JP2005199594A - Barrel body - Google Patents
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- JP2005199594A JP2005199594A JP2004009147A JP2004009147A JP2005199594A JP 2005199594 A JP2005199594 A JP 2005199594A JP 2004009147 A JP2004009147 A JP 2004009147A JP 2004009147 A JP2004009147 A JP 2004009147A JP 2005199594 A JP2005199594 A JP 2005199594A
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Abstract
Description
本発明は、軸体の少なくとも把持する部分に弾性樹脂を設けた軸体に関するものであり、その軸体の1例としては、ボールペンやシャープペンシルなどの筆記具や、口紅やアイライナーなど細長い容器、釣り竿、ドアノブ、ドライバーなどの工具類が挙げられる。 The present invention relates to a shaft body in which an elastic resin is provided on at least a grip portion of the shaft body, and examples of the shaft body include writing instruments such as ballpoint pens and mechanical pencils, elongated containers such as lipsticks and eyeliners, Tools such as fishing rods, door knobs, and drivers.
把持する部分には、滑り止めや把持のしやすさといった効果を持たせるために様々な発明がなされている。滑り止めとしては、シリコーンやエラストマーといった弾性樹脂を把持部に配置した構成(グリップ)が採られており、把持部の内部に可撓性材料、ゲル状物質や気体を封入することによって持ちやすい把持部を形成している。
しかし、内部に可撓性材料、ゲル状物質や気体を封入した把持部は任意に変形してしまうため腰がなく柔らかすぎて筆記感が悪いという欠点があった。 However, there is a drawback in that the gripping portion in which a flexible material, gel-like substance, or gas is sealed is arbitrarily deformed, so that it is not soft and is too soft.
そこで、本発明は、軸体の把持部に少なくとも弾性樹脂を配置及び/または一体に設けた軸体において、前記軸体と前記把持部との間に空間を設け、この空間に微細な固体を配したこと及び、前記把持部内部に空間を設け、この空間に微細な固体を配したことを特徴とする軸体を要旨とするものであって、特に、前記微細な固体が粒子状及び/または繊維状であることが好ましい。 Accordingly, the present invention provides a shaft body in which at least an elastic resin is disposed and / or integrally provided in the grip portion of the shaft body, and a space is provided between the shaft body and the grip portion, and a fine solid is placed in the space. And a shaft body characterized by providing a space inside the gripping part and arranging a fine solid in the space, and in particular, the fine solid is in the form of particles and / or Or it is preferable that it is fibrous.
軸体1の材質は、金属や樹脂、木材、石材など形成できるものであればよく、把持部2を形成する材料が軸体1を形成できる強度を有していれば、その材料で把持部を軸体自体に形成することも可能であり、特に限定されない。また、これらの材質は1種または2種以上の混合物であってもよい。 The material of the shaft body 1 may be any material that can form metal, resin, wood, stone, and the like. If the material forming the grip portion 2 has sufficient strength to form the shaft body 1, the grip portion is made of that material. Can be formed on the shaft body itself, and is not particularly limited. These materials may be one kind or a mixture of two or more kinds.
把持部2には、弾性樹脂3が配されている。その具体例としては、アクリル樹脂、シリコーン樹脂、フッ素樹脂、塩化ビニル、ウレタン樹脂、ポリウレタン樹脂、ポリエチレン樹脂、ジメチル系シリコーン、メチルビニル系シリコーン、メチルフェニルビニル系シリコーン、メチルフルオロアルキル系シリコーン(フロロシリコーン)、フロロ−ジメチル共重合シリコーン、ウレタンゴム、エチレンアクリルゴム、エピクロルヒドリンゴム、アクリルゴム、エチレンプロピレンゴム、クロロプレンゴム、天然ゴム、イソプレンゴム、塩素化ポリエチレン、ニトリルゴム、スチレン系エラストマー、オレフィン系エラストマー、エステル系エラストマー、ウレタン系エラストマーなどが挙げられるが、形状が維持できるものであれば特に限定されない。これら弾性樹脂は1種または2種以上の混合物であってもよい。 An elastic resin 3 is disposed on the grip 2. Specific examples include acrylic resin, silicone resin, fluororesin, vinyl chloride, urethane resin, polyurethane resin, polyethylene resin, dimethyl silicone, methyl vinyl silicone, methyl phenyl vinyl silicone, methyl fluoroalkyl silicone (fluorosilicone). ), Fluoro-dimethyl copolymer silicone, urethane rubber, ethylene acrylic rubber, epichlorohydrin rubber, acrylic rubber, ethylene propylene rubber, chloroprene rubber, natural rubber, isoprene rubber, chlorinated polyethylene, nitrile rubber, styrene elastomer, olefin elastomer, An ester-based elastomer, a urethane-based elastomer, and the like can be given, but there is no particular limitation as long as the shape can be maintained. These elastic resins may be one kind or a mixture of two or more kinds.
