子分类:
| 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 | 管螺纹接头 | CN200880126190.4 | 2008-12-02 | CN101939579A | 2011-01-05 | 后藤邦夫; 上村隆之; 高桥克; 松本圭司; 岩本理彦; 今井竜一; 斯特法妮·拉伊 |
| 一种管螺纹接头,其由分别具备具有螺纹部和无螺纹金属接触部的接触表面的销和套盒构成;在销的接触表面形成有以紫外线固化树脂作为主要成分的、优选为透明的固体防腐蚀覆膜;在套盒的接触表面设置有具有塑性或粘塑性型流变特性的固体润滑覆膜,其优选由含有热塑性聚合物、蜡、金属皂、腐蚀抑制剂、水不溶性液状树脂和固体润滑剂的组合物通过热熔法而形成。 | ||||||
| 2 | 管螺纹接头 | CN201410510815.4 | 2008-12-02 | CN104482334A | 2015-04-01 | 后藤邦夫; 上村隆之; 高桥克; 松本圭司; 岩本理彦; 今井竜一; 斯特法妮·拉伊 |
| 一种管螺纹接头,其由分别具备具有螺纹部和无螺纹金属接触部的接触表面的销和套盒构成;在销的接触表面仅形成有以紫外线固化树脂作为主要成分的、透明的固体防腐蚀覆膜作为最上层;在套盒的接触表面仅设置有具有塑性或粘塑性型流变特性的固体润滑覆膜作为最上层,其优选由含有热塑性聚合物、蜡、金属皂、腐蚀抑制剂、水不溶性液状树脂和固体润滑剂的组合物通过热熔法而形成。 | ||||||
| 3 | EPILAMIZATION METHOD OF AN ELEMENT OF A TIMEPIECE OR PIECE OF JEWELLERY | US15786841 | 2017-10-18 | US20180112144A1 | 2018-04-26 | Claire RANNOUX; Christophe LETONDOR; Nicolas FRANCOIS |
| The invention relates to a method for epilamization of at least one portion of a substrate surface comprising the steps of: a) preparing an epilame agent b) optionally, preparing the substrate surface c) placing the substrate and the epilame agent in a chamber at ambient pressure d) introducing CO2 into the hermetically sealed chamber at a pressure comprised between 25 bar and 74 bar and at a temperature comprised between 10° C. and 80° C. for a duration comprised between 1 minute and 30 minutes, e) reducing the pressure in the chamber, and f) removing the epilamized substrate from the chamber. | ||||||
| 4 | THREADED JOINT FOR PIPES | US12793867 | 2010-06-04 | US20100301600A1 | 2010-12-02 | Kunio Goto; Takayuki Kamimura; Masaru Takahashi; Keishi Matsumoto; Michihiko Iwamoto; Ryuichi Imai; Stephanie Rai |
| In a threaded joint for pipes constituted by a pin and a box, each having a contact surface comprising a threaded portion and an unthreaded metal contact portion, the contact surface of the pin has a solid corrosion protective, preferably transparent coating based on a UV-curable resin and the contact surface of the box has a solid lubricating coating having plastic or viscoplastic rheological behavior which is preferably formed by the hot melt technique from a composition comprising a thermoplastic polymer, a wax, a metal soap, a corrosion inhibitor, a water-insoluble liquid resin, and a solid lubricant. | ||||||
| 5 | Threaded joint for pipes | US12793867 | 2010-06-04 | US09321982B2 | 2016-04-26 | Kunio Goto; Takayuki Kamimura; Masaru Takahashi; Keishi Matsumoto; Michihiko Iwamoto; Ryuichi Imai; Stéphanie Raï |
| In a threaded joint for pipes constituted by a pin and a box, each having a contact surface comprising a threaded portion and an unthreaded metal contact portion, the contact surface of the pin has a solid corrosion protective, preferably transparent coating based on a UV-curable resin and the contact surface of the box has a solid lubricating coating having plastic or viscoplastic rheological behavior which is preferably formed by the hot melt technique from a composition comprising a thermoplastic polymer, a wax, a metal soap, a corrosion inhibitor, a water-insoluble liquid resin, and a solid lubricant. | ||||||
| 6 | Lubricant and functional fluid additive package, and lubricants and functional fluids containing same | US13848227 | 2013-03-21 | US09321980B2 | 2016-04-26 | William F. Ricks |
| The present invention is a lubricant or functional fluid additive for a polyolefin oil blend, comprising a mixture of: (a) an anti-wear component consisting essentially of 95% isopropylated triarylphosphate and 5% dodecyl phosphate, the dodecyl phosphate being only partially esterified, the anti-wear component present in the polyolefin oil blend in a range of from about 0.75 percent to about 2.00 percent by weight; (b) an antioxidant component selected from the group consisting of alkylated phenyl-alpha-naphthylamine, phenyl-alpha-naphthylamine and mixtures thereof, and present in the polyolefin oil blend in a range of from about 0.75 percent to about 2.00 percent by weight; (c) an anti-rust component comprising an alkylated succinic acid ester anti-rust agent, and present in the polyolefin oil blend in a range of from about 0.050 percent to about 0.125 percent by weight; and (d) a metal deactivator component comprising a tolytriazole derivative, and present in the polyolefin oil blend in a range of from about 0.050 percent to about 0.125 percent by weight. | ||||||
