阅读说明：本技术 盖 (Cover ) 是由 藤重英治 松村淳治 荒木英司 高木健司 河田崇 于 2019-07-23 设计创作，主要内容包括：盖(1)具备：盖主体(11),其具有圆板状的顶板部(21)以及设于顶板部(21)的周缘部的筒状的裙部(22)；密封部件(12),其独立于盖主体(11)地与顶板部(21)对置并设于盖主体(11)内,外径形成为比裙部(22)的内径小；卡止部,在裙部(22)的周向设置有多个,多个卡止部限制密封部件(12)离开顶板部(21)的方向的移动并支承密封部件；以及限制部,其在裙部(22)的周向上设置有多个,在径向上比裙部(22)的内周面向内侧突出,限制密封部件(12)的径向的移动。(A cover (1) is provided with: a lid body (11) having a disc-shaped top plate (21) and a cylindrical skirt (22) provided at the peripheral edge of the top plate (21); a sealing member (12) which is provided in the cap body (11) so as to face the top plate (21) independently of the cap body (11), and which has an outer diameter smaller than the inner diameter of the skirt (22); a plurality of locking parts which are arranged in the circumferential direction of the skirt part (22), limit the movement of the sealing component (12) in the direction of separating from the top plate part (21) and support the sealing component; and a plurality of restricting portions provided in the circumferential direction of the skirt portion (22), protruding inward from the inner circumferential surface of the skirt portion (22) in the radial direction, and restricting the movement of the seal member (12) in the radial direction.)

1. A lid, characterized by comprising:

a lid body having a disc-shaped top plate portion and a cylindrical skirt portion provided at a peripheral edge portion of the top plate portion;

a sealing member provided in the cap body so as to face the top plate independently of the cap body, the sealing member having an outer diameter smaller than an inner diameter of the skirt portion;

a plurality of locking portions provided in a circumferential direction of the skirt portion, the plurality of locking portions restricting movement of the seal member in a direction away from the top plate portion and supporting the seal member; and

and a plurality of restricting portions provided in the circumferential direction of the skirt portion, protruding radially inward from the inner circumferential surface of the skirt portion, and restricting movement of the seal member in the radial direction.

2. The lid according to claim 1,

the restricting portion is located closer to the top plate portion than a portion where the locking portion abuts against the seal member.

3. The lid according to claim 2,

the inner surface of the skirt portion of the restricting portion has an inclined surface that is inclined toward a direction away from the top plate portion in the axial direction and the radially inner side.

4. The lid according to claim 3,

the diameter of a circle segment connecting the radially innermost ends of the plurality of locking portions is set to be smaller than the diameter of a circle segment connecting the axially lowermost ends of the plurality of inclined surfaces.

5. The lid according to any one of claims 1 to 4,

the sealing member is formed so that an outer peripheral edge thereof is thinner than a sealing portion that abuts against a mouth portion of the container.

Technical Field

The present invention relates to a lid for closing off a can container.

Background

Conventionally, a cap for sealing a mouth of a can container has a structure in which a sealing member made of a resin material is provided on an inner surface of a cap body so as to be in close contact with the mouth. Further, as such a cover, the following technique is disclosed in japanese patent laid-open publication No. 2017-178421: in order to reduce the cap opening torque when opening the cap, the cap body and the sealing member are not bonded. When the seal member is made non-adhesive as described above, the seal member is locked so that the seal member does not fall off by forming a locking projection protruding inward on the skirt portion of the cap body.

Such a sealing member is manufactured by, for example, supplying a molten or softened resin material into a cap body and molding the resin material into a predetermined shape by a mold.

Documents of the prior art

Patent document

Patent document 1: japanese patent laid-open publication No. 2017-178421

Disclosure of Invention

Problems to be solved by the invention

However, the above-described seal member may shrink after being molded into a predetermined shape, and the outer diameter of the seal member may be smaller than the inner diameter of the cap body. Since the sealing member that is not bonded to the cap body can move in the cap body in the radial direction, the sealing member moves in the radial direction with respect to the cap body, and the sealing portion that is in close contact with the mouth portion of the container does not properly abut against the mouth portion, which may impair sealability.

Accordingly, an object of the present invention is to provide a cap capable of securing sealability of a sealing member that is not bonded to a cap body.

