141 |
Breech-loading fire-arm |
US258051D |
|
US258051A |
1882-05-16 |
|
|
142 |
Improvement in breech-loading fire-arms |
US204768D |
|
US204768A |
1878-06-11 |
|
|
143 |
Improvement in magazine fire-arms |
US112795D |
|
US112795A |
1871-03-21 |
|
|
144 |
Improvement in magazine fire-arms |
US87038D |
|
US87038A |
1869-02-16 |
|
|
145 |
Daniel werner |
US82908D |
|
US82908A |
1868-10-06 |
|
|
146 |
Improvement in breech-loading fire-arms |
US70264D |
|
US70264A |
1867-10-29 |
|
|
147 |
Improvement in revolving fire-arms |
US51837D |
|
US51837A |
1866-01-02 |
|
|
148 |
Improvement in magazine breech-loading fire-arms |
US46286D |
|
US46286A |
1865-02-07 |
|
|
149 |
Improvement in cartridge-retractors for breech-loading fire-arms |
US46207D |
|
US46207A |
1865-02-07 |
|
|
150 |
Improvement in breech-loading fire-arms |
US43284D |
|
US43284A |
1864-06-28 |
|
|
151 |
Improvement in breech-loading fire-arms |
US34561D |
|
US34561A |
1862-03-04 |
|
|
152 |
Improvement in breech-loading fire-arms |
US24936D |
|
US24936A |
1859-08-02 |
|
|
153 |
nickerson |
US8690D |
|
US8690A |
1852-01-27 |
|
|
154 |
SHOOTING SYSTEM, AND METHOD FOR THE OPERATION OF A SHOOTING SYSTEM |
PCT/EP2008054176 |
2008-04-07 |
WO2008122631A2 |
2008-10-16 |
KAKHIANI GIORGI |
The invention relates to a shooting system comprising a housing and parts that can be moved relative thereto, i.e. a tube, a tube closure, and a silencer, as well as a non-self-locking threaded spindle which has a left-handed threaded section in one of the halves thereof while having a right-handed threaded section in the other half. The silencer and the tube closure are mechanically coupled to one respective threaded spindle section by means of one respective nut such that a translational movement of the silencer is converted into a rotational movement of the spindle and the movement of the spindle is converted into a translational movement of the tube closure, in such a way that both parts perform translational movements in opposite directions because of the right-handedness and left-handedness of the spindle. The tube is disposed to also be movable relative to the housing and can be coupled to the tube closure in such a way that the tube is entrained by the tube closure at least during a translational movement of the tube closure, during which the tube closure moves away from the silencer from a shot-triggering position. |
155 |
RECOIL CONTROL MECHANISM FOR A WEAPON |
PCT/AU0100220 |
2001-03-02 |
WO0165195A3 |
2003-02-27 |
GIZA RICHARD |
A recoil control mechanism for a weapon which fires a projectile which is characterised by the generation of a forward counterforce to the rearward recoil simultaneously with absorption of rearward recoil force upon initiation of propoulsion of the projectile. The forward counterforce is generated by propelling a first mass forwardly upon firing the projectile and substantially simultaneously propelling a second mass rearwardly for absorbing some of the recoil force. In one mechanism (10), the first mass may be the weapon's barrel (12) and the second mass its breach block (14). Expaning gases (36) from detonation of propellant in cartridge (24) enter a reaction volume (28) between the barrel (12) and breech block (14). These gases drive barrel (12) forwardly against force transmission spring (16) to impose a forward counterforce on the weapon's frame (18). Substantially simultaneously recoil from detonation of cartridge (22) together with the gasses (36) in reaction volume (28) drive breech block (14) rearwardly against force absorbing spring (20). |
156 |
FIREARM WITH ENHANCED HANDLING BY DISSIPATING THE EFFECTS OF RECOIL AND MUZZLE CLIMB |
PCT/US2010039047 |
2010-06-17 |
WO2010148236A3 |
2011-04-21 |
LORENZUT SYLVIO RICHARD |
A firearm having reduced recoil including a front slide connected to a rear slide by way of a slide link. Firing the firearm causes the rear slide to recoil and transfer energy, by means of the slide link, to the front slide. The front slide moving in the direction opposite the rear slide thereby reducing the recoil of the firearm. After reaching full recoil, the front and rear slides return to their resting positions. |
157 |
FIREARM APPARATUS AND METHOD |
PCT/US2006016892 |
2006-05-03 |
WO2007040632A2 |
2007-04-12 |
ROZHKOV LEONID; ROZHKOV IGOR |
A firearm apparatus and a method of firing ammunition therefrom, where the method utilizes a barrel (12) having a breech end surface (40) and immovably affixed to frame (10), a stand pressure surface (32), and a cartridge container (16) with a cartridge case (26) therein and countermass main body (18) movable in opposite directions. Gas from a deflagrating propellant moves the movable members and applies directionally opposite forces upon the breech end surface (40) and the stand pressure surface (32), which results in the force cancellation and ensures that the barrel (12) remains stable during firing. This solves the problem of the angle of departure and contributes to a high accuracy of shooting. |