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JP7086804B2 - Faucet handle - Google Patents
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JP7086804B2 - Faucet handle - Google Patents

Faucet handle Download PDF

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JP7086804B2
JP7086804B2 JP2018181751A JP2018181751A JP7086804B2 JP 7086804 B2 JP7086804 B2 JP 7086804B2 JP 2018181751 A JP2018181751 A JP 2018181751A JP 2018181751 A JP2018181751 A JP 2018181751A JP 7086804 B2 JP7086804 B2 JP 7086804B2
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handle
laminated
lever
faucet
surface layer
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JP2020051128A (en
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隆裕 田中
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Description

本発明は、水栓用ハンドルに関する。詳しくは、水栓本体に軸回転可能なように取り付けられるハンドル部を有する水栓用ハンドルに関する。 The present invention relates to a faucet handle. More specifically, the present invention relates to a faucet handle having a handle portion that is attached to the faucet body so that the axis can rotate.

従来、水栓用ハンドルにおいて、ハンドル部の樹脂成形に伴う引け(成形収縮)の発生を抑えるために、ハンドル部を内外2部品に分けて構成したものが知られている(特許文献1)。すなわち、ハンドル部の厚肉な部分を2部品に分けて構成することで、個々の肉厚を薄くすることができ、引けの発生を抑えることができる。 Conventionally, in a faucet handle, in order to suppress the occurrence of shrinkage (molding shrinkage) due to resin molding of the handle portion, it is known that the handle portion is divided into two inner and outer parts (Patent Document 1). That is, by dividing the thick portion of the handle portion into two parts, the individual wall thickness can be reduced and the occurrence of shrinkage can be suppressed.

特許第3602358号Patent No. 3602358

上記従来技術では、ハンドル部の部品点数が増大すると共に、2部品をトルク伝達が適切に行えるように組合わせるための構造が複雑となる。本発明は、上記問題を解決するものとして創案されたものであって、本発明が解決しようとする課題は、水栓用ハンドルを合理的な構成により仕上がり良く成形することにある。 In the above-mentioned conventional technique, the number of parts of the handle portion is increased, and the structure for combining the two parts so that torque transmission can be appropriately performed becomes complicated. The present invention has been devised to solve the above problems, and an object to be solved by the present invention is to form a faucet handle with a rational structure and a good finish.

上記課題を解決するために、本発明の水栓用ハンドルは次の手段をとる。 In order to solve the above problems, the faucet handle of the present invention takes the following means.

すなわち、本発明の水栓用ハンドルは、水栓本体に軸回転可能なように取り付けられるハンドル部と、ハンドル部から径方向に張出し状に延びるレバー部と、を有する水栓用ハンドルである。水栓用ハンドルは、ハンドル部及びレバー部の外観形状を成す表層部材と、表層部材と積層状に一体成形される積層部材と、を有する。表層部材が、ハンドル部の外観形状を成すハンドル表層部と、レバー部の外観形状を成すレバー表層部と、を有する。積層部材が、ハンドル表層部と積層状に一体成形されるハンドル積層部と、レバー表層部と積層状に一体成形されるレバー積層部と、ハンドル積層部とレバー積層部とをシームレスに繋ぐ繋ぎ積層部と、を有する。 That is, the faucet handle of the present invention is a faucet handle having a handle portion attached to the faucet body so as to be axially rotatable, and a lever portion extending radially from the handle portion in an overhanging shape. The faucet handle has a surface layer member that forms the appearance shape of the handle portion and the lever portion, and a laminated member that is integrally molded with the surface layer member in a laminated shape. The surface layer member has a handle surface layer portion that forms the appearance shape of the handle portion, and a lever surface layer portion that forms the appearance shape of the lever portion. The handle laminated portion in which the laminated member is integrally molded in a laminated manner with the handle surface layer portion, the lever laminated portion in which the lever surface layer portion is integrally molded in a laminated shape, and the handle laminated portion and the lever laminated portion are seamlessly connected and laminated. With a part.

上記構成によれば、ハンドル部及びレバー部を表層部材と積層部材とから成る多層構造とすることで、個々の層の肉厚を薄くして、成形収縮に伴う引けの発生を抑えることができる。なおかつ、上記多層構造を一体成形により形成することで、各層を合理的に強固に一体化することができる。また、積層部材がハンドル積層部とレバー積層部とをシームレスに繋ぐ繋ぎ積層部を有することで、表層部材に部分的な厚肉部が形成されにくくなる。それにより、水栓用ハンドルを仕上がり良く成形することができる。 According to the above configuration, by forming the handle portion and the lever portion into a multilayer structure composed of a surface layer member and a laminated member, the wall thickness of each layer can be reduced and the occurrence of shrinkage due to molding shrinkage can be suppressed. .. Moreover, by forming the multilayer structure by integral molding, each layer can be rationally and firmly integrated. Further, since the laminated member has a connecting laminated portion that seamlessly connects the handle laminated portion and the lever laminated portion, it becomes difficult to form a partially thick portion on the surface layer member. As a result, the faucet handle can be molded with a good finish.

また、本発明の水栓用ハンドルは、更に次のように構成されていてもよい。積層部材が、表層部材よりも剛性及び/又は強度の高い材料から成る。 Further, the faucet handle of the present invention may be further configured as follows. The laminated member is made of a material having higher rigidity and / or strength than the surface layer member.

上記構成によれば、ハンドル部から張出し状に延びるレバー部を備えた水栓用ハンドルの剛性及び/又は強度を合理的に高めることができる。また、表層部材を積層部材と一体成形する際に、積層部材を成形材料の射出圧力に対して撓ませにくくすることができる。それにより、水栓用ハンドルをより仕上がり良く成形することができる。 According to the above configuration, the rigidity and / or the strength of the faucet handle provided with the lever portion extending in an overhanging shape from the handle portion can be reasonably increased. Further, when the surface layer member is integrally molded with the laminated member, the laminated member can be made difficult to bend with respect to the injection pressure of the molding material. As a result, the faucet handle can be molded with a better finish.

また、本発明の水栓用ハンドルは、更に次のように構成されていてもよい。レバー積層部が、レバー表層部内に埋設されるようにインサート成形される。 Further, the faucet handle of the present invention may be further configured as follows. The lever laminated portion is insert-molded so as to be embedded in the lever surface layer portion.

上記構成によれば、レバー部をより見栄え良く仕上げることができる。また、レバー表層部とレバー積層部との接合強度をより高めることができる。 According to the above configuration, the lever portion can be finished with a better appearance. In addition, the joint strength between the lever surface layer portion and the lever laminated portion can be further increased.

