公开(公告)号：US11668527B2

公开(公告)日：2023-06-06

申请号：US16953694

申请日：2020-11-20

Applicant: Ardent Life Inc.

Inventor： Shanel A. Lindsay

IPC: F27B5/14 ,  F27B5/18 ,  F27B5/08

CPC classification number: F27B5/14 ,  F27B5/08 ,  F27B5/18

Abstract: A waterless portable precision heating device includes an ingredient container to contain a food-related, a health-related, or a crafting-related ingredient; a thin heating element configured to surround and contact the ingredient container; an insulation layer configured to surround and contact the heating element; an outer shell surrounding the insulation layer; a lid that encloses the product container and fluidly seals it from the environment; at least one sensor configured to detect the temperature of the device; and a circuit board with a controller that controls the heating of the heating in response to signals received from the at least one sensor indicating whether the product container has reached a threshold temperature.

公开(公告)号：US20170287745A1

公开(公告)日：2017-10-05

申请号：US15619568

申请日：2017-06-12

Applicant: Arsalan Emami

Inventor： Arsalan Emami

IPC: H01L21/67 ,  H01L23/467 ,  F27D1/00 ,  F27B5/08

CPC classification number: H01L21/67098 ,  F27B5/08 ,  F27D1/0006 ,  F27D11/00 ,  F27D2009/0005 ,  H01L21/67109 ,  H01L23/467 ,  H01L2924/0002 ,  H01L2924/00

Abstract: A heater assembly with enhanced cooling pursuant to various embodiments described herein makes use of fluidic flow in the insulation or in the space used for insulation. By creating a natural convection or forced convection flow, the heater cools down faster, it can operate at lower temperatures and/or higher temperature precision, and it can improve temperature controllability by generating higher heat loss rates.

公开(公告)号：US07019266B1

公开(公告)日：2006-03-28

申请号：US10947912

申请日：2004-09-23

Applicant: Shariar Motakef ,  Serhat Yesilyurt

Inventor： Shariar Motakef ,  Serhat Yesilyurt

IPC: F27B5/08 ,  F27B5/14 ,  F27B3/28 ,  F27D1/10

CPC classification number: C30B33/02 ,  C30B29/12 ,  F27B5/08 ,  F27B5/14 ,  F27B5/18 ,  F27D19/00 ,  F27D21/0014 ,  Y10T117/1016

Abstract: A method of heating an optical member includes providing the optical member, directing heat from a heat source toward the optical member, and distributing the heat about the optical member through a high-thermal-conductivity apparatus disposed between the heat source and the optical member such that a surface of the apparatus defining a volume for receiving the optical member will have a substantially uniform temperature.

Abstract translation: 一种加热光学构件的方法包括提供光学构件，将热量从热源引向光学构件，并且通过设置在热源和光学构件之间的高热导率装置在光学构件周围分布热量，例如 限定用于接收光学构件的体积的装置的表面将具有基本均匀的温度。

公开(公告)号：US6072821A

公开(公告)日：2000-06-06

申请号：US88919

申请日：1998-06-02

Applicant: Niclas Axelsson

Inventor： Niclas Axelsson

IPC: F27B5/08 ,  F27B5/14 ,  F27D1/00 ,  F27D1/16 ,  F27D5/00 ,  H05B3/60

CPC classification number: F27B5/08 ,  F27D1/0043 ,  F27D5/00 ,  F27B2005/143

Abstract: A method and apparatus for heat-treating a material at high temperatures wherein the material from which the bottom of a furnace chamber is made forms a eutectic with the material to be heat-treated, and does so at a temperature lower than the heat treatment temperature. A part of the furnace chamber bottom, which part can include the whole or a portion of the furnace chamber bottom, and on which the material to be heat-treated rests is formed at least in part of a material that has the same chemical composition as, or a chemical composition similar to, the chemical composition of the material to be heat-treated. The furnace bottom part on which the material to be heat-treated rests is positioned so that it has no physical contact with the remaining furnace bottom material within the furnace chamber. The furnace bottom part is positioned such that the contact location between the bottom part and the furnace lining material at which the bottom part is arranged, will assume during the heat-treatment process a temperature that is lower than the temperature at which a molten phase will be formed between the materials that are in contact with one another at the contact location.

