| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | A METHOD OF PREPARING A FORGED PLATE HAVING ANTIQUE APPEARANCE | PCT/IB2014065116 | 2014-10-07 | WO2015052649A3 | 2015-08-13 | GANDHI GAURAV; HASAN SAIFUL |
| A method of preparing a forged plate having antique appearance with a protruded slot capable of housing a spring and fixing to a handle, the method comprising the steps of: a) punching a first hole, a second hole and a third hole on a plate near a first end, second end and a central region of the plate; b) forging the plate to create a protruded slot around the third hole wherein the forging causes compression of the portion of the perimeter of the plate near the third hole; c) fixing the forged plate in position by inserting extended arms of a stationary body into the first and second hole; and d) cutting the forged plate. | ||||||
| 122 | MANUFACTURING OF COMPUTING DEVICES | PCT/US2013064578 | 2013-10-11 | WO2014059298A3 | 2014-08-28 | MORGENSTERN DAVID J; DEFOREST LAURA M; GOLDBERG MICHELLE R; RUNDLE NICHOLAS ALAN; HU YUNA; MORISHITA MICHAEL K; KOLODZIEJSKI JACEK M |
| Examples of tooling fixtures and methods for manufacturing computing devices are described. According to some examples, a computer component may be shaped using successive steps of forging after deep drawing. In some examples, certain components may be assembled to form sub-assemblies of computer components and the sub-assembly may then be machined to drive closer tolerances. According to other examples, a work holding tool is described which may include a first plurality of individually movable pins for supporting a first surface of a work piece, the tool also having a second plurality of individually movable pins for applying a restraining force over a second opposite surface of the work piece to retain the work piece in position while maintaining it in its natural state. | ||||||
| 123 | METHOD FOR PRODUCING AN IMPLANT COMPRISING AT LEAST ONE REGION HAVING A SURFACE STRUCTURE, IMPLANT PRODUCED ACCORDING TO THE METHOD AND DEVICE FOR PERFORMING THE METHOD | PCT/EP2012052613 | 2012-02-15 | WO2012113690A2 | 2012-08-30 | GUGLER CHRISTIAN |
| The invention relates to a method for producing an implant comprising at least one region having a surface structure, wherein, in a first step, indentations (4) are imprinted on the implant surface. In a second step, material between the indentations (4) is removed by mechanical processing, in particular by milling or turning, wherein rows of structural elements (6) separated from each other by the indentations (4) result. The invention further relates to an implant comprising at least one region having a surface structure that consists of structural elements (6) arranged in rows spaced apart from each other. According to the invention, the structural elements (6) are separated from each other by indentations (4), which are produced by material reshaping. The invention further relates to a device (10) for producing an articular cavity subassembly (18) having a structured surface. | ||||||
| 124 | SYSTEM AND METHOD FOR REINFORCING RECIPROCATING PUMP | PCT/US2015042111 | 2015-07-24 | WO2016015012A8 | 2017-03-02 | BYRNE JOSEPH H; KOTAPISH EDWARD C; BAYYOUK JACOB A; WAWERU LAWRENCE |
| A drive system for a fluid end of a reciprocating pump assembly including a drive member and a power end housing having a crankshaft rotatably disposed therein. The assembly includes a gearbox secured to the power end housing, the gearbox operatively connecting the drive member to the crankshaft for rotation thereof. The assembly further includes at least one arm member extending between the gearbox and the power end housing, the at least one arm member positioned to resist relative movement between the gearbox and the power end housing. | ||||||
| 125 | POWER END FRAME ASSEMBLY FOR RECIPROCATING PUMP | PCT/US2015042043 | 2015-07-24 | WO2016014967A8 | 2017-03-02 | BYRNE JOSEPH H; KUMAR CHANDU; MOMENKHANI KOUROSH; BAYYOUK JACOB A; MORAN SEAN P; PLEMONS DONALD KEITH; MARSHALL WILLIAM WALTER IV; BUCKLEY CHRISTOPHER P |
| A plate segment for a reciprocating pump power end frame assembly, the power end frame assembly having a pair of end plate segments and at least one middle plate segment disposed between the end plate segments. The plate segment consists of the middle plate segment or one of the pair of end plate segments and includes a plate having a front wall, a rear wall, a top wall, a bottom wall and a pair of sidewalls and at least one opening forming a bearing support surface, the opening extending through the plate. The plate segment further includes at least one extension extending from at least one of the sidewalls of the plate at a position to align with and contact a corresponding extension on an adjacently positioned plate. | ||||||
