JP2012215301A - Fastening screw - Google Patents
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- JP2012215301A JP2012215301A JP2012142261A JP2012142261A JP2012215301A JP 2012215301 A JP2012215301 A JP 2012215301A JP 2012142261 A JP2012142261 A JP 2012142261A JP 2012142261 A JP2012142261 A JP 2012142261A JP 2012215301 A JP2012215301 A JP 2012215301A
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Abstract
Description
この発明は、例えば部品などをワークに所定の締結力で締結する締結ねじに関する。 The present invention relates to a fastening screw that fastens, for example, a component or the like to a workpiece with a predetermined fastening force.
近年多く普及している例えば携帯電話、パソコン及び携帯型音楽プレーヤ等の電気製品や自動車部品等においては、その軽量化、薄型化及び小型化等から比較的厚みの薄いワークに部品を固定するようにした構造が採用されている。このような部品固定構造において、この部品を固定するためには主として締結ねじが採用されている。 In recent years, for example, electronic products such as mobile phones, personal computers, and portable music players, and automobile parts, etc., the parts are fixed to relatively thin workpieces due to their weight reduction, thickness reduction, and size reduction. The structure is used. In such a component fixing structure, fastening screws are mainly used to fix the components.
この固定構造に使用される締結ねじには、頭部に一体のカップ状の鍔にこれの周縁に沿って延び且つ緩み方向に向かうに従って座面から突出して傾斜するとともに緩み方向の端面が座面に対してほぼ直立した複数個の突片を形成し、この突片が座面の周縁に沿い等間隔をおいて複数個形成されたものがある(引用文献1)。 The fastening screw used in this fixing structure includes a cup-shaped ridge integrated with the head, extends along the periphery of the ridge and protrudes from the seating surface as it goes in the loosening direction, and the end surface in the loosening direction has a seating surface. A plurality of projecting pieces that are substantially upright are formed, and a plurality of projecting pieces are formed at equal intervals along the periphery of the seat surface (Cited document 1).
また、締結ねじには、頭部の座面に凹部が形成され、厚みの薄いワークに対しても傾斜することなくねじ込みができるようにし、ねじ込み作業中に雌ねじが潰れたり、下穴が変形することがないようにしたものがある(引用文献2)。 In addition, the fastening screw has a recessed portion on the seating surface of the head, so that it can be screwed into a thin workpiece without inclining, so that the female screw is crushed or the pilot hole is deformed during the screwing operation. There is a thing which made it not happen (cited reference 2).
引用文献1の締結ねじでは、締付け時に座面の周縁に沿い等間隔をおいて複数個形成された突片がワークに食い込み、またワークが変形したりすることがあり、所定の締結力が得られない。 In the fastening screw of the cited document 1, a plurality of protruding pieces formed at equal intervals along the peripheral edge of the seating surface may bite into the workpiece during deformation, and the workpiece may be deformed, and a predetermined fastening force can be obtained. I can't.
また、引用文献2の締結ねじでは、頭部の座面に凹部が形成されていることで、適正な締結力で部品をワークに固定することができても、ねじの頭部の座面が部品に着座した状態において確実に頭部外周にて部品に接するようになっておらず、ねじに緩みが生じやすく時間が経過すると、ねじが緩み、固定された部品がワークに対してずれを生じている等の課題がある。
Moreover, in the fastening screw of the cited reference 2, since the concave portion is formed on the seating surface of the head, the seating surface of the head of the screw can be secured even if the component can be fixed to the workpiece with an appropriate fastening force. When the machine is seated on a part, it does not come into contact with the part reliably on the outer periphery of the head, and the screw is likely to be loosened over time. There are issues such as.
この発明は、かかる実情に鑑みなされたもので、締め付力を向上することができる締結ねじを提供することを目的としている。 This invention is made | formed in view of this situation, and it aims at providing the fastening screw which can improve fastening force.
前記課題を解決し、かつ目的を達成するために、この発明は、以下のように構成した。 In order to solve the above-described problems and achieve the object, the present invention is configured as follows.
