| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 428069000 | Filled with gas other than air; or under vacuum | 69 |
| 20080280090 | Vaccum Insulation Panal And Insulation Structure Of Refrigerator Using The Same - Disclosed are a vacuum insulation panel and an insulation structure of a refrigerator using the same. The vacuum insulation panel comprises a core material formed by gather glass fiber, a getter having a container to receive an absorbent having quicklime of 90 wt % or greater as a main component, and a sealing cover formed to surround the core material and the getter. The core material can be formed at low cost in such a manner that glass fiber is tangled and gathered by penetrating glass wool having glass fiber using a needle. Since the getter is made of quicklime that can first remove water corresponding to a main component of the absorbent, the getter can be manufactured at low cost and has improved insulation efficiency. | 11-13-2008 |
| 20090162599 | Thermoacoustic barrier vacuum panel - A heat and sound barrier panel comprising an upper pane ( | 06-25-2009 |
| 20090233038 | THERMAL AND SOUND BUILDING INSULATION PANELS HAVING INTERNAL VACUUM - According to the invention, a system for insulating a structure is disclosed. The system may include an insulation panel. The insulation panel may define an internal volume. The internal volume may be at a lower pressure than an exterior of the insulation panel. The insulation panel may be disposed within a portion of the structure. | 09-17-2009 |
| 20090304978 | VEHICLE FLOOR MAT - A vehicle floor mat includes an air cushioning device formed of soft plastic. The air cushioning device includes a top, a bottom, and an outer, annular portion. A sealed air chamber is defined between the top, the bottom, and the outer, annular portion, providing the air cushioning device with buffering elasticity. A mat body includes an engaging section coupled with the air cushioning device. The mat body is mounted on a floor of a vehicle, and the air cushioning device can be stepped on. | 12-10-2009 |
| 20090304979 | Aircraft side fairing - The invention relates to an aircraft side fairing, with a component ( | 12-10-2009 |
| 20090324871 | VACUUM INSULATION PANEL WITH A LEAD-THROUGH - To provide a cost-effective, stable vacuum insulation panel ( | 12-31-2009 |
| 20100129588 | INSULATION VACUUM PANEL - Systems and methods are disclosed to insulate a panel by providing a core material disposed in the panel; and providing a vacuum region in the panel by removing air from the panel. | 05-27-2010 |
| 20100167002 | METHOD FOR ENCAPSULATING ENVIRONMENTALLY SENSITIVE DEVICES - Methods of sealing environmentally sensitive devices and vacuum insulation panels are described. One method includes: providing first and second substrates; placing the environmentally sensitive device between the first and second substrates; sealing the first and second substrates together with an adhesive, the adhesive having an exposed portion; and covering the exposed portion of the adhesive with a barrier layer, or with a barrier stack comprising at least one decoupling layer and at least one barrier layer. | 07-01-2010 |
| 20110117308 | VACUUM INSULATION BOARD AND METHOD FOR PRODUCING THE SAME - A vacuum insulated panel, comprising a filler and a vacuum-tight high-barrier film envelope, with an air-permeable sheet element serving as a filter material for dust, wherein the sheet element consists of the same material as the sealing layer of the high-barrier film enveloping the vacuum insulated panel and passes through at least two of the sealing seams of the high-barrier film, and to a method for producing such a vacuum insulated panel, wherein the sheet element, in the form of a strip is folded along a central axis, is placed between two sealing films, and is bonded to the inwardly disposed sealing layers of the sealing films such that a joint is formed between the two sealing films, and the two sealing films are sealed together by means of a respective seam on each of the perpendicular sides, the strip-shaped sheet element being co-sealed into these seams. | 05-19-2011 |
| 20110129637 | Vacuum Insulation Panel, And Method For The Production Thereof - The invention relates to a vacuum insulation panel ( | 06-02-2011 |
| 20110165367 | VACUUM HEAT INSULATION MATERIAL AND MANUFACTURING METHOD THEREFOR - A plurality of thin-wall parts ( | 07-07-2011 |
| 20110244167 | Thermal insulation core material and vacuum insulation panel and manufacturing process thereof - A thermal insulation core material and a vacuum insulation panel and a manufacturing process thereof are disclosed. The process for manufacturing a thermal insulation core material comprises: A) stirring and dispersing a mixture of glass fiber cotton and water to obtain a slurry; B) adding water and dilute sulfuric acid into the slurry to obtain a concentration of 0.1% and a pH value in a range of 2.5-3.0; C) removing residue from the slurry to obtain a qualified slurry, the residue comprising unmelted glass fibers; D) transporting the qualified slurry from a high-level tank to a head box, through which the qualified slurry flows onto a forming mesh where the qualified slurry is dehydrated to obtain a plate-shaped core material; E) transporting the plate-shaped core material into a vacuum box for compression and dehydration; and F) drying the plate-shaped core material. | 10-06-2011 |
