JP6779024B2 - cap - Google Patents
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- JP6779024B2 JP6779024B2 JP2016073884A JP2016073884A JP6779024B2 JP 6779024 B2 JP6779024 B2 JP 6779024B2 JP 2016073884 A JP2016073884 A JP 2016073884A JP 2016073884 A JP2016073884 A JP 2016073884A JP 6779024 B2 JP6779024 B2 JP 6779024B2
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Description
本発明は、飲料用容器等の口金部に装着されて密封するキャップに関する。 The present invention relates to a cap that is attached to a base portion of a beverage container or the like and sealed.
スチールやアルミニウム合金等からなるボトル缶などのねじ付容器に装着されるキャップとして、金属製のキャップ本体と、そのキャップ本体の天板部の内面に設けられたライナとを備えたものが知られている。このキャップには、キャップ本体の上端部に、開栓時にキャップを把持して回転させる際の滑り止めのためにナール部が周方向に沿って形成されている。このナール部は複数の凹部によって形成されており、一部の凹部には、開栓時に容器の内圧を解放するためのベントホール(ナールスリット、ベントスリットなどとも称される)が形成されている。
ところで、このようなキャップを装着したボトル缶などを冷蔵保管しておくと、冷蔵庫から取り出した際に、結露によってキャップに水滴が付着し、開栓時に手が滑って円滑に開栓できなくなる問題がある。
As a cap to be attached to a screwed container such as a bottle can made of steel or aluminum alloy, a cap body made of metal and a liner provided on the inner surface of the top plate of the cap body are known. ing. In this cap, a knurled portion is formed along the circumferential direction at the upper end portion of the cap body to prevent slipping when the cap is gripped and rotated at the time of opening. This knurl portion is formed by a plurality of recesses, and vent holes (also referred to as knurl slits, vent slits, etc.) for releasing the internal pressure of the container at the time of opening are formed in some of the recesses. ..
By the way, if a bottle can or the like with such a cap is kept refrigerated, when it is taken out from the refrigerator, water droplets adhere to the cap due to dew condensation, and the hand slips when opening the cap, which makes it impossible to open the cap smoothly. There is.
そこで、特許文献1では、水滴が付着しても容易に開栓できるようにするために、キャップに、親水部とこれより撥水性の高い撥水部とが混在した外面被膜を施すことが開示されている。この場合、撥水部となる撥水性添加剤として、融点100℃以上のポリエチレン、ポリプロピレン、ポリスチレン、ポリ四フッ化エチレン又はこれらの変性体からなるものが用いられる。
また、特許文献2には、表面が濡れている場合でも開栓できるように、塗膜に粗化粒子を含ませて、塗膜の表面に凸部を形成することが開示されている。粗化粒子としては、平均粒径1μm以上10μm未満の粒子で、ガラス、シリカ、酸化アルミニウムなどの無機材料、ポリアミド樹脂、ウレタン樹脂等の有機材料を用いることができると記載されている。
特許文献3には、結露が生じた場合のグリップ性を高めるために、外面塗膜の表面粗さを算術平均粗さ(Ra)で1.6μm以上3.5μm以下で、かつ鉛筆硬度が2H以上4H以下にすることが開示されている。
Therefore, Patent Document 1 discloses that the cap is provided with an outer surface coating in which a hydrophilic portion and a water-repellent portion having a higher water repellency are mixed so that the cap can be easily opened even if water droplets adhere to the cap. Has been done. In this case, as the water-repellent additive to be the water-repellent portion, polyethylene, polypropylene, polystyrene, polytetrafluoroethylene having a melting point of 100 ° C. or higher, or a modified product thereof is used.
Further, Patent Document 2 discloses that the coating film contains roughened particles to form convex portions on the surface of the coating film so that the cap can be opened even when the surface is wet. It is described that the roughened particles are particles having an average particle size of 1 μm or more and less than 10 μm, and an inorganic material such as glass, silica or aluminum oxide, or an organic material such as a polyamide resin or urethane resin can be used.
In Patent Document 3, in order to improve the grip when dew condensation occurs, the surface roughness of the outer coating film is 1.6 μm or more and 3.5 μm or less in arithmetic average roughness (Ra), and the pencil hardness is 2H. It is disclosed that the above is 4H or less.