請求項1に記載の発明は、頭部の中央にリセスを有し、
前記頭部の座面に、外周縁の曲部を残して前記リセスに干渉しないような凹部を有し、
前記凹部は、前記リセスの底部に向う傾斜面により形成され、
前記頭部の着座面が、前記傾斜面の下側から立ち上がる前記曲部の立ち上がり面より形成され、
前記頭部の着座面を、前記頭部の外周縁より内側で、かつ前記頭部の外周側面の頂部より内側に設定したことを特徴とする締結ねじである。
The invention according to claim 1 has a recess in the center of the head,
On the seating surface of the head, there is a recess that does not interfere with the recess leaving a curved portion of the outer periphery,
The recess is formed by an inclined surface facing the bottom of the recess;
A seating surface of the head is formed from a rising surface of the curved portion rising from a lower side of the inclined surface;
The fastening screw is characterized in that the seating surface of the head is set inside the outer peripheral edge of the head and inside the top of the outer peripheral side surface of the head.
請求項2に記載の発明は、前記頭部の外周側面は、上下方向に伸びるテーパ面で形成され、
前記頭部の着座面を、前記テーパ面より内側に設定したことを特徴とする請求項1に記載の締結ねじである。
As for invention of Claim 2, the outer peripheral side surface of the said head is formed with the taper surface extended to an up-down direction,
The fastening screw according to claim 1, wherein a seating surface of the head is set on an inner side than the tapered surface.
請求項3に記載の発明は、前記リセスの底部に向う傾斜面は、さらに前記頭部の外周側面の頂部に向かうように形成されることを特徴とする請求項1に記載の締結ねじである。 The invention according to claim 3 is the fastening screw according to claim 1, wherein the inclined surface toward the bottom of the recess is further formed toward the top of the outer peripheral side surface of the head. .
請求項1乃至請求項3に記載の発明では、締付け時に曲部の外周縁が締付け面に接触するので、締付け面に喰い込んで引っ掛かることがなく、締め付力を向上することができる。 In the inventions according to claims 1 to 3, since the outer peripheral edge of the curved portion comes into contact with the tightening surface at the time of tightening, the tightening force can be improved without being caught by the tightening surface.
以下、この発明の締結ねじの実施の形態について説明する。この発明の実施の形態は、発明の最も好ましい形態を示すものであり、この発明はこれに限定されない。 Hereinafter, embodiments of the fastening screw of the present invention will be described. The embodiment of the present invention shows the most preferable mode of the present invention, and the present invention is not limited to this.
[締結ねじの製造方法]
この実施の形態の締結ねじの製造方法を、図1に基づいて説明する。この実施の形態の締結ねじの製造方法は、材料成形工程Aと、予備据込み工程Bと、仕上据込み工程Cと、ねじ成形工程Dとを含む。
[Method of manufacturing fastening screw]
The manufacturing method of the fastening screw of this embodiment is demonstrated based on FIG. The method for manufacturing a fastening screw according to this embodiment includes a material forming step A, a preliminary upsetting step B, a finishing upsetting step C, and a screw forming step D.
材料成形工程Aでは、切断して所定寸法の材料線を得る工程、または太い軸部、または太い材料から絞り出して所定寸法の材料線を得る工程で構成される。切断して所定寸法の材料線を得る工程では、圧造機に材料線を供給し、矯正ローラ間を通して真っ直ぐにした後、材料線1の先端をストッパ10に当て、切り駒11と切断刃12により、材料線1を所定寸法に切断する。また、太い軸部、または太い材料から絞り出して所定寸法の材料線を得る工程では、ねじ径(軸径)に対し頭径が過大のときは、頭部を成形し切れないので、太い軸部、太い材料からねじとなる細い部分は別に絞り出す方式により成形し、所定寸法の材料線1を得る。 The material forming step A includes a step of cutting to obtain a material wire having a predetermined size, or a step of obtaining a material wire having a predetermined size by squeezing from a thick shaft or thick material. In the process of cutting and obtaining a material wire of a predetermined size, after supplying the material wire to the forging machine and straightening it between the correction rollers, the tip of the material wire 1 is applied to the stopper 10, and the cutting piece 11 and the cutting blade 12 are used. The material wire 1 is cut into a predetermined dimension. Also, in the process of obtaining a material wire of a predetermined size by squeezing from a thick shaft or a thick material, if the head diameter is excessive with respect to the screw diameter (shaft diameter), the head cannot be completely molded, so the thick shaft A thin portion that becomes a screw from a thick material is molded by a separate squeezing method to obtain a material wire 1 having a predetermined size.
