公开(公告)号：US20120064335A1

公开(公告)日：2012-03-15

申请号：US13321692

申请日：2010-07-12

申请人： Youn-Ki Jun ,  Keum-Shil Cho ,  Joon Bae, II ,  Sung Seock Hwang

发明人： Youn-Ki Jun ,  Keum-Shil Cho ,  Joon Bae, II ,  Sung Seock Hwang

IPC分类号： B32B3/00 ,  C23C14/34 ,  B32B17/06

CPC分类号： C03C17/36 ,  C03C17/3618 ,  C03C17/3644 ,  C03C17/366

摘要： The present invention relates to low emissivity glass and to a method for manufacturing the same. The low emissivity glass comprises: a low emissivity layer; and a dielectric layer formed on the low emissivity layer, wherein the glass has an emissivity of 0.01 to 0.3 and a visible transmittance of 70% or more. According to the present invention, low emissivity glass having good emissive performance while also exhibiting high visible transmittance can be provided. Further, according to the present invention, the manufacturing process for the above-described low emissivity glass can be simplified, and initial investment amount can be reduced.

摘要翻译： 本发明涉及低辐射玻璃及其制造方法。 低辐射玻璃包括：低辐射层; 以及形成在所述低发射率层上的电介质层，其中，所述玻璃的发射率为0.01〜0.3，可见光透射率为70％以上。 根据本发明，可以提供具有良好发射性能的低发射率玻璃，同时也表现出高的可见光透射率。 此外，根据本发明，能够简化上述低发射率玻璃的制造工序，能够降低初期投入量。

公开(公告)号：US08722210B2

公开(公告)日：2014-05-13

申请号：US13321692

申请日：2010-07-12

申请人： Youn-Ki Jun ,  Keum-Shil Cho ,  Il Joon Bae ,  Sung Seock Hwang

发明人： Youn-Ki Jun ,  Keum-Shil Cho ,  Il Joon Bae ,  Sung Seock Hwang

IPC分类号： B32B15/04

CPC分类号： C03C17/36 ,  C03C17/3618 ,  C03C17/3644 ,  C03C17/366

摘要： The present invention relates to low emissivity glass and to a method for manufacturing the same. The low emissivity glass comprises: a low emissivity layer; and a dielectric layer formed on the low emissivity layer, wherein the glass has an emissivity of 0.01 to 0.3 and a visible transmittance of 70% or more. According to the present invention, low emissivity glass having good emissive performance while also exhibiting high visible transmittance can be provided. Further, according to the present invention, the manufacturing process for the above-described low emissivity glass can be simplified, and initial investment amount can be reduced.

摘要翻译： 本发明涉及低辐射玻璃及其制造方法。 低辐射玻璃包括：低辐射层; 以及形成在所述低发射率层上的电介质层，其中，所述玻璃的发射率为0.01〜0.3，可见光透射率为70％以上。 根据本发明，可以提供具有良好发射性能的低发射率玻璃，同时也表现出高的可见光透射率。 此外，根据本发明，能够简化上述低发射率玻璃的制造工序，能够降低初期投入量。

公开(公告)号：US09061941B2

公开(公告)日：2015-06-23

申请号：US13387510

申请日：2010-08-24

申请人： Gilho Kang ,  Seongchan Park ,  Sung Seock Hwang ,  Jong-won Chung

发明人： Gilho Kang ,  Seongchan Park ,  Sung Seock Hwang ,  Jong-won Chung

IPC分类号： B32B3/10 ,  B32B27/06 ,  B32B29/00 ,  C08K3/16 ,  B29C67/24 ,  B29C39/00 ,  B29C45/00 ,  C08K3/22 ,  B32B17/06 ,  C04B28/30 ,  C04B20/10 ,  C04B28/10

CPC分类号： C04B28/30 ,  C04B20/1029 ,  C04B28/105 ,  Y10T428/24802 ,  Y10T428/24926 ,  Y10T428/24934 ,  Y10T428/31786 ,  Y10T428/31971 ,  Y10T428/31993 ,  C04B2103/0071 ,  C04B24/02

摘要： The present invention relates to an inorganic board comprising a base layer containing magnesium-based inorganic materials and phase change materials, and to a method for producing the board. The inorganic board of the present invention employs magnesium-based inorganic materials instead of plaster used in conventional boards, and thus improves the strength and water resistance thereof as compared to conventional plaster boards. Accordingly, the board of the present invention is formed so as to be thin, and the content of the phase change materials in the base layer increases by the superior blending ratio of magnesium-based inorganic materials and phase change materials, thus maintaining the indoor temperature of the structure constructed by the board of the present invention at a comfortable level. Therefore, the inorganic board of the present invention can be effectively used in interior materials or the like for a building, which require strength and water resistance properties.