| 20110256334 | Multi-Laminate Hermetic Barriers and Related Structures and Methods of Hermetic Sealing - A free-standing multi-laminate hermetic sheet includes a first carrier film, a hermetic inorganic thin film formed over the first carrier film, and a second carrier film formed over the hermetic inorganic thin film. A workpiece can be hermetically sealed using the multi-laminate sheet, which can be applied to the workpiece in a step separate from a formation step of either the multi-laminate sheet or the workpiece. | 10-20-2011 |
| 20110274868 | VACUUM THERMAL INSULATING MATERIAL AND THERMAL INSULATING BOX INCLUDING THE SAME - There are provided a vacuum thermal insulating material that is excellent in terms of a handling property, a thermal insulating property, creep resistance, and productivity; and a thermal insulating box including the vacuum thermal insulating material. A core material was enclosed and sealed in a wrapping material with a gas barrier property. The core material of the vacuum thermal insulating material in which the interior of the wrapping material is in a decompression state, is constituted by one organic fibrous assembly having continuous organic fibers formed sheet-shaped or a stack of the organic fibrous assemblies. | 11-10-2011 |
| 20110287208 | Composite Fabric with Rigid Member Structure - A composite structure is provided including a first fabric and a second fabric. A substantially elongate and substantially rigid first member is spaced apart from and coupled with the first fabric via the second fabric. A resin substantially is infused into the first fabric and the second fabric, and substantially encapsulates the first member to form a unitary structure. | 11-24-2011 |
| 20120009376 | Vacuum Insulation Panel, Insulated Masonry Structure Comprising Same, And Method Of Construction - A vacuum insulation panel is provided comprising a core with a plurality of stacked non-woven organic free glass fiber sheets, plies, or net shape one piece glass fiber core and a vacuum sealed enclosure containing the core. The fiberglass sheets are formed from glass fibers having a nominal diameter of about 1.5-3.0 microns and the enclosure is formed from an annealed stainless steel foil. The vacuum insulation panel has a thickness of from about 1 to 2.5 inches and an insulation value R of at least 56.8 at moderate vacuum levels between about 1.0E−02 to 1.0E+01 mTorr. In addition, a method of manufacturing same is provided, as well as a method of construction, wherein the vacuum insulation panel is disposed between two walls in the gap therebetween, and preferably a filler material, such as aerated concrete, fiberglass, foam, etc., is disposed in the gap so as to partially or fully encase the vacuum insulation panel. | 01-12-2012 |
| 20120058292 | Vacuum Insulation Panel - A vacuum insulation panel (VIP) in an example comprises first and second walls and a plurality of tensile elements. The first and second walls are structurally coupled to allow formation of a vacuum cavity between the first and second walls. The plurality of tensile elements structurally supports the first and second walls against external pressure contemporaneous with tension on the plurality of tensile elements. The plurality of tensile elements is located in the vacuum cavity between the first and second walls. | 03-08-2012 |
| 20120114895 | THERMAL INSULATING PANEL COMPOSITE - Prepare an article by providing an extruded thermoplastic polymer foam having a cavity defined therein and placing a vacuum insulation panel entirely within the cavity. | 05-10-2012 |
| 20120114896 | METHOD FOR FABRICATING CORE OF VACUUM INSULATION PANEL, CORE OF VACUUM INSULATION PANEL, AND VACUUM INSULATION PANEL HAVING THE SAME - Disclosed are a method for fabricating a core of a vacuum insulation panel, a core of a vacuum insulation panel, and a vacuum insulation panel having the core. The core is positioned at an inner side of an envelope of a vacuum insulation member, which is formed by bonding synthetic resin material fibers through thermal bonding. | 05-10-2012 |
| 20120128920 | CORE OF VACUUM INSULATION MEMBER AND VACUUM INSULATION MEMBER USING THE SAME - A core of a vacuum insulation member and a vacuum insulation member using the same are disclosed. The core of a vacuum insulation member includes: a plurality of plates which are spaced apart from each other; and a support member supporting the plurality of plates between the plates. | 05-24-2012 |
