Quadruple sealing structure for can cover

Abstract

A can cover having an inner cover comprising a circular groove in which an upper sealing portion of said can is inserted. An inner O-ring is tightly attached to said upper sealing portion of said can. Said inner O-ring is inserted into said circular groove of said inner cover. Also included is an outer coupling ring having a plurality of coupling protrusions inserted into a plurality of coupling grooves formed in an outer circumferential portion of said inner cover. A clearance is formed between said coupling grooves such that when said outer coupling ring is separated from said inner cover, said clearance spreads and separates said inner cover from said upper sealing portion of said can.

Claims

1. A can cover comprising: an inner cover comprising a circular groove; an inner O-ring inserted into said circular groove of said inner cover, wherein an upper sealing portion of said can is inserted into said circular groove of said inner cover such that said inner O-ring is tightly attached to said upper sealing portion of said can; and an outer coupling ring comprising a plurality of coupling protrusions inserted into a plurality of coupling grooves formed in an outer circumferential portion of said inner cover; wherein a clearance is formed between said coupling grooves such that when said outer coupling ring is separated from said inner cover, said clearance spreads and separates said inner cover from said upper sealing portion of said can; and wherein at least one of said coupling grooves comprises a vertical coupling groove and a horizontal coupling groove, wherein said coupling protrusion of said outer coupling ring is inserted into said vertical coupling groove rotated at a portion where said vertical coupling groove is connected with said horizontal coupling groove and then coupled.

2. The can cover of claim 1, wherein said circular groove of said inner cover includes an inner circumferential protruding portion and an outer circumferential protruding portion spaced apart with a distance d1.

3. The can cover of claim 2, wherein said distance d1 between said inner circumferential protruding portion and said outer circumferential protruding portion is greater than or equal to a thickness d2 of said upper sealing portion.

4. The can cover of claim 2, wherein said inner circumferential protruding portion and said outer circumferential protruding portion are tightly attached to an inner circumference and an outer circumference of said upper sealing portion to seal an upper surface of said can.

5. The can cover of claim 1, wherein said upper sealing portion of said can is inserted into said circular groove in a state to assemble said inner O-ring by inserting into said circular groove.

6. The can cover of claim 5, wherein said inner O-ring is tightly attached to an upper surface of said upper sealing portion such that left surface, right side surfaces, and said upper surface of said upper sealing portion of said can are tightly attached and sealed by said inner cover triply at three surfaces.

7. The can cover of claim 2, wherein a lower projection of said upper sealing portion is caught by an inner projection of said outer circumferential protruding portion to prevent said upper sealing portion from being withdrawn from said circular groove, such that the upper sealing portion is tightly attached to said circular groove, and a state in which said upper sealing portion of said can is inserted into said circular groove is maintained.

8. The can cover of claim 1, wherein a length L1 of said horizontal coupling groove is approximately to 1/12 of said outer circumference of said inner cover.

9. The can cover of claim 1, wherein said horizontal coupling groove is formed such that a width thereof is decreased toward an end of said horizontal coupling groove.

Description

BRIEF DESCRIPTION OF THE FIGURES

(1) This invention is illustrated in the accompanying drawings, throughout which like reference letters indicate corresponding parts in the various figures. The embodiments herein will be better understood from the following description with reference to the drawings, in which:

(2) FIG. 1A is a cross-sectional side view illustrating a beverage can, according to the prior art;

(3) FIG. 1B is a bottom perspective view illustrating the auxiliary closure for a beverage can, according to the prior art;

(4) FIG. 2A is an exploded perspective view illustrating a configuration of a quadruple sealing structure for a can cover, according to the embodiments disclosed herein;

(5) FIG. 2B is an exploded perspective view thereof in which a clearance is formed in an inner cover of the quadruple sealing structure for the can cover, according to the embodiments disclosed herein;

(6) FIG. 2C is a bottom plan view thereof in which a clearance is formed in the inner cover that constitutes the can cover, according to the embodiments disclosed herein;

(7) FIG. 3A is a perspective view illustrating a state in which the can cover is assembled, according to the embodiments disclosed herein;

(8) FIG. 3B is a cross-sectional view taken along line A-A that runs through a center of the can cover showing the can cover and can separately, according to the embodiments disclosed herein;

(9) FIG. 4 is a cross-sectional view taken along line A-A that runs through a center of a can in a state in which the quadruple sealing structure for the can cover is engaged with the can, according to the embodiments disclosed herein;

(10) FIG. 5A is a perspective view illustrating a state in which the inner cover and an outer coupling ring are separated, according to an embodiment disclosed herein;

(11) FIG. 5B is a perspective view illustrating a state in which the inner cover and an outer coupling ring are separated, according to the embodiment disclosed herein and shown in FIGS. 2B and 2C;

(12) FIG. 6A is a cross-sectional view of the can cover of the present invention; and

(13) FIG. 6B is a cross-sectional view of the can cover of FIG. 6A across the cross-section denoted A-B in FIG. 6A.

