JP5902064B2 - Metal foil molding container - Google Patents

Metal foil molding container Download PDF

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JP5902064B2
JP5902064B2 JP2012175977A JP2012175977A JP5902064B2 JP 5902064 B2 JP5902064 B2 JP 5902064B2 JP 2012175977 A JP2012175977 A JP 2012175977A JP 2012175977 A JP2012175977 A JP 2012175977A JP 5902064 B2 JP5902064 B2 JP 5902064B2
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corner
wall
metal foil
peripheral wall
container
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JP2014034404A (en
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宅麻 日高
宅麻 日高
正憲 尾崎
正憲 尾崎
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Toyo Aluminium Ekco Products Co Ltd
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Description

本発明は、金属箔成型容器に関する。   The present invention relates to a metal foil molded container.

アルミニウム箔などの金属箔を成型した容器に、うどんなどの食品を収納してなる食品包装体が知られている。
この種の食品包装体は、容器ごとガスコンロにかけて簡単に加熱調理することができ、また食後はその容器を使い捨てにできるため、便利であり広く流通している。
There is known a food package in which udon food is stored in a container formed of a metal foil such as aluminum foil.
This type of food package is convenient and widely distributed because the entire container can be cooked easily on a gas stove and the container can be disposable after meals.

このような食品包装体の一種として、粉末スープや濃縮液体スープ入りの袋が同封されているものがある。
その場合、これらスープ(だし、つゆ)の袋を破って容器にあけ、さらに水を容器に入れて、そのスープが粉末である場合にはこれを水に溶かし、濃縮液体である場合にはこれを水で薄めて、適当な濃度に調整することになる。
As a kind of such food packaging body, there is one in which a bag containing powdered soup or concentrated liquid soup is enclosed.
In that case, break the bag of soup (dashi, soy sauce) and open it in a container. Add water to the container. If the soup is powder, dissolve it in water. If it is a concentrated liquid, Is diluted with water and adjusted to an appropriate concentration.

そこでスープの濃度を簡単に調整できるように、金属箔成型容器の周壁に屈曲部などから構成される視認可能な喫水線を設けることが考えられうる。
このように喫水線を設け、その喫水線に水面が合致するように容器に水を入れると、スープが適当な濃度に調整されることになる。
Therefore, it is conceivable to provide a visible water line composed of a bent portion or the like on the peripheral wall of the metal foil molded container so that the concentration of the soup can be easily adjusted.
Thus, if a water line is provided and water is put into a container so that a water surface may correspond to the water line, soup will be adjusted to a suitable density | concentration.

ちなみに特許文献1の図1等には、金属箔成型容器の周壁のほぼ全周に凹みを設けた構成が開示されているが、この凹みは容器に収納された冷凍食品が容器の底から浮き上がらないように押さえ込み、ガスコンロにかけた際の容器の空焚きを防止するためのものである。
したがって、この凹みは、いわば冷凍食品のグリップ部として機能するものであり、喫水線とは機能や目的を異にする。
Incidentally, FIG. 1 of Patent Document 1 discloses a configuration in which a recess is provided on almost the entire circumference of the peripheral wall of the metal foil molded container. This recess causes the frozen food stored in the container to float from the bottom of the container. This is to prevent the container from being blown when it is pressed down and put on a gas stove.
Therefore, this dent functions as a grip for frozen food, and has a different function and purpose from the water line.