摘要翻译： 本发明涉及包含含有镁基无机材料和相变材料的基层的无机基板，以及制造该基板的方法。 本发明的无机基板采用镁基无机材料代替传统板材中使用的石膏，与常规石膏板相比，提高了其强度和耐水性。 因此，本发明的板形成为薄，并且由于镁类无机材料和相变材料的优异配合比，基层中的相变材料的含量增加，因此保持室内温度 由本发明的板构成的结构在舒适的水平上。 因此，本发明的无机基板可以有效地用于需要强度和耐水性的建筑物的室内材料等中。

公开(公告)号：US08956710B2

公开(公告)日：2015-02-17

申请号：US13502863

申请日：2010-10-05

申请人： Suk Jang ,  Sung Seock Hwang ,  Seung Min Jeon ,  Myung Lee ,  Jung Pil Han

发明人： Suk Jang ,  Sung Seock Hwang ,  Seung Min Jeon ,  Myung Lee ,  Jung Pil Han

IPC分类号： F16L59/065 ,  E04B1/80

CPC分类号： E04B1/803 ,  F16L59/065 ,  F25D2201/14 ,  Y02A30/242 ,  Y02B80/12 ,  Y10T29/49826 ,  Y10T428/231

摘要： Disclosed are a vacuum insulation panel, a method for manufacturing the same and an insulation box having the same. By cutting the core material correspondingly to shape and thickness of the absorbent without cut of the core material and pressing the absorbent securing part to form the groove for placing the absorbent therein, the vacuum insulation panel prevents partial deterioration of heat transmission caused by the cutoff of the core material or deterioration of the smoothness caused by placing the absorbent above the core material or between the core materials. Particularly, it is possible to prevent the phenomenon that the periphery is pressed together, which is shown in a conventional press process, to thereby improve the smoothness by cutting the core material in shape and depth corresponding to the shape and thickness of the absorbent prior to the press of the absorbent securing part. Therefore, it is possible to provide an energy saving insulation box by reducing generation of wrinkle or poor sealing of the surface material of the vacuum insulation panel to thereby increase insulation efficiency of the vacuum insulation panel for a long time.

摘要翻译： 公开了真空绝热板，其制造方法和具有该真空绝热板的绝缘箱。 通过相对于芯材的形状和厚度切割芯材料而不切割芯材并按压吸收性固定部分以形成用于将吸收剂放置在其中的凹槽，真空绝热板防止由于截止而导致的热传递的部分劣化 核心材料或通过将吸收剂放置在芯材料之上或芯材之间而引起的光滑度的劣化。 特别地，可以防止外围被压在一起的现象，这在现有技术的冲压过程中显示出来，从而通过在与之前的吸湿剂的形状和厚度对应的形状和深度上切割芯材来提高平滑度 吸收性固定部件的按压。 因此，通过减少真空绝热板的表面材料的皱纹或密封不良，可以提供节能绝缘盒，从而提高真空绝热面板的绝缘效率。

公开(公告)号：US20140178626A1

公开(公告)日：2014-06-26

申请号：US14235665

申请日：2012-08-07

申请人： Byung Hoon Min ,  Sung Seock Hwang ,  Seung Min Jeon ,  Jung Pil Han

发明人： Byung Hoon Min ,  Sung Seock Hwang ,  Seung Min Jeon ,  Jung Pil Han

IPC分类号： E04B1/70 ,  E04B1/80

CPC分类号： E04B1/70 ,  B32B3/04 ,  B32B3/08 ,  B32B5/26 ,  B32B2262/023 ,  B32B2262/0253 ,  B32B2262/0276 ,  B32B2262/101 ,  B32B2307/304 ,  B32B2307/31 ,  B32B2307/7242 ,  E04B1/803 ,  F16L59/065 ,  Y10T156/1064 ,  Y10T428/231

摘要： The vacuum thermal insulation material of the present invention comprises: a core material part which is hermetically sealed under reduced pressure; a getter part which is provided on one side in the middle of the core part; and an outer skin material part which surrounds the core material part and is hermetically sealed. In the getter part, a getter material, comprising a mixture of a hygroscopic material and a gas-adsorbing material, is packed in the form of a nonwoven fabric. In the vacuum thermal insulation material of the present invention, the hygroscopic material is any one of calcium oxide, calcium chloride, zeolite, silica gel, alumina and activated carbon, while the gas-adsorbing material is an oxygen-adsorbing material comprising a Fe based compound; and the hygroscopic material and the gas-adsorbing material are mixed in a ratio of between 20:1 and 200:1.

