The present invention relates to a package of rod-shaped smoking articles, such as cigarettes and filter cigarettes, and a blank for the package.
A package of this type is generally called a hinge-lid package. The hinge-lid package has a rectangular parallelepiped shape as a whole and includes four angular edges extending along its longitudinal direction. For that reason, a package of this type does not fit well in the hand when the user grasps the package.
To solve this problem, one well-known package has rounded edges instead of angular edges (for example, Patent Document 1). The rounded edge has an arc-like shape as viewed in cross-section of the package. In the case of the package disclosed in Patent Document 1, the arc-like shape of the rounded edge is produced by a notch line array formed in the inner surface of a blank for the package. More concretely, the notch lines extend parallel to each other along the longitudinal direction of the package, or of the blank. Notch line arrays are not exposed in the outer surface of the package, so that they do not disfigure the package, and the package fits well in the hand when the user grasps the package.
In the case of the package disclosed in Patent Document 1, although the rounded edges have smooth outer surfaces, the package has a plain and simple form, and therefore do not improve the appearance of the package.
It is an object of the invention to provide a package of rod-shaped smoking articles, which has rounded edges that help improve the package appearance, and a blank for the package.
In order to achieve the object, a package of the invention comprises a box body with an open end, the box body including a rounded edge forming at least one longitudinal edge extending along a longitudinal direction of the box body, the rounded edge having an arc-like shape as viewed in cross-section of the box body and a groove pattern only in an inner surface of the rounded edge, wherein the groove pattern provides the arc-like shape of the rounded edge and causes a design in an outer surface of the rounded edge to appear; and a lid connected to the open end of the box body through a hinge, for opening and closing the open end.
The groove pattern gives flexibility to the rounded edge, and thus easily and reliably provides the arc-like shape of the rounded edge. A design corresponding to the groove pattern that is exhibited in the outer surface of the rounded edge adds a unique figure to the package. The size, or curvature radius, of the arc of the rounded edge is determined only by width of the groove pattern.
To be more specific, the groove pattern forms a lattice design having diamond-shaped meshes or slash design.
Preferably, the rounded edge is formed in each of four longitudinal edges of the box body. In this case, the box body may further include reinforcing patches that are disposed in the inner surfaces of the round edges and stretch across the groove patterns in the vicinity of the open end.
The invention also provides a blank for the package. The blank will be described in the explanation of one embodiment below.
In the package of rod-shaped smoking articles and a blank therefore according to the present invention, since the rounded edge is obtained by the groove pattern formed only in the inner surface of the rounded edge, the groove pattern is not exposed in the outer surface of the rounded edge. The groove pattern makes the design corresponding to the groove pattern appear in the outer surface of the rounded edge. As a result, the package of the invention provides a unique appearance as compared to conventional packages, and is excellent in appearance.
With or without the groove patterns, the reinforcing patches prevent a deformation in the open end of the box body, so that the lid can be smoothly and reliably opened/closed.
The package shown in
The package includes a box 2. The box 2 has an upper end that is open. This open end is closed with a lid 6. The lid 6 is connected to a rear edge of the open end of the box 2 through a self hinge 4. The lid 6 is capable of turning around the self hinge 4, to thereby open/close the open end of the box 2.
More specifically, as is apparent from
The lid 6 has a box-like shape and a lower end cut open at an angle. The lid 6 closes the open end 12 of the box 2 so as to cover a projecting portion of the inner frame 10. At this time, the lower end of the lid 6 meets to the upper end of the box body 8.
The box body 8 of an ordinary type has four angular edges extending in the longitudinal direction thereof. According to the embodiment, however, the box body 8 has rounded edges 16 instead of angular edges. The rounded edges 16 each have an arc-like shape as viewed in cross-section of the box body 8. The lid 6 also has similar rounded edges 18 corresponding to the rounded edges 16. When the lid 6 is closed, each of the rounded edges 16 and the corresponding rounded edge 18 are aligned with each other as is obvious from
The inner frame 10 generally includes two angular edges 24.
As is clear from
Features of the package of the invention will be clarified in the following descriptions about a blank 28 for forming the box body 8 and the lid 6.
As a basic form and folding process of the blank 28 are publicly known, the basic form of the blank 28 will be briefly described below.
The blank 28 is roughly divided into a main section 30 for forming the box body 8 and a subsection 32 for forming the lid 6. The main section 30 extends in one direction. The subsection 32 is connected to an upper end of the main section 30 through the self hinge 4 as shown in
The main section 30 includes a rear panel 34, a bottom panel 36, and a front panel 38, in the order named from the subsection 32-side, or the self hinge 4-side. These panels 34, 36 and 38 are disposed in the longitudinal direction of the main section 30. Each two adjacent panels are connected to each other through a horizontal fold line extending across the main section 30. The panels 34, 36 and 38 form rear, bottom and front walls, respectively, of the box body 8.