図3および図4に、喫水線を設けた金属箔成型用器20の例を示す。図示のように、この金属箔成型容器20は、底壁21と、底壁21の周縁から広がって立ち上がる周壁22と、周壁22の上縁から水平に張り出すフランジ23と、フランジ23の外縁に連設される縁巻き24と、からなる。
底壁21には補強のための凹凸部21aが設けられている。このような金属箔成型容器20は金属箔からプレス成型されている。なお図3中、周壁22およびフランジ23に付されている線は、金属箔から容器20をプレス成型する際に自然に生じる皺を示している。
FIG. 3 and FIG. 4 show an example of a metal foil molding device 20 provided with a water line. As shown in the figure, the metal foil molding container 20 includes a bottom wall 21, a peripheral wall 22 that rises and rises from the periphery of the bottom wall 21, a flange 23 that projects horizontally from the upper edge of the peripheral wall 22, and an outer edge of the flange 23. And an edge winding 24 provided continuously.
The bottom wall 21 is provided with an uneven portion 21a for reinforcement. Such a metal foil molding container 20 is press-molded from a metal foil. In FIG. 3, the lines attached to the peripheral wall 22 and the flange 23 indicate wrinkles that occur naturally when the container 20 is press-molded from a metal foil.

ここで図示のように、底壁21は略円形であり、周壁22の下縁部はこれに対応して略円形の輪郭を構成している。一方、周壁22の上縁部は略円形ではなく略正方形の輪郭を構成している。
したがって、周壁22は底壁21から円錐形状に均等に広がっているのではなく、図4(a)および(b)に示すように、その周方向に等間隔をあけた四箇所が高さ方向の中途で外向きに屈曲し、他の箇所よりも大きく広がって、すなわち立ち上がり角度が小さくなっている。
そして、その屈曲部22aから上方に広がった上縁箇所が、略正方形の輪郭の四隅をそれぞれ含む角隅箇所となっている。
この四箇所の屈曲部22aは、周壁22の周方向に沿って弧状に連続しているため、視認が容易であり、これが容器20に入れる水の量の目安となる喫水線22aとして機能することになる。
As shown in the figure, the bottom wall 21 has a substantially circular shape, and the lower edge portion of the peripheral wall 22 forms a substantially circular outline correspondingly. On the other hand, the upper edge portion of the peripheral wall 22 forms a substantially square outline instead of a substantially circular shape.
Therefore, the peripheral wall 22 does not spread evenly in a conical shape from the bottom wall 21, but as shown in FIGS. 4 (a) and 4 (b), there are four places at equal intervals in the circumferential direction. It bends outward in the middle and spreads larger than other places, that is, the rising angle is small.
And the upper edge part spread upward from the bending part 22a is a corner part including each of the four corners of a substantially square outline.
The four bent portions 22a are continuous in an arc shape along the circumferential direction of the peripheral wall 22, and thus are easily visible, and this functions as a draft line 22a that serves as a measure of the amount of water to be put into the container 20. Become.

特開2008−155937号公報JP 2008-155937 A

しかし、金属箔成型容器の周壁の全周のうちの比較的広範囲にわたって、喫水線となる屈曲部が設けられていると、喫水線が設けられていない通常の容器と比較して全体の強度が大きく低下してしまう。
特にこの種の容器を用いた食品包装体は、上下に積み重ねた状態で梱包され搬送されることが多いため、高さ方向(上下方向)に荷重がかかりやすくなっている。
そのような高さ方向の荷重がかかると、喫水線を起点として周壁が大きく折れ曲がり、容器が上下に潰れてしまうことがある。容器が潰れてしまうと、食品包装体の商品価値がなくなってしまうため、容器の上下荷重に対する強度が大きく低下することは避けなければならない。
However, if a bent portion serving as a water line is provided over a relatively wide range of the entire circumference of the peripheral wall of the metal foil molded container, the overall strength is greatly reduced compared to a normal container without a water line. Resulting in.
In particular, food packaging bodies using this type of container are often packed and transported in a state where they are stacked one above the other, so that a load is easily applied in the height direction (vertical direction).
When such a load in the height direction is applied, the peripheral wall may be greatly bent from the draft line, and the container may be crushed up and down. If the container is crushed, the commercial value of the food package is lost, so that the strength of the container against the vertical load must be largely reduced.

そこで本発明の解決すべき課題は、金属箔成型容器について、周壁に喫水線を設けたことに伴う、容器全体の上下荷重に対する強度の低下を抑制することである。   Therefore, the problem to be solved by the present invention is to suppress a decrease in strength with respect to the vertical load of the entire container, which is caused by providing a draft line on the peripheral wall of the metal foil molded container.