予備据込み工程Bでは、第1パンチ20と、ダイス21を用い、締結ねじの頭部を成形する予備据込みを行う。第1パンチ20は、カップ状の凹み20aを有し、ダイス21は、平坦状の端面21aから突出する凸部21bを有する。この平坦状の端面21aから突出する凸部21bを有するダイス21と、カップ状の凹み20aを有する第1パンチ20とにより、ダイス21の凸部21bから突出する材料線1の先端を圧造し、締結ねじの座面となる外周縁に曲部1bを残したまま、凹部1dを有する頭部1aを成形する。 In the preliminary upsetting process B, the first punch 20 and the die 21 are used to perform preliminary upsetting for forming the head of the fastening screw. The first punch 20 has a cup-shaped recess 20a, and the die 21 has a convex portion 21b protruding from a flat end surface 21a. The tip of the material wire 1 protruding from the convex portion 21b of the die 21 is forged by the die 21 having the convex portion 21b protruding from the flat end surface 21a and the first punch 20 having the cup-shaped recess 20a. The head portion 1a having the concave portion 1d is formed while leaving the curved portion 1b on the outer peripheral edge serving as the seating surface of the fastening screw.
第1パンチ20とダイス21を用いて材料線1の先端を圧造するが、図2に示すように、第1パンチ20のカップ状の凹み20aの径D1よりダイス21の凸部21bの立ち上がり部の径D2が小さく形成されており、ダイス21の凸部21bから突出する材料線1の先端を、カップ状の凹み20aを有する第1パンチ20とにより圧造するときに、 カップ状の凹み20aによって材料線1の先端が押され、先端部はカップ状の凹み20aの形状になり、一方、ダイス21の凸部21bによって凹部1dが成形される。このとき、ダイス21の凸部21bによって先端部が押されるが、第1パンチ20のカップ状の凹み20aの径D1よりダイス21の凸部21bの立ち上がり部の径D2が小さく形成されていることから、先端部が凹むようになり、この凹部1dを成形することによって締結ねじの座面となる外周縁に曲部1bが成形される The front end of the material wire 1 is forged using the first punch 20 and the die 21, but as shown in FIG. 2, the rising portion of the convex portion 21b of the die 21 from the diameter D1 of the cup-shaped recess 20a of the first punch 20 When the tip of the material wire 1 protruding from the convex portion 21b of the die 21 is pressed with the first punch 20 having the cup-shaped recess 20a, the cup-shaped recess 20a The tip of the material wire 1 is pushed, and the tip becomes the shape of a cup-shaped recess 20 a, while the recess 1 d is formed by the protrusion 21 b of the die 21. At this time, the tip portion is pushed by the convex portion 21b of the die 21, but the diameter D2 of the rising portion of the convex portion 21b of the die 21 is made smaller than the diameter D1 of the cup-shaped recess 20a of the first punch 20. From this, the tip portion is recessed, and the curved portion 1b is formed on the outer peripheral edge serving as the seating surface of the fastening screw by forming the recessed portion 1d.
