JPH01153445A - Container made of synthetic resin - Google Patents

Abstract

PURPOSE:To improve mechanical property of a container and prevent the adsorption of dust, by forming by bending operation the container of a sheet into which two transparent polystyrene films containing an antistatic agent are laminated with an impact resisting styrenes resin film interposed therebetween. CONSTITUTION:A synthetic resin made container (A) is formed of a laminated film B by bending operation. The laminated film B is the one formed into a sheet by laminating transparent styrene resin films 1 and 2 with an impact resisting styrene resin film 3 interposed therebetween and the transparent styrene resin films 1 and 2 contain a antistatic agent. The styrene resin consists of polystyrene alone or mixed with other resin such as styrene butadiene copolymer. Such copolymer is produced by adding butadiene in an amount within the range of 40-20 parts by weight per 60-80 parts by weight of polystyrene. The antistatic agent is added in an amount within the range of 2-7 parts by weight per 100 parts by weight of the resin.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) This invention relates to a container made of synthetic resin. More specifically, the present invention relates to a strong and beautiful synthetic resin container that can be supplied at low cost.

(Conventional technology) Containers are made using various synthetic resins.

Among synthetic resins, polystyrene is widely used for containers because it is nontoxic, strong, and has excellent transparency. However, styrene resins also have drawbacks. Its disadvantages are that it has poor impact resistance and is prone to cracks, and that it is easily charged and attracts dust.

Among these, the drawback of poor impact resistance was solved to some extent by blending synthetic rubber with polystyrene to form a so-called polymer alloy.

However, polymer alloys are opaque and degrade the appearance of the surface. Therefore, it was necessary to improve this point.

In addition, the drawback is that it is easily charged and attracts dust.
The problem was solved to some extent by adding an antistatic agent to polystyrene. However, when an antistatic agent is added, mechanical properties such as strength of polystyrene are reduced, and new drawbacks arise, such as an increase in product price.

(Problems to be Solved by the Invention) This invention improves the above-mentioned drawbacks and uses polystyrene to create a material that is strong and has good mechanical properties, has a beautiful appearance, and is difficult to absorb dust. The aim is to provide synthetic resin containers at low cost.

(Means for Solving the Problem) In order to improve the above-mentioned drawbacks, the present inventor has developed a film or sheet (hereinafter simply referred to as a film) from which a container is constructed, using a laminate of at least three layers of films. I thought it should be made with.

In other words, since electrification of the bonded body mainly occurs on the surface of the film, the surface layer contains an antistatic agent, and the internal layer that is not exposed to the surface does not contain an antistatic agent to prevent electrification. , to prevent deterioration of strength and other mechanical properties. In this way, the amount of antistatic agent used has been reduced, making it possible to provide laminated sheets at low cost. In addition, since the surface layer needs to be beautiful, transparent polystyrene was used for the surface layer, and impact-resistant styrene resin was used for the internal layer to provide strength. In this way, it is possible to achieve antistatic properties, a beautiful appearance, toughness, and cost reduction at the same time.

That is, this invention provides a synthetic resin obtained by sandwiching an impact-resistant styrene-based resin film between transparent films made of a transparent resin containing polystyrene and containing an antistatic agent, and then bending the integrated laminated film. This relates to containers.

(Example) An example of a synthetic resin container according to the present invention will be described below with reference to the attached drawings. In the drawings, FIG. 1 is a partially cutaway perspective view of a synthetic resin container according to the present invention. FIG. 2 is an enlarged view of the portion circled in FIG. 1. FIG. 3 is a partially cutaway enlarged perspective view of another synthetic resin container according to the present invention.

1 and 2, a synthetic resin container A according to the present invention is made from a laminated film B by bending it. Its shape is a rectangular parallelepiped consisting of a rectangular bottom and four side walls erected on the four sides of the bottom.

The laminated film B is formed by sandwiching an impact-resistant styrene resin film 3 between transparent styrene resin films 1 and 2 and making them integral. The transparent films 1 and 2 are made of styrene resin containing an antistatic agent, and the styrene resin is made of only polystyrene or mixed with other resins. As the other resin, for example, a copolymer of styrene and butadiene can be used. The copolymer is manufactured by Philips in the United States,
It is sold by Petroleum Company under the name K-Resin. The copolymer is polystyrene 60-
Add 40-20 parts to 80 parts by weight.