また、本発明の水栓用ハンドルは、更に次のように構成されていてもよい。レバー表層部とレバー積層部とが、互いに平板積層状に一体成形される。 Further, the faucet handle of the present invention may be further configured as follows. The lever surface layer portion and the lever laminated portion are integrally molded with each other in a flat plate laminated shape.

上記構成によれば、レバー表層部の天板形状を、平板状に見栄え良く仕上げることができる。 According to the above configuration, the shape of the top plate of the lever surface layer portion can be finished in a flat plate shape with good appearance.

また、本発明の水栓用ハンドルは、更に次のように構成されていてもよい。更に、積層部材が、レバー積層部とハンドル積層部との繋ぎの角部に肉盛り状のリブを有する。 Further, the faucet handle of the present invention may be further configured as follows. Further, the laminated member has a built-up rib at a corner portion of the connection between the lever laminated portion and the handle laminated portion.

上記構成によれば、ハンドル部から張出し状に延びるレバー部の曲げ剛性を適切に高めることができる。また、表層部材を積層部材と一体成形する際に、積層部材を成形材料の射出圧力に対して撓ませにくくすることができる。それにより、水栓用ハンドルをより仕上がり良く成形することができる。 According to the above configuration, the bending rigidity of the lever portion extending in an overhanging shape from the handle portion can be appropriately increased. Further, when the surface layer member is integrally molded with the laminated member, the laminated member can be made difficult to bend with respect to the injection pressure of the molding material. As a result, the faucet handle can be molded with a better finish.

また、本発明の水栓用ハンドルは、更に次のように構成されていてもよい。ハンドル積層部が、ハンドル表層部の裏側に積層されてハンドル部の水栓本体に取り付けられる内周側の取付面を成す。 Further, the faucet handle of the present invention may be further configured as follows. The handle laminated portion is laminated on the back side of the handle surface layer portion to form an inner peripheral side mounting surface to be attached to the faucet body of the handle portion.

上記構成によれば、ハンドル積層部のハンドル表層部とは別個に成形される構成を利用して、水栓本体に取り付けられる取付面の成形自由度を高めることができる。 According to the above configuration, it is possible to increase the degree of freedom in molding the mounting surface to be attached to the faucet main body by utilizing the structure in which the handle laminated portion is molded separately from the handle surface layer portion.

また、本発明の水栓用ハンドルは、更に次のように構成されていてもよい。水栓用ハンドルが、水栓本体に対して、取付方向に延びる中心軸線回りの回転による温調操作と、上記中心軸線とは交差する交差軸線回りの起倒回転による吐止水の切り換え操作と、が可能なように取り付けられるシングルレバーハンドルとされる。 Further, the faucet handle of the present invention may be further configured as follows. The faucet handle rotates with respect to the faucet body around the central axis to control the temperature, and the overturning rotation around the crossing axis that intersects the central axis switches the water discharge stop. , Is a single lever handle that can be attached.

上記構成によれば、シングルレバーハンドルのようにレバー部が長尺状に延び、かつ、広い天板面を有する構成に対して、特に効果的にレバー部を仕上がり良く成形することができる。 According to the above configuration, the lever portion can be molded with a good finish particularly effectively for a configuration in which the lever portion extends in a long shape and has a wide top plate surface such as a single lever handle.

第1の実施形態の水栓用ハンドルの概略構成を表した斜視図である。It is a perspective view which showed the schematic structure of the handle for a faucet of 1st Embodiment. 水栓用ハンドルを水栓本体から外した分解斜視図である。It is an exploded perspective view which removed the handle for a faucet from a faucet body. 図2を左側から見た分解斜視図である。FIG. 2 is an exploded perspective view of FIG. 2 as viewed from the left side. 図1の側面図である。It is a side view of FIG. 図4のV-V線断面図である。FIG. 4 is a sectional view taken along line VV of FIG. 図4のVI-VI線断面図である。FIG. 4 is a sectional view taken along line VI-VI of FIG. 水栓用ハンドルを一体成形する工程を表した要部断面図である。It is sectional drawing of the main part which showed the process of integrally molding a handle for a faucet.

以下に、本発明を実施するための形態について、図面を用いて説明する。 Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings.

《第1の実施形態》
始めに、本発明の第1の実施形態に係る水栓用ハンドル(レバーハンドル10)が適用された混合水栓1の構成について、図1~図7を用いて説明する。なお、以下の説明において、前後上下左右等の各方向を示す場合には、各図中に示されたそれぞれの方向を指すものとする。
<< First Embodiment >>
First, the configuration of the mixing faucet 1 to which the faucet handle (lever handle 10) according to the first embodiment of the present invention is applied will be described with reference to FIGS. 1 to 7. In the following description, when each direction such as front-back, up-down, left-right, etc. is shown, it means each direction shown in each figure.

図1に示すように、本実施形態に係る混合水栓1は、シンクの天板T上に設置される、いわゆる台付きタイプの水栓金具として構成されている。上記混合水栓1は、天板Tの下側から供給される湯と水とを内部で混合して吐出することのできる機能を備える。具体的には、混合水栓1は、上記供給される湯水の混合割合を調節する温調機能と、混合した湯水の吐水・止水を切り替える切替機能と、吐出する湯水の吐出量を調節する吐出量の調節機能と、を備える。 As shown in FIG. 1, the mixing faucet 1 according to the present embodiment is configured as a so-called stand-type faucet fitting installed on the top plate T of the sink. The mixing faucet 1 has a function of internally mixing and discharging hot water and water supplied from the lower side of the top plate T. Specifically, the mixing faucet 1 has a temperature control function for adjusting the mixing ratio of the supplied hot water, a switching function for switching between spouting and stopping of the mixed hot water, and adjusting the discharge amount of the discharged hot water. It has a discharge amount adjustment function.

上記温調機能と吐止水の切替機能と吐出量の調節機能とは、それぞれ、水栓本体2の向かって右側の側部に取り付けられた1本のレバーハンドル10によって操作されるようになっている。同レバーハンドル10は、図2~図3に示すように、水栓本体2に装着されたカートリッジ4から右側へ延びるレバー軸4Aに右側から差し込まれて一体に取り付けられている。上記レバー軸4Aは、カートリッジ4に対して、その中心軸線A1の回りに回転できるように連結されている。それにより、上記レバー軸4Aに取り付けられるレバーハンドル10も、図1に示すように、水栓本体2に対して、上記レバー軸4Aの中心軸線A1の回りに回転操作が行える状態に連結されている。 The temperature control function, the discharge stop water switching function, and the discharge amount adjustment function are each operated by one lever handle 10 attached to the right side of the faucet body 2. ing. As shown in FIGS. 2 to 3, the lever handle 10 is inserted from the right side into the lever shaft 4A extending to the right side from the cartridge 4 mounted on the faucet main body 2 and integrally attached. The lever shaft 4A is connected to the cartridge 4 so as to be rotatable around its central axis A1. As a result, as shown in FIG. 1, the lever handle 10 attached to the lever shaft 4A is also connected to the faucet body 2 so that it can rotate around the central axis A1 of the lever shaft 4A. There is.

