子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | Welding apparatus | US57728431 | 1931-11-25 | US1880076A | 1932-09-27 | DEMING GEORGE M |
| 62 | Process and apparatus for welding plates | US25472728 | 1928-02-16 | US1694629A | 1928-12-11 | CHARLES SCHAER |
| 63 | 접합재 및 그것을 사용한 접합 방법 | KR1020177008601 | 2015-08-31 | KR1020170047360A | 2017-05-04 | 엔도,게이이치; 미요시,히로마사; 모토무라,기미카즈; 구리타,사토루 |
| 피접합물에인쇄하기쉽고또한피접합물끼리의접합부에보이드가발생하는것을억제할수 있는, 저렴한접합재및 그것을사용한접합방법을제공한다. 0.3질량% 이하의탄소를포함하는평균입경 0.1 내지 1㎛의구리분말과, 모노알코올, 디올, 트리올, 테르펜계알코올등의알코올계용제를포함하는구리페이스트를포함하는접합재에있어서, 구리분말의함유량이 80 내지 95질량%, 알코올계용제의함유량이 5 내지 20질량%이다. | ||||||
| 64 | 抜き型刃溶接用自動溶接装置 | JP2016202492 | 2016-10-14 | JP2017077585A | 2017-04-27 | PARK SEON-GEUN |
| 【課題】抜き型刃を製作することができ、溶接対象物を容易に、かつ、迅速に溶接することができるようにする。【解決手段】ベース板(110)、該ベース板(110)の上面に一定の距離を置いて配設された第1のスタンド部(120)及び第2のスタンド部(130)、並びに第1のスタンド部(120)と第2のスタンド部(130)との間に形成された離隔空間(140)を備えたテーブル(100)と、二つの端部を互いに当接させた状態の溶接対象物(10)を把持し、前記離間空間(140)の上に位置させる溶接対象物治具部(200)と、溶接対象物(10)の互いに対向する二つの端部を溶接するための溶接部(500)とを有する。抜き型に使用される抜き型刃を製作することができる。【選択図】図1 | ||||||
| 65 | 接合材およびそれを用いた接合方法 | JP2016061187 | 2016-03-25 | JP2016153530A | 2016-08-25 | 遠藤 圭一; 三好 宏昌; 本村 公一; 栗田 哲 |
| 【課題】被接合物に印刷し易く且つ被接合物同士の接合部にボイドが発生するのを抑制することができる、安価な接合材およびそれを用いた接合方法を提供する。 【解決手段】0.3質量%の炭素を含む平均粒径0.1〜1μmの銅粉と、モノアルコール、ジオール、テルペン系アルコールなどのアルコール系溶剤を含む銅ペーストからなる接合材において、銅粉の含有量が80〜95質量%、アルコール系溶剤の含有量が5〜20質量%である。 【選択図】なし |
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| 66 | 接合材およびそれを用いた接合方法 | JP2015168573 | 2015-08-28 | JP5941588B2 | 2016-06-29 | 遠藤 圭一; 三好 宏昌; 本村 公一; 栗田 哲 |
| 67 | JPS6036873B2 - | JP20588782 | 1982-11-24 | JPS6036873B2 | 1985-08-22 | TAMAKI JUJIRO |
| 68 | Gas press welding method of steel pipes | JP23123382 | 1982-12-31 | JPS59125287A | 1984-07-19 | ISHIKAWA YASUSHI; TACHIKAWA HIROSHI; UMADA TOYOAKI |
| PURPOSE:To form a joint part having good quality in the stage of heating and joining the joining end part of steel pipes by forming a gaseous flame for heating into a flame richer in oxygen than a neutral flame and melting the joining part thereby joining said part with upsetting. CONSTITUTION:Steel pipes 1, 2 to be joined are respectively clamped by a movable clamp 5 which is movable by a hydraulic cylinder 6 and a stationary clamp 4. A ring burner 7 is disposed around the joining part 8 of both pipes 1, 2 and gaseous C2H2 and O2 for heating are supplied to the burner 7 through a hose 13 to generate a flame in a nozzle 14 and to heat the part 8. The feed rate of C2H2 and O2 is regulated in this stage to make the flame richer in oxygen than a neutral flame to melt the part 8 and thereafter said part is upset quickly by the clamp 5 and is thus joined. The joint having good quality is formed in a shorter stage and required time. | ||||||
| 69 | Gas welding method | JP20588782 | 1982-11-24 | JPS5997784A | 1984-06-05 | TAMAKI YUUJIROU |
| PURPOSE:To prevent thoroughly the formation of the oxidized film or oxide to be produced in the stage of welding and to form a weld zone having substantial strength by blowing gas consisting essentially of gaseous fuel to the position separate from a gaseous mixture to prevent mixing of both gas. CONSTITUTION:A suitable amt. of gaseous acetylene 32 is ejected from gaseous acetylene ejection ports 30, 31 together with a gaseous mixture 29 of oxygen and acetylene from respective nozzles 13-16. The gaseous mixture 29 is blown roughly uniformly over the entire circumference of an object and at the same time, the gaseous acetylene 32 is directly blown to the position separate from said blowing position; moreover the acetylene 32 is so blown as not to mix with the gaseous mixture 29. The flows of the respective mixed gases are mixed with each other after colliding against the peripheral surface of the object, thereby generating turbulence 34. The flow of the mixed gas by the turbulence is spread in the direction along the axis of the object as well together with reducing gas thereby shielding the part to be welded from the oxygen in the atmosphere. | ||||||
