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1. 发明专利

JP2013257128A Oven having pyrolytic function 有权
标题翻译：具有光热功能的烤箱
公开(公告)号：JP2013257128A
公开(公告)日：2013-12-26
申请号：JP2012271218
申请日：2012-12-12
申请人： Lee Young Hee , イヤンヒLEE, Young Hee
发明人： LEE YOUNGHEE
IPC分类号： F24C7/04 , F23G7/06 , F24C1/00 , F24C15/20
CPC分类号： F24C15/327 , F24C14/02 , F24C15/2014
摘要： PROBLEM TO BE SOLVED: To provide a pyrolyzer and a method thereof which purge a contaminant generated when heat is applied to food.SOLUTION: An oven contaminant pyrolyzer includes a heating means, a combustion tube, a combustion space, a connecting tube, and a ventilation part. The heating means is provided inside an oven cooking chamber, and is surrounded by the combustion tube to form the combustion space where air flows between the heating means and the combustion tube. The ventilation part is connected to the combustion tube via the connecting tube, moves air inside the cooking chamber to the combustion space, and exhausts the purged air to the outside. The ventilation part includes a fan which generates a flow of air. The connecting tube transmits an air pressure difference generated by the fan to the combustion tube, to generate a lower pressure in the cooking chamber than atmospheric pressure. The contaminant is not spread to the outside of the cooking chamber, and stays in the combustion space heated at 700°C or more by the heating means for at least 0.5 s or more to be thermally decomposed.
摘要翻译：要解决的问题：提供一种热解器及其方法，其用于吹扫向食物施加热量时产生的污染物。解决方案：烘箱污染物热解器包括加热装置，燃烧管，燃烧空间，连接管和通风部分。加热装置设置在烘箱烹饪室的内部，并且被燃烧管包围，以形成空气在加热装置和燃烧管之间流动的燃烧空间。通风部分通过连接管连接到燃烧管，将烹饪室内的空气移动到燃烧空间，并将净化的空气排出到外部。通风部包括产生空气流的风扇。连接管将由风扇产生的空气压力差传递到燃烧管，以在烹饪室中产生比大气压更低的压力。污染物不会扩散到烹饪室的外部，并且通过加热装置停留在700℃以上的燃烧空间中至少0.5秒以上进行热分解。

2. 发明专利

JP2013520612A Power transmission device of crank structure 审中-公开
公开(公告)号：JP2013520612A
公开(公告)日：2013-06-06
申请号：JP2012554893
申请日：2011-02-10
申请人：イヨンヒLee,Young Hee
发明人：ヨンヒイ
IPC分类号： F02B75/32
CPC分类号： F02B75/32 , F01B9/042 , F16C3/06 , Y10T74/19647
摘要：内燃機関のクランクアームを楕円形歯車３で代替し、同じ大きさで同じ形態の楕円形歯車４に噛み合って回転するように組み立て、噛み合った楕円形歯車３、４の回転中心５、７から動力伝達地点６までの距離が動力伝達方向に応じて交互に変更されるように、楕円形の中心点８、９から楕円の長軸に沿って一定距離だけ移動した位置が楕円形歯車３、４の回転中心５、７となるようにすることにより、同じ大きさのピストン爆発行程でより大きな回転力を発生させ、圧縮及び排気行程に必要な動力をより小さな回転力から発生させ、同一排気量の内燃機関からより大きな回転力を発生させて加速力及び登板能力を改善し、損失動力を減らしてより大きな有効出力（実馬力）を発生させる、内燃機関の改善された動力伝達構造の発明に関する。

3. 发明专利

JP5700257B2 熱分解機能を持つオーブン有权
标题翻译：烤箱热解作用
公开(公告)号：JP5700257B2
公开(公告)日：2015-04-15
申请号：JP2012271218
申请日：2012-12-12
申请人：イヤンヒ , LEE, Young Hee
发明人：イヤンヒ
IPC分类号： F24C7/04 , F24C1/00 , F24C15/20
CPC分类号： F24C15/327 , F24C14/02 , F24C15/2014

