| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | Machine-gun. | US1900025066 | 1900-07-28 | US672690A | 1901-04-23 | ALESSI FEDERICO |
| 102 | Lauraetta wilder | US563701D | US563701A | 1896-07-07 | ||
| 103 | And oscar poote | US547717D | US547717A | 1895-10-08 | ||
| 104 | Machine-gun | US475276D | US475276A | 1892-05-17 | ||
| 105 | Machine-gun | US282553D | US282553A | 1883-08-07 | ||
| 106 | T tt tut ttiatvt | US1881282551 | 1881-03-07 | US282551A | 1883-08-07 | |
| 107 | Machine-gun | US225466D | US225466A | 1880-03-16 | ||
| 108 | Improvement in machine-guns | US220545D | US220545A | 1879-10-14 | ||
| 109 | Improvement in machine-guns | US207747D | US207747A | 1878-09-03 | ||
| 110 | Improvement in machine-guns | US206852D | US206852A | 1878-08-13 | ||
| 111 | Improvement in | US177030D | US177030A | 1876-05-02 | ||
| 112 | Improvement in machine-guns | US130098D | US130098A | 1872-07-30 | ||
| 113 | Improvement in machine-guns | US121277D | US121277A | 1871-11-28 | ||
| 114 | Improvement in repeating-ordnance | US20229D | US20229A | 1858-05-11 | ||
| 115 | WEAPON DRIVE AND WEAPON DRIVE WITH AN EMERGENCY WEAPON STOP | US15867354 | 2018-01-10 | US20180231338A1 | 2018-08-16 | Hubert SCHNEIDER |
| A drive for a weapon having a drive cam and a connecting rod unit guided in the drive cam. The drive cam includes the firing cycle of the weapon. A connecting rod unit has a front pin and a rear pin, a strut pin. With its front pin, the connecting rod unit engages in the drive cam. The front pin is also connected to a crank, which is driven by an external drive. The strut pin is connected to an overall control slider of a breech block of the weapon. An emergency stop device, which when a shot is fired makes a pin extend and ensures that the overall control slider is taken along. If, on the other hand, no shot is fired, the pin is not made to extend and the overall control slider not moved. Parts of the drive may in this case continue to run. | ||||||
| 116 | WEAPON DRIVE, AND WEAPON DRIVE WITH A WEAPON EMERGENCY STOP | US15867475 | 2018-01-10 | US20180128564A1 | 2018-05-10 | Hubert SCHNEIDER |
| An emergency stop device for a weapon with a drive for transporting a breech block of the weapon. At least one guide, at least one connecting rod guided in the guide, and at least one lever are provided. When a shot is not being fired, the kinematic system is deactivated. When a shot is being fired, the at least one guide is moved rearwards, and the at least one connecting rod is guided upwards along the guide such that the lever exerts a lever movement, by means of which the transport of the breech block is made possible. The weapon drive has a complete control slide for transporting the breech block of the weapon. A bolt is laterally embedded in the transverse slide, said bolt being integrated below the complete control slide of the drive in a movable manner in the slide. | ||||||
| 117 | Motor control for externally-operated weapon | US14659849 | 2015-03-17 | US09618284B1 | 2017-04-11 | Brian Hoffman; Alexander Smith; Hansen Lukman |
| An externally-operated weapon has a direct current servo motor that provides motive force to drive the weapon operating group at an average rate of fire. Within a single cycle, the weapon operating group is driven at rates greater than and less than the average rate of fire, while the overall rate for a single cycle is maintained at the average rate of fire. Some benefits of servo motor control include reduced power consumption, increased bolt dwell time, expansion of the weapon's battlefield role from one to many roles, and increased accuracy and shot-to-shot precision while firing from an open bolt position. | ||||||
| 118 | Breech drive for a weapon | US13154235 | 2011-06-06 | US08616112B2 | 2013-12-31 | Ralf-Joachim Herrmann; Heiner Schmees; Berthold Baumann |
| A drive for a weapon is provided, wherein rotational motion of a motor is converted to a forward or reverse motion of the breech in a simple manner using the Scotch yoke principle. In order to allow rest periods of the breech in the end positions, the crank radius is defined by a control cam, which changes when the crank is rotated. The hinge pin of the crank may be externally driven via a pinion shaft. A yoke pin is arranged in a groove of the crank so as to be radially displaceable and carries the breech carrier or the breech in a groove extending transversely to the direction of fire via a sliding block. Two rollers are arranged on the crank pin and run in control cams in the weapon or crank housing. The control cam is subdivided into different sectors/sections, thereby achieving the desired motion of the breech. | ||||||
| 119 | Breech drive for a weapon with a linear breech or ammunition feed | US13153240 | 2011-06-03 | US08479633B2 | 2013-07-09 | Ralf-Joachim Herrmann; Klaus Lawitzke; Heiner Schmees; Berthold Baumann |
| A mechanism or drive (100) for a weapon is described, which is characterized by only a limited acceleration of the breech (20) and a jerk- and recoil-free operation, thereby reducing the inertia force and the required power and increasing the repetition rate. The reduction of the required power also results in a reduction of braking power in the case of a quick stop. For this purpose, the rotational motion of preferably a motor (50) or the like is converted to a forward or reverse motion of the breech (20) using the Scotch yoke principle. In order to allow rest periods of the breech in the end limit positions, the rod (3) and the yoke (1) are arranged radially and displaceable relative to each other so that the yoke radius changes when the yoke (1) is rotated. A control cam (6) radially guides the rod (3). | ||||||
| 120 | Drive and quick stop for a weapon with preferably a linear breech or ammunition feed | US13154170 | 2011-06-06 | US08413565B2 | 2013-04-09 | Ralf-Joachim Herrmann; Klaus Lawitzke; Heiner Schmees; Berthold Baumann |
| A drive, having a quick stop mechanism, for a breech is axially adjustable relative to a weapon barrel, and includes a motor, two counter-rotating chains and sprocket wheels that guide the chains. Engaging cams and control cams are integrated into the chains. A slide mounted at the bottom of the breech is displaceable transversely to the direction of fire and has a groove that the engaging cams engage to entrain the breech in a forward or reverse motion relative to the direction of fire. The engaging cam transporting the breech forwards is displaced from the groove while the control cam displaces the slide simultaneously to its center position via its ascent ramp, thereby allowing breech rest periods in the forward limit position. Firing causes the slide to move from the center position to the left hand side whereas it remains in the center position when no shot is fired. | ||||||
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