Means for solving the problems

As an aspect of the present invention, a cover includes: a lid body having a disc-shaped top plate portion and a cylindrical skirt portion provided at a peripheral edge portion of the top plate portion; a sealing member provided in the cap body so as to face the top plate independently of the cap body, the sealing member having an outer diameter smaller than an inner diameter of the skirt portion; a plurality of locking portions provided in a circumferential direction of the skirt portion, the plurality of locking portions restricting movement of the seal member in a direction away from the top plate portion and supporting the seal member; and a plurality of restricting portions provided in the circumferential direction of the skirt portion, protruding radially inward from the inner circumferential surface of the skirt portion, and restricting movement of the seal member in the radial direction.

Effects of the invention

According to the present invention, a cap that can ensure the sealing property of a sealing member that is not bonded to a cap body can be provided.

Drawings

Fig. 1 is a side view partially showing a configuration of a cover according to a first embodiment of the present invention.

Fig. 2 is a side view showing the structure of the cover.

Fig. 3 is a sectional view showing the structure of the cap.

Fig. 4 is a sectional view showing the structure of the cap.

Fig. 5 is a sectional view showing a main part structure of the cap.

Fig. 6 is a sectional view showing a main part structure of the cap.

Detailed Description

Hereinafter, a cap 1 according to an embodiment of the present invention will be described with reference to fig. 1 to 6.

Fig. 1 is a side view partially showing a configuration of a cap 1 according to a first embodiment of the present invention.

Fig. 2 is a side view showing the structure of the cap 1. Fig. 3 is a sectional view showing the structure of the cap 1. Fig. 4 is a sectional view showing the structure of the cap 1 in a section taken along line IV-IV. Fig. 5 and 6 are sectional views schematically showing the configuration of the main part of the cap 1.

As shown in fig. 1, the cap 1 is attached to the mouth portion 110 of the can container 100, and is wound and fixed in a state where the cap is fitted to the mouth portion 110 of the can container 100, thereby sealing the can container 100.

Here, the can container 100 is a so-called bottle-type container that accommodates beverages and the like. For example, the can container 100 is made of a metal material such as an aluminum alloy and a surface-treated steel sheet laminated on both surfaces thereof. The tank container 100 is formed in a cylindrical shape having one end portion reduced in diameter and different in outer diameter. The can container 100 has a mouth 110 for discharging the contained beverage at one end. The mouth portion 110 has a jaw 111, a male screw 112, and a curl 113 on its outer peripheral surface from the bottom surface side toward the end of the can container 100.

The jaw 111 is configured to protrude annularly. The curled portion 113 is formed smaller in diameter than the male screw portion 112. The curled portion 113 is formed smaller than the inner diameter of the lid 1. The curled portion 113 is formed by folding the end of the mouth portion 110 at least once. The curl portion 113 constitutes an opening portion through which the beverage stored in the can container 100 is discharged.

As shown in fig. 1 and 3, the cap 1 includes a cap body 11 and a sealing member 12 provided independently in the cap body 11.

The cover body 11 is formed of a metal material such as an aluminum alloy and a resin coating layer formed thereon. The lid main body 11 is formed by subjecting a thin flat plate-like material to respective forming such as drawing, embossing, and roll forming in a cup shape.

The lid main body 11 includes a disc-shaped top plate 21 and a cylindrical skirt 22 integrally provided on a peripheral edge portion of the top plate 21. The cap body 11 is integrally and continuously formed by an annular and curved corner portion 23 of the top plate portion 21 and the skirt portion 22.

The top plate 21 is formed in a disc shape, and the main surface is formed in a flat surface. The skirt 22 has one end continuous with the top plate 21 via the corner 23 and the other end open. The skirt portion 22 includes, from the end portion on the top plate portion 21 side to the end portion of the opening, a plurality of scored portions 31 and a plurality of recessed portions 32 each having an air discharge slit 31a, an internal thread portion 33, and a tamper evident band portion (タンパーエビデンスバンド portion) 34.

As shown in fig. 1 to 4, the plurality of scored line portions 31, the plurality of concave portions 32, the female screw portion 33, and the tamper evident band portion 34 are formed by performing processing such as embossing, roll forming, or the like on a cup-shaped molded article including the top plate portion 21, the cylindrical skirt portion 22 in which the plurality of scored line portions 31, the plurality of concave portions 32, the female screw portion 33, and the tamper evident band portion 34 are not molded, and the corner portion 23.