仕上据込み工程Cでは、第2パンチ30と、ダイス21を用い、締結ねじの頭部1aを成形する仕上据込みを行う。第2パンチ30は、頭部1aにリセス1cを成形する凸部30bが凹部30aに形成されており、ダイス21は予備据込み工程Bで用いたものを用い、第2パンチ30と、ダイス21とにより頭部1aを圧造し、頭部1aの凹部1dに干渉しないようなリセス1cを成形する。 In the finishing upsetting process C, finishing upsetting of the head 1a of the fastening screw is performed using the second punch 30 and the die 21. The second punch 30 has a convex part 30b formed in the concave part 30a for forming the recess 1c in the head part 1a. The die 21 is the same as that used in the preliminary upsetting process B, and the second punch 30 and the die 21 are used. The head 1a is forged to form a recess 1c that does not interfere with the recess 1d of the head 1a.
ねじ成形工程Dでは、加工装置40を用い、頭部1aから延びる脚部1eに加工してねじを成形する。加工装置40として、転造加工装置を用い、転造加工によりねじを成形することが好ましい。 In the screw forming process D, the processing device 40 is used to process the leg 1e extending from the head 1a to form a screw. As the processing device 40, it is preferable to use a rolling processing device and form a screw by rolling processing.
このように、この実施の形態の締結ねじの製造方法では、予備据込み工程Bにおいて、ダイス21と第1パンチ20とにより材料線1の先端を圧造し、締結ねじの座面となる外周縁に曲部1bを残したまま、凹部1dを有する頭部1aを成形することで、仕上据込み工程Cでは、ダイス21と第2パンチ30とにより、頭部1aを圧造し、頭部1aの凹部1dに干渉しないようなリセス1cを成形するだけであり、製造工程を短縮することができる。 Thus, in the manufacturing method of the fastening screw of this embodiment, in the preliminary upsetting process B, the tip of the material wire 1 is forged by the die 21 and the first punch 20, and the outer peripheral edge that becomes the seating surface of the fastening screw In the finishing installation process C, the head 1a is forged by the die 21 and the second punch 30 by forming the head 1a having the recess 1d while leaving the curved portion 1b. Only the recess 1c that does not interfere with the recess 1d is formed, and the manufacturing process can be shortened.
また、予備据込み工程Bの前段に、材料成形工程Aを有し、この材料成形工程Aが、切断して所定寸法の材料線を得る工程であり、また太い軸部、または太い材料から絞り出して所定寸法の材料線を得る工程であることで、締結ねじの材料線1を容易に得ることができる。 Further, there is a material forming step A before the pre-upsetting step B, and this material forming step A is a step of cutting to obtain a material wire of a predetermined dimension, and squeezing from a thick shaft portion or a thick material Thus, the material wire 1 of the fastening screw can be easily obtained by the step of obtaining the material wire having a predetermined dimension.
[締結ねじ]
この実施の形態の締結ねじを、図3乃至図9に基づき説明する。この実施の形態の締結ねじ101は、図1及び図2に示す実施の形態の締結ねじの製造方法により成形されるが、この締結ねじの製造方法に限定されるものではない。
[Fastening screw]
The fastening screw according to this embodiment will be described with reference to FIGS. Although the fastening screw 101 of this embodiment is shape | molded by the manufacturing method of the fastening screw of embodiment shown in FIG.1 and FIG.2, it is not limited to the manufacturing method of this fastening screw.
この締結ねじ101は、頭部102と、これに一体に形成された脚部103とからなるねじであり、頭部102にはドライバビット(図示せず)からねじ込み駆動力が伝達されるリセス120が形成されている。このリセス120は、十字状であるがこれに限定されない。 The fastening screw 101 is a screw including a head portion 102 and a leg portion 103 formed integrally with the head portion 102, and a recess 120 to which a screwing driving force is transmitted to the head portion 102 from a driver bit (not shown). Is formed. The recess 120 has a cross shape, but is not limited thereto.
