JPH11255252A - Lid body for sealed container - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce the weight and the cost, to surely integrate a hard body part to constitute a lid body with a soft peripheral edge part formed on its peripheral edge, to facilitate the attachment/detachment of the lid body to/from container body, and to improve the sealability between the two. SOLUTION: A lid body 10 to be fitted in an airtight manner to an opening edge 21 of a container body 20 to constitute a closely sealable container, and the lid body 10 comprises a hard body part 11 to constitute a center part of the lid body 10, and a soft peripheral edge part 12 having a fitting groove 13 which is integrated with a peripheral edge of the hard body part 11 and fitted to the opening edge 21 of the container body 20. The soft peripheral edge part 12 is formed of a synthetic resin material in which syndiotactic polyethylene(SPE) is added to the elastomer of ethylene-butadiene rubber at the ratio of 95-85%, and the hard body part 11 is integrated with a synthetic resin material in which 5-15% polypropylene(PP) is added to syndiotactic polypropylene(SPP).

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cover fitted to a container body of a closed container, and more particularly to a function required as a closed container, with a portion including a fitting groove for the container body side as a soft peripheral portion. The present invention relates to a lid for a hermetically sealed container, which is designed to improve the performance.

[0002]

2. Description of the Related Art Various types of so-called closed containers have already been proposed, and are particularly useful for maintaining the freshness of food. However, in this closed container, as pointed out in, for example, Japanese Utility Model Publication No. Hei 7-32432, the container body and a lid to be fitted thereto are formed of a synthetic resin material. Either shrinks relatively. When contracted in this manner, a gap is formed between the lid and the container body, and the conventional container has a problem that the sealing performance is reduced.

In particular, in order to improve the hermeticity, both the container body and the lid must be formed with high precision. If the hermeticity is improved, the lid is firmly adhered to the container body. As a result, not only the removal becomes difficult, but also the fitting operability (making fitting easy) is deteriorated.

That is, for this kind of closed container,
First, there are the following requests.

[0005] This type of closed container is, for example, a container for storing food in a closed state. However, it is necessary that the container has a sufficient airtightness, and in particular, has a property and structure that can completely block the flow of moisture. is there. This is because the change in food is caused by the movement of water. (Ensuring airtightness) This type of closed container is made of synthetic resin
It is manufactured by making full use of the molding method utilizing If so, it is necessary to make the molding easy and to reduce the manufacturing cost so as to make full use of the merits of the molding. (Easy Molding) This type of closed container is used to fit the lid to the container body by hand and to remove the lid. It must be easy to do so, and on the contrary, the lid can be easily removed. (Improvement of fitting operability) The lid of this kind of closed container is easier to achieve the above when the part to be fitted to the container body side is soft, and the other parts have some rigidity. Better to have. This is because when a part has a hard part, the operability of fitting is improved. (Dual property of physical properties) As described above, when trying to partially change the physical properties of one object, it is best to mold using different materials, but fortunately, the “core back molding method” described later has been established. Have been. It would be advantageous if the container could be a closed container to which this "core-back molding method" could be easily applied. (Applicability of core-back molding method) When the above-described core-back molding method is applied, adhesion at an interface where materials are different becomes a problem. In particular, when the lid is formed using a different material, the lid must be forcibly engaged or disengaged from the container body, so that it can sufficiently withstand the tensile force at that time. , It must be such that no separation occurs at the interface. (Ensuring adhesion at the interface) In particular, if we consider only the lid that constitutes this type of closed container, if we can see the state of the food stored in the container body through this lid, we can confirm the storage state etc. Since it can be easily performed from the outside, it is convenient if the center of the lid, for example, has excellent transparency. (Transparency of Lid) It is considered that the above request can be achieved by improving the lid rather than the container body.
It is considered that if these requirements (1) and (2) can be solved for the lid, the demand for the whole closed container will be solved. (Importance of lid improvement)

Incidentally, this type of closed container is molded using a synthetic resin represented by polypropylene (abbreviated as PP) as a material. Is a material suitable for constructing a container for storing food, and the price has been reduced due to breakthroughs in manufacturing technology and quality. Usually, when simply referred to as polypropylene, it often means isotactic polypropylene (hereinafter simply referred to as IPP). In other words, PP has three types of general IPP (isotactic polypropylene), syndiotactic polypropylene (hereinafter simply abbreviated as SPP), and atactic polypropylene in terms of its three-dimensional structure. is there.