The notch portion 31 has a vent slit 31a and protrudes from the inner peripheral surface of the skirt portion 22. In other words, the notch portion 31 constitutes a partially cut-away projection on the inner peripheral surface of the skirt 22 by recessing a portion of the skirt 22 in the radial direction of the skirt 22 toward the inner direction.

The plurality of notch portions 31 are provided in plurality along the circumferential direction of the skirt portion 22. The gas discharge slit 31a is a notch for discharging gas and the like in the can container 100 when unsealing. The vent slit 31a is formed by cutting the end portion of the scored line portion 31 on the top plate portion 21 side.

The diameter of a circle of contact between the end portions of the plurality of scored lines 31 on the side of the exhaust slit 31a, in other words, the innermost ends of the end portions of the plurality of scored lines 31 on the side of the top plate portion 21 in the radial direction, is set to be smaller than the outer diameter of the seal member 12. Therefore, the plurality of notched portions 31 constitute locking portions that regulate movement of the sealing member 12 disposed on the top plate portion 21 in a direction away from the top plate portion 21.

The recessed portion 32 is formed by recessing a part of the skirt portion 22 from the outer peripheral surface side to the inner peripheral surface side. Specifically, the recessed portion 32 forms a protrusion on the inner peripheral surface of the skirt 22 by recessing a part of the skirt 22 inward in the radial direction of the skirt 22.

The recess 32 has an inclined surface 32a on the inner side of the skirt 22. The inclined surface 32a is inclined in the axial direction toward the direction away from the top plate portion 21 and radially inward. In other words, the height of the recessed portion 32 from the inner peripheral surface of the skirt portion 22 increases as the recessed portion moves away from the top plate portion 21, thereby inclining the inner surface of the recessed portion 32.

A plurality of, preferably three or more, and four in the present embodiment are provided in the recess 32. For example, the recesses 32 are arranged at substantially equal intervals in the circumferential direction of the skirt 22. The diameter of the circle connecting the inclined surfaces 32a of the plurality of recesses 32 is configured to be the same as the outer diameter of the seal member 12 at least in a part in the axial direction. In other words, the plurality of inclined surfaces 32a are the following regulating portions: the positioning device is configured to be able to abut against the outer peripheral edge of the seal member 12 in a part in the axial direction, restrict the movement of the abutting seal member 12 in the radial direction, and position the seal member 12 in the radial direction. That is, the plurality of concave portions 32 perform centering of the seal member 12 abutting on the inclined surface 32a with respect to the cap body 11. The diameter of the circle segment connecting the lowermost ends of the inclined surfaces 32a in the axial direction is set to be larger than the diameter of the circle segment connecting the innermost ends of the end portions of the score parts 31 on the exhaust slit 31a side in the radial direction.

Further, at least the portion of the plurality of recessed portions 32 having the same diameter as the outer diameter of the seal member 12 of the inclined surface 32a is arranged closer to the top plate portion 21 than the locking portion, which is the end portion of the notch portion 31 closer to the exhaust slit 31a, in the axial direction of the skirt portion 22. For example, the plurality of concave portions 32 are arranged along the circumferential direction of the skirt portion 22 together with the plurality of scored portions 31, and are arranged closer to the top plate portion 21 side than the plurality of scored portions 31 in the axial direction of the skirt portion 22.

In the present embodiment, as shown in fig. 4, the plurality of notch portions 31 are provided at 13 positions, and the plurality of concave portions 32 are provided at 4 positions. For example, three scored portions 31 are arranged at three positions in the circumferential direction of the skirt portion 22, four scored portions 31 are arranged at one position, and one concave portion 32 is arranged between the rows of the scored portions 31. In the present embodiment, the plurality of concave portions 32 are disposed closer to the top plate portion 21 than the plurality of notch portions 31 of the skirt portion 22.

The internal thread 33 is configured to be screwed with the external thread 112 of the can container 100. The internal thread portion 33 is molded together with the can container 100. That is, the female screw portion 33 is not molded in the cap 1 before being attached to the can container 100, but is molded when being integrally combined with the can container 100.