頭部102と一体の脚部103には、2条のねじ山130が頭部102の座面121の近くから脚部103の先端にかけて形成してあり、この脚部103は頭部側から先端部分まで同一断面形状であるが、僅かではあるが徐々に細くなっていてもよい。また、脚部103には、2条のねじ山130が形成されているが、これに限定されず3条のねじなどの多条でもよい。 In the leg 103 integral with the head 102, two threads 130 are formed from the vicinity of the seating surface 121 of the head 102 to the tip of the leg 103, and the leg 103 extends from the head side to the tip. Although it is the same cross-sectional shape to the part, you may become thin gradually although it is slight. In addition, although two threaded threads 130 are formed on the leg 103, the present invention is not limited to this, and multiple threads such as three threaded threads may be used.
また、脚部103に形成されている2条のねじ山130は、等間隔のピッチを有しており、頭部側の不完全ねじ部103aの長さXを、先端側のねじガイド部103bの長さYより短くしている。 Further, the two threads 130 formed on the leg portion 103 have an equally spaced pitch, and the length X of the incomplete screw portion 103a on the head side is set to the screw guide portion 103b on the tip side. It is shorter than the length Y.
締結ねじ101は、図4に示すように、頭部102の座面121に、頭部102の外周縁122から中心にかけて頭部102のリセス120の底部方向に向けて角度θだけ傾斜した傾斜面123aを有する円錐の凹部123が形成されている。 As shown in FIG. 4, the fastening screw 101 is inclined on the seat surface 121 of the head 102 from the outer peripheral edge 122 of the head 102 toward the center toward the bottom of the recess 120 of the head 102 by an angle θ. A conical recess 123 having 123a is formed.
このように、締結ねじ101は、リセス120を形成した頭部102を有し、頭部102の座面121に、外周縁122の曲部を残してリセス120に干渉しないような凹部123を形成し、頭部102の着座面124が、曲部の外周縁122よりなる。この凹部123は、リセス120の底部に向う傾斜面123aにより形成されることで、頭部102の強度を損なうことなく着座面123aを形成することができる。 As described above, the fastening screw 101 has the head portion 102 in which the recess 120 is formed, and the concave portion 123 is formed on the seating surface 121 of the head portion 102 so as not to interfere with the recess 120 while leaving the curved portion of the outer peripheral edge 122. The seating surface 124 of the head 102 is formed by the outer peripheral edge 122 of the curved portion. The recess 123 is formed by the inclined surface 123a facing the bottom of the recess 120, so that the seating surface 123a can be formed without impairing the strength of the head 102.
また、凹部123は、リセス120の底部に向う傾斜面123aにより形成され、この実施の形態では、凹部123を円錐の形状としているが、図6に示すように、凹部123の傾斜面123aの角度θを大きくした円錐の形状としてもよく、さらに頂部を平面とした円錐台の形状などとしてもよい。 Further, the concave portion 123 is formed by an inclined surface 123a facing the bottom of the recess 120. In this embodiment, the concave portion 123 has a conical shape, but as shown in FIG. 6, the angle of the inclined surface 123a of the concave portion 123 A cone shape with a large θ may be used, and a truncated cone shape having a flat top portion may be used.
また、図7に示すように、凹部123が低部面123bを有する皿状に形成され、凹部123によって、着座面124が、曲部の外周縁122よりなる。 Moreover, as shown in FIG. 7, the recessed part 123 is formed in the dish shape which has the low part surface 123b, and the seating surface 124 consists of the outer periphery 122 of a curved part by the recessed part 123. FIG.
次に、締結ねじ101による締付を、図5に基づいて説明する。締結ねじ101は、ねじ込まれて頭部102の座面121が着座すると、外周縁122の着座面124が最も先に着座し、頭部102の外周縁122に形成した着座面124の作用により、締結ねじ101にはねじ込み後の所定軸力が継続して作用することになる。 Next, tightening with the fastening screw 101 will be described with reference to FIG. When the fastening screw 101 is screwed and the seat surface 121 of the head 102 is seated, the seating surface 124 of the outer peripheral edge 122 is seated first, and by the action of the seating surface 124 formed on the outer peripheral edge 122 of the head 102, The predetermined axial force after screwing continues to act on the fastening screw 101.