DETAILED DESCRIPTION OF INVENTION

(14) The embodiments herein and the various features and advantageous details thereof are explained more fully with reference to the non-limiting embodiments that are illustrated in the accompanying drawings and detailed in the following description. Descriptions of well-known components and processing techniques are omitted so as to not unnecessarily obscure the embodiments herein. Also, the various embodiments described herein are not necessarily mutually exclusive, as some embodiments can be combined with one or more other embodiments to form new embodiments. The term or as used herein, refers to a non-exclusive or, unless otherwise indicated. The examples used herein are intended merely to facilitate an understanding of ways in which the embodiments herein can be practiced and to further enable those skilled in the art to practice the embodiments herein. Accordingly, the examples should not be construed as limiting the scope of the embodiments herein.

(15) The principal object of the embodiments herein is to provide a quadruple sealing structure for a can cover in which an upper surface of the can is sealed without using a sealing member, thereby making it possible to simplify the structure and reduce production costs.

(16) Another object of the embodiments herein is to provide a quadruple sealing structure for a can cover in which an inner O-ring, made of a silicone resin, is inserted into a circular groove of the inner cover to which an upper sealing portion of the can is coupled, thereby making it possible to improve a tight contact property to prevent leakage of contents in the can.

(17) Yet another object of the embodiments herein is to provide a quadruple sealing structure for a can cover in which the coupling protrusion of an outer coupling ring is inserted into the coupling groove of the inner cover to tighten an outer circumferential protruding portion, thereby making it possible to prevent the upper sealing portion of the can (which is inserted into the circular groove of the inner cover) from being withdrawn from the circular groove and to increase coupling force.

(18) To achieve the objects, the embodiments herein disclose a can cover including an inner cover. The inner cover includes a circular groove in which an upper sealing portion of the can is inserted. Further, the can cover includes an inner O-ring tightly attached to the upper sealing portion of the can, wherein the inner O-ring is inserted into the circular groove of the inner cover. Further, the can cover includes an outer coupling ring including a plurality of coupling protrusions inserted into a plurality of coupling grooves formed in an outer circumferential portion of the inner cover, wherein a clearance is formed between the coupling grooves such that when the outer coupling ring is separated from said inner cover, the clearance spreads and separates the inner cover from the upper sealing portion of the can.

(19) In an embodiment, the circular groove of the inner cover includes an inner circumferential protruding portion and an outer circumferential protruding portion spaced apart with a distance d1.

(20) In an embodiment, the distance d1 between the inner circumferential protruding portion and the outer circumferential protruding portion is greater than or equal to a thickness d2 of the upper sealing portion.

(21) In an embodiment, the inner circumferential protruding portion and the outer circumferential protruding portion are tightly attached to an inner circumference and an outer circumference of the upper sealing portion to seal an upper surface of the can.

(22) In an embodiment, the upper sealing portion of the can is inserted into the circular groove in a state to assemble the inner O-ring by inserting into the circular groove.

(23) In an embodiment, the inner O-ring is tightly attached to an upper surface of the upper sealing portion such that left surface, right side surfaces, and the upper surface of the upper sealing portion of the can are tightly attached and sealed by the inner cover triply at three surfaces.

(24) In an embodiment, a lower projection of the upper sealing portion is caught by an inner projection of the outer circumferential protruding portion to prevent the upper sealing portion from being withdrawn from the circular groove, such that the upper sealing portion is tightly attached to the circular groove, and a state in which the upper sealing portion of the can is inserted into the circular groove is maintained.

(25) In an embodiment, at least one of the coupling grooves comprises a vertical coupling groove and a horizontal coupling groove, wherein the coupling protrusion of the outer coupling ring is inserted into the vertical coupling groove rotated at a portion where the vertical coupling groove is connected with the horizontal coupling groove and then coupled.