The tamper evident band 34 engages with the jaw 111 of the can container 100 in the axial direction of the cap 1 in the direction in which the cap 1 is separated from the can container 100. The tamper evident band 34 has a breaking portion 34a for breaking when the cap 1 is unsealed and separating from the skirt 22. That is, the tamper evident band portion 34 is configured by forming a slit by leaving the fracture portion 34a on the end portion side of the skirt portion 22, and is shaped into the shape of the jaw portion 111 of the can container 100 when integrally combined with the can container 100, and is engaged with the jaw portion 111, similarly to the female screw portion 33.

The sealing member 12 is configured independently of the cap body 11. That is, the sealing member 12 is disposed to face the top plate 21 and the skirt 22, and is not bonded to the lid 1. Specifically, the seal member 12 is formed in a disc shape and has an outer diameter larger than the diameter of an inscribed circle of the notch portion 31 provided in the skirt portion 22 of the cap body 11. The seal member 12 has the same outer diameter as the diameter of at least a part of the inclined surface 32a of the recess 32 protruding in the radial direction from the inner peripheral surface of the skirt 22, specifically, the diameter of an inscribed circle of the central portion in the axial direction of the inclined surface 32 a.

The seal member 12 is engaged with the end portion of the score portion 31 provided with the air vent slit 31a, which radially protrudes from the inner peripheral surface of the skirt portion 22, in the axial direction of the cap body 11, and is thereby inhibited from coming off the cap body 11. Thus, the sealing member 12 is not bonded to the lid body 11, but is provided integrally with the lid body 11. The seal member 12 is centered so that the center thereof is located on the axis of the cap body 11 by engaging the inclined surface 32a of the recess 32 radially protruding from the inner peripheral surface of the skirt 22 in the radial direction of the cap body 11.

The seal member 12 includes a disc-shaped sliding layer 41 and a disc-shaped seal layer 42 integrally laminated on the sliding layer 41. The seal member 12 is formed by integrally molding the sliding layer 41 and the seal layer 42 with different resin materials. The sealing member 12 includes a flat plate portion 12a having a uniform thickness and a curved surface portion 12b that is a curved surface and constitutes an outer surface of the outer peripheral edge of the top plate portion 21. In other words, the sealing member 12 is formed in a disc shape, and the ridge portion on the top plate portion 21 side is formed of a curved surface having a predetermined curvature. The seal member 12 is configured such that the thickness of the curved surface portion 12b constituting the outer peripheral edge side is smaller than that of the flat plate portion 12a, the thickness of the curved surface portion 12b gradually decreases from the center side toward the outer peripheral edge, and the tip end of the curved surface portion 12b, i.e., the outer peripheral edge, is configured to be thinnest compared to the other portions. A part of the flat plate portion 12a on the curved surface portion 12b side constitutes a seal portion that abuts against the mouth portion 110 of the can container 100. The flat plate portion 12a is configured such that, for example, the seal portion is thicker than other portions.

The sliding layer 41 is made of a resin material having a relatively high hardness (hardness) as compared with the sealing layer 42. The sliding layer 41 is made of a resin material that does not have adhesiveness or tackiness with the resin coating layer of the cover main body 11. That is, the sliding layer 41 is not adhered to the top plate 21, and slides on the top plate 21 while contacting the top plate 21.

Examples of the resin material used for the sliding layer 41 include olefin resins such as polypropylene resins and polyethylene resins, polyester resins such as polyethylene terephthalate resins, styrene resins, and acrylic resins. In the present embodiment, the sliding layer 41 is made of, for example, polypropylene resin. In addition, a pigment, a lubricant, a softener, and the like can be appropriately added to the resin material used for the sliding layer 41.

The slide layer 41 is provided independently of the cover main body 11 so as to face the top plate portion 21 of the cover main body 11. The slide layer 41 is configured to be slidable with respect to the top plate 21 of the cover main body 11 by a resin material used. The sliding layer 41 is formed in a disc shape. The outer diameter of the slide layer 41 is smaller than the inner diameter of the skirt 22, is larger than the diameter of the inscribed circle of the plurality of notch portions 31, has the same diameter as the inscribed circle passing through a part of the inclined surfaces 32a of the plurality of concave portions 32 in the axial direction, and is configured to be larger than the outer diameter of the curled portion 113 of the mouth portion 110.

