| 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 | 具有摩擦防止功能的装置及制造其的方法 | CN201380026252.5 | 2013-03-18 | CN104321549A | 2015-01-28 | 赵胜来 |
| 具有摩擦防止功能的装置和制造其的方法。所述装置包括:第一物体;与第一物体间隔开并且面对第一物体的第二物体;以及配备在第一和第二物体之一的表面上的多个带电纳米颗粒,其中电势差被形成在第一和第二物体之间。纳米颗粒带正电并且附着于第一物体和第二物体中具有更低电势的一个上。纳米颗粒带负电并且附着于第一物体和第二物体中具有更高电势的一个上。 | ||||||
| 2 | JPS6231274B2 - | JP13711881 | 1981-09-02 | JPS6231274B2 | 1987-07-07 | PEETERU MANHARUTO; BURUNO RUTSUPEN |
| 3 | Lubricator for lock pin of closer in automatic fire arm | JP13711881 | 1981-09-02 | JPS5777900A | 1982-05-15 | PEETERU MANHARUTO; BURUNO RUTSUPEN |
| 4 | Mechanisches Initiiersystem für hülsenlose Munition | EP06001925.4 | 2006-01-31 | EP1688694A1 | 2006-08-09 | Könicke, Helmut |
Es wird ein mechanisches Initiiersystem (10) für hülsenlose Munition, mit einem Waffen-Stoßboden (16) und einem an den Waffen-Stoßboden (16) angrenzenden Pulver-Querschieber (14), beschrieben, wobei in einem Durchgangsloch (26) des Waffen-Stoßbodens (16) ein Schlagbolzen (28) axial verstellbar angeordnet ist. Im Pulver-Querschieber (14) ist ein durch den Schlagbolzen (28) initiierbarer Pulverkörper (12) mit einem Zündmittel (52) angeordnet. Um mit einfachen Mitteln eine zuverlässige Abdichtung zwischen dem Schlagbolzen (28) und der Innenwandung des Durchgangsloches (26) zu erzielen, ist der Waffen-Stoßboden (16) mit einem zum Durchgangsloch (26) hin offenen Fettreservoir (32) und der Schlagbolzen (28) umlaufend mit mindestens einer Fettrille (36) ausgebildet.
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| 5 | NODULAR NICKEL BORON COATING | EP03796527.4 | 2003-12-02 | EP1601924A2 | 2005-12-07 | MCCOMAS, Edward |
| The invention is directed to a nodular nickel boron coating having lubricating properties. Nodular and columnar boron coatings made by the above methods disclosed in the above patents have a low coefficient of friction. The above process results in a columnar structure with nodules in the surface layer. Nodules can be produced in other nickel coatings by blasting the surface with hard particles to form the nodules. Using blasting to form the nodules produces an inferior coating in contrast to the electroless nickel boron coatings having a columnar structure. | ||||||
| 6 | APPARATUS HAVING FRICTION PREVENTING FUNCTION, AND METHOD FOR MANUFACTURING AND DRIVING SAME | EP13764037.1 | 2013-03-18 | EP2829751A1 | 2015-01-28 | CHO, Sungnae |
An apparatus with a friction preventing function and a method of manufacturing the same. The apparatus includes: a first object; a second object spaced apart from the first object and facing the first object; and a plurality of charged nanoparticles provided on a surface of one of the first and second objects, wherein a potential difference is formed between the first and second objects. The nanoparticles are positively charged and adhere to one having a lower potential of the first and second objects. The nanoparticles are negatively charged and adhere to one having a higher potential of the first and second objects. |
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| 7 | NODULAR NICKEL BORON COATING | EP03796527 | 2003-12-02 | EP1601924A4 | 2007-10-10 | MCCOMAS EDWARD |
| The invention is directed to a nodular nickel boron coating having lubricating properties. Nodular and columnar boron coatings made by the above methods disclosed in the above patents have a low coefficient of friction. The above process results in a columnar structure with nodules in the surface layer. Nodules can be produced in other nickel coatings by blasting the surface with hard particles to form the nodules. Using blasting to form the nodules produces an inferior coating in contrast to the electroless nickel boron coatings having a columnar structure. | ||||||
| 8 | Mechanisches Initiiersystem für hülsenlose Munition | EP06001925.4 | 2006-01-31 | EP1688694B1 | 2007-08-08 | Könicke, Helmut |
| 9 | APPARATUS HAVING FRICTION PREVENTING FUNCTION, AND METHOD FOR MANUFACTURING AND DRIVING SAME | EP13764037.1 | 2013-03-18 | EP2829751B1 | 2018-05-16 | CHO, Sungnae |