(26) In an embodiment, wherein a length L1 of the horizontal coupling groove is to 1/12 of the outer circumference of the inner cover.

(27) In an embodiment, the horizontal coupling groove is formed such that a width thereof is decreased toward an end of the horizontal coupling groove.

(28) Unlike the conventional cans, the inner cover may have a coupling groove having a reverted L-shape () at a circumference thereof. The coupling groove may include a vertical coupling groove and a horizontal coupling groove. The coupling protrusion of the outer coupling ring is inserted into the vertical coupling groove rotated at a portion where the vertical coupling groove is connected with the horizontal coupling groove, and then inserted into and coupled to the horizontal coupling groove while sliding along the horizontal coupling groove. In an embodiment, the height h2 of the vertical coupling groove may be shorter than a height h1 of the inner cover, and a length L1 of the horizontal coupling groove may be approximately to 1/12 of the outer circumference of the inner cover. In an embodiment, the horizontal coupling groove may be formed such that a width thereof is decreased towards the end of the horizontal coupling groove, such that the coupling protrusion is securely tightened by the width of the horizontal coupling groove. As a result, the horizontal coupling groove is securely coupled to the coupling protrusion.

(29) Further, the left side surface, right side surfaces and the upper surface of the upper sealing portion of the can are tightly attached to the inner cover at three surfaces, thereby maintaining a sealed state of the upper surface of the can. In addition, the upper surface of the can is sealed without using a sealing member that covers a discharge portion of the can, thereby simplifying a structure and reducing production costs. Moreover, the outer circumference of the inner cover is tightened by the outer coupling ring, which is coupled by the coupling groove instead of a screw structure such that the upper sealing portion of the can (which is inserted into the circular groove of the inner cover) is prevented from being withdrawn from the circular groove, thereby increasing coupling force.

(30) Referring now to the drawings and more particularly to FIGS. 2A through 6B, where similar reference characters denote corresponding features consistently throughout the figures, there are shown preferred embodiments.

(31) FIG. 2A is an exploded perspective view illustrating a configuration of a quadruple sealing structure for a can cover, according to the embodiments disclosed herein. FIG. 2B is an exploded perspective view thereof in which a clearance is formed in an inner cover of the quadruple sealing structure for the can cover, according to the embodiments disclosed herein. FIG. 2C is a bottom plan view illustrating the inner cover that constitutes the can cover, according to the embodiments disclosed herein. Moreover, FIG. 3A is a perspective view illustrating a state in which the quadruple sealing structure for the can cover is assembled according to the embodiments disclosed herein, and FIG. 3B is a cross-sectional view taken along line A-A that runs through a center of the quadruple sealing structure for the can cover according to the embodiments disclosed herein.

(32) In an embodiment, a quadruple sealing structure 100 for a can cover includes: an inner cover 10 which has a circular groove 11 in which an upper sealing portion 111 formed at an upper end portion of a can 110 is inserted and covers an upper surface of the can 110; an inner O-ring 20 which is inserted into the circular groove 11 of the inner cover 10 and is tightly attached to the upper sealing portion 111 of the can 110; and an outer coupling ring 30 which has a plurality of coupling protrusions 31 inserted into a plurality of coupling grooves 12 formed in an outer circumferential portion of the inner cover 10.

(33) In an embodiment, the inner cover 10 has the circular groove 11, which is opened at a lower side thereof so that the upper sealing portion 111 (formed at the upper end portion of the can 110) is inserted into the circular groove 11. In an embodiment, the inner cover 10 may be made of a synthetic resin such as polypropylene.

(34) The circular groove 11 is formed concentrically with the upper sealing portion 111 of the can 110 such that when the upper surface of the can 110 is covered by the inner cover 10, the upper sealing portion 111 is inserted into and is tightly attached to the circular groove 11.

(35) In an exemplary embodiment, as illustrated in the FIGS. 2B and 2C, clearances 15 may be formed among the coupling grooves 12, respectively. Therefore, when the outer coupling ring 30 is separated from the inner cover 10 (for example, three clearances 15 are spread). As a result, the inner cover 10 may be easily separated from the upper sealing portion 111 of the can 110. In addition, in case if gas is produced from contents in the can 10 and gas pressure is applied inside the inner cover 10, the clearances 15 are spread and gas leaks thereby eliminating the gas pressure. In this case, it is possible to prevent the contents from spurting due to the gas when the inner cover 10 is separated from the can 110.