本発明では、略円形の底壁と、前記底壁の周縁に連設された略円形の輪郭を構成する下縁から広がって立ち上がり上縁が略正方形の輪郭を構成する周壁と、を備え、金属箔により一体に成型された金属箔成型容器について、以下のような構成を採用したのである。
前記周壁は、その全周のうち、前記上縁部の略正方形の四隅をそれぞれ含む所定範囲の箇所からその直下の下縁部にかけての箇所が四つの角隅壁を構成し、隣接する前記角隅壁間の箇所が四つの中間壁を構成している。
そして前記各角隅壁は、周方向の中央に位置する角隅中央壁と、周方向の両側に位置する角隅両側壁と、からなっている。
さらに前記各中間壁および前記各角隅中央壁は、その下縁部から上縁部にかけて略一定の角度で直線状に立ち上がっている。一方、前記各角隅両側壁は、その立ち上がり方向の中途に視認可能な喫水線となる屈曲部を有して内向きに屈曲して立ち上がっている。
In the present invention, it comprises a substantially circular bottom wall, and a peripheral wall that extends from a lower edge that constitutes a substantially circular contour provided continuously to the periphery of the bottom wall and has a rising upper edge that constitutes a substantially square contour, The following configuration was adopted for the metal foil molding container integrally molded with the metal foil.
In the peripheral wall, a portion from a predetermined range including the substantially square four corners of the upper edge to the lower edge immediately below the peripheral edge constitutes four corner walls, and the adjacent corners The points between the corner walls constitute four intermediate walls.
Each corner wall is composed of a corner center wall located at the center in the circumferential direction and corner both side walls located at both sides in the circumferential direction.
Further, each of the intermediate walls and the central wall of each corner corner rises linearly at a substantially constant angle from the lower edge portion to the upper edge portion. On the other hand, each side wall of each corner has a bent portion that becomes a visible water line in the middle of the rising direction, and is bent inward to rise.

前記容器を平面視した状態で、前記底壁の円の中心と前記周壁の屈曲部の周方向の両端部をそれぞれ結んだ両直線がなす角度θ2、すなわち角隅両側壁の周壁全周(360度)に占める範囲は、12〜24度であるのが好ましい。
前記容器を平面視した状態で、前記底壁の円の中心と前記周壁の周方向に隣接する屈曲部の近接する側の端部をそれぞれ結んだ両直線がなす角度θ1、すなわち角隅中央壁の周壁全周(360度)に占める範囲は、12〜36度であるのが好ましい。
前記周壁は、前記喫水線となる屈曲部よりも下方の全周に、周壁の立ち上がり方向に延びる縦リブを有するのが好ましい。
In a state of viewing the container in plan view, an angle θ2 formed by both straight lines connecting the center of the circle of the bottom wall and the circumferential ends of the bent portion of the peripheral wall, that is, the entire circumference of the peripheral wall of both side walls of the corner corner (360 It is preferable that the range which occupies for 12 degree | times is 12 to 24 degree | times.
An angle θ1 formed by both straight lines connecting the center of the circle of the bottom wall and the adjacent end of the bent portion adjacent to the circumferential direction of the peripheral wall in a state of viewing the container in a plan view, that is, the central wall of the corner corner The range that occupies the entire circumference of the peripheral wall (360 degrees) is preferably 12 to 36 degrees.
It is preferable that the peripheral wall has a vertical rib extending in the rising direction of the peripheral wall on the entire periphery below the bent portion serving as the water line.

本発明の金属箔成型容器では、その周壁の角隅壁のうち、中央に位置する角隅中央壁を直線状に立ち上がるものとしているため、角隅壁の全体が屈曲している図3および図4のような金属箔成型容器に比べて、上下の荷重に対する強度を大きくすることができる。
また周壁の一定範囲を占める角隅両側壁には、喫水線となる屈曲部が形成されているため、その視認性も図3および図4の容器に比べて大きく低下することもない。
In the metal foil molded container according to the present invention, the corner central wall located at the center of the peripheral corner walls rises linearly, and therefore the entire corner wall is bent as shown in FIGS. Compared with a metal foil molded container such as 4, the strength against the upper and lower loads can be increased.
Moreover, since the bent part used as a water line is formed in the both corner side walls which occupy the fixed range of a surrounding wall, the visibility is not reduced significantly compared with the container of FIG.3 and FIG.4.

