| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 206000600 | FOR GAS | 22 |
| 20150292676 | PRESSURE REGULATING OXYGEN BOTTLE - A pressure regulating oxygen bottle has a bottle body filled with liquid, a cap mounted on the bottle body, an outer tube mounted in the bottle body, and an inner tube mounted through the cap and protruding in the outer tube. The outer tube has multiple flow holes arranged linearly between two opposite ends of the outer tube. The inner tube is connected to an artificial respiration system and has multiple communicating holes arranged spirally between two opposite ends of the inner tube. By turning the inner tube to allow one of the communicating holes to align with a corresponding one of the flow holes of the outer tube, a hydrostatic pressure formed between a liquid surface of the liquid and the communicating hole is changed. Accordingly, gas pressure inside the artificial respiration system can be adjusted. | 10-15-2015 |
| 20150292677 | METHOD OF MANUFACTURING A COMPRESSED GAS CYLINDER - A method of forming a reinforced pressure vessel includes the steps of providing a thin wall cylinder, wrapping the cylinder with at least one layer of prepreg reinforcing fiber, wrapping the cylinder with at least one layer of perforated shrink tape, applying heat to the shrink wrapped cylinder to squeeze the at least one prepreg fiber layer to force resin to weep through the perforated shrink tape and cure the resin, and allowing the resin to remain on the outer surface of the shrink tape to form a protective layer on the pressure vessel. | 10-15-2015 |
| 20150308619 | CLADDED PRESSURE TANK AND METHOD OF PREPARATION - A method of producing a pressure vessel, and the corresponding pressure vessel, wherein the pressure vessel is comprised of different types of structural elements, one of the structural elements being comprised of a metal substrate having a liner material adhering to the substrate in adjoining linear areas; and orientated so that adjoining linear areas of lining material are orientated longitudinally with respect to a completed pressure vessel. | 10-29-2015 |
| 20150329341 | Pressurized Gas Container - A pressurized gas container associates with and supplies gas to a pressurized gas port of an appliance, such as for supplying carbon dioxide for the preparation of a carbonated drink. The container has a plug at its opening that has a barrier element that seals the container and is configured to be non-reversibly ruptured by a shaft of a gas-channeling member. The plug also has one or more sealing elements that are distinct from the barrier element and are configured for forming a gas-tight association with the shaft of the gas-channeling member. A plurality of such pressurized containers may be carried by a holder rack in a multipack. An appliance adapted for preparing or dispensing carbonated drink includes an adapter for associating with such a pressurized carbon dioxide-containing canister and for receiving the pressurized carbon dioxide therefrom. | 11-19-2015 |
| 20150330569 | GAS STORAGE STRUCTURE AND METHOD OF MANUFACTURE - A gas storage structure includes: a container and a continuous coiled pipe supported by the container, the continuous coiled pipe including a major portion formed of thin walled pipe and a thick walled pipe defining an end of the continuous coiled pipe, the thick walled pipe having a wall thickness thicker than the thin walled pipe, the thick walled pipe being welded at a welded joint to the major portion to place an inner diameter of the thick walled pipe into communication with an inner diameter of the major portion and the thick walled pipe being connected to the container, while the major portion is free of any rigid, such as welded, connections to the container. | 11-19-2015 |
| 20150354755 | TANK FOR STORING A GAS STORED BY SORPTION COMPRISING SHOCK-ABSORBING MEANS - A tank for storing a gas, the gas being stored by sorption to a compound. The tank includes a receptacle configured to contain the compound. The receptacle includes a shock-absorbing mechanism. | 12-10-2015 |
| 20150362124 | DEVICE FOR STORING AND RESTORING FLUIDS AT A NEAR-CONSTANT HIGH PRESSURE - Device for storing and releasing fluids at nearly constant pressure, the fluids including a gas and a liquid, includes an assembly of substantially identical reservoirs ( | 12-17-2015 |
| 20150369427 | Gas Cell - A gas cell includes a cell main body having an internal space defined by inner walls, a gas of alkali metal or hydrogen sealed in the internal space, and a coating layer formed at least on part of the inner walls using a material having a long-chain molecule structure, wherein molecules more than half of molecules forming the coating layer are perpendicularly oriented with respect to the inner walls. | 12-24-2015 |
| 20160025266 | COMPOSITE PRESSURE TANK BOSS MOUNTING WITH PRESSURE RELIEF - Disclosed is a device and method of a system and an improved boss, the boss having a longitudinally extending body with a top surface having flange forming a planar bottom surface with a fluid connection through the boss further including a liner mounting connection (LMC) on the flange bottom surface; the LMC having a groove adapted to be threadably engaged with a liner neck; and, a migration passage fluidly connecting LMC to the fluid connection of the boss. | 01-28-2016 |
| 20160090223 | SYSTEM AND METHOD FOR PALLETLESS SHIPMENT OF GAS CYLINDER ARRAYS - A system and method are provided for palletless shipment of gas cylinder arrays. A three-dimensional array of gas cylinders is formed from a plurality of vertically-stacked two-dimensional subarrays. First elongated voids extend through the array in a width direction at a first handle elevation. Second elongated voids extend through the array in a depth direction at a second handle elevation. The first and second elongated voids are bilaterally bounded by handle portions of adjacent gas cylinders, and vertically bounded by upper and lower surfaces of surrounding cylinders. Pairs of tunnel elements are disposed within respective elongated voids and are each configured to releasably receive a corresponding forklift tong. Vertically-disposed pillars may be provided to increase the rigidity and load distribution of the system. Flaps may radiate from the pillars to minimize impact and abrasion between adjacent cylinders during shipment. Key system components may be inexpensively formed from recyclable, lightweight materials. | 03-31-2016 |
| 20160123534 | STORAGE METHOD FOR TRIFLUOROETHYLENE, AND STORAGE CONTAINER FOR TRIFLUOROETHYLENE - To provide a method for storing trifluoroethylene filled in a container for storage, transportation, etc., stably without causing a reaction such as polymerization. The method is characterized in that trifluoroethylene is stored in a sealed container in such a state that a gas phase and a liquid phase coexist, and in the gas phase, the concentration of oxygen at a temperature of 25° C. is kept to be at most 1,000 ppm by volume. | 05-05-2016 |
| 20160153616 | A PRESSURISED FLUID CONTAINER | 06-02-2016 |
| 20160176610 | Method for Loading a Monomer to a Bulk Container | 06-23-2016 |
| 206000700 | With gas storing absorbent or solvent | 9 |
| 20150300573 | POWER MODULATION FOR AMMONIA DELIVERY SYSTEM - A system for storage and dosing of ammonia includes solid ammonia storage material capable of binding and releasing ammonia reversibly by adsorption/absorption. The system includes a start-up storage unit and a main storage unit, both of which hold ammonia storage material. A start-up heating device is arranged to heat the start-up storage unit to generate gaseous ammonia by thermal desorption from the solid storage material. A main heating device arranged to heat the main storage unit to generate gaseous ammonia by thermal desorption from the solid storage material. A controller modulates operation of the heating devices such that the main and start-up heating devices are not simultaneously activated. | 10-22-2015 |
| 20150308623 | METHOD FOR LOADING AND STORING GAS IN NANO-VALVED SORBENTS - Adsorbent pellets coated with an outer nano-porous layer can be loaded with gas at loading pressures of 250 bar or greater, enabling a much higher loading than can be achieved at low pressures. The nano-porous layer provides nano-valves which can be sealed with an adsorbate such as ethanol or a hydrocarbon to close the nano-valves. The closed nano-valves maintain the high loading pressure inside the adsorbent pellets, and thus maintain the gas loading, during storage