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 | 含有起爆设备的炸药 | CN201210338684.7 | 2012-06-18 | CN102863300B | 2016-02-10 | J·汉滕 |
本发明涉及含有起爆设备的炸药,披露了用于制造该炸药(W)的分配和包装设备以及方法。该分配和包装设备包括:用于炸药的输送器(10),输送器具有泵,用于产生体积流;连接至输送器的填充管(20、120),被设立为使得提供管状包装套筒(V)的储备供应部。同时,管状包装套筒(V)能与通过填充管排放的炸药一起从填充管拉离。设立位于填充管下游的关闭设备,以便在填充过程中把已填充的包装套筒(V)局部地束紧成软管辫子状部(Z),并通过至少一个关闭装置(C1、C2)围绕软管辫子状部(Z)进行关闭。填充管还具有插入装置(40、140),被设立为把起爆设备(S)引入到炸药(W)里。 | ||||||
2 | 含有起爆设备的炸药 | CN201210338684.7 | 2012-06-18 | CN102863300A | 2013-01-09 | J·汉滕 |
本发明涉及含有起爆设备的炸药,披露了用于制造该炸药(W)的分配和包装设备以及方法。该分配和包装设备包括:用于炸药的输送器(10),输送器具有泵,用于产生体积流;连接至输送器的填充管(20、120),被设立为使得提供管状包装套筒(V)的储备供应部。同时,管状包装套筒(V)能与通过填充管排放的炸药一起从填充管拉离。设立位于填充管下游的关闭设备,以便在填充过程中把已填充的包装套筒(V)局部地束紧成软管辫子状部(Z),并通过至少一个关闭装置(C1、C2)围绕软管辫子状部(Z)进行关闭。填充管还具有插入装置(40、140),被设立为把起爆设备(S)引入到炸药(W)里。 | ||||||
3 | Vorrichtung und Verfahren zum Herstellen von Zündmittel enthaltenden Sprengmitteln | EP11004935.0 | 2011-06-16 | EP2535277B1 | 2014-12-24 | Hanten, Jürgen |
4 | EXPLOSIVES CONTAINING DETONATING DEVICES | US13524764 | 2012-06-15 | US20120318122A1 | 2012-12-20 | Jurgen Hanten |
The invention concerns a portioning and packing device as well as a process for the production of explosives containing detonating devices. The portioning and packing device contains a conveyor for the explosive, which exhibits a pump for the generation of a volume flow; a filling pipe connected to the conveyor, which is set up to provide a reserve supply of a tubular packing sleeve. At the same time, the tubular packing sleeve can be pulled off the filling pipe with the explosive ejected through the filling pipe. A closing device located downstream of the filling pipe is set up to constrict the filled packing sleeve locally to a hose plait during the filling process and close around the hose plait with at least one means of closure. The filling pipe further exhibits a means of introduction, which is set up to introduce a detonating device into the explosive. | ||||||
5 | High explosive fills for very small volume applications | US12504988 | 2009-07-17 | US07976654B1 | 2011-07-12 | Daniel Stec, III; Gartung Cheng; Brian E. Fuchs; Gerard Gillen; Neha Mehta |
High explosives suitable for filling very small volume loading holes in micro-electric initiators for micro-electro-mechanical mechanisms, used as safe and arm devices, are prepared from slurries of crystalline energetic materials including organic liquid and applied using various methods. These methods include swipe loading, pressure loading and syringe loading. The organic liquid serves as a volatile mobile phase in the slurry so as to partially dissolve the energetic material so that, upon evaporation of the mobile phase, the energetic material precipitates and adheres to the loading hole. | ||||||
6 | Pressing device | US49854743 | 1943-08-13 | US2395898A | 1946-03-05 | MOHR JOHN C |
7 | Apparatus for filling explosive material into shells or other receptacles | US18718117 | 1917-08-20 | US1337490A | 1920-04-20 | WILLIAM SUMNER |
8 | 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. | ||||||
9 | Vorrichtung und Verfahren zum Herstellen von Zündmittel enthaltenden Sprengmitteln | EP11004935.0 | 2011-06-16 | EP2535277A1 | 2012-12-19 | Hanten, Jürgen |
Die Erfindung betrifft eine Portionier- und Verpackungsvorrichtung sowie ein Verfahren zur Herstellung von Zündmitteln (S) enthaltenden Sprengmitteln (W). Die Portionier- und Verpackungsvorrichtung enthält eine Fördereinrichtung (10) für den Sprengstoff, welche eine Pumpe zum Erzeugen eines Volumenstromes aufweist; ein an die Fördereinrichtung (10) angeschlossenes Füllrohr (20, 120), welches eingerichtet ist, einen Vorrat einer schlauchförmigen Verpackungshülle (V) bereitzustellen. Dabei ist die schlauchförmigen Verpackungshülle (V) mit dem durch das Füllrohr (20, 120) ausgestoßenen Sprengstoff von dem Füllrohr (20, 120) abziehbar. Eine stromabwärts des Füllrohres (20, 120) angeordneten Verschließeinrichtung ist eingerichtet, die gefüllte Verpackungshülle (V) während des Füllvorgangs lokal zu einem Schlauchzopf (Z) einzuschnüren und mit wenigstens einem Verschlussmittel (C1, C2) um den Schlauchzopf (Z) zu verschließen. Das Füllrohr (20, 120) weist weiterhin ein Einführmittel (40, 140) auf, das eingerichtet ist, ein Zündmittel (S) in das Sprengmittel (W) einzubringen. |
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10 | Method of improving the accuracy of rifle ammunition | US14464339 | 2014-08-20 | US10012484B2 | 2018-07-03 | Daniel David Pearlson |