上記レバー軸4Aは、カートリッジ4に対して、更に上記中心軸線A1とは直交する交差軸線A2の回りにも回転可能なように連結されている。それにより、レバーハンドル10も、上記水栓本体2に対して、交差軸線A2の回りにも回転操作が行える状態に連結されている。 The lever shaft 4A is connected to the cartridge 4 so as to be rotatable around an intersecting axis A2 orthogonal to the central axis A1. As a result, the lever handle 10 is also connected to the faucet main body 2 so that the rotation operation can be performed around the crossing axis A2.

上記混合水栓1は、使用者がレバーハンドル10を上記中心軸線A1の回りの所望の回転位置に合わせることにより、水栓本体2内のカートリッジ4が操作されて、水栓本体2の内部で混合される湯水の混合割合が回転位置に応じた設定温度となるように調節されるようになっている。また、上記混合水栓1は、使用者がレバーハンドル10を図示された所定の止水位置P1から交差軸線A2の回りに右側へと倒す形に回転させることにより、その回転移動量に応じた量の湯水を、水栓本体2から上向きに延びる逆J字形状の吐出管3の吐出口3Aから吐出するようになっている。 In the mixing faucet 1, the cartridge 4 in the faucet main body 2 is operated by the user adjusting the lever handle 10 to a desired rotation position around the central axis A1, and the inside of the faucet main body 2 is operated. The mixing ratio of the hot and cold water to be mixed is adjusted so as to be a set temperature according to the rotation position. Further, the mixing faucet 1 corresponds to the amount of rotational movement by rotating the lever handle 10 so as to tilt the lever handle 10 to the right around the crossing axis A2 from the predetermined water stop position P1 shown in the figure. A large amount of hot water is discharged from the discharge port 3A of the inverted J-shaped discharge pipe 3 extending upward from the faucet main body 2.

具体的には、上記混合水栓1は、レバーハンドル10が図1の実線で示す止水位置P1、すなわちレバー部10Bが鉛直上向きとなる回転位置から、中心軸線A1の回りに後側(図示奥側)へ回されることにより、その回転移動量に応じて、水栓本体2の内部で混合される湯の混合割合が漸次増大していくように調節される。一方、上記レバーハンドル10の図1の実線で示す止水位置P1から中心軸線A1の回りに前側(図示手前側)へ回される回転領域は、その回転位置によらず、水のみが吐出される領域となっている。 Specifically, the mixing faucet 1 is rearward (not shown) around the central axis A1 from the water stop position P1 in which the lever handle 10 is shown by the solid line in FIG. 1, that is, the rotation position in which the lever portion 10B faces vertically upward. By being turned to the back side), the mixing ratio of the hot water mixed inside the faucet main body 2 is adjusted to gradually increase according to the amount of rotational movement. On the other hand, in the rotation region of the lever handle 10 that is rotated from the water stop position P1 shown by the solid line in FIG. 1 to the front side (front side in the drawing) around the central axis A1, only water is discharged regardless of the rotation position. It is an area.

上記レバーハンドル10の中心軸線A1の回りの回転移動は、カートリッジ4に設けられた不図示の回転規制構造により、図1の仮想線で示す湯側調節位置P3と水側調節位置P4との間の可動範囲内に規制されるようになっている。そして、上記レバーハンドル10が所望の回転位置に合わされたところから右側へ倒される形に回されることにより、上記回転位置に応じて調節された所定温度の湯水が吐出口3Aから吐出される。上記レバーハンドル10の交差軸線A2の回りの回転移動は、カートリッジ4に設けられた不図示の回転規制構造により、図1の実線で示す止水位置P1と仮想線で示す吐水位置P2との間の可動範囲内に規制されるようになっている。 The rotational movement around the central axis A1 of the lever handle 10 is performed between the hot water side adjustment position P3 and the water side adjustment position P4 shown by the virtual line in FIG. 1 due to the rotation restriction structure (not shown) provided on the cartridge 4. It is designed to be regulated within the movable range of. Then, by turning the lever handle 10 so as to be tilted to the right from the position adjusted to the desired rotation position, hot water having a predetermined temperature adjusted according to the rotation position is discharged from the discharge port 3A. The rotational movement of the lever handle 10 around the crossing axis A2 is between the water stop position P1 shown by the solid line and the water discharge position P2 shown by the virtual line in FIG. 1 due to the rotation restriction structure (not shown) provided in the cartridge 4. It is designed to be regulated within the movable range of.

上記レバーハンドル10は、図2~図3に示すように、上記カートリッジ4のレバー軸4Aに横から差し込まれて取り付けられる略有天円筒形状のハンドル部10Aと、ハンドル部10Aから径方向に張出し状に延びる略平板形状のレバー部10Bと、を有する形状とされている。上記レバー部10Bは、図4に示すように、ハンドル部10Aの直径と略同一の板幅でハンドル部10Aの天板面10Aaと面一状の形となって径方向に張り出す形状とされている。詳しくは、上記レバー部10Bは、図5に示すように、ハンドル部10Aからハンドル部10Aの直径よりも長く径方向に張出し状に延びる形状とされている。上記レバー部10Bの天板面10Baと、ハンドル部10Aの天板面10Aaとは、互いに連続した面一状の平坦面を成す形に形成されている。 As shown in FIGS. 2 to 3, the lever handle 10 has a substantially celestial cylindrical handle portion 10A that is laterally inserted and attached to the lever shaft 4A of the cartridge 4, and extends radially from the handle portion 10A. It is shaped to have a substantially flat plate-shaped lever portion 10B extending in a shape. As shown in FIG. 4, the lever portion 10B has a plate width substantially the same as the diameter of the handle portion 10A, and has a shape that is flush with the top plate surface 10Aa of the handle portion 10A and projects in the radial direction. ing. Specifically, as shown in FIG. 5, the lever portion 10B has a shape extending from the handle portion 10A in a radial direction longer than the diameter of the handle portion 10A. The top plate surface 10Ba of the lever portion 10B and the top plate surface 10Aa of the handle portion 10A are formed so as to form a flat surface that is continuous with each other.