周壁に縦リブを設けると、容器の上下荷重に対する強度がさらに向上する。   When the vertical rib is provided on the peripheral wall, the strength against the vertical load of the container is further improved.

実施形態の金属箔成型容器の斜視図The perspective view of the metal foil molding container of embodiment 実施形態の金属箔成型用器の要部平面図Plan view of the main part of the metal foil molding device of the embodiment 図2(a)のb−b線における断面図Sectional drawing in the bb line of Fig.2 (a) 図2(a)のc−c線における断面図Sectional drawing in the cc line of Fig.2 (a) 図2(a)のd−d線における断面図Sectional drawing in the dd line of Fig.2 (a) 他の金属箔成型容器の斜視図Perspective view of another metal foil molding container 他の金属箔成型用器の(a)は要部平面図、(b)は(a)の矢印断面図(A) of other metal foil molding machines is a plan view of the main part, and (b) is a cross-sectional view of the arrow of (a).

以下、図面を参照しつつ本発明の実施形態について説明する。   Hereinafter, embodiments of the present invention will be described with reference to the drawings.

図1および図2に示す実施形態の金属箔成型容器10は、底壁11と、周壁12と、フランジ13と、縁巻き14と、からなり、アルミニウム箔、鉄箔、銅箔などの金属箔を、金型を用いて一体成型(プレス成型)することにより作製される。
ここで金属箔の種類はとくに限定されないが、軽量であり、安価であることから、アルミニウム箔が好ましい。また金属箔の厚みもとくに限定されない。
A metal foil molding container 10 according to the embodiment shown in FIGS. 1 and 2 includes a bottom wall 11, a peripheral wall 12, a flange 13, and an edge winding 14, and a metal foil such as an aluminum foil, an iron foil, or a copper foil. Is produced by integral molding (press molding) using a mold.
Here, the type of metal foil is not particularly limited, but aluminum foil is preferable because it is lightweight and inexpensive. Further, the thickness of the metal foil is not particularly limited.

底壁11は、略円形であり、そのほぼ全面に多数の凹凸部11aが設けられて補強されている。
また周壁12は、略円形の輪郭を構成するその下縁部が底壁11の周縁に連設されており、ここから容器10の開口を構成する上縁部に向けて広がって立ち上がっている。周壁12の上縁部は、略正方形(角丸正方形)の輪郭を構成している。
フランジ13は、略方環形であり、周壁の上縁からほぼ水平に広がっている。なお図1中周壁12の上半部およびフランジ13に付されている線は、金型を用いて金属箔から容器10をプレス成型する際に自然に生じる皺を示している。なお、この皺は周壁12の下半部にも現れうるが、同図では説明の便宜上、図示していない。
上向きの縁巻き14は、フランジ13の外縁に連設されている。
The bottom wall 11 has a substantially circular shape, and is provided with a large number of uneven portions 11a on the almost entire surface thereof to be reinforced.
Further, the peripheral wall 12 has a lower edge portion that forms a substantially circular contour, which is connected to the peripheral edge of the bottom wall 11, and rises from here toward the upper edge portion that forms the opening of the container 10. The upper edge of the peripheral wall 12 forms a substantially square (rounded square) outline.
The flange 13 has a substantially ring shape and extends substantially horizontally from the upper edge of the peripheral wall. In addition, the line attached | subjected to the upper half part and the flange 13 of the peripheral wall 12 in FIG. 1 has shown the wrinkles which arise naturally when the container 10 is press-molded from metal foil using a metal mold | die. Although this wrinkle can also appear in the lower half of the peripheral wall 12, it is not shown in the figure for convenience of explanation.
The upward edge winding 14 is connected to the outer edge of the flange 13.

