched hollow molded articles. Can also be changed as appropriate.

[0016]

According to the liquid container and the method of manufacturing the same of the present invention, when the liquid is injected into the liquid container at a high speed and injected, the rebounded liquid jumps out at the bottom of the liquid container. Can be prevented and the surroundings can be kept clean.

[Brief description of the drawings]

FIG. 1 is a partially broken front view of a liquid container according to an embodiment of the present invention.

FIG. 2 is a longitudinal sectional view illustrating a first stage of a manufacturing process of the liquid container according to the embodiment.

FIG. 3 is a longitudinal sectional view showing a second stage of the manufacturing process of the liquid container according to the embodiment.

FIG. 4 is a vertical sectional view showing a third stage of the manufacturing process of the liquid container of this embodiment.

FIG. 5 is a partially broken front view of a conventional liquid storage container.

[Description of Signs] 10 Liquid container 12 Shoulder portion 14 Main body portion 16 Spout port 18 Ridge 20 Injection molding machine 24 Heating cylinder 30 Outer mold 32 Inner mold 34 Lower mold 36 Main body mold

Claims (3)

[Claims] 1. A liquid container, which is an injection-molded hollow molded article made of a thermoplastic synthetic resin and has a main body for storing a liquid, and a cylindrical spout integrally formed with the main body and to which a lid member is attached. In the container, on the inner peripheral surface of the spout, near the boundary with the main body portion, there is provided a ridge formed so as to make a round in a direction substantially perpendicular to a projecting direction of the spout. Characteristic liquid storage container. 2. The main body is formed to be thicker than the spout, and a shoulder is formed in the vicinity of the spout of the main body, and the ridge is flush with the inner surface of the shoulder. The liquid container according to claim 1, wherein the liquid container is formed. 3. An inner mold for forming an inner surface of the liquid container, comprising a plurality of molds having a mold for a liquid container which integrally forms a main body for accommodating the liquid and a cylindrical spout. In the molding die, a recess is formed around the boundary between the spout and the main body in a direction substantially perpendicular to the projecting direction of the spout, and the thermoplastic synthetic resin is softened by heating. Inject the synthetic resin into the molds of the inner and outer molds, remove the mold after solidifying the spout portion of the synthetic resin, and at this time, inside the inner mold formed by the concave portion The projected ridge is elastically deformed and separated from the mold, and thereafter, the mold of the main body portion is positioned at a portion forming the main end portion of the injection-molded synthetic resin. Pressurized air is blown into the synthetic resin that has been molded and blow molded. Forming a liquid container.