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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
41	绕线机构和自动绕线扎把设备	CN201921099092.8	2019-07-12	CN210570264U	2020-05-19	陈胜强; 邓益民; 甘德淮; 张光寿; 吴卫国; 周军; 纵振
本实用新型公开了绕线机构和自动绕线扎把设备，绕线机构包括机架和分别设于所述机架上的送线装置及线缆端头牵引装置，所述线缆端头牵引装置包括相连的第一升降驱动件和第一夹持组件，所述送线装置包括送线组件，还包括连接所述送线组件与所述机架的第二升降驱动件。本实用新型的绕线机构能够有效地避免线缆端头出现大幅度变形，极大程度上缓解了线缆端头下垂/上翘的情况，利于提高绕把机构的绕把一致性和绕把精度，方便后续加工。
42	电雷管制线机用切剥线装置	CN99228527.5	1999-06-04	CN2379777Y	2000-05-24	邢文彪
本实用新型公开了一种电雷管制线机用切剥线装置,由电磁铁、连臂、连杆、支座组成的位移控制机构中的连杆的一端经由联结板与拉杆相互固定,连杆中央由轴销设置在支座上,而连杆的两端分别与连臂和电磁铁固定,切断刀和剥小头刀的位置由拉杆控制。由于其原动力来自电磁铁,因此,结构非常简单,并且刀具长度也很短,能有效克服现有技术中所存在的缺陷。
43	电子雷管生产线	CN201821980484.0	2018-11-27	CN209416183U	2019-09-20	冯明生; 罗小林; 王晓峰; 刘志伟; 陈小芳; 张光寿; 张忠; 万小伟
本实用新型公开了电子雷管生产线，电子雷管生产线，包括运输带和由运输带带动的运输治具，还包括沿运输带一侧依次设置的自动绕线扎把设备、剥皮分线整形设备、注塑设备、剥内皮设备、焊接设备、基管上料卡口设备及成品取料设备，运输带的另一侧依次设有接线盒下盖组装设备和接线盒上盖组装设备，接线盒下盖组装设备及接线盒上盖组装设备均位于剥皮分线整形设备与成品取料设备之间。相比于现有技术中的电子雷管生产线，本实用新型的电子雷管生产线所有工步均无需人工手动操作，实现了全面自动化生产，在保证人员的人身安全的基础上大大提高了生产效率。(ESM)同样的发明创造已同日申请发明专利
44	一种数码电子雷管延期点火元件注塑模	CN201721782259.1	2017-12-19	CN207866120U	2018-09-14	张利彪; 浦仕繁; 彭所明
本实用新型属于数码电子雷管制造技术领域，具体涉及一种数码电子雷管延期点火元件注塑模。该注塑模包括下模板和上模板，上下模板均为长方形且大小一致。下模板设有定位钉、引火药头固定槽、塑料塞卡槽、塑料片固定台、脚线卡槽、芯片卡槽和芯片支撑台。上模板设有定位孔，定位钉能活动插入定位孔内。上模板正面设有与下模板位置和大小相对应的引火药头固定槽、脚线卡槽、芯片卡槽、塑料塞卡槽、塑料片固定台和注塑孔，上模板背面设有注塑槽和分流注塑槽。本实用新型一次实现塑料对整个延期点火元件的包敷和固定，达到标准对电子雷管防静电的要求，每次可同时注塑多发产品。同时，可杜绝由于电子雷管点火元件虚焊造成的严重质量问题。
45	How a hollow body that is covered by it covering the inner wall surface of the hollow body	JP2004173306	2004-06-11	JP4663256B2	2011-04-06	フィンクトーマス; フォルスターバルソロマオス

46	Gas generator	JP2004100078	2004-03-30	JP4335725B2	2009-09-30	大理久保; 昭俊弘中; 也寸志松村
A metal holder with electrode pins having an improved sealing ability suitably used for a gas generator having a structure that can prevent the electrode pins from being burst forth easily even when the gas generator is brought into action under high temperature is provided at low cost. The metal holder with electrode pins comprises a metal holder 5 and at least two electrode pins 4 for allowing passage of electrical current, wherein each electrode pin 4 is larger in diameter at its head portion 4a than at its terminal portion 4b, and plastic members 6 are arranged to surround a part of the respective electrode pins 4 circumferentially, and wherein holes 23 for the respective electrode pins 4 to pass through the holder 5 are formed in the holder 5, and the electrode pins 4 are fixed to the holes 23 via the plastic members 6, each hole 23 having a diameter-reduction portion 23a at a part thereof. There are also provided a producing method thereof and a gas generator equipped with the metal holder with electrode pins.
47	Sealed electrical feed-through device that includes an insulating pin of the elliptical cross-section in a circular glass seal	JP2003346504	2003-10-06	JP3787702B2	2006-06-21	ヒーケニール

