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    • 2. 发明申请
    • METHOD FOR HYDRODEHALOGENATION OF ORGANIC HALOGEN COMPOUND
    • 有机卤化物化合物的氢化方法
    • US20100130768A1
    • 2010-05-27
    • US12089211
    • 2006-10-05
    • Koji SatoMakoto Imai
    • Koji SatoMakoto Imai
    • C07C69/74C07C1/26
    • C07B35/06C07C1/30C07C67/317C07C2531/24C07C2601/02C07C15/04C07C15/24C07C69/74
    • The present invention relates to a hydrodehalogenation method in which a halogen atom on a carbon atom of an organic compound is removed by substituting the halogen atom with a hydrogen atom, and to a method for producing a dehalogenated compound. The hydrodehalogenation method is characterized by including treating an organic compound having a halogen atom on a carbon atom thereof in a solvent with a compound represented by formula (2-1): M2BHpR1q  (2-1) or formula (2-2): M3(BHpR1q)2  (2-2) (wherein M2 represents an alkali metal atom; M3 represents an alkaline earth metal atom or a zinc atom; R1 represents a hydrogen atom, a cyano group, a C2-C13 acyloxy group, or a C1-C6 alkoxy group; p is an integer of 1 to 4; q is an integer of 0 to 3; and the sum of p and q is 4) in the presence of a Group VIII metal complex represented by formula (1): M1XmLn  (1) (wherein M1 represents a Group VIII metal; X represents a halogen atom; L represents a neutral ligand; m is an integer of 1 or 2; n is an integer of 2 or 3; and the sum of m and n is 4).
    • 本发明涉及通过用氢原子取代卤原子除去有机化合物的碳原子上的卤素原子的加氢脱卤方法和脱卤化合物的制造方法。 加氢脱卤法的特征在于在溶剂中用式(2-1)表示的化合物:M2BHpR1q(2-1)或式(2-2)表示的化合物处理其碳原子上具有卤素原子的有机化合物:M3 (BHpR1q)2(2-2)(其中M2表示碱金属原子; M3表示碱土金属原子或锌原子; R1表示氢原子,氰基,C2-C13酰氧基或C1 -C 1烷氧基; p为1〜4的整数,q为0〜3的整数,p和q之和为4)在由式(1)表示的VIII族金属络合物的存在下:M1XmLn (1)(其中,M1表示Ⅷ族金属,X表示卤素原子,L表示中性配体; m表示1或2的整数,n表示2或3的整数,m和n的和为 4)。
    • 7. 发明授权
    • Power module
    • 电源模块
    • US08254133B2
    • 2012-08-28
    • US12663813
    • 2008-06-12
    • Makoto Imai
    • Makoto Imai
    • H05K1/14
    • H01L25/072H01L23/04H01L23/473H01L24/48H01L25/16H01L2224/48091H01L2224/48108H01L2224/48157H01L2224/48464H01L2924/00014H01L2924/01079H01L2924/1305H01L2924/13055H01L2924/1815H01L2924/19041H01L2924/19107H01L2924/00H01L2224/45099H01L2224/45015H01L2924/207
    • Provided is a power module capable of welding a snubber capacitor without causing melting damage to a resin housing by welding heat. When leads of a snubber capacitor are respectively welded to upper surfaces of the specific portions of a P-pole bus bar and an N-pole bus bar, the welding heat generated at the specific portions of the P-pole bus bar and the N-pole bus bar is respectively radiated from openings, through which the lower surfaces of the specific portions of the P-pole bus bar and the N-pole bus bar are exposed. As a result, the snubber capacitor can be later appended by welding without causing melting damage to the resin housing due to the welding heat. During welding, a separate cooling head is inserted into the openings to forcibly cool the lower surfaces of the specific portions of the P-pole bus bar and the N-pole bus bar respectively, so that the melting damage to a resin housing can be more reliably avoided.
    • 提供了能够焊接缓冲电容器而不会通过焊接热而对树脂壳体造成熔融损伤的电力模块。 当缓冲电容器的引线分别焊接在P极母线和N极母线的特定部分的上表面时,在P极母线和N极母线的特定部分产生的焊接热, 极母线从开口分别辐射,P极母线和N极母线的特定部分的下表面露出。 结果,缓冲电容器可以随后通过焊接而附加,而不会由于焊接热而对树脂壳体造成熔融损坏。 在焊接过程中,将一个单独的冷却头插入开口,以分别强制地冷却P极汇流条和N极汇流条的特定部分的下表面,使得对树脂外壳的熔化损伤可以更多 可靠地避免。