| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | 레이다와 광학 추적기의 회전 열전달 장치 | KR1020030028982 | 2003-05-07 | KR1020040096139A | 2004-11-16 | 배종인 |
| PURPOSE: A rotary heat transfer device of a radar and an optical tracker is provided to prevent excessive high heat generated from products by controlling properly internal high heat generated in the radar and the optical tracker and to prevent the breakdown and damage of the products by restricting moisture. CONSTITUTION: A radar and an optical tracker have a rotary unit(2) for embedding a heating source(4) and performing detection and tracing functions and a rotation driver(3) connected with the rotary unit to turn the rotary unit. A rotary heat transfer device of the radar and the optical tracker comprises a heat exchanger(10) installed at the lower part of the rotation driver and connected with a cooling device(30) to control the internal temperature of the rotary unit by refrigerants of the cooling device and a rotary heat transfer unit(20) mounted in the heat exchanger and disposed at a central shaft(A1) of the rotation driver. The rotary heat transfer unit rotates about the central shaft of the rotation driver, penetrates and connects the rotary unit and the rotation driver, and transmits high heat generated from the heating source of the rotary unit to the heat exchanger. | ||||||
| 182 | 열교환기 | KR1019960706312 | 1995-05-05 | KR1019970702983A | 1997-06-10 | 란교이,요스타인; 미클레부스트,닐스; 리늄,스타이나르; 비켄,닐스,이바르 |
| 183 | 라디에이터의 흡입구 | KR2019950013106 | 1995-06-07 | KR2019970002652U | 1997-01-24 | 이종환 |
| 본고안은라디에이터의흡입구에관한것으로서, 헤더탱크에대하여직각으로연결되는유입유체용의라디에이터의흡입구에있어서; 상기흡입구(20)의내벽면에다수매의스파이럴리브(21)가축방향으로연장하면서고착되며, 상기스파이럴리브(21)는흡입구의축선에대하여소정의사각(A)을가지고스파이럴부착되는것을특징으로하여; 유체의유입시에유체자체에스파이럴리브(21)가안내판역활을구성함으로서회전력을부여하게되고따라서유체는정동적인상태에서교란유체(Turbulant Fluid)가됨으로서유체간의층간절연이없어짐으로서라디에이터의열효율이증대하는효과를가지게하는것을목적으로한다. | ||||||
| 184 | 버스용 라디에이터의 장착 구조 | KR2019930025287 | 1993-11-27 | KR2019950013742U | 1995-06-16 | 권구근 |
| 본고안의목적은버스의측면에설치하여라디에이터의방열성능을크게하여엔진의냉각효과를향상할수 있는버스용라디에이터의장착구조에관한것이다. 이를실현하기위한본 고안은엔진의구동에의한동력을전달하는팬벨트와; 이팬벨트에의해구동되는풀리와; 이풀리에설치되어회전하는냉각팬과; 이냉각팬과버스의후미측면에설치되는라디에이터사이를연결함으로서냉각효율을향상시키는가이드관이설치되어이루어지는버스용라디에이터의장작구조를특징으로한다. | ||||||
| 185 | 냉각 타워 냉각수 비산 방지 방책 | KR2019920026970 | 1992-12-28 | KR2019940016814U | 1994-07-25 | 임인찬 |
| 186 | 공기 조화기의 열교환 장치 | KR2019900011465 | 1990-07-31 | KR2019920004920Y1 | 1992-07-23 | 문재명 |
| 내용 없음. | ||||||
| 187 | ECHANGEUR DE CHALEUR À GAINES FLEXIBLES | PCT/EP2015/080725 | 2015-12-21 | WO2016107774A1 | 2016-07-07 | BANDELIER, Philippe |
Selon un aspect, l'invention porte sur un échangeur (1) de chaleur comprenant au moins : une gaine (110) flexible à l'intérieur de laquelle circule un fluide; un tube (50) présentant un orifice (55) verticalement situé sous la gaine (110); l'échangeur comprend un dispositif de connexion fluidique entre la gaine (110) et le tube (50), comprenant au moins une quille (10) présentant une extrémité (15) solidaire de la gaine (110) et une extrémité inférieure (16) insérée dans le tube (50); l'échangeur est configuré pour permettre un déplacement relatif entre la quille (10) et le tube (50); le dispositif de connexion fluidique comprend une bague (30) rapportée sur une pièce prise parmi la quille (10) et le tube (50), configurée pour définir un passage de fuite (80) pour l'évacuation d'une partie du fluide non condensé provenant de la quille (10). |
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| 188 | KINETIC HEAT-SINK WITH INTERDIGITATED HEAT-TRANSFER FINS | PCT/US2014/051987 | 2014-08-21 | WO2015027004A1 | 2015-02-26 | GONZALEZ, Lino A.; STODDARD, Steven J. |
A kinetic heat sink has a stationary portion with a first heat-conducting surface and a second heat-conducting surface to conduct heat therebetween. To cool heat generating devices devices, the stationary portion is mountable to a heat-generating component and has a first plurality of fins extending therefrom. The kinetic heat sink also has a rotating structure rotatably coupled with the stationary portion. The rotating structure is configured to transfer heat received from the second heat-conducting surface to a thermal reservoir in thermal communication with the rotating structure. The rotating structure has a movable heat-extraction surface with a second plurality of fins extending toward the first plurality of fins. At least a portion of the first plurality of fins preferably are interdigitated with at least a portion of the second plurality of fins. |