すなわち、頭部102の座面121には、これの外周縁122を残して凹部123が形成され、外周縁122には、着座面124が形成されていることで、締付け時に着座面124が部品150の締付面に引っかかったり、食い込むことがなく円滑に摺動して回転し、短時間に適正な締結力で部品150をワーク151に固定することができる。しかも、着座面124が、部品150に着座した状態においては、着座面124が確実に部品150に接するようになっており、着座面124によって部品150を押圧する押圧面積が広くなることからねじに緩みが生じにくい。 That is, a recess 123 is formed on the seat surface 121 of the head 102 leaving the outer peripheral edge 122 of the head 102, and a seating surface 124 is formed on the outer peripheral edge 122. The part 150 can be fixed to the work 151 with an appropriate fastening force in a short time without being caught or biting into the fastening surface 150 and smoothly sliding and rotating. In addition, when the seating surface 124 is seated on the component 150, the seating surface 124 is surely in contact with the component 150, and the pressing area for pressing the component 150 by the seating surface 124 is widened. Looseness is unlikely to occur.
また、脚部103は、頭部側の不完全ねじ部103aの長さXを、先端側のねじガイド部103bの長さYより短くしたことで、脚部103の頭部側において所定の締め付けトルクが容易に得られ、しかも緩みも生じにくい。 Further, the leg 103 has a predetermined tightening on the head side of the leg 103 by making the length X of the incomplete screw 103a on the head side shorter than the length Y of the screw guide 103b on the tip side. Torque is easily obtained, and it is difficult for loosening to occur.
この実施の形態の締結ねじと従来の締付ねじの破壊トルク測定を、図8及び図9に示す。図8は実施の形態の締結ねじの時間に対するトルクを示し、図9は従来の締結ねじの時間に対するトルクを示し、締付の試験機は友好製のdelvo DLV815−EKNを用い、回転数は450rpmとした。 FIG. 8 and FIG. 9 show the breaking torque measurement of the fastening screw of this embodiment and the conventional fastening screw. FIG. 8 shows the torque with respect to the time of the fastening screw of the embodiment, FIG. 9 shows the torque with respect to the time of the conventional fastening screw, the fastening tester uses Delvo DLV815-EKN made by Friendship, and the rotation speed is 450 rpm. It was.
この破壊トルク測定において、実施の形態の締結ねじが従来の締付ねじと比較して、締付破壊トルクが実施の形態の締付ねじでは、最大値が20.00Kgf・cmであるのに対し、従来の締付ねじでは最大値が18.34Kgf・cmである締め付力を向上することができた。 In this breaking torque measurement, the maximum value of the fastening screw of the embodiment is 20.00 Kgf · cm, compared with the conventional fastening screw. In the conventional tightening screw, the tightening force having the maximum value of 18.34 Kgf · cm could be improved.
この発明は、例えば部品などをワークに所定の締結力で締結する締結ねじに適用可能であり、ねじ締め時間を短縮し、かつ所定の締結力が得られ、ねじの緩みを抑えることが可能である。 The present invention can be applied to, for example, a fastening screw that fastens a part or the like to a workpiece with a predetermined fastening force, shortens the screw tightening time, obtains a predetermined fastening force, and can suppress loosening of the screw. is there.
