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序号	专利名	申请号	申请日	公开（公告）号	公开（公告）日	发明人
81	WELDING METHOD FOR BRIDGE LINE OF ELECTRIC IGNITER PLUG	JP2000043369	2000-02-21	JP2001235300A	2001-08-31	YAGINUMA HISAKATSU; KUNII HITOSHI; MORI HIROYUKI; MUKODA YUJI
PROBLEM TO BE SOLVED: To provide a welding method for a bridge line of an electric igniter plug for raised joint reliability at a bridge line welding part. SOLUTION: A bridge line is provided between both electrodes of a header comprising, on one main surface, the electrodes electrically connected to a pair of lead pins, respectively. The hit parts between electrode tip surfaces and end parts of the bridge line are resistance-welded, then a voltage is applied between the pair of lead pins so that the bridge line is applied with an impulse current.
82	BLOCKING PLUG FOR ELECTRIC DETONATOR AND ITS MANUFACTURE	JP29615198	1998-10-02	JPH11194000A	1999-07-21	YAMANAKA HITOSHI; TOMITAKA YASUHIKO
PROBLEM TO BE SOLVED: To assure stable electrical contact with a connector by inserting the tip part of a pair of main lead pins into an insulation header, bringing a base for sealing into contact with the rear surface, melting and coagulating a sealing agent being loaded into the base for sealing, and then joining the main lead pins to auxiliary lead pins. SOLUTION: A thick collar 212 of a main lead pin 210 out of a pair of lead pins 21 and 22 is accommodated into a through hole 11 of an insulation header 1. At the same time the other main lead pin 220 is inserted into a lead pin insertion hole 121 at the bottom part of a closed-end hole 12, a tin collar 222 is accommodated in the closed-end hole 12, the main lead pins 210 and 220 are passed through holes 321 and 322 of a base 3 for sealing, and the base 3 for sealing is placed on the insulation header 1. Then, the thick collar 210 and the insulation header 1 are pressed by a bottom wall 32 of the base 3 for sealing, the main lead pins 210 and 220 are supported vertically, and the base 3 for sealing is sealed by melting and coagulating a sealing agent 4 in this state. Further, auxiliary lead pins 211 and 221 that have already been subjected to corrosion-resistant treatment are joined to the main lead pins 210 and 220.
83	METHOD FOR MANUFACTURING ELECTRICAL DETONATOR	JP28759496	1996-10-09	JPH09184698A	1997-07-15	TAKEGAWA HIROAKI; NISHIDA KENJIRO
PROBLEM TO BE SOLVED: To enable a resistance value of an electrical bridge wire between lead pins to be stably set without being influenced by a pressurizing force caused by ignition chemicals in the case that a plug having the electrical bridge wire connected between extremity end surfaces of each of lead pins of the plug with a pair of lead pins being passed therethrough is inserted into a metallic cylinder having a bottom part storing ignition chemicals and further to enable an insertion of the plug into the metallic cylinder having a bottom part to be performed safely without having any damage of the electrical bridge wire. SOLUTION: A pair of lead pins 31, 32 are projected through a plug member 1 with extremity end surfaces 310, 320 of each of the lead pins being projected out of one end surface 121 of the plug member 1. An electrical bridge wire 5 is connected between the extremity end surfaces 310, 320 of both lead pins also including between an edge end of each of the extremity end surfaces and the electrical bridge wire so as to manufacture a closing plug, and the closing plug is inserted into a metallic cylinder having the bottom part with igniting chemicals being stored therein.
84	BLOCK PLUG FOR DETONATOR AND MANUFACTURE THEREOF	JP30514995	1995-10-30	JPH09126697A	1997-05-16	TAKEGAWA HIROAKI; NISHIDA KENJIRO
PROBLEM TO BE SOLVED: To provide a block plug which can stably set the resistance value of a bridge wire between lead pins to a desired value in a wide range without influence of applied pressure by igniting explosive powder by excluding the directionality of a lead pin insertion hole without regulating the cross angle of the wire between the end faces of the pins. SOLUTION: The block plug for a detonator comprises a bridge wire connected between the end faces of a pair of lead pins 2 of an insulation plug 1 through which the pair of lead pins 2 are passed, and pircular collars 21 formed at the ends of the pins 2, wherein the ratio L1 /Lmin of the shortest interval Imin between the collars to the interval L0 between the centers of both the collars is set to 2.5 or more, and the wire 4 is connected to the surface of the collar 21 by including the collar edge positions (e).