[0007] IPP is produced with a solid Ziegler-Natta catalyst interposed. However, with the discovery of "metallocene catalyst" by Kaminsky, the synthesis of the SPP has been facilitated. This metallocene catalyst is a catalyst obtained by combining methylaluminoxane obtained by hydrolyzing trimethylaluminum and a metallocene compound, and is also called a Kaminsky catalyst in the name of the inventor. The metallocene catalyst is soluble in a solvent, and is sometimes called a homogeneous catalyst or a single-site catalyst because of the homogeneous nature of the active species.

It is known that SPP can be synthesized by employing a metallocene compound having a specific structure in the metallocene catalyst. Among them, J. A. Ewen
According to the method disclosed by the authors, stereoregularity is higher than that of the conventional SPP.

That is, it is expected that this SPP will have a large room for study as a material for producing a closed container. This is because, as described above, this type of closed container has a lid fitted into the upper end opening of the container body to make the inside of the container body hermetically sealed, and has the above-mentioned demands. However, in order to satisfy these demands, it is considered that the above characteristics of SPP can be sufficiently utilized.

[0010] On the other hand, there is a "core back molding method" as a method of injection molding one product while using different synthetic resin materials. This "core back molding method" is different from a so-called "insert molding method". In a completely different way, it is a method of injection-molding one product from dissimilar materials substantially simultaneously in one mold. That is, for example, in order to simultaneously form a hard main body and a lid in which a soft peripheral part is integrated with the periphery by this core back molding method, the rigid main body is (primarily) injection-molded with the first material. Then, a space (cavity) is formed by retracting a part of the mold (core back) forming the hard main body, or a resin flow path to this space is formed in advance. By injecting the second material into the space thus formed, the soft peripheral portion is injection-molded (secondarily) on the peripheral edge of the hard main body. During this period, the mold is not opened, and the secondary injection is performed during the primary cooling time of the primary injection. For example, the lid is simultaneously injection-molded while shortening the molding time.

More importantly, in this type of closed container, since the closed container is used for storing food, it must be safe for food hygiene. In particular, the Food Sanitation Law, Ministry of Health and Welfare Notification 37
According to No. 0, as a synthetic resin standard for food containers and packaging, the maximum value obtained by a dissolution test of “evaporation residue” (specifically, n-heptane) for polyethylene and polypropylene was 60 minutes at 25 ° C. At this time, it is determined to be 150 ppm or less (30 ppm or less in the case of 60 minutes at 100 ° C.).

That is, for this type of closed container, in addition to the above demands, the maximum value of n-heptane in a dissolution test must be 150 ppm or less at 25 ° C. for 60 minutes.
We must clear the condition.

[0013] The inventors of the present invention have been trying to reduce the weight and cost of this type of closed container, and at the same time, how to make the fitting operation and sealing of the lid sufficient. As a result of various studies on the present invention, the present inventors have realized that applying the above-mentioned SPP to the lid fitted to the container body produces good results, and completed the present invention.

[0014]

DISCLOSURE OF THE INVENTION The present invention has been made in view of the above-mentioned circumstances in this type of closed container, and an object to be solved is to provide a cover for a closed container for storing foods and the like. An object of the present invention is to satisfy all of the above-mentioned requirements such as ease of fitting / removing operation with respect to a container body.

That is, the object of the present invention is as follows.
It is possible to ensure the integration of the hard main body constituting the lid and the soft peripheral portion formed on the periphery thereof while reducing the weight and cost, and to fit the lid to the container main body. -It is an object of the present invention to provide a lid of a sealed container that can easily perform a removing operation and can further improve the sealing property between the two.