上記レバーハンドル10は、図5~図6に示すように、ABS樹脂製の表層部材11と、同表層部材11よりも比強度の高いガラス繊維強化ナイロン樹脂(ガラス繊維45%強化)製の積層部材12と、が互いに積層状に一体成形された多層構造により形成されている。具体的には、表層部材11は、図7に示すように、積層部材12の成形後に、同積層部材12を成形型内にセットして、同積層部材12の周囲に成形材料が積層状に充填される形に射出成形されて形成されている。上記成形により、表層部材11は、積層部材12の周囲に広く一体的に接着された形となって形成されている。 As shown in FIGS. 5 to 6, the lever handle 10 is a laminate of a surface layer member 11 made of ABS resin and a glass fiber reinforced nylon resin (glass fiber 45% reinforced) having a higher specific strength than the surface layer member 11. The member 12 and the member 12 are formed by a multilayer structure integrally formed in a laminated manner with each other. Specifically, as shown in FIG. 7, in the surface layer member 11, after the laminated member 12 is molded, the laminated member 12 is set in the molding die, and the molding material is laminated around the laminated member 12. It is formed by injection molding into a filled shape. By the above molding, the surface layer member 11 is formed in a form of being widely and integrally bonded around the laminated member 12.

上記表層部材11は、図5に示すように、ハンドル部10Aの外観形状を成す略有天円筒形状のハンドル表層部11Aと、レバー部10Bの外観形状を成す略平板形状のレバー表層部11Bと、をシームレスに一体的に有する形に形成されている。また、積層部材12は、上記ハンドル表層部11Aと積層状に一体成形される略有天円筒形状のハンドル積層部12Aと、上記レバー表層部11Bと積層状に一体成形される略平板形状のレバー積層部12Bと、上記ハンドル積層部12Aとレバー積層部12Bとをシームレスに繋ぐ繋ぎ積層部12Cと、を一体的に有する形に形成されている。 As shown in FIG. 5, the surface layer member 11 includes a handle surface layer portion 11A having a substantially celestial cylindrical shape forming the appearance shape of the handle portion 10A, and a lever surface layer portion 11B having a substantially flat plate shape forming the appearance shape of the lever portion 10B. , Are seamlessly and integrally formed. Further, the laminated member 12 has a substantially heavenly cylindrical handle laminated portion 12A integrally molded with the handle surface layer portion 11A in a laminated manner, and a substantially flat plate-shaped lever integrally molded with the lever surface layer portion 11B in a laminated manner. The laminated portion 12B is integrally formed with a connecting laminated portion 12C that seamlessly connects the handle laminated portion 12A and the lever laminated portion 12B.

上記積層部材12のハンドル積層部12Aは、ハンドル表層部11Aの裏側に積層されて、上記ハンドル部10Aのレバー軸4Aに差し込まれて取り付けられる内周側の凹形状の取付面10Abを成す構成とされている。すなわち、ハンドル部10Aは、その略有天円筒形状の外筒部分を表層部材11のハンドル表層部11Aが成し、内筒部分を積層部材12のハンドル積層部12Aが成す、内外2重の積層構造に形成されている。上記構成により、ABS樹脂から成る表層部材11のハンドル表層部11Aによって、ハンドル部10Aが見栄えの良い外観形状に形成されている。 The handle laminated portion 12A of the laminated member 12 is laminated on the back side of the handle surface layer portion 11A to form a concave mounting surface 10Ab on the inner peripheral side to be inserted and attached to the lever shaft 4A of the handle portion 10A. Has been done. That is, in the handle portion 10A, the outer cylinder portion having a substantially celestial cylindrical shape is formed by the handle surface layer portion 11A of the surface layer member 11, and the inner cylinder portion is formed by the handle laminated portion 12A of the laminated member 12. It is formed in the structure. With the above configuration, the handle portion 10A is formed into a good-looking appearance by the handle surface layer portion 11A of the surface layer member 11 made of ABS resin.

なおかつ、ハンドル部10Aは、そのガラス繊維強化ナイロン樹脂から成る比強度の高い積層部材12のハンドル積層部12Aによって、レバー軸4Aに対する高い取り付け強度を備えた構成とされている。更に、上記ハンドル部10Aは、その外周面と内周面(取付面10Ab)との間の大きな肉厚部分が、上記ハンドル表層部11Aとハンドル積層部12Aとから成る多層構造から成ることにより、個々の層の肉厚が薄くされて、射出成形後の成形収縮に伴う引けが発生しにくい構成とされている。 Moreover, the handle portion 10A is configured to have a high attachment strength to the lever shaft 4A by the handle laminating portion 12A of the laminated member 12 having a high specific strength made of the glass fiber reinforced nylon resin. Further, the handle portion 10A has a multi-layer structure in which a large thick portion between the outer peripheral surface and the inner peripheral surface (mounting surface 10Ab) is composed of the handle surface layer portion 11A and the handle laminated portion 12A. The wall thickness of each layer is reduced so that shrinkage due to molding shrinkage after injection molding is unlikely to occur.

詳しくは、上記ハンドル部10Aを構成するハンドル表層部11A及びハンドル積層部12Aは、それぞれ、ハンドル部10Aの周壁部や天板部等の一般面部を成す部分の肉厚が互いに略同一かつ略均一となる形に形成されている。上記構成により、ハンドル部10Aを構成するハンドル表層部11A及びハンドル積層部12Aは、それぞれ、部分的に厚肉化されて引けの発生しやすい構成とされることなく、全体が引けの発生しにくい構成とされている。 Specifically, the handle surface layer portion 11A and the handle laminated portion 12A constituting the handle portion 10A have substantially the same and substantially uniform wall thicknesses of the portions forming the general surface portion such as the peripheral wall portion and the top plate portion of the handle portion 10A, respectively. It is formed in the shape of. With the above configuration, the handle surface layer portion 11A and the handle laminated portion 12A constituting the handle portion 10A are not configured to be partially thickened to easily cause shrinkage, and the entire handle portion is less likely to shrink. It is said to be composed.

上記ハンドル積層部12Aには、更に、その内周側の取付面10Abにレバー軸4Aが差し込まれた後、ハンドル部10Aをレバー軸4Aに固定するために、ハンドル部10Aの外側(図示下側)から締結用のビスBが螺着される雌ねじの付いた丸孔形状の締結面10Acが形成されている。上記のように締結面10Acがガラス繊維強化ナイロン樹脂から成る比強度の高い積層部材12のハンドル積層部12Aに形成されていることで、ハンドル部10Aがレバー軸4Aに対して高い取り付け強度で固定されるようになっている。 After the lever shaft 4A is inserted into the mounting surface 10Ab on the inner peripheral side of the handle laminated portion 12A, the outside of the handle portion 10A (lower side in the drawing) for fixing the handle portion 10A to the lever shaft 4A. ), A round hole-shaped fastening surface 10Ac with a female screw to which the fastening screw B is screwed is formed. As described above, the fastening surface 10Ac is formed on the handle laminated portion 12A of the laminated member 12 having a high specific strength made of glass fiber reinforced nylon resin, so that the handle portion 10A is fixed to the lever shaft 4A with high mounting strength. It is supposed to be done.