しかしながら、いずれの特許文献記載の発明も、水滴が付着した場合でも開栓し易いようにするものであり、水滴の付着自体を抑制するものではない。
キャップには、ねじ部、ナール部、ねじ部の下方でブリッジにより連結されたピルファープルーフ部など、水滴が付着し易い凹凸が複数種形成されている。このうち、ナール部の凹部で、ベントホールが形成されている凹部に水滴が付着すると、開栓しにくくなるだけでなく、ベント性能が阻害され、開栓時に内圧によって飛散して、周囲が汚れるという問題がある。
However, the inventions described in any of the patent documents make it easy to open the cap even when water droplets adhere to them, and do not suppress the adhesion of water droplets themselves.
The cap is formed with a plurality of types of irregularities such as a threaded portion, a knurled portion, and a pilfer proof portion connected by a bridge below the threaded portion, to which water droplets easily adhere. Of these, if water droplets adhere to the recesses of the knurled portion where the vent holes are formed, not only is it difficult to open the cap, but also the venting performance is hindered, and when the cap is opened, it scatters due to internal pressure and the surroundings become dirty. There is a problem.
本発明は、このような事情に鑑みてなされたもので、ベントホールを有する凹部に結露等による水滴を付着しにくくすることを目的とする。 The present invention has been made in view of such circumstances, and an object of the present invention is to make it difficult for water droplets due to dew condensation or the like to adhere to a recess having a vent hole.
本発明のキャップは、天板部と円筒部とを有するアルミニウム又はアルミニウム合金からなるキャップ本体と、キャップ本体内に設けられたライナとを有し、前記天板部よりも下方で前記円筒部のねじ形成予定部よりも上方位置に、ベントホールを有する複数の凹部が周方向に間隔をおいて設けられており、前記凹部は、上部から下方に向かう上側片と、下部から上方に向かう下側片とが、これら上側片の下端と下側片の上端との間に前記ベントホールを介して上下に対向するように形成されてなり、少なくともこれら上側片と下側片との外表面は、算術平均粗さRaが0.1μm以上0.3μm以下で、最大高さRzが1.5μm以上3.0μm以下に形成されており、前記キャップ本体の表面に塗料が塗布されてなり、前記塗料は、シリカの微粉末が含有されている。
また、前記塗料は、エポキシ系塗料、ポリエステル系塗料、アクリル系塗料、ウレタン系塗料のいずれかであるとよい。
The cap of the present invention has a cap body made of aluminum or an aluminum alloy having a top plate portion and a cylindrical portion, and a liner provided in the cap body, and the cylindrical portion is located below the top plate portion. A plurality of recesses having vent holes are provided at positions above the planned screw forming portion at intervals in the circumferential direction, and the recesses are an upper piece extending from the upper part to the lower side and a lower side extending from the lower part to the upper side. The pieces are formed so as to face each other vertically through the vent hole between the lower end of the upper piece and the upper end of the lower piece, and at least the outer surface of the upper piece and the lower piece is formed. the following arithmetical mean roughness Ra of 0.1μm or 0.3 [mu] m, the maximum height Rz is formed in 1.5μm or 3.0μm or less, it with paint applied to the surface of the cap body, the paint the fine powder of silica that is contained.
Further, the paint may be any of an epoxy-based paint, a polyester-based paint, an acrylic-based paint, and a urethane-based paint.
ベントホールを有する凹部では、上側片と下側片とがキャップ本体の内方に曲がった形状をして、その奥にベントホールが形成される。また、曲がった形状であるため、その表面に沿って長い長さを有する。このため、このような形状の凹部は、水滴が付着し易く、また、付着した水滴が流れ落ちにくい。
本発明では、その凹部を形成している上側片と下側片との外表面を算術平均粗さRaで0.1μm以上0.3μm以下、最大高さRzで1.5μm以上3.0μm以下に形成したので、その微細な凹凸により撥水性を有しており、水滴がはじかれて付着しにくく、流れ落ちやすい。したがって、ベントホールのベント性能を確実に発揮することができるとともに、開栓時に手が濡れて滑ったり、汚れたりすることが防止される。
In the recess having the vent hole, the upper piece and the lower piece are bent inward in the cap body, and the vent hole is formed in the back thereof. Moreover, since it has a curved shape, it has a long length along its surface. Therefore, water droplets easily adhere to the recess having such a shape, and the adhered water droplets do not easily flow down.