The sliding layer 41 includes a first flat plate portion 41a having a uniform thickness, a first curved surface portion 41b having a curved surface constituting an outer surface of the outer peripheral edge of the top plate portion 21, and a protrusion portion 41c provided on the sealing layer 42 side of the first curved surface portion 41 b. The first flat plate portion 41a is formed to have a uniform thickness from the center of the slide layer 41 to the outer peripheral side of the portion facing the curled portion 113 of the mouth portion 110.

The thickness of the first curved surface portion 41b from the outer peripheral side to the outer peripheral edge of the portion facing the curled portion 113 of the mouth portion 110 is configured to gradually decrease toward the outer peripheral edge. The protrusion 41c is formed in an annular protrusion shape that is inclined with respect to the axial direction of the slide layer 41 and the plane direction of the top plate 21 and is bent or inclined toward the end portion side of the opening of the skirt 22. The protrusion 41c gradually decreases in thickness from the first curved surface portion 41b toward the distal end.

The seal layer 42 is composed of a resin material having a relatively low hardness (soft) as compared with the sliding layer 41. Examples of the resin material used for the sealing layer 42 include olefin-based resins, polyester-based resins, styrene-based resins, acrylic resins, and the like, and more preferably include a blend material of a styrene-based elastomer and a polypropylene resin, a blend material of low-density polyethylene and a styrene-based elastomer, a polyester-based elastomer, and the like. In the present embodiment, the sealing layer 42 is made of, for example, a mixed material of a styrene-based elastomer and a polypropylene resin. In addition, a pigment, a lubricant, a softening agent, and the like can be appropriately added to the resin material used for the sealing layer 42.

The seal layer 42 is integrally provided on the main surface of the slide layer 41 on the side facing the mouth portion 110. The seal layer 42 is formed in a disc shape. The seal layer 42 is configured to have an outer diameter larger than the outer diameter of the curled portion 113 of the mouth portion 110 and substantially the same as the outer diameter of the sliding layer 41.

The seal layer 42 includes a second flat plate portion 42a having a thickness thicker than other portions at a portion facing the mouth portion 110, a second curved surface portion 42b having a curved surface forming an outer surface of the outer peripheral edge on the top plate portion 21 side, and an annular recess 42c provided in a main surface of the second curved surface portion 42b on a side opposite to the sliding layer 41 side. The main surface of the second flat plate portion 42a facing the curl portion 113 is configured to be flat. For example, the second flat plate portion 42a and the first flat plate portion 41a of the sliding layer 41 are formed to have the same diameter. The second flat plate portion 42a constitutes the flat plate portion 12a of the seal member 12 together with the first flat plate portion 41 a.

The second curved surface portion 42b has, for example, a main surface that is one surface with the main surface of the second flat plate portion 42a facing the curled portion 113. The second curved surface portion 42b is configured such that the thickness of a portion from the outer peripheral side to the outer peripheral edge of a portion facing the curled portion 113 of the mouth portion 110 gradually decreases toward the outer peripheral edge. The second curved surface portion 42b is laminated on the first curved surface portion 41b and the protrusion portion 41 c. The second curved surface portion 42b constitutes the curved surface portion 12b of the seal member 12 together with the first curved surface portion 41b and the protrusion portion 41 c.

The recess 42c is, for example, an annular recess having a semicircular cross section. The recess 42c abuts, for example, an end of the cut portion 31 on the side of the exhaust slit 31a when the seal member 12 is centered on the cap body 11.

When the lid 1 is disposed with the top plate portion 21 facing upward and the sealing member 12 is dropped further downward than the top plate portion 21, the sealing member 12 abuts against the end portion of the score portion 31 on the side of the exhaust slit 31a, and is locked by the score portion 31. Thereby, the downward movement of the seal member 12 is restricted in the gravity direction. When the cap 1 is removed from the can container 100, the seal member 12 is supported by the notch portion 31, and moves together with the cap body 11 away from the mouth portion 110.

The method for manufacturing the cap 1 configured as described above will be briefly described below. First, a cup-shaped cap body 11 is molded from, for example, a metal plate material. Next, the lid main body 11 is placed on the lower mold in a posture in which the top plate portion 21 is positioned on the lower side in the gravity direction. Next, the resin material for the sliding layer 41, which is melted or softened, is supplied onto the top plate portion 21, and the supplied resin material is compression-molded by an upper mold, thereby molding the sliding layer 41. Next, the resin material for the sealing layer 42, which is melted or softened, is supplied onto the sliding layer 41, and the supplied resin material is compression-molded by an upper mold, thereby molding the sealing layer 42 on the sliding layer 41. Then, the scored portion 31, the recess 32, the vent slit 31a, the tamper band portion 34, and the like are molded on the skirt portion 22 of the cap main body 11. The cap 1 is manufactured by such a process.

