JP2005088904A - Synthetic resin joint container and manufacturing method for the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a joint container that is composed of a plurality of synthetic resin containers, which have respective openings and are joined together firmly by welding the whole of flattened surfaces of trunks next to each other. <P>SOLUTION: The joined container is manufacture through an injection blow process. According to the process, a plurality of premoldings of test tube shape, which are made by injection molding, are arranged to be next to each other, and are put in a blow-molding die, then are blown out with a gas. At this time, tabular shutters are interposed between respective trunks of premoldings next to each other, and are removed out of the injection molding die just before welding the trunks together, then the works are blow-molded. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a coupling container made of synthetic resin. In particular, the present invention relates to a connecting container in which a plurality of synthetic resin containers each having an opening are welded to each other over the entire surface with adjacent body portions being planar, and are firmly integrated by welding. And a method for manufacturing the same.

  Synthetic resin connection containers are known. In the simplest case, synthetic resin containers each having an opening and having an inflated body are molded separately one by one, and a plurality of these are arranged and bonded to each other with an adhesive or shrink. It is a connected container that is bundled and integrated with a film. However, in order to form a connected container in this way, it is necessary to form the surface of the body part to be bonded or brought into contact with a precise plane, and a special technique is required for forming each container. This is not practical because there is an inconvenience that the film must be adhered later or the film must be contacted. On top of that, the adhesive sometimes oozes to the outer surface and impairs the appearance, so that it is difficult to always make a good connection container.

  Utility Model Registration No. 2568993 discloses that a synthetic resin-made connecting container is manufactured by injection blow. That is, this publication describes that a preformed body is first made by injection molding, and then the preformed body is transferred to a blow mold, gas is blown into the preformed body, and the container body is inflated to make a synthetic resin connection container. doing. However, this publication does not lead to adhesion only by bringing the body side surface of a container made by blow molding into close contact or contact. Therefore, in this publication, when making a preform by injection molding, a connecting piece is made between two preforms, and the two forming bodies are connected by the connecting piece.

  The above-mentioned utility model registration No. 2568993 does not lead to the bonding of the swollen barrels of each container to each other as described above. The reason for this is that if the body parts are to be bonded to each other, the bonding surface does not become a flat surface but becomes a curved surface whose shape is not fixed, and the shape of the container collapses. That is, if the body parts of the container are directly bonded to each other, the body parts must be maintained in a molten state at a high temperature and inflated at the same time, but there is nothing to support the welding surfaces in this way. For this reason, the welded surface does not become a flat surface, but is curved in various shapes depending on the time and place, and the shape of each container is destroyed. In the above utility model registration gazette, a partition member is inserted between the preforms to perform blow molding, but this partition member is interposed until the end of the blow molding to form partial irregularities in the body. It is only for doing.

As the above publication teaches, if each container is connected by a connecting piece, the connecting piece is provided in the middle of the cylinder forming the opening, so that the connecting piece is obstructed when trying to cover the opening. Thus, the lid cannot be covered to a sufficient depth. In order to cover the lid to a sufficient depth, the length of the tube from the opening to the connecting piece must be increased. However, when the length of such a cylinder is increased, the cylinder part occupies a larger volume than the essential trunk part, and the utilization effect of the raw material resin is lowered and the shape of the container is deteriorated. Not only that, but only by maintaining the connected state by the connecting piece, there arises a problem that the whole connecting container is weakly coupled and easily separated.
Utility Model Registration No. 2568993

  This invention solves the above-mentioned problem, and aims to provide a connection container that is integrally united by welding the barrels in which a plurality of adjacent containers are swollen together. At that time, the connection container is intended to provide a connection container in which the welded body portion is planar over the entire surface, and each container is not deformed.

  In the method of manufacturing a connection container by injection blow taught by Utility Model Registration No. 2568993, this inventor welds each other when a preform formed by injection molding expands a body part in a blow mold. A shutter is interposed between the barrels until just before to avoid damaging deformation of the barrels, and just before the barrels are welded together, the shutter is moved out of the blow mold to complete the blow molding. As a result, it has been found that the body portion becomes a flat surface and welds to each other, and a connection container in which the welding body portion is not broken is obtained. The present invention has been completed based on such knowledge.

  The present invention includes a synthetic resin connecting container and a method for manufacturing the same. Among them, the invention relating to the connection container is that a plurality of thermoplastic synthetic resin containers in which a cylindrical opening and a swelled bottomed body continuous to the cylindrical opening are integrally formed have the openings directed in the same direction. The body portions facing each other in the adjacent and adjacent containers are welded together to form a single plane over the entire surface, and are integrally formed.

  In addition, the invention relating to the manufacturing method is to make a preformed body having a shape in which a plurality of bottomed tubular bodies having a plurality of test tubes are arranged at intervals, by an injection molding method, and by preliminarily molding the opening of each tubular body Is put in a blow molding mold having a joint container-shaped mold cavity, and a portion other than the opening is suspended in the mold and maintained in a molten state, and a planar shutter is inserted between each cylindrical body, A predetermined amount of gas is injected from the opening of each cylindrical body to inflate each cylindrical body, and immediately before the inflated portions contact each other, the shutter is moved out of the blow molding die, and then each cylindrical shape It is characterized in that gas is injected into the body and the adjacent body portions of adjacent cylindrical bodies are welded together.