In the present invention, the outer surfaces of the upper piece and the lower piece forming the recess are formed with an arithmetic average roughness Ra of 0.1 μm or more and 0.3 μm or less, and a maximum height Rz of 1.5 μm or more and 3.0 μm or less. Since it is formed in, it has water repellency due to its fine irregularities, and it is difficult for water droplets to repel and adhere to it, and it easily runs off. Therefore, the venting performance of the vent hole can be reliably exhibited, and the hands are prevented from getting wet and slipping or getting dirty when the cap is opened.
本発明のキャップにおいて、軸方向断面における前記上側片の表面長さは、同じ軸方向断面における前記下側片の表面長さよりも大きいものとすることができる。
表面長さが大きいと水滴が付着し易くなるが、本発明の表面粗さとすることで、水滴がはじかれて流れ落ち易くなる。
この上側片の表面長さは、1.0mm以上とするとよい。
In the cap of the present invention, the surface length of the upper piece in the axial cross section may be larger than the surface length of the lower piece in the same axial cross section.
If the surface length is large, water droplets are likely to adhere, but the surface roughness of the present invention makes it easy for water droplets to be repelled and run off.
The surface length of this upper piece is preferably 1.0 mm or more.
本発明のキャップにおいて、前記上側片は、前記円筒部からキャップ本体の内方に曲がった形状の湾曲部の下端部に、湾曲部よりも軸方向に向けて屈曲した前垂れ部が形成されているものとすることができる。 In the cap of the present invention, the upper piece has a front hanging portion bent in the axial direction from the curved portion at the lower end portion of the curved portion having a shape curved inward from the cylindrical portion. Can be.
本発明によれば、水滴が付着し易い形状であるにもかかわらず、水滴は、はじかれて流れ落ち易く、したがって、ベント性能を確実に発揮することができるとともに、開栓時に手が濡れて滑ったり、汚れたりすることを防止することができる。 According to the present invention, despite the shape in which water droplets easily adhere, the water droplets are easily repelled and run off, so that the venting performance can be reliably exhibited and the hands get wet and slip when the cap is opened. It can be prevented from becoming dirty.
以下、本発明に係るキャップ及びキャップ付容器の実施形態を、図面を参照しながら説明する。
本実施形態のキャップ10は、図1(b)に示すように、例えば直径38mm口径のアルミニウム又はアルミニウム合金製(金属製)のボトル缶20(本発明でいう、ねじ付容器)の口金部21に装着されて密接するピルファープルーフキャップ(以下、PPキャップとも称す。)となるものである。
このキャップ10が装着されるボトル缶20は、その上端部の口金部21に、図4に示すように、その下端部に半径方向外方に突出する膨出部22が形成され、その上方に雄ねじ部23、雄ねじ部23の上方に開口端部を丸めてなるカール部24が形成されている。
Hereinafter, embodiments of a cap and a container with a cap according to the present invention will be described with reference to the drawings.
As shown in FIG. 1 (b), the cap 10 of the present embodiment is a base portion 21 of a bottle can 20 (screwed container in the present invention) made of aluminum or an aluminum alloy (metal) having a diameter of 38 mm, for example. It becomes a pilfer proof cap (hereinafter, also referred to as PP cap) that is attached to and closely attached to the aluminum.
As shown in FIG. 4, the bottle can 20 to which the cap 10 is attached has a base portion 21 at the upper end thereof having a bulging portion 22 protruding outward in the radial direction at the lower end portion thereof, and above the base portion 21. A curl portion 24 having a rounded opening end is formed above the male screw portion 23 and the male screw portion 23.
キャップ10は、アルミニウム又はアルミニウム合金製の板材をカップ状に成形したもので、図1(a)に示すように、天面部41とその天面部41の周縁から略垂下されてなる円筒部42とを備えるキャップ本体40と、そのキャップ本体40の天面部41の内面に設けたライナ50とを有する。
キャップ10には、その内面及び外面に塗料が塗布されており、特に、その外面に塗布されている塗料は、エポキシ系塗料、ポリエステル系塗料、アクリル系塗料、ウレタン系塗料などの基体塗料に2μm以上10μm以下の粒径のシリカ(SiO2)の微粉末を1質量%以上5質量%以下の含有量で混練してなる塗料であり、塗装面の算術平均粗さRaが0.1μm以上0.3μm以下で、かつ最大高さRzが1.5μm以上3.0μm以下に形成されている。
The cap 10 is formed by molding a plate material made of aluminum or an aluminum alloy into a cup shape, and as shown in FIG. 1A, has a top surface portion 41 and a cylindrical portion 42 substantially hanging from the peripheral edge of the top surface portion 41. It has a cap main body 40 provided with the above, and a liner 50 provided on the inner surface of the top surface portion 41 of the cap main body 40.