上記積層部材12のレバー積層部12Bは、図5~図6に示すように、その全周がレバー表層部11Bによって被覆されるようにレバー表層部11B内に埋め込まれた形に積層されている。上記構成により、ABS樹脂から成る表層部材11のレバー表層部11Bによって、レバー部10Bが全周面に亘って見栄えの良い外観形状に形成されている。なおかつ、レバー部10Bは、そのガラス繊維強化ナイロン樹脂から成る比強度の高い積層部材12のレバー積層部12Bによって、強度及び剛性が高められた構成とされている。更に、上記レバー部10Bは、その略平板形状の肉厚部分が、表裏2層のレバー表層部11Bの間にレバー積層部12Bが介在する多層構造から成ることにより、個々の層の肉厚が薄くされて、射出成形後の成形収縮に伴う引けが発生しにくい構成とされている。 As shown in FIGS. 5 to 6, the lever laminated portion 12B of the laminated member 12 is laminated so as to be embedded in the lever surface layer portion 11B so that the entire circumference thereof is covered by the lever surface layer portion 11B. .. With the above configuration, the lever surface layer portion 11B of the surface layer member 11 made of ABS resin forms the lever portion 10B in a good-looking appearance shape over the entire peripheral surface. Moreover, the lever portion 10B is configured to have increased strength and rigidity by the lever laminated portion 12B of the laminated member 12 having a high specific strength made of the glass fiber reinforced nylon resin. Further, the lever portion 10B has a substantially flat plate-shaped wall thickness portion having a multi-layer structure in which the lever laminated portion 12B is interposed between the lever surface layer portions 11B having two front and back layers, so that the wall thickness of each layer can be increased. It is made thin so that shrinkage due to molding shrinkage after injection molding is unlikely to occur.

詳しくは、上記レバー積層部12Bは、肉厚が略均一の略平板形状に形成されている。上記レバー積層部12Bの略平板形状に延びる周囲面は、裏側に向かってRの付いた湾曲面形状に丸められている。そして、上記レバー積層部12Bの全周に被覆される形に積層されるレバー表層部11Bは、その構成層の肉厚が、レバー積層部12Bの肉厚(板厚)と略同一かつ略均一となる形に形成されている。上記構成により、レバー部10Bを構成するレバー表層部11B及びレバー積層部12Bは、それぞれ、部分的に厚肉化されて引けの発生しやすい構成とされることなく、全体が引けの発生しにくい構成とされている。 Specifically, the lever laminated portion 12B is formed in a substantially flat plate shape having a substantially uniform wall thickness. The peripheral surface of the lever laminated portion 12B extending in a substantially flat plate shape is rounded to a curved surface shape with an R toward the back side. The thickness of the constituent layer of the lever surface layer portion 11B laminated so as to cover the entire circumference of the lever laminated portion 12B is substantially the same as the wall thickness (plate thickness) of the lever laminated portion 12B and is substantially uniform. It is formed in the shape of. With the above configuration, the lever surface layer portion 11B and the lever laminated portion 12B constituting the lever portion 10B are not configured to be partially thickened so that shrinkage is likely to occur, and shrinkage is unlikely to occur as a whole. It is said to be composed.

上記レバー積層部12Bの天板面と、ハンドル積層部12Aの天板面とは、互いに連続した面一状の平坦面を成す形に形成されている。そして、上記レバー積層部12Bとハンドル積層部12Aとの繋ぎの内角部には、同角部を面取り状に肉盛りする形に張り出すリブ12Dが形成されている。上記リブ12Dは、図4に示すように、レバー積層部12Bの板幅方向に2つ、横並び状に隣り合う形に形成されている。上記リブ12Dにより、図5に示すように、ハンドル積層部12Aから張出し状に延びるレバー積層部12Bの曲げ剛性や強度が適切に高められる。それにより、レバー部10Bに板厚方向に曲げられるような力が掛けられて使用されるレバーハンドル10の使用荷重に対する構造強度を適切に高めることができる。 The top plate surface of the lever laminated portion 12B and the top plate surface of the handle laminated portion 12A are formed so as to form a flat surface that is continuous with each other. At the inner corner portion of the connection between the lever laminated portion 12B and the handle laminated portion 12A, a rib 12D is formed so as to overhang the same corner portion in a chamfered shape. As shown in FIG. 4, the ribs 12D are formed so as to be adjacent to each other side by side in the plate width direction of the lever laminated portion 12B. As shown in FIG. 5, the rib 12D appropriately enhances the bending rigidity and strength of the lever laminated portion 12B extending in an overhanging shape from the handle laminated portion 12A. As a result, the structural strength of the lever handle 10 used by applying a force such as bending in the plate thickness direction to the lever portion 10B can be appropriately increased.

また、図7に示すように、表層部材11を積層部材12と一体成形する際に、成形型内にセットした積層部材12のレバー積層部12Bが、その平板形状の表裏面上を流れる各成形材料の流れ速度(射出圧力)の違いによって板厚方向に反られるような曲げの負荷(図示黒塗りの矢印参照)を受けても、上記リブ12Dによる補強によって板厚方向に大きく曲げ撓まされないようになっている。それにより、レバー部10Bとハンドル部10Aの両天板面10Ba,10Aaが互いに連続した面一状の広い平坦面を持つ形とされたレバーハンドル10を、引けや変形等の成形不具合を生じさせることなく、仕上がり良く成形することができる。 Further, as shown in FIG. 7, when the surface layer member 11 is integrally molded with the laminated member 12, the lever laminated portion 12B of the laminated member 12 set in the molding die flows on the front and back surfaces of the flat plate shape. Even if it receives a bending load (see the black arrow in the figure) that warps in the plate thickness direction due to the difference in material flow speed (injection pressure), it is not significantly bent and bent in the plate thickness direction due to the reinforcement by the rib 12D. It has become like. As a result, the lever handle 10 having a wide flat surface in which the top plate surfaces 10Ba and 10Aa of the lever portion 10B and the handle portion 10A are continuous with each other causes molding defects such as shrinkage and deformation. It can be molded with a good finish without any problems.

なお、本実施形態のように積層部材12が表層部材11によって外部から見えない形に被覆される構成の場合には、積層部材12に多少の引けが生じても、表層部材11によってその引けの厚みを吸収して、レバーハンドル10を仕上がり良く成形することができる。したがって、積層部材12の厚みを表層部材11よりも厚くして、レバーハンドル10の構造強度を効果的に高めるような構成を簡便に得ることができる。 In the case of the configuration in which the laminated member 12 is covered by the surface layer member 11 so as not to be visible from the outside as in the present embodiment, even if the laminated member 12 is slightly closed, the surface layer member 11 is used to close the laminated member 12. By absorbing the thickness, the lever handle 10 can be molded with a good finish. Therefore, it is possible to easily obtain a configuration in which the thickness of the laminated member 12 is made thicker than that of the surface layer member 11 and the structural strength of the lever handle 10 is effectively increased.