[0016]

In order to solve the above problems, the means adopted by the present invention will be described with reference numerals used in the description of the embodiments to be described later. A lid body 10 is hermetically fitted to an opening edge 21 of a container body 20 to be sealed, and a hard body part 11 constituting a central part of the lid body 10 and a peripheral edge of the hard body part 11 are integrally formed. And a soft peripheral portion 12 having a fitting groove 13 fitted into the opening edge 21 of the container body 20. The soft peripheral portion 12 is made of an ethylene-butadiene rubber-based elastomer. Is formed of a synthetic resin material in which syndiotactic polyethylene (SPE) is added at a rate of 95 to 85%, and the hard main body 11 is formed of syndiotactic polypropylene (SPP) with 5 to 15% polypropylene (SPP). Lid 10 of the closed container, characterized in that integrally formed of synthetic resin material obtained by adding P) "
It is.

That is, the lid 1 constituting the closed container
0 is fitted to the opening edge 21 of the container body 20 constituting the closed container as shown in FIGS. 1 to 3, and in particular, as shown in FIGS. It comprises a hard main body portion 11 constituting a central portion, and a soft peripheral edge portion 12 having a fitting groove 13 integrated with the peripheral edge of the hard main body portion 11 and fitted into the opening edge 21 of the container main body 20. Things. In the lid 10, the hard main body 11 and the soft peripheral edge 12 are formed of the above-mentioned materials, and the hard main body 11 and the soft peripheral edge 12 are integrally formed.

The lid 10 is integrally formed by the "core-back molding method" as described in the section of the prior art. In other words, a space (cavity) is formed by injecting the (primary) injection molding of the hard main body 11 with the first material and then retracting (core back) a part of the mold forming the hard main body 11. Alternatively, a resin flow path to this space is formed. By injecting the second material into the space formed in this manner, the soft peripheral portion 12 is injection-molded (secondarily) on the peripheral edge of the hard main body portion 11. During this period, the mold is not opened, and the secondary injection is performed during the primary cooling time of the primary injection, and the lid 10 is injection-molded simultaneously with shortening the molding time.

The rigid body 11 of the lid 10 is
It is necessary to be formed of a synthetic resin material obtained by adding 5 to 15% of PP to SPP. The reason is that the rigid main body 11 conventionally formed only by general IPP is
This is because it is necessary to be excellent in fitting operability and transparency, easy to mold, and have improved adhesion at the interface with the soft peripheral portion 12.

That is, the rigid main body 11 is made of SPP
Is formed of a synthetic resin material having 5 to 15% of PP added thereto, so that when the soft peripheral portion 12 is integrally formed on the periphery thereof, the lid 10 can be easily fitted to and removed from the container body 20. In addition, while having a certain rigidity, it has flexibility for securing the fitting operability. This is because PP has excellent compatibility with SPP and, as described above, is harder than SPP.

In addition, the rigid body 11 needs to be transparent or translucent so that the food or the like stored in the closed container can be easily visually recognized from the outside. The rigid body 11 is
It was formed of a synthetic resin material obtained by adding PP to PP. This is because PP has excellent compatibility with SPP and, as described above, is more excellent in transparency than SPP. In addition, since PP is molded at a mold temperature lower than that of SPP, it is possible to achieve excellent transparency by minimizing appearance defects such as sink marks and warpage after molding. This facilitates molding.

Further, the material for forming the hard main body 11 is made of SPP to which 5 to 15% of PP is added. The soft peripheral portion 12 described below is used instead of the hard main body 11. This is because it is necessary to have good compatibility with the resin material constituting the soft peripheral portion 12 in order to improve the adhesion at the interface by performing simultaneous molding on the peripheral edge. Further, by doing so, the amount of n-heptane eluted can be suppressed.

As described above, in order to improve the various physical properties of the rigid body 11 as a component for forming a closed container, as described above, the rigid body 11
Must be formed from a synthetic resin material in which 5 to 15% of PP is added to SPP. The reason is P
This is because if the addition ratio of P to SPP is lower than 5%, the above-mentioned respective physical properties cannot be made sufficient. On the other hand, if the addition ratio of PP to SPP is more than 15%, the above physical properties cannot be substantially improved.