| 20120148785 | GAS-BARRIER HEAT-SEAL COMPOSITE FILMS AND VACUUM INSULATION PANELS COMPRISING THE SAME - A gas-barrier heat-seal composite film is provided. The gas-barrier heat-seal composite film includes a heat-seal layer including very low density polyethylene (VLDPE), low density polyethylene (LDPE), linear low density polyethylene (LLDPE), high density polyethylene (HDPE), metallocene polyethylene (mPE), metallocene linear low density polyethylene (mLLDPE), ethylene vinyl acetate (EVA) copolymer, ethylene-propylene (EP) copolymer or ethylene-propylene-butene (EPB) terpolymer, and a gas-barrier layer formed on the heat-seal layer, wherein the gas-barrier layer includes a plurality of composite layers, each including a polymer substrate and a single layer or multiple layers of metal or oxide thereof which is formed on one side or both sides of the polymer substrate, and the polymer substrate includes uniaxial-stretched or biaxial-stretched polyethylene terephthalate (PET), polybutylene terephthalate (PBT), polyimide (PI), ethylene/vinyl alcohol (EVOH) copolymer or a combination thereof. The invention also provides a vacuum insulation panel including the composite film. | 06-14-2012 |
| 20120164365 | VACUUM INSULATION PANEL AND METHOD FOR MANUFACTURING THE SAME - A vacuum insulation panel and to a method for manufacturing same. The method comprises: (a) a step of laminating a plurality of glass fiber boards to form a core, wherein the glass fiber boards are produced by a papermaking method using glass fiber dispersed in an inorganic binder; (b) a step of forming an outer cover having a structure in which a surface protection layer, a metal barrier layer, and an adhesive layer are laminated; (c) a step of producing a getter by packing quicklime (CaO) powder in a pouch; (d) a step of attaching the getter onto the core, or inserting the getter into the surface of the core; and (e) a step of forming the outer cover into a bag body, inserting the core from step (d) into the bag body, and sealing the bag body, thereby improving long-term durability of the vacuum insulation panel. | 06-28-2012 |
| 20120201996 | Corrosion Inhibiting Systems - A corrosion inhibiting agent is provided as a finely ground powder that is dispensed into a sheath or other casing enclosing a metal bar, cable, or other tension member. The agents are produced by preparing salts of amines with benzoic acid or nitric acid, drying the salts, and grinding and screening the salts to provide a desired maximum particle size. Also disclosed is a dry fogging system through which the powder is applied to metal tension members enclosed in polymeric sheaths or other fluid tight casings. | 08-09-2012 |
| 20120201997 | VACUUM HEAT INSULATING MATERIAL AND REFRIGERATOR - A highly reliable vacuum heat insulating material having excellent workability, usability, and heat insulating performance, and a heat insulation box using the vacuum heat insulating material are provided. A vacuum heat insulating material includes: a first fiber assembly made by aligning a plurality of sheet-shaped fiber assemblies, which are continuous in a length direction, so as to be next to each other in a width direction; a second fiber assembly provided so as to overlap the first fiber assembly and made by aligning a plurality of sheet-shaped fiber assemblies, which are continuous in the length direction, so as to be next to each other in the width direction; and a core material formed in a flat plate shape by winding up the first fiber assembly and the second fiber assembly continuously from inside toward outside while being displaced by a predetermined amount Xb in the width direction. | 08-09-2012 |
| 20120207962 | MANUFACTURING APPARATUS OF CORE MATERIAL OF VACUUM HEAT INSULATING MATERIAL, MANUFACTURING METHOD OF VACUUM HEAT INSULATING MATERIAL, VACUUM HEAT INSULATING MATERIAL, AND REFRIGERATOR - A manufacturing apparatus of a core material of a highly reliable vacuum heat insulating material having excellent workability, usability, and heat insulating performance is provided. The manufacturing apparatus of a core material of a vacuum heat insulating material related to the present invention includes: a reel for winding up a fiber assembly which has a predetermined width and is wound on a substantially cylindrical original fabric roll which has been cut to have a predetermined width, at a predetermined number of times; cutting means for cutting the fiber assembly which has been wound on the reel; and a forming member for forming the fiber assembly into a flat-plate-shaped core material after removing from the reel the fiber assembly which has been wound up on the reel at the predetermined number of times and been cut. | 08-16-2012 |
| 20120207963 | VACUUM INSULATION PANEL - 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. | 08-16-2012 |