(36) FIG. 4 is a cross-sectional view taken along line A-A which runs through a center of a can in a state in which the quadruple sealing structure for the can, according to embodiments as disclosed herein.

(37) In an embodiment, the inner O-ring 20 is inserted into the circular groove 11 before the upper sealing portion 111 of the can 110 is inserted into the circular groove 11. Thereafter, when the upper sealing portion 111 is inserted into the circular groove 11, an upper surface of the upper sealing portion 111 is tightly attached to the inner O-ring 20; and left side surfaces, right side surfaces, and the upper surface of the upper sealing portion 111 of the can 110 are tightly attached to the inner cover 10 triply at three surfaces, thereby sealing the upper surface of the can 110.

(38) In an embodiment, the inner O-ring 20 may be made of a silicone resin or the like, and at least has a cross section having a quadrangular shape having a rounded upper surface, and may be assembled by being inserted into the circular groove 11. Therefore, when the upper sealing portion 111 of the can 110 is inserted into the circular groove 11, the inner O-ring 20 is tightly attached to the upper surface of the upper sealing portion 111 thereby sealing the upper surface of the can 110.

(39) In an embodiment, the inner O-ring 20 may include a plurality of protrusions. In FIGS. 6A and 6B, the inner O-ring 20 includes inner protrusion 21 and outer protrusion 22. Therefore, the protrusions 21 and 22 help the inner O-ring 20 to be more tightly attached to the upper surface of the upper sealing portion 111 thereby sealing the upper surface of the can 110.

(40) In addition, the circular groove 11 of the inner cover 10 includes an inner circumferential protruding portion 13 and an outer circumferential protruding portion 14. In this case, an interval d1 between the inner circumferential protruding portion 13 and the outer circumferential protruding portion 14 is equal to or slightly larger than a thickness d2 of the upper sealing portion 111 such that when the upper sealing portion 111 of the can 110 is inserted into the circular groove 11, an inner circumference and an outer circumference of the upper sealing portion 111 may be tightly attached and sealed by the inner circumferential protruding portion 13 and the outer circumferential protruding portion 14.

(41) In this case, a lower projection 111a of the upper sealing portion 111 is caught by an inner projection 14a of the outer circumferential protruding portion 14, thereby preventing the upper sealing portion 111 from being withdrawn from the circular groove 11. In addition, it is possible to maintain a state in which the upper sealing portion 111 is tightly attached to and inserted into the circular groove 11.

(42) Further, the state in which the upper sealing portion 111 is inserted into the circular groove 11 is maintained. As the lower projection 111a of the upper sealing portion 111 is caught by the inner projection 14a, the inner O-ring 20 is tightly attached to the upper sealing portion 111 by being pressed by the upper sealing portion 111. For example, when the inner projection 14a is in contact with the lower projection 111a, the lower projection 111a pushes the inner projection 14a and the upper sealing portion 111 pushes the O-ring 20 simultaneously. Therefore, the O-ring 20 can seal the upper side of the can.

(43) Therefore, liquid stored in the can 110 does not leak even though the liquid flows out of an outlet 112. Therefore, the left and right side surfaces and the upper surface of the upper sealing portion 111 of the can 110 are tightly attached to the inner cover 10 triply at three surfaces. As a result, the upper surface of the can 110 is sealed and is blocked from being communication leaking the liquid outside, thereby maintaining a sealed state.

(44) However, in an embodiment, the quadruple sealing structure 100 for the can cover is not limited to the triple sealing, and may also provide quadruple sealing or the like that tightens an outer circumference of the inner cover 10 with the outer coupling ring 30.

(45) FIG. 5A is a perspective view illustrating a state in which the inner cover and the outer coupling ring are separated, according to embodiments as disclosed herein. FIG. 5B is a perspective view illustrating a state in which an inner cover, which has a clearance according is separated from the outer coupling ring, according to embodiments as disclosed herein.

(46) In an embodiment, the inner cover 10 has the coupling groove 12 that is formed in the outer circumference of the inner cover 10 and has a reverted L-shape (-). The coupling groove 12 may include a vertical coupling groove 12a and a horizontal coupling groove 12b. Height h2 of the vertical coupling groove 12a may be, for example, about of a height h1 of the inner cover 10. Length L1 of the horizontal coupling groove 12b may be, for example, about of the outer circumference of the inner cover 10.