| 70 | Pressure welding using propylene | EP14170825.5 | 2014-06-02 | EP2835205A3 | 2015-11-04 | Overmann, Jr., Mark |
A process and method for welding using an oxygen and propylene gas mixture is disclosed herein. Landing gear components (200) may be welded together using this oxygen and propylene gas fuel source. For instance, an axle beam (250) and/or a post (225) of an aircraft may be welded using oxygen and propylene gas fuel source.
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| 71 | VERSCHLEISSELEMENT SOWIE DAMIT AUSGERÜSTETES BAUTEIL | EP07856273.3 | 2007-11-28 | EP2102420B1 | 2011-01-12 | DIETRICH, Michael |
| The invention relates to a wear element (1) for components subject to abrasive influences, particularly in the region of a receiving element for bulk material, the element being formed by a one-piece, approximately plate-shaped molded body made of a wear-resistant alloy, wherein the molded body is not configured plane in any plane (x, y, z). | ||||||
| 72 | BRENNSCHNEIDMASCHINE MIT EINER WERKZEUGBEFESTIGUNGSEINRICHTUNG | EP96943071.9 | 1996-12-10 | EP0868246B1 | 1999-06-02 | SCHÄFER, Rainer |
| In a flame cutting machine, a removable tool element of a tool mounted in a carriage station of at least one burner carriage can be fixed automatically. The burner carriage can travel on a machine housing which can itself travel in a direction at right angles to that of the carriage. To facilitate rapid exchange of tool elements without detriment to the operational range of the burner carriage, a tool element receiving element (7) with cover (8) is provided with a number of tool element receiving stations in such a way as to be suitable for mounting a group of interchangeable tool elements (14-19) and allow said tool elements to slide vertically and to be inserted and removed. The tool element receiving unit (7) can be controllably adjusted with an adjusting device (22) from a position closed with the cover (8) into an open tool element removal position. This means that a selected tool element receiving station is in a predetermined position in relation to a tool element insertion- and removal device and to the burner carriage (4). | ||||||
| 73 | Portable apparatus for welding by means of an oxy-gas flame | EP79200195.0 | 1979-04-18 | EP0007118B1 | 1982-03-31 | Rinaldi, Renato |
| 74 | WORK PIECE CONDITION DETECTION USING FLAME ELECTRICAL CHARACTERISTICS IN OXY-FUEL THERMAL PROCESSING EQUIPMENT | US16038359 | 2018-07-18 | US20180321657A1 | 2018-11-08 | Christopher Reed MARTIN |
| An automated oxy-fuel thermal processing system including an oxy-fuel torch, an automated machine tool operatively coupled to the torch for moving the torch relative to a work piece, and a circuit including a voltage source or a current electrically connected to the torch and configured to be electrically connected to the work piece. The automated oxy-fuel thermal processing system may further include a processor that is operatively connected to the torch, the automated machine tool, the circuit, and the voltage source or current source, wherein the processor is configured to control the operation of the torch, the automated machine tool and the voltage source or current source, and to monitor a current or voltage in the circuit in a predefined manner. | ||||||
| 75 | BONDING MATERIAL AND BONDING METHOD USING SAME | US15506823 | 2015-08-31 | US20170252874A1 | 2017-09-07 | Keiichi Endoh; Hiromasa Miyoshi; Kimikazu Motomura; Satoru Kurita |