| 20120231204 | GROOVED TYPE VACUUM THERMAL INSULATION MATERIAL AND A PRODUCTION METHOD FOR THE SAME - The present invention relates to a groove-type vacuum insulation material and a method of manufacturing the same. The groove-type vacuum insulation material includes core materials each having a block shape, at least one lateral wall of which has an inclined surface; a groove-type insulation board, in which the core materials are arranged on a plane of the board to be separated from each other, with the inclined surfaces thereof facing each other; an outer skin material formed in a film pouch shape and surrounding the entirety of upper and lower sides of the groove-type insulation board, the outer skin material being brought into close contact with the groove-type insulation board by vacuum-sealing, and exhibiting bending characteristics in a space between the core materials. The present invention also relates to a method of manufacturing the same. | 09-13-2012 |
| 20120237715 | BENDING PREFORMED VACUUM INSULATION PANEL - Methods alter the shape of vacuum insulation panels in processes that begin by supplying a previously manufactured vacuum insulation panel. Such a vacuum insulation panel comprises a continuous porous core material surrounded by a sealed airtight cover that is formed in a process such that the sealed airtight cover keeps the pressure level within the vacuum insulation panel below the ambient atmospheric pressure (maintains a vacuum with the vacuum insulation panel). The methods herein form at least one indent into the exterior of the vacuum insulation panel and into the surface of the continuous porous core material, without piercing the sealed airtight cover. After forming such an indent, the methods herein fold the vacuum insulation panel along the indent. | 09-20-2012 |
| 20120237716 | FILM FOR VACUUM HEAT INSULATING MATERIAL, AND VACUUM HEAT INSULATNG MATERIAL - Provided are a film for a vacuum heat insulating material which has better gas barrier property as compared with conventional films for a vacuum heat insulating material and which is capable of retaining the excellent gas barrier property even after having been subjected to a folding or deforming process, and a vacuum heat insulating material having a core material hermetically packaged with the film. The film includes a protective layer that is a coextruded and stretched film in which a nylon-based resin, an ethylene-vinyl alcohol copolymer and a nylon-based resin are laminated in this order, a gas barrier layer, and a heat seal layer. | 09-20-2012 |
| 20120321834 | CORE MATERIAL FOR VACUUM INSULATION PANEL AND METHOD OF MANUFACTURING THE SAME - The present invention relates to a core material for a vacuum insulation panel and a method of manufacturing the same. The method includes (a) preparing a solution of an inorganic binder; (b) dipping glass wool into the inorganic binder solution; (c) loading the glass wool on an upper portion of a chamber; (d) creating a vacuum in the chamber to discharge the inorganic binder solution from the glass wool into the chamber; and (e) drying and molding the glass wool into the form of a core material for manufacturing a vacuum insulation panel, thereby enhancing long term-durability of the vacuum insulation panel. | 12-20-2012 |
| 20130029082 | VACUUM INSULATION PANEL - The present invention relates to a vacuum insulation panel to be used as an insulation material, which panel has an improved structure to improve insulation properties over conventional vacuum insulation panels filed with fillers within outer plates. The present panel includes a spacer within vacuumed space, thereby supporting the structure of outer plate against atmospheric pressure and minimizing conductive thermal transfer. | 01-31-2013 |
| 20130071602 | COMPOSITE MATERIALS COMPRISING AN OPEN-CELL POLYMER MATRIX AND GRANULES EMBEDDED THEREIN - Composite materials are provided that include an open-cell polymer foam matrix including one or more polymers and, embedded into the polymer foam matrix, granules or shapes which have an open porosity. | 03-21-2013 |
| 20130089696 | PREFABRICATED COMPOSITE INSULATION BOARD - A prefabricated composite insulation board comprises a facing of a flexible sheet material and a plurality of vacuum insulation panels (VIP) adhesive bonded thereto. A body of insulating foam overlies the vacuum insulating panels and the carrier. There are gaps between adjacent vacuum insulation panels and these gaps are filled with the foam. Alternatively, groups of VIP's may be positioned close to one another and gaps left at defined locations. These gaps may be used to provide regions at which the panel may be cut to a desired length without cutting through and VIP's. External markings such as cut-lines may be provided to indicated the location of these gaps. | 04-11-2013 |
| 20130101779 | VACUUM INSULATION MATERIAL - A vacuum insulation material includes a core material, and a wrapping member configured to wrap the core material, wherein the wrapping member comprises an outermost layer externally exposed, a barrier layer located beneath the outermost layer and having at least two laminated polymer layers, each polymer layer having an inorganic layer metalized thereon, and a thermal bonding layer located beneath the barrier layer and contacting the core material, wherein the inorganic layers metalized on the polymer layers, respectively, are separated from each other, at least one of the inorganic layers being more than 600 Å in thickness. | 04-25-2013 |