4. 发明专利

JP2001307951A SUPERCAPACITOR AND ITS MANUFACTURING METHOD 失效
公开(公告)号：JP2001307951A
公开(公告)日：2001-11-02
申请号：JP2001074149
申请日：2001-03-15
申请人： LEE YOUNG HEE , ILJIN NANOTECH CO LTD
发明人： LEE YOUNG HEE , AN KEIKAKU , YOO JAE-EUN
IPC分类号： H01G11/40 , B82Y99/00 , H01G9/00 , H01G9/02 , H01G11/08 , H01G11/22 , H01G11/30 , H01G11/34 , H01G11/36 , H01G11/38 , H01G11/52 , H01G11/54 , H01G11/66 , H01G11/84 , H01G11/86 , H01G9/058
摘要： PROBLEM TO BE SOLVED: To provide a supercapacitor which has a large storage capacity and uses an electrode made of novel substance. SOLUTION: This supercapacitor includes two electrodes 100 which are introduced in a manner to be opposite to each other and include a carbon nano tube, an electrolytic solution 300 to be introduced between both electrodes, and a separation film 200 to separate the electrolytic solution to both electrodes.

5. 发明专利

HK1050804A1 Apparatus for uniformly dispersing microwave and heating system suing the same. 未知
公开(公告)号：HK1050804A1
公开(公告)日：2003-07-04
申请号：HK03102795
申请日：2003-04-17
申请人： LEE YOUNG HEE
发明人： LEE YOUNG HEE
IPC分类号： H05B6/64 , F24C7/02 , F26B3/347 , H05B6/74 , H05B
摘要： The apparatus for uniformly dispersing the microwave comprises a body including a plurality of reflective portions which are made of materials capable of reflecting the microwave and have the horizontal top surfaces and vertical side surfaces. The width of the plurality of reflective portions is set as 1/n times as large as a wavelength lambdag of the microwave. The depth of each of the plurality of reflective portions may be set as a value obtained by multiplying the remainder, which is obtained by dividing the power of a natural number for the least primitive root of a prime number by the prime number, by the width of the reflective portion under a condition that a datum plane is defined by a height from the bottom surface corresponding to a value obtained by multiplying the width of the reflective portion by (prime number-1).

6. 发明专利

BR0107638A 未知
公开(公告)号：BR0107638A
公开(公告)日：2002-11-19
申请号：BR0107638
申请日：2001-11-26
申请人： LEE YOUNG HEE
发明人： LEE YOUNG HEE
IPC分类号： H05B6/64 , F24C7/02 , F26B3/347 , H05B6/74
摘要： The apparatus for uniformly dispersing the microwave comprises a body including a plurality of reflective portions which are made of materials capable of reflecting the microwave and have the horizontal top surfaces and vertical side surfaces. The width of the plurality of reflective portions is set as 1/n times as large as a wavelength lambdag of the microwave. The depth of each of the plurality of reflective portions may be set as a value obtained by multiplying the remainder, which is obtained by dividing the power of a natural number for the least primitive root of a prime number by the prime number, by the width of the reflective portion under a condition that a datum plane is defined by a height from the bottom surface corresponding to a value obtained by multiplying the width of the reflective portion by (prime number-1).

7. 发明专利

FR2778864A1 High resistance timber manufacturing process 未知
公开(公告)号：FR2778864A1
公开(公告)日：1999-11-26
申请号：FR9806298
申请日：1998-05-19
申请人： LEE YOUNG HEE
发明人： LEE YOUNG HEE
IPC分类号： B27K5/00 , B27M1/02 , F26B3/347 , F26B7/00 , B27K5/06
摘要： The process consists of cutting up pinewood and exposing it to microwave radiation to expel the moisture present in the wood and to soften the cellulose. The timber volume is then reduced to more than 70% by compressing with a hydraulic press whilst latent heat is still present. This causes a restructuring and solidification of the cellulose tissue, the degree of which determines the mechanical properties and which is controlled by the levels of latent heat.

