| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | JPS6225073B2 - | JP16091878 | 1978-12-25 | JPS6225073B2 | 1987-06-01 | YOSEFU TOIRERU |
| 182 | Flash welding machine | JP13724484 | 1984-07-04 | JPS6117378A | 1986-01-25 | SODENO KEISHI |
| PURPOSE:To obtain a titled welding machine that prevents welding defect of welded coils by detecting thickness of rear end of a preceding coil and front end of a succeeding coil, and after matching the center of respective plate thickness and flash welding, cutting off welding burrs. CONSTITUTION:In hot rolling of iron and steel, rear end of a preceding coil 1 is clamped and fixed by electrodes 3, 5, and front end of succeeding coil 2 is clamped by electrodes 4, 6 that can move vertically and back and forth clamping the end of coil 2. Then plate thickness T1, T2 of rear end and front end 1, 2 of the coils is detected by thickness detectors 10, 11 such as a ultrasonic thickness gauge or a laser detector etc. Then, holding devices of electrodes 4, 6 are moved vertically, and the front end 2 is positioned to make the height difference A of the rear end 1 and front end 2 A=(T1.T2)/2, and flash welding is made after matching the center of plate thickness of the two. Burrs on the butt face 9 perpendicular to the center of thickness thus formed are removed by cutting using cutting tools 7, 8, and the weld zone is confirmed by the thickness detector 10. | ||||||
| 183 | Flash trimmer device of butt welding device | JP23215782 | 1982-12-22 | JPS59118289A | 1984-07-07 | NAKAMURA KOUJI |
| PURPOSE:To provide a titled device which can remove smoothly the excess metal of a butt-welded strip by rolling guide rollers on the side faces where welding electrodes face each other in the stage of retreating trimmer frames after inserting the same to a welding device. CONSTITUTION:The spacings between welding electrodes 43, 70 and 44, 71 are finely adjusted and a flash trimmer device 27 is fed into a welding device after butt welding of the front and rear ends of strips. A guide roller 42 provided on an upper tool block rolls atop guide rollers 45, 45' provided on the surface where the upper electrodes 43, 44 face each other. Guide rollers 69, 69 provided on a lower tool block roll on the bottom surfaces of guide rails 72, 72' provided on the surface where the lower electrodes 70, 71 face each other. The guide projections 30, 30' on the bottom surface of a trimmer frame 28 are fed in to the welding device in the state of being fitted to guide rails 33, 33' provided to inlet side and outlet side frames 31, 32, whereby the excess metal produced by welding is cut away. | ||||||
| 184 | Control device in butt welding machine | JP10838376 | 1976-09-09 | JPS5252145A | 1977-04-26 | SERUGEI IWANOBUITSUCHI KUCHIYU; BARERII GEORUGIEBUITSUCHI KURI; IWAN KORUNEEBUITSUCHI GOROMOFU |
| 185 | JPS4942541A - | JP4604773 | 1973-04-23 | JPS4942541A | 1974-04-22 | |
| 186 | APPARATUS FOR DEBURRING METAL PARTS | PCT/AT2011000522 | 2011-12-30 | WO2012092637A3 | 2012-08-30 | PICHLER ANDREAS; MUSS ALOIS |
| The invention relates to an apparatus for deburring metal parts, wherein the apparatus has a rotor that can be driven in rotation about a rotor rotational axis (1) and on which hammers (4) are arranged in a pivotable and radially displaceable manner on shafts (3), wherein the shafts (3) are arranged parallel to the rotor rotational axis (1) and at a radial spacing therefrom, and wherein a hammer (4) has an impact edge (4.2) which, when the longitudinal direction of the hammer (4) is oriented radially outwardly from the rotor rotational axis (1), forms the edge between that radial surface (4.4) of the hammer which is located at the front during the rotational movement of the rotor and that end face (4.3) of the hammer which is radially on the outside during the rotational movement of the rotor. With the longitudinal direction of a hammer (4) oriented radially outwardly from the rotor rotational axis (1), the impact edge (4.2) of the hammer (4) is deflected by a number of angular degrees, predominantly in the circumferential direction of the rotational movement about the rotor rotational axis (1), with respect to an orientation parallel to the rotor rotational axis (1). | ||||||
| 187 | STEEL CUTTING SYSTEM AND METHOD | PCT/US2005001704 | 2005-01-20 | WO2005072212A2 | 2005-08-11 | GOFFETTE JULIEN |
| A steel cutting system has a cutting torch or. a first side of a slab of steel. A pair of oxygen jets is placed on a second side of the slab of steel. | ||||||
| 188 | METHOD AND MEANS FOR PROCESSING BUTT WELDS | PCT/US0204897 | 2002-02-20 | WO02072307A3 | 2003-05-01 | RALEY JIMMIE C |