これら底壁11、フランジ13、縁巻き14の構成については、一般的な金属箔成型容器と同様である。
また、底壁11の凹凸部11aは省略したり、これに代えてリブを設けたりしてもよい。フランジ13、縁巻き14についても、省略したり、縁巻き14を下向きとするなど、適宜形状を変更したりすることが可能である。
About the structure of these bottom walls 11, the flange 13, and the edge winding 14, it is the same as that of a general metal foil molding container.
Moreover, the uneven | corrugated | grooved part 11a of the bottom wall 11 may be abbreviate | omitted, or it may replace with this and may provide a rib. The shapes of the flange 13 and the edge winding 14 can also be changed as appropriate, for example, by omitting them or by setting the edge winding 14 downward.

周壁12は、図2(a)のように、その全周のうち、上縁部の略正方形の四隅をそれぞれ含む所定範囲の箇所から、その直下の下縁部にかけての箇所が、角隅壁を構成している。ここで四つの角隅壁は、同図のように、それぞれ周壁12の周方向に弧状に湾曲している。   As shown in FIG. 2 (a), the peripheral wall 12 has a corner wall extending from a predetermined range including the substantially square four corners of the upper edge to the lower edge immediately below the entire periphery. Is configured. Here, the four corner walls are each curved in an arc shape in the circumferential direction of the peripheral wall 12 as shown in FIG.

角隅壁は、周壁12の周方向の中央に位置する角隅中央壁E1と、周方向の両側に位置する角隅両側壁E2と、からなる。
角隅中央壁E1は、図2(b)のように、その上縁部から下縁部にかけてほぼ一定の角度で直線状に立ち上がっている。
このように、周壁12の中央部を構成する角隅中央壁E1が直線状に立ち上がっているため、金属箔成型容器10は、上下方向の荷重に対する耐久性が向上している。
その立ち上がり角度αはとくに限定されないが、55〜60度が好ましい。
The corner-corner wall includes a corner-corner central wall E1 located at the center in the circumferential direction of the peripheral wall 12 and corner-corner both-side walls E2 located on both sides in the circumferential direction.
As shown in FIG. 2B, the corner center wall E1 rises linearly at an almost constant angle from the upper edge portion to the lower edge portion.
Thus, since the corner-corner central wall E1 which comprises the center part of the surrounding wall 12 has stood | started up linearly, durability with respect to the load of an up-down direction is improving the metal foil molded container 10. FIG.
The rising angle α is not particularly limited, but is preferably 55 to 60 degrees.

他方、角隅両側壁E2は、図2(c)のように、その立ち上がり方向の中途に屈曲部12aを有しており、屈曲部12aから上方はさらに広がって、すなわち立ち上がり角度が小さくなって、全体が容器10の内向きに屈曲して立ち上がっている。
その立ち上がり角度はとくに限定されないが、屈曲部12aより下方における立ち上がり角度βは65〜75度、上方における立ち上がり角度γは50〜70度、かつ角度β>角度γであるのが好ましい。
屈曲部12aは、図1および図2(a)のように、角隅両側壁E2において周壁12の周方向に弧状に連続しているため、視認が容易であり、金属箔成型容器10にスープの濃度を調整するための水の入れる際の目安とできる。
On the other hand, as shown in FIG. 2C, the corner corner both side walls E2 have a bent portion 12a in the middle of the rising direction, and further upward from the bent portion 12a, that is, the rising angle becomes smaller. The whole is bent up inward of the container 10 and stands up.
The rising angle is not particularly limited, but it is preferable that the rising angle β below the bent portion 12a is 65 to 75 degrees, the rising angle γ is 50 to 70 degrees, and the angle β> angle γ.
As shown in FIG. 1 and FIG. 2 (a), the bent portion 12a is continuous in an arc shape in the circumferential direction of the peripheral wall 12 on both side walls E2 of the corner corner, so that it is easy to visually recognize the bent portion 12a. It can be used as a guide when adding water to adjust the concentration of water.

