| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | Explosive liner | JP2003576886 | 2003-03-06 | JP4064926B2 | 2008-03-19 | クリミングス、ガビン・マイケル; ジョンソン、デイビッド・コンウェイ; トーマス、ダニエル・ウェイン; ベネット、ジョフレイ; ホワイト、クリストファー |
| 2 | Explosive liner | JP2003576886 | 2003-03-06 | JP2005527765A | 2005-09-15 | クリミングス、ガビン・マイケル; ジョンソン、デイビッド・コンウェイ; トーマス、ダニエル・ウェイン; ベネット、ジョフレイ; ホワイト、クリストファー |
| 爆薬物質を武器に充填する方法が、ここに記述されている。 砲弾(2)は、爆薬物質(10)を充填された空洞(32)を含んでおり、爆薬物質(10)はこの空洞(32)内に配置された袋(36)に入れられる。 | ||||||
| 3 | Non-contact deviation measurement system | US14853470 | 2015-09-14 | US09835446B2 | 2017-12-05 | Scott E. Moore; Brett Olin |
| A non-contacting deviation measurement system projects a first line and a second line upon a surface of an object. The projections of the first line and second line are arranged to overlap at an intersection line oriented at a nominal location such that when the surface is oriented at the nominal location, the intersection line appears on the surface. As the location of the surface deviates from the nominal location, the first line and second line as projected upon the surface move away from one another. The distance between the lines may be used to calculate the deviation from the nominal location. The deviation calculated may be compared to a predetermined maximum allowable deviation. | ||||||
| 4 | DOWNHOLE TOOL EXPLOSIVE WITH THERMALLY CONDUCTIVE MATERIAL | US14969738 | 2015-12-15 | US20170167234A1 | 2017-06-15 | David Skyler |
| A capsule can include a shell that defines at least a portion of a chamber; and a mixture of an explosive and a thermally conductive material disposed in the chamber. A method can include forming a mixture of an explosive and a thermally conductive material; disposing at least a portion of the mixture in a chamber of a capsule; and at least partially sealing the chamber. | ||||||
| 5 | GUN POWDER AGITATOR DEVICE | US15298907 | 2016-10-20 | US20170115107A1 | 2017-04-27 | Joseph A. Masiello |
| A gun powder agitator device includes an elongated shaft having a top end, a bottom end opposite the top end, and a vertical axis extending through a length of the elongated shaft; means for agitating gun powder, said means being disposed about the elongated shaft; a grip coupled to the top end, wherein the grip is configured for causing the elongated shaft to rotate about the vertical axis; and a cap disposed between the top end and the bottom end, wherein the cap is configured for coupling to a top portion of a powder measure. The means for agitating gun powder may include a paddle member projecting outward from the elongated shaft, a helically-shaped auger disposed about the elongates shaft, or a wire disposed about the elongated shaft. | ||||||
| 6 | Non-contact deviation measurement system | US13185395 | 2011-07-18 | US09134164B2 | 2015-09-15 | Scott E. Moore; Brett Olin |
| A non-contacting deviation measurement system projects a first line and a second line upon a surface of an object. The projections of the first line and second line are arranged to overlap at an intersection line oriented at a nominal location such that when the surface is oriented at the nominal location, the intersection line appears on the surface. As the location of the surface deviates from the nominal location, the first line and second line as projected upon the surface move away from one another. The distance between the lines may be used to calculate the deviation from the nominal location. The deviation calculated may be compared to a predetermined maximum allowable deviation. | ||||||
| 7 | Automatic Apparatus for High Speed Precision Portioning of Granules By Weight | US14464405 | 2014-08-20 | US20150246769A1 | 2015-09-03 | Daniel David Pearlson |
| An automated granule portioning system includes at least one volumetric measuring chamber capable of adjusting the volume of the chamber automatically to a programmed target volume and arranged to receive a first portion of granules into the chamber to fill the target volume. A transport system automatically delivers the target volume of granules from the chamber to a weighing device. A granule metering device dispenses granules and, depending on a signal from the weighing device that the first portion of granules is below a programmed target weight, dispenses granules to the first portion to increase the weight to achieve a second portion having the target weight. | ||||||
| 8 | Non-Contact Deviation Measurement System | US13185395 | 2011-07-18 | US20110276308A1 | 2011-11-10 | Scott E. Moore; Brett Olin |