85	WIRELESS PRIMER	JP27118290	1990-10-09	JPH04148199A	1992-05-21	KUROKAWA KOICHI; HASHIMOTO KENJI
PURPOSE:To permit initiation by responding pulsatile short-time microwave projecting energy surely by a method wherein the radiating impedance of a receiving antenna and the absolute value of the reactance component of the impedance of a heat generating body are specified so as to be lower than the specified % of a pure resistance component while the pure resistance component of the radiating impedance of the receiving antenna and the impedance of the heat generating body are specified within the range of the specified % of the characteristic impedance of a transmission line. CONSTITUTION:A receiving antenna 1 and a transmission line 6 are formed on an electroconductive print substrate 5 and the heat generating body 7 of a primer 8 is connected to the tip end of the transmission line 6. The relative gain of the receiving antenna is 0-20dB or preferably 5-10dB. When the absolute values of the radiation impedance of the receiving antenna and the reactance component of the impedance of the heat generating body in the primer are higher, an energy transmitting efficiency becomes bad and, therefore, it should be 50% of the pure resistance component or less. This value is 40% or less but the smaller the better and it can be zero. Further, the pure resistance components of the radiating impedance of the receiving antenna and the impedance of the heat generating body should be within the range of 70-130% of the characteristic impedance of the transmission line or preferably within the range of 85-115%.
86	JPS5727442U -	JP9927380	1980-07-16	JPS5727442U	1982-02-13

87		JP1287273	1973-02-02	JPS532929B2	1978-02-01

88		JP11535766	1966-12-20	JPS4425597Y1	1969-10-27

89	Metal fixing material bushing and method of producing core material of metal fixing material bushing	JP2013000102	2013-01-04	JP2013130388A	2013-07-04	FINK THOMAS; HEEKE NEIL; OLZINGER ADOLF; PFEIFFER THOMAS; RANFTL REINHARD; BENDER RICHARD; FORSTER BARTHOLOMAEUS
PROBLEM TO BE SOLVED: To provide a metal fixing material bushing which has high strength and suitability for a higher stress and, further, can avoid an assembly error caused by inaccurate conformity among individual different elements, with a low material and labor expense.SOLUTION: The metal fixing material bushing 1 is, in particular, a glass-to-metal bushing for an ignitor of an airbag or a belt tensioning pulley, and includes at least one metal pin 4, 5 arranged within a slot 11 in the core material 3 via a fixing material 34, the core material 3 has a front part 13 and a rear part 12, the core material 3 is formed from one element, a shape of the core material 3 which demarcates the slot 11 is formed by at least another working and a means for preventing the fixing material 34 from relatively moving toward the rear part 12 opposite to an inner circumference 15 of the slot 11 is provided between the front part 13 and the rear part 12 of the core material 3.