As the antistatic agent, what is generally called a surfactant can be used. That is, anionic, cationic, nonionic, and amphoteric surfactants can be used. Among them, it is desirable to use cationic and amphoteric ones. As cationic types, for example, quaternary ammonium bases and imidacillin types can be used, and as amphoteric types,
A betaine type can be used. The blending ratio of the antistatic agent is 2 to 7 parts by weight per 100 parts by weight of the resin.
Among these, the preferred range is 5 to 6 parts by weight.

High-impact styrenic resin is a polymer alloy made by mixing polystyrene with synthetic rubber.

Because it is necessary to add a significant amount of synthetic rubber to improve impact resistance, impact-resistant styrenic resins are generally opaque, have poor weather resistance, and have poor surface gloss. Become. Therefore, in the present invention, a film of impact-resistant styrene resin is placed inside without exposing it to the surface, thereby exhibiting only the advantage of impact resistance.

The thickness ratio between the transparent films 1 and 2 and the impact-resistant film 3 is as follows. Films 1 and 2 are 20-1
The thickness should be as thin as possible within the range of 0.00 microns. On the other hand, the thickness of the film 3 should be within the range of 100 to 1000 microns, and should be as thick as possible without significantly deteriorating the appearance and physical properties.

Preferably, each of the transparent films 1 and 2 occupies one-fifteenth to one-sixth of the total thickness of the laminated film B,
The impact-resistant film 3 is 40% of the total thickness of the laminated film B.
It accounts for between 90% and 90%.

The impact-resistant styrene resin film 3 does not have to be formed entirely of one layer. For example, as shown in FIG. In this case, the film 31 is made of new high-impact styrenic resin, and the film 32 is made of recycled high-impact styrenic resin, and the recycled product contains various fillers, pigments, etc. Good too.

In order to make the above-mentioned laminated sheet B, each film can be made by an extrusion molding method using an extruder, and while the films are heated and softened, they can be overlapped and made into one piece, but it is also possible to make them into one piece by simultaneous extrusion. It is preferable to do this, so that the films are firmly integrated and will not peel off from each other.

The laminated film can be bent to form a container by press molding, vacuum molding, or pressure molding.

Since all laminated films are made of styrene resin, they are easy to mold and do not easily peel off, so containers made in this way are laminated and do not have the disadvantage of peeling. It has become.

(Effects of the Invention) According to the present invention, since the transparent film made of a transparent resin containing polystyrene and an antistatic agent is placed on the surface of the container, it has a beautiful appearance and prevents dust from being absorbed. Therefore, it can be used as a container for a long time in beautiful condition. In addition, since an impact-resistant styrene resin is sandwiched between these transparent films, the inner layer of the container is highly impact resistant, making the entire container strong against impact, making it easy to save money during use. Breaking is prevented. moreover,
Dust adsorption occurs only on the surface of the container, so by including an antistatic agent in the transparent film on the surface, it is possible to save on antistatic agent and increase efficiency (preventing dust adsorption, Therefore, an inexpensive container can be provided.In addition, since the transparent film is placed on both the front and back sides, the laminated film will not warp on one side due to expansion yield, and therefore the container will be It can be easily molded and does not undergo any objectionable deformation after molding.The present invention thus provides various advantages.

[Brief explanation of the drawing]

FIG. 1 is a partially cutaway perspective view of a synthetic resin container according to the present invention. FIG. 2 is an enlarged view of the portion circled in FIG. 1. FIG. 3 is a partially cutaway enlarged perspective view of another synthetic resin container according to the present invention. In the figure, 1 and 2 are transparent films made of a transparent resin containing polystyrene containing an antistatic agent, and 3 is an impact-resistant styrene resin film. Patent applicant: Yamato Ethlon Co., Ltd. Figure 1 Figure 7 Figure j

Claims (1)

[Claims] A synthetic resin container obtained by sandwiching an impact-resistant styrene-based resin film between transparent films made of a transparent resin containing polystyrene impregnated with an antistatic agent, and then bending the integrated laminated film.