48	Metallic holder with electrode pin, its method of manufacture, and gas producer	JP2004100078	2004-03-30	JP2005280585A	2005-10-13	HIRONAKA AKITOSHI; MATSUMURA YASUSHI; KUBO HIROMICHI
<P>PROBLEM TO BE SOLVED: To provide a metallic holder having electrode pins by a less-expensive manufacturing method preferable for a gas generator capable of improving a seal characteristic against moisture or the like and in which the electrode pins are hardly protruded out even though a gas producer is operated under a high temperature. <P>SOLUTION: This metallic holder having electrode pins is characterized in that the same is comprised of a metallic holder 5 and two or more electrode pins 4 for electrically conducting operation, a diameter of a head 4a of each of the electrode pins 4 is wider than that of a terminal 4b of the electrode pin 4, a plastic member 6 circumferentially encasing a part of each of the electrode pins 4, the holder 5 is made of metal, the holder 5 is formed with a hole 23 through which each of the electrode pins 4 passes, each of the electrode pins 4 is fixed to the hole 23 through the plastic member 6, and a reduced diameter part 23a is set at a part of the hole 23. There are provided a method for manufacturing it and a gas producer having the metallic holder with electrode pins. <P>COPYRIGHT: (C)2006,JPO&NCIPI
49	Over for pyrotechnic initiation device mold body and how to create them	JP2002548380	2001-11-21	JP2005502014A	2005-01-20	アヴェチシアン，ヴァーン; カーロフ，ジョージ; バーグ，ポウル; レンツ，ロバート
モールド体を形成するための、別個の構成要素の必要性を削除する、一体型で単一のオーバーモールド絶縁体（５５）を有するパイロテクニック開始装置（１０）と、その作成方法。
50	Sealed electrical feed-through device provided with isolated pin having oval cross section in circular glass seal	JP2003346504	2003-10-06	JP2004144465A	2004-05-20	HEEKE NEIL
PROBLEM TO BE SOLVED: To provide a sealed electrical feed-through device in which a conductive isolated pin is sealed with a glass seal, and in which distortion is dispersed uniformly along the whole glass seal. SOLUTION: A conductive main body 11, having a front surface and a back surface, is provided with a circular through hole O. A conductive isolated pin 13 is sealed with the glass seal 17 at a center of the circular through hole O to be extended from the back surface of the conductive main body 11 outward, with one end accessible from the front surface of the conductive main body. A conductive grounding pin 15 is connected to the back surface of the conductive main body in parallel to the pin 13 to be extended from the back surface of the conductive main body 11 outward. The isolated pin 13 is provided with an oval or elliptical cross section 13a extended through the glass seal 17 from the back surface of the conductive main body to one end of the pin. Bridge wire of different lengths can thus be connected between the front surface of the conductive main body and one end of the isolated pin that is accessible from the front surface of the conductive main body 11. COPYRIGHT: (C)2004,JPO
51		JP2000515281	1998-10-02	JP2001519595A	2001-10-23

52	FIREWORK IGNITION DEVICE	JP317296	1996-01-11	JPH08291999A	1996-11-05	CHIYAN SETSUKU KUWAN; GURAAMU SUTEIIBUN JIYON; REIPAA GUREEMU ARAN; ROOGAN MOIRA
PROBLEM TO BE SOLVED: To obtain a pyrotechnic ignition device having an ignition property needed to rapidly transmit a flame to a main filler and having enough sensitivity for ignition by a flame initiation device. SOLUTION: A tubular spiral coil 10 includes a section 15 where it reduces its outer diameter and wall thickness from an ignition initiation position 13 to a combustion direction downstream side. The configuration of the section 15 increases a speed of combustion and violence of the same. A pyrotechnic sheet including a substrate of an oxidizable polymer film coated with oxidizable metal e.g. magnesium coiled around a cruciate axial former 11. A filler may be formed by winding a sheet into a right cylindrical tubular coil and extruding the coil from the center in the direction of combustion and axially.
53		JP10074471	1971-10-29	JPS4856374U	1973-07-19