90	Metal fixing material bush, and method of manufacturing core of metal fixing material bush	JP2009270630	2009-11-27	JP2010133698A	2010-06-17	FINK THOMAS; HEEKE NEIL; OLZINGER ADOLF; PFEIFFER THOMAS; RANFTL REINHARD; BENDER RICHARD; FORSTER BARTHOLOMAEUS
PROBLEM TO BE SOLVED: To manufacture a metal fixing material bush having high strength and suitability against a great stress, and capable of voiding an assembling error caused by inaccurate conformity among individual different elements, at a low labor cost by using an inexpensive material. SOLUTION: This metal fixing material bush 1 such as, in particular, a glass-to-metal bush for an igniter of an airbag or a belt tension pulley, includes at least one metal pin 4, 5 disposed inside a slot 11 in a core material 3 via a fixing material 34, the core material 3 has a front part 13 and a rear part 12, the core material 3 is formed of one element, and the shape of the core material 3 defining the slot 11 is formed by at least one other working. A means for preventing the fixing material 34 from moving relatively toward a direction of the rear part 12 opposed to an inner circumference 15 of the slot 11 is disposed between the front part 13 and the rear part 12 of the core material 3. COPYRIGHT: (C)2010,JPO&INPIT
91	Surface can be connected to semiconductor bridge element, devices and methods	JP52879098	1997-12-03	JP4326027B2	2009-09-02	マルテイネズ−トバル，ベルナルド; モントヤ，ジヨン・エイ

92	Sealed electrical feed-through device equipped with insulated pin bent into an elliptical glass seal	JP2003346492	2003-10-06	JP3788454B2	2006-06-21	ヒーケニール

93	ガス発生器	JP2004562924	2003-12-24	JPWO2004059239A1	2006-04-27	久保　大理; 大理久保; 和昌栗田
燃焼によりガスを発生させるガス発生剤2を装填するカップ体3と、電気を通電するための2本以上の電極ピン4と、通電により発火する点火機構を有する点火部20と、前記電極ピン4及び前記点火部20の位置を固定し、前記カップ体3と係合して前記ガス発生剤2を封止するホルダ5とを備えるガス発生器において、ホルダ5に、各電極ピン4がそれぞれ貫通する孔23が形成され、各電極ピン4の径方向周囲の一部にプラスチック部材6が配置されており、プラスチック部材6の一部、あるいは全部が孔23に挿入され、プラスチック部材6が挿入されている部分のホルダ5を塑性変形させることによって、電極ピン4及びプラスチック部材6が固定されていることを特徴とする。
94	Axial spin method of dispersing the pyrotechnic agents in the initiator	JP2004517058	2003-06-26	JP2005531745A	2005-10-20	ロス，マリウス
イニシエータ・サブアセンブリの内部にパイロテクニック薬剤を装填した後、その薬剤を分散させるためにイニシエータ・サブアセンブリを軸方向にスピンさせる方法に関する。
95	Metal fixing material bush, and manufacturing method for core material thereof	JP2004056982	2004-03-02	JP2004264016A	2004-09-24	FINK THOMAS; HEEKE NEIL; OLZINGER ADOLF; PFEIFFER THOMAS; RANFTL REINHARD; BENDER RICHARD; FORSTER BARTHOLOMAEUS
<P>PROBLEM TO BE SOLVED: To manufacture a metal fixing bush having high strength and suitability against a great stress, and capable of avoiding an assembling error caused by inaccurate conformity among individual different elements, at a low labor cost, using an inexpensive material. <P>SOLUTION: This metal fixing bush is a metal fixing bush such as a bush for, in particular, glass-metal, an igniter of an airbag or a belt tension pulley. The bush is provided with at least one metal pin arranged inside a slot in an inside of the core material via a fixing material, the core material has a front part and a rear part, the core material is formed of one element, and a shape of the core material partitioning the slot is formed by at least one of another working. A means for preventing the fixing material from moving relatively toward a direction of the rear part opposed to an inner circumference of the slot is provided between the front part and the rear part of the core material. <P>COPYRIGHT: (C)2004,JPO&NCIPI
96	Sealed electrical feed-through device provided with bent isolated pin in oval glass seal	JP2003346492	2003-10-06	JP2004144464A	2004-05-20	HEEKE NEIL
PROBLEM TO BE SOLVED: To provide a sealed electrical feed-through device for a detonator or squib for an air bag ignition device. SOLUTION: In a conductive main body 11, an oval or elliptical through hole O is provided roughly at a center. A conductive bent isolated pin 13 sealed by a glass seal 17 at a center of the oval or elliptical through hole O is protruded from a back surface of the conductive main body outward, with one end accessible from a front surface of the conductive main body 11. A conductive bent grounding pin 15 is connected to a back surface of the conductive main body 11 to adjoin the oval or elliptical through hole in a substantially similar form to the isolated pin 13 roughly in parallel to the isolated pin to protrude outward from the back surface of the conductive main body 11. The oval or elliptical through hole O has a long axis a and a short axis b in such a way that bridge wire of various kinds of length is connectable between the front surface of the conductive main body 11 and one end of the isolated pin 13. COPYRIGHT: (C)2004,JPO
97	AUTOMATIC IGNITION COMPOSITION	JP2001288608	2001-09-21	JP2002179492A	2002-06-26	CANTERBERRY J B; PATEL KALPESH J; LANGE LENNOX
PROBLEM TO BE SOLVED: To provide an automatic ignition material which ignites a gas generating agent at a predetermined temperature. SOLUTION: An automatic ignition material 15 contains a mixture of nitrocellulose of 70-95 wt.% and an inactive plasticizer of 5-30 wt.% and is automatically ignited at a temperature of 175-195 deg.C.