8. 发明专利

AU2003269531A1 SINGLE-WALLED CARBON NANOTUBE SYNTHESIS METHOD AND APPARATUS 未知
公开(公告)号：AU2003269531A1
公开(公告)日：2004-05-04
申请号：AU2003269531
申请日：2003-10-14
申请人： HEO JEONG KU , LEE YOUNG HEE
发明人： AN KAY-HYEOK , LIM SEONG-CHU , JO YOUNG-SANG , HEO JEONG-KU , LEE YOUNG-HEE , KIM CHAN , YANG CHEOL-MIN
IPC分类号： B82B3/00 , C01B31/02 , D01F20060101 , D01F9/127 , D01F9/133
摘要： Disclosed is a single-walled carbon nanotube synthesis method and apparatus, characterized in that a synthesis chamber of the carbon nanotube is divided into at least one first reaction chamber where a transition metal compound and hydrocarbon are fed and pyrolyzed, and a second reaction chamber where the pyrolyzed transition metal is dispersed, in which the second reaction chamber has a cross section wider than that of the at least one first reaction chamber, whereby the transition metal is rapidly dispersed from the first reaction chamber to the second reaction chamber. Thus, excessive growth of a catalytic transition metal due to re-combination of the transition metal is restrained, resulting in continuously preparing the single-walled carbon nanotube on a large scale.

9. 发明专利

DE60122409D1 未知
公开(公告)号：DE60122409D1
公开(公告)日：2006-10-05
申请号：DE60122409
申请日：2001-03-15
申请人： SAMSUNG SDI CO LTD , LEE YOUNG-HEE
发明人： LEE YOUNG-HEE , LEE NAE-SUNG , KIM JONG-MIN
IPC分类号： C23C16/44 , H01L21/205 , C01B31/02 , C23C16/26 , C30B25/00 , C30B25/02 , H01J9/02
摘要： A method of vertically aligning pure carbon nanotubes on a large glass or silicon substrate at a low temperature using a low pressure DC thermal chemical vapor deposition method is provided. In this method, catalytic decomposition with respect to hydro-carbon gases is performed in two steps. Basically, an existing thermal chemical vapor deposition method using hydro-carbon gases such as acetylene, ethylene, methane or propane is used. To be more specific, the hydro-carbon gases are primarily decomposed at a low temperature of 400-500 DEG C by passing the hydro-carbon gases through a mesh-structure catalyst which is made of Ni, Fe, Co, Y, Pd, Pt, Au or an alloy of two or more of these materials. Secondly, the catalytically- and thermally-decomposed hydro-carbon gases pass through the space between a carbon nanotube growing substrate and an electrode substrate made of Ni, Fe, Co, Y, Pd, Pt, Au or an alloy of two or more of these materials or an electrode substrate on which Ni, Fe, Co, Y, Pd, Pt, Au or an alloy of two or more of these materials is thinly deposited by sputtering or electron-beam evaporation, the space to which DC voltage has been applied. Thus, carbon nanotubes are vertically aligned at a temperature no grater than the glass melting point. The thus grown large carbon nanotube substrate can be applied directly to FEDs, lower the turn-on voltage for electron emission, simplify the process of manufacturing an FED, and significantly reduce the manufacturing costs of FEDs. Furthermore, an electrode substrate holder and a carbon nanotube growing substrate holder are designed to mount several electrode substrates and several carbon nanotube growing substrates simultaneously, whereby the productivity is increased.

10. 发明专利

AU2003269531A8 Single-walled carbon nanotube synthesis method and apparatus 未知
公开(公告)号：AU2003269531A8
公开(公告)日：2004-05-04
申请号：AU2003269531
申请日：2003-10-14
申请人： HEO JEONG KU , LEE YOUNG HEE
发明人： AN KAY-HYEOK , YANG CHEOL-MIN , HEO JEONG-KU , LEE YOUNG-HEE , KIM CHAN , LIM SEONG-CHU , JO YOUNG-SANG
IPC分类号： B82B3/00 , C01B31/02 , D01F20060101 , D01F9/127 , D01F9/133
摘要： Disclosed is a single-walled carbon nanotube synthesis method and apparatus, characterized in that a synthesis chamber of the carbon nanotube is divided into at least one first reaction chamber where a transition metal compound and hydrocarbon are fed and pyrolyzed, and a second reaction chamber where the pyrolyzed transition metal is dispersed, in which the second reaction chamber has a cross section wider than that of the at least one first reaction chamber, whereby the transition metal is rapidly dispersed from the first reaction chamber to the second reaction chamber. Thus, excessive growth of a catalytic transition metal due to re-combination of the transition metal is restrained, resulting in continuously preparing the single-walled carbon nanotube on a large scale.

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