  The synthetic resin connection container according to the present invention includes a plurality of synthetic resin containers in which a cylindrical opening and a swelled bottomed body part continuous with the opening are formed in the same direction. Since the body portions facing each other and adjacent containers are welded together to form a single plane over the entire surface, the containers that are not collapsed are strongly bonded to each other. It has become. Therefore, this connecting container can be widely used to store a plurality of types of solutions or powders separately and to accommodate items that need to be mixed immediately before use. For example, it can be widely used to contain hair dyes, adhesives, fragrance cleaners and the like.

  Moreover, when the lower end of the opening part of each adjacent container is connected by the connection piece first, the connection between each container will become still stronger. In particular, if this connecting piece is made of synthetic resin in the initial molding stage, the connecting container can be easily manufactured. Further, it is advantageous to keep the connecting piece in the shoulder of the adjacent container, since the aesthetic appearance of the connecting container is improved and it is not hindered to attach a stopper to the opening.

  Further, in the method of manufacturing a connection container according to the present invention, a preformed body having a shape in which a plurality of test tubular bottomed tubular bodies are arranged at intervals is formed by injection molding, and an opening of each tubular body is formed. The so-called injection blow method is used in which a preform is placed in a blow mold having a connecting container-shaped mold cavity, and a portion other than the opening is suspended in the mold and kept in a molten state to perform blow molding. Therefore, the connection container can be manufactured efficiently.

  Further, in this manufacturing method, when performing blow molding, a planar shutter is inserted between each cylindrical body, and a predetermined amount of gas is press-fitted from the opening of each cylindrical body. Since it swells, each cylindrical body can prevent the body part from causing an undue deformation by the shutter. And just before the swollen parts try to contact each other, the shutter is moved out of the blow mold, and after that, gas is pressed into each cylindrical body, so that the adjacent cylindrical bodies face each other. Are welded to each other in a planar shape, and a connection container is obtained which is firmly integrated by welding. In addition, since the welded body portions are planar, this connection container has a good appearance without the shape of each container being deformed. Therefore, this connection container has great practical value.

  An embodiment of the present invention will be described with reference to the drawings as follows. 1 and 2 both show a connecting container according to the present invention, (a) is a side view, (b) is a plan view, and (c) is a sectional view taken along the line CC in (b).

  The connecting container according to the present invention shown in FIG. 1 includes a container X and a container Y in which a cylindrical opening 1 and a swelled bottomed body 2 connected to the cylindrical opening 1 are integrally formed of a thermoplastic resin. Are aligned with the openings facing in the same direction, and the body portions 2 facing each other of the container X and the container Y are welded over the entire surface to form a single planar welding surface 3.

  An undercut or male screw for attaching a lid is attached to the outer surface of the opening 1. The male screw 11 can extend over the entire surface of the opening 1 to the base that contacts the body 2. For this reason, a cap having a sufficient depth can be attached, and the container can be easily kept airtight. Further, the male screw 11 may be cut in the middle instead of one continuous spiral. However, the pitch of the helix is required to be the same.

  The thickness of the synthetic resin constituting the body 2 is smaller than the thickness of the synthetic resin constituting the opening 1. This is a result of greatly expanding the body 2.

  In the connecting container according to the present invention shown in FIG. 2, a connecting piece 4 is formed between the opening 1 of the container X and the opening 1 of the container Y, and is also connected by the connecting piece 4. The connecting piece 4 is attached to the lower end of the opening 1 of each container X and Y, and is made integrally with the container with a resin constituting the container.

  In the connection container shown in FIG. 2, an undercut 12 for locking the lid is attached to the outer surface of the opening 1. Further, in the connection container of FIG. 2, the connection piece 4 is recessed into the shoulders of the containers X and Y, and as shown in (a), it cannot be seen at all on the side surface of the connection container. As shown, it can be seen in the plan view of the connection container, but the connection piece 4 is made of the same resin as the containers X and Y, so it is not conspicuous in the plan view (b). The connecting piece 4 is useful when two cylindrical bodies are moved together in a connecting container manufacturing method described later.

  Although FIG. 1 and FIG. 2 show examples in which two containers are connected as the connection container, the number of containers is not limited to two and may be three or more. Further, when three or more containers are connected, these containers may be arranged in a line, may be arranged in a zigzag, or may be arranged in a triangle or more polygonal shapes.

  Moreover, the connection container which concerns on this invention is not restricted to the shape where each container X and Y was made into the bottom dent, as shown in FIG.1 and FIG.2. For example, as shown in FIG. 7, the body portions of the containers X and Y can have a uniform cross section from top to bottom.

  In order to manufacture the connection container according to the present invention, for example, the following is performed. First, as shown in FIG. 3 using a thermoplastic resin as a material, a preformed body having a shape in which two bottomed tubular bodies A and B having a test tube are arranged at intervals is formed by an injection molding method. create. Next, the preform is placed in a heating device and heated. At this time, it is preferable that the preform is gripped by the outer mold D in which the opening of the cylindrical body is formed by a part of the injection mold and is put into the heating device.