| An apparatus with a friction preventing function and a method of manufacturing the same. The apparatus includes: a first object; a second object spaced apart from the first object and facing the first object; and a plurality of charged nanoparticles provided on a surface of one of the first and second objects, wherein a potential difference is formed between the first and second objects. The nanoparticles are positively charged and adhere to one having a lower potential of the first and second objects. The nanoparticles are negatively charged and adhere to one having a higher potential of the first and second objects. | ||||||
| 10 | Foam swabs for cleaning firearms | EP13151630.4 | 2013-01-17 | EP2677268B1 | 2017-05-24 | Crawford, Brian David |
| 11 | APPARATUS HAVING FRICTION PREVENTING FUNCTION, AND METHOD FOR MANUFACTURING AND DRIVING SAME | EP13764037 | 2013-03-18 | EP2829751A4 | 2015-12-02 | CHO SUNGNAE |
| An apparatus with a friction preventing function and a method of manufacturing the same. The apparatus includes: a first object; a second object spaced apart from the first object and facing the first object; and a plurality of charged nanoparticles provided on a surface of one of the first and second objects, wherein a potential difference is formed between the first and second objects. The nanoparticles are positively charged and adhere to one having a lower potential of the first and second objects. The nanoparticles are negatively charged and adhere to one having a higher potential of the first and second objects. | ||||||
| 12 | Foam swabs for cleaning firearms | EP13151630.4 | 2013-01-17 | EP2677268A1 | 2013-12-25 | Crawford, Brian David |
A foam swab (100) for cleaning and lubricating firearms (e.g., 118), comprising: a molded plastic shank (102) having a threaded free end (104) and a series of parallel rings (110a, 110b, 110c, 110d) spaced between parallel spacers (110a, 110b, 110c, 110d); and a foam cover (108), preferably made of polyurethane, thermally bonded to the spacers (110a, 110b, 110c, 110d). To clean a firearm (118), solvent or lubricant is applied to the foam cover (108). Then the threaded end (104) can be screwed into a gun cleaning rod (114) and the foam swab (100) drawn through a firearm bore.
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| 13 | Use of high temperature oils to enhance mechanical device operation/reliability | US14713472 | 2015-05-15 | US10066180B1 | 2018-09-04 | Edward A. Sugg; David W. Sugg |
| An oil for removing or preventing fouling on a mechanical component includes at least one vegetable oil having a flash point of 490° F. or above. A method of removing or preventing fouling on a mechanical component of a device, includes applying a vegetable oil or composition of vegetable oils on the mechanical component of the device. The vegetable oil or composition of vegetable oils has a flash point of 490° F. or above and operation of the device deposits carbon or other types of fouling on the mechanical component. | ||||||
| 14 | Gun oil composition | US15250663 | 2016-08-29 | US09637705B1 | 2017-05-02 | Leonard A. Waldron |
| A gun oil composition adapted specifically for the needs and requirements of modern firearms. The gun oil composition improves lubricity and gun performance under normal and extreme heat and pressure, minimizes and largely prevents the build-up of carbon and debris fouling on metal and non-metal components of the firearm, and substantially reduces cleaning time, while providing increased protection against environmental components such as dust, dirt and rust. The gun oil composition can include a base oil having at least a high viscosity index, an oil having at least a medium viscosity index with a detergent additive, a low viscosity penetrating oil, and a sulfurized ester. | ||||||
| 15 | Foam swabs for cleaning firearms | US14631237 | 2015-02-25 | USRE46065E1 | 2016-07-12 | Brian David Crawford |