When the manufactured cap 1 is attached to the mouth portion 110 of the can container 100, the top plate portion 21 of the cap 1 assumes an upward posture. At this time, the sealing member 12 is lowered while being in contact with the inclined surface 32a of the recess 32 on the top plate 21 side so that the sealing member 12 is positioned at the center portion of the lid main body 11, and then, is lowered by a certain distance, is supported by the end portion of the notch portion 31, and is restricted from moving in the lowering direction. When the cap 1 is applied to the mouth portion 110 in this state, a predetermined portion of the sealing layer 42 of the sealing member 12 faces the mouth portion 110. In this state, the skirt 22 is roll-formed while drawing the corner 23 of the cap body 11, and the cap 1 is fixed to the mouth 110 of the can container 100 by crimping.

According to the cap 1 configured as described above, the skirt portion 22 is provided with the plurality of, preferably 3 or more, recessed portions 32 for regulating the movement of the seal member 12 in the radial direction of the cap 1, and the seal member 12 can be positioned in the radial direction in the cap body 11 by abutting the seal member 12 against the inclined surface 32a of the recessed portion 32. That is, the plurality of recesses 32 can suppress displacement of the seal member 12 in the radial direction in the cap body 11, and can keep the position of the seal member 12 in the radial direction with respect to the cap body 11 constant. As a result, when the cap 1 is applied to the mouth portion 110 of the can container 100, the sealing member 12 can be reliably brought into close contact with the mouth portion 110 at a predetermined position. Thus, the lid 1 can improve the sealing property of the mouth portion 110 of the can container 100, and can improve the drawing formability, the tamper resistance, the drop resistance, and the crimpability of the corner portion 23 of the lid main body 11. That is, when the lid 1 is wound around the can container 100, even if the non-adhesive sealing member 12 is used for the lid main body 11, high sealing performance can be ensured. In addition, since the sealing member 12 is centered by the concave portion 32 even when the lid 1 reseals the can container 100, high sealability can be ensured.

At least a portion of the concave portion 32, which is a restricting portion for positioning the seal member 12 in the radial direction, which abuts against the seal member 12 is disposed on the top plate portion 21 side of the notch portion 31, which is a locking portion for restricting movement in a direction away from the top plate portion 21 in the axial direction of the seal member 12. With this configuration, when the lid 1 is in the posture in which the top plate portion 21 is positioned upward, the sealing member 12 is reliably brought into contact with the recessed portion 32, and then the sealing member 12 is supported by the end portion of the notch portion 31, so that the positioning of the sealing member 12 in the radial direction can be reliably performed.

The inclined surface 32a of the recess 32 is inclined inward of the lid main body 11 so as to face the top plate 21 and to be away from the top plate 21. Therefore, when the lid 1 is set in the posture in which the top plate portion 21 is positioned upward, the sealing member 12 is moved toward the notch portion 31 while coming into contact with the plurality of inclined surfaces 32a, and therefore the sealing member 12 can be reliably positioned. The diameter of the circle of contact between the radially innermost ends of the end portions of the plurality of notch portions 31 on the side of the air discharge slit 31a is set smaller than the diameter of the circle of contact between the axially lowermost ends of the plurality of inclined surfaces 32 a. Therefore, the movement of the seal member 12 in the direction away from the top plate 21 can be reliably restricted by the end portion of the notched portion 31 on the side of the exhaust slit 31a, which serves as the locking portion.

Further, since the outer peripheral edge of the seal member 12 is formed to be thinner than other portions and is configured to be more easily deformed than other portions, when the seal member 12 abuts against the inclined surface 32a of the recess 32, the abutting edge is deformed, and the seal member 12 can be prevented from being supported in the recess 32 as much as possible. Thus, the lid 1 can support the seal member 12 at the end of the cut portion 31 on the top plate 21 side, which is the locking portion.

