21 |
Forming machine for producing molded part |
JP2011031632 |
2011-02-17 |
JP2011183456A |
2011-09-22 |
WEIGMANN UWE-PETER; KRUEGER WOLFGANG |
<P>PROBLEM TO BE SOLVED: To make cost-effective production accompanied by high production quality. <P>SOLUTION: The forming machine 100 for producing the molded parts by forming a wire, a tube, or other elongated workpieces 120 has: a plurality of machine shafts; a driving system having a plurality of electrically driving devices for driving them; a controller 150 for adjusting and controlling the operation movement of the machine shaft in a production process following an operation program which is peculiar in the production process and a speed setting device for setting the operation speed of the molding machine for production process. An operator information system is used for determining and outputting at least one item of the operator information and, in this way, operators can optimize the operation speed to at least one optimization criterion which represents energy consumption required for production. <P>COPYRIGHT: (C)2011,JPO&INPIT |
22 |
Screw, manufacturing method and apparatus for rivets and the like |
JP51525793 |
1993-03-03 |
JP3360825B2 |
2003-01-07 |
ニールセン,オヴェ |
|
23 |
JPS507553B1 - |
JP3793270 |
1970-05-06 |
JPS507553B1 |
1975-03-26 |
|
|
24 |
セルフピアスリベットの製造方法 |
JP2017559078 |
2016-05-13 |
JP2018521856A |
2018-08-09 |
ラッセル ジョン トリニック |
或る長さのワイヤからセルフピアスリベットを製造する方法は、或る長さのワイヤを分離させることで複数のスラグを形成する分離ステップであって、各スラグはヘッド端及びテール端を規定する分離ステップを有する。更にこの方法は、スラグから複数のリベットを鍛造する鍛造ステップであって、各リベットはスラグのヘッド端から形成されるヘッドと該スラグのテール端から形成される先端部とを有し、リベットのヘッド及び先端部は縦軸を規定するシャンクによって分離され、リベットは実質的に縦軸方向に、先端部を通り且つシャンクの全軸長の少なくとも一部に亘って伸張する穴を有する、鍛造ステップを有する。複数のリベットの各々のために、この方法は、リベットの先端部、又はリベットが鍛造されるスラグのテール端に機械加工を施す、機械加工ステップを有する。 |
25 |
高変形能チタン及びチタン合金による一体型締め具の調整方法及びその方法によって調整された締め具 |
JP2012252251 |
2012-11-16 |
JP6258580B2 |
2018-01-10 |
キーナー, スティーヴン ジー. |
|
26 |
クリンチピン式パネル固定装置 |
JP2014195105 |
2014-09-25 |
JP2015045412A |
2015-03-12 |
MICHAEL MALONEY |
【課題】パネル固定装置のヘッドおよび変位機能部を形成する同じ鍛造工程時に同時にアンダーカットを形成することによってクリンチ式パネル固定装置を形成する。【解決手段】上部ダイおよび下部ダイとの間でパネル固定装置素材を連続的に圧縮し、素材の軸方向圧縮によって軸部をその正中線において外側に張り出す。同時に、軸部の曲線状張り出し部によってテーパー状先端16および接線方向締め代バンド18が形成する。この張り出し部が形成している間に、張り出し部とパネル固定装置のヘッドから下向きに延長する肩部との間にアンダーカット15が形成する。この形成方法、およびこの方法によって製作したパネル固定装置は、特に直径が1.0mmの小型のクリンチピンの製造に好適である。【選択図】図1 |
27 |
Molding machine for producing molded parts |
JP2011031632 |
2011-02-17 |
JP5485925B2 |
2014-05-07 |
ヴァイクマン ウーヴェ・ペーター; クルーガー ヴォルフガング |
|
28 |
Method for preparing article, method for reducing cycle time, and cold forming method |
JP2002355193 |
2002-12-06 |
JP2003268515A |
2003-09-25 |
KEENER STEVEN G; LITWINSKI EDWARD |
<P>PROBLEM TO BE SOLVED: To provide a method for preparing titanium or titanium-alloy articles having an ultra-fine grain structure without using a heat treatment step. <P>SOLUTION: A coarse-grained titanium or titanium-alloy material typically is heated and forced under constant pressure through a friction stir processing tooling device containing a stirring chamber and a stirring rod. As the material is passed through the stirring chamber, the stirring rod stirs the titanium or titanium-alloy material to obtain a homogeneous or uniform material condition. As the processed material exits the stirring chamber of the friction stir processing tooling device, it reconsolidates as an extremely homogeneous structure having ultra-fine grain structure. The titanium or titanium alloy processed to attain the ultra-fine grain material structure can be manufactured into aerospace structure articles, such as fasteners and articles, requiring no subsequent heat treatment step. <P>COPYRIGHT: (C)2003,JPO |
29 |
Rivet, a method of manufacturing a rivet, and methods of use of the rivet |
JP2001561920 |
2001-02-26 |
JP2003524126A |
2003-08-12 |
セドリック・バーケリー・ペインター |
(57)【要約】 【解決手段】 第1の実施の形態として、スリット(162)の周辺に対称的に配置された変形可能なタブ(161)を有する、実質的に平面上の金属製の本体部(160)を備える自己貫通式リベットが提供されている。 本体部(160)の上部には、本体部(160)の中線の近傍の点(164)から収束し、本体部(160)の上端(165)で終端するV字形状の凹部(163)が設けられている。 このV字形状の凹部(163)は、本体部(160)の上部を、本体部(160)の各側面に設けられたヘッドタブ(166)に分割する。 ヘッドタブ(166)の残りの上端は、リベットを部分的に駆動し、リベットされる加工物の各側面に向かって変形可能タブ(161)とヘッドタブ(166)が変形することによりリベットをセットすることを可能にする。 リベットの作製方法、及びリベットを使用するためのツールも提供する。 |
30 |
JPS6335343B2 - |
JP8727284 |
1984-04-28 |
JPS6335343B2 |
1988-07-14 |
NAITO SUSUMU |
|
31 |
JPS5440455B2 - |
JP14054577 |
1977-11-22 |
JPS5440455B2 |
1979-12-04 |
|
|
32 |
クリンチピン式パネル固定装置 |
JP2014195105 |
2014-09-25 |
