1. Field of the Invention
The present Invention relates generally to sealing covers which seal apertures of containers made of plastic, glass or the like and, more particularly, to a sealing cover for containers which has improved heat resistance, easy-opening performance and scalability,
2. Description of the Related Art
Generally, containers made of plastic, glass or the like have apertures.
The apertures of the containers most be sealed to protect contents contained in the containers or prevent fluid contents from leaking during distribution process of products. Typical caps, caps provided with shock absorption substances on inner surfaces thereof, heat sealing covers sealed on apertures of containers by thermal compression, bonding, etc. are being used as sealers for sealing the apertures of the containers.
Formed by foaming polyolefin-based resin, an elastic foamed packing is a representative example of the shock absorption substances provided in the caps. Conduction type heat-seals, high-frequency induction heating seals, etc. are used as the heat sealing covers.
Recently, heat sealing covers are used increasingly to more reliably seal containers.
However, conventional foamed packings have a problem of low airtightness. Conventional heat sealing covers have superior airtightness but it is difficult to open an aperture of a container because a heat sealing cover is sealed on the aperture in such a way that it wraps the aperture. In an effort to overcome the above-mentioned problems, easy peel type heat sealing covers are used sometimes. However, such conventional heat sealing covers are problematic in that they cannot foe used in containers for retort products because of low heat resistance.
Meanwhile,
Furthermore, the conventional heat sealing covers shown in
Korean Patent Laid-open Publication No. 10-2009-0003222 (date: Jan. 9, 2009)
Korean Patent Laid-open Publication No. 10-1984-0007700 (date: Dec. 10, 1984)
Japanese Patent Laid-open Publication No. P2012-81999 (date: Apr. 28, 2012)
Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a sealing cover for containers which has superior heat resistance so that it can be applied not only to a container for general purposes but also to a container for retort products.
Another object of the present invention is to provide a sealing cover for containers which has an opening structure capable of easy-opening and an opening area as large as needed to facilitate removal of contents from the container.
A further object of the present invention is to provide a sealing cover for containers which can provide a secondary sealing effect in which because a part of the sealing cover remains on a lip of an aperture of the container in an annular shape after the sealing cover has opened, when the container is covered with a cap again, the close contact between the container and the cap can be ensured by the elasticity and the shook absorbing effect of the remaining part of the sealing cover, thus reliably preventing contents from leaking.
In order to accomplish the above object, the present invention provides a sealing cover for containers, sealed on an aperture of a container by heat adhesion and configured such that the aperture of the container is opened by pulling an opening tap provided on an upper surface of the sealing cover, the sealing cover including; an upper layer provided with the opening tap; and a lower layer comprising an aluminum foil and a heat sealing adhesive layer thermally-adhering to the container, the upper layer and the lower layer being integrated with each other via thermal adhesion using a heat adhesive resin or film.
The upper layer may include a surface layer made of a polyester or polypropylene film that has no heat adhesive properties and has a thickness ranging from 0.012 mm to 0.04 mm.
The upper layer may include an intermediate substrate layer laminated under the surface layer, the intermediate substrate layer being made of a polyolefin-based foam film having a thickness ranging from 0.03 mm to 2 mm.
The upper layer may include a polyester film laminated under the intermediate substrate layer, the polyester film having a thickness ranging from 0.015 mm to 0.2 mm and made of material making the upper layer have increased tensile strength so that when the opening tap is pulled, the sealing cover can easily open without the opening tap being snapped.
The upper layer may include a first polypropylene film having heat-adhesive property and laminated under the polyester film, the first polypropylene film having a thickness ranging from 0.02 mm to 0.06 mm and being able to thermally adhere to the lower layer.
The lower layer may further include a second polypropylene film thermally-adhering to the first polypropylene film disposed at a lower end of the upper layer, the second polypropylene film being made of a same heat-adhesive material as a material of the first polypropylene film.
The aluminum foil may be laminated under the second polypropylene film and has a thickness ranging from 0.012 mm to 0.1 mm, the aluminum foil generating heat by high-frequency induction heating and substantially isolating an interior of the container from an exterior thereof to protect contents in the container.
The heat sealing adhesive layer may be laminated under the aluminum foil and is made of a heat-adhesive polypropylene to thermally-adhere to the container, the heat sealing adhesive layer withstanding a temperature of 130° C. or more and having a thickness ranging from 0.02 mm to 0.08 mm.
The heat sealing adhesive layer may be made of one selected from among polyethylene, polyethylene terephthalate, ionomer and ethylene vinyl acetate.
An annular opening guide cutting band may be formed in the upper layer and configured such that when the opening tap is pulled, the upper layer and the lower layer open along an inner circumferential surface of the aperture of one container in a circumferential shape.
An opening cutting line may be formed in the upper layer along the opening guide cutting band.
An annular heat adhesive sealing band may be formed in the upper layer outside the opening cutting line, the annular heat adhesive sealing band coming into close contact with a lip of the aperture of the container and thermally-adhering to the lip.
The above and other objects, features and advantages of the present invention will be more clearly understood from the following detailed description taken in conjunction with the accompanying drawings, in which:
Hereinafter, an embodiment of the present invention will be described in detail with reference to the attached drawings.
The terms and words used in the specification and claims must not be limited to typical or dictionary meanings, but must be regarded as concepts selected by the inventor as concepts which best illustrate the present invention, and must be interpreted as having meanings and concepts adapted to the scope and spirit of the present invention to aid in understanding the technology of the present invention.