摘要翻译： 本发明的真空绝热材料包括：在减压下气密密封的芯材部分; 吸气部，其设置在芯部的中间的一侧; 以及包围芯材部分并被气密密封的外皮材料部分。 在吸气剂部分中，将包含吸湿材料和气体吸附材料的混合物的吸气剂材料以非织造织物的形式包装。 在本发明的真空保温材料中，吸湿材料是氧化钙，氯化钙，沸石，硅胶，氧化铝和活性炭中的任一种，而气体吸附材料是含氧基吸附材料， 复合; 并且吸湿材料和气体吸附材料以20:1至200:1的比率混合。

公开(公告)号：US09228340B2

公开(公告)日：2016-01-05

申请号：US14235665

申请日：2012-08-07

申请人： Byung Hoon Min ,  Sung Seock Hwang ,  Seung Min Jeon ,  Jung Pil Han

发明人： Byung Hoon Min ,  Sung Seock Hwang ,  Seung Min Jeon ,  Jung Pil Han

IPC分类号： F16L59/065 ,  E04B1/70 ,  B32B3/04 ,  B32B3/08 ,  B32B5/26 ,  E04B1/80

CPC分类号： E04B1/70 ,  B32B3/04 ,  B32B3/08 ,  B32B5/26 ,  B32B2262/023 ,  B32B2262/0253 ,  B32B2262/0276 ,  B32B2262/101 ,  B32B2307/304 ,  B32B2307/31 ,  B32B2307/7242 ,  E04B1/803 ,  F16L59/065 ,  Y10T156/1064 ,  Y10T428/231

摘要： The vacuum thermal insulation material of the present invention comprises: a core material part which is hermetically sealed under reduced pressure; a getter part which is provided on one side in the middle of the core part; and an outer skin material part which surrounds the core material part and is hermetically sealed. In the getter part, a getter material, comprising a mixture of a hygroscopic material and a gas-adsorbing material, is packed in the form of a nonwoven fabric. In the vacuum thermal insulation material of the present invention, the hygroscopic material is any one of calcium oxide, calcium chloride, zeolite, silica gel, alumina and activated carbon, while the gas-adsorbing material is an oxygen-adsorbing material comprising a Fe based compound; and the hygroscopic material and the gas-adsorbing material are mixed in a ratio of between 20:1 and 200:1.

摘要翻译： 本发明的真空绝热材料包括：在减压下气密密封的芯材部分; 吸气部，其设置在芯部的中间的一侧; 以及包围芯材部分并被气密密封的外皮材料部分。 在吸气剂部分中，将包含吸湿材料和气体吸附材料的混合物的吸气剂材料以非织造织物的形式包装。 在本发明的真空保温材料中，吸湿材料是氧化钙，氯化钙，沸石，硅胶，氧化铝和活性炭中的任一种，而气体吸附材料是含氧基吸附材料， 复合; 并且吸湿材料和气体吸附材料以20:1至200:1的比率混合。

公开(公告)号：US09074958B2

公开(公告)日：2015-07-07

申请号：US13981549

申请日：2012-04-09

申请人： Jung Pil Han ,  Jong Kyon Jeong ,  Son Cheal Bang ,  Sung Seock Hwang

发明人： Jung Pil Han ,  Jong Kyon Jeong ,  Son Cheal Bang ,  Sung Seock Hwang

IPC分类号： G01L21/00 ,  G01B11/16

CPC分类号： G01L21/00 ,  G01B11/16

摘要： An apparatus for measuring the degree of vacuum of a multistage vacuum heat-insulating member and to a measurement method using the same includes a chamber in which a plurality of vacuum heat-insulating members are accommodated and which forms a sealed space; a shelf arranged within the chamber so as to support the plurality of vacuum heat-insulating members in a plurality of layers; a displacement sensor for sensing the displacement of each outer shell of the vacuum heat-insulating members stacked on the shelf; and a vacuum unit connected to the chamber so as to regulate the pressure of the internal space of the chamber.

