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    • 3. 发明申请
    • VACUUM ADIABATIC BODY AND REFRIGERATOR
    • WO2022092944A1
    • 2022-05-05
    • PCT/KR2021/015521
    • 2021-11-01
    • LG ELECTRONICS INC.
    • JUNG, WonyeongYOUN, DeokhyunKIM, BongjinRYU, Minsu
    • F16L59/065F16L59/02F16L59/08B23K1/00F25D23/02F25D23/06
    • A vacuum adiabatic body of the present embodiment may include a first plate, a second plate, a seal configured to seal the first plate and the second plate to provide a vacuum space, and a support configured to maintain the vacuum space. Optionally, the support may include a first support having a first support plate formed in a grid shape, and a plurality of spacer coupling portions configured to protrude from the first support plate. Optionally, the support may a second support having a second support plate formed in a grid shape, and a plurality of spacers configured to protrude from the second support plate and coupled to each of the plurality of spacer coupling portions to form a plurality of bars together with the plurality of spacer coupling portions. Optionally, the support may a radiation resistance sheet supported by a portion of the plurality of bars and spaced apart from at least one of the first support plate and the second support plate. Optionally, the plurality of spacer coupling portions may be arranged in a plurality of columns and a plurality of rows in the first support plate. Optionally, only a spacer coupling portion having the same shape may be provided in some columns of a plurality of columns, and spacer coupling portions having a different shape may be provided in some other columns.
    • 6. 发明申请
    • ARCOS ESPIRAIS METÁLICOS DE ALTO DESEMPENHO DE CONSERVAÇÃO DE ENERGIA TÉRMICA E SISTEMA INTERNO DE SUSTENTAÇÃO E RESISTÊNCIA AO AMASSAMENTO
    • ARCOS螺旋金属HIGH能源节约表现的热制度和内部支撑和阻力揉
    • WO2018053614A1
    • 2018-03-29
    • PCT/BR2017/050273
    • 2017-09-18
    • OLIVEIRA, Maurílio Pessoa de
    • OLIVEIRA, Maurílio Pessoa de
    • F16L59/14F16L59/08F16L59/06
    • F16L59/06F16L59/08F16L59/12F16L59/125F16L59/14F16L59/147
    • A presente invenção refere-se a ARCOS ESPIRAIS METÁLICOS DE ALTO DESEMPENHO DE CONSERVAÇÃO DE ENERGIA, com sistema interno de sustentação e resistência ao amassamento, para aplicação em equipamentos, tubulações e ramais de aquecimento, isentas totalmente de isolantes térmicos tipo massa, como lã de rocha, lá de vidro, fibra cerâmica, perlita, silicato de cálcio, aerogel, etc. de alta resistência térmica, destacável, ou removível. O objeto desta invenção são os ARCOS ESPIRAIS METÁLICOS DE ALTO DESEMPENHO DE CONSERVAÇÃO DE ENERGIA, que foram concebidos e desenvolvidos a partir dos modelos matemáticos de curvas próprias das conhecidas espirais de Arquimedes e as de Newton, Euler, ou Fibonacci, etc. Assim torna-se, seguramente, possível manter, em excelentes níveis, a temperatura e as características físico-químicas dos fluidos ao longo das tubulações e nos equipamentos devido a baixíssima condutividade térmica efetiva do sistema aplicado.