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. | ||||||
11 | AUTOMATIC APPARATUS FOR HIGH SPEED PRECISION PORTIONING OF GRANULES BY WEIGHT | US15463008 | 2017-03-20 | US20170217693A1 | 2017-08-03 | 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. | ||||||
12 | Automatic apparatus for high speed precision portioning of granules by weight | US14464405 | 2014-08-20 | US09599442B2 | 2017-03-21 | 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. | ||||||
13 | Method of Improving the Accuracy of Rifle Ammunition | US14464339 | 2014-08-20 | US20160258723A1 | 2016-09-08 | Daniel David Pearlson |
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. | ||||||
14 | Methods for making and using high explosive fills for MEMS devices | US12647707 | 2009-12-28 | US07967929B1 | 2011-06-28 | Daniel Stec, III; Amy Wilson; Brian E. Fuchs; Neha Mehta; Paula Cook |
Secondary crystalline high explosives are disclosed which are suitable for filling very small volume loading holes in micro-electric initiators for micro-electro-mechanical mechanisms (MEMS), used as safe and arm (S&A) devices. The explosives are prepared by adding the such a high explosive to an aqueous first volatile mobile phase, adding such a high explosive to a non-aqueous second volatile mobile phase, mixing the first and second volatile mobile phases and then loading the combined phases into the MEMS device and allowing the aqueous and non-aqueous solvents to evaporate depositing the high explosive. Enhanced adhesion between the deposited high explosive and enhanced rheological properties can be obtained by adding a polymeric binder to both mobile phases. | ||||||
15 | METHODS FOR MAKING AND USING HIGH EXPLOSIVE FILLS FOR VERY SMALL VOLUME APPLICATIONS | US11307626 | 2006-02-15 | US20100024933A1 | 2010-02-04 | Daniel Stec, III; Gartung Cheng; Brian E. Fuchs; Gerard Gillen; Neha Mehta |
High explosives suitable for filling very small volume loading holes in micro-electric initiators for micro-electro-mechanical mechanisms, used as safe and arm devices, are prepared from slurries of crystalline energetic materials including organic liquid and applied using various methods. These methods include swipe loading, pressure loading and syringe loading. The organic liquid serves as a volatile mobile phase in the slurry so as to partially dissolve the energetic material so that, upon evaporation of the mobile phase, the energetic material precipitates and adheres to the loading hole. | ||||||
16 | Measuring device | US48440743 | 1943-04-24 | US2390691A | 1945-12-11 | CHRISTIE LEWIS D |
17 | Method and apparatus for packing cartridges | US22090927 | 1927-09-21 | US1681181A | 1928-08-21 | FULTON NORMAN D |
18 | 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. | ||||||
19 | High explosive fills for MEMS devices | US12980571 | 2010-12-29 | US08636861B1 | 2014-01-28 | Daniel Stec, III; Amy Wilson; Brian E. Fuchs; Neha Mehta; Paula Cook |
Secondary crystalline high explosives are disclosed which are suitable for filling very small volume loading holes in micro-electric initiators for micro-electro-mechanical mechanisms (MEMS), used as safe and arm (S&A) devices. The explosives are prepared by adding the such a high explosive to an aqueous first volatile mobile phase, adding such a high explosive to a non-aqueous second volatile mobile phase, mixing the first and second volatile mobile phases and then loading the combined phases into the MEMS device and allowing the aqueous and non-aqueous solvents to evaporate depositing the high explosive. Enhanced adhesion between the deposited high explosive and enhanced rheological properties can be obtained by adding a polymeric binder to both mobile phases. | ||||||
20 | Methods for making and using high explosive fills for very small volume applications | US10248904 | 2003-02-28 | US07052562B1 | 2006-05-30 | Daniel Stec, III; Gartung Cheng; Brian E. Fuchs; Gerard Gillen; Neha Mehta |
High explosives suitable for filling very small volume loading holes in micro-electric initiators for micro-electro-mechanical mechanisms, used as safe and arm devices, are prepared from slurries of crystalline energetic materials and applied using various methods. These methods include swipe loading, pressure loading and syringe loading. A volatile mobile phase may be added to the slurry so as to partially dissolve the energetic material so that, upon evaporation of the mobile phase, the energetic material precipitates and adheres to the loading hole. |