以上をまとめると、第1の実施形態に係るレバーハンドル10は次のような構成となっている。すなわち、水栓本体(2)に軸回転可能なように取り付けられるハンドル部(10A)と、ハンドル部(10A)から径方向に張出し状に延びるレバー部(10B)と、を有する水栓用ハンドル(10)である。水栓用ハンドル(10)は、ハンドル部(10A)及びレバー部(10B)の外観形状を成す表層部材(11)と、表層部材(11)と積層状に一体成形される積層部材(12)と、を有する。 Summarizing the above, the lever handle 10 according to the first embodiment has the following configuration. That is, a faucet handle having a handle portion (10A) attached to the faucet body (2) so as to be rotatable around the axis, and a lever portion (10B) extending radially from the handle portion (10A). (10). The faucet handle (10) is a laminated member (12) integrally molded with a surface layer member (11) forming the appearance shape of the handle portion (10A) and the lever portion (10B) and the surface layer member (11). And have.

表層部材(11)が、ハンドル部(10A)の外観形状を成すハンドル表層部(11A)と、レバー部(10B)の外観形状を成すレバー表層部(11B)と、を有する。積層部材(12)が、ハンドル表層部(11A)と積層状に一体成形されるハンドル積層部(12A)と、レバー表層部(11B)と積層状に一体成形されるレバー積層部(12B)と、ハンドル積層部(12A)とレバー積層部(12B)とをシームレスに繋ぐ繋ぎ積層部(12C)と、を有する。 The surface layer member (11) has a handle surface layer portion (11A) that forms the appearance shape of the handle portion (10A), and a lever surface layer portion (11B) that forms the appearance shape of the lever portion (10B). A handle laminated portion (12A) in which the laminated member (12) is integrally molded in a laminated manner with the handle surface layer portion (11A), and a lever laminated portion (12B) in which the laminated member (12) is integrally molded in a laminated shape with the lever surface layer portion (11B). It has a connecting laminated portion (12C) that seamlessly connects the handle laminated portion (12A) and the lever laminated portion (12B).

上記構成によれば、ハンドル部(10A)及びレバー部(10B)を表層部材(11)と積層部材(12)とから成る多層構造とすることで、個々の層の肉厚を薄くして、成形収縮に伴う引けの発生を抑えることができる。なおかつ、上記多層構造を一体成形により形成することで、各層を合理的に強固に一体化することができる。また、積層部材(12)がハンドル積層部(12A)とレバー積層部(12B)とをシームレスに繋ぐ繋ぎ積層部(12C)を有することで、表層部材(11)に部分的な厚肉部が形成されにくくなる。それにより、水栓用ハンドル(10)を仕上がり良く成形することができる。 According to the above configuration, the handle portion (10A) and the lever portion (10B) have a multi-layer structure composed of a surface layer member (11) and a laminated member (12), whereby the wall thickness of each layer is reduced. It is possible to suppress the occurrence of shrinkage due to molding shrinkage. Moreover, by forming the multilayer structure by integral molding, each layer can be rationally and firmly integrated. Further, since the laminated member (12) has a connecting laminated portion (12C) that seamlessly connects the handle laminated portion (12A) and the lever laminated portion (12B), the surface layer member (11) has a partially thickened portion. It becomes difficult to form. As a result, the faucet handle (10) can be molded with a good finish.

また、積層部材(12)が、表層部材(11)よりも剛性及び/又は強度の高い材料から成る。上記構成によれば、ハンドル部(10A)から張出し状に延びるレバー部(10B)を備えた水栓用ハンドル(10)の剛性及び/又は強度を合理的に高めることができる。また、表層部材(11)を積層部材(12)と一体成形する際に、積層部材(12)を成形材料の射出圧力に対して撓ませにくくすることができる。それにより、水栓用ハンドル(10)をより仕上がり良く成形することができる。 Further, the laminated member (12) is made of a material having higher rigidity and / or strength than the surface layer member (11). According to the above configuration, the rigidity and / or the strength of the faucet handle (10) provided with the lever portion (10B) extending in an overhanging shape from the handle portion (10A) can be reasonably increased. Further, when the surface layer member (11) is integrally molded with the laminated member (12), the laminated member (12) can be made difficult to bend with respect to the injection pressure of the molding material. As a result, the faucet handle (10) can be molded with a better finish.

また、レバー積層部(12B)が、レバー表層部(11B)内に埋設されるようにインサート成形される。上記構成によれば、レバー部(10B)をより見栄え良く仕上げることができる。また、レバー表層部(11B)とレバー積層部(12B)との接合強度をより高めることができる。 Further, the lever laminated portion (12B) is insert-molded so as to be embedded in the lever surface layer portion (11B). According to the above configuration, the lever portion (10B) can be finished with a better appearance. Further, the joint strength between the lever surface layer portion (11B) and the lever laminated portion (12B) can be further increased.

また、レバー表層部(11B)とレバー積層部(12B)とが、互いに平板積層状に一体成形される。上記構成によれば、レバー表層部(11B)の天板形状を、平板状に見栄え良く仕上げることができる。 Further, the lever surface layer portion (11B) and the lever laminated portion (12B) are integrally molded with each other in a flat plate laminated shape. According to the above configuration, the shape of the top plate of the lever surface layer portion (11B) can be finished in a flat plate shape with good appearance.

また、更に、積層部材(12)が、レバー積層部(12B)とハンドル積層部(12A)との繋ぎの角部に肉盛り状のリブ(12D)を有する。上記構成によれば、ハンドル部(10A)から張出し状に延びるレバー部(10B)の曲げ剛性を適切に高めることができる。また、表層部材(11)を積層部材(12)と一体成形する際に、積層部材(12)を成形材料の射出圧力に対して撓ませにくくすることができる。それにより、水栓用ハンドル(10)をより仕上がり良く成形することができる。 Further, the laminated member (12) has a built-up rib (12D) at a corner portion of the connection between the lever laminated portion (12B) and the handle laminated portion (12A). According to the above configuration, the bending rigidity of the lever portion (10B) extending in an overhanging shape from the handle portion (10A) can be appropriately increased. Further, when the surface layer member (11) is integrally molded with the laminated member (12), the laminated member (12) can be made difficult to bend with respect to the injection pressure of the molding material. As a result, the faucet handle (10) can be molded with a better finish.