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| 189 | HEAT EXCHANGER | PCT/FI2014/050136 | 2014-02-21 | WO2014131943A1 | 2014-09-04 | HUTTUNEN, Juha |
The invention relates to a heat exchanger (1) which includes at least two plate-structured modules (2), within which there is at least one heat-transfer medium, outside of which there is at least one other heat-transfer medium. It is characteristic of the invention that the module (2) includes as planes a cover plane (3), an intermediate plane (4) and a bottom plane (5), the cover plane (3) and the bottom plane (5) are connected with each other by a jacket (6), the intermediate plane (4) is arranged to control the conveyance of the medium within the module along the cover plane (3), the jacket (6) and the bottom plane (5), the cover plane (3) includes at least one inlet nozzle (7) via which the heat-transfer medium is arranged transferrable within the module (2), the bottom plane (5) includes at least one outlet nozzle (8) via which the heat-transfer medium is arranged transferrable out of the module (2), and the modules (2) are connected with each other from the outlet nozzle (8) of the upper module (2) and from the inlet nozzle (7) of the lower module (2) such that there is a gap between the bottom plane (5) of the upper module (2) and the cover plane (3) of the lower module (2). |
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| 190 | MÁQUINA PARA EL INTERCAMBIO DE CALOR CON UN PRODUCTO | PCT/ES2012/070451 | 2012-06-18 | WO2012172153A1 | 2012-12-20 | ABAD RUIZ, Francisco Javier; ALARCÓN GONZÁLEZ, Marcos, Antonio |
Máquina para el intercambio de calor con un producto, que comprende: un recipiente tubular (1) en cuyo interior se aloja el producto, donde el recipiente tubular (1) comprende una sección transversal que comprende una geometría en forma de U; al menos un dispositivo térmico para calentar o enfriar el producto, donde dicho, al menos un, elemento térmico comprende un conducto de entrada (2) y un conducto de salida (3) de fluido caloportador; y al menos una pala rascadora interior al recipiente tubular (1) y configurada para arrastrar el producto interior a dicho recipiente tubular (1); permitiendo acelerar el tiempo de calentamiento o enfriamiento del producto gracias a una elevada mejora en la transferencia calorífica; así como simplificar el diseño de los componentes que forman parte la máquina objeto de invención. |
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| 191 | ELEMENTO MODULAR PERFECCIONADO PARA MÁQUINA DE INTERCAMBIO DE CALOR | PCT/ES2011/070913 | 2011-12-29 | WO2012093189A1 | 2012-07-12 | PAGAN DURAN, Jesús |
La presente invención se refiere a un elemento (2) modular para una máquina (1) de enfriamiento o calentamiento de un producto como alimentos, siendo la máquina (1) del tipo que se describe en la solicitud de patente ES-200800796. El elemento (2) modular comprende un cuerpo (17) discoidal sólido metálico en cuyo interior se conforman unos conductos (11,12,13,14) periférico, de entrada, de salida y de distribución de fluido caloportador o refrigerante, preferentemente mecanizados en el interior de dicho cuerpo discoidal. Estos conductos (11,12,13,14) configuran un circuito de circulación del fluido interior que parte desde y hasta unos orificios (9,10) de entrada y salida respectivamente situados en la parte central del elemento (2), permitiendo que el intercambio de calor con el producto se realice de forma eficiente. |
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| 192 | HEAT TRANSFER | PCT/AU2011/001394 | 2011-10-28 | WO2012054989A1 | 2012-05-03 | EINAV, Itai; ROGNON, Pierre |