Inner side flaps 40 are connected to both sides of the rear panel 34 through longitudinal fold lines extending in the longitudinal direction of the main section 30. The inner side flaps 40 form inner parts of side walls of the box body 8. Outer side flaps 42 are connected to both sides of the front panel 38 through longitudinal fold lines. The outer side flaps 42 form outer parts of the side walls. In short, the side walls of the box body 8 are formed by superposing the inner side flaps 40 upon the respective outer side flaps 42.
With reference to
The subsection 32 includes a rear panel 46, a top panel 48, a front panel 50 and an inner front panel 52. The panels 46, 48, 50 and 52 are disposed in the order named from the rear panel 34-side. Each two adjacent panels are connected to each other through a horizontal fold line. The panels 46, 48 and 50 form rear, top and front walls, respectively, of the lid 6. The inner front panel 52 is a reinforcing member for the front panel 50, and forms an inner part of the front wall of the lid 6.
As is apparent from
Inner side flaps 54 are connected to both sides of the rear panel 46 through longitudinal fold lines. Outer side flaps 56 are connected to both sides of the front panel 50 through longitudinal fold lines. Each of the inner flaps 54 and the corresponding outer side flap 56, which are disposed on either same side of the subsection 32, are superposed upon each other to form one of side walls of the lid 6.
Inner top flaps 58 are connected to upper edges of the inner side flaps 54 through horizontal fold lines. The inner top flaps 58 are reinforcing members for the top panel 48, and form inner parts of the top wall of the lid 6.
In general, each of the horizontal fold lines is a linear indentation that is created in the blank 28. However, the longitudinal fold lines for forming the rounded edges 16 and 18 are not indentations. The longitudinal fold lines have a shape of a strip extending in the longitudinal direction of the blank 28, and are formed into a groove pattern with a given width W.
More specifically, groove patterns 16a and 18a for forming the rounded edges 16 and 18 are formed only in an inner surface of the blank 28 as shown in
To be precise, it is preferable that inclination angles α and β fall in a range from 5 to 45 degrees, where α and β are the inclination angles of the linear grooves 19a and 19b in relation to the longitudinal direction of the box body 8. The inclination angles α and β may be either identical to or different from each other.
The groove patterns 16a and 18a each have a width W of about 8 mm. The groove patterns 16a and 18a have lattice meshes that are defined by sides each having a length L of about 1.5 mm.
In the present embodiment, the linear grooves 19 are obtained by forming V-shaped cuts in the inner surface of the blank 28. As shown in
The groove patterns 16a and 18a practically decrease the thickness of the blank 28. As a result, the regions of the blank 28, in which the groove patterns 16a and 18a are located, are more flexible than other regions of the blank 28. For this reason, when the rounded edges 16 and 18 are created by folding the blank 28 along the groove patterns 16a and 18a, the linear grooves 19 of the groove patterns 16a and 18a absorb difference between an arc length of outer surfaces of the round edges and an arc length of inner surfaces thereof, thereby forming smooth outer surfaces in the rounded edges 16 and 18.
Consequently, the blank 28, or the flaps 40 and 42 of the blank 28, are stably folded along the groove patterns 16a and 18a. It is then possible to surely form the rounded edges 16 and 18 each in a desired arc-like shape.
Since the groove patterns 16a and 18a are flexible, it is not necessary to preliminarily fold the groove patterns 16a and 18a. This enables the folding work of the blank 28 to be carried out using a conventional packing machine, and the package shown in
As is evident from
In the groove patterns 16a and 18a, there remains the thickness T1 between the bottom of each of the linear grooves 19 and the outer surface of the blank 28. When the inner and outer side flaps 40 and 42 are folded along the groove patterns 16a, a design corresponding to the groove patterns 16a, namely, a lattice design F, appears like a relief in the outer surface of the rounded edge 16 as shown in a part of the rounded edge 16 illustrated in
Preferably, the groove patterns 16a of the blank 28 have a plurality of reinforcing patches 60 as shown in
In particular, as is apparent from
The linear grooves 19 shown in
The glue 62 forming the reinforcing patches 60 may be used to bond the box body 8 to the inner frame 10. It is therefore possible to eliminate the process of applying an adhesive agent for bonding the box body 8 and the inner frame 10 to each other.
The invention is not limited to the one embodiment described above, but may be modified in various ways.
For example, the groove patterns 16a and 18a for forming the rounded edges 16 and 18 are not limited to the lattice-like pattern, and may have other various figures. For example, as shown in
There are two groove patterns 24a for forming rounded edges, instead of the angular edges 24, in an inner surface of the blank 64. The groove patterns 24a are also formed of a lattice-like pattern similar to the groove patterns 16a and 18a or a group of linear grooves.
Front and rear horizontal edges of the bottom wall of the box body 8 and those of the top wall of the lid 6 may be formed into rounded edges similar to the round edges 16 and 18.
The package of the invention needs to have at least either one of the rounded edges 16 or 18. The invention can be applied not only to the hinge-lid package but also to a tongue-lid package as well.
Number | Date | Country | Kind |
---|---|---|---|
2007-120676 | May 2007 | JP | national |
Number | Date | Country | |
---|---|---|---|
Parent | PCT/JP2008/057699 | Apr 2008 | US |
Child | 12609256 | US |