JP5925268B2 |
2016-05-25 |
マローニー,マイケル |
|
33 |
Method and the cold molding process to make an article |
JP2002355193 |
2002-12-06 |
JP3873021B2 |
2007-01-24 |
エドワード・リトゥビンスキイ; スティーブン・ジィ・キーナー |
|
34 |
JPH07506767A - |
JP51525793 |
1993-03-03 |
JPH07506767A |
1995-07-27 |
|
|
35 |
JPS623697B2 - |
JP13712982 |
1982-08-05 |
JPS623697B2 |
1987-01-26 |
NAITO SUSUMU |
|
36 |
Production of hollow parts |
JP8727284 |
1984-04-28 |
JPS60231549A |
1985-11-18 |
NAITOU SUSUMU |
PURPOSE: To improve the flatness at the end face of a shaft part and to avert burring around a hollow hole, etc. in a process for production of a hollow part drawn at the top end by a multi-stage cold forging machine by integrating a stage for piercing the hollow hole and a stage for drawing the top end into a series of process for production.
CONSTITUTION: A blank material 14 which is a wire rod cut to a specified size is forced by a punch 4 into the forming hole 22 of an inner 11 and at the same time the hollow hole 18 is opened by a piercing pin 13 to the top end of the material 14. The punch 4 is retreated and only the projecting pin 10 in a receiving die 20 advances to project the material 14 then the material is transferred forward by a die 21. The material 14 is thereupon forced by a punch 5 into the forming hole 33 in an fron inner 26 and at the same time the preliminary forming of a head part 17 by a punch pin 10 is executed at the rear end of the material 14. On the other hand, a forming pin 28 is inserted into the hole 18 at the top end of the material 14 to prevent deformation of the hole 18; at the same time said end is chamfered 30. A punch 6 advances in place of the punch 5 upon completion of forming of a shaft part 16 and the rear end of the material 14 is subjected to finish forming of the head part 17.
COPYRIGHT: (C)1985,JPO&Japio |
37 |
Press-working method of eccentric rivet and its die |
JP13712982 |
1982-08-05 |
JPS5927743A |
1984-02-14 |
NAITOU SUSUMU |
PURPOSE:To mass-produce a rivet having a prescribed eccentric quantity, by forming a cut base material to an eccentric blank by a drawing die having an expanded hole part and a small hole part, and thereafter, executing preliminary forming and finish forming by a forming die. CONSTITUTION:A wire rod 13 is inserted into a cutting die 9 of a cutting mechanism 8, is cut to prescribed size by a cutter 11 and is transferred to the following stage. Subsequently, a cut base material 14 is inserted into a forming device 15 by a drawing pin 17 and an eccentric blank 19 is formed. In this case, a die hole 21 of a drawing die 4 is constituted of an expanded hole part and a small hole part, and also the expanded hole part and the small hole part are connected by a curved face. Accordingly, the cut base material 14 is inserted easily, also compressive force applied to the drawing die 4 is softened by the curved face, and the eccentric blank 19 can be formed. Thereafter, the eccentric blank 19 is transferred to a forming device 26, and is formed to an eccentric rivet 1 having a desired shape, by a preliminary forming punch and a finish punch 29. |
38 |
Press machine for fabricating machine parts such as sphere * rivet and like |
JP14054577 |
1977-11-22 |
JPS5381461A |
1978-07-18 |
BUIRUHERUMU PIIPERU |
|
39 |
Device and method of making rivet |
JP540377 |
1977-01-20 |
JPS5290458A |
1977-07-29 |
ARUBAATO DANKIN |
|
40 |
Method of assembling a structure using highly-deformable titanium and titanium-alloy one-piece fasteners |
US14569031 |
2014-12-12 |
US09649682B2 |
2017-05-16 |
Steven G. Keener |
A method of forming a fastener may include inserting a blank precursor into a bore of a forming die having an enlarged bore portion. The method may further include applying a first axial compression force to the blank precursor, and forming a cold-worked head section and an enlarged shank portion on the blank precursor corresponding to the enlarged bore portion. The enlarged shank portion may have a nominal shank portion extending therefrom. The method may additionally include inserting the nominal shank portion into a bore of a final reduction die, applying a second axial compression force to the enlarged shank portion, and urging the enlarged shank portion into the bore of the final reduction die. The method may also include reducing a cross-sectional area of the enlarged shank portion by approximately 2 to 5 percent to form a cold-worked shank section. |