A 材料成形工程
B 予備据込み工程
C 仕上据込み工程
D ねじ成形工程
1 材料線
1a 頭部
1b 曲部
1c リセス
1d 凹部
1e 脚部
10 ストッパ
11 切り駒
12 切断刃
20 第1パンチ
20a カップ状の凹み
21 ダイス
21a 平坦状の端面
21b 凸部
22 ピン
30 第2パンチ
30a 凹部
30b 凸部
40 加工装置
101 締付ねじ
102 頭部
103 脚部
103a 頭部側の不完全ねじ部
103b 先端側のねじガイド部
120 リセス
121 頭部2の座面
122 頭部2の外周縁
123 凹部
124 着座面
130 ねじ山
150 部品
151 ワーク
A Material forming process B Preliminary upsetting process C Finishing upsetting process D Screw forming process 1 Material wire 1a Head 1b Curved part 1c Recess 1d Recessed part 1e Leg part 10 Stopper 11 Cutting piece 12 Cutting blade 20 First punch 20a Cup-shaped Recess 21 Die 21a Flat end face 21b Convex part 22 Pin 30 Second punch 30a Concave part 30b Convex part 40 Processing device 101 Tightening screw 102 Head 103 Leg part 103a Incomplete screw part 103b on the head side Screw guide on the tip side Part 120 Recess 121 Seat surface 122 of head 2 Outer peripheral edge 123 of head 2 Recessed portion 124 Seating surface 130 Thread 150 Parts 151 Workpiece
Claims (3)
前記頭部の座面に、外周縁の曲部を残して前記リセスに干渉しないような凹部を有し、
前記凹部は、前記リセスの底部に向う傾斜面により形成され、
前記頭部の着座面が、前記傾斜面の下側から立ち上がる前記曲部の立ち上がり面より形成され、
前記頭部の着座面を、前記頭部の外周縁より内側で、かつ前記頭部の外周側面の頂部より内側に設定したことを特徴とする締結ねじ。 Having a recess in the center of the head,
On the seating surface of the head, there is a recess that does not interfere with the recess leaving a curved portion of the outer periphery,
The recess is formed by an inclined surface facing the bottom of the recess;
A seating surface of the head is formed from a rising surface of the curved portion rising from a lower side of the inclined surface;
A fastening screw, wherein the seating surface of the head is set on the inner side of the outer peripheral edge of the head and on the inner side of the top of the outer peripheral side surface of the head.
前記頭部の着座面を、前記テーパ面より内側に設定したことを特徴とする請求項1に記載の締結ねじ。 The outer peripheral side surface of the head is formed by a tapered surface extending in the vertical direction,
The fastening screw according to claim 1, wherein a seating surface of the head is set inside the tapered surface.
2. The fastening screw according to claim 1, wherein the inclined surface toward the bottom of the recess is further formed toward the top of the outer peripheral side surface of the head.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2012142261A JP2012215301A (en) | 2012-06-25 | 2012-06-25 | Fastening screw |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2012142261A JP2012215301A (en) | 2012-06-25 | 2012-06-25 | Fastening screw |
Related Parent Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP2010210532A Division JP5083396B2 (en) | 2010-09-21 | 2010-09-21 | Fastening screw manufacturing method |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JP2012215301A true JP2012215301A (en) | 2012-11-08 |
Family
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP2012142261A Pending JP2012215301A (en) | 2012-06-25 | 2012-06-25 | Fastening screw |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP2012215301A (en) |
Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH02145313U (en) * | 1989-05-12 | 1990-12-10 | ||
| JPH11294501A (en) * | 1998-04-09 | 1999-10-29 | Akebono Brake Ind Co Ltd | Pin for disk brake |
| JP2007315609A (en) * | 2004-04-30 | 2007-12-06 | Boellhoff Verbindungstechnik Gmbh | Joining assembly including plastic support member and plastic threaded element |
| JP2009150534A (en) * | 2007-11-30 | 2009-07-09 | Nitto Seiko Co Ltd | Tapping screw for fastening component |
-
2012
- 2012-06-25 JP JP2012142261A patent/JP2012215301A/en active Pending
Patent Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH02145313U (en) * | 1989-05-12 | 1990-12-10 | ||
| JPH11294501A (en) * | 1998-04-09 | 1999-10-29 | Akebono Brake Ind Co Ltd | Pin for disk brake |
| JP2007315609A (en) * | 2004-04-30 | 2007-12-06 | Boellhoff Verbindungstechnik Gmbh | Joining assembly including plastic support member and plastic threaded element |
| JP2009150534A (en) * | 2007-11-30 | 2009-07-09 | Nitto Seiko Co Ltd | Tapping screw for fastening component |
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