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    • 1. 发明公开
    • FRICTION JOINING METHOD AND FRICTION JOINED BODY
    • 方法参加由摩擦和摩擦根深蒂固主题的一种手段
    • EP1354660A1
    • 2003-10-22
    • EP01273489.3
    • 2001-12-14
    • HITACHI CONSTRUCTION MACHINERY CO., LTD.
    • MIYANAGI, NaokiTAKANO, YutakaYAMAMOTO, HikaruTAKATANI, ToruHIRAKAWA, ManabuSHINODA, Takeshi
    • B23K20/12
    • B23K20/129B23K20/12B23K20/1205B23K20/1215
    • Plate parts (1, 2) to be joined are formed with flat meeting surfaces (1A, 2A) and beveled surfaces (1B, 2B) at the respective joining ends, and fixed in a welding position with the flat meeting surfaces (1A, 2A) in abutting engagement with each other. In this state, a cladding material (4) is pressed against a groove (3) between the two plate parts (1, 2) and at the same time put in high speed rotation. Heat of high temperature is generated by friction between contacting surfaces of the plate parts (1, 2) and the cladding material (4). As the cladding material (4) is moved along the meeting surfaces (1A, 2A), part of plasticized cladding material at the lower end of the cladding material (4) is left and deposited on the front side of the groove (3), contributing to increase the cladding volume of a weld portion (5) on the front side of the groove (3) and to enhance the strength of bondage between the two plate parts (1, 2).
    • 板部件(1,2)将被接合与平坦会议表面(1A,2A),并且在respectivement接合端部倾斜表面(1B,2B)上形成,并固定在焊接位置与平坦会议表面(1A,2A )在海誓山盟邻接接合。 在这种状态下,包层材料(4)压靠于两个板状部件之间的凹槽(3)(1,2),并在同一时间投入高速旋转。 通过摩擦板部件(1,2)和包层材料(4)的接触面之间产生的高温的热。 作为包覆材料(4)沿所述会议表面(1A,2A)在包覆材料的下端塑化包层材料,部分移动(4)是左和沉积在槽的前侧(3) 有助于提高在槽(3)的前侧的包层焊接部分(5)的体积并且增强所述两个板部件之间的束缚的强度(1,2)。
    • 4. 发明公开
    • METHOD FOR GUIDING ARC BY LASER, AND ARC GUIDING WELDING AND DEVICE BY THE METHOD
    • 声明由试验Light通过导弧法实施这种焊接激光焊接和设备
    • EP1136167A1
    • 2001-09-26
    • EP00909642.1
    • 2000-03-15
    • HITACHI CONSTRUCTION MACHINERY CO., LTD.
    • SAKURAI, ShigeyukiTAKANO, YutakaMIYANAGI, NaokiSHIMOMURA, YoshiakiYAMAMOTO, HikaruTAKATANI, Toru
    • B23K9/067
    • B23K28/02B23K9/0675B23K9/073B23K26/1429
    • A plasma (13) is generated at a welding intended position on a base material (2) by a laser (16) irradiated to the base material (2). When a discharge electrode (12) is at a minus potential, an arc discharge (4) takes place in the direction of the plasma (13) and is induced at a position irradiated with the laser (16). When the electrode (12) is at a plus potential, arc electrons are generated from a laser irradiated point and discharges to the electrode (12). When a voltage applied between the electrode (12) and the base material (2) is alternating, the polarities of the electrode (12) and the base material (2) alternately change so that the foregoing phenomena alternately occur. When the base material (2) is at a minus potential, an arc discharge (4) takes place from a laser spot. Also, in regard to the arc discharge (4), since the plasma (13) is generated by the laser (16), the stable arc discharge (4) can be generated irrespective of the state of the base material (2) or the state of the electrode (12).
    • 一种等离子(13),在通过激光(16)在基体材料(2)的焊接预定的位置,产生照射到基体材料(2)。 当放电电极(12)处于负电位到电弧放电(4)发生在等离子体(13)的方向,并在与所述激光(16)照射的位置被诱导。 当电极(12)处于正电位,由激光照射点并排出到电极(12)产生的电弧的电子。 当一个电压电极(12)和(2)被交替基材之间时,该电极(12)和基体材料的极性(2)可替换地改变,因此没有上述现象可替换地好发。 当基体材料(2)是在负电位到电弧放电(4)从激光点发生。 所以,在考虑到电弧放电(4),由于等离子体(13)是由激光器(16),(4)可以不考虑基体材料的状态而产生的稳定的电弧放电产生的(2)或 所述电极(12)的状态。