| 7 | 時計または宝飾品の要素のエピラム化方法 | JP2017204198 | 2017-10-23 | JP2018069233A | 2018-05-10 | クレール・ラヌー; クリストフ・ルトンドール; ニコラ・フランソワ |
| 【課題】従来の浸漬塗布エピラム化方法で得られるものと同等かそれ以上の高い品質のエピラム化が得られる、環境にやさしい新たなエピラム化方法を提供する。 【解決手段】本発明は、基板表面の少なくとも一部をエピラム化する方法であって、 a)エピラム剤を調製するステップと、 b)任意選択で、基板表面を調製するステップと、 c)基板とエピラム剤とを周囲圧力でチャンバーに入れるステップと、 d)25〜74barの圧力と10〜80℃の温度で、1〜30分間にわたって密閉チャンバーにCO2を導入するステップと、 e)チャンバー内を減圧するステップと、 f)エピラム化した基板をチャンバーから取り出すステップと を含むエピラム化方法に関する。 【選択図】なし |
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| 8 | PIPE SCREW JOINT | EP08857920 | 2008-12-02 | EP2216576A4 | 2016-03-09 | GOTO KUNIO; KAMIMURA TAKAYUKI; TAKAHASHI MASARU; MATSUMOTO KEISHI; IWAMOTO MICHIHIKO; IMAI RYUICHI; RAI STEPHANIE |
| In a threaded joint for pipes constituted by a pin and a box, each having a contact surface comprising a threaded portion and an unthreaded metal contact portion, the contact surface of the pin has a solid corrosion protective, preferably transparent coating based on a UV-curable resin and the contact surface of the box has a solid lubricating coating having plastic or viscoplastic rheological behavior which is preferably formed by the hot melt technique from a composition comprising a thermoplastic polymer, a wax, a metal soap, a corrosion inhibitor, a water-insoluble liquid resin, and a solid lubricant. | ||||||
| 9 | Tube threaded joints | JP2009544674 | 2008-12-02 | JP5124887B2 | 2013-01-23 | 邦夫 後藤; 隆之 上村; 克 高橋; 圭司 松本; 理彦 岩本; 竜一 今井; ライ、ステファニー |
| In a threaded joint for pipes constituted by a pin and a box, each having a contact surface comprising a threaded portion and an unthreaded metal contact portion, the contact surface of the pin has a solid corrosion protective, preferably transparent coating based on a UV-curable resin and the contact surface of the box has a solid lubricating coating having plastic or viscoplastic rheological behavior which is preferably formed by the hot melt technique from a composition comprising a thermoplastic polymer, a wax, a metal soap, a corrosion inhibitor, a water-insoluble liquid resin, and a solid lubricant. | ||||||
| 10 | 管ねじ継手 | JP2009544674 | 2008-12-02 | JPWO2009072486A1 | 2011-04-21 | 後藤 邦夫; 邦夫 後藤; 上村 隆之; 隆之 上村; 高橋 克; 克 高橋; 松本 圭司; 圭司 松本; 理彦 岩本; 竜一 今井; ライ、ステファニー |
| ねじ部とねじ無し金属接触部とを有する接触表面をそれぞれ備えたピンおよびボックスから構成される管ねじ継手において、ピンの接触表面には、紫外線硬化樹脂を主成分とする、好ましくは透明な固体防食被膜を形成し、ボックスの接触表面には、好ましくは熱可塑性ポリマー、ワックス、金属石鹸、腐食抑制剤、水不溶性液状樹脂および固体潤滑剤を含有する組成物からホットメルト法により形成された塑性もしくは粘塑性型レオロジー挙動を有する固体潤滑被膜を設ける。 | ||||||
| 11 | Lubricant and Functional Fluid Additive Package, and Lubricants and Functional Fluids Containing Same | US15137799 | 2016-04-25 | US20160237376A1 | 2016-08-18 | William F. Ricks |
| Provided is a lubricant or functional fluid composition of a lubricating viscosity and including: an oil, which may include one or more polyalphaolefins; an anti-wear component which may include alkylated triarylphosphate and partially esterified alkyl phosphate; an antioxidant component which may include alkylated phenyl-alpha-naphthylamine, phenyl-alpha-naphthylamine and mixtures thereof; an anti-rust component including an alkenyl succinic acid ester anti-rust agent; and a metal deactivator component including a tolytriazole derivative. Also included are additives and additive kits for combining with an oil to form the a lubricant or functional fluid composition. | ||||||
| 12 | THREADED JOINT FOR PIPES | US14929629 | 2015-11-02 | US20160230119A1 | 2016-08-11 | Kunio GOTO; Takayuki KAMIMURA; Masaru TAKAHASHI; Keishi MATSUMOTO; Michihiko IWAMOTO; Ryuichi IMAI; Stephanie RAI |