| 20130115407 | VACUUM INSULATION MATERIAL AND INSULATION STRUCTURE FOR REFRIGERATOR CABINET HAVING THE SAME - A vacuum insulation material includes a core material, and a wrapping member configured to cover the core material, the wrapping member provided with an outermost layer externally exposed, a barrier layer laminated beneath the outermost layer, and a thermal bonding layer disposed beneath the barrier layer and contacting the core material, wherein the barrier layer comprises at least one polyimide film, on which an inorganic layer is laminated. With the configuration, the wrapping member of the vacuum insulation material can be more resistant to high temperature such that the vacuum insulation material can be safe from the risk of deformation, resulting in enhancing reliability of insulation efficiency. | 05-09-2013 |
| 20130142983 | COMPOSITE CORE MATERIAL FOR VACUUM INSULATION PANEL, PREPARATION METHOD THEREOF, AND VACUUM INSULATION PANEL USING THE SAME - The present invention relates to a composite core material for a vacuum insulation panel which exhibits excellent initial insulation and long-term durability, a method of manufacturing the same, and a vacuum insulation panel using the same. The vacuum insulation panel includes a composite core material formed of glass fiber wool and a glass fiber board, and an outer skin material having a layered structure comprising a surface protective layer, a metal barrier layer, and a bonding layer from the outside to vacuum-package the core material. | 06-06-2013 |
| 20130164484 | LIGHTWEIGHT IMPACT RESISTANT PANEL - A Hollow lightweight panel made of high tensile strength rigid material. The panel comprises multiple parallel elongated cavities. The cavities are sealed and pressurized with gas. The gas pressure acts to resist any deformation of the panel and thereby reinforces and stabilizes the structure. The panel is suitable for use as structural element in aircraft, spacecraft and road vehicles. The panel is especially effective as armor element, as a lightweight backing for hard layers and as rigid under belly and side panels where required to be resistant to bomb and mine blasts. | 06-27-2013 |
| 20130202839 | VACUUM INSULATION MATERIAL AND METHOD FOR PRODUCING SAME - A vacuum insulation material has excellent thermal insulation even in a high-temperature environment over a long period of time. A core starting material composition is molded into a predetermined shape, the core starting material composition containing a talc-based clay mineral, a potassium compound selected from potassium carbonate and potassium bicarbonate, and water, and the resultant core starting material composition is fired at a temperature lower than a melting point of the talc-based clay mineral, to produce a core material formed of a porous fired body in which a layered structure of the talc-based clay mineral is cleaved and at least a portion of the cleaved structure is partially bonded. This core material is then vacuum packaged in a gas-barrier packaging, to produce the vacuum insulation material. | 08-08-2013 |
| 20130216761 | PACKAGING CEMENTITIOUS PRODUCTS - The present invention provides a method of processing cementitious products to substantially reduce or eliminate efflorescence. The method includes applying a protective layer to at least one surface of a slab product at the time of pouring cementitious mix into a mould and retaining the protective layer in place. The protective layer is a relatively thin sheet of plastic material. | 08-22-2013 |
| 20130230684 | VACUUM INSULATION MATERIAL AND MANUFACTURING METHOD THEREOF - A vacuum insulation material includes a plurality of convex protrusions provided on a surface of a core material that is present inside of the bent vacuum insulation material when it is used in a bent state, and so that the core material on which the convex protrusions are provided in advance is inserted into an outer covering material and vacuum-sealed with the outer covering material. By reducing a contact area between the convex protrusions and an inner side surface of the outer covering material in contact with the surface on which the convex protrusions are provided, it is possible to reduce a frictional force between the core material and the outer covering material. | 09-05-2013 |