| A non-contacting deviation measurement system projects a first line and a second line upon a surface of an object. The projections of the first line and second line are arranged to overlap at an intersection line oriented at a nominal location such that when the surface is oriented at the nominal location, the intersection line appears on the surface. As the location of the surface deviates from the nominal location, the first line and second line as projected upon the surface move away from one another. The distance between the lines may be used to calculate the deviation from the nominal location. The deviation calculated may be compared to a predetermined maximum allowable deviation. | ||||||
| 9 | PRECISION AMMUNITION AND AUTOMATIC APPARATUS FOR HIGH SPEED PRECISION PORTIONING OF GRANULES BY WEIGHT | EP15759231.2 | 2015-03-03 | EP3114427A1 | 2017-01-11 | Pearlson, Daniel David |
| A method of supplying a rifle with cartridges includes providing classes within a group of cartridges. The classes are classified by specific and precisely graduated increments of propellant load contained in the cartridges, or by formulation of propellant, of each class relative to the cartridges of each other class. The user can test fire a rifle with multiple classes of the group and record the accuracy of the firing. A class of the group can be then chosen for a particular rifle based on accuracy of the rifle in the test firing. | ||||||
| 10 | PLASTIC CARTRIDGE CASE WITH BARRIER | EP15714690.3 | 2015-02-09 | EP3105531A1 | 2016-12-21 | KRALJ, Ivan |
| The object of the invention is a plastic cartridge case with a barrier, especially for a projectile of small arms, such as a cartridge bullet of a rifle or a gun, wherein a body (1) of the projectile case is made of plastics or a similar material that allows a simple and cheap fabrication of a cartridge case and also allows formation of a barrier (2) within the body (1) of the cartridge case, which barrier forms two chambers (A, B), the size of which has influence on pressure height in the cartridge case and consequently on bullet velocity. | ||||||
| 11 | GUN POWDER TRANSFER DEVICE | US15298792 | 2016-10-20 | US20170115106A1 | 2017-04-27 | Joseph A. Masiello |
| A gun powder transfer device includes a gun powder load chamber configured for receiving a quantity of gun powder from a powder measure; a gun powder exit aperture; and a gun powder release mechanism disposed between the gun powder load chamber and the gun powder exit aperture. The gun powder release mechanism is alterable between a closed state and an open state. In the closed state, the gun powder load chamber is isolated from the gun powder exit aperture such that none of the quantity of gun powder may be released from the gun powder load chamber. In the open state, the gun powder release mechanism provides a flow path for enabling the quantity of gun powder to be released from the load chamber and into communication with the gun powder exit aperture. | ||||||
| 12 | NON-CONTACT DEVIATION MEASUREMENT SYSTEM | US14853470 | 2015-09-14 | US20160202049A1 | 2016-07-14 | Scott E. MOORE; Brett OLIN |
| A non-contacting deviation measurement system projects a first line and a second line upon a surface of an object. The projections of the first line and second line are arranged to overlap at an intersection line oriented at a nominal location such that when the surface is oriented at the nominal location, the intersection line appears on the surface. As the location of the surface deviates from the nominal location, the first line and second line as projected upon the surface move away from one another. The distance between the lines may be used to calculate the deviation from the nominal location. The deviation calculated may be compared to a predetermined maximum allowable deviation. | ||||||
| 13 | Packaging machines suitable for shot bags and related methods | US13742848 | 2013-01-16 | US08833041B2 | 2014-09-16 | Dennis J. May; Matthew D. Lowder |
| Apparatus, systems, devices, methods and computer program products are configured to package products using automated movement of components that fill, then clip bags in a manner that is particularly suitable for packaging blasting powder and/or explosives in shot bags. | ||||||
| 14 | Material Feeder System and Method of Use | US13930209 | 2013-06-28 | US20130284520A1 | 2013-10-31 | Clay Carter; Janos Lakatos; Lane Nielson; Dan Saxton; Clay Slade |
