| 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 | 灰尘气体喷射阀 | CN201580052165.6 | 2015-08-21 | CN106714976A | 2017-05-24 | V·S·卡丁; T·A·阿利耶夫; A·K·阿利耶夫; A·V·莫图久科 |
| 本发明涉及从工作范围移除由加工工具在正在加工的材料上的动作而产生的灰尘气体混合物。本灰尘气体阀旨在被安装在用于加工材料的装置中。该灰尘气体阀包括:壳体,适于容纳加工工具并进而连接到用于吸入所产生的灰尘气体混合物的系统;以及用于将灰尘气体混合物引导到壳体中的装置。根据本发明,所述装置包括:用于将压缩空气有方向地供应到工作范围的单元;以及灰尘气体混合物导流元件,具有安置在工作范围周围且为了灰尘气体混合物流而呈流线型的下表面。 | ||||||
| 2 | 一种金星搪瓷的制备方法 | CN201610919780.9 | 2016-10-21 | CN106567078A | 2017-04-19 | 郭宏伟; 宋建波; 白胜利; 罗亚丽; 宁峰鸣; 吴明; 杨晨; 高档妮 |
| 一种金星搪瓷的制备方法,利用钢板高温快速搪瓷的方法,无需还原条件即可制备金星搪瓷;所制备的金星搪瓷结合强度高,表面平滑,在光照下搪瓷表面金光闪烁,增加了搪瓷的视觉效果和装饰效果;本发明方法制备的搪瓷色彩多样、富有真实和自然的着色及视觉效果,制备工艺简单,且操作方便,能耗低,节约能源,适于大批量工业化生产,装饰效果好,产品附加值高。 | ||||||
| 3 | 通过感应加热快速经济地制造具有玻璃内衬的金属体的方法和装置 | CN201480041048.5 | 2014-07-10 | CN105392923A | 2016-03-09 | 格尔丹柏·帕特尔 |
| 在受控条件下用感应加热器加热涂布有玻璃或陶瓷烧结料或者聚合材料粉末的金属体。通过感应加热,只有金属被选择性地加热。当金属达到所需温度时,涂层熔化。该工艺明显较快、较廉价且方便。 | ||||||
| 4 | Conductive Paste and Method for Forming Terminal Electrodes of Multilayer Ceramic Component | US15765147 | 2016-09-26 | US20180290917A1 | 2018-10-11 | Kousuke NISHIMURA; Naoto SHINDO; Nobuo NISHIOKA |
| A conductive paste including a conductive powder, a glass frit, and an organic vehicle, wherein the conductive powder includes copper and/or nickel as a main component(s), and the glass frit is substantially free of Pb, Cd, and Bi, comprises 40 to 65% by mass of BaO, 15 to 23% by mass of B2O3, 2 to 12% by mass of Al2O3, 4 to 8% by mass of SiO2, 0 to 5% by mass of ZnO, 0.5 to 7% by mass of TiO2, 3 to 7.5% by mass of CaO, and comprises any one or more of MnO2, CuO, and CoO in the ranges of 0 to 7% by mass of MnO2, 0 to 16% by mass of CuO, and 0 to 5% by mass of CoO, in terms of oxide. | ||||||
| 5 | FAST AND ECONOMICAL METHODS ANDAPPARATUSFOR MANUFACTURING GLASS LINED METAL OBJECTS BY INDUCTIONHEATING | US14908104 | 2014-07-10 | US20160194764A1 | 2016-07-07 | Gordhanbhai Patel |
| A metal object coated with a fit of glass or ceramic or a powder of a polymeric material is heated with an induction heater under controlled conditions. Only metal is selectively heated with the induction heating. When metal reaches a desired temperature, the coating melts. This process is significantly faster, less expensive and convenient. | ||||||
| 6 | Apparatus for manufacturing porcelain enamel and glass | US2241235 | 1935-05-20 | US2169611A | 1939-08-15 | MCINTYRE GLENN H; SYLVESTER GEORGE R |
| 7 | DUST AND GAS EJECTION VALVE | US15514674 | 2015-08-21 | US20170232461A1 | 2017-08-17 | Valentin Sergeevich Chadin; Timur Alekperovich Aliev; Alekper Kamalovich Aliev; Artem Vasilievich Motuzyuk |
| The invention relates to removal from the working area of a dust and gas mixture produced by action of a processing tool on the material being processed. The present dust and gas valve is intended to be mounted in an apparatus for processing materials. The dust and gas valve comprises a casing adapted to accommodate a processing tool and to be connected to a system for aspirating the produced dust and gas mixture, and means for directing the dust and gas mixture into the casing. According to the invention said means comprises: a unit for directional supply of compressed air to the working area, and a dust and gas mixture flow guiding element having a lower surface disposed around the working area and streamlined for the dust and gas mixture flow. | ||||||
| 8 | Facile chemically-resistant coatings | US14712924 | 2015-05-15 | US09675999B1 | 2017-06-13 | Robert Davis Lakeman; Thomas R. Roberts |
