61 |
Cooking unit |
JP15652681 |
1981-09-30 |
JPS5855625A |
1983-04-02 |
MAEDA MITSUOKI; MORII SHIGEHIRO; GONDA TAKANORI |
PURPOSE:To facilitate a fixing of the thermal insulation mateial and improve a performance of assembly operation by a method wherein an inner case forming a heating housing is covered by the thermal insulation material and the thermal insulation material is forcedly pressed against the inner case by the metallic wires engaged with the inner case. CONSTITUTION:The inner case 14 forming the heating housing 13 is composed of an upper metal plate 15 forming a top wall and rear wall and a lower metal plate 16 forming a bottom plate, both of them are integrally formed by inserting the barring 17 of the metal plate 16 into the holes in the upper metal plate 15 and engaging the barring 17. At the extremity end of the upper metal plate 15 is formed a ridge part 18 bent upwardly and then an engaging part 19 projected rearwardly is formed at the ridge part 18. When the thermal insulation material 20 such as glass wool etc. with aluminum foil 21 adhered to a front surface thereof is fixed to the outside of the inner case 14 with a substantial L-shaped metal wire 22, the lower end 24 of the metal wire 22 is inserted into the barring part 17 and then the upper end 23 is inserted and engaged with the engaging part 19. |
62 |
JPS5846015U - |
JP14187281 |
1981-09-24 |
JPS5846015U |
1983-03-28 |
|
|
63 |
Mounting of ceramic fiber block |
JP11367080 |
1980-08-19 |
JPS5737687A |
1982-03-02 |
KATOU TAKEO |
|
64 |
JPS572318U - |
JP7846080 |
1980-06-04 |
JPS572318U |
1982-01-07 |
|
|
65 |
INSULATION PROCESS AND APPLIANCE OBTAINED |
US16318914 |
2017-07-18 |
US20190186675A1 |
2019-06-20 |
Christophe BAREYT; David GOGEON |
A process is for insulating an appliance, in particular a three-dimensional appliance likely in particular to be exposed to high temperatures, such as a domestic oven. The appliance has one or more internal spaces to be insulated. Flakes and/or nodules of wool(s) and/or fibers, in particular mineral wool(s) and/or fibers, are blown into the space(s) to be insulated without adding binder or water. |
66 |
OVEN |
US15750160 |
2016-07-26 |
US20180224130A1 |
2018-08-09 |
Dong Ho Lee |
Disclosed herein is an oven able to reduce the temperature of an upper portion of the front glass through a door duct having an improved flow path structure for some of the air sucked into the inside of the door to reach to the upper portion of the front glass. An oven includes a main body; a cooking room provided inside the main body with an open front; a door, wherein the door includes a front glass installed on a front side; a rear glass installed on a rear side; at least one middle glass arranged between the front glass and the rear glass; a door handle coupled to an upper portion of the front glass; support frames arranged on both sides of the door to fix the front glass, the rear glass, and the middle glass; and a door duct coupled to an upper portion of the support. |
67 |
Aircraft Service Trolley and Galley Enclosure Therefor |
US15647193 |
2017-07-11 |
US20180016013A1 |
2018-01-18 |
Peter John Leslie Burd; Neil R. Elshaw; Sam Foster; Venkata Prasanth Suman Neti; Allan Coombs; Donna Charlene Brownlie; Merv Davidson; Elizabeth M. Payne |
In an illustrative embodiment, a retaining assembly secures an equipment item within an aircraft galley compartment. The retaining assembly may include a turn button assembly including a turn button connected to a front edge of the galley compartment to secure the equipment item within the galley compartment. The turn button rotates between a first position for allowing insertion or release of the equipment item from the galley compartment and a second position for securing the equipment item within the galley compartment. A turn button recess on an inner surface of a panel door that is coupled to an edge of an opening for the galley compartment receives the turn button of the turn button assembly when the turn button is in the second position to allow the panel door to fully close over the opening for the galley compartment. |
68 |
Insulation system for a cooking appliance incorporating a plurality of microsphere sheets |
US14709896 |
2015-05-12 |
US09630381B2 |
2017-04-25 |
Frederick A. Millett |