Paint is applied to the inner and outer surfaces of the cap 10, and in particular, the paint applied to the outer surface is 2 μm on a base paint such as an epoxy paint, a polyester paint, an acrylic paint, or a urethane paint. It is a coating material obtained by kneading fine powder of silica (SiO 2 ) having a particle size of 10 μm or more with a content of 1% by mass or more and 5% by mass or less, and has an arithmetic average roughness Ra of 0.1 μm or more and 0. It is formed to be .3 μm or less and the maximum height Rz is 1.5 μm or more and 3.0 μm or less.
キャップ本体40の円筒部42は、図1(a)及び図3に示すように、その下端部に周方向に断続的に形成されたスリット17を介して上下に分割された筒上部43と筒下部44とを有し、周方向に隣接するスリット17間に形成される複数のブリッジ17aによって筒上部43と筒下部44とを連結した形状としたものである。 As shown in FIGS. 1A and 3, the cylindrical portion 42 of the cap main body 40 is vertically divided into a cylinder upper portion 43 and a cylinder via slits 17 intermittently formed in the circumferential direction at the lower end portion thereof. It has a lower portion 44, and the upper cylinder 43 and the lower cylinder 44 are connected by a plurality of bridges 17a formed between slits 17 adjacent to each other in the circumferential direction.
また、円筒部42の天面部41よりも下方で後述する雌ねじ部23が形成される予定の部分(ねじ形成予定部)よりも上方位置には、開栓時にキャップ10を把持して回転し易くするためのナール部30が周方向に沿って形成されている。このねじ形成予定部は、筒上部43のうち、上端部と下端部とを除く大部分である。
また、ナール部30には、図3に示すように、二種類の凹部31,32が周方向に間隔をおいて複数ずつ(例えば交互に)形成されている。そのうち、一方の凹部31は、円筒部の一部を外方から半径方向内方に窪ませてなる平面視がほぼ矩形の形状であり、他方の凹部32は、中央にスリット状に開口したベントホール33を有している。このベントホール33を有する凹部32は、上部から下方に向かう上側片34と、下部から上方に向かう下側片35とが、これら上側片34の下端と下側片35の上端との間にベントホール33を介して上下に対向するように形成されている。
Further, the cap 10 is easily gripped and rotated at a position below the top surface portion 41 of the cylindrical portion 42 and above the portion where the female screw portion 23, which will be described later, is scheduled to be formed (the portion where the screw formation is planned). A knurled portion 30 is formed along the circumferential direction. This screw forming planned portion is most of the upper portion 43 of the cylinder excluding the upper end portion and the lower end portion.
Further, as shown in FIG. 3, a plurality of two types of recesses 31 and 32 are formed in the knurl portion 30 at intervals in the circumferential direction (for example, alternately). One of the recesses 31 has a substantially rectangular shape in a plan view in which a part of the cylindrical portion is recessed inward in the radial direction from the outside, and the other recess 32 is a vent having a slit-like opening in the center. It has a hole 33. In the recess 32 having the vent hole 33, the upper piece 34 extending downward from the upper part and the lower piece 35 extending upward from the lower part are vented between the lower end of the upper piece 34 and the upper end of the lower piece 35. It is formed so as to face each other vertically through the hole 33.