The invention relates to a method for transferring heat between a first material having a first temperature and a second material having a second temperature, wherein said first temperature is greater than said second temperature, said method comprising providing one or more rotatable elements, disposing said one or more rotatable elements such that a heat transfer portion thereof is thermally contactable with both said first material and said second material on rotation of said one or more rotatable elements, and rotating said one or more rotatable elements, whereby heat is transferred from said first material to said heat transfer portion and from said heat transfer portion to said second material. |
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| 193 | INDUSTRIAL SHELL AND TUBE HEAT EXCHANGER | PCT/IB2011/052357 | 2011-05-30 | WO2012007856A1 | 2012-01-19 | POTGIETER, Evert, Frederik |
The invention discloses an industrial shell and tube heat exchanger for providing freezing or chilling of brine to produce slurry ice, which includes a shell and tube heat exchanger located in a horizontal position and which includes at least one tube within the shell and tube heat exchanger; and at least one rotatable spiral driven in at least the one tube, and which is adapted to move or pump the brine and slurry ice through the respective tube to ensure individual supply of brine for the production of slurry ice. |
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| 194 | ROTARY ENERGY RECOVERY DEVICE | PCT/US2010061056 | 2010-12-17 | WO2011079045A3 | 2011-10-06 | PINTO JUAN MIGUEL; MARTIN JEREMY G; STOVER RICHARD L |
| A rotary energy recovery device (11) wherein a multi-channel cylindrical rotor (15) revolves with its end faces (32) juxtaposed in sealing relationship with end surfaces (33) of a pair of flanking end covers (19, 21), and wherein inlet and outlet fluid passageways (27, 29) are provided in each end cover. Fluid may be directed into the rotor channels (16) and allowed to exit therefrom in an axial direction parallel to the axis of the rotor; however, rotor revolution is self-driven as a result of the interior design of the channels (16) which extend axially through the rotor and are shaped so that fluid flow therethrough creates a torque. | ||||||
| 195 | METHOD FOR COOLING MEALS AND STIRRING DEVICE EMBODIED AS A HEAT EXCHANGER | PCT/DE0200395 | 2002-02-04 | WO02062158A3 | 2002-12-19 | GOSELING HUBERT; KIENZLE PAUL |
| The invention relates to a method for producing a plurality of portions of a pre-cooked meal. The meal is first cooked and prepared at temperatures above 80 DEG C, and is then cooled during a cooling phase for less than 120 mins through a temperature range from 55 DEG C to 8 DEG C to reach an end temperature of between 8 DEG C and 0 DEG C. The meal is then stored at the end temperature for several days. Said meal is placed in a stirring vessel (22) and is simultaneously mixed and cooled during the cooling phase by an inventive stirring device (01, 26) embodied as a heat exchanger. | ||||||
| 196 | A METHOD AND A DEVICE FOR GAS TREATMENT | PCT/NO2000/000411 | 2000-12-04 | WO01045825A1 | 2001-06-28 | |
| The present invention relates to a device for treatment of an exhaust gas or a flue gas stream. The device comprises one or more entities (3) embracing functional elements (10, 20, 110, 230, 310, 330, 400) attached to, and which are able to rotate with, a hollow axle (4) and one or more pipes (5) running axially inside the hollow axle for transporting of necessary auxiliary fluids to effect the gas treatment. Furthermore, the invention relates to a method for treatment of an exhaust gas or a flue gas stream flowing through an exhaust gas duct or flue gas duct. The method comprises that the gas stream is conducted through one or more entities embracing functional elements attached to, and rotating with, a hollow, rotating axle and where necessary auxiliary fluids effecting the gas treatment enter and leave the functional element in each entity through pipes running axially inside the axle. The invention is particularly applicable for energy recovery and/or removal of CO2 from exhaust or flue gas. | ||||||
| 197 | THERMAL STORE | PCT/GB2013/052493 | 2013-09-24 | WO2014049344A2 | 2014-04-03 | THOMASON, John |