また、ハンドル積層部(12A)が、ハンドル表層部(11A)の裏側に積層されてハンドル部(10A)の水栓本体(2)に取り付けられる内周側の取付面(10Ab)を成す。上記構成によれば、ハンドル積層部(12A)のハンドル表層部(11A)とは別個に成形される構成を利用して、水栓本体(2)に取り付けられる取付面(10Ab)の成形自由度を高めることができる。 Further, the handle laminated portion (12A) is laminated on the back side of the handle surface layer portion (11A) to form an inner peripheral side mounting surface (10Ab) to be attached to the faucet main body (2) of the handle portion (10A). According to the above configuration, the degree of freedom of molding of the mounting surface (10Ab) to be attached to the faucet body (2) is utilized by utilizing the structure in which the handle laminated portion (12A) is molded separately from the handle surface layer portion (11A). Can be enhanced.

また、水栓用ハンドル(10)が、水栓本体(2)に対して、取付方向に延びる中心軸線(A1)回りの回転による温調操作と、上記中心軸線(A1)とは交差する交差軸線(A2)回りの起倒回転による吐止水の切り換え操作と、が可能なように取り付けられるシングルレバーハンドルとされる。上記構成によれば、シングルレバーハンドルのようにレバー部(10B)が長尺状に延び、かつ、広い天板面(10Aa,10Ba)を有する構成に対して、特に効果的にレバー部(10B)を仕上がり良く成形することができる。 Further, the temperature control operation by the rotation of the faucet handle (10) around the central axis (A1) extending in the mounting direction with respect to the faucet main body (2) intersects with the central axis (A1). It is a single lever handle that can be attached so that the water discharge stop operation can be switched by tilting and rotating around the axis (A2). According to the above configuration, the lever portion (10B) is particularly effective for a configuration in which the lever portion (10B) extends in a long shape and has a wide top plate surface (10Aa, 10Ba) such as a single lever handle. ) Can be molded with a good finish.

《その他の実施形態について》
以上、本発明の実施形態を1つの実施形態を用いて説明したが、本発明は上記実施形態のほか、以下に示す様々な形態で実施することができるものである。
<< About other embodiments >>
Although the embodiments of the present invention have been described above using one embodiment, the present invention can be implemented in various embodiments shown below in addition to the above embodiments.

1.本発明の水栓用ハンドルは、上記実施形態で示したようなシングルレバーハンドルの他、様々なタイプの水栓用ハンドルとして適用することができるものである。具体的には、水栓用ハンドルは、特開2017-48644号公報等の文献に開示されるように、ハンドル部が水栓本体に対して鉛直方向に延びる軸回りに回転可能となるように取り付けられるタイプのシングルレバーハンドルとして適用されても良い。また、水栓用ハンドルは、特開2015-010636号公報等の文献に開示されるように、ハンドル部が水栓本体の右側部又は左側部に対して水平方向に延びる軸回りに回転可能となるように取り付けられるタイプのハンドル(温調ハンドル又は吐止水の切替ハンドル)として適用されても良い。また、水栓用ハンドルは、上記のような混合水栓の操作ハンドルの他、単水栓の操作ハンドルとして適用されても良い。すなわち、水栓用ハンドルは、水栓本体に軸回転可能なように取り付けられるハンドル部と、ハンドル部から径方向に張出し状に延びるレバー部と、を有する様々なタイプの水栓用ハンドルに適用することができるものである。 1. 1. The faucet handle of the present invention can be applied as various types of faucet handles in addition to the single lever handle as shown in the above embodiment. Specifically, as disclosed in documents such as Japanese Patent Application Laid-Open No. 2017-48644, the faucet handle is such that the handle portion can rotate about an axis extending in the vertical direction with respect to the faucet body. It may be applied as a single lever handle of a type that can be attached. Further, as disclosed in documents such as Japanese Patent Application Laid-Open No. 2015-010636, the faucet handle can be rotated around an axis in which the handle portion extends horizontally with respect to the right side portion or the left side portion of the faucet body. It may be applied as a type of handle (temperature control handle or water discharge switching handle) that can be attached so as to be. Further, the faucet handle may be applied as an operation handle of a single faucet in addition to the operation handle of the mixing faucet as described above. That is, the faucet handle is applicable to various types of faucet handles having a handle portion that is attached to the faucet body so that the axis can rotate, and a lever portion that extends radially from the handle portion. Is something that can be done.

2.表層部材と積層状に一体成形される積層部材は、そのハンドル積層部が表層部材のハンドル表層部内に完全に埋設される形にインサートされて成形されるものであってもよい。また、積層部材は、必ずしもそのレバー積層部が表層部材のレバー表層部によって全周が被覆される形に埋設されるものでなくてもよく、一部分が外部に露出したり一面全体が外部に露出したりする形に積層されるものであってもよい。 2. 2. The laminated member integrally molded integrally with the surface layer member may be formed by inserting the handle laminated portion into a form completely embedded in the handle surface layer portion of the surface layer member. Further, the laminated member does not necessarily have to be embedded so that the lever laminated portion is covered with the lever surface layer portion of the surface layer member on the entire circumference, and a part of the laminated member is exposed to the outside or the entire surface is exposed to the outside. It may be laminated in a shape such as a liver.

3.表層部材と積層部材とは、上記実施形態で示した材料以外の樹脂材料、金属材料、又は複合材料から成るものであっても良い。上記表層部材と積層部材とは、互いに同一材料から成るものであっても良い。また、表層部材が積層部材よりも剛性及び/又は強度の高い材料から成るものであっても良い。 3. 3. The surface layer member and the laminated member may be made of a resin material, a metal material, or a composite material other than the materials shown in the above embodiments. The surface layer member and the laminated member may be made of the same material. Further, the surface layer member may be made of a material having higher rigidity and / or strength than the laminated member.

4.レバー部とハンドル部とは、必ずしも互いの天板面が互いに面一状の平坦面を成す形状から成るものでなくても良い。すなわち、レバー部の天板面とハンドル部の天板面との間に段差があるものや、レバー部の中央に指を掛け入れるための引掛孔が空いたもの等であっても良い。また、レバー部の天板面が凸湾曲面状や凹湾曲面状に湾曲したものや、レバー部がハンドル部から丸棒状や角棒状に張り出す形に延びるものであってもよい。 4. The lever portion and the handle portion do not necessarily have to have a shape in which the top plate surfaces of each other form a flat surface flush with each other. That is, a step may be provided between the top plate surface of the lever portion and the top plate surface of the handle portion, or a hook hole for inserting a finger may be provided in the center of the lever portion. Further, the top plate surface of the lever portion may be curved in a convex curved surface shape or a concave curved surface shape, or the lever portion may extend from the handle portion into a round bar shape or a square bar shape.