これら弾性樹脂には触り心地や指先へのフィット感の向上、着色や文様といった意匠性の向上、抗菌や汗の吸放出、光触媒反応による自己洗浄といった機能性の付与のために粉体、微粒子、発泡剤などが含まれてもよい。
その粉体の具体例としては、スチレン、ナイロン、ポリオレフィン、シリコーン、エポキシ、ポリメタクリル酸メチルなどの樹脂粉体や、シリカ、アルミナ、ジルコニア、ガラス片、金属片などの無機粉体、シルクパウダー、木粉、コルク粉などの天然素材を粉体化したものなどが挙げられる。また、それらの粉体に、アクリル系、ウレタン系、エポキシ系などの粉体塗膜を被覆した複合粉体、さらには、自動乳鉢、ボールミル、ジェットミル、アトマイザー、ハイブリダイザーなどを用いて樹脂粉体にこの樹脂粉体より小さい無機粉体を吸着させたり、打ち込んだりしたものなども挙げられ、特に限定されない。また、粉体の形状は、無定型、球状、板状、針状などが用いられ、特に限定するものではない。これら粉体は1種または2種以上添加してもよい。
These elastic resins provide powders, fine particles, and fine particles to improve functionality such as touch and fingertips, improved design such as coloring and patterns, antibacterial and sweat absorption and release, and self-cleaning by photocatalytic reactions. A foaming agent or the like may be included.
Specific examples of the powder include resin powder such as styrene, nylon, polyolefin, silicone, epoxy, polymethyl methacrylate, inorganic powder such as silica, alumina, zirconia, glass piece, metal piece, silk powder, Examples include powdered natural materials such as wood flour and cork flour. In addition, composite powders obtained by coating these powders with powder coatings such as acrylic, urethane, and epoxy resins, and resin powders using automatic mortars, ball mills, jet mills, atomizers, hybridizers, etc. Examples include those in which an inorganic powder smaller than the resin powder is adsorbed or driven into the body, and is not particularly limited. Further, the shape of the powder may be amorphous, spherical, plate-like, or needle-like, and is not particularly limited. These powders may be added alone or in combination.
また、前記微粒子の具体例としては、カーボンブラック、グラファイトや、酸化チタン、酸化錫、酸化インジウムなどの酸化物、窒化チタン、窒化クロム、窒化ジルコニウム、窒化タンタルなどの窒化物、炭化チタン、炭化ジルコニウム、炭化タンタルなどの炭化物、ホウ化チタン、ホウ化ジルコニウム、ホウ化タンタルなどのホウ化物が挙げられ、特に限定されない。また、微粒子の形状は無定型、鱗片状、球状、繊維状などを用いることができる。これら微粒子は、1種または2種以上添加してもよい。 Specific examples of the fine particles include carbon black, graphite, oxides such as titanium oxide, tin oxide, and indium oxide, nitrides such as titanium nitride, chromium nitride, zirconium nitride, and tantalum nitride, titanium carbide, and zirconium carbide. , Carbides such as tantalum carbide, and borides such as titanium boride, zirconium boride, and tantalum boride. Further, the shape of the fine particles may be amorphous, scaly, spherical or fibrous. One kind or two or more kinds of these fine particles may be added.
前記発泡剤は、化学発泡剤、物理発泡剤、熱膨張性マイクロカプセルなどが用いられる。化学発泡剤の具体例は、アゾ化合物、ニトロソ化合物、ヒドラジン誘導体、セミカルバジド化合物、アジド化合物、トリアゾール化合物などの有機系熱分解型発泡剤、イソシアネート化合物などの有機系反応型発泡剤、重炭酸塩、炭酸塩、亜硫酸塩、水素化物などの無機系熱分解型発泡剤、重炭酸ナトリウム+酸、過酸化水素+イースト菌、亜鉛粉末+酸などの無機系反応型発泡剤などが挙げられる。
物理発泡剤の具体例は、ブタン、ペンタン、ヘキサン、ジクロルエタン、ジクロルメタン、フロン、空気、炭酸ガス、窒素ガスなどが挙げられる。
熱膨張性マイクロカプセルの具体例は、イソブタン、ペンタン、石油エーテル、ヘキサンなどの低沸点炭化水素を芯物質とし、塩化ビニリデン、アクリロニトリル、アクリル酸エステル、メタクリル酸エステルなどの共重合体からなる熱可塑性樹脂を壁物質としたマイクロカプセルなどが挙げられ、特に限定されない。これら発泡剤は、1種または2種以上添加してもよい。
As the foaming agent, a chemical foaming agent, a physical foaming agent, a thermally expandable microcapsule, or the like is used. Specific examples of the chemical foaming agent include organic pyrolytic foaming agents such as azo compounds, nitroso compounds, hydrazine derivatives, semicarbazide compounds, azide compounds, and triazole compounds, organic reactive foaming agents such as isocyanate compounds, bicarbonates, Examples include inorganic pyrolytic foaming agents such as carbonates, sulfites, and hydrides, and inorganic reactive foaming agents such as sodium bicarbonate + acid, hydrogen peroxide + yeast bacteria, zinc powder + acids, and the like.