On the other hand, the soft peripheral portion 12 of the lid 10
SPE was added to ethylene-butadiene rubber in a weight ratio of 95%.
Thus, the soft peripheral portion 12 of the lid 10 is made softer than the hard main body 11. If the soft peripheral portion 12 is soft, the opening edge 21 of the container body 20 by the fitting groove 13 is provided.
Not only can the fitting operation be performed with respect to, but also the detaching operation can be easily performed, and the tightness of the lid 10 with respect to the container body 20 is also improved. This is because, when the soft peripheral portion 12 is soft, the soft peripheral portion 12 including the fitting groove 13 is easily deformed and its resilience is improved, so that the operability at the time of sealing is improved. The sealed state can be reliably maintained.

The soft peripheral portion 1 including such a fitting groove 13
In order to make 2 soft, a synthetic resin material for constituting the soft peripheral portion 12 is an elastomer containing 95 to 85% of SPE with respect to 5 to 15% of ethylene-butadiene rubber. It is preferable to be constituted by a material that contains. The reason is that if the content of the elastomer is less than 5%, the required flexibility cannot be imparted to the soft peripheral portion 12 of the lid 10, and if the content of the elastomer is more than 15%, Soft peripheral portion 1 including fitting groove 13 to be fitted to opening edge 21 of container body 20
This is because not only the required rigidity cannot be secured, but also the amount of n-heptane eluted increases.

As this type of elastomer, ethylene-
It is preferable to use butadiene rubber. The reason is that if an ethylene-butadiene rubber type is used as the base polymer of the elastomer, a base polymer having no double bond will be adopted, which is only excellent in weather resistance and heat resistance. No, "smell"
This is because it is suitable for making a closed container for storing food, for example.

As this type of elastomer, an ethylene propylene rubber or a rubbery material obtained by polymerizing ethylene and propylene in the presence of a Ziegler catalyst is also used. In order to color the soft peripheral portion 12 to make it opaque, a pigment may be added to the extent that physical properties are not impaired, or talc or silica may be mixed into the elastomer. The reason why talc or silica is mixed into the elastomer is to increase the hardness of the soft peripheral portion 12 or to suppress the amount of heat when the closed container including the soft peripheral portion 12 is burned as dust.

As described above, the soft peripheral portion 12 of the lid 10
It is necessary to add SPP to the resin material constituting (1). The first reason is as follows. The soft peripheral portion 12 must be integrally formed on the periphery of the hard main body portion 11 by a “core back molding method”, and the material forming the soft peripheral portion 12 is the SP on the hard main body portion 11 side.
Since P contains an ethylene-butadiene rubber different from P, the compatibility between the materials constituting the soft peripheral portion 12 and the hard main body portion 11 must be increased. In order to meet such demands, as described above, the SPP has excellent compatibility with other synthetic resins as well as general PP, and therefore, the lid 10 which requires fitting operability is constituted. As a material to do so, it exhibits a very excellent effect.

The second reason why it is preferable to add SPP to the resin material constituting the soft peripheral portion 12 is that the SPP meets the above-mentioned requirements for this kind of closed container while maintaining its light weight. This is because not only can the molding and the molding be facilitated, but also the adhesion at the interface between the hard body portion 11 and the soft peripheral portion 12 made of different materials can be made sufficient.

Further, the third reason why it is preferable to add SPP to the resin material constituting the soft peripheral portion 12 of the lid 10 is that SPP can be used even at low temperatures down to minus 10 ° C. , Its flexibility remains the same,
This is because the low temperature resistance also works for other PP and ethylene-butadiene rubber, and as a result, the low temperature resistance of the lid 10 is improved. In other words, after exposing the closed container having the lid 10 to a low-temperature atmosphere of about −2 to 10 ° C. in the freezer, immediately after removing the lid, the lid 10 is removed from the container body 20, The lid 10 is never broken or deformed.

The lid 1 according to the present invention configured as described above.
A summary of the action of 0 is as follows.

The closed container employing the lid 10 according to the present invention is, for example, a container for sealingly storing food, but has a sufficient airtightness as described above.
In particular, it has a property and structure that can completely block the flow of moisture.

The lid 10 according to the invention for a closed container
Can be manufactured using a synthetic resin as a material and making full use of a molding method utilizing a "mold". The advantages of mold molding can be fully utilized, molding can be easily performed, and the production cost can be reduced.