98	IGNITION DEVICE FOR GAS GENERATING MATERIAL	JP2001288603	2001-09-21	JP2002172998A	2002-06-18	CANTERBERRY J B; PATEL KALPESH J; LANGE LENNOX
PROBLEM TO BE SOLVED: To provide an automatic igniting material formed of a single safe material and requiring no packaging before installation on an inflator to ignite gas generating agent at a predetermined temperature. SOLUTION: A gas generating agent 4 containing fuel and oxidizer, a transfer charge mixture 3 for igniting the gas generating agent 4, and an automatic igniting material 15 are disposed in the housing 8 of the inflator 10. The automatic igniting material 15 contains nitrocellulose and plasticizer, and burns spontaneously at a temperature between 175 and 195 deg.C.
99	MANUFACTURE OF CIRCUIT PLATE FOR EXPLOSIVE IGNITION HEAT GENERATING TOOL	JP5571997	1997-03-11	JPH10253059A	1998-09-25	MIZUSHIMA KIYOSHI; MORI MAMORU; MIYAKOSHI MOTOHARU; NAKAMURA SATOSHI; SATO HIROSHI; TSUJI SHINZO; WATANABE MASASHI; ARAI EIJI
PROBLEM TO BE SOLVED: To facilitate division of a ceramic base sheet through a manual work by a method wherein a heat resistance layer, a conduction electrode, and a heating resistor are arranged on one surface of an insulation material base sheet in which a separation groove and a round hole are formed, in a circuit plate for an ignition heat generating tool incorporated in a gas generator utilized as a drive source for an air bag. SOLUTION: In manufacture of a circuit plate 11 for an explosive ignition heat generating tool, a separation groove 17 and a round hole 14 are first formed in an alumina green sheet, and simultaneously with division into a lattice 12, a pair of semicircular holes 25 are formed in each lattice 12, and by sintering a green sheet, a ceramic base sheet 20 is produced. Further, a heat resistance layer 6 is printed on a ceramics base sheet 20 and burning is effected. With silver palladium printed on the periphery of the semicircular hole 25, attraction is effected from the back side of the base sheet 20 to produce a conduction electrode 13 having a protrusion part 15. A heating resistor 4 is then printed on the heat resistance layer 6 and after burning, the base sheet 20 is separated at each lattice 12 along the separation groove 17 through a manual work to produce the circuit sheet 11 for an explosive ignition heat generating tool in which a pair of the semicircular holes 25 are formed.
100	DELAY BLASTING ELECTRIC DETONATOR, AND ITS MANUFACTURE	JP14233096	1996-05-14	JPH09303995A	1997-11-28	MATSUMURA YASUSHI; INOUE NOBORU
PROBLEM TO BE SOLVED: To obtain a multistage blasting electric detonator required for highly accurate blasting by constituting a weighing plate for weighing a delay explosive of an upper weighing plate which has a plurality of holes whose bottoms are open, with different diameters, and a lower weighing plate which has a plurality of holes whose bottoms are open, with the same diameter. SOLUTION: A weighing plate for weighing a delay explosive is constituted of an upper weighing plate which has a plurality of holes whose bottoms are open, with different diameters, and a lower weighing plate which has a plurality of holes whose bottoms are open, with the same diameter. Then, delay explosives 1 and 2 weighed with this weighing plate are contained in a multistage blasting electric detonator, and plural kinds of electric detonators are charged with one kind or two kinds of delay explosives in the same lot, respectively The manufacture is made as follows; a delay explosive 2 high in combustion velocity for adjustment of the quantity of delay explosive is weighed in an original pipe, using an upper weighing plate which has various diameters of holes arranged in order of their sizes opposite to those of the weighing plate for weighing a delay explosive low in combustion velocity, and next a delay explosive 1 suitable for the delay time is weighed in on the delay explosive 2 high in combustion velocity, using the other upper weighing plate which has various diameters of holes capable of weighing it by an required quantity.

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