Specific examples of the physical foaming agent include butane, pentane, hexane, dichloroethane, dichloromethane, chlorofluorocarbon, air, carbon dioxide gas, nitrogen gas and the like.
Specific examples of thermally expandable microcapsules are thermoplastics composed of copolymers of vinylidene chloride, acrylonitrile, acrylate esters, methacrylate esters, etc., with low-boiling hydrocarbons such as isobutane, pentane, petroleum ether, and hexane as the core material. A microcapsule using a resin as a wall material can be used and is not particularly limited. You may add these foaming agents 1 type, or 2 or more types.
把持部を構成する弾性樹脂の硬度は10度から90度までの硬度範囲の中で適宜選択すればよく、特に限定されるものではない。ただし、人体に当接する弾性樹脂の硬度は20度以下では表面のべたつきが激しくかえって把持しにくい、ゴミなどが付着しやすくゴミの除去も困難であるといった問題があることから弾性樹脂は30度から70度が望ましい。 The hardness of the elastic resin constituting the gripping part may be appropriately selected within a hardness range from 10 degrees to 90 degrees, and is not particularly limited. However, since the hardness of the elastic resin that contacts the human body is 20 degrees or less, the stickiness of the surface is severely changed and difficult to grip, and it is difficult to remove dust and the elastic resin is difficult to remove from 30 degrees. 70 degrees is desirable.
又、把持部を構成する弾性樹脂の表面は滑らかな面や粗な面に成形できる。摩擦抵抗を高め、指先表面の引っかかりをよくするためには表面を鏡面の様に滑らかに、摩擦抵抗を低くしてさらさらした触感やゴミ、ほこりを付きにくくするためには表面を粗にすればよい。更に、把持部を構成する弾性樹脂の表面には適度な凹凸を形成してもよい。 Further, the surface of the elastic resin constituting the grip portion can be formed into a smooth surface or a rough surface. To increase the frictional resistance and improve the fingertip surface catching, the surface should be smooth like a mirror surface. To reduce the frictional resistance and make it less susceptible to tactile sensation, dirt and dust, roughen the surface. Good. Furthermore, moderate unevenness may be formed on the surface of the elastic resin constituting the gripping portion.
把持部2の製造方法としては、圧縮成形やトランスファー成形、射出成形、押出成形、真空注形といった方法で成形した弾性樹脂を軸体に装着する方法や、インサート成形で形成するといった方法が挙げられるが、製造方法は特に限定されない。 As a manufacturing method of the grip part 2, a method of attaching an elastic resin formed by a method such as compression molding, transfer molding, injection molding, extrusion molding or vacuum casting to a shaft body, or a method of forming by insert molding may be mentioned. However, the manufacturing method is not particularly limited.
微細な固体4は軸体と把持部との間に設けられた空間及び/または把持部内部に設けられた空間に配されている。微細な固体4の具体的な例としては、ステンレス、洋白、ジルコニア、ルビーボール等の硬球、ダイヤモンド、ルビー、サファイヤ、めのう、水晶等の鉱石、御影石、大理石等の岩石、ポリエチレン、ポリエチレンテレフタラート、塩化ビニル、ABS、AS、PMMA、ポリプロピレン、ポリカーボネート等の樹脂やその発泡体、アクリル樹脂、シリコーン樹脂、フッ素樹脂、ウレタン樹脂、ポリウレタン樹脂、ジメチル系シリコーン、メチルビニル系シリコーン、メチルフェニルビニル系シリコーン、メチルフルオロアルキル系シリコーン(フロロシリコーン)、フロロ−ジメチル共重合シリコーン、ウレタンゴム、エチレンアクリルゴム、エピクロルヒドリンゴム、アクリルゴム、エチレンプロピレンゴム、クロロプレンゴム、天然ゴム、イソプレンゴム、塩素化ポリエチレン、ニトリルゴム、スチレン系エラストマー、オレフィン系エラストマー、エステル系エラストマー、ウレタン系エラストマー等の弾性樹脂、ナイロン、絹、綿等の繊維、ガラスなどが挙げられるが、微細な固体が形成できればよく特に限定はされない。また、これらの微細な固体は1種または2種以上の混合物であってもよい。 The fine solid 4 is disposed in a space provided between the shaft body and the grip portion and / or a space provided inside the grip portion. Specific examples of the fine solid 4 include hard balls such as stainless steel, white and white, zirconia and ruby balls, ores such as diamond, ruby, sapphire, agate and quartz, rocks such as granite and marble, polyethylene, polyethylene terephthalate , Vinyl chloride, ABS, AS, PMMA, polypropylene, polycarbonate and other resins and their foams, acrylic resins, silicone resins, fluorine resins, urethane resins, polyurethane resins, dimethyl silicones, methyl vinyl silicones, methyl phenyl vinyl silicones , Methyl fluoroalkyl silicone (fluorosilicone), fluoro-dimethyl copolymer silicone, urethane rubber, ethylene acrylic rubber, epichlorohydrin rubber, acrylic rubber, ethylene propylene rubber, chloroprene rubber, natural rubber , Isoprene rubber, chlorinated polyethylene, nitrile rubber, styrene elastomer, olefin elastomer, ester elastomer, urethane elastomer and other elastic resins, nylon, silk, cotton and other fibers, glass, etc. There is no particular limitation as long as it can be formed. These fine solids may be one kind or a mixture of two or more kinds.