| A method and machine (10) for deburring the burr which is formed when wires (12 and 14) are butt welded is disclosed. The machine (10) comprises a deburring head (18) which has a pair of opposed deburring rollers (54 and 62) mounted thereon. Each of the rollers (54 and 62) has a milled surface formed therein. A linkage (70 and 72) is connected to the rollers (54 and 62) to cause the rollers (54 and 62) to rotate when the linkage (70 and 72) is moved between first and second positions. When the linkage (70 and 72) is in its first position, the milled surfaces of the rollers (54 and 62) face one another to enable the wires (12 and 14) and burr (16) to be positioned therebetween. As the linkage (70 and 72) moves to its second position, the circumferences of the rollers (54 and 62) engage the burr (16) to roll out the same, thereby providing a substantially smooth, cylindrical surface where the burr (16) was located. The method of deburring is also disclosed. | ||||||
| 189 | Portable Weld Milling Machine Apparatus and Methods of Using the Same | US15442245 | 2017-02-24 | US20180245292A1 | 2018-08-30 | Kristopher Koski; Kelly Steck |
| A portable rail weld milling machine apparatus comprises a metal frame that incorporates a motor with a rotary carbide tool that is able to lock to a rail or rails for stability. The apparatus houses the required guides and motors to maneuver the tool on a plurality of axes with computer numerical control (“CNC”). The CNC programming is able to control the carbide tool such that the welded rail can be milled to proper profile on the entire running surface, including the top, the field side, and the gauge side of the ball of the rail. | ||||||
| 190 | MANUFACTURE OF GOLF CLUB HEAD | US15387412 | 2016-12-21 | US20180171180A1 | 2018-06-21 | Michael E. Franz |
| A method of forming a golf club head, including placing a first portion of the golf club head adjacent a the second portion of the golf club head; welding the first portion to the second portion forming a first weld bead; injecting hot melt into an interior of the golf club head through an injection hole after forming the first weld bead; and welding the injection hole shut, forming a second weld bead. | ||||||
| 191 | ELECTROLYTIC BRUSH ASSEMBLY | US15311008 | 2015-05-12 | US20170099941A1 | 2017-04-13 | Clive Stuart White; Mark Robert Fischer |
| An electrolytic brush assembly including a handle assembly; a shroud extending from the handle assembly, the shroud having an aperture at a distal end thereof; and a brush connecting assembly for releasably connecting a brush to the handle assembly whereby the brush extends through the aperture of the shroud. The handle assembly includes an adjustment sub-assembly for selectively moving the brush connecting assembly and a brush connected thereto relative to the handle assembly and the aperture of the shroud. | ||||||
| 192 | Airborne component extractor with improved power and pressure performance | US13767716 | 2013-02-14 | US09505042B2 | 2016-11-29 | Brian J. Hammers; Adam Joseph Frank; William Maske |
| An airborne component extractor provides a positive pressure air stream to a work area and draws a negative pressure air stream from the work area. Conduits conduct both air streams. A movable cart-type base unit or a permanent installation may provide for the air streams. Sizes and operational parameters are selected to provide good component removal, reduce head losses, and reduce power requirements. | ||||||
| 193 | Process for manufacturing a Yankee cylinder | US14006266 | 2012-03-19 | US09452498B2 | 2016-09-27 | Josef Krasser; Markus Maier; Ludwig Kahsiovsky |
| The invention relates to a process for manufacturing a steel Yankee cylinder (1), where the Yankee cylinder (1) is welded together from individual pre- or finish-machined cylinder sections (8, 9, 10). In this case, the individual cylinder sections (8, 9, 10) are not welded together at the manufacturing location of the cylinder sections (8, 9, 10), but at an assembly location away from the manufacturing location, preferably on the works premises of the customer. | ||||||
| 194 | Process for manufacturing a yankee cylinder | US14006246 | 2012-03-19 | US09403243B2 | 2016-08-02 | Josef Krasser; Markus Maier; Ludwig Kahsiovsky |
| The invention relates to a process for manufacturing a steel Yankee cylinder (1), where the Yankee cylinder (1) is welded together from individual pre- or finish-machined cylinder sections (8, 9, 10).The invention also relates to a Yankee cylinder (1) that is manufactured using the manufacturing process according to the invention. | ||||||
| 195 | Wire for I-shape oil rings and producing method of the same | US12663952 | 2008-06-11 | US09267461B2 | 2016-02-23 | Masanori Ochiai; Makoto Sasaki; Tomoyuki Satoh |
