1 |
抗冲击的引爆器及其制造方法 |
CN93118636.6 |
1993-10-08 |
CN1043684C |
1999-06-16 |
J·C·勒图阿尔 |
本发明涉及一种引爆器,该引爆器包括一个圆盘,该圆盘即能清除引爆器缸体壁上的引爆炸药装填物的沾连,又能确定在引爆器的装填室内预先装填的引爆炸药装填物的形状。 |
2 |
抗冲击的引爆器及其制造方法 |
CN93118636.6 |
1993-10-08 |
CN1086597A |
1994-05-11 |
J·C·勒图阿尔 |
本发明涉及一种引爆器,该引爆器包括一个圆盘,该圆盘既能清除引爆器缸体壁上的引爆炸药装填物的沾连,又能确定在引爆器的装填室内预先装填的引爆炸药装填物的形状。 |
3 |
高精度延迟系统 |
CN201010587972.7 |
2010-12-08 |
CN102141360A |
2011-08-03 |
皮欧·弗朗西斯科·佩雷斯·科尔多瓦; 朱昂·卡洛斯·特雷霍·麻古纳 |
本发明公开了一种高精度爆炸延迟系统,用于预定时间段的非电性触发的爆破装药。该系统包括防水塑料容器,包括具有固定轨和端钮支架的底部,将该底部分隔成隔间,其中放置了用于执行控制整个系统的电路,用于检测激波管触发的传感器,用于引爆一连串爆破装药的电子炸药,用于传输已接通爆破信号的激波管,用于将电源与电路相连接的微开关,以及固定激波管并引导膨胀波朝碰撞传感器移动的碰撞信道装置。 |
4 |
延发导火线点火缓冲器 |
CN91100859.4 |
1991-02-07 |
CN1029258C |
1995-07-05 |
罗纲德.M.杜弗兰; 罗伯特·G·帕兰克; 欧内斯特·L·格拉登 |
一种延发导火线点火缓冲器(45),安置在雷管外壳(15)或信号传递管外壳中传递管(11)与延发导火线(25)之间。缓冲器控制传递管温度/压力脉冲加到延发导火线的烟火药表面的速率,以削弱脉冲的作用,从而提高延时定时的精确度。缓冲器还减弱雷管内因传递管破裂或弹出外壳管外而引起的突然降压的作用,从而防止反应中的烟火药脱离开,否则烟火药在分离点处会停止反应,从而使延发导火线因烟火药不能连续燃烧到其整个长度而失效。 |
5 |
延发导火线点火缓冲器 |
CN91100859.4 |
1991-02-07 |
CN1054132A |
1991-08-28 |
罗纲德·M·杜弗兰; 罗伯特·G·帕兰; 欧内斯特·L·格拉登 |
一种延发导火线点火缓冲器(45),安置在雷管外壳(15)或信号传递管外壳中传递管(11)与延发导火线(25)之间。缓冲器控制传递管温度/压力脉冲加到延发导火线的烟火药表面的速率,以削弱脉冲的作用,从而提高延时定时的精确度。缓冲器还减弱雷管内因传递管破裂或弹出外壳管外而引起的突然降压的作用,从而防止反应中的烟火药脱离开,否则烟火药在分离点处会停止反应,从而使延发导火线因烟火药不能连续燃烧到其整个长度而失效。 |
6 |
Non-primary explosive type detonator |
JP50378085 |
1985-08-22 |
JPH0725627B2 |
1995-03-22 |
KUICHEN WAN; JIANKUAN RI; GUOOEN FUU; JIKUIN ZUAN; TEIANRUI ZU |
|
7 |
Time delay fuse |
JP12940780 |
1980-09-19 |
JPS5654294A |
1981-05-14 |
POORU JIYON BURAIAN; DANIERU RICHIYAADO MOOSU |
|
8 |
JPS5060100A - |
JP475074 |
1973-12-24 |
JPS5060100A |
1975-05-23 |
|
|
9 |
Digital delay unit |
JP51531994 |
1993-12-17 |
JP2845348B2 |
1999-01-13 |
ROODO KENESU EI; PARANKU ROBAATO JII; DOOMAN MAAKU DEI; MIKUNA RICHAADO JEI |
|
10 |
Signal delay device explosion signal transmission device |
JP3514291 |
1991-02-06 |
JP2545161B2 |
1996-10-16 |
RONARUDO EMU DEYUFUREIN; AANESUTO ERU GURATSUDEN; ROBAATO JII PARANKU |
|
11 |
Electric delay detonator |
JP16782592 |
1992-06-25 |
JP2541727B2 |
1996-10-09 |
ROBAATO JOOJI PARENKU; KENISU AREN ROODO |
|
12 |
Digital delay unit |
JP51531994 |
1993-12-17 |
JPH08504936A |
1996-05-28 |
ドーマン,マーク・デイ; パランク,ロバート・ジー; ミクナ,リチヤード・ジエイ; ロード,ケネス・エイ |
(57)【要約】 長期遅延起爆装置組立体(1)は、例えば衝撃波管(10)又はその他の入力伝達ラインから入って来る非電気衝撃入力信号と、出力爆薬(44)の爆発との間に予め選ばれた電子的に制御された遅延を与える。 この爆発からのエネルギは、爆発性爆薬を爆発させるために、又はもう一つの信号伝達ライン例えば出力衝撃波管(216)に信号を伝えるために使用することができる。 もう一つの実施態様においては、遅延起爆装置は、一端で閉じられそして入力伝達ライン(10)への連結のために他端で開かれたハウジング(12)中に配設されていて、そして入力伝達ライン(10)からの信号は、ハウジング(12)内に装着されたブースタ爆薬(20)によって増幅することができる。 圧電発電機(30)は、必要に応じて増幅された衝撃入力信号を電気出力エネルギに変換する。 電池で電力を供給されるプログラム可能な電気遅延回路例えばデジタル遅延モジュール(232)中に含まれるものは、圧電発電機(30)からの電気出力によって作動され、予め選ばれた遅延期間を数え、その終わりに電気的に操作可能な出力爆薬(44)を点火する。 |
13 |
Shock resistant initiator and its manufacture |
JP23821993 |
1993-09-24 |
JPH06294599A |
1994-10-21 |
JIYAN KUROODO RETSUARU |
PURPOSE: To remove contaminated matter of an initiator from a wall of a cylinder and apply a configuration to loaded initiation powder by inserting a disk on a front side and arranging it parallely to the surface of the initiation powder.