微細な固体4の形状は粒子状、繊維状、不定形状等様々な形状の固体が利用できる。硬球などの真球に近い形状の微細な固体を配した場合には、把持した際の変形が速く、また、放した時の形状復元も速い。岩石やガラスを粉砕した不定形の微細な固体を配した場合には、把持した際の変形は遅いが腰がある把持感があり、また、放した時にも形状をある程度記憶している。微細な固体の大きさは空間の大きさによって異なるが、空間の最小の幅より小さければよく、特に限定されない。また、これらの微細な固体の大きさは1種または2種以上の混合物であってもよい。 As the shape of the fine solid 4, various shapes of solid such as particles, fibers, and irregular shapes can be used. When a fine solid having a shape close to a true sphere, such as a hard sphere, is arranged, the deformation is fast when gripped, and the shape is restored quickly when released. When an irregularly shaped fine solid obtained by crushing rocks or glass is arranged, the gripping is slow, but there is a feeling of gripping, and the shape is remembered to some extent when released. The size of the fine solid varies depending on the size of the space, but is not particularly limited as long as it is smaller than the minimum width of the space. Further, the size of these fine solids may be one kind or a mixture of two or more kinds.
軸体と把持部との間及び/または把持部内部に設けられた空間には微細な固体4の他に、微細な固体の流動性、形状保持性を補助するために弾性樹脂やゲル状物質や粘稠物などの補助材を配してもよい。また、これらの補助材は1種または2種以上の混合物であってもよい。 In addition to the fine solid 4 in the space provided between the shaft body and the grip part and / or inside the grip part, an elastic resin or gel-like substance is used to assist the fluidity and shape retention of the fine solid. Or auxiliary materials such as viscous materials may be provided. These auxiliary materials may be one kind or a mixture of two or more kinds.
本発明は、軸体と把持部との間に空間を設け、この空間に微細な固体を配したこと及び、把持部内部に空間を設け、この空間に微細な固体を配することによって、従来の弾性樹脂のみの把持部より変形能力を向上させ、かつ、可撓性材料、ゲル状物質や気体のみを封入した把持部より腰がある把持部となっている。さらに、把持した指先の形状に合わせて変形し、形状を保持するため、接触面積が増え、握る圧力が分散される。また、指先以外の把持部分、例えば筆記具の指間当節部に配することによって握りやすい形状の軸体となる。握りやすさの向上のほかに、弾性樹脂を透明にすることによって、内部の微細な固体の色や動きを楽しめるといった装飾的な効果もある。 According to the present invention, a space is provided between the shaft body and the gripping portion, a fine solid is disposed in the space, and a space is provided in the gripping portion, and a fine solid is disposed in the space. It is a gripping portion that has a lower deformation ability than a gripping portion made of only elastic resin and has a lower waist than a gripping portion that encloses only a flexible material, a gel-like substance, or gas. Further, the shape is deformed according to the shape of the gripped fingertip and the shape is maintained, so that the contact area is increased and the gripping pressure is dispersed. Moreover, it becomes an axis | shaft body of the shape which is easy to grasp by arrange | positioning to holding parts other than a fingertip, for example, a finger joint part of a writing instrument. In addition to improving ease of gripping, there is also a decorative effect by making the elastic resin transparent so that you can enjoy the color and movement of the fine solid inside.
本発明は、把持しやすい軸体を提供するため、軸体と把持部との間に空間を設け、この空間に微細な固体を配したこと及び、把持部内部に空間を設け、この空間に微細な固体を配したことを最も主要な特徴とする。把持した指先の形状に合わせて変形し、形状を保持する目的を実現した。 In the present invention, in order to provide a shaft body that is easy to grip, a space is provided between the shaft body and the gripping portion, a fine solid is disposed in this space, and a space is provided inside the gripping portion. The most important feature is the distribution of fine solids. The purpose of holding the shape was realized by deforming according to the shape of the gripped fingertip.