| Applicant has disclosed a foam swab for cleaning and lubricating firearms. In the preferred embodiment, the invention comprises: a molded plastic shank having a threaded free end and a series of parallel rings spaced between parallel spacers; and a foam cover, preferably made of polyurethane, thermally bonded to the spacers. To clean a firearm, solvent or lubricant is applied to the foam cover. Then the threaded end can be screwed into a gun cleaning rod and the foam swab drawn through a firearm bore. | ||||||
| 16 | LUBRICATION APPARATUS FOR WEAPONS | US14951054 | 2015-11-24 | US20160146562A1 | 2016-05-26 | Dennis E. Roessler |
| A weapon lubrication apparatus has a body with an oil reservoir therein. A bent outlet tube has a first end and a second end, with the first coupled to the body at an oil outlet. The outlet tube and the oil outlet have an oil passage therein. A first one way valve is located in the oil passage. The first one way valve allows oil to leave the oil reservoir and enter the outlet tube. The outlet tube is rotatable relative to the body. A nozzle is rotatably coupled to the outlet tube second end and has an opening in a side wall. A plunger is located in the oil reservoir an is movable between in and out positions. The plunger has a handle located exteriorly of the body. The plunger is biased in the out position. A clamp is coupled to the body and is structured to mount the body to the weapon. | ||||||
| 17 | LUBRICANT COMPOSITION, METHOD OF PREPARING THE SAME, AND FIREARM CLEANER INCLUDING THE SAME | US14949944 | 2015-11-24 | US20160075962A1 | 2016-03-17 | Mark Simonetti; James A. Randel |
| A lubricant composition including: tungsten disulfide having a particle size of 4 to 160 nm; an alkali metal borate; a borate ester; and a base oil. | ||||||
| 18 | Lubricant composition, method of preparing the same, and firearm cleaner including the same | US13778586 | 2013-02-27 | US09222050B1 | 2015-12-29 | Mark Simonetti; James A. Randel |
| A lubricant composition including: tungsten disulfide having a particle size of 4 to 160 nm; an alkali metal borate; a borate ester; and a base oil. | ||||||
| 19 | GUN OIL COMPOSITION | US14197024 | 2014-03-04 | US20150252284A1 | 2015-09-10 | Leonord A. Waldron |
| A gun oil composition adapted specifically for the needs and requirements of modern firearms. The gun oil composition improves lubricity and gun performance under normal and extreme heat and pressure, minimizes and largely prevents the build-up of carbon and debris fouling on metal and non-metal components of the firearm, and substantially reduces cleaning time, while providing increased protection against environmental components such as dust, dirt and rust. The gun oil composition can include a high viscosity base oil, a medium viscosity oil with detergent additive, and a low viscosity penetrating oil. | ||||||
| 20 | Methods of forming boron nitride | US12060711 | 2008-04-01 | US08968827B2 | 2015-03-03 | Tammy L. Trowbridge; Alan K. Wertsching; Patrick J. Pinhero; David L. Crandall |
| A method of forming a boron nitride. The method comprises contacting a metal article with a monomeric boron-nitrogen compound and converting the monomeric boron-nitrogen compound to a boron nitride. The boron nitride is formed on the same or a different metal article. The monomeric boron-nitrogen compound is borazine, cycloborazane, trimethylcycloborazane, polyborazylene, B-vinylborazine, poly(B-vinylborazine), or combinations thereof. The monomeric boron-nitrogen compound is polymerized to form the boron nitride by exposure to a temperature greater than approximately 100° C. The boron nitride is amorphous boron nitride, hexagonal boron nitride, rhombohedral boron nitride, turbostratic boron nitride, wurzite boron nitride, combinations thereof, or boron nitride and carbon. A method of conditioning a ballistic weapon and a metal article coated with the monomeric boron-nitrogen compound are also disclosed. | ||||||
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