54		JP11535666	1966-12-20	JPS4425596Y1	1969-10-27

55	KR20210032932A - Lead-through of metal fastening materials with low defect susceptibility	KR1020207035630A	2019-07-15	KR20210032932A	2021-03-25	토마스 파이퍼; 헬무트 하르틀; 라인하르트 란프틀; 온드레이 로우섹; 스스무 니시와키; 로베르트 헤틀러
본 발명은, 에어백 및/또는 벨트 조임기의 점화기(igniter)를 위한 금속 고정 재료 리드 스루(lead-through)로서, 본체의 관통 개구 내에서 유리 또는 유리 세라믹 고정 재료 내로 융합되는 적어도 하나의 금속 핀을 포함하고, 금속은 후-열처리된 상태로 존재하며, 고정 재료와 금속 핀 사이의 인터페이스 및 고정 재료와 관통 개구의 내부 표면 사이의 부가적 인터페이스를 구비하는 것인, 금속 고정 재료 리드 스루에 있어서, 적어도 하나의 금속 핀은, 적어도 그의 코어 영역에서, 스테인리스강, 바람직하게는 크롬 함유 스테인리스강으로 이루어지며, 스테인리스강은 열팽창 계수(α _금속 _핀)를 갖는 것을 특징으로 하는 금속 고정 재료 리드 스루에 관한 것이다.
56	Gas generator	JP2004562924	2003-12-24	JP4537210B2	2010-09-01	大理久保; 和昌栗田

57	Stable initiator composition and ignition device	JP2007527160	2004-05-20	JP2007537967A	2007-12-27	デニス，ダブリュー．ソラス，; スーンホーソン，; カーティストム，; ロン，エル．ヘイル，; ヒラリー，エヌ．ペティット，; ミンツーレイ，
電力量が抑制されたハイスパーク開始剤組成物（７１８）が開示される。開始剤組成物は、金属含有酸化剤と、少なくとも１種の金属還元剤と、非爆発性バインダとを含む。点火時に両方向の噴出を生じる低電圧点火装置も開示される。これらの点火装置は、噴出の向きを定めるサポート（７１２）内の孔（７１３）を横切るように位置付けられた電気抵抗素子（７１６）を有する。これらの点火装置及び組成物は、固体燃料加熱ユニット、特に、密封加熱ユニットのアクチュエーションに有用である。【選択図】図１
58	SQUIB AND MANUFACTURE THEREOF	JP18892999	1999-07-02	JP2001021293A	2001-01-26	AMANO JUNYA; HORI HIROSHI
PROBLEM TO BE SOLVED: To obtain an environment-friendly squib being friendly to the environment, while reduced in cost. SOLUTION: This squib 1 is constituted of a cup-shaped tubular body 2, ignition powder 3 held in the tubular body 2, a plug 4, two electrode pins 5 and 6 piercing the plug 4 and a bridge wire 7 connected to each of the electrode pins 5 and 6 at a projecting portion 23 thereof projecting from the plug 4. The tubular body 2 and the plug 4 are formed to have structures wherein the projecting portions 23 of the electrode pins 5 and 6 and the bridge wire 7 are buried in the ignition powder 3 and the bridge wire 7 and the ignition powder 3 are enclosed in a state of being under pressurized contact pressure.
59		JP11034798	1998-04-21	JP2971439B2	1999-11-08	YOKOYAMA RYOSUKE; ENDO TOSHIMI

60	AIR BAG TRIGGERING DEVICE AND ITS MANUFACTURE	JP23565997	1997-09-01	JPH11101598A	1999-04-13	ELDON D RICE
PROBLEM TO BE SOLVED: To improve quality and productivity by pouring a raw material into a cylinder that is injected to a mold via a funnel-shaped vessel, heating the cylinder, melting the wax component and the plastic component of the raw material, casting an air bag triggering device from the melted raw material, and then performing sintering treatment. SOLUTION: A triggering device 40 has a body 48, a first pin 42, and a second pin 44 and is manufactured by a mold. More specifically, a raw material is allowed to flow into a cylinder to be injected into a mold via a funnel-shaped vessel, then the cylinder is heated, and the wax component and the thermoplastic plastic component of the raw material are melted. In this manner, the melted raw material is injected into a mold for forming the air bag triggering device and the injection material is hardened by spending a sufficient amount of time. Then, after the injection material is hardened, the air bag triggering device is taken out of the mold, then the connection material of the wax and the thermoplastic plastic are removed, and sintering treatment is made, thus a completed product is obtained.

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