The sealed container employing the lid 10 according to the present invention is fitted while securing the above-mentioned sealing performance when the lid 10 is fitted to the container body 20 by hand and when the lid 10 is removed. The operation can be performed easily, and the lid 10 can be easily removed.

The lid 10 according to the present invention comprises a container body 20
Since the portion to be fitted to the side is soft, the above is achieved, and the other portions have a certain degree of rigidity, so that the fitting operability is improved.

As described above, in order to partially change the physical properties of one object, it is best to mold using a different material. However, the lid 10 according to the present invention uses a different material. Therefore, the "core-back molding method" can be easily applied.

The lid 10 according to the present invention comprises a container body 20
Must be forcibly engaged or disengaged from the cable, but they are sufficiently resistant to the pulling force at that time, and are not separated at the interface.

In particular, the state of the food stored in the container body 20 through the lid 10 according to the present invention can be clearly seen, and the storage state and the like can be easily checked from the outside.

By improving the lid 10 side, it is possible to achieve a solution to the demand of the whole closed container. The elution amount of n-heptane can be suppressed to 150 ppm or less.

[0040]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, the present invention constructed as above will be described with reference to a closed container which is an embodiment shown in the drawings. 1 to 3 show a closed container according to the present invention, FIG. 1 shows a plan view of a closed container having an upper half as a bottom surface, and FIG.
FIG. 3 is a front view of the closed container having a left half section, and FIG. 3 is an enlarged sectional view of a main part of FIG.

The container body 20 of this closed container is integrally formed of a synthetic resin material such as polypropylene, and is relatively hard as a whole. The container body 20 has an opening edge 21 to which the lid 10 is to be fitted. The rigidity is sufficient. As shown in FIGS. 2 and 3, the side surface of the container body 20 is formed so that the opening edge 21 slightly expands outward, and this also allows the container body 20 to be in contact with the lid 10. It has improved sealing performance. A plurality of legs 22 are integrally formed on the lower surface of the bottom of the container body 20, and the legs 22 prevent the bottom surface of the container body 20 from being in close contact with a desk or the like.

In the case of the lid 10, according to the embodiment, the soft peripheral portion 12 and the hard main body 11 are formed by injection molding different materials with a time difference by a so-called "core back molding method". Are integrated.

In order to form the lid 10 by a core back molding method, the rigid main body 11 is injection-molded (primary) with a material obtained by adding transparent PP to SPP (transparent or translucent), Thereafter, a part (cavity for the soft peripheral part 12) is formed by retreating a part of the mold that has formed the hard main body part 11 (core back), or a flow path of the resin to this space is formed. You do it. In this space, an ethylene-butadiene rubber elastomer or SPE is added in an amount of 95 to 85%.
The injection molding (secondary) is performed by injecting the mixed synthetic resin material. During this time, the mold is not opened, and the secondary injection is performed during the primary cooling time of the primary injection, and the adhesion of the soft peripheral portion 12 to the hard main body 11 is secured while shortening the molding time. Is what you are doing.

As the synthetic resin material of the soft peripheral portion 12 in this embodiment, an elastomer (ethylene-butadiene rubber) obtained by hydrogenating a hydrogenated SIS block copolymer may be used.
The one containing 92.5% SPE by weight is employed. Thus, as the material of the soft peripheral portion 12, an ethylene-butadiene rubber type is used as the base polymer of the elastomer, and since this base polymer does not have a double bond, the soft peripheral portion of the lid 10 is not used. The part 12 not only has excellent weather resistance and heat resistance, but also has little "odor", and is suitable as, for example, a closed container for storing food.

In addition, SPE is added to the above elastomer.
The hardness of the soft peripheral portion 12 formed of a synthetic resin material in which is mixed JIS-K-7 is measured by a durometer.
When it was measured under the standard of 215, it was A93, and the hardness of the hard main body 11 was measured by a Rockwell hardness meter according to JIS-K-7202,
Its hardness was R57. In addition, this soft peripheral portion 12
Was formed from low-density polyethylene 100% in the same manner as before, and the hardness was measured with a durometer under the standard of JIS-K-7215, and the hardness was A98.