| 20130260078 | CORE MATERIAL FOR A VACUUM INSULATION PANEL FORMED OF A PHENOLIC RESIN-CURED FOAM AND VACUUM INSULATION PANEL USING SAME, AND METHOD FOR MANUFACTURING SAME - The present invention relates to a core material for a vacuum insulation panel that is formed with a phenolic resin, a vacuum insulation panel using the core material, and a method for manufacturing the vacuum insulation panel. More particularly, the core material is formed with a cured phenolic resin foam having a closed cell content of 20% or less. The cured phenolic resin foam includes cells whose average diameter is adjusted to 50 to 500 μm. The cells have fine holes with an average diameter of 0.5 to 30 μm on the surfaces thereof to allow the cured phenolic resin foam to have a void content of at least 50%. The use of the cured phenolic resin foam ensures high thermal insulation performance and improved structural strength of the core material, and enables the production of the core material at reduced cost. | 10-03-2013 |
| 20130273296 | VACUUM GLASS PANEL AND MANUFACTURING METHOD OF SAME - Disclosed are a vacuum glass panel and a manufacturing method of the same. The vacuum glass panel according to the present invention includes a first glass plate, a second glass plate facing the first glass plate with a vacuum space therebetween, an edge of the second glass plate being in contact with the first glass plate, and a plurality of spacers disposed between the first glass plate and the second glass plates to separate the first glass plate and the second glass plate from each other. The plurality of spacers are formed of a glass including alumina (Al | 10-17-2013 |
| 20140030468 | Laminar Structure Providing Adaptive Thermal Insulation - The invention relates to a laminar structure ( | 01-30-2014 |
| 20140044913 | AIRCRAFT MONUMENT WITH IMPROVED THERMAL INSULATION AND ACOUSTIC ABSORPTION - A protective shell for an aircraft galley wall is disclosed having an above work deck area and a below work deck area, the protective shell having an outer skin, an intermediate layer comprising vacuum insulated panels, and an interior layer comprising carbon fiber composite having a thickness that is greater than a thickness of the intermediate layer. In a preferred embodiment, the protective shell also includes an acoustic insulating layer made of an open cell acoustic foam that absorbs galley noise. | 02-13-2014 |
| 20140127446 | AMORPHOUS CARBON AND ALUMINUM MEMBRANE - A membrane including at least one aluminum layer and at least one amorphous carbon layer. At least one polymer layer may also be included. Aluminum layer(s) can provide improved gas impermeability to the membrane. Amorphous carbon layer(s) can provide corrosion resistance. Polymer layer(s) can provide improved structural strength. | 05-08-2014 |
| 20140162014 | VACCUM INSULATION PANEL - A vacuum insulating panel comprise a first sheet of a flexible material, a second sheet of a flexible material and a bridging element of a flexible material extending in a generally rectilinear waveform between the first and the second sheets. The bridging element and the sheets define therebetween a plurality of separate generally rectilinear evacuated compartments containing a self-supporting insulating element. The bridging element comprise first flat regions extending along the inside face of the first sheet, second flat regions extending along the inside face of the second sheet, and connecting regions extending between the first and second flat regions, There are seals between the flat regions of the bridging element and the inside face of the sheets. If one compartment is punctured only that compartment is affected. The seals prevent loss of vacuum in adjacent compartments. | 06-12-2014 |
| 20140178626 | VACUUM THERMAL INSULATION MATERIAL EQUIPPED WITH A GETTER MATERIAL FOR WATER-FRACTION AND GAS ADSORPTION, AND PRODUCTION METHOD THEREFOR - 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. | 06-26-2014 |
| 20140272252 | SYSTEMS AND METHODS FOR PROVIDING INSULATION - Systems and methods provide a multi-layer insulation (MLI) that includes a plurality of sealed metalized volumes in a stacked arrangement, wherein the plurality of sealed metalized volumes encapsulate a gas therein, with the gas having one of a thermal insulating property, an acoustic insulating property, or a combination insulating property thereof. The MLI also includes at least one spacer between adjacent sealed metalized volumes of the plurality of sealed metalized volumes and a protective cover surrounding the plurality of sealed metalized volumes. | 09-18-2014 |
| 20150030800 | VACUUM HEAT INSULATING MATERIAL AND REFRIGERATOR INCLUDING THE SAME - A vacuum heat insulating material having an improved structure to prevent the heat bridge phenomenon while improving the durability thereof, and a refrigerator having the same, the vacuum heat insulating material including a core material in a vacuum state, a sealing layer surrounding the core material, an inner layer covering the sealing layer, and having a first side and a second side connected to the first side, a protective layer located at an outside of the inner layer, a first blocking layer having at least one portion located between the first side of the inner layer and the protective layer, and a second blocking layer having at least one portion located between the second side of the inner layer and the protective layer. | 01-29-2015 |