この上側片34及び下側片35は、円筒部42の壁を工具でせん断して周方向に沿うスリット状のベントホール33を形成しながら、ベントホール33の上側及び下側を半径方向内方に押し込むことによって形成されている。このため、上側片34は、上部から下方に向かうにしたがって円筒部42の内方に曲がった状態に形成され、下側片35は、下部から上方に向かうにしたがって円筒部42の内方に曲がった状態に形成されている。また、上側片34は、その先端部がさらに屈曲形成されていることにより、円筒部42からキャップ本体40の内方に曲がった形状の湾曲部34aの下端部に、湾曲部34aよりも軸方向に向けて屈曲した前垂れ部34bが形成されている(図2参照)。このため、上側片34の前垂れ部34bの先端面はほぼ垂直下方に向けられている。また、キャップ本体40の軸方向断面において、上側片34の表面長さは、下側片35の表面長さより長く形成されている。この上側片34の表面長さAは、キャップ本体40の半径方向の最も外側位置から計測した表面の長さであり、1.0mm以上あるとよい。 The upper piece 34 and the lower piece 35 are radially inward on the upper and lower sides of the vent hole 33 while forming a slit-shaped vent hole 33 along the circumferential direction by shearing the wall of the cylindrical portion 42 with a tool. It is formed by pushing into. Therefore, the upper piece 34 is formed in a state of being bent inward of the cylindrical portion 42 from the upper portion to the lower side, and the lower piece 35 is bent inward of the cylindrical portion 42 from the lower portion toward the upper side. It is formed in a state of being. Further, since the tip portion of the upper piece 34 is further bent, the lower end portion of the curved portion 34a having a shape bent inward from the cylindrical portion 42 to the cap body 40 is axially longer than the curved portion 34a. A front hanging portion 34b bent toward the surface is formed (see FIG. 2). Therefore, the tip surface of the front hanging portion 34b of the upper piece 34 is directed substantially vertically downward. Further, in the axial cross section of the cap body 40, the surface length of the upper piece 34 is formed longer than the surface length of the lower piece 35. The surface length A of the upper piece 34 is the length of the surface measured from the outermost position in the radial direction of the cap body 40, and is preferably 1.0 mm or more.
キャップ本体40に挿入されるライナ50は、キャップ本体40の天面部41の内面と摺動するポリプロピレン等で形成された円板状の摺動層51と、摺動層51よりも軟質でボトル缶20の口金部21と接触してシール機能を有するエラストマー樹脂等で形成された密封層52とを有する多層構造とされる。この場合、密封層52は、摺動層51よりも外径が小さく形成され、ボトル缶20の口金部21と接する部分は、中央部分よりも厚く形成されているが、その表面は平坦に形成されている。
前述したキャップ本体40の上側片34の下端及び下側片35の上端はライナ50の密封層52の外周縁よりも半径方向外方で摺動層51の外周縁よりも半径方向内方に配置されるように形成される。
このライナ50のキャップ本体40への取り付けは、キャップ本体40を開口端部が上向きとなるように載置した状態で、上方からライナ50を挿入することにより行われ、ライナ50は、下側片35の上端とキャップ本体40の天面部41との間に配置される。
The liner 50 inserted into the cap body 40 has a disc-shaped sliding layer 51 made of polypropylene or the like that slides on the inner surface of the top surface portion 41 of the cap body 40, and a bottle can that is softer than the sliding layer 51. It has a multi-layer structure having a sealing layer 52 formed of an elastomer resin or the like having a sealing function in contact with the base portion 21 of 20. In this case, the sealing layer 52 is formed to have a smaller outer diameter than the sliding layer 51, and the portion in contact with the base portion 21 of the bottle can 20 is formed to be thicker than the central portion, but the surface thereof is formed flat. Has been done.
The lower end of the upper piece 34 of the cap body 40 and the upper end of the lower piece 35 of the cap body 40 are arranged radially outward from the outer peripheral edge of the sealing layer 52 of the liner 50 and radially inward from the outer peripheral edge of the sliding layer 51. Is formed to be.
The liner 50 is attached to the cap body 40 by inserting the liner 50 from above with the cap body 40 placed so that the opening end faces upward, and the liner 50 is a lower piece. It is arranged between the upper end of the 35 and the top surface portion 41 of the cap body 40.
このように形成されたキャップ10は、飲料用の液体(内容物)が充填されたボトル缶20の口金部21に装着されて、キャップ付ボトル缶100となる。
このとき、口金部21に被せられたキャップ10は、膨出部22、雄ねじ部23、カール部24の形状に沿うように、例えば、ローラ(図示略)で円筒部42を内方に押圧することにより成形される。そして、図1(b)に示すように、天面部41が肩絞り加工されて、ライナ50がカール部24に圧接され、円筒部42の筒状部43にボトル缶20の雄ねじ部23の外径に沿う雌ねじ部13が形成されるとともに、円筒部42の下端部(筒下部44)が膨出部22の下面に係止されて、膨出部22の下部に沿うピルファープルーフ部14が形成されることにより、ボトル缶20を密封してキャップ付ボトル缶100(本発明でいう、キャップ付容器)とされる。
The cap 10 thus formed is attached to the base portion 21 of the bottle can 20 filled with the liquid (contents) for beverages to form the bottle can 100 with a cap.