CONSTITUTION: An orifice 5 is provided at the center of a disk 1. A delay element 7 is placed in a channel 8, in which the orifice 5 is coupled with the delay element 7 and the channel 8. A front X shaft 2 is coupled with initiation powder 11, which powder is then coupled with a second initiation filler 12. The elements 1, 2, 4, 5, 7, 8, 11, and 12 are filled in a compact manner in an outside cylinder portion 9. As a result, a consistent explosion result is ensured by configuring the initiation powder 11 into a conical shape after loading. Further, contaminated matter of the initiation powder 11 is removed and purified from a wall of the cylinder 9.
COPYRIGHT: (C)1994,JPO |
14 |
Precision delay detonator |
JP2372491 |
1991-01-25 |
JPH04214088A |
1992-08-05 |
RONTEY DANIEL C; BIGANDO DONALD; WOLFEIL FRANK |
PURPOSE: To attain improvement in performance by converting an initial burning signal to a signal having stabilized strength at practically fixed burning speed through a transition element, and burning a delay train charge.
CONSTITUTION: The burning signal generated from a non-electric impulse tube 16 is converted into the signal having stable strength at practical burning speed by a transition element 28 composed of a cylinder 28a and a reaction enabled material 28c, which has burning speed higher than 0.06 sec/inch, such as Zr/ KClO
4 with which the cylinder 28a is filled. Next, the signal is sent to a delay train charge 36 composed of a heat burning composition 36C, and burnt in stable state. Delay time is controlled by the strength of the signal, and the burning of main charge 38 and base charge 40 filling one terminal part 8 of the closed pipe part of a pipe-shaped casing 4 is delayed for prescribed time. As a result, a precision delay detonator can be provided for exactly controlling the delay time in case of exploding operation.
COPYRIGHT: (C)1992,JPO |
15 |
JPS6235039B2 - |
JP12940780 |
1980-09-19 |
JPS6235039B2 |
1987-07-30 |
HOORU JON BURAIAN; DANIERU RICHAADO MOOSU |
|
16 |
Nonelectric delay detonator |
JP2175680 |
1980-02-25 |
JPS55116698A |
1980-09-08 |
POORU JIYON BURAIAN |
|
17 |
Electrical delay detonator |
JP16782592 |
1992-06-25 |
JPH05215499A |
1993-08-24 |
ROBAATO JIYOOJI PARENKU; KENISU AREN ROODO |
PURPOSE: To realize an electrical delay detonator having a non-electric triggering system and introducing an extremely accurate time delay before triggering explosion.
CONSTITUTION: First and second detonators 3, 4 are compressed into a conductive aluminum shell 1 having a closed end 2 and an electric fuse head assembly 7 having a firing element 8 located in a semiconductive resin bush 9 is juxtaposed to a cushion element 6 located on the first detonator 3. A digital delay module 10 disposed in the shell 1 has a delay timing means 11 and a storage capacitor 12. A shell 20 contains a multiplayer piezoelectric assembly 15 as an electric energy source, an ammunition sectioning disc 38, a first detonator 19, a cushion disc 18, a trigger 17, and a separation cup 21 and an impact tube 23 is inserted through an adapter bush 22.
COPYRIGHT: (C)1993,JPO |
18 |
Signal delay assembly body |
JP3514291 |
1991-02-06 |
JPH0534100A |
1993-02-09 |
RONARUDO EMU DEYUFUREIN; AANESUTO ERU GURATSUDEN; ROBAATO JII PARANKU |
PURPOSE: To retain a delay fuse wire fireworks composition that reacts securely by controlling the speed of pressure that operates on a signal delay assembly body that is used with a detonation device or a signal transmission pipe delay device, giving function time for accurate prediction, and improving reliability. CONSTITUTION: A delay fuse wire ignition buffer member 45 is located between a percussion device housing 15 or a transmission pipe 11 in a signal transmission pipe housing and a delay fuse wire 25. A buffer member controls speed where a transmission pipe temperature/pressure pulse operates on the surface of a delay fuse wire fireworks composition, attenuates pulse effect, and makes accurate delay timing. The buffer member attenuates the rapid pressure reduction effect in a percussion device caused by the explosion of the transmission pipe or the discharge of a pipe from the housing, thus preventing the reacting fireworks composition from being separated. When the fireworks composition is separated by mistake, the reaction stops at the point of separation and hence the delay fuse wire that should continue the combustion of the fireworks composition for its length fails. |
19 |
Delayed blasting detonator |
JP10018887 |
1987-04-24 |
JPS62258999A |
1987-11-11 |
HANSU FUROORIN |
|
20 |
JPS62500024A - |
JP50378085 |
1985-08-22 |
JPS62500024A |
1987-01-08 |
|
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