| There is provided an inexpensive bonding material, which can be easily printed on articles to be bonded to each other and which can suppress the generation of voids in the bonded portions of the articles to be bonded to each other, and a bonding method using the same. In a bonding material of a copper paste which contains a copper powder containing 0.3% by weight or less of carbon and having an average particle diameter of 0.1 to 1 μm, and an alcohol solvent, such as a monoalcohol, a diol, a triol or a terpene alcohol, the content of the copper powder is in the range of from 80% by weight to 95% by weight, and the content of the alcohol solvent is in the range of from 5% by weight to 20% by weight. | ||||||
| 76 | Method for joining workpieces by using a joining element and heating the joining element and the workpieces | US13990288 | 2011-12-09 | US09339892B2 | 2016-05-17 | Paul Schindele |
| The present invention refers to a method for joining at least two workpieces, the method comprising the following method steps: providing and positioning the workpieces to be joined; providing at least one joining element; heating the joining element to a temperature substantially equal to its plasticizing temperature with at least one heat source; heating the workpieces at least in the region of a joint to a predetermined reaction temperature; and applying material of the joining element to the region of the joint with a relative movement taking place between the joining element and the region of the joint. | ||||||
| 77 | Pressure welding using propylene | US13956097 | 2013-07-31 | US09156102B2 | 2015-10-13 | Mark Overmann, Jr. |
| A process and method for welding using an oxygen and propylene gas mixture is disclosed herein. Landing gear components may be welded together using this oxygen and propylene gas fuel source. For instance, an axle beam and/or a post of an aircraft may be welded using oxygen and propylene gas fuel source. | ||||||
| 78 | PRESSURE WELDING USING PROPYLENE | US13956097 | 2013-07-31 | US20150034705A1 | 2015-02-05 | Mark Overmann, JR. |
| A process and method for welding using an oxygen and propylene gas mixture is disclosed herein. Landing gear components may be welded together using this oxygen and propylene gas fuel source. For instance, an axle beam and/or a post of an aircraft may be welded using oxygen and propylene gas fuel source. | ||||||
| 79 | METHOD FOR JOINING WORKPIECES BY USING A JOINING ELEMENT AND HEATING THE JOINING ELEMENT AND THE WORKPIECES | US13990288 | 2011-12-09 | US20140061185A1 | 2014-03-06 | Paul Schindele |
| The present invention refers to a method for joining at least two workpieces, the method comprising the following method steps: providing and positioning the workpieces to be joined; providing at least one joining element; heating the joining element to a temperature substantially equal to its plasticizing temperature with at least one heat source; heating the workpieces at least in the region of a joint to a predetermined reaction temperature; and applying material of the joining element to the region of the joint with a relative movement taking place between the joining element and the region of the joint. | ||||||
| 80 | PLUMBER'S HEAT SHIELD | US13474392 | 2012-05-17 | US20120298726A1 | 2012-11-29 | Keith SHARROW |
| A plumber's heat shield comprises an arcuate metallic shell attached to a spring-clamp by means of an obedient shaft which enables the heat shield to be moved to any position relative to the spring-clamp. The arcuate shell is preferably formed from aluminum or other material having high infrared reflectivity. The obedient shaft is preferably formed from helically-wound steel spring outer sheath surrounding a ductile copper wire core. The spring steel outer sheath prevents the ductile copper wire core from being bent at too sharp of a radius (which would cause the ductile core to work-harden and fracture) while at the same time protecting the ductile copper wire core from the open-flame of the soldering torch. | ||||||
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