| Provided is a wire rod for an I-type oil ring, which includes right and left rail portions and a web portion connecting the rail portions, which has an oil hole or a molten through hole formed in the web portion, and which has a circumscribing circle diameter of 10 mm or less in its transverse contour. The molten through hole has such a remolten portion formed on its exit side as encloses the exit of the molten through hole. The remolten portion exceeds such a molten portion in the transverse section along the center of the molten through hole as is formed in the molten through hole, and is formed to have 200 μm or less from the outer circumference of the molten through hole and 100 μm or less in the depth direction of the molten through hole. | ||||||
| 196 | METHOD AND DEVICE FOR THE FRICTION STIR WELDING OF TWO COMPONENTS | US14634296 | 2015-02-27 | US20150209892A1 | 2015-07-30 | Domenico FURFARI; Marco PACCHIONE |
| A method for the friction stir welding of two components, in particular of two shell components of a fuselage structure of an aircraft and spacecraft, said method comprising the following method steps: positioning the two components relative to one another in such a way that a connection region is formed between the two components; friction stir welding the two components by a friction stir welding tool which penetrates the connection region in order to produce a weld which permeates the connection region with the formation of an unpenetrated weld edge portion of the connection region; and introducing internal compressive stresses, at least in the weld edge portion of the connection region. Further a device for the friction stir welding of two components, in particular of two shell components of a fuselage structure of an aircraft and spacecraft is provided. | ||||||
| 197 | Burring apparatus for friction welding machine | US13883717 | 2010-11-25 | US08960524B2 | 2015-02-24 | Takehiro Okuno; Ryo Onose; Koji Sakane; Koichi Homma |
| A burring apparatus for a friction welding machine comprises a clamp unit provided at the front end of a horizontal main spindle, for holding work piece W1 coaxial with the main spindle, a clamp unit provided at the front end of a slide movable to and away from the main spindle in the direction of the axis of the main spindle and a doughnut-shaped cutter for shearing off a burr. Work piece W2 is moved forward together with the slide until work piece W2 comes into contact with work piece W1 so that the mated ends of work pieces W1 and W2 are friction welded together to form a joint work piece W. The burr formed on the jointed work piece W is sheared off by the cutter. The jointed work piece W is then liberated from the main spindle. | ||||||
| 198 | THREE-PHASE PORTABLE AIRBORNE COMPONENT EXTRACTOR WITH ROTATIONAL DIRECTION CONTROL | US14014756 | 2013-08-30 | US20150000232A1 | 2015-01-01 | Brian J. Hammers; William Maske; Adam Joseph Frank |
| An extraction system is designed for metal working and other applications. The system may comprise a blower that delivers a positive pressure airflow to a hood that creates an air region for removal of airborne components from a work area. The blower is driven by a three-phase motor in a portable base unit that may be plugged into a source of three-phase power. A rotational direction reversing switch is provided between the motor and a three-phase plug to permit reversal of the rotational direction of the motor when the motor is determined not to rotation in the intended direction when the plug is connected to a receptacle. The switch may be manual or automatic. | ||||||
| 199 | Material surface modification using friction stir welding hybrid process | US13623710 | 2012-09-20 | US08910851B2 | 2014-12-16 | David Rosal; Paul T. Higgins; Russell J. Steel; Scott M. Packer; Jeremy Peterson; Steve W. Larsen; Samuel C. Sanderson; Jonathan A. Babb |
| A system and method for modifying a work piece surface of high melting temperature materials such as Advanced High Strength Steels, wherein a friction stir welding tool may include cutting elements located on the outside diameter of a collar assembly, wherein the collar assembly may be retrofitted for existing friction stir welding tools, or may be designed as a custom attachment for a new hybrid friction stir welding tool, wherein the surface of the work piece may be modified by removing detrimental flash and burr created during operation of the friction stir welding tool. | ||||||
| 200 | Apparatus and method for removing weld flash | US11672141 | 2007-02-07 | US08851357B2 | 2014-10-07 | Christopher H. Swallow; Ryan L. Hanks |
| An apparatus and method for removing weld flash from a structural assembly are provided. The apparatus generally includes a tool with a head that defines an edge and first and second opposite surfaces disposed at an angle converging toward the edge. A shaft, which extends from the first surface of the head, is configured to be engaged to a shaft holder of an actuation device so that the head extends from the actuation device and is configured to lift the flash from a surface of the assembly as the tool is moved in a path along a surface of the assembly with the edge contacting the flash. | ||||||
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