| 126 | PART FOR TIMEPIECE MOVEMENT | PCT/EP2014059585 | 2014-05-09 | WO2014198466A3 | 2015-05-07 | CHARBON CHRISTIAN |
| A micromechanical part (2, 4, 5, 6, 7, 8, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 22, 23, 24, 26, 28) for a timepiece movement (1), comprising a metal body formed from a single material. The single material is of the austenitic steel type with a high interstitial content comprising at least one non-metal as interstitial atom in a proportion of between 0.15% and 1.2% of the total mass of said material. | ||||||
| 127 | BAR MADE OF NOBLE METAL, AND PRODUCTION METHOD | PCT/EP2011059879 | 2011-06-15 | WO2011107616A3 | 2012-02-02 | LOCHMANN DOMINIK |
| A bar made of noble metal or of an alloy having a noble metal with a mass mB is divided into n x m small bars 2,3, each of which has a specified mass mk, wherein both n and m are a natural number = 2, and a material connection (8) is present between the directly adjacent small bars (2,3). A further bar is connected to a backing (13) on which the small bars are removably attached. A method for producing the bar consists in dividing same while retaining a material connection or arranging on a backing. | ||||||
| 128 | METHOD AND DEVICE FOR PRODUCING A CAGE OF A ROLLING BEARING | PCT/EP2009008417 | 2009-11-26 | WO2010075915A3 | 2010-09-02 | BENKERT PETER; BEYFUSS BERTHOLD; RADINA ALFRED; SCHIERLING JONAS; FRIEDRICH HANS-JUERGEN |
| The invention relates to a method for producing a cage (1) of a rolling bearing. For the method according to the invention, a first punching surface (8), a second punching surface (9), and an embossing surface (12, 13) of a punch arrangement (3) and a support surface (19) of a die arrangement (4) are disposed adjacent to the cage (1) such that the embossing surface (12, 13) and the support surface (19) are disposed between the first punching surface (8) and the second punching surface (9) relative to the circumferential direction of the cage (1). A first cutout (20) is punched out of the cage (1) by a forward stroke motion of the first punching surface (8). A second cutout (21) is punched out of the cage (1) at a lateral offset to the first cutout (20) by a forward stroke motion of the second punching surface (9), and a web (22) is thereby formed between the first cutout (20) and the second cutout (21). The embossing surface (12, 13) is embossed on the web (22) and material is thereby deformed by a forward stroke motion of the embossing surface (12, 13) coupled to the forward stroke motion of the first punching surface (8) and/or the second punching surface (9). During the embossing of the embossing surface (12, 13) on the web (22), a contact area formed between the web (22) and the support surface (19) is enlarged. | ||||||
| 129 | SOLENOID HOUSING WITH ELONGATED CENTER POLE | PCT/US2012032364 | 2012-04-05 | WO2012138889A3 | 2013-03-14 | MEHTA SHREYAS R |
| The invention relates to a solenoid housing having an elongated center pole comprising a non-magnetic region thereon for allowing actuation of an armature in response to electric current and a method of the making said solenoid housing. The instant invention eliminates the need for a two-piece construction of the center pole, leading to a simplified fabrication process, increased performance of product solenoid housing, and increased operational lifetimes as well. | ||||||
| 130 | FITTING FOR A VEHICLE SEAT AND METHOD FOR PRODUCING SAME | PCT/EP2012000583 | 2012-02-09 | WO2012110213A3 | 2012-12-27 | STILLEKE MARTIN; LEHMANN ULRICH |
| The invention relates to a fitting (10) for a vehicle seat, in particular for a motor vehicle seat, comprising a first fitting part (11) and a second fitting part (12), which are rotatable relative to one another and which are in geared connection with one another by means of a ring gear (17) and a gear wheel (16) which meshes with the ring gear (17), and comprising a cam (27, 27) which is driven by a driver (21) and revolves in the circumferential direction in order to drive a relative rolling movement of the gear wheel (16) and the ring gear (17), wherein the driver (21) is mounted with a clearance in a and/or the cam (27, 27) on a collar (19) of the second fitting part (12), and wherein the collar (19) has a flange (19b) on the free end thereof, wherein the end face of said flange forms an axial support surface (19f) for the driver (21), and the flange (19b) comprises a groove (19g) in the support surface (19f). | ||||||