| 20150030801 | VACUUM HEAT INSULATING PANEL AND METHOD FOR MANUFACTURING SAME - A vacuum heat insulating panel comprises outer wrapping material and core material. A getter is provided in the core material. The outer wrapping material is made by compounding wrapped material without aluminum foil on one side or both sides. The core material is made of an aggregate of glass fiber with uniform laminated structure, and the diameter of the glass fiber is 1-3 μm. A method for manufacturing the vacuum heat insulating panel is also disclosed. Due to very high vacuum degree in the vacuum heat insulating panel, the heat transferring speed is reduced. And, because of the outer wrapping material without aluminum foil layer, the edge thermal bridge effect is eliminated and the heat insulation effect is very good. | 01-29-2015 |
| 20150044412 | VACUUM INSULATION MATERIAL AND HEAT INSULATION HOUSING USING THE SAME - A vacuum insulation material includes: a core member having a large number of minute spaces; a cover member having an internal space in which the core member is housed, the internal pressure being decompression-sealed; and an inspection member provided between the core member and the cover member. The inspection member includes a retaining portion disposed on the core member and a hole formed in the retaining portion. | 02-12-2015 |
| 20150110989 | APPARATUS AND METHOD FOR PROTECTING A COMPONENT - According to various, but not necessarily all, examples of the disclosure there may be provided an apparatus and method, the apparatus may comprise: an encapsulated portion configured to receive at least one component wherein the encapsulated portion comprises at least one barrier wall; and a source of gas provided within the encapsulated portion and configured to cause a net flow of gas through the barrier walls from inside the encapsulated portion to outside the encapsulated portion. | 04-23-2015 |
| 20150118434 | VACUUM INSULATED PANEL - 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. | 04-30-2015 |
| 20150118435 | Vacuum Insulation Material - A vacuum insulation includes a core material and a gas adsorption agent interposed between a first gas barrier material and a second gas barrier material, wherein the first and the second gas barrier materials sealingly enclose the core material and the gas adsorption agent, and wherein at least one of the first and the second gas barrier materials includes a laminate including a copper alloy foil and a polymeric material. | 04-30-2015 |
| 20150140258 | GLAZING PANEL COMPRISING GLASS SHEETS LINKED TOGETHER VIA SPACERS AND CORRESPONDING PRODUCTION METHOD - The invention concerns a glazing panel comprising first ( | 05-21-2015 |
| 20150147514 | VACUUM HEAT-INSULATING MATERIAL AND METHOD FOR MANUFACTURING VACUUM HEAT-INSULATING MATERIAL - A vacuum insulation panel, which has a high degree of freedom in shape, is capable of stably obtaining an excellent insulating property and has a long lifetime, is provided. | 05-28-2015 |
| 20150315779 | Construction Panels - A composite non-vision insulation panel unit comprising an exterior sheet and an interior sheet which define a cavity there between, said cavity housing one or more insulation panels. The insulation panel(s) is/are spaced apart from said interior and exterior sheets respectively by means of a damping material having a shore A hardness value in the range of from 0 to 60 according to ASTM D 2240-05(2010), and the composite non-vision insulation panel unit is sealed with a sealant which maintains the cavity width between said interior and exterior sheet and encloses the cavity of the composite non-vision insulation panel units. | 11-05-2015 |
| 20150330071 | A THERMAL INSULATION PANEL - The present invention provides a thermal insulation panel ( | 11-19-2015 |
| 20150343737 | VACUUM-SEALED FLEXIBLE BALLISTIC RESISTANT PANEL - A vacuum-sealed flexible ballistic resistant panel can include a first plurality of ballistic sheets, a second plurality of ballistic sheets, and a third plurality of ballistic sheets arranged to form a stack of ballistic sheets. Each of the first plurality of ballistic sheets can be at least partially bonded to at least one adjacent ballistic sheet in the first plurality of ballistic sheets. Each of the third plurality of ballistic sheets can be at least partially bonded to at least one adjacent ballistic sheet in the third plurality of ballistic sheets. The panel can include a waterproof cover vacuum-sealed around and encasing the stack of ballistic sheets. The waterproof cover can provide an airtight seal around the stack of ballistic sheets. | 12-03-2015 |