The present invention provides a sealing cover for a container which is formed of material having high thermal adhesive strength and heat resistance and is provided with an opening tap and an opening cutting line to facilitate opening of an aperture of the container, thus proving superior heat resistance and easy-opening performance.
Furthermore, the present invention provides a sealing cover for a container which is configured such that even after the aperture of the container is opened by means of the opening tap, a part of the sealing cover remains on a lip of the aperture of the container so that close contact between the container and a cap can be ensured when the container is closed.
Referring to
Referring to
Referring to
Referring to
The upper layer 300 can be made of various kinds of plastic films, foams, etc. Based on
An intermediate substrate layer 304 is disposed under the surface layer 302 and is a film or sheet that has a thickness ranging from 0.1 mm to 2 mm and is made of polyolefin-based foam. The intermediate substrate layer 304 is laminated under the surface layer 302.
When a cap 210 is coupled to the container 200, the close-contactability between the cap 210 and the container 200 is increased by the elasticity of the intermediate substrate layer 304. Furthermore, because the intermediate substrate layer 304 is formed of a foam sheet having an appropriate thickness, it can provide a heat insulation function of preventing heat generated from an aluminum foil 404 of the lower layer 400 by high-frequency induction heating from being transferred to the surface layer 302. Thereby, the cap 210 can be prevented from being deformed by heat generated curing a thermal bonding operation.
A polyester film layer 306 that has a thickness ranging from 0.03 mm to 0.2 mm is laminated under the intermediate substrate layer 304. The polyester film layer 306 performs a very important function. In detail, thanks to the high tensile strength of the polyester film, sufficient tensile strength is given to the entire of the upper layer 300. Thereby, when the sealing cover 100 that has been sealed on the container 200 is removed from the container 200 to open the aperture thereof, the opening tap 102 of the upper layer 300 can be prevented from being snapped from a ring-shaped opening cutting band, and the opening tap 102 that is provided on the upper layer 300 and the central part 110 of the sealing cover 100 that is disposed inside the annular opening cutting line can be easily cut off.
Having heat adhesive properties and having a thickness ranging from 0.02 mm to 0.06 mm, a first polypropylene film layer 308 is laminated under the polyester film layer 306. The first polypropylene film layer 308 thermally adheres to a second polypropylene film layer 402 that is disposed at the uppermost layer of the lower layer 400 and is made of the same thermal adhesive material as that of the first polypropylene film layer 308.
As described above, in the lower layer 400 which is heat-sealed on the container 200, the second polypropylene film layer 402 which has heat adhesive properties is disposed at the uppermost layer, and the aluminum foil 404 that has an appropriate thickness ranging from 0.012 mm to 0.1 mm is laminated under the second polypropylene film layer 402. The aluminum foil 404 generates heat resulting from high-frequency induction heating and functions to substantially isolate the interior of the container 200 from the outside.
A heat sealing adhesive layer 406 is applied to a lower surface of the aluminum foil 404 by laminating or coating. In the case of the container 200 that is made of polypropylene which is suitable for retort, the heat sealing adhesive layer 406 is formed of a polypropylene film which has heat adhesive properties and has an appropriate thickness ranging from 0.03 mm to 0.1 mm. If container 200 is made of material such as glass, polyethylene or polyethylene terephthalate, the heat sealing adhesive layer 406 is coated with a polyethylene, polyethylene terephthalate, ionomer or ethylene vinyl acetate film or resin (polymer) which has heat adhesive properties.
Having the above-mentioned structures, the upper layer 300 and the lower layer 400 thermally adhere to each other, thus forming the sealing cover 100. Before the upper layer 300 thermally adheres to the lower layer 400, an opening tap 102, an opening guide cutting line 104, an opening cutting line 106 and an annular opening guide cutting band 108 are formed in the upper layer 300.
Referring to
The upper layer 300, in which the opening tap 102, the opening guide cutting line 104, the opening cutting line 106, the annular opening guide cutting band 108, the heat adhesive sealing band 112, etc. are formed, thermally adheres to the lower layer 400. The opening guide cutting line 104 is a cutting line which is formed between the opening tap 302 and the opening cutting line 106. The term “cutting line” refers to a line which makes the lower layer 400 be easily torn when the opening tap 102 is pulled.
Referring to
The principle of opening the aperture of the container 200 using the opening tap 102 is as follows.
Referring to
As shown in
Thereafter, as shown in
To use contents contained in the container 200, the user first removes the cap 210 from the container 200. Thereafter, the user grasps the opening tap 102 and pulls it upwards, thus opening the aperture of the container 200.
As described above, in a sealing cover for containers according to the present invention, the sealing cover provided with an aluminum foil is configured such that it is firmly thermally sealed on the aperture of a container, whereby contents in the container can be reliably protected.
Furthermore, the sealing cover according to the present invention has therein an opening tap, an opening guide cutting line, an opening cutting line and an opening guide cutting hand, so that opening the aperture of the container can be facilitated.
Moreover, the sealing cover according to the present invention provides not only a primary sealing effect before the container opens but also a secondary sealing effect in which because a part of the sealing cover remains on a lip of an aperture of the container in an annular shape after the container has been opened, and when the cap is coupled to the container again, the close contact between the container and the cap can be ensured by the elasticity and the shock absorbing effect of the sealing cover, thus reliably preventing contents from leaking.
Although the preferred embodiment of the present invention has been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.
Number | Date | Country | Kind |
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10-2013-0157240 | Dec 2013 | KR | national |