5.リブは、レバー積層部とハンドル積層部との繋ぎの角部に肉盛り状に形成されるものであれば良く、これらの内角部の他、外角部に形成されていても良い。 5. The rib may be formed in a built-up shape at the corner portion of the connection between the lever laminated portion and the handle laminated portion, and may be formed at the outer corner portion in addition to these inner corner portions.

1 混合水栓
2 水栓本体
3 吐出管
3A 吐出口
4 カートリッジ
4A レバー軸
10 レバーハンドル(水栓用ハンドル)
10A ハンドル部
10Aa 天板面
10Ab 取付面
10Ac 締結面
10B レバー部
10Ba 天板面
11 表層部材
11A ハンドル表層部
11B レバー表層部
12 積層部材
12A ハンドル積層部
12B レバー積層部
12C 繋ぎ積層部
12D リブ
A1 中心軸線
A2 交差軸線
P1 止水位置
P2 吐水位置
P3 湯側調節位置
P4 水側調節位置
T 天板
B ビス
1 Mixing faucet 2 Faucet body 3 Discharge pipe 3A Discharge port 4 Cartridge 4A Lever shaft 10 Lever handle (handle for faucet)
10A Handle part 10Aa Top plate surface 10Ab Mounting surface 10Ac Fastening surface 10B Lever part 10Ba Top plate surface 11 Surface layer member 11A Handle surface layer part 11B Lever surface layer part 12 Laminated member 12A Handle laminated part 12B Lever laminated part 12C Connecting laminated part 12D Axis line A2 Crossing axis P1 Water stop position P2 Water discharge position P3 Hot water side adjustment position P4 Water side adjustment position T Top plate B screw

Claims (7)

水栓本体に軸回転可能なように取り付けられるハンドル部と、該ハンドル部から径方向に張出し状に延びるレバー部と、を有する水栓用ハンドルであって、
前記ハンドル部及び前記レバー部の外観形状を成す表層部材と、
該表層部材と積層状に一体成形される積層部材と、を有し、
前記表層部材が、前記ハンドル部の外観形状を成すハンドル表層部と、前記レバー部の外観形状を成すレバー表層部と、を有し、
前記積層部材が、前記ハンドル表層部と積層状に一体成形されるハンドル積層部と、前記レバー表層部と積層状に一体成形されるレバー積層部と、前記ハンドル積層部と前記レバー積層部とをシームレスに繋ぐ繋ぎ積層部と、を有する水栓用ハンドル。
A faucet handle having a handle portion attached to the faucet body so as to be rotatable around the axis, and a lever portion extending radially from the handle portion in a radial shape.
The surface layer member forming the appearance shape of the handle portion and the lever portion, and
It has a laminated member that is integrally molded with the surface layer member in a laminated manner.
The surface layer member has a handle surface layer portion that forms the appearance shape of the handle portion, and a lever surface layer portion that forms the appearance shape of the lever portion.
The handle laminated portion in which the laminated member is integrally molded in a laminated manner with the handle surface layer portion, the lever laminated portion in which the lever surface layer portion is integrally molded in a laminated shape, and the handle laminated portion and the lever laminated portion are provided. A handle for faucets that has a connecting laminated part that connects seamlessly.
請求項1に記載の水栓用ハンドルであって、
前記積層部材が、前記表層部材よりも剛性及び/又は強度の高い材料から成る水栓用ハンドル。
The faucet handle according to claim 1.
A faucet handle in which the laminated member is made of a material having higher rigidity and / or strength than the surface layer member.
請求項1又は請求項2に記載の水栓用ハンドルにおいて、
前記レバー積層部が、前記レバー表層部内に埋設されるようにインサート成形される水栓用ハンドル。
In the faucet handle according to claim 1 or 2.
A faucet handle in which the lever laminated portion is insert-molded so as to be embedded in the lever surface layer portion.
請求項1から請求項3のいずれかに記載の水栓用ハンドルであって、
前記レバー表層部と前記レバー積層部とが、互いに平板積層状に一体成形される水栓用ハンドル。
The faucet handle according to any one of claims 1 to 3.
A faucet handle in which the lever surface layer portion and the lever laminated portion are integrally molded in a flat plate laminated shape.
請求項1から請求項4のいずれかに記載の水栓用ハンドルであって、
更に、前記積層部材が、前記レバー積層部と前記ハンドル積層部との繋ぎの角部に肉盛り状のリブを有する水栓用ハンドル。
The faucet handle according to any one of claims 1 to 4.
Further, a faucet handle in which the laminated member has a built-up rib at a corner of a connection between the lever laminated portion and the handle laminated portion.
請求項1から請求項5のいずれかに記載の水栓用ハンドルであって、
前記ハンドル積層部が、前記ハンドル表層部の裏側に積層されて前記ハンドル部の前記水栓本体に取り付けられる内周側の取付面を成す水栓用ハンドル。
The faucet handle according to any one of claims 1 to 5.
A faucet handle having the handle laminated portion laminated on the back side of the handle surface layer portion and forming a mounting surface on the inner peripheral side of the handle portion to be attached to the faucet main body.
請求項1から請求項6のいずれかに記載の水栓用ハンドルであって、
当該水栓用ハンドルが、前記水栓本体に対して、取付方向に延びる中心軸線回りの回転による温調操作と、前記中心軸線とは交差する交差軸線回りの起倒回転による吐止水の切り換え操作と、が可能なように取り付けられるシングルレバーハンドルとされる水栓用ハンドル。
The faucet handle according to any one of claims 1 to 6.
The faucet handle switches between a temperature control operation by rotating around the central axis extending in the mounting direction with respect to the faucet main body and a water discharge stop operation by tilting rotation around the crossing axis intersecting with the central axis. A faucet handle that is said to be a single lever handle that can be operated and installed so that it can be operated.
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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2000220176A (en) 1999-01-29 2000-08-08 Inax Corp Handle for faucet
JP2001220781A (en) 2000-02-07 2001-08-17 Toto Ltd Resin faucet
JP2003184145A (en) 2001-12-12 2003-07-03 San-Ei Faucet Mfg Co Ltd Faucet

Family Cites Families (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2000028017A (en) * 1998-07-09 2000-01-25 Toto Ltd Faucet device
JP6828365B2 (en) * 2016-10-13 2021-02-10 Toto株式会社 Faucet device

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2000220176A (en) 1999-01-29 2000-08-08 Inax Corp Handle for faucet
JP2001220781A (en) 2000-02-07 2001-08-17 Toto Ltd Resin faucet
JP2003184145A (en) 2001-12-12 2003-07-03 San-Ei Faucet Mfg Co Ltd Faucet

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