JP5037278B2 - Metal cap - Google Patents

Description

  The present invention relates to a metal cap having a vent slit that can quickly release the pressure in the container to the outside, and particularly relates to a metal cap excellent in inner surface inspection.

  2. Description of the Related Art Conventionally, a resealable metal bottle-type can filled with contents such as carbonated beverages and sealed with a sealing liner formed on the inner surface of a top plate portion of a metal cap is known. As a cap for this type of container, a cap having a vent slit formed by cutting a part of the skirt portion in the circumferential direction is used above the skirt portion so that the internal pressure can be quickly released when opened. Yes. An example of a cap that closes a container opening and has an exhaust slit formed therein is described in Patent Document 1.

  When forming such a vent slit, the inner roll is inserted inside the cap shell and brought into contact with the inner wall surface of the cap shell skirt, while the outer wall surface slightly below the inner wall surface with which the inner roll abuts. It is known that the outer tool is pressed against the cap shell from the outside, and the inner roll and the outer tool are used to apply a shearing load to a part of the skirt portion for cutting. In such a method, the cut end surface of the skirt portion is formed so as to be displaced in the radial direction above and below the slit, and thereby the inclined wall is inclined inward and upward in the radial direction of the cap on the skirt portion below the slit. Will be formed.

Japanese Patent No. 3723200

  By the way, when a cap is manufactured and commercialized, it is generally performed to check whether or not the manufactured cap is manufactured according to a standard. In such an inspection, when inspecting the inner surface of the cap, light is applied to the inner surface of the cap that is conveyed in an inverted state, the inner surface of the cap is photographed with a camera, and the inner surface side of the cap is stained from the obtained imaging, The protrusion or the burr | flash etc. with respect to the standard dimension of the sealing liner is detected. However, if an inclined wall is formed below the vent slit, the light irradiated for the inspection is reflected to the camera side by the inclined wall, so that the portion appears brighter at the time of imaging and is as bright as the liner resin. As a result, the inclined wall becomes difficult to distinguish from the protrusion of the liner and the burr, and there is a possibility that sufficient inspection cannot be performed.

  The present invention has been made against the background of the above circumstances, and an object of the present invention is to provide a metal cap excellent in inner surface inspection property by photographing.

  In order to achieve the above object, the invention of claim 1 is provided with a top plate portion and a skirt portion that hangs down from a peripheral portion of the top plate portion, formed from a metal thin plate having a synthetic resin coating on at least the inner surface side. A sealing liner for sealing the container mouth end is provided on the inner surface side of the top plate, and a slit in which a part of the skirt is cut in the circumferential direction is formed at the upper part of the skirt. Among the wall portions of the skirt portion cut up and down by the slit, in the metal cap having the inclined wall whose lower wall portion is inclined inward and upward in the radial direction of the skirt portion, the central axis of the inclined wall cap The inclination angle (α) is 10 ° to 40 °, and the synthetic resin coating on the inner surface side of the cap contains 1 to 20% by weight of white pigment.

  According to a second aspect of the present invention, in addition to the configuration according to the first aspect, a knurl portion in which a concave portion and a convex portion are alternately repeated in a circumferential direction is formed on the skirt portion, and the slit is formed of the knurl. It is characterized in that it is formed to extend in the circumferential direction at a position spaced upward from the part.

  The invention of claim 3 is characterized in that, in addition to the configuration of claim 2, the knurled portion is not formed with a slit cut in a linear shape.

  According to a fourth aspect of the present invention, in addition to the structure according to any one of the first to third aspects, the slit is formed so that a gap separated by the slit is widened when the internal pressure of the container becomes a predetermined value or more. It is characterized in that it includes an explosion-proof slit that is deformed so that the internal pressure can be released, and a vent slit that is shorter in the circumferential direction than the explosion-proof slit.

  According to the first aspect of the present invention, the inclination angle of the inclined wall with respect to the central axis of the cap is set to 10 ° to 40 °, so that the inclination angle of the inclined wall is equal to that of the cap even when light is irradiated during the inner surface inspection of the cap. Since it is gently formed with respect to the axial direction, reflection of light on the inner surface of the inclined wall can be suppressed, and a white pigment is added to the synthetic resin coating on the inner surface side of the cap in the range of 1 to 20% by weight. By containing it, the inner surface of the cap is whitish, and the color of the cap metal material and the color caused by components in the synthetic resin coating can be suppressed. As a result, the brightness of the inclined wall of the cap during imaging is suppressed and sealed. It is possible to reliably detect protrusions and burrs with respect to the standard size of the liner. Moreover, since white pigment is used, black stains can be reliably detected.