At this time, the cap 10 covered on the base portion 21 presses the cylindrical portion 42 inward by, for example, a roller (not shown) so as to follow the shapes of the bulging portion 22, the male screw portion 23, and the curl portion 24. It is molded by. Then, as shown in FIG. 1 (b), the top surface portion 41 is shoulder-drawn, the liner 50 is pressed against the curl portion 24, and the cylindrical portion 43 of the cylindrical portion 42 is attached to the outside of the male screw portion 23 of the bottle can 20. The female screw portion 13 along the diameter is formed, the lower end portion (cylinder lower portion 44) of the cylindrical portion 42 is locked to the lower surface of the bulging portion 22, and the pilfer proof portion 14 along the lower portion of the bulging portion 22 is formed. By being formed, the bottle can 20 is sealed to form a bottle can 100 with a cap (a container with a cap as referred to in the present invention).
そして、このようにキャップ10がボトル缶20に装着されると、ナール部30の凹部31,32の下方に雌ねじ部13が成形されることから、凹部31,32の下方部分が下方及び半径方向内方に引っ張られる。このため、特にベントホール33を有する凹部32においては、下側片35の先端(上端)位置が、上側片34の先端(下端)位置よりも半径方向内方に配置される。具体的には、図2に示すように、上側片34の先端(下端)の最大深さをL1、下側片35の先端(上端)の最大深さをL2とすると、L1≦L2となる。 When the cap 10 is attached to the bottle can 20 in this way, the female threaded portion 13 is formed below the recesses 31 and 32 of the knurled portion 30, so that the lower portions of the recesses 31 and 32 are downward and in the radial direction. It is pulled inward. Therefore, particularly in the recess 32 having the vent hole 33, the tip end (upper end) position of the lower piece 35 is arranged inward in the radial direction with respect to the tip end (lower end) position of the upper piece 34. Specifically, as shown in FIG. 2, assuming that the maximum depth of the tip (lower end) of the upper piece 34 is L1 and the maximum depth of the tip (upper end) of the lower piece 35 is L2, L1 ≦ L2. ..
このボトル缶20に装着されたキャップ10は、前述したように、ねじ部13やナール部30など、凹凸が多いため、結露等により水滴が付着し易い。
しかしながら、外面塗装により、キャップ10の外表面の表面粗さが算術平均粗さRaで0.1μm以上0.3μm以下、かつ最大高さRzで1.5μm以上3.0μm以下に形成されており、その微細な凹凸により撥水性を有しており、水滴が付着しにくくなる。この場合、前述した特許文献3にも外面塗膜の表面粗さについて算術平均粗さRaを特定しているが、この特許文献3記載の発明はグリップ性を高めるためのものであり、したがって、算術平均粗さRaも比較的大きい値に設定されている。これに対して、本発明では、算術平均粗さRaが0.1μm以上0.3μm以下と小さい。そして、この算術平均粗さRaとともに最大高さRzを前述のように設定することにより、塗膜面に微細な凹凸が形成され、撥水性が付与されるのである。
したがって、このキャップ10は結露による水滴の付着が防止され、特にベントホール33への水滴付着が防止されることから、開栓時にベント性能を確実に発揮することができ、水滴の飛散も防止できる。
As described above, the cap 10 attached to the bottle can 20 has many irregularities such as the screw portion 13 and the knurl portion 30, so that water droplets easily adhere to the cap 10 due to dew condensation or the like.
However, due to the outer surface coating, the surface roughness of the outer surface of the cap 10 is formed to be 0.1 μm or more and 0.3 μm or less in the arithmetic mean roughness Ra and 1.5 μm or more and 3.0 μm or less in the maximum height Rz. , It has water repellency due to its fine unevenness, and it becomes difficult for water droplets to adhere. In this case, the above-mentioned Patent Document 3 also specifies the arithmetic mean roughness Ra for the surface roughness of the outer surface coating film, but the invention described in Patent Document 3 is for enhancing the grip property, and therefore, The arithmetic mean roughness Ra is also set to a relatively large value. On the other hand, in the present invention, the arithmetic mean roughness Ra is as small as 0.1 μm or more and 0.3 μm or less. Then, by setting the maximum height Rz together with the arithmetic mean roughness Ra as described above, fine irregularities are formed on the coating film surface and water repellency is imparted.
Therefore, the cap 10 is prevented from adhering water droplets due to dew condensation, and particularly from adhering water droplets to the vent hole 33, so that the venting performance can be surely exhibited at the time of opening and the scattering of water droplets can be prevented. ..