An appliance includes an outer shell and an inner shell, wherein the outer shell and the inner shell are engaged to define an insulating cavity therebetween, and wherein the inner shell includes an inner surface that defines an interior cavity. An insulation member includes a plurality of layers, each layer of the plurality of layers including an insulative sheet defining first and second surfaces and a plurality of microspheres at least partially disposed within the insulative sheet, wherein at least a portion of the plurality of microspheres extends outward from each of the first and second surfaces to define a plurality of protrusions, and wherein the engagement of two adjacent layers of the plurality of layers causes a portion of the plurality of protrusions to engage and define a plurality of insulating air pockets between the adjacent layers. |
69 |
Insulation configuration for thermal appliances |
US14852894 |
2015-09-14 |
US09513017B2 |
2016-12-06 |
Manoj K. Choudhary; Francis S. Tyler |
An insulation system for a thermal oven. The insulation system comprises a cabinet and a liner positioned within the cabinet. The liner defines an oven cavity. The liner includes opposing sides, a top, a bottom, a front and a back. A layer of insulation is positioned between the cabinet and the outside of the opposing sides, top, bottom and back of the liner. The layer of insulation is positioned to create an air gap between the insulation and the opposing sides, top, bottom and back of the liner. The insulation has a thermal energy reflective facing attached to an interior surface facing the liner. |
70 |
Vacuum insulated panel |
US14067025 |
2013-10-30 |
US09487953B2 |
2016-11-08 |
Venkata S. Nagarajan; William J. Grieco |
A vacuum insulated panel includes a fiberglass insulation blanket and a barrier layer. The barrier layer is sealed around the fiberglass insulation blanket. Gas inside the barrier layer is evacuated such that the fiberglass insulation blanket is compressed. |
71 |
HEAT RECLAMATION APPARATUS AND METHOD |
US15093349 |
2016-04-07 |
US20160298859A1 |
2016-10-13 |
Michael J. Horvath |
A kitchen heat reclamation apparatus includes a heat producing kitchen apparatus, and a chute positioned near a portion of the heat producing kitchen apparatus that produces heated air. An air handler moves at least a portion of the heated air produced by the heat producing kitchen apparatus along a heated air path that passes through the chute. A heat extractor is associated with the chute. The heat extractor removes heat from the air before exhausting the air to the atmosphere. The heat removed by the heat extractor can be used in other areas of a building or can be used to generate electricity. |
72 |
INSULATION CONFIGURATION FOR THERMAL APPLIANCES |
US14852894 |
2015-09-14 |
US20150377494A1 |
2015-12-31 |
Manoj K. Choudhary; Francis S. Tyler |
An insulation system for a thermal oven. The insulation system comprises a cabinet and a liner positioned within the cabinet. The liner defines an oven cavity. The liner includes opposing sides, a top, a bottom, a front and a back. A layer of insulation is positioned between the cabinet and the outside of the opposing sides, top, bottom and back of the liner. The layer of insulation is positioned to create an air gap between the insulation and the opposing sides, top, bottom and back of the liner. The insulation has a thermal energy reflective facing attached to an interior surface facing the liner. |
73 |
VACUUM INSULATED PANEL |
US14067025 |
2013-10-30 |
US20150118434A1 |
2015-04-30 |
Venkata S. Nagarajan; William J. Grieco |
A vacuum insulated panel includes a fiberglass insulation blanket and a barrier layer. The barrier layer is sealed around the fiberglass insulation blanket. Gas inside the barrier layer is evacuated such that the fiberglass insulation blanket is compressed. |
74 |
REDUCING PRE-HEAT TIME IN AN OVEN |
US13775390 |
2013-02-25 |
US20140238382A1 |
2014-08-28 |
Natarajan Venkatakrishnan |
A heating assembly is provided to reduce the pre-heat time of an oven. The heating assembly vaporizes a phase change fluid in an evaporator, allows the phase change fluid vapor to travel to a reactor in thermal communication with a cooking chamber of an oven appliance. In the reactor, the phase change fluid combines with a reaction substance and condenses, releasing latent heat and providing heat to the cooking chamber of the oven appliance. |
75 |