  According to the invention of claim 2, the slit is formed so as to extend in the circumferential direction at a position spaced upward from the knurled portion, so that the cap is attached to the container mouth portion after filling the contents, and the slit is passed through. When the cleaning water flows into the gap between the cap and the mouth and is cleaned, the upper part of the cap can be cleaned, so that the cleaning performance can be improved, and by adopting such a shape, the inclined wall and Even when the distance to the liner is short, the brightness of the inclined wall is suppressed to facilitate the distinction between the inclined wall and the liner, and the protrusion and burr of the sealing liner can be reliably detected.

  According to the invention of claim 3, since the slit cut in a linear shape is not formed in the knurled portion, the lower portion of the slit formed so as to extend in the circumferential direction at a position spaced upward from the knurled portion. Since there is no slit, the length of the inclined wall in the cap axial direction can be sufficiently secured, and the inclination angle of the inclined wall can be made sufficiently gentle.

  According to the invention of claim 4, even when an explosion-proof slit having a longer circumferential length than the vent slit is formed as a slit and a corresponding inclined wall having a longer circumferential length is formed, The brightness of the inclined wall is suppressed, and the protrusion and burr of the sealing liner can be reliably detected.

  As shown in FIGS. 2 and 3, the metal cap 1 of the present invention is a metal cap having an explosion-proof function capable of releasing the internal pressure when the container internal pressure rises to a predetermined value or more. And a sealing liner 3 made of thermoplastic resin. The metal cap 1 is attached to the mouth of a container (not shown) such as a metal bottle-shaped can having a threaded portion at the mouth, and then the curl located at the mouth end of the container. The corner of the cap shell 2 is drawn so that the sealing liner 3 (not shown) and the sealing liner 3 are in close contact with each other, and are screwed into the threaded portion of the mouth by a roll-on capper (not shown). It is used to seal the container by, for example, threading.

  As the material of the cap shell 2, conventionally known metal plates for caps such as aluminum alloy plates and surface-treated steel plates are used. Further, at least the inner surface side of the cap shell 2 of the present invention is covered with a synthetic resin coating film such as a synthetic resin coating film or a film, and is particularly made of a polymer having adhesiveness to the resin material of the sealing liner 3. Providing a protective coating is desirable because it eliminates the need for an adhesive. In addition, as a resin paint constituting the synthetic resin film, an epoxy resin or a polyester resin can be suitably used, and as a resin film, an olefin resin such as polyethylene or polypropylene, or a polyester resin such as polyethylene terephthalate, etc. Can be suitably used.

  And in the cap 1 of this invention, 1-20 weight% of white pigments are contained in the synthetic resin film of the cap inner surface side. As the white pigment of the present invention, titanium dioxide, zinc white, antimony white, zinc sulfide and the like can be suitably used, and it is particularly preferable to use titanium dioxide which is excellent in slipping property and hiding property.

  In the present embodiment, as the material of the cap shell 2, a metal plate made of an aluminum alloy JIS3105 is coated with an epoxy resin paint containing 2.5 wt% titanium dioxide as an inner surface paint. .

  The cap shell 2 of the present invention is obtained by integrally forming a disk-shaped top plate portion 4 and a cylindrical skirt portion 5 in a cup shape by drawing a metal plate as described above with a press or the like. In addition, a knurled portion 6 is formed in the upper portion of the skirt portion 5 after the drawing and in which concave portions and convex portions are alternately repeated over the entire circumferential direction. A rupture line 7 extending in the circumferential direction is formed at the lower part of the skirt portion 5, and the skirt wall is formed in a main portion above the rupture line 7 and a pilfer proof band portion 8 below the rupture line 7. It is partitioned.

  Above the skirt portion 5 of the cap shell 2 according to the present invention, the skirt portion 5 is spaced apart upward from the upper end of the knurl portion 6 formed at the upper portion of the skirt portion 5 and extends in the circumferential direction to a position at substantially the same height of the skirt portion 5. A plurality of slits 9 are formed. The slit includes a vent slit 9a having a short circumferential length and a long explosion-proof slit 9b, and the vent slit 9a corresponds to a position corresponding to an upper portion of the concave portion 6a among the concave and convex portions constituting the knurled portion 6. The explosion-proof slit 9b has a length that is equal to the length of two of the concave portions 6a and the length of one of the convex portions 6b. Have Note that the knurl portion 6 is not formed with a slit.