図2(a)に示すように、容器10を平面視した状態で、角隅中央壁E1の周壁12全周(360度)中に占める周方向の占有範囲を、底壁11の円の中心を基準にθ1とすると、θ1は12〜36度であるのが好ましい。同様に、容器10を平面視した状態で、角隅両側壁E2の周壁12全周(360度)中に占める周方向の占有範囲を、底壁11の円の中心を基準にθ2とすると、θ2は12〜24度であるのが好ましい。
θ1が以上の範囲が好適であるのは、12度を下回ると、上下荷重に対する耐久性が低下し、また36度を上回ると、角隅壁中に角隅両側壁E2が占める範囲が小さくなり、その結果、屈曲部12aが短くなって視認性が低下してしまうからである。
θ2が以上の範囲が好適であるのは、12度を下回ると、屈曲部12aが短くなってその視認性が低下し、また24度を上回ると、角隅壁中に角隅中央壁が占める範囲が小さくなり、その結果、上下荷重に対する耐久性が低下してしまうからである。
As shown in FIG. 2A, in the state in which the container 10 is viewed in plan, the circumferential occupation range in the entire circumference (360 degrees) of the peripheral wall 12 of the central corner wall E1 is the center of the circle of the bottom wall 11. If θ1 is used as a reference, θ1 is preferably 12 to 36 degrees. Similarly, in a state in which the container 10 is seen in a plan view, the occupation range in the circumferential direction that occupies the entire circumference (360 degrees) of the peripheral wall 12 of the side wall E2 at the corner corner is θ2 with respect to the center of the circle of the bottom wall 11, θ2 is preferably 12 to 24 degrees.
The range in which θ1 is in the above range is preferable when the angle is less than 12 degrees, the durability against the vertical load is reduced, and when it is more than 36 degrees, the area occupied by the both corner walls E2 in the corner wall becomes small. As a result, the bent portion 12a is shortened and the visibility is lowered.
The range where θ2 is above is suitable when the angle is less than 12 degrees, the bent portion 12a is shortened and the visibility thereof is lowered. When the angle exceeds 24 degrees, the corner wall is occupied by the corner wall. This is because the range becomes smaller, and as a result, durability against vertical loads is reduced.

ここでθ1を屈曲部12aとの関係で定義すると、容器10を平面視した状態での、底壁11の円の中心と、周壁12の周方向に隣接する2つの屈曲部12aの近接する側の端部とをそれぞれ直線で結んだ場合の両直線のなす角度となる。またθ2を屈曲部12aとの関係で定義すると、容器10を平面視した状態での、底壁11の円の中心と、周壁12の屈曲部12aの両端部とをそれぞれ直線で結んだ場合の両直線のなす角度となる。
このことから、屈曲部12aの高さを基準にした場合の、角隅壁の周壁12全周に占める範囲は、θ1+2・θ2で表され、段落0011にいう「所定範囲」とは、このθ1+2・θ2を意味する。
Here, when θ1 is defined in relation to the bent portion 12a, the center of the circle of the bottom wall 11 and the side adjacent to the two bent portions 12a adjacent to each other in the circumferential direction of the peripheral wall 12 when the container 10 is viewed in plan view. It is an angle formed by both straight lines when the end portions of the two are connected by straight lines. Further, if θ2 is defined in relation to the bent portion 12a, the center of the circle of the bottom wall 11 and the both ends of the bent portion 12a of the peripheral wall 12 in a state in which the container 10 is viewed in plan are connected by straight lines. The angle between both straight lines.
From this, the range of the corner wall that occupies the entire circumference of the peripheral wall 12 based on the height of the bent portion 12a is represented by θ1 + 2 · θ2, and the “predetermined range” referred to in paragraph 0011 is the θ1 + 2・ It means θ2.

