301 |
Projectile mechanism |
JP16425885 |
1985-07-26 |
JPS6152599A |
1986-03-15 |
RICHIYAADO TOOMASU JIEMUBA; RICHIYAADO WAREN MAKUREI; JIEFU AREN SHIIWAATO |
|
302 |
Method of intercepting aerial target |
JP7913585 |
1985-04-12 |
JPS6141900A |
1986-02-28 |
PIEERU ROORE |
|
303 |
JPS6037298B2 - |
JP11043781 |
1981-07-15 |
JPS6037298B2 |
1985-08-26 |
MATSUZAWA YOICHI |
|
304 |
Percussion fuse for revolving gun |
JP21747684 |
1984-10-18 |
JPS60101500A |
1985-06-05 |
ROBEERU SARUMON |
|
305 |
JPS5947240B2 - |
JP3539476 |
1976-03-31 |
JPS5947240B2 |
1984-11-17 |
ADACHI RYOZO; KIDO KYUHEI; IWASE SEIICHI; YAMAGUCHI YOSHIO |
|
306 |
Igniter and rocket-motor |
JP4728484 |
1984-03-14 |
JPS59176454A |
1984-10-05 |
KURISUCHIYAN JIEI ERU KIYARIA; CHIYAARUSU JIEI SHIYA |
|
307 |
Ammunition for high-angle fire |
JP22460583 |
1983-11-30 |
JPS59109796A |
1984-06-25 |
RUDORUFU ROMERU; MIHAERU SHIYUBENZAA; RAINHARUDO SHINOFUZUIKU |
|
308 |
JPS5988949U - |
JP14104583 |
1983-09-13 |
JPS5988949U |
1984-06-16 |
|
|
309 |
JPS5924262B2 - |
JP10148676 |
1976-08-25 |
JPS5924262B2 |
1984-06-08 |
ERIASU PII MORISU; FURETSUDO EI KURISUTEI |
|
310 |
Fumigating material |
JP19958182 |
1982-11-13 |
JPS5988401A |
1984-05-22 |
KATOU MASANORI |
PURPOSE: To provide a fumigating material ignitable extremely easily, and free from the problems of ignition failure caused by the degradation with time by moisture, by filling a fumigating chemicals in a container, placing ignition powder close to the chemicals, and using a piezoelectric device for the ignition of the powder.
CONSTITUTION: The container 10 has double-walled side wall comprising the inner cylinder 12 and the outer cylinder 14 to prevent the direct conduction of the fumigation heat. The fumigating chemical 20 is filled in the container 10. A piezoelectric element 24 and a pair of discharge electrodes 28 are attached to the center part of the top plate 18 of the container, and a rod-shaped ignition powder 30 is placed in a manner to fill the gap between the electrodes 28 and extend through the top plate 18. When the button 26 is pushed down, a high tension is generated by the piezoelectric element 24, the top of the powder 30 is ignited by the spark generated between the electrodes 28, the combustion of the powder is propagated gradually to the lower part of the powder 30, the fumigant is ignited, and the fume is discharged from the hole 22 of the top plate 18. The top of the rod-shaped powder 30 is composed of an ignition powder having low ignition temperature, and the following part of the rod is composed of powder having low rate of combustion.
COPYRIGHT: (C)1984,JPO&Japio |
311 |
JPS5858276B2 - |
JP8187876 |
1976-07-09 |
JPS5858276B2 |
1983-12-24 |
GYUNTAA BATSUKUSHUTAIN |
|
312 |
Ignition control circuit for low impedance detonator |
JP16414382 |
1982-09-22 |
JPS5869797A |
1983-04-26 |
KURAUSU MIYUNTSUERU |
|
313 |
Device for safely releasing fuse of projecting body |
JP5472682 |
1982-03-31 |
JPS5828999A |
1983-02-21 |
KENESU SANDOBAARU |
|
314 |
Igniter for rocket motor |
JP11043781 |
1981-07-15 |
JPS5813146A |
1983-01-25 |
MATSUZAWA YOUICHI |
PURPOSE:To facilitate a simultaneous ignition of both ends of a main gunpowder charge by maintaining a pellet-shaped main gunpowder charge in through holes of a holder's four leg plates equally space around an axis of an igniter case. CONSTITUTION:A holder 21 stored in a case 8 extends in an axial direction of the case 8. The mating member of the holder 21 consists of four leg plates 22 equally spaced. The leg plates 22 are connected to each other, extending in a radial direction, and the section of the connected leg plates 22 are cross-shaped. Each leg plate 22 is provided with a plurality of through holes 23, and inside each through hole 23 is stored a cylindrical main gunpowder charge 24 in a pellet-shape. Between each leg plate 22 is formed a space 28, which simply extend an axial direction of an igniter case 10 with a uniform section, in a symmetrical manner with respect to the axis of the igniter case 10, which equally devices the flame of an auxiliary gunpowder charge 7 to each space 28. As a result, the pellet of the main gunpowder charge 24 is subjected to the same amount of heat energy at both ends, to be ignited simultaneously. |
315 |
Arrival/departure fuse accompanying delay depending on flight time |
JP1192082 |
1982-01-29 |
JPS57164300A |
1982-10-08 |
KURAUSU MIYUNTSUERU |
|
316 |
Consuming fire tube |
JP1749381 |
1981-02-10 |
JPS57134700A |
1982-08-19 |
OOMURA ISAO |
|
317 |
Fuse safety device |
JP15049081 |
1981-09-22 |
JPS5787600A |
1982-06-01 |
URUFU YANDERU |
|
318 |
JPS5712959B2 - |
JP10860073 |
1973-09-28 |
JPS5712959B2 |
1982-03-13 |
|
|
319 |
Dopller type proximity fuse |
JP6792080 |
1980-05-23 |
JPS56164972A |
1981-12-18 |
KOJIMA YASUO; KOUNO MINORU; FUNADA TOSHIO |
PURPOSE:To improve altitude detection accuracy by comparing Doppler detected output voltage and the prescribed divided voltage of the Doppler detected output voltage before a fixed period and determining altitude. CONSTITUTION:A flying body 1 such as a cannon ball generates the Doppler detected output En at altitude Hn by way of an antenna 3, etc. by the reflected waves from a target 2. This output En is divided by a voltage dividing circuit 6 in accordance with the ratio alpha between the altitude Hn and the altitude Hn-1. On the other hand, when the count value of a counter 8 attains the count value corresponding to the time when the body 1 falls from the altitude Hn-1 down to Hn for a distance D, it is compared with the voltage En-1 having been held in a sample holding circuit 7, and whether the conditions of the equation I corresponding to the arrival at the altitude Hn or not is detected. By this constitution, the highly accurate altitude detection of whether initiating altitude was attained or not is accomplished. |
320 |
JPS5652275B2 - |
JP11172376 |
1976-09-20 |
JPS5652275B2 |
1981-12-10 |
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