  Further, the cut end portion of the skirt portion 5 cut up and down by the slit 9 is shaped such that the lower cut end portion 10b enters the inside of the cap 1 in the radial direction with respect to the upper cut end portion 10a. In the lower portion of the slit 9, a substantially vertical wall portion 11 is slightly formed from the surface of the lower cut end portion 10 b of the slit 9, and the radius of the cap 1 extends from the lower end of the substantially vertical wall portion 11 to the upper end of the knurl portion 6. An inclined wall 12 that is inclined inward and upward is formed.

  The inclination angle of the inclined wall 12 is set in a range of 10 ° to 40 ° with respect to the central axis of the cap 1, and the length of the substantially vertical wall portion 11 in the cap axis direction is 0.1 to 0.3 mm. 3 mm, the length of the inclined wall 12 in the axial direction of the cap 1 is 0.5 to 1.5 mm, and is formed between the sheared upper cut end 10a and the lower cut end 10b of the slit 9. The gap in the radial direction of the cap 1 is 0.1 to 0.5 mm, and the upper cut end portion 10a of the slit 9 and the upper end portion of the knurl portion 6 have substantially the same radial position.

  In such a metal cap 1, the strength of the portion where the explosion-proof slit 9 b having a long circumferential length is formed is weaker than that of the portion where the vent slit 9 a is formed. When a pressure is applied to the top plate 4 of the first plate, deformation tends to occur in the vicinity of the explosion-proof slit 9b. As a result, when the internal pressure of the container reaches a predetermined value or more, the ceiling in the vicinity of the explosion-proof slit 9b. The portion from the plate portion 4 to the upper portion of the skirt portion 5 is deformed so as to protrude outward from the cap 1, and the opening is widened so that the gap of the explosion-proof slit 9b is widened. A gap is formed between the end portion and the internal pressure of the container can be released. In particular, in the embodiment described here, the explosion-proof slit 9b is formed at a position spaced upward from the knurled portion 6 whose strength has been improved by the uneven shape, so that the internal pressure rises and the top plate portion 4 is pressurized. The skirt portion 5 in the vicinity of the explosion-proof slit 9b can be more easily deformed when a load is applied.

  Further, by forming the vent slit 9a together with the explosion-proof slit 9b, the container 1 can be quickly released when the cap 1 is rotated in the opening direction to release the sealing, and the cleaning liquid is removed from the vent slit 9a. Is allowed to flow, so that the gap between the outer surface side of the threaded portion of the container mouth and the inner surface side of the skirt portion 5 of the cap 1 can be efficiently cleaned. Further, since no slit is formed in the knurled portion 6, the explosion-proof slit 9b formed above the knurled portion 6 is deformed so that the container internal pressure becomes a predetermined value or more and the gap is widened. Since the rupture started from the point does not reach the knurled portion 6, the opening by the explosion-proof slit 9b does not widen beyond a predetermined range, and the internal pressure can be reliably released within the predetermined pressure range.

  In the metal cap 1 of the present invention, the circumferential length of the explosion-proof slit 9b is set in a range of 5 to 15 mm, and the circumferential length of the vent slit 9a is set in a range of 1 to 5 mm. Is preferred. The vent slit 9a is preferably set to a length in the range of 15 to 50% of the circumferential length of the explosion-proof slit 9b. Further, the circumferential interval between the adjacent explosion-proof slits 9b and the vent slits 9a is preferably 30% or more of the length of the explosion-proof slit 9b, and more preferably 40-100. % Range. Moreover, the space | interval of the circumferential direction between adjacent vent slit 9a is set to the range of 2-5 mm. Furthermore, the distance in the axial direction of the cap 1 from the outer surface of the cap top plate portion 4 to the upper end of the knurled portion 6 is set in the range of 1.4 to 3.3 mm, and from the outer surface of the top plate portion 4 of the cap 1. The distance in the axial direction of the cap 1 to the lower edge portion of the explosion-proof slit 9b and the vent slit 9a is set in the range of 0.8 to 1.5 mm, and the lower edge of the explosion-proof slit 9b from the upper end of the knurled portion 6 The distance in the axial direction of the cap 1 that is separated to the portion is set in the range of 0.6 to 1.8 mm.