    • 本发明MAKE-手;所述指ARCS SPIRAL MET综HIGH PERFORMANCE SAVE MAKE-HANDS; ENERGY与内部支撑&ccedil系统; HANDS;○抗蚀ê INSTANCE捏合 ,适用于设备,管道和加热扩展部件,完全不含质量型隔热层, 的岩石, 玻璃纤维,陶瓷纤维,珍珠岩,丙烯酸硅酸盐,气凝胶等。 高技术阻力,可拆卸或可拆卸。 本发明MAKE-HANDS的对象; S&HAND电弧SPIRAL MET综HIGH PERFORMANCE SAVE MAKE-HANDS;能量,这被设计并从模型开发杀曲线光学PRó已知Prias螺旋 阿基米德以及牛顿,欧拉或斐波纳契等。 这使得可以在极好的条件下维持沿管道和设备中的流体的温度和物理化学特性,这是由于非常低 应用系统的有效电导率。

    • 7. 发明申请
    • 断熱材及び多層断熱材
    • 绝缘和多层绝缘
    • WO2018008768A1
    • 2018-01-11
    • PCT/JP2017/025125
    • 2017-07-10
    • 国立研究開発法人宇宙航空研究開発機構
    • 太刀川 純孝冨岡 孝太
    • F16L59/02B32B5/18B32B7/02B32B27/34F16L59/08
    • 電波が透過可能な断熱材を提供する。断熱材は、第1誘電体多層膜(F1)と、第2誘電体多層膜(F2)と、第1基材(B1)と、を具備する。上記第1誘電体多層膜(F1)は、電波を透過させるように構成されている。上記第2誘電体多層膜(F2)は、赤外線放射率が0.5未満であり、電波を透過させるように構成され、上記第1誘電体層(F1)に対向している。この断熱材では、第1誘電体多層膜(F1)及び第2誘電体多層膜(F2)を組み合わせることにより、金属を用いておらず、電波が透過可能な構成を実現できる。
    • 提供可以传输无线电波的绝热材料。 绝热材料包括第一电介质多层膜(F 1),第二电介质多层膜(F 2)和第一基材(B 1)。 第一电介质多层膜(F 1)被配置为发射无线电波。 第二电介质多层膜(F 2)具有小于0.5的红外发射率,被配置为发射无线电波,并且面向第一电介质层(F 1)。 通过该绝热材料,通过组合第一电介质多层膜(F 1)和第二电介质多层膜(F 2),能够实现不使用金属而能够传输电波的结构。

    • 8. 发明申请
    • THERMAL INSULATION FOR HOT OR COLD MEDIA-CARRYING PIPELINES
    • 用于热或冷媒体承载管道的热绝缘
    • WO2016093716A8
    • 2016-12-29
    • PCT/PL2015000195
    • 2015-12-03
    • ALLSETPRO SPÓŁKA Z OGRANICZONĄ ODPOWIEDZIALNOŚCIĄ
    • CHUPTYŚ PIOTR
    • F16L59/14F16L59/02F16L59/06F16L59/07F16L59/075F16L59/08F16L59/12
    • F16L59/143F16L59/029F16L59/06F16L59/07F16L59/075F16L59/08F16L59/12
    • The subject of the invention is thermal insulation for pipelines protecting them from loss of heat or cold when carrying heating, cooling, and other industrial and utility media characterised in that it has: a first insulation layer (2) made of aluminium foil or metallized foil with thickness g = 0.04 mm and resistant to infrared radiation (IR), connected detachably or permanently with spacing pins (3), lower ends of which adhere to outer surface of the insulated pipeline's steel pipe (1) forming this way an air gap (4) between thermal insulation and the pipe, or the first insulation layer (2) adheres directly to outer surface of a structure (11) comprising spacing battens (11') interconnected with each other by means of annular elements (12), said structure being mounted of outer surface of said steel tube (1) also forming this way an air gap (4) between the pipe and said first insulation layer; the second insulation layer (6) adjacent to the first insulation layer (2) comprising a pack of several layers of insulating plastic film bubble wrap adhering loosely to each other or glued together by means of adhesive (5) resistant to high temperatures, with bubbles of cellular structure of the wrap filled with a mixture of air and argon and bubble cells (6') pointing towards the insulated steel pipe (1); and an outer layer (7) surrounding and adhering to the second insulation layer (6), said outer layer being made of a plastic resistant to operation of ultraviolet (UV) radiation and variable climatic conditions with ends connected to each other by means of the scarf joint and topped additionally by means of tape (8) attached to its upper surface.