なお、本発明は、上記実施形態に限定されるものではなく、本発明の趣旨を逸脱しない範囲において、種々の変更を加えることが可能である。
例えば、キャップの外面の塗装は通常は全面に施されることから前述した表面粗さ(Ra,Rz)はキャップの外面全面に設定されるが、ナール部のベントホールを有する凹部の外表面が前述した表面粗さであればよい。
The present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention.
For example, since the outer surface of the cap is usually painted on the entire surface, the above-mentioned surface roughness (Ra, Rz) is set on the entire outer surface of the cap, but the outer surface of the recess having the vent hole of the knurled portion is The surface roughness described above may be used.
本実施形態のキャップをボトル缶に装着して、水滴の付着性について評価した。
ボトル缶としては、直径38mm口径の口金部を有するアルミニウム製のボトル缶を用いた。また、キャップ材としては、ポリエステル系塗料にシリカ(SiO2)の微粉末を混練してなる塗料を塗布したアルミニウム材(実施例1,2)と、シリカ微粉末を混練していない通常のポリエステル系塗料を塗布したアルミニウム材(比較例1〜4)とを用いた。シリカの微粉末は、富士シリシア株式会社製、粒径3.9μmのものを2質量%の比率で混練した。これらのキャップ材により、ナール部に凹部が24個形成され、そのうち1個おき(合計12個の凹部)にベントホールが形成されたキャップを成形した。
そのキャップについて、表面粗さとして算術平均粗さRaと最大高さRzを測定した。この表面粗さは、東京精密株式会社製の接触式表面粗さ計(サーフコム570A)を用い、縦倍率が10000倍、掃引速度が0.06mm/s、測定距離が1.0mmの条件で測定した。実施例、比較例とも3個のキャップについて、各キャップの天面の3か所を測定し、その9個の測定値の平均を求めた。
The cap of the present embodiment was attached to a bottle can, and the adhesiveness of water droplets was evaluated.
As the bottle can, an aluminum bottle can having a base portion having a diameter of 38 mm was used. Further, as the cap material, an aluminum material (Examples 1 and 2) obtained by kneading a fine powder of silica (SiO 2 ) with a polyester-based paint and an ordinary polyester not kneaded with the fine silica powder. An aluminum material coated with a system paint (Comparative Examples 1 to 4) was used. The fine silica powder manufactured by Fuji Silysia Chemical Ltd. and having a particle size of 3.9 μm was kneaded at a ratio of 2% by mass. With these cap materials, 24 recesses were formed in the knurled portion, and a cap having vent holes formed in every other (12 recesses in total) was formed.
Arithmetic mean roughness Ra and maximum height Rz were measured as surface roughness of the cap. This surface roughness is measured using a contact type surface roughness meter (Surfcom 570A) manufactured by Tokyo Seimitsu Co., Ltd. under the conditions of a vertical magnification of 10000 times, a sweep speed of 0.06 mm / s, and a measurement distance of 1.0 mm. did. For each of the three caps in Examples and Comparative Examples, three points on the top surface of each cap were measured, and the average of the nine measured values was calculated.
そして、キャップをボトル缶の口金部に装着し、125℃×15分のレトルト処理を行なって、キャップ表面のワックス分を除去した。
得られたキャップ付ボトル缶について、軸方向断面のX線透過写真から上側片の下端の深さL1、下側片の上端の深さL2、上側片の長さAを測定したところ、L1=0.90mm、L2=1.08mm、A=1.42mmであった。
また、そのキャップ付ボトル缶を5℃に冷却した後、湿度100%(30℃)で20分間放置して結露を生じさせた。キャップに付着した水分を測定するために、ティッシュをキャップの外周面に接触させて水分を吸収させた後、ティッシュの重量を測定して水滴付着量とした。
いずれも、各5缶ずつ測定し、その平均を求めた。
これらの結果を表1に示す。
Then, the cap was attached to the base of the bottle can and retort-treated at 125 ° C. for 15 minutes to remove the wax on the surface of the cap.
With respect to the obtained bottle can with a cap, the depth L1 at the lower end of the upper piece, the depth L2 at the upper end of the lower piece, and the length A of the upper piece were measured from an X-ray transmission photograph of an axial cross section. It was 0.90 mm, L2 = 1.08 mm, and A = 1.42 mm.