Further, since the recess 32 for positioning the sealing member 12 with respect to the cap body 11 is a configuration in which a plurality of the notched portions 31 are conventionally provided and a part of the notched portions 31 are changed, the manufacturing apparatus of the cap 1 may be any apparatus capable of molding the recess 32 by a part of the mold for molding the notched portions 31. Therefore, the manufacturing apparatus of the cap 1 including the concave portion 32 can be simply changed from the mold, and it is not necessary to change the equipment from the existing equipment to a large extent, and the increase of the equipment cost can be prevented.

As described above, according to the cap 1 of the embodiment of the present invention, when the cap is fitted to the mouth portion 110 of the can container 100, the sealing property of the non-adhesive sealing member 12 can be secured in the cap body 11.

The present invention is not limited to the above embodiments. For example, in the above example, the configuration in which the notch portions 31 are provided at 13 positions of the skirt portion 22 and the recessed portions 32 are provided at 4 positions of the skirt portion 22 has been described, but the present invention is not limited to this. That is, the notch portion 31 can be appropriately set as long as it has a function of discharging gas and the like in the can container 100 at the time of unsealing the can container 100 by the gas discharge slit 31a and the number and shape of the sealing members 12 can be reliably locked. The number and shape of the concave portions 32 can be appropriately set as long as the movement of the seal member 12 in the radial direction is restricted and the concave portions can be centered so that the center of the seal member 12 and the center of the cap body 11 are arranged concentrically. However, the recess 32 is preferably arranged at 3 or more positions separated by a predetermined distance at least in the circumferential direction, and has an inclined surface 32a facing the top plate 21. Although the distance in the axial direction from the top plate portion 21 to the scored line portion 31 and the recessed portion 32 can be appropriately set, it is preferable that the moving seal member 12 is not collapsed and falls off from the plurality of scored line portions 31 and the plurality of recessed portions 32.

In the above example, the locking portion that supports the seal member 12 and prevents the seal member 12 from coming off the cover body 11 is configured to have the vent slit 31a provided on the top plate portion 21 side and to be the end portion of the cut portion 31 on the top plate portion 21 side. For example, the locking portion may be formed by providing a protrusion other than the notch portion 31 and the recess portion 32 in the skirt portion 22. For example, the vent slit 31a may be provided on the opposite side of the top plate 21 in the axial direction, and the locking portion may be formed by a surface of the notch portion 31 protruding from the inner circumferential surface of the skirt portion 22.

However, by making the locking portion the end of the scored line portion 31 on the side of the top plate portion 21 where the air vent slit 31a is provided, the molding device may be configured to mold the scored line portion 31 and the recessed portion 32 by using a mold even in the configuration of providing the recessed portion 32. Accordingly, the configuration in which the end of score part 31 on the side of top plate part 21 where exhaust slit 31a is provided is a locking part is preferable because it can be manufactured at low cost and is easy to manufacture. In manufacturing the cap 1, the sealing member 12 may be molded in one cap body 11 and then the molded sealing member 12 may be supplied to another cap body 11. In this case, the vent slit 31a is provided on the top plate 21 side of the notch portion 31, so that the inner surface of the notch portion 31 and the inner surface of the skirt portion 22 are continuous in the direction of inserting the seal member 12 into the cap main body 11, and therefore, the seal member 12 can be easily inserted.

The present invention is not limited to the above-described embodiments, and various modifications can be made in the implementation stage without departing from the scope of the invention. In addition, the respective embodiments may be implemented in appropriate combinations, in which case combined effects can be obtained. The above embodiments include various inventions, and various inventions can be extracted by combinations selected from a plurality of disclosed constituent elements. For example, even if some of the constituent elements shown in the embodiments are deleted, if the problem can be solved and the effect can be obtained, the configuration in which the constituent elements are deleted can be extracted as an invention.

Description of the reference numerals

1 … lid, 11 … lid body, 12 … sealing member, 12a … flat plate portion, 12b … curved surface portion, 21 … top plate portion, 22 … skirt portion, 23 … corner portion, 31 … notch portion, 31a … air vent slit, 32 … concave portion, 32a … inclined surface, 33 … internal thread portion, 34 … tamper evident band portion, 34a … breaking portion, 41 … sliding layer, 41a … first flat plate portion, 41b … first curved surface portion, 41c … projecting portion, 42 … sealing layer, 42a … second flat plate portion, 42b … second curved surface portion, 42c … recess, 100 … can container, 110 … mouth portion, 111 … jaw portion, 112 … external thread portion, 113 … curled portion.