| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 086054000 | BULLET OR FIREARM TYPE, E.G., PELLET, MAKING | 10 |
| 20090183628 | DUAL SIDED AND DUAL PROCESS BANDOLIER - A method of making bullets on a progressive die wherein the progressive dies acts on a work piece having an elongated body with blanks at each end. The work piece is supported by a bandolier which is also formed in the progressive die. The progressive die forms each blank into a bullet, effectively doubling the output of the progressive die relative to a progressive die that acts upon a work piece that supports, or is, a single blank. | 07-23-2009 |
| 20120137861 | BANDOLIER WITH LATERALLY OFFSET AND SPACED WORK PIECE - A method of operating a progressive die wherein the progressive die acts on a work piece having an elongated body with a blank at one end. The work piece is supported by a bandolier which is also formed in the progressive die. The progressive die acts on each blank. | 06-07-2012 |
| 20120204707 | METHOD AND APPARATUS FOR MANUFACTURING A BULLET CHARGED WITH COMPRESSIBLE COMPOSITE EXPLOSIVES - The present invention relates to a method and apparatus for manufacturing a bullet charged with compressible composite explosives, process of the method comprising: 1) particle explosives is measured using constant quantity supplying device and is charged to a pallette mold; 2) the particle explosives is transferred to pellet-forming mold and then the particle explosives of the pellet-forming mold is molded under constant pressure to a pellet; 3) the pellet-forming mold is transported to the upper side of the bullet body fixing mold, thereby exiting the pellet of the pellet-forming mold, and the pellet which is inserted to the bullet of the bullet body fixing mold is pressed under constant pressure for charging; 4) the bullet with the pellet completely charged is transported to the bullet separating device; and 5) excess explosives is removed through cutting from said bullet. | 08-16-2012 |
| 086055000 | Jacketed or covered, including partially | 7 |
| 20080314233 | Process for the Production of a Jacketed Penetrator - The invention is directed to a process for the production of a jacketed penetrator having a tungsten, tungsten alloy or depleted uranium core and a metallic jacket, which process comprises placing the core inside the jacket and explosively welding the jacket on the core. | 12-25-2008 |
| 20100101400 | PROJECTILE, PROJECTILE CORE, AND METHOD OF MAKING - A projectile core is provided formed from a carrier and a colorant. The carrier and colorant are mixed into a core mixture, which is formed into a predetermined core shape. The core mixture is cured until substantially firm, such as by drying, heating or freezing. An outer layer may be formed adjacent the surface of the projectile core by heating. An outer coating may also be applied to the projectile core. A method of forming a projectile core comprises: (a) mixing a carrier and a colorant to form a core mixture; (b) forming the core mixture into a predetermined core shape; and, (c) curing the core mixture until a substantially firm projectile core is formed. | 04-29-2010 |
| 20110017050 | SLUG FOR INDUSTRIAL BALLISTIC TOOL - A frangible projectile for expelling from an industrial ballistic tool may be formed by a powder metallurgy process. A preferred embodiment of slug consists essentially of compacted and optionally sintered material and comprises up to 35% ferrotungsten in particulate form, up to 3% lubricant, and the balance iron in particulate form with inevitable impurities. | 01-27-2011 |
| 20110088537 | JACKETED BOAT-TAIL BULLET - A bullet includes at least a mid core and a rear core in tandem alignment. The hardness of the mid core is greater than the hardness of the rear core. A jacket envelops both the mid core and the rear core. The jacket has a generally cylindrical sidewall, which is in contact with the mid core, and a boat-tail, which is in contact with the rear core. The rear core is substantially contained within the boat-tail. The mid core and the rear core may be substantially lead-free. In one embodiment, the bullet includes a front core in tandem alignment with the rear core and in contact with a nose portion of the jacket. In another embodiment, the mid core extends from the nose portion of the bullet to the boat-tail. | 04-21-2011 |
| 20120312148 | DEVICE AND METHOD FOR AIRTIGHT COVERING OF A TRACER OR THE LIKE - A part of a cover is pressed radially into a circumferential groove contour in a projectile body by a preferably rigid die, which need only be moved axially and which is provided with a special outer contour. An outer contour should be matched to the groove contour or vice versa, so that the material of the cover that is formed radially by the forward-moving die can be pressed into the groove contour of the projectile body, and the cover no longer has any degrees of freedom after the forming, so that it is secured with respect to the tracer or the like. The cover is preferably a cover ring. | 12-13-2012 |
| 20140260926 | RELOADING KIT WITH LEAD FREE BULLET COMPOSITION - The present disclosure is directed to reloading kits containing a packaged high-density metal-filled polymer composition that is moldable and used in producing lead-free or “green” bullets for individual firearms. Such kits and compositions may be used by individuals in their reloading process. | 09-18-2014 |
| 20150330756 | ENAMEL COATED BULLET, METHOD OF MAKING AN ENAMEL COATED BULLET - A method for manufacturing an enamel-coated bullet is described. The method starts with casting a bullet from a metal material and quenching the cast bullet. After the bullet cools, applying a lubricant to the bullet and sizing the bullet to the appropriate caliber and rinsing the bullets in a solvent. Thereafter, applying an enamel coating to the bullets. The coating uses about 1 part by volume lacquer thinner, about 1.5 parts by volume hardener, and about 2.5 parts by volume epoxy paint. The process continues by contacting the bullets with a moving fluid for a sufficient time that they become dry and heating the bullets in an oven at a temperature of between 150 and 250° F. for a time between 20 and 45 minutes. Finally, the process involves applying a lubricant to the coated bullet and resizing the bullet to the appropriate caliber. | 11-19-2015 |