Abstract translation: 一种用于在高温下热处理材料的方法和装置，其中制造炉室的底部的材料与待热处理的材料形成共晶，并且在低于热处理温度的温度下进行 。 炉室底部的一部分，其部分可以包括炉室底部的整个或一部分，并且待热处理的材料搁置在其上的部分至少部分地由具有与 ，或类似于待热处理材料的化学成分的化学组成。 被热处理的材料放置在其上的炉底部分被定位成使其与炉室内剩余的炉底材料没有物理接触。 炉底部分被定位成使得底部部分与底部部分布置的炉衬材料之间的接触位置在热处理过程中将呈现出比熔融相温度低的温度 形成在接触位置处彼此接触的材料之间。

公开(公告)号：US4169408A

公开(公告)日：1979-10-02

申请号：US781405

申请日：1977-03-25

Applicant: Samuel A. Mencacci

Inventor： Samuel A. Mencacci

IPC: A23L3/36 ,  A23L3/00 ,  A23L3/02 ,  A23L3/12 ,  A23L3/14 ,  B65B55/04 ,  B65B55/06 ,  F25D1/02 ,  F27B5/08 ,  A47J27/08

CPC classification number: A23L3/025 ,  A23L3/003 ,  A23L3/02 ,  A23L3/12 ,  A23L3/14

Abstract: Method and apparatus for continuously processing filled containers with liquid heat treatment mediums maintained under superatmospheric pressure by an overriding air pressure. A minimum of liquid is used during processing with the liquid level being maintained above the containers at all times. The liquid is controllably circulated through container filled tunnels defined within carts, from one end of the tunnel to the other, to assure equal heat treatment of all containers in the batch of containers in each tunnel. The carts may either be non-agitating or agitating carts. One embodiment of the continuous pressure cooker and cooler includes a pressure vessel having two pressure locks to provide a pressure cooking chamber with high pressure cooling being performed in a mini-cooler defined by the outlet pressure lock followed by additional atmospheric cooling. Another embodiment of the invention comprises three pressure lock means to positively divide the pressure vessel into cooking and cooling chambers; and a third embodiment substitutes a plurality of baffles for the intermediate pressure lock thereby effectively dividing the pressure vessel into a cooking chamber and cooling chamber.

Abstract translation: 用于通过超压空气压力连续处理在超大气压下保持的液体热处理介质的填充容器的方法和装置。 在处理过程中使用最少的液体，液面始终保持在容器上方。 液体可控地循环通过在车内定义的容器填充的隧道，从隧道的一端到另一端，以确保在每个隧道中的批次容器中的所有容器的相等的热处理。 推车可能是非搅拌或搅拌车。 连续压力锅和冷却器的一个实施例包括具有两个压力锁的压力容器，以在由出口压力锁定以及额外的大气冷却所限定的微型冷却器中执行高压冷却以提供压力烹饪室。 本发明的另一个实施例包括三个压力锁定装置，用于将压力容器正向分成烹饪和冷却室; 并且第三实施例将多个挡板代替中间压力锁定，从而有效地将压力容器分成烹饪室和冷却室。

公开(公告)号：US3405924A

公开(公告)日：1968-10-15

申请号：US58372466

申请日：1966-10-03

Applicant: BTU ENG CORP

Inventor： HOWARD BECK JACOB

IPC: C21D1/74 ,  F27B5/08

CPC classification number: F27B5/08 ,  C21D1/74

公开(公告)号：US20220008991A1

公开(公告)日：2022-01-13

申请号：US17429763

申请日：2020-02-11

Applicant: Desktop Metal, Inc.