| In a threaded joint for pipes constituted by a pin and a box, each having a contact surface comprising a threaded portion and an unthreaded metal contact portion, the contact surface of the pin has a solid corrosion protective, preferably transparent coating based on a UV-curable resin and the contact surface of the box has a solid lubricating coating having plastic or viscoplastic rheological behavior which is preferably formed by the hot melt technique from a composition comprising a thermoplastic polymer, a wax, a metal soap, a corrosion inhibitor, a water-insoluble liquid resin, and a solid lubricant. | ||||||
| 13 | Lubricant and Functional Fluid Additive Package, and Lubricants and Functional Fluids Containing Same | US13848227 | 2013-03-21 | US20130217605A1 | 2013-08-22 | William F. Ricks |
| The present invention is a lubricant or functional fluid additive for a polyolefin oil blend, comprising a mixture of: (a) an anti-wear component consisting essentially of 95% isopropylated triarylphosphate and 5% dodecyl phosphate, the dodecyl phosphate being only partially esterified, the anti-wear component present in the polyolefin oil blend in a range of from about 0.75 percent to about 2.00 percent by weight; (b) an antioxidant component selected from the group consisting of alkylated phenyl-alpha-naphthylamine, phenyl-alpha-naphthylamine and mixtures thereof, and present in the polyolefin oil blend in a range of from about 0.75 percent to about 2.00 percent by weight; (c) an anti-rust component comprising an alkylated succinic acid ester anti-rust agent, and present in the polyolefin oil blend in a range of from about 0.050 percent to about 0.125 percent by weight; and (d) a metal deactivator component comprising a tolytriazole derivative, and present in the polyolefin oil blend in a range of from about 0.050 percent to about 0.125 percent by weight. | ||||||
| 14 | Lubricant and functional fluid additive package, and lubricants and functional fluids containing same | US12924984 | 2010-10-08 | US20120088704A1 | 2012-04-12 | William F. Ricks |
| The present invention is a lubricant or functional fluid additive for a polyolefin oil blend, comprising a mixture of: (a) an anti-wear component consisting essentially of 95% isopropylated triarylphosphate and 5% dodecyl phosphate, the dodecyl phosphate being only partially esterified, the anti-wear component present in the polyolefin oil blend in a range of from about 0.75 percent to about 2.00 percent by weight; (b) an antioxidant component selected from the group consisting of alkylated phenyl-alpha-naphthylamine, phenyl-alpha-naphthylamine and mixtures thereof, and present in the polyolefin oil blend in a range of from about 0.75 percent to about 2.00 percent by weight; (c) an anti-rust component comprising an alkylated succinic acid ester anti-rust agent, and present in the polyolefin oil blend in a range of from about 0.050 percent to about 0.125 percent by weight; and (d) a metal deactivator component comprising a tolytriazole derivative, and present in the polyolefin oil blend in a range of from about 0.050 percent to about 0.125 percent by weight. | ||||||
| 15 | PIPE SCREW JOINT | EP08857920.6 | 2008-12-02 | EP2216576B1 | 2017-09-20 | GOTO, Kunio; KAMIMURA, Takayuki; TAKAHASHI, Masaru; MATSUMOTO, Keishi; IWAMOTO, Michihiko; IMAI, Ryuichi; RAI, Stephanie |
| In a threaded joint for pipes constituted by a pin and a box, each having a contact surface comprising a threaded portion and an unthreaded metal contact portion, the contact surface of the pin has a solid corrosion protective, preferably transparent coating based on a UV-curable resin and the contact surface of the box has a solid lubricating coating having plastic or viscoplastic rheological behavior which is preferably formed by the hot melt technique from a composition comprising a thermoplastic polymer, a wax, a metal soap, a corrosion inhibitor, a water-insoluble liquid resin, and a solid lubricant. | ||||||
| 16 | PIPE SCREW JOINT | EP08857920.6 | 2008-12-02 | EP2216576A1 | 2010-08-11 | GOTO, Kunio; KAMIMURA, Takayuki; TAKAHASHI, Masaru; MATSUMOTO, Keishi; IWAMOTO, Michihiko; IMAI, Ryuichi; RAI, Stephanie |
In a threaded joint for pipes constituted by a pin and a box, each having a contact surface comprising a threaded portion and an unthreaded metal contact portion, the contact surface of the pin has a solid corrosion protective, preferably transparent coating based on a UV-curable resin and the contact surface of the box has a solid lubricating coating having plastic or viscoplastic rheological behavior which is preferably formed by the hot melt technique from a composition comprising a thermoplastic polymer, a wax, a metal soap, a corrosion inhibitor, a water-insoluble liquid resin, and a solid lubricant. |
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| 17 | 이단 히트펌프장치를 이용한 고효율 오일정화장치의 제어방법 | KR1020130147591 | 2013-11-29 | KR1020150062683A | 2015-06-08 | 박영선 |
| 본발명은이단히트펌프장치를이용한고효율오일정화장치의제어방법에관한것으로서, 더욱상세하게는폐열의응축열을회수하기위한열교환시스템과저온의규압에서오일회수를위한균압시스템및 유로변경시스템과캐스캐이드열교환기가적용한이단히트펌프시스템을포함하여구성되는특징이있다. | ||||||
| 18 | 오일 재생시스템 | KR1020080066571 | 2008-07-09 | KR1020100006366A | 2010-01-19 | 조영철 |
| PURPOSE: An oil recycling system is provided to prevent overload of a motor by moving oil to an oil storage tank through a circulating pipe. CONSTITUTION: An oil recycling system is composed as follows: A precipitation tank(20) precipitates particle impurities contained in oil. A first refining device(30) is composed of a first oil storage tank(31) and a first filter tank(32). A second refining device(40) is composed of a second oil storage tank(41) and a second filter tank(42). A storage tank(50) stores the refined oil of the second refining device. A filter layer of the first and the second filter tank divides the filter tanks into a main body and a cover, and inserted between the main body and the cover. | ||||||
| 19 | 진공펌프 오일의 재생 방법 및 재생 장치 | KR1020080086483 | 2008-09-02 | KR100923343B1 | 2009-10-22 | 최영일; 김범수 |
| PURPOSE: A regeneration method and a reproducer of the vacuum pump oil are provided, which can maintain viscosity and color required to vacuum pump regeneration oil. CONSTITUTION: A regeneration method of vacuum pump oil is as follows. The waste oil is collected(S200). The activated coal powder is prepared(S230). The collected waste oil and the activated coal powder are mixed(S240). The stirring temperature of the mixture of the waste oil and activated coal powder is increased to the fixed temperature. The mixture of the waste oil and activated coal powder is agitated for a certain time(S250). The temperature of a mixture is dropped to the fixed temperature(S260). The mixture of which the temperature is descended is filtered through the filter. | ||||||
| 20 | 폐윤활유 재생 시스템 및 그 방법 | KR1020070127810 | 2007-12-10 | KR1020090060856A | 2009-06-15 | 김평중; 김영호 |
| A waste lubricant recycling system and a waste lubricant recycling method using the same are provided to improve the water-removing ability by continuously maintaining a vacuum condition in the upper vacuum chamber for spraying lubricant flown in the vacuum chamber to separate water from the lubricant. A waste lubricant recycling system comprises: an oil suction motor(20) sucking waste lubricant through an oil inlet(10); a heater(40) receiving waste lubricant or lubricant from the oil suction motor or oil discharging/supplying motor to heat the waste lubricant or lubricant to a predetermined temperature; a vacuum chamber(50) including an upper vacuum chamber(51) and a lower vacuum chamber(52) to always constantly maintain the degree of vacuum of the upper vacuum chamber; an oil discharging/supplying motor(60) discharging lubricant stored in the second storage tank to an oil outlet(70) or supplying the lubricant to the heater; and a water condenser(80) converting vaporized water received from the upper vacuum chamber into water to discharge the water. The upper vacuum chamber separates lubricant and water from the heated waste lubricant by one or more spray nozzles(53). The lower vacuum chamber includes a first storage tank(52a) and a second storage tank(52b). | ||||||
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