    • 本发明的主题是用于管道的热绝缘,用于在承载加热,冷却和其它工业和实用介质时保护它们免受热或冷的损失,其特征在于它具有:由铝箔或金属箔制成的第一绝缘层(2) 厚度g = 0.04mm并且耐红外辐射(IR),其可分离地或永久地与间隔销(3)连接,其下端粘附在绝热管道钢管(1)的外表面上,形成气隙 4)在绝热和管之间,或者第一绝缘层(2)直接粘附到通过环形元件(12)彼此互连的包括间隔条(11')的结构(11)的外表面,所述结构 被安装在所述钢管(1)的外表面上,也形成在管和所述第一绝缘层之间的气隙(4); 与第一绝缘层(2)相邻的第二绝缘层(6)包括几层绝缘塑料膜泡沫包层,其松散地彼此粘合或通过耐高温的粘合剂(5)胶合在一起,具有气泡 填充有空气和氩气的混合物的包裹物的细胞结构和指向绝缘钢管(1)的气泡单元(6'); 以及围绕并粘附到第二绝缘层(6)的外层(7),所述外层由耐紫外线(UV)辐射和可变气候条件的塑料制成,其端部通过彼此连接 另外通过连接到其上表面的胶带(8)也可以覆盖围巾。
    • 9. 发明申请
    • FLEXIBEL ROHRLEITUNG
    • 挠性管道
    • WO2016020128A1
    • 2016-02-11
    • PCT/EP2015/065296
    • 2015-07-06
    • NEXANS
    • SOIKA, RainerDI PALMA, Michele
    • F16L59/065F16L59/08F16L59/14F16L59/153F16L11/12F16L11/15F16L11/20F16L53/00
    • F16L11/14F16L11/12F16L11/15F16L11/20F16L53/70F16L59/065F16L59/08F16L59/141F16L59/153
    • Es wird eine flexible Rohrleitung zum Transport eines tiefgekühlten Mediums angegeben, die ein quer zu seiner Längsrichtung gewelltes, zentrales Führungsrohr (1) aus Metall zum Durchleiten des tiefgekühlten Mediums und ein unter Bildung eines Zwischenraums (7) mit Abstand zu demselben angeordnetes, ebenfalls quer zu seiner Längsrichtung gewelltes Begrenzungsrohr (6) aus Metall aufweist. In dem Zwischenraum (7) zwischen dem Führungsrohr (1) und dem Begrenzungsrohr (6) ist ein Kühlraum zum Durchleiten eines äußeren tiefgekühlten Mediums vorhanden. Der Zwischenraum (7) ist evakuiert. Auf der ganzen Länge der Rohrleitung ist um das Führungsrohr (1) mindestens ein Kühlrohr (4) aus Metall wendelförmig herumgewunden, das einen deutlich kleineren Außendurchmesser als das Führungsrohr (1) hat und das den Kühlraum zum Durchleiten des äußeren tiefgekühlten Mediums bildet. Um die Einheit aus Führungsrohr (1) und Kühlrohr (4) herum ist eine rundum vorhandene, als Superisolierung dienende Schicht (5) angebracht, die aus mindestens einer Lage einer reflektierenden Folie besteht.
    • 提供了一种用于输送低温介质提供了一种柔性管,卷曲横向于其纵向方向,一个中心导向管(1)金属的低温介质通道和形成中间空间(7)在为相同的距离布置,也横向于 其纵向方向上的波纹管的限制(6)由金属构成。 在导管(1)和所述限制管之间的中间空间(7)(6)是用于使外冷冻介质存在于冷却室。 中间空间(7)被抽空。 在管的整个长度是所述导向管(1)的至少一个冷却管的金属制螺旋形缠绕(4),其具有显著外径小于所述导向管(1)和形成冷却空间用于使外部低温介质围绕。 到由所述导向管(1)的和冷却管的单元(4)安装成围绕一个完全已知的,作为(5)组成的反射膜中的至少一个层的超绝缘层。