図1は、本発明を筆記具の把持部に使用した実施例1の全体図である。図2は図1のa−A線断面図である。また、参照符号1は軸体、2は把持部、3は弾性樹脂、4は微細な固体である。 FIG. 1 is an overall view of a first embodiment in which the present invention is used for a grip portion of a writing instrument. FIG. 2 is a cross-sectional view taken along line aA in FIG. Reference numeral 1 is a shaft body, 2 is a gripping portion, 3 is an elastic resin, and 4 is a fine solid.
把持部2は弾性樹脂3と微細な固体4からなる。弾性樹脂3はジメチル系シリコーンゴム、GE東芝シリコーン(株)製、TSE2570−6U(30度)用いて射出成形で成形した。微細な固体4としてステンレスボール(SUS304、φ0.5mm)を軸体1と弾性樹脂3の間の空間に配した把持部2を軸体1に装着した。ステンレスボールは握った時の圧力で適度に位置を変える。このため把持部2は握った指の形状に変形し、持ちやすさ、滑りにくさといった効果を発揮する。内部のステンレスボールそのものは硬いため、しっかり握った際にも変形しすぎない、腰のある良好な感触が得られる。φ0.5mmのステンレスボールは流動性が高く、変形速度や形状回復速度が速い。 The grip 2 is made of an elastic resin 3 and a fine solid 4. The elastic resin 3 was molded by injection molding using dimethyl silicone rubber, GE Toshiba Silicone Co., Ltd., TSE2570-6U (30 degrees). A grip portion 2 in which a stainless ball (SUS304, φ0.5 mm) as a fine solid 4 is arranged in a space between the shaft body 1 and the elastic resin 3 is attached to the shaft body 1. The stainless steel ball changes its position moderately with the pressure when grasped. For this reason, the grasping part 2 is deformed into the shape of a grasped finger and exhibits effects such as ease of holding and difficulty of sliding. Since the internal stainless steel balls themselves are hard, they can provide a good, comfortable feel that does not deform too much when gripped firmly. Stainless steel balls with a diameter of 0.5 mm have high fluidity and high deformation speed and shape recovery speed.
図3は、本発明の実施例2を示す断面図である。参照符号1は軸体、2は筒状の把持部、3は弾性樹脂、4は微細な固体である。 FIG. 3 is a cross-sectional view showing a second embodiment of the present invention. Reference numeral 1 is a shaft body, 2 is a cylindrical gripping part, 3 is an elastic resin, and 4 is a fine solid.
筒状の把持部2は弾性樹脂3と微細な固体4からなる。弾性樹脂3はジメチル系シリコーンゴム、GE東芝シリコーン(株)製、TSE2570−6U(40度)用いて射出成形で成形した。微細な固体4として樹脂ボール(ABS、φ1.0mm)を弾性樹脂3に形成した空間に配した把持部2を軸体1に装着した。樹脂ボールは握った時の圧力で適度に位置を変える。このため把持部2は握った指の形状に変形し、持ちやすさ、滑りにくさといった効果を発揮する。また、内部の樹脂ボールそのものは硬いため、しっかり握った際にも変形しすぎない、腰のある良好な感触が得られる。φ1.0mmの樹脂ボールは流動性が高いが、空間の密閉率が低いため、変形速度はやや遅くなり、形状記憶時間が長くなる。 The cylindrical grip 2 is made of an elastic resin 3 and a fine solid 4. The elastic resin 3 was molded by injection molding using dimethyl silicone rubber, GE Toshiba Silicone Co., Ltd., TSE2570-6U (40 degrees). A grip portion 2 in which a resin ball (ABS, φ1.0 mm) as a fine solid 4 is formed in a space formed in the elastic resin 3 is attached to the shaft body 1. The position of the resin ball changes moderately with the pressure when grasped. For this reason, the grasping part 2 is deformed into the shape of a grasped finger and exhibits effects such as ease of holding and difficulty in sliding. In addition, since the resin ball inside is hard, a good feeling with a waist that does not deform too much when firmly grasped can be obtained. A resin ball having a diameter of 1.0 mm has high fluidity, but since the sealing rate of the space is low, the deformation speed becomes slightly slow and the shape memory time becomes long.
図4は、本発明の実施例3を示す断面図である。参照符号1は軸体、2は透明な把持部、3は弾性樹脂、4は微細な固体である。 FIG. 4 is a sectional view showing Example 3 of the present invention. Reference numeral 1 is a shaft body, 2 is a transparent gripping part, 3 is an elastic resin, and 4 is a fine solid.