Further, after the bottle can with the cap was cooled to 5 ° C., it was left at a humidity of 100% (30 ° C.) for 20 minutes to cause dew condensation. In order to measure the water content attached to the cap, the tissue was brought into contact with the outer peripheral surface of the cap to absorb the water content, and then the weight of the tissue was measured to determine the amount of water droplets attached.
In each case, 5 cans were measured for each, and the average was calculated.
These results are shown in Table 1.
この表1からわかるように、キャップ表面の算術平均粗さRaが0.1μm以上0.3μm以下で、かつ最大高さRzが1.5μm以上3.0μm以下である場合に、水滴付着量が少なくなっている。 As can be seen from Table 1, when the arithmetic mean roughness Ra of the cap surface is 0.1 μm or more and 0.3 μm or less and the maximum height Rz is 1.5 μm or more and 3.0 μm or less, the amount of water droplets adhered is It is decreasing.
10 キャップ
13 雌ねじ部
14 ピルファープルーフ部
17 スリット
17a ブリッジ
20 ボトル缶(容器)
21 口金部
22 膨出部
23 雄ねじ部
24 カール部
30 ナール部
31,32 凹部
33 ベントホール
34 上側片
34a 湾曲部
34b 前垂れ部
35 下側片
40 キャップ本体
41 天面部
42 円筒部
43 筒上部
44 筒下部
50 ライナ
51 密封層
52 摺動層
100 キャップ付ボトル缶(キャップ付容器)
10 Cap 13 Female thread 14 Pilfer proof 17 Slit 17a Bridge 20 Bottle can (container)
21 Mouthpiece 22 Swelling part 23 Male threaded part 24 Curl part 30 Nar part 31, 32 Recessed part 33 Vent hole 34 Upper piece 34a Curved part 34b Front hanging part 35 Lower piece 40 Cap body 41 Top surface part 42 Cylindrical part 43 Cylinder upper part 44 Cylinder Lower 50 Liner 51 Sealing layer 52 Sliding layer 100 Bottle can with cap (container with cap)
Claims (5)
前記キャップ本体の表面に塗料が塗布されてなり、前記塗料は、シリカの微粉末が含有されていることを特徴とするキャップ。 It has a cap body made of aluminum or an aluminum alloy having a top plate portion and a cylindrical portion, and a liner provided in the cap body, and is below the top plate portion and below the planned screw forming portion of the cylindrical portion. A plurality of recesses having vent holes are provided at an upper position at intervals in the circumferential direction, and the recesses include an upper piece extending downward from the upper portion and a lower piece extending upward from the lower portion. It is formed between the lower end of the piece and the upper end of the lower piece so as to face each other vertically through the vent hole, and at least the outer surface of the upper piece and the lower piece has an arithmetic mean roughness Ra. It is formed with a maximum height Rz of 1.5 μm or more and 3.0 μm or less at 0.1 μm or more and 0.3 μm or less .
A cap characterized in that a paint is applied to the surface of the cap body, and the paint contains fine powder of silica .
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2016073884A JP6779024B2 (en) | 2016-04-01 | 2016-04-01 | cap |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2016073884A JP6779024B2 (en) | 2016-04-01 | 2016-04-01 | cap |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JP2017186020A JP2017186020A (en) | 2017-10-12 |
| JP6779024B2 true JP6779024B2 (en) | 2020-11-04 |
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| Application Number | Title | Priority Date | Filing Date |
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| JP2016073884A Active JP6779024B2 (en) | 2016-04-01 | 2016-04-01 | cap |
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Family Cites Families (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2004035037A (en) * | 2002-07-02 | 2004-02-05 | Mitsubishi Materials Corp | Can |
| JP2009255490A (en) * | 2007-05-15 | 2009-11-05 | Fujifilm Corp | Hydrophilic member and hydrophilic composition |
| JP5019448B2 (en) * | 2007-09-19 | 2012-09-05 | 日本クラウンコルク株式会社 | Easy-to-open synthetic resin cap |
| JP5414616B2 (en) * | 2010-05-14 | 2014-02-12 | ユニバーサル製缶株式会社 | Metal cap and bottle with cap |
| JP5874101B2 (en) * | 2011-11-15 | 2016-03-02 | アクアインテック株式会社 | Underground structure lid and underground structure lid receiving frame |
| JP6336343B2 (en) * | 2014-06-30 | 2018-06-06 | ユニバーサル製缶株式会社 | Cap with liner and container with cap |
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2016
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