  Further, as the resin material of the sealing liner 3 formed on the inner surface of the top plate portion 4 of the cap shell 2, conventionally known materials such as an olefin resin, a polyester resin, a styrene resin, and an acrylic resin are used. can do. For example, a blend material of low-density polyethylene and styrene-based elastomer, a polyester-based elastomer, and the like can be suitably used, and pigments, lubricants, softeners, and the like can be appropriately added to these resins. The sealing liner 3 is such that such a resin material is melted, supplied to the inner surface side of the top plate portion 4 of the cap shell 2, and the resin material is embossed into a predetermined shape by a mold. And a sealing portion for sealing the container mouth portion around the top plate portion 4, and the sealing portion includes a flat portion 3 a that is in close contact with the top portion of the curl portion that is the mouth end portion of the container mouth portion. An inner rib 3b that protrudes downward from the inner peripheral edge of the flat portion 3a and is in close contact with the inner peripheral surface of the curled portion; and a curled portion that protrudes downward from the outer peripheral edge of the flat portion 3a. And an outer rib 3c that is in close contact with the outer peripheral surface.

  In the present invention, the distance in the axial direction of the cap 1 from the inner surface of the top plate portion 4 of the cap shell 2 to the lower surface of the flat portion 3a of the sealing liner 3 is set in the range of 0.5 to 1.5 mm. The distance in the axial direction of the cap 1 from the inner surface of the top plate portion 4 of the cap shell 2 to the lower end of the inner rib 3b of the sealing liner 3 is set in a range of 1 to 3 mm, and the top plate portion 4 of the cap shell 2 The distance in the axial direction of the cap 1 from the inner surface of the sealing liner 3 to the lower end of the outer rib 3c of the sealing liner 3 is 0.7 to 2.1 mm, and the axial direction of the cap 1 from the lower surface of the flat portion 3a to the lower end of the outer rib 3c The distance in the radial direction of the cap 1 between the outer peripheral edge of the outer rib 3c and the inner surface of the skirt part 5 of the cap shell 2 is 0.5. It is set in a range of 1.5mm. Further, the difference in the distance in the axial direction of the cap 1 from the lower end of the outer rib 3c to the lower edge of the explosion-proof slit 9b is set within 0.5 mm.

  According to the metal cap 1 of the present invention as described above, the inclination angle of the inclined wall 12 with respect to the central axis of the cap 1 is set to 10 ° to 40 °. Since the inclination angle of the wall 12 is gently formed with respect to the axial direction of the cap 1, reflection of light on the inner surface of the inclined wall 12 can be suppressed and the synthetic resin coating on the inner surface side of the cap 1 can be used. By including the white pigment in the range of 1 to 20% by weight, the inner surface of the cap 1 can be made whitish, and the color of the metallic material of the cap 1 and the coloring caused by components in the synthetic resin coating can be suppressed. It is possible to suppress the brightness of the inner surface of the inclined wall 12 of the cap 1 at the time of imaging, and to reliably detect protrusions and burrs with respect to the standard dimension of the sealing liner 3. Moreover, since white pigment is used, black stains can be reliably detected.

  More specifically, when inspecting the inner surface of the metal cap 1 according to the present invention, as shown in FIG. 4, the cap 1 is disposed in an inverted state with the inner surface facing upward, and an annular shape is formed above the cap 1. The illuminating device 20 is arrange | positioned and light is irradiated toward the inner surface of the cap 1. As shown in FIG. Further, one inspection camera 21, 22 is arranged vertically above the cap 1, and four inspection cameras 21, 22 are arranged obliquely above, and the cap 22 is passed through the annular illumination device 20 by the camera 22 arranged vertically above the cap 1. The entire inner surface of the top plate portion 4 is photographed, and the peripheral portion of the top plate portion 4 and the skirt portion 5 are photographed from four directions by the camera 22 disposed obliquely above the cap 1.

  Therefore, the light irradiated from above the cap 1 toward the inner surface of the cap 1 by the lighting device 20 is irradiated to the entire inner surface of the cap 1, but the inclination angle of the inclined wall 12 of the cap 1 is the axial direction of the cap 1. Therefore, the amount of light irradiated from above on the inclined wall 12 is reduced, and the amount of reflected light can be suppressed. Further, since the inclined wall 12 is not perpendicular to or close to the optical axis of the camera 22 photographed from obliquely above, reflection of light at the time of imaging is suppressed.