INSULATION CONFIGURATION FOR THERMAL APPLIANCES |
US13789766 |
2013-03-08 |
US20130186385A1 |
2013-07-25 |
Manoj K. Choudhary; Francis S. Tyler |
An insulation system for a thermal oven. The insulation system comprises a cabinet and a liner positioned within the cabinet. The liner defines an oven cavity. The liner includes opposing sides, a top, a bottom, a front and a back. A layer of insulation is positioned between the cabinet and the outside of the opposing sides, top, bottom and back of the liner. The layer of insulation is positioned to create an air gap between the insulation and the opposing sides, top, bottom and back of the liner. The insulation has a thermal energy reflective facing attached to an interior surface facing the liner. |
76 |
PARTITION ADAPTED FOR SEPARATING A COOKTOP FROM A UNDERLYING DRAWER |
US13723246 |
2012-12-21 |
US20130162129A1 |
2013-06-27 |
ROHIT ARUN DANGE; DONATO LO PRESTI |
A partition is adapted for separating a cooktop placed on a cabinet, from an inner compartment of said cabinet, said compartment being delimited by side walls, a bottom and by a rear wall. The compartment being independently opened and upwardly presenting the cooktop and adapted to contain objects placed in a drawer or shelves fixed to the side walls. The partition which comprises at least two portions, movable relative to each other in a direction orthogonal to the side walls of the cabinet adapted to be fixed to said walls, said portions being relatively coupled in a position which is according to the distance of said side walls and such as to completely divide the cooktop from the below compartment of the cabinet. |
77 |
BAKING APPLIANCE |
US13627021 |
2012-09-26 |
US20130074821A1 |
2013-03-28 |
Uwe Keller |
A baking appliance includes a heatable baking chamber and a door that closes the baking chamber. The door includes an inner pane facing the baking chamber when the door is closed and an outer pane facing outward when the door is closed. At least one holding element is configured to arrange the inner pane and outer pane so as to form at least one ventilation channel between the inner pane and outer pane. At least one cooling element is associated with the at least one holding element and extends into the at least one ventilation channel. |
78 |
Heat-Storage Cooker |
US13277845 |
2011-10-20 |
US20120097047A1 |
2012-04-26 |
Konrad Schönemann; Michael Riffel; Uwe Schaumann; Wilfried Schilling; Norbert Gärtner |
A heat-storage cooker has at least one heat source and a thermogenerator with a hot side and a cold side for generating electrical energy during operation of the heat source for the purpose of supplying the electrical energy to an electrical functional unit, in particular an electronic control means, of the heat-storage cooker. The hot side is provided close to the heat source with good thermal coupling to the said heat source, and the cold side is routed to the surrounding area, to a baking-oven muffle or to a cooking plate of the heat-storage cooker. Therefore, an electronic control means can be operated even in the case of a heat-storage cooker without an electrical connection. |
79 |
APPARATUS AND METHOD FOR INSULATING AN APPLIANCE |
US13187036 |
2011-07-20 |
US20120017883A1 |
2012-01-26 |
Scott A. Campen; William A. Kunkler; Jason M. Seward |
An appliance has an insulation assembly. The appliance includes a liner defining an appliance chamber. A source of heat is positioned to heat an interior the chamber. An insulation assembly is positioned exterior to the chamber. Insulation includes loose-fill insulation material. The insulation including the loose-fill insulation material is positioned in the insulation assembly. |
80 |
Lithic wireless warming table and portable heaters |
US11235897 |
2005-09-27 |
US07800024B2 |
2010-09-21 |
Michel A. Duguay; Philippe Faucher |
A method and system for supplying thermal energy to a selected area, in which thermal energy is stored in a sensible heat storage. Thermal energy from the sensible heat storage is optically guided, and eventually also thermally conducted through a thermal energy propagation path from the sensible heat storage to the selected area. A flux of thermal energy is controlled through the propagation path from the sensible heat storage to the selected area to control the amount of thermal energy supplied to the selected area. |