A thermal store (100) has a heat storage unit (1) with a heat storage medium (2), a first heat exchange system (3) through which a high temperature fluid can be passed to transfer heat to the heat storage medium, and a second heat exchange system (28) for transferring heat from the heat storage medium to a target. The second heat exchange system includes a conductive heat transfer element (8) and a fluid circuit (11, fig. 9) for a heat transfer fluid operatively connected with the conductive heat transfer element (8). The thermal store has a control system (110, Fig. 9) operative to selectively change the second heat exchange system (28) between a conductive heat transfer configuration and a non-conductive heat transfer configuration. The control system may be operative to regulate the thermal store in order to ensure safe operation and to move the store between heat storage and heat transfer modes. |
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| 198 | INTERCAMBIADOR DE CALOR TUBULAR | PCT/ES2012/070450 | 2012-06-18 | WO2012172152A3 | 2012-12-20 | PAGÁN DURÁN, Jesús |
La presente memoria describe un intercambiador de calor tubular (1) que comprende una camisa tubular (2); una primera pluralidad de tubos (3a) portadores de un fluido caloportador, situados en el interior de la camisa tubular (2); al menos un diafragma (4) situado en el interior de la camisa tubular (2), el cual divide el interior de la camisa (2) en al menos dos cámaras, donde dicho diafragma comprende un orifico central (4a) configurado para permitir el paso del producto, y donde dicho diafragma (4) comprende una pluralidad de orificios (4b) configurados para permitir el paso de la primera pluralidad de tubos (3a); y un pistón (5) que comprende un eje tubular (5a) y al menos dos placas (6) perpendiculares al eje tubular (5a); donde dicho eje tubular (5a) está configurado para efectuar un desplazamiento alternativo longitudinal a través del orificio central (4a) de dicho, al menos un, diafragma (4); mejorando la transferencia calorífica del intercambiador objeto de invención. |
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| 199 | HEAT SINK MOUNT WITH POSITIONABLE HEAT SINKS | PCT/US2011/038615 | 2011-05-31 | WO2012166122A1 | 2012-12-06 | LIU, Zhe, Hong |
A thermal transfer device including a thermally conductive support structure to be secured to a substrate having at least two types of heat sources. The support structure has a plurality of apertures, one for each first heat source. Each aperture accommodates an individual heat sink configured to make thermal contact with a first heat source. Each heat sink fits in its aperture, and is attached to the support structure by at least one spring mount for holding the heat sink in place. Preferably, the spring mount includes a plurality of springs disposed about the heat sink to provide a balanced downward force on the heat sink. The support structure has a bottom surface receiving a thermal transfer medium to provide thermal contact between the second heat sources and the support structure, thereby allowing for dissipation of the heat generated by the second heat sources through the support structure. |
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| 200 | ROTARY ENERGY RECOVERY DEVICE | PCT/US2010/061056 | 2010-12-17 | WO2011079045A2 | 2011-06-30 | PINTO, Juan Miguel; MARTIN, Jeremy G.; STOVER, Richard L. |
A rotary energy recovery device (11) wherein a multi-channel cylindrical rotor (15) revolves with its end faces (32) juxtaposed in sealing relationship with end surfaces (33) of a pair of flanking end covers (19, 21), and wherein inlet and outlet fluid passageways (27, 29) are provided in each end cover. Fluid may be directed into the rotor channels (16) and allowed to exit therefrom in an axial direction parallel to the axis of the rotor; however, rotor revolution is self-driven as a result of the interior design of the channels (16) which extend axially through the rotor and are shaped so that fluid flow therethrough creates a torque. |
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