(47) The length L1 of the horizontal coupling groove 12b is determined depending on the number of coupling grooves 12. In the present exemplary embodiment, three coupling grooves 12 are formed to form an angle of 120 therebetween such that the three coupling grooves 12 are formed at points defined by dividing the outer circumference of the inner cover 10 into three equal parts. The length L1 of the horizontal coupling groove 12b may be set to a length corresponding to of the outer circumference of the inner cover 10 which is made by dividing of the outer circumference of the inner cover 10 into two equal parts.

(48) More coupling grooves 12 would yield a higher coupling force between the inner cover 10 and the outer coupling ring 30. However, because the length L1 of the horizontal coupling groove 12b is shortened, it may be difficult to simultaneously couple the plurality of coupling protrusions 31 to the plurality of coupling grooves 12. Therefore, for example, the number of coupling grooves 12 is determined in a range in which the length L1 of the horizontal coupling groove 12b is not too short, and the coupling force between the inner cover 10 and the outer coupling ring 30 is strong (for example, in a range from three to six).

(49) In an embodiment, the outer coupling ring 30 is made of an ABS resin or the like. The coupling protrusion 31 of the outer coupling ring 30 is inserted into the vertical coupling groove 12a, rotated counterclockwise at a portion where the vertical coupling groove 12a is connected with the horizontal coupling groove 12b, and then inserted into the horizontal coupling groove 12b while sliding along the horizontal coupling groove 12b. In this case, when the coupling protrusion 31 is rotated by the length L1 of the horizontal coupling groove 12b and then reaches the other end of the horizontal coupling groove 12b, the outer coupling ring 30 is completely coupled.

(50) With the outer coupling ring 30, the outer circumferential protruding portion 14 of the inner cover 10 is tightened. As a result, it is possible to prevent the upper sealing portion 111 of the can 110, which is inserted into the circular groove 11 of the inner cover 10, from being withdrawn from the circular groove 11, thereby increasing coupling force.

(51) The number of coupling protrusions 31 of the outer coupling ring 30 may be equal to the number of coupling grooves 12 of the inner cover 10. However, the number of coupling protrusions 31 may be smaller than the number of coupling grooves 12. But the number of coupling protrusions 31 may be at least two so that the inner cover 10 and the outer coupling ring 30 are coupled to each other at two or more points.

(52) In addition, the horizontal coupling groove 12b is formed such that a width thereof is decreased toward the end of the horizontal coupling groove 12b, such that the coupling protrusion 31 is securely tightened by the width of the horizontal coupling groove 12b. As a result, the horizontal coupling groove 12b is securely coupled to the coupling protrusion 31.

(53) In addition, as illustrated in the FIG. 5B, one or more clearances 15 may be formed between the coupling grooves 12 to the middle of the horizontal coupling groove 12b. In this case, when the inner cover 10 is tightened by the outer coupling ring 30, the clearance 15 becomes narrow. Therefore, it is possible to prevent the upper sealing portion 111 of the can 110, which is inserted into the circular groove 11 of the inner cover 10, from being withdrawn from the circular groove 11, thereby further increasing coupling force. When the outer coupling ring 30 is separated from the inner cover 10, the clearance 15 is spread again. In this case, even though the inside of the inner cover 10 is filled with gas, it is possible to prevent the contents from explosively spurting due to a gas leak when the inner cover 10 is separated from the can 110.

(54) The present invention is not limited to the above specific preferred exemplary embodiments, the exemplary embodiments may be variously modified by those skilled in the art to which the present invention pertains without departing from the subject matters of the present invention claimed in the claims, and the modifications belong to the scope disclosed in the claims.

(55) The foregoing description of the specific embodiments will so fully reveal the general nature of the embodiments herein that others can, by applying current knowledge, readily modify or adapt for various applications such specific embodiments without departing from the generic concept, and, therefore, such adaptations and modifications should and are intended to be comprehended within the meaning and range of equivalents of the disclosed embodiments. It is to be understood that the phraseology or terminology employed herein is for the purpose of description and not of limitation. Therefore, while the embodiments herein have been described in terms of preferred embodiments, those skilled in the art will recognize that the embodiments herein can be practiced with modification within the technical spirit and scope of the embodiments as described herein.