把持部2は弾性樹脂3と微細な固体4からなる。弾性樹脂3はジメチル系シリコーンゴム、GE東芝シリコーン(株)製、TSE2570−6U(30度)用いて射出成形で透明なものを成形した。微細な固体4として着色ガラス粉砕物を弾性樹脂3に形成した空間に配した把持部2を軸体1に装着した。着色ガラス粉砕物は握った時の圧力で適度に位置を変える。このため把持部2は握った指の形状に変形し、持ちやすさ、滑りにくさといった効果を発揮する。また、内部の着色ガラス粉砕物そのものは硬いため、しっかり握った際にも変形しすぎない、腰のある良好な感触が得られる。また弾性樹脂3が透明なため、内部に配した着色ガラス粉砕物の色やその移動を楽しむことが出来る。ガラス粉砕物は異形になっていることから、変形速度は遅いが、一度形状が安定すると長時間形状を維持できる。 The grip 2 is made of an elastic resin 3 and a fine solid 4. The elastic resin 3 was formed by injection molding using dimethyl silicone rubber, manufactured by GE Toshiba Silicone Co., Ltd., and TSE2570-6U (30 degrees). A grip portion 2 in which a colored glass pulverized product as a fine solid 4 is formed in a space formed in the elastic resin 3 is attached to the shaft body 1. The colored glass pulverized product is appropriately repositioned by the pressure when grasped. For this reason, the grasping part 2 is deformed into the shape of a grasped finger and exhibits effects such as ease of holding and difficulty in sliding. In addition, since the colored glass pulverized product itself is hard, it is possible to obtain a good, firm feeling that does not deform too much when firmly grasped. Moreover, since the elastic resin 3 is transparent, it is possible to enjoy the color of the crushed colored glass disposed therein and its movement. Since the glass pulverized product has an irregular shape, the deformation speed is slow, but once the shape is stabilized, the shape can be maintained for a long time.
図5は、本発明の実施例4を示す断面図である。参照符号1は軸体、2は把持部、3は弾性樹脂、4は微細な固体、5は弾性樹脂である。 FIG. 5 is a sectional view showing Example 4 of the present invention. Reference numeral 1 is a shaft body, 2 is a gripping part, 3 is an elastic resin, 4 is a fine solid, and 5 is an elastic resin.
把持部2は弾性樹脂3と微細な固体4からなる。弾性樹脂3はジメチル系シリコーンゴム、GE東芝シリコーン(株)製、TSE2570−6U(30度)用いて射出成形で透明なものを成形した。微細な固体4として着色ガラス粉砕物を入れて成形した弾性樹脂5(ウレタンゴム(日本特材(株)、NTP−11ゴム、ゴム硬度20度)を弾性樹脂3に形成した空間に配した把持部2を軸体1に装着した。また、弾性樹脂5のゴム硬度が低いため把持部2は握った指の形状に変形し、持ちやすさ、滑りにくさといった効果を発揮する。また、内部の着色ガラス粉砕物は硬いため握った時の圧力に反発して適度な刺激となるが、弾性樹脂5に入っているため、しっかり握った際にも変形しすぎない、腰のある感触が得られる。また弾性樹脂3が透明なため、内部に配した着色ガラス粉砕物や弾性樹脂5の色を楽しむことが出来る。
尚、前記弾性樹脂5としては、上記のウレタンゴムにゴムに限定されることなく、シリコーン(KE1950−10、信越化学工業(株)、ゴム硬度10度)やポリエチレンゲル(HC15N、(株)コスモ計器製、ゴム硬度15度)であっても良い。
The grip 2 is made of an elastic resin 3 and a fine solid 4. The elastic resin 3 was formed by injection molding using dimethyl silicone rubber, manufactured by GE Toshiba Silicone Co., Ltd., and TSE2570-6U (30 degrees). Gripping an elastic resin 5 (urethane rubber (Nippon Tokusha Co., Ltd., NTP-11 rubber, rubber hardness 20 degrees)) molded in a space formed in the elastic resin 3 by molding a colored glass pulverized product as a fine solid 4 The portion 2 is attached to the shaft body 1. Also, since the rubber hardness of the elastic resin 5 is low, the grip portion 2 is deformed into the shape of a gripped finger and exhibits effects such as ease of holding and difficulty in sliding. Since the colored glass pulverized product is hard, it repels the pressure when grasped and is moderately irritating, but since it is in the elastic resin 5, it does not deform too much when grasped firmly, and it has a waisty feel. In addition, since the elastic resin 3 is transparent, it is possible to enjoy the color of the colored glass crushed material and the elastic resin 5 disposed inside.
The elastic resin 5 is not limited to the above-mentioned urethane rubber, but silicone (KE1950-10, Shin-Etsu Chemical Co., Ltd., rubber hardness 10 degrees) or polyethylene gel (HC15N, Cosmo Co., Ltd.). (Made by Keiki Co., Ltd., rubber hardness 15 degrees).
図6は、本発明の実施例5を示す断面図である。参照符号1は軸体、2は把持部、3は弾性樹脂、4は微細な固体、6は補助材である。 FIG. 6 is a sectional view showing Example 5 of the present invention. Reference numeral 1 is a shaft body, 2 is a gripping part, 3 is an elastic resin, 4 is a fine solid, and 6 is an auxiliary material.