摘要翻译： 一种用于测量多级真空绝热构件的真空度的装置及使用其的测量方法包括容纳多个真空绝热构件并形成密封空间的室; 设置在所述室内的搁架，以便支撑所述多个真空绝热构件的多个层; 位移传感器，用于感测层叠在搁板上的真空绝热构件的每个外壳的位移; 以及连接到所述室的真空单元，以调节所述室的内部空间的压力。

公开(公告)号：US20130314720A1

公开(公告)日：2013-11-28

申请号：US13981549

申请日：2012-04-09

申请人： Jung Pil Han ,  Jong Kyon Jeong ,  Song Cheal Bang ,  Sung Seock Hwang

发明人： Jung Pil Han ,  Jong Kyon Jeong ,  Song Cheal Bang ,  Sung Seock Hwang

IPC分类号： G01L21/00 ,  G01B11/16

CPC分类号： G01L21/00 ,  G01B11/16

摘要： An apparatus for measuring the degree of vacuum of a multistage vacuum heat-insulating member and to a measurement method using the same includes a chamber in which a plurality of vacuum heat-insulating members are accommodated and which forms a sealed space; a shelf arranged within the chamber so as to support the plurality of vacuum heat-insulating members in a plurality of layers; a displacement sensor for sensing the displacement of each outer shell of the vacuum heat-insulating members stacked on the shelf; and a vacuum unit connected to the chamber so as to regulate the pressure of the internal space of the chamber.

摘要翻译： 一种用于测量多级真空绝热构件的真空度的装置及使用其的测量方法包括容纳多个真空绝热构件并形成密封空间的室; 设置在所述室内的搁架，以便支撑所述多个真空绝热构件的多个层; 位移传感器，用于感测层叠在搁板上的真空绝热构件的每个外壳的位移; 以及连接到所述室的真空单元，以调节所述室的内部空间的压力。

公开(公告)号：US20120128950A1

公开(公告)日：2012-05-24

申请号：US13387510

申请日：2010-08-24

申请人： Gilho Kang ,  Seongchan Park ,  Sung Seock Hwang ,  Jong-won Chung

发明人： Gilho Kang ,  Seongchan Park ,  Sung Seock Hwang ,  Jong-won Chung

IPC分类号： B32B3/10 ,  B32B27/06 ,  B32B29/00 ,  C08K3/16 ,  B29C67/24 ,  B29C39/00 ,  C08K3/22 ,  B32B17/06 ,  B29C45/00

CPC分类号： C04B28/30 ,  C04B20/1029 ,  C04B28/105 ,  Y10T428/24802 ,  Y10T428/24926 ,  Y10T428/24934 ,  Y10T428/31786 ,  Y10T428/31971 ,  Y10T428/31993 ,  C04B2103/0071 ,  C04B24/02

摘要： The present invention relates to an inorganic board comprising a base layer containing magnesium-based inorganic materials and phase change materials, and to a method for producing the board. The inorganic board of the present invention employs magnesium-based inorganic materials instead of plaster used in conventional boards, and thus improves the strength and water resistance thereof as compared to conventional plaster boards. Accordingly, the board of the present invention is formed so as to be thin, and the content of the phase change materials in the base layer increases by the superior blending ratio of magnesium-based inorganic materials and phase change materials, thus maintaining the indoor temperature of the structure constructed by the board of the present invention at a comfortable level. Therefore, the inorganic board of the present invention can be effectively used in interior materials or the like for a building, which require strength and water resistance properties.

摘要翻译： 本发明涉及包含含有镁基无机材料和相变材料的基层的无机基板，以及制造该基板的方法。 本发明的无机基板采用镁基无机材料代替传统板材中使用的石膏，与常规石膏板相比，提高了其强度和耐水性。 因此，本发明的板形成为薄，并且由于镁类无机材料和相变材料的优异配合比，基层中的相变材料的含量增加，因此保持室内温度 由本发明的板构成的结构在舒适的水平上。 因此，本发明的无机基板可以有效地用于需要强度和耐水性的建筑物的室内材料等中。