| 131 | METHOD FOR PRODUCING A PROFILE ON A SHEET METAL PART, DEVICE FOR CARRYING OUT THE METHOD AND SHEET METAL PART THAT CAN BE PRODUCED ACCORDING TO THE METHOD | PCT/EP2010051727 | 2010-02-11 | WO2010100019A2 | 2010-09-10 | BROCKSTIEGER JOERG; NONNWEILER WERNER; LEONHARDT STEPHAN |
| The invention relates to a method for producing a profile (2) at an edge region of a sheet metal part (1), wherein the sheet metal part (1) can be produced from a blank (3) having a thickness (s) and the profile (2) by shearing. According to the invention, the edge region is thickened by at least one swaging process to a profile height (h) > (s) and the profile (2) is then cut in the thickened edge region (5a), wherein the thickened edge region (5a) is supported perpendicular to the cutting direction. | ||||||
| 132 | METHOD FOR PRODUCING A LUBRICANT FEED OF AN AXIAL BEARING | PCT/EP2008062282 | 2008-09-16 | WO2009056393A9 | 2010-08-19 | FRANKENSTEIN DIRK; HAUSCHILD DAG; HAUSER JOHANN; HELD JOCHEN; NOWACK STEFAN; VIESSMANN KONRAD |
| The invention relates to a method for producing a lubricant feed (32) in an axial bearing, wherein the lubricant feed (32) is designed as a channel (32) guiding lubricant from a lubricant pocket (18) of the axial bearing, comprising the steps: preparing an initial axial bearing mold (28), stamping a groove in the area of the initial mold (28) in which the channel (32) is planned; embossing and putting through material on at least one or both sides of the groove (30) along at least one segment of the groove (30); stamping the material on the side of the groove (30) toward the groove (30) so that the material and the groove (30) form the channel (32). | ||||||
| 133 | ULTRASONIC AMPLIFIER OR HORN AND METHOD OF MANUFACTURE | PCT/GB0203501 | 2002-07-30 | WO03015461A3 | 2003-07-10 | RAWSON FRANCIS FREDERICK HAMIL |
| A method of making an ultrasonic amplifier (8) comprises shaping the ultrasonic amplifier (8) by forging. This means that an amplifier with a complex shape can be forged in one piece, preventing weaknesses at the joins between different sections of the amplifier. It greatly increases the fatigue resistance of the amplifier (8) and can increase the effectiveness of the amplification. | ||||||
| 134 | Bearing system for reciprocating pump and method of assembly | US14808581 | 2015-07-24 | US10087992B2 | 2018-10-02 | Jacob A. Bayyouk; Edward C. Kotapish; Chandu Kumar; Donald Keith Plemons; Benjamin D. Engstrom |
| A power end frame assembly for a reciprocating pump that includes a first and second end plate segment each including annular bearing support surfaces configured to support a crankshaft bearing assembly. At least one middle plate segment is disposed between the first and second end plate segments and includes an annular bearing support surface configured to support a crankshaft bearing assembly. The annular bearing support surfaces of the first and second end plate segments and the at least one middle plate segment each have a diameter and are coaxially aligned. The diameter of at least one of the first and second end plate segments is different from the diameter of the at least one middle plate segment to facilitate insertion and removal of the crankshaft bearing assembly from the power end frame assembly. | ||||||
| 135 | Manufacturing of computing devices | US13651000 | 2012-10-12 | US10086484B2 | 2018-10-02 | David J. Morgenstern; Laura M. DeForest; Michelle R. Goldberg; Nicholas Alan Rundle; Yuna Hu; Michael K. Morishita; Jacek M. Kolodziejski |
| Examples of tooling fixtures and methods for manufacturing computing devices are described. According to some examples, a computer component may be shaped using successive steps of forging after deep drawing. In some examples, certain components may be assembled to form sub-assemblies of computer components and the sub-assembly may then be machined to drive closer tolerances. According to other examples, a work holding tool is described which may include a first plurality of individually movable pins for supporting a first surface of a work piece, the tool also having a second plurality of individually movable pins for applying a restraining force over a second opposite surface of the work piece to retain the work piece in position while maintaining it in its natural state. | ||||||
| 136 | Method for cold-forging thin-walled portion and explosion-proof valve | US14526838 | 2014-10-29 | US09999917B2 | 2018-06-19 | Haruhiko Kondo; Ryo Sasaki |