把持部2は弾性樹脂3と微細な固体4からなる。弾性樹脂3はジメチル系シリコーンゴム、GE東芝シリコーン(株)製、TSE2570−6U(30度)用いて射出成形で透明なものを成形した。微細な固体4として御影石粉砕物、補助材(粘稠物)6としてシリコーングリース(信越化学工業(株)製、G420)を弾性樹脂3に形成した空間に配した把持部2を軸体1に装着した。御影石粉砕物は握った時の圧力で適度に位置を変える。このため把持部2は握った指の形状に変形し、持ちやすさ、滑りにくさといった効果を発揮する。この時グリースによって御影石粉砕物の流動性が滑らかになり、より良好な触感となる。また、内部の御影石粉砕物そのものは硬いため、しっかり握った際にも変形しすぎない、腰のある感触が得られる。また弾性樹脂3が透明なため、内部に配した御影石粉砕物の色やその移動を楽しむことが出来る。
尚、前記粘稠物6としては、上記のシリコーングリースに限定されることなく、KF96(信越化学工業(株)製)といったシリコーンオイルやtsk5370(Ge東芝シリコーン(株)製)といったシリコーンオイルコンパウンド、レチナックス グリース CL(昭和シェル石油(株)製)といった石油系グリースであっても良い。
The grip 2 is made of an elastic resin 3 and a fine solid 4. The elastic resin 3 was formed by injection molding using dimethyl silicone rubber, manufactured by GE Toshiba Silicone Co., Ltd., and TSE2570-6U (30 degrees). Granules pulverized product as fine solid 4 and silicone grease (G420 manufactured by Shin-Etsu Chemical Co., Ltd., G420) as auxiliary material (viscous material) 6 are formed in elastic resin 3 and grip portion 2 arranged in shaft 1 Installed. The granite crushed material changes its position appropriately with the pressure when grasped. For this reason, the grasping part 2 is deformed into the shape of a grasped finger and exhibits effects such as ease of holding and difficulty in sliding. At this time, the fluidity of the granite pulverized material becomes smooth due to the grease, resulting in a better feel. In addition, the granite crushed inside itself is hard, so you can get a feeling of waist that does not deform too much when grasped firmly. Moreover, since the elastic resin 3 is transparent, it is possible to enjoy the color of the granite crushed material disposed therein and its movement.
The viscous material 6 is not limited to the above-mentioned silicone grease, but a silicone oil such as KF96 (manufactured by Shin-Etsu Chemical Co., Ltd.) or a silicone oil compound such as tsk5370 (manufactured by Ge Toshiba Silicone Co., Ltd.), Petroleum grease such as Retinax Grease CL (manufactured by Showa Shell Sekiyu KK) may be used.
図7、本発明の実施例6を示す断面図である。参照符号1は軸体、2は把持部、3は弾性樹脂、4は微細な固体である。 FIG. 7 is a sectional view showing Example 6 of the present invention. Reference numeral 1 is a shaft body, 2 is a gripping part, 3 is an elastic resin, and 4 is a fine solid.
把持部2は弾性樹脂3と微細な固体4からなる。弾性樹脂3はオレフィン系エラストマー、サントプレーン111−35(35度)用いて射出成形で成形した。微細な固体4としてナイロン繊維裁断物(φ0.1mm)を弾性樹脂3に形成した空間に配した把持部2を軸体1に装着した。ナイロン繊維裁断物は握った時の圧力で適度に位置を変える。このため把持部2は握った指の形状に変形し、持ちやすさ、滑りにくさといった効果を発揮する。内部のナイロン繊維裁断物が複雑に絡み合うことにより適度なクッション感が得られている。また、ナイロン繊維裁断物そのものは硬いため、しっかり握った際にも変形しすぎない、腰のある良好な感触が得られる。 The grip 2 is made of an elastic resin 3 and a fine solid 4. The elastic resin 3 was molded by injection molding using an olefin elastomer, Santoprene 111-35 (35 degrees). A grip portion 2 in which a nylon fiber cut product (φ0.1 mm) as a fine solid 4 is formed in a space formed in the elastic resin 3 is attached to the shaft body 1. Nylon fiber cuts change their position appropriately with the pressure when grasped. For this reason, the grasping part 2 is deformed into the shape of a grasped finger and exhibits effects such as ease of holding and difficulty in sliding. A moderate cushion feeling is obtained by the intricately intertwined nylon fiber cuts. In addition, since the nylon fiber cut product itself is hard, a good feeling with a waist that does not deform too much when grasped firmly is obtained.
本発明は、軸体の少なくとも把持部する部分に弾性樹脂を設けた軸体に関するものである。その軸体の例としては、シャープペンシルやボールペン、修正ペンなどの筆記具、カッターや彫刻刀、ドライバーなどの工具類、PDA(パーソナル デジタル アシスタンス)や電子手帳に使用される入力ペン、自転車のハンドルなど多岐にわたる。 The present invention relates to a shaft body in which an elastic resin is provided on at least a portion of the shaft body that is to be held. Examples of shafts include writing instruments such as mechanical pencils, ballpoint pens, correction pens, tools such as cutters and engraving swords, drivers, input pens used in PDAs (personal digital assistance) and electronic notebooks, bicycle handles, etc. Wide range.