さらに周壁12は、その全周のうち隣接する前記角隅壁間の箇所、すなわち角隅壁を除いた箇所が、四つの中間壁Mを構成している。四つの中間壁Mは、それぞれ全体が周壁12の周方向に略ストレート形状となっており、図2(d)のように、その上縁部から下縁部にかけてほぼ一定の角度で直線状に立ち上がっている。
その立ち上がり角度δは、角隅中央壁E1の立ち上がり角度αよりも大きくなっている。この立ち上がり角度δは、角隅中央壁E1の立ち上がり角度αよりも大きい限りにおいてとくに限定されないが、60〜70度が好ましい
Further, the peripheral wall 12 includes four intermediate walls M in the entire periphery of the peripheral wall 12 between the adjacent corner corner walls, that is, the portion excluding the corner corner walls. Each of the four intermediate walls M has a substantially straight shape in the circumferential direction of the peripheral wall 12, and as shown in FIG. 2 (d), it is linear at an almost constant angle from its upper edge to its lower edge. Standing up.
The rising angle δ is larger than the rising angle α of the corner corner central wall E1. The rising angle δ is not particularly limited as long as it is larger than the rising angle α of the central corner wall E1, but is preferably 60 to 70 degrees.

周壁12の屈曲部12aよりも下方の全周には、周壁12の立ち上がり方向に延びる断面略三角形の縦リブ12bが設けられている。この縦リブ12bにより、金属箔成型容器10の上下荷重に対する強度が一層向上している。
なおこのような縦リブ12bによる周壁12の凹凸の深さは、容器10のプレス成型時に周壁12に自然に生じる皺の深さよりも大きいことは無論である。
Vertical ribs 12b having a substantially triangular cross section extending in the rising direction of the peripheral wall 12 are provided on the entire periphery below the bent portion 12a of the peripheral wall 12. Due to the vertical ribs 12b, the strength against the vertical load of the metal foil molded container 10 is further improved.
Of course, the depth of the unevenness of the peripheral wall 12 by such vertical ribs 12b is larger than the depth of wrinkles that naturally occur on the peripheral wall 12 when the container 10 is press-molded.

今回開示された実施形態はすべての点で例示であって制限的なものではない。本発明の範囲は特許請求の範囲によって示され、特許請求の範囲内およびこれと均等の意味でのすべての修正と変形を含む。
たとえば周壁12の縦リブ12bは、省略することが可能である。
実施形態では周壁12は、屈曲部12aを除いて直線状に立ち上がっているが、屈曲部12aがある状態を維持したままで、周壁12全体を、その立ち上がり方向に若干外向きに湾曲する膨らんだ形状としてもよい。これにより、容器10の上下荷重に対する強度がさらに向上する。すなわち、このような周壁12が若干外向きに湾曲して立ち上がる形状も、本明細書にいう「直線状に立ち上がる」の一態様に含まれるものとする。
The embodiments disclosed herein are illustrative and non-restrictive in every respect. The scope of the present invention is defined by the terms of the claims, and includes all modifications and variations that fall within the scope of the claims and equivalents thereto.
For example, the vertical rib 12b of the peripheral wall 12 can be omitted.
In the embodiment, the peripheral wall 12 rises linearly except for the bent portion 12a, but the entire peripheral wall 12 bulges slightly outwardly in the rising direction while maintaining the state where the bent portion 12a is present. It is good also as a shape. Thereby, the intensity | strength with respect to the up-and-down load of the container 10 further improves. That is, such a shape in which the peripheral wall 12 rises while being slightly outwardly curved is also included in one aspect of “rising linearly” in the present specification.