| A method for cold-forging a thin-walled portion by which a thin-walled portion having a set thickness is formed directly from a metal base plate having a sufficiently large thickness and an explosion-proof valve are provided. Blade side surfaces of upper and lower dies for shearing the metal base plate are set in an overlapping manner with a predetermined clearance δ therebetween. Sheared surfaces are formed with the blade side surfaces of the upper and lower dies in the metal base plate along a processing direction while leaving the set thickness t2 therebetween and the metal base plate is compressed by the overlapped portions until work-hardened to form the thin-walled portion with the horizontal width δ and the set thickness t2 between the sheared surfaces. The formation of the sheared surfaces eliminates a need to press portions of the metal base plate positioned at both the sides of the thin-walled portion into both the sides during the processing of the thin-walled portion and the thin-walled portion can thus be formed at a high compression processing rate with a smaller processing load. | ||||||
| 137 | Pipe-shaped member and method of closing end portions of same | US15303133 | 2015-03-31 | US09994083B2 | 2018-06-12 | Kenji Katsuno |
| A pipe-shaped member of the present invention is a pipe-shaped member (1) which includes a flat plate portion (1h1, 1h2) placed in at least one end portion (1a1) of two end portions of the pipe, formed in a flat plate shape, and including groove-shaped recessed portions (ta1, tb1, tb2) formed in one and another extended surfaces in the flat plate shape. The recessed portions (ta1, tb1, tb2) are formed such that the flat plate portion (1h1, 1h2) has at least a substantially W-shape, in a direction crossing a longitudinal direction of the flat plate portion (1h1, 1h2), and with a depth not reaching a boundary (1ha) between one plate (1h1) and the other plate (1h2) of the flat plate portion (1h1, 1h2). | ||||||
| 138 | Adjustment aid for a joining device having a punch and a counter-tool, and method for adjusting the joining device | US14895357 | 2014-05-15 | US09968987B2 | 2018-05-15 | Dennis Henke; Mathias Heger; Andreas Jakobsche |
| The present disclosure provides an adjustment aid for a joining device having a punch and a counter-tool which can be oriented coaxially to one another and can be moved axially towards each other for a joining movement relative to one another. Furthermore, the present disclosure provides a method for adjusting a joining device with a punch and counter-tool. A grid marking is embossed in a reshaped test part with the assistance of an embossable grid marking on a punch surface or on a counter surface of the counter-tool. This grid marking is evaluable in comparison to the discernible impressions of the punch surface and counter surface of the counter-tool. | ||||||
| 139 | Apparatus for texturing the surface of a brake plate | US15333290 | 2016-10-25 | US09908172B2 | 2018-03-06 | Ray Arbesman; Nghi Pham |
| A method for texturizing a workpiece uses a die assembly installed within a press having a press ram. The method includes (a) delivering the workpiece onto a center die plate; (b) forcing the press ram against an upper die plate mounted above the center die plate to descend a first contact surface associated with the upper die plate and a plurality of blades mounted to the upper die plate toward the center die plate; (c) actuating horizontal movement of the blades; (d) driving the blades down into the workpiece; and (e) contacting the first contact surface to a second contact surface associated with the center die plate to descend the center die plate in unison with the upper die plate. | ||||||
| 140 | Apparatus for texturing the surface of a brake plate | US15333290 | 2016-10-25 | US09873147B2 | 2018-01-23 | Ray Arbesman; Nghi Pham |
| A method for texturizing a workpiece uses a die assembly installed within a press having a press ram. The method includes (a) delivering the workpiece onto a center die plate; (b) forcing the press ram against an upper die plate mounted above the center die plate to descend a first contact surface associated with the upper die plate and a plurality of blades mounted to the upper die plate toward the center die plate; (c) actuating horizontal movement of the blades; (d) driving the blades down into the workpiece; and (e) contacting the first contact surface to a second contact surface associated with the center die plate to descend the center die plate in unison with the upper die plate. | ||||||
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