1 軸体
2 把持部
3 弾性樹脂
4 微細な固体
5 弾性樹脂
6 補助材
DESCRIPTION OF SYMBOLS 1 Shaft body 2 Holding part 3 Elastic resin 4 Fine solid 5 Elastic resin 6 Auxiliary material
Claims (6)
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JP2004009147A JP4289159B2 (en) | 2004-01-16 | 2004-01-16 | Shaft |
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JP4289159B2 JP4289159B2 (en) | 2009-07-01 |
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Cited By (12)
Publication number | Priority date | Publication date | Assignee | Title |
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JP2007216345A (en) * | 2006-02-17 | 2007-08-30 | Uryu Seisaku Ltd | Reaction force absorbing grip of rotary driving tool |
KR100829334B1 (en) | 2006-04-19 | 2008-05-13 | 미쓰비시 엔피쯔 가부시키가이샤 | Grip structure of shaft tube and writing implement and applying implement provided with such grip structure of shaft tube |
JP2008265176A (en) * | 2007-04-23 | 2008-11-06 | Pentel Corp | Barrel |
JP2009078485A (en) * | 2007-09-27 | 2009-04-16 | Pentel Corp | Shaft body and writing utensil using the shaft body |
JP2009154494A (en) * | 2007-12-28 | 2009-07-16 | Pentel Corp | Barrel |
JP2009208238A (en) * | 2008-02-29 | 2009-09-17 | Pentel Corp | Shaft body and writing utensil using the shaft body |
JP2010005980A (en) * | 2008-06-30 | 2010-01-14 | Mitsubishi Pencil Co Ltd | Method of assembling writing utensil |
JP2010064170A (en) * | 2008-09-09 | 2010-03-25 | Kai R & D Center Co Ltd | Handle structure of manual sharp-edged tool |
JP2010082800A (en) * | 2008-09-29 | 2010-04-15 | Eaton Corp | Lightweight grip and manufacturing method thereof |
JP2013166383A (en) * | 2013-04-26 | 2013-08-29 | Mitsubishi Pencil Co Ltd | Method of assembling writing utensil |
EP3834894A1 (en) * | 2019-12-09 | 2021-06-16 | Harry Matthew Wells | Grip assembly for sports equipment |
CN113618680A (en) * | 2021-10-12 | 2021-11-09 | 如东恒发五金制品有限公司 | Novel high-efficient hardware and tools hammer of shock attenuation |
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2004
- 2004-01-16 JP JP2004009147A patent/JP4289159B2/en not_active Expired - Fee Related
Cited By (13)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2007216345A (en) * | 2006-02-17 | 2007-08-30 | Uryu Seisaku Ltd | Reaction force absorbing grip of rotary driving tool |
KR100829334B1 (en) | 2006-04-19 | 2008-05-13 | 미쓰비시 엔피쯔 가부시키가이샤 | Grip structure of shaft tube and writing implement and applying implement provided with such grip structure of shaft tube |
JP2008265176A (en) * | 2007-04-23 | 2008-11-06 | Pentel Corp | Barrel |
JP2009078485A (en) * | 2007-09-27 | 2009-04-16 | Pentel Corp | Shaft body and writing utensil using the shaft body |
JP2009154494A (en) * | 2007-12-28 | 2009-07-16 | Pentel Corp | Barrel |
JP2009208238A (en) * | 2008-02-29 | 2009-09-17 | Pentel Corp | Shaft body and writing utensil using the shaft body |
JP2010005980A (en) * | 2008-06-30 | 2010-01-14 | Mitsubishi Pencil Co Ltd | Method of assembling writing utensil |
JP2010064170A (en) * | 2008-09-09 | 2010-03-25 | Kai R & D Center Co Ltd | Handle structure of manual sharp-edged tool |
JP2010082800A (en) * | 2008-09-29 | 2010-04-15 | Eaton Corp | Lightweight grip and manufacturing method thereof |
JP2013166383A (en) * | 2013-04-26 | 2013-08-29 | Mitsubishi Pencil Co Ltd | Method of assembling writing utensil |
EP3834894A1 (en) * | 2019-12-09 | 2021-06-16 | Harry Matthew Wells | Grip assembly for sports equipment |
CN113618680A (en) * | 2021-10-12 | 2021-11-09 | 如东恒发五金制品有限公司 | Novel high-efficient hardware and tools hammer of shock attenuation |
CN113618680B (en) * | 2021-10-12 | 2021-12-07 | 如东恒发五金制品有限公司 | Novel high-efficient hardware and tools hammer of shock attenuation |
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