| 20150343738 | FLEXIBLE BALLISTIC RESISTANT PANEL WITH INTERNAL FIBER STITCHES - A flexible ballistic resistant panel with internal fiber stitches can include a first plurality of ballistic sheets, a second plurality of ballistic sheets, and a third plurality of ballistic sheets arranged in a stack. Each ballistic sheet within the first plurality of ballistic sheets can be at least partially bonded to at least one adjacent ballistic sheet in the first plurality of ballistic sheets. Each ballistic sheet within the third plurality of ballistic sheets can be at least partially bonded to at least one adjacent ballistic sheet in the third plurality of ballistic sheets. The second plurality of ballistic sheets can remain unbonded and can include a plurality of stitches. Each stitch can include a fiber extending through and binding two or more ballistic sheets in the second plurality of ballistic sheets. The panel can include a waterproof cover sealed around and encasing the stack of ballistic sheets. | 12-03-2015 |
| 20150377407 | VACUUM HEAT INSULATOR, HEAT RETAINING TANK INCLUDING SAME, HEAT RETAINING STRUCTURE, AND HEAT PUMP WATER HEATER - A vacuum heat insulator includes a core member that is a stack of fibrous sheets and a cover member enclosing the core member. Each of the fibrous sheets includes curved chopped fibers and curved fibers. | 12-31-2015 |
| 20160009047 | VACUUM THERMAL INSULATION MATERIAL TECHNICAL FIELD | 01-14-2016 |
| 20160010249 | CORE FOR INSULATION MATERIAL, MANUFACTURING METHOD THEREFOR, AND SLIM INSULATING MATERIAL USING SAME | 01-14-2016 |
| 20160016380 | OUTER SKIN MATERIAL FOR VACUUM HEAT INSULATOR INCLUDING GLASS FIBER AND VACUUM HEAT INSULATOR INCLUDING THE SAME - The present invention provides an outer skin material for a vacuum heat insulator including: a lamination structure of an outermost glass textile layer, a surface protective layer, and an adhesive layer from the outside. In addition, the present invention provides a vacuum heat insulator including: a glass fiber board including 50 wt % to 90 wt % of fumed silica powder and 10 wt % to 50 wt % of glass fiber; and the outer skin material for a vacuum heat insulator, the outer skin material having the glass fiber board inserted therein. Further, the present invention provides a vacuum heat insulator including: a glass fiber board having at least one layer and including 85 wt % to 100 wt % of glass fiber; a getter agent attached to or inserted in the glass fiber board; and the outer skin material described in claim | 01-21-2016 |
| 20160046495 | APPARATUS AND METHOD FOR MANUFACTURING AND PACKAGING OF HIGH PERFORMANCE THERMAL INSULATOR AEROGELS - In various embodiments, novel methods of fabricating and/or packaging aerogels are provided. | 02-18-2016 |
| 20160082709 | OUTER COVER MATERIAL FOR VACUUM INSULATOR AND HIGH- PERFORMANCE VACUUM INSULATOR COMPRISING SAME - Provided is an outer cover material for a vacuum insulator, sequentially comprising: one or more layers of a polyester film; a polyvinyl alcohol (PVOH) film adhered to a lower surface of the polyester film; and a sealing film adhered to a lower surface of the PVOH film. Also provided is a vacuum insulator, comprising a core material consisting of a fiberglass; and the outer cover material under internal pressure, accommodating the core material. | 03-24-2016 |
| 20160118158 | CORE MATERIAL FOR VACUUM INSULATOR, COMPRISING ORGANIC SYNTHETIC FIBER, AND VACUUM INSULATOR CONTAINING SAME - There are provided a core material for vacuum insulator comprising an organic synthetic fiber, and at least one organic synthetic fiber bonded portion; and a preparation method therefor. In addition, provided is a vacuum insulator comprising the core material for vacuum insulator comprising the organic synthetic fiber, and the at least one organic synthetic fiber bonded portion. | 04-28-2016 |
| 20160129660 | FILM-COATED VACUUM INSULATED PANEL - The invention relates to a film-coated vacuum insulation panel comprising at least one inner core, at least one outer film which encloses the inner core, an inner film situated between the inner core and the outer film, and from which the outer film is raised at least in areas, preferably on all sides, by means of a shell material, the inner film and/or outer film being designed as an air-tight barrier film, wherein a) at least the inner film includes at least one ply made of an ethene-vinyl alcohol copolymer, preferably metallized, in particular having a permeation value of 0.003 cm | 05-12-2016 |
| 20160138750 | VACUUM HEAT INSULATING MATERIAL - To provide a vacuum heat insulating material having good heat insulating characteristics and capable of forming a corner part with high reliability. The vacuum heat insulating material includes a core material including an inorganic fiber assembly, and an outer covering member covering at least one surface of the core material, the inside of which is decompressed and sealed, in which the outer covering member includes an outermost resin layer and radiation prevention layers positioned inside the resin layer, in which the radiation prevention layers have an overlapping part where at least two or more radiation prevention layers are stacked at apart thereof. | 05-19-2016 |