That is, by providing a hardness difference between the hardness of the soft peripheral portion 12 of the lid body 10 according to the present invention and the hardness of the hard body portion 11, the hard body portion having a high hardness can be used when sealing. There is a meaning of improving the operability of being able to strongly press the outer peripheral portion 11, and lowering the hardness of the soft peripheral portion 12 than the hard main body portion 11 requires the fitting / removing operation with respect to the opening edge 21 of the container main body 20. There is a meaning that it is easier to perform than conventional products and that the sealing performance is improved.

When the lid 10 is formed in a substantially rectangular shape as shown in FIG. 1, most of the hard body 1 is formed of a transparent or translucent material.
1, the container body 2
0 not only can be visually recognized, but also the rigid body 1
Since a colored soft peripheral portion 12 can be present around 1, the inside thereof cannot be seen by the soft peripheral portion 12. That is, the lid 10 is not only excellent in design in which the colored soft peripheral portion 12 is present around the hard main body portion 11, but is also excellent in design.
Even if an object is sandwiched between the lid 10 and the container body 20, the soft peripheral portion 12 is invisible from the outside, which improves the overall appearance during use. .

Of course, a fitting groove 13 having a substantially U-shaped cross section is formed in the soft peripheral portion 12 of the lid 10 as shown in FIGS. The opening edge 21 on the side of the container body 20 is fitted into the container 13. Since the periphery of the fitting groove 13 is the soft peripheral portion 12 formed of the synthetic resin material having the above-described hardness, the fitting property of the lid 10 to the container body 20 is good and the sealing property is good. This is as described above.

As shown in FIG. 3, the fitting groove 13 of this embodiment has its center line L1 inclined upward and outward in accordance with the inclination direction of the opening edge 21 of the container body 20 described above. And, the outer inner surface thereof (the opening edge 21 of the container body 20)
Is inclined inward with respect to a perpendicular L2 from the upper end of the opening edge 21. Further, the outer portion of the soft peripheral portion 12 forming the fitting groove 13 is thicker than other portions as shown in FIG. As a result, the outer peripheral edge of the soft peripheral portion 12 in which the finger hook 14 is partly integrated is slightly shrunk inward after molding, thereby further improving the close contact with the opening edge 21. It is.

The lid 10 constructed as described above was subjected to a sealing test and a tensile strength test, and the results were as follows.

Sealing test The rigid main body 11 of the lid 10 is made up of 90% by weight of SPP,
10% by weight of PP and the soft peripheral portion 12
Was formed from 10% by weight of ethylene-butadiene rubber and 90% by weight of SPE, and the product weight as a closed container shown in the following Table 1 was produced. 80% of water was put in each of these container bodies 20, and the sealed container was placed vertically, and after 13 hours and 24 hours, the amount of water leakage was measured. Was.

[0052]

[Table 1]

As shown in Table 1, the lid 10 according to the present invention is used.
It can be understood that there is almost no water leakage in the closed container adopting the above. It should be noted that abnormal values are observed for the three products, but this is considered to be due to the improper fitting, and is not considered to be a defect in the lid 10 of the present invention.

Tensile Strength Test A lid 10 having the composition shown in Table 2 was formed, and four test pieces A, B, C, and D shown in FIG. 4 were cut out from the center of each side. When a tensile strength test was performed, the results shown in the right column of Table 2 were obtained. This tensile strength test is based on JIS-K
The test was carried out in accordance with "Plastic tensile strength test method" of No. 7113.

The specific test conditions in this case were as follows: "Autograph AG-20KNE" (manufactured by Shimadzu Corporation) was used as a tester. Temperature: 23 ° C. Test speed: 50 mm / min. Thickness: 26 mm × 1.5 mm Distance between chucks: 40 mm 2.

[0056]

[Table 2]

Table 3 shows the state of the test piece at four locations on each lid 10 when the test piece was broken.

[Table 3]

From the results in Tables 2 and 3, it is clear that the hard body portion 11 is made of only PP and the soft body portion 12 is made of only ethylene-butadiene rubber. The tensile strength was increased, and in particular, the case where 90% of SPP was mixed in the hard body portion 11 and the case where 10% of SPE was mixed in the soft body portion 12 showed a 17% increase in strength compared to the case where SPE was not mixed at all. Was done.