  In the present invention, when the inclination angle of the inclined wall 12 with respect to the central axis of the cap 1 is smaller than 10 °, the cap 1 formed between the sheared upper cut end portion 10a and the lower cut end portion 10b of the slit 9. There is a possibility that the gap in the radial direction becomes too narrow and a sufficient gas venting function cannot be obtained. On the other hand, if the inclination angle of the inclined wall 12 with respect to the central axis of the cap 1 is larger than 40 °, there is a possibility that light reflection on the inner surface of the inclined wall 12 cannot be sufficiently suppressed during the inner surface inspection. Further, when the amount of the white pigment in the synthetic resin coating is less than 1% by weight, there is a possibility that the gloss of the metal material of the cap 1 and the color development due to the components in the synthetic resin coating cannot be sufficiently suppressed. On the other hand, if the amount of the white pigment in the synthetic resin coating is more than 20% by weight, there is a risk that the wear of the forming tool becomes severe when the slit 9 is formed and the productivity is deteriorated.

  In addition, if titanium dioxide, which is excellent in slipperiness and concealment, is used as the white pigment, the color of the cap 1 due to the gloss of the metal material of the cap 1 and the components in the synthetic resin coating can be further increased without impairing the cap 1 opening performance. Can be sufficiently concealed. In addition, the slit 9 is formed so as to extend in the circumferential direction at a position spaced upward from the knurled portion 6, so that the washing water is passed through the slit 9 in a state where the cap 1 is attached to the container mouth portion after the contents are filled. When flowing into the gap between the cap 1 and the mouth portion for cleaning, the upper portion of the cap 1 can be cleaned, so that the cleaning performance can be improved and the inclined wall 12 can be formed with such a shape. Even when the distance to the liner 3 is short, the brightness of the inclined wall 12 is suppressed to facilitate the distinction between the inclined wall 12 and the liner 3, and the protrusion and burr of the liner 3 can be reliably detected. Further, since the knurl portion 6 is not formed with a slit cut in a linear shape, a slit is formed below a slit 9 formed so as to extend in the circumferential direction at a position spaced upward from the knurl portion 6. Since it does not exist, the length of the inclined wall 12 in the axial direction of the cap 1 can be sufficiently secured, and the inclination angle of the inclined wall 12 can be made sufficiently gentle. Furthermore, even if an explosion-proof slit 9b having a longer circumferential length than the vent slit 9a is formed as the slit 9, and a corresponding inclined wall 12 having a longer circumferential length is formed, the inclined wall at the time of imaging is used. The brightness of 12 can be suppressed, and the protrusion and burr of the liner 3 can be reliably detected.

It is sectional drawing which shows a part of metal cap concerning this invention. It is the front view which cut the half of the metal cap concerning this invention. It is a front view of the metal cap concerning this invention. It is a schematic diagram which shows the state of the inner surface inspection of the metal caps concerning this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Metal cap, 2 ... Cap shell, 3 ... Sealing liner, 4 ... Top plate part, 5 ... Skirt part, 6 ... Knurl part, 7 ... Breaking line, 8 ... Pilfer proof band part, 9 ... Slit, 9a ... Vent slit, 9b ... Explosion-proof slit, 6a ... Recess, 6b ... Projection, 10a ... Upper cut end, 10b ... Lower cut end, 11 ... Substantially vertical wall, 12 ... Inclined wall, 20 ... Illumination Device, 21, 22 ... Camera.

Claims (4)

It is formed from a metal thin plate having a synthetic resin coating on at least the inner surface side, and includes a top plate portion and a skirt portion that hangs down from the peripheral portion of the top plate portion. A sealing liner is provided, and a slit in which a part of the skirt portion is cut in the circumferential direction is formed in the upper portion of the skirt portion, and the lower portion of the wall portion of the skirt portion cut up and down by the slit. In the metal cap having an inclined wall whose side wall portion is inclined radially inward and upward of the skirt portion,
The inclination angle (α) of the inclined wall with respect to the center axis of the cap is 10 ° to 40 °, and the synthetic resin coating on the inner surface side of the cap contains white pigment in the range of 1 to 20% by weight. A metal cap characterized by that.   A knurled portion in which concave portions and convex portions are alternately repeated in the circumferential direction is formed at the upper portion of the skirt portion, and the slit is formed to extend in the circumferential direction at a position spaced upward from the knurled portion. The metal cap according to claim 1.   The metal cap according to claim 2, wherein a slit cut in a linear shape is not formed in the knurl portion.   The slit is deformed so that a gap separated by the slit is widened when the internal pressure of the container becomes a predetermined value or more, and the slit is configured to be able to release the internal pressure, and more than the explosion-proof slit. The metal cap according to claim 1, further comprising a vent slit having a short circumferential length.

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