10 実施形態の金属箔成型容器
11 底壁
11a 凹凸部
12 周壁
12a 屈曲部(喫水線)
12b 縦リブ
13 フランジ
14 縁巻き
20 他の金属箔成型容器
21 底壁
21a 凹凸部
22 周壁
22a 屈曲部(喫水線)
23 フランジ
24 縁巻き
E1 角隅中央壁
E2 角隅両側壁
M 中間壁
θ1、θ2 角隅中央壁および角隅両側壁の周壁全周に対する占有角度
α、β、γ、δ 周壁の立ち上がり角度
DESCRIPTION OF SYMBOLS 10 Metal foil molding container 11 of embodiment Bottom wall 11a Uneven part 12 Perimeter wall 12a Bending part (draft)
12b Vertical rib 13 Flange 14 Edge winding 20 Other metal foil molding container 21 Bottom wall 21a Uneven portion 22 Peripheral wall 22a Bending portion (draft)
23 Flange 24 Edge winding E1 Corner corner center wall E2 Corner corner both side walls M Intermediate walls θ1, θ2 Occupation angle α, β, γ, δ of the corner wall central wall and corner corner both side walls with respect to the entire peripheral wall

Claims (3)

略円形の底壁11と、
前記底壁11の周縁に連設された略円形の輪郭を構成する下縁から広がって立ち上がり上縁が略正方形の輪郭を構成する周壁12と、を備え、
金属箔により一体に成型された金属箔成型容器10であって、
前記周壁12は、その全周のうち、前記上縁部の略正方形の四隅をそれぞれ含む所定範囲の箇所からその直下の下縁部にかけての箇所が四つの角隅壁を構成し、隣接する前記角隅壁間の箇所が四つの中間壁Mを構成し、
前記各角隅壁は、周方向の中央に位置する角隅中央壁E1と、周方向の両側に位置する角隅両側壁E2と、からなり、
前記各中間壁Mおよび前記各角隅中央壁E1は、その下縁部から上縁部にかけて略一定の角度で直線状に立ち上がっており、
前記各角隅両側壁E2は、その立ち上がり方向の中途に視認可能な喫水線となる屈曲部12aを有して内向きに屈曲して立ち上がっている、金属箔成型容器。
A substantially circular bottom wall 11;
A peripheral wall 12 extending from a lower edge constituting a substantially circular contour continuously provided on the periphery of the bottom wall 11 and having a rising upper edge constituting a substantially square contour;
A metal foil molding container 10 integrally molded with metal foil,
The peripheral wall 12 is composed of four corner corner walls that are adjacent to the lower edge portion immediately below the predetermined range including the four corners of the substantially square shape of the upper edge of the entire circumference. The points between the corner walls constitute four intermediate walls M,
Each corner wall consists of a corner central wall E1 located in the center in the circumferential direction and a corner corner both side walls E2 located on both sides in the circumferential direction,
Each intermediate wall M and each corner central wall E1 rises linearly at a substantially constant angle from its lower edge to its upper edge,
Each said corner corner both-side wall E2 is the metal foil molding container which has the bending part 12a used as the water line which can be visually recognized in the middle of the standup direction, bends inward, and stands | starts up.
平面視した状態で、
前記底壁11の円の中心と前記周壁12の屈曲部12aの周方向の両端部をそれぞれ結んだ両直線とのなす角度θ2は、12〜24度であり、
前記底壁11の円の中心と前記周壁12の周方向に隣接する屈曲部12aの近接する側の端部をそれぞれ結んだ両直線とのなす角度θ1は、12〜36度である、請求項1に記載の金属箔成型容器。
In a plan view,
An angle θ2 formed by a straight line connecting the center of the circle of the bottom wall 11 and both ends in the circumferential direction of the bent portion 12a of the peripheral wall 12 is 12 to 24 degrees,
The angle θ1 formed by both straight lines connecting the center of the circle of the bottom wall 11 and the adjacent ends of the bent portions 12a adjacent in the circumferential direction of the peripheral wall 12 is 12 to 36 degrees. 1. A metal foil molded container according to 1.
前記周壁12は、前記喫水線となる屈曲部12aよりも下方の全周に、周壁12の立ち上がり方向に延びる縦リブ12bを有する請求項1または2に記載の金属箔成型容器。   The said surrounding wall 12 is a metal foil molding container of Claim 1 or 2 which has the vertical rib 12b extended in the standing direction of the surrounding wall 12 in the perimeter below the bending part 12a used as the said water line.
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