[0059]

As described above in detail, according to the present invention, as described in the above embodiment, "the lid air-tightly fitted to the opening edge 21 of the container body 20 constituting the closed container" The body 10 is formed, and a rigid main body 11 which forms a central portion of the lid 10 and a fitting which is integrated with a peripheral edge of the rigid main body 11 and is fitted to the opening edge 21 of the container body 20. A lid 10 comprising a soft peripheral portion 12 having a groove 13, wherein the soft peripheral portion 12 is prepared by adding syndiotactic polyethylene (SPE) to an ethylene-butadiene rubber-based elastomer at a rate of 95 to 85%. It is formed of a synthetic resin material, and the rigid main body 11 is integrally formed of a synthetic resin material obtained by adding 5 to 15% of polypropylene (PP) to syndiotactic polypropylene (SPP). " There is a feature in its configuration, which makes it possible to ensure integration of the hard main body constituting the lid and the soft peripheral portion formed on the periphery thereof while reducing the weight and cost. This makes it possible to provide the lid 10 of a sealed container that can easily perform the fitting / removing operation of the lid with respect to the container main body and can further improve the hermeticity of both.

That is, according to the lid 10 of the present invention, at least the following excellent effects can be exhibited.

(Ensuring Sealability) Lid 10 According to the Present Invention
The closed container adopting, for example, is a container that seals and stores food, but has a sufficient sealing property as described above, and in particular, has a property and structure that can completely block the flow of moisture. It can be. (Easy Molding) The lid 10 according to the present invention for a closed container can be manufactured using a synthetic resin as a material by making full use of a molding method utilizing a “mold”, and the advantages of the molding can be obtained. It can be fully utilized, can be easily molded, and can be manufactured at low cost. (Improvement of fitting operability) The closed container employing the lid 10 according to the present invention is
At the time of performing the fitting and the removal of 0, the fitting operation can be easily performed while the above-mentioned sealing property is secured, and the cover 10 can be easily removed. (Duplexity of physical properties) The lid 10 according to the present invention can achieve the above because the part to be fitted to the container body 20 side is soft, and the other parts have some rigidity. As a result, the fitting operability can be improved. (Applicability of core-back molding method) As described above, in order to partially change the physical properties of one object, it is best to mold using a different material, but the lid 1 according to the present invention is preferred.
For 0, the “core back molding method” can be easily applied. (Ensuring Adhesion at Interface) Lid 10 According to the Present Invention
Although it is necessary to forcibly engage or disengage with the container body 20, it is possible to sufficiently withstand the tensile force at that time, and separation at the interface is not performed. (Transparency of the lid) In particular, the state of the food stored in the container body 20 through the lid 10 according to the present invention can be clearly seen, and the storage state and the like can be easily checked from the outside. By improving the lid 10 side, it is possible to achieve the desired solution of the whole closed container. The elution amount of n-heptane can be suppressed to 150 ppm or less.

[Brief description of the drawings]

FIG. 1 is a plan view of a sealed container in which an upper half shows a bottom surface of a container body and a lower half shows a lid according to the present invention.

FIG. 2 is a front view of the closed container having a left half section.

FIG. 3 is an enlarged sectional view of a main part of FIG. 2;

FIG. 4 is a plan view showing types of test pieces and cut-out positions from a lid.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Lid 11 Hard main body part 12 Soft peripheral part 13 Fitting groove 14 Finger hook 20 Container main body 21 Opening edge 22 Leg part

Claims (1)

[Claims] 1. A lid which is airtightly fitted to an opening edge of a container body which constitutes a closed container, and a rigid main body constituting a central portion of the lid, A soft peripheral portion having a fitting groove integrated with the peripheral edge and fitted to the opening edge of the container body, wherein the soft peripheral portion is made of ethylene-butadiene rubber of 95 to
It is formed of a synthetic resin material to which syndiotactic polyethylene is added at a rate of 85%, and the hard main body is integrally formed of a synthetic resin material to which syndiotactic polypropylene is added with 5 to 15% of polypropylene. The lid of the closed container.