| This invention relates to a material feeder system and method of use. The present invention relates particularly to a particulate feeder system that includes, among other features, one or more: feeder assemblies for advancing material that incorporate a spool having a channel disposed within its outer circumference for advancing material, the spool having a plurality of circumferentially spaced contours configured so as to not form transverse barriers within the channel; motors configured to connect to the feeder assemblies; and scales for weighing advanced material. The system also includes a computer in communication with the one or more motors and scales, and capable of performing operations to advance a predetermined material weight as well as various related operations. The invention also includes a method using the above. | ||||||
| 15 | Powder metering tube for powder measuring device | US12272134 | 2008-11-17 | US07631787B1 | 2009-12-15 | Richard J. Lee |
| A powder meter tube includes a metering tube and a metering assembly. The metering assembly is retained in the metering tube. The metering tube includes a nut cutout and a graduated slot. The metering assembly includes a threaded shaft, a micrometer nut, a piston and a bearing. A threaded hole is formed through the micrometer nut to threadably receive the threaded shaft. The bearing includes a base and two spring fingers that extend from the base. The piston is pressed on to one end of the threaded shaft and the bearing pressed on to an opposite end of the threaded shaft. The spring fingers allow the metering assembly to be inserted into the metering tube and the micrometer nut to protrude through the nut cutout. In use, the micrometer nut is rotated in either direction to increase or decrease the powder capacity in the metering tube. | ||||||
| 16 | Non-contact deviation measurement system | US11329215 | 2006-01-10 | US07383152B1 | 2008-06-03 | Scott E. Moore; Brett Olin |
| A non-contacting deviation measurement system projects a first line and a second line upon a surface of an object. The projections of the first line and second line are arranged to overlap at an intersection line oriented at a nominal location such that when the surface is oriented at the nominal location, the intersection line appears on the surface. As the location of the surface deviates from the nominal location, the first line and second line as projected upon the surface move away from one another. The distance between the lines may be used to calculate the deviation from the nominal location. The deviation calculated may be compared to a predetermined maximum allowable deviation. | ||||||
| 17 | Multi-station cartridge reloading press with controlled powder dispensing | US451128 | 1989-12-15 | US5024135A | 1991-06-18 | Walter W. Bender |
| A multi-station cartridge reloading press that includes a drive mechanism for a powder measure for reloading spent cartridge cases. A case detecting arm engages a drive rod to operate the powder measure only when a case is present in the powder loading station. A quick change collar mounted on the powder measure is utilized in the initial setup to adjust the operating position of the rod relative to the arm. The collar also establishes a reference position for the powder measure permitting the removal and installation of the powder measure without further adjustment. | ||||||
| 18 | Powder level sensing device | US266105 | 1988-11-02 | US4852451A | 1989-08-01 | Ronald O. Rogers |
| Disclosed is a device for sensing the powder level within a cartridge shell during the reloading process comprising a housing having a ramp in its interior, a sleeve slidably inserted within the housing having a radial hole initially positioned below the ramp in which resides a ball, and a plunger inserted within the sleeve having a groove for receipt of the ball. A probe is mounted on the lower end of the plunger which contacts the powder deposited in the cartridge shell, wherein the probe lifts the plunger so that the groove in the plunger may receive the ball upon the presence of a proper amount of powder so the sleeve can slide upward into the housing allowing the cartridge to enter the housing. Preferably, the powder level sensing device is adapted to be mounted onto existing reloading press frames, particularly the progressive reloading press frame. Also disclosed is a method for adjusting the powder level sensing device to accommodate various cartridge shells and desired powder levels. | ||||||
| 19 | Detonator loading press | US42373741 | 1941-12-20 | US2395046A | 1946-02-19 | GROVER ATWOOD H |
| 20 | Filling device for shells | US36927140 | 1940-12-09 | US2283230A | 1942-05-19 | ROGERS GEORGE D |
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