  As shown in FIG. 4, the heating device includes an internal heating tool E that heats the insides of the cylindrical bodies A and B, and an external heating tool F that heats the outer surfaces of the cylindrical bodies A and B. Thus, the cylindrical bodies A and B are heated in the heating device from the inner surface and the outer surface of the body portion.

  Next, as shown in FIG. 5, the preformed body is put in a blow molding die G having a connecting container-like mold cavity while being caught by the outer mold D. In the mold G, portions other than the opening of the preform are in a melted state and suspended in the air. At that time, a planar shutter H is attached inside the blow molding die G, and the shutter H separates the two cylindrical bodies A and B from each other.

  Next, as shown in FIG. 5, air blowing tools J are separately attached to the openings of the respective cylindrical bodies A and B, and a predetermined amount of pressurized air is press-fitted from the blowing tools J, respectively. Then, each cylindrical body is in a state as shown in FIG. The cylindrical bodies A and B are expanded by the press-fitting of a predetermined amount of air, and the shutter H is moved out of the blow molding die G immediately before the expanded body portion is about to come into contact. Thus, in the state shown in FIG. 6, air is further pressed into the cylindrical bodies A and B.

  In this way, the barrels of the cylindrical bodies A and B are prevented from being distorted by the shutter H at the initial stage of the swelling process, and are expanded to the position where the shutter H exists. Thus, when the adjacent barrels come into contact with each other, the shutter H is removed. Therefore, the adjacent barrels come into contact at the position where the shutter H was present immediately before, and the contact surface has a single planar shape. . Thereafter, by further injecting air into each tubular body, each tubular body is further expanded, strengthening the welding of the contact surface, and in close contact with the blow molding die, the body portions are welded in a plane. A connection container having a desired shape can be obtained.

  The method of the present invention has the advantage that, as described above, a plurality of containers are welded to each other at the body portion, and a strong connection container in which the welding surface is entirely welded as one plane can be efficiently formed. Bring.

  In the present invention, various resins can be used as the thermoplastic resin. Among them, a high-quality connection container can be obtained when polyethylene terephthalate resin (PET), polyolefin, or polystyrene is used. In particular, when PET is used as a material, the rebound resilience is large and tough, and a transparent and beautiful connection container can be obtained.

  Moreover, the connection container provided with the connection piece 4 as shown in FIG. 2 is formed by forming the connection piece 4 between the cylindrical bodies A and B when making the preform shown in FIG. Can be made. If the connecting piece 4 is provided, as already mentioned, the cylindrical bodies A and B can be fixed by the connecting piece 4 at the time of blow molding. Since it is connected by the connecting piece, there is an advantage that a strong connecting container can be obtained.

  In addition, when a preformed body having a connecting piece is formed near the center of the cylindrical body body portion, and this is put into a blow molding die and the method of the present invention is carried out, the obtained connecting container is closely viewed. And there is a gap between the barrels of the container near the connecting piece, and strictly speaking, it seems that the barrels are not welded over the entire surface, but it occurred because the connecting piece was provided In such a case, the welding surface should be regarded as forming a single plane over the entire surface, and enters the connecting container according to the present invention. Is.

The connection container which concerns on this invention is shown. The other connection container which concerns on this invention is shown. In the connection container manufacturing method according to the present invention, a state where the preform is taken out from the injection mold is shown. In the manufacturing method of the connection container which concerns on this invention, the state which is heating the preform is shown. The initial stage of blow molding in the manufacturing method of the connection container which concerns on this invention is shown. The latter stage of blow molding in the manufacturing method of the connection container concerning this invention is shown. The another container which concerns on this invention is shown.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Opening part 2 Body part 3 Planar welding surface 4 Connection piece 11 Male screw 12 Undercut A, B Bottomed cylindrical body D Outer type E Internal heating tool F External heating tool G Blow molding type H Shutter J Blowing tool X, Y container

Claims (3)

  A plurality of thermoplastic synthetic resin containers integrally formed with a cylindrical opening and a swelled bottomed body that is connected to the cylindrical opening are arranged with the openings facing in the same direction, and the adjacent containers face each other. A synthetic resin connecting container characterized in that the body portions are welded together to form a single plane over the entire surface and are integrated.   The synthetic resin connection container according to claim 1, wherein the lower ends of the openings of adjacent containers are connected by a connection piece, and the connection piece is recessed into the shoulder of the container. A preformed body having a shape in which a plurality of bottomed tubular bodies of test tubes are arranged at intervals is made by an injection molding method, and the preformed body is grasped by an opening of each tubular body, and the preformed body is shaped as a connected container. In a blow molding mold with a hole, keep the parts other than the opening suspended in the mold to maintain the molten state, insert a flat shutter between each cylindrical body, and from the opening of each cylindrical body Each cylinder is inflated by injecting a predetermined amount of gas, and immediately before the inflated parts contact each other, the shutter is moved out of the blow mold, and then the gas is injected into each cylinder. A method of manufacturing a connection container, characterized in that adjacent cylindrical bodies are welded to each other.

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