Inventor： Nathan Woodard ,  Jonah Samuel Myerberg ,  Emanuel M Sachs ,  Richard Remo Fontana ,  Robert Edward Weiss ,  Yet-Ming Chiang ,  Stephen Dipietro ,  Nicholas Graham Bandiera

IPC: B22F3/00 ,  B22F3/10 ,  B33Y40/20 ,  F27B5/04 ,  F27B5/08 ,  F27D1/00 ,  F27D99/00 ,  F27B5/18

Abstract: A furnace may include an outer wall defining a chamber, the chamber including an internal cavity configured to receive one or more parts, at least one heater positioned within the chamber, the at least one heater being configured to generate temperatures of at least about 800 degrees Celsius within the internal cavity, and a vacuum pump configured to apply a vacuum to at least a portion of the chamber. The furnace may also include at least one layer of inner insulation and at least one layer of outer insulation disposed outward of the inner insulation with respect to the chamber, the at least one layer of outer insulation being sealed with respect to the at least one layer of inner insulation.

公开(公告)号：US10605530B2

公开(公告)日：2020-03-31

申请号：US15660805

申请日：2017-07-26

Applicant: ASM IP Holding B.V.

Inventor： Lucian C. Jdira ,  Chris G. M. de Ridder ,  Theodorus G. M. Oosterlaken ,  Klaas P. Boonstra ,  Herbert Terhorst ,  Juul Keijser

IPC: F27D7/06 ,  F27B5/04 ,  F27B1/14 ,  F27B1/28 ,  F27B5/08 ,  F27B5/12 ,  F27B5/16 ,  F27D3/00 ,  F27D11/00 ,  H01L21/67

Abstract: An assembly of a liner and a flange for a vertical furnace for processing substrates is provided. The liner being configured to extend in the interior of a process tube of the vertical furnace, and the flange is configured to at least partially close a liner opening. The liner comprising a substantially cylindrical wall delimited by the liner opening at a lower end and closed at a higher end and being substantially closed for gases above the liner opening and defining an inner space. The flange comprising: an inlet opening configured to insert and remove a boat configured to carry substrates in the inner space of the liner; a gas inlet to provide a gas to the inner space. The assembly is constructed and arranged with a gas exhaust opening to remove gas from the inner space and a space between the liner and the low pressure tube.

公开(公告)号：US10529597B2

公开(公告)日：2020-01-07

申请号：US15619568

申请日：2017-06-12

Applicant: Arsalan Emami

Inventor： Arsalan Emami

IPC: F27D11/00 ,  H01L21/67 ,  H01L23/467 ,  F27D1/00 ,  F27B5/08 ,  F27B3/24 ,  F27D9/00

Abstract: A heater assembly with enhanced cooling pursuant to various embodiments described herein makes use of fluidic flow in the insulation or in the space used for insulation. By creating a natural convection or forced convection flow, the heater cools down faster, it can operate at lower temperatures and/or higher temperature precision, and it can improve temperature controllability by generating higher heat loss rates.

公开(公告)号：US09679791B2

公开(公告)日：2017-06-13

申请号：US14920900

申请日：2015-10-23

Applicant: Arsalan Emami

Inventor： Arsalan Emami

IPC: F27D11/00 ,  H01L21/67 ,  H01L23/467 ,  F27D1/00 ,  F27B5/08 ,  F27D9/00

CPC classification number: H01L21/67098 ,  F27B5/08 ,  F27D1/0006 ,  F27D11/00 ,  F27D2009/0005 ,  H01L21/67109 ,  H01L23/467 ,  H01L2924/0002 ,  H01L2924/00

Abstract: A heater assembly with enhanced cooling pursuant to various embodiments described herein makes use of fluidic flow in the insulation or in the space used for insulation. By creating a natural convection or forced convection flow, the heater cools down faster, it can operate at lower temperatures and/or higher temperature precision, and it can improve temperature controllability by generating higher heat loss rates.