| The present invention provides methods for preparing or repairing a chemically-resistant coating such as a porcelain enamel on a metal substrate. One such method involves forming a ground coat on the substrate, cooling the substrate to substantially near ambient temperature, optionally by applying a heat source to cool the substrate slowly, followed by flame-spray depositing a coating material onto the softened ground coat. Then, the substrate is allowed to cool slowly so the chemically-resistant coating can form with less stress. Optionally, an induction coil is used to heat the substrate, both to form the ground coat and to slow the cooling of the substrate. Such methods allow for easier and faster repairs, and even in situ repairs of articles such as chemical reactor vessels, covers, baffles, thermowells, agitators, agitator shafts, pipes, heat exchangers, and storage tanks, as well as white goods such as ovens, stoves, washing machines, driers, in addition to bathtubs, sinks, and shower stalls, in addition to steel girders and steel reinforcing bars. Articles having a chemically-resistant coating also form a part of the invention. | ||||||
| 9 | Production of composite glass powder of any desired particle size from a particulate multicomponent mixture | US969880 | 1992-11-02 | US5286269A | 1994-02-15 | Hartmut Paschke; Hermann Ditz |
| For the production of a composite glass powder of any particle size from a fine particle size, multi-component mixture of a low-melting glass powder, fillers, and additives, the fine particle size, multicomponent mixture is sintered for 10-60 minutes at a temperature at which the base glass has a viscosity of 10.sup.5 to 10.sup.6.5 dPas, and the resultant sintered cake is ground to a powder of the desired particle size. If the multicomponent mixture comprises components decomposable with the release of gas, e.g., copper carbonate, the latter are decomposed prior to sintering at a temperature below the sintering temperature. The resultant composite glass powder containing copper oxide can be used for coating varistors. | ||||||
| 10 | Means for applying vitreous enamel | US65602133 | 1933-02-09 | US2085278A | 1937-06-29 | STRUBLER GORDON L |
| 11 | 導電性ペースト及び積層セラミック部品の端子電極形成方法 | JP2017543242 | 2016-09-26 | JP6354970B2 | 2018-07-11 | 西村 浩輔; 新藤 直人; 西岡 信夫 |
| 12 | Production of composite glass powder | JP31426492 | 1992-10-30 | JPH05301739A | 1993-11-16 | HARUTOMUUTO PASHIYUKE; HERUMAN DEITSUTSU |
| PURPOSE: To produce a composite glass powder of any particle size from a fine particulate multicomponent mixture composed of a low-melting glass powder, fillers and additives without damaging satisfactory physical characteristics and electric characteristics. CONSTITUTION: The fine particulate multicomponent mixture is sintered for 10 to 60 minutes at such a temperature that the base glass has a viscosity of 10 to 10 6.5 dPas, and the resultant sintered cake is ground to a powder of the desired particle size. When the multicomponent mixture contains components decomposable with the release of gas, these components are decomposed prior to sintering at a temperature below the sintering temperature. The method for producing the composite glass powder containing copper oxide is especially suitable for coating varistors. COPYRIGHT: (C)1993,JPO | ||||||
| 13 | 誘導加熱によってグラスライニング金属体を製造するための高速で経済的な方法および装置 | JP2016526991 | 2014-07-10 | JP2016527399A | 2016-09-08 | パテル,ゴルダンバイ |
| ガラスもしくはセラミックのフリット、または、ポリマー材料の粉末を用いて塗装された金属体を、制御された条件下で、誘導加熱器を用いて加熱する。金属のみを、誘導加熱によって選択的に加熱する。金属が所望の温度に達すると、塗装が溶融する。この方法は、はるかにより高速で、より安価で、便利である。【選択図】図3 | ||||||
| 14 | Enameling process | JP27052784 | 1984-12-21 | JPS60155686A | 1985-08-15 | JIYON RUISU KURANDO MAMUFUOODO; ROJIYAA FURANKU PURAISU |
| 15 | SYSTEM AND PROCESS FOR PURIFICATION OF ASTATINE-211 FROM TARGET MATERIALS | US15915283 | 2018-03-08 | US20180308599A1 | 2018-10-25 | Matthew J. O'Hara |
| A new column-based purification system and approach are described for rapid separation and purification of the alpha-emitting therapeutic radioisotope 211At from dissolved cyclotron targets that provide highly reproducible product results with excellent 211At species distributions and high antibody labeling yields compared with prior art manual extraction results of the prior art that can be expected to enable enhanced production of purified 211At isotope products suitable for therapeutic medical applications such as treatment of cancer in human patients. | ||||||
| 16 | US68361784 | 1984-12-19 | US4555415B1 | 1989-11-28 | ||
| 17 | Vitreous enamels | US683617 | 1984-12-19 | US4555415A | 1985-11-26 | John L. C. Mumford; Roger F. Price |
| A process for applying a vitreous enamel comprises applying a powdered vitreous frit to a metal, said frit having a water content of up to 0.03% by weight; this coated metal then being fired at a temperature in excess of the melting point of the frit, in a furnace having an atmosphere with a dew point of up to 10.degree. C. Metal particles may be admixed with the powdered frit to form a cermet or glass/metal composite. The powdered frit may be applied to a substrate as a non-aqueous slurry or an aqueous slurry including a polysaccharide based suspension agent. | ||||||
| 18 | KOMPONENTE FÜR EINE STRÖMUNGSMASCHINE UND VERFAHREN ZUR HERSTELLUNG EINER SOLCHEN KOMPONENTE | EP17166504.5 | 2017-04-13 | EP3388550A1 | 2018-10-17 | Maryniak, Bernd |
Eine Komponente (1) für eine Strömungsmaschine, die zumindest in einem Teilbereich (22) ihrer Oberfläche (20) mit einer Schutzbeschichtung (24) versehen ist, soll vergleichsweise einfach und somit kostengünstig herstellbar sein und dennoch eine besonders hohe Zuverlässigkeit und Langlebigkeit aufweisen. Dazu ist erfindungsgemäß die Komponentenoberfläche (20) zumindest in dem Teilbereich (22) mit einer Schutzbeschichtung (24) aus einem Schmelzgemisch, gebildet aus mindestens zwei Bestandteilen aus der Gruppe SiO2, B2O3, Na2O, K2O und Al2O3, versehen.
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| 19 | Tragvorrichtung zum Haltern eines durch ein Eintauchemaillierverfahren zu emaillierenden Werkstücks | EP92101811.5 | 1992-02-04 | EP0505699B1 | 1995-10-04 | Weber, Lutz, Dipl.-Ing. (FH); Hansen, Ferdinand, Dr. |
| 20 | 금속 재료로 구성되어 있으며 유약 코팅 또는 에나멜 코팅이 피복되어 있는 적어도 하나의 표면 섹션을 포함하는 부품의 열처리 방법 | KR1020187028528 | 2017-03-02 | KR1020180121952A | 2018-11-09 | |
| 본발명은금속합금으로구성된컴포넌트(1)의안 또는위의적어도하나의표면섹션(7)이유약또는에나멜코팅(9)이피복되어있는컴포넌트(1)를열처리하는방법으로, 적어도최소담금질온도와동일한가열온도로컴포넌트(1)를가열하고, 컴포넌트(1) 내에고강도의미세조직을형성하기위해, 적어도최소담금질온도와동일한온도에서시작하여컴포넌트(1)를담금질하는컴포넌트열처리방법에관한것이다. 본발명에의하면, 한편으로는컴포넌트(1)의최대강도에도달하고, 다른한편으로는유약또는에나멜코팅(9)의치핑이신뢰성있게방지되게, 컴포넌트(1)가열처리될수 있다. 이를위해, 본발명에따르면, 컴포넌트(1)를담금질하기전에적어도유약또는에나멜코팅(9)의자유면(9')에서유약또는에나멜코팅(9)을프리-냉각온도로프리-냉각하되, 상기프리-냉각온도는최대로유약또는에나멜코팅(9)이연화되기시작하는온도에상응하며, 유약또는에나멜코팅(9)이프리-냉각될때의냉각속도는담금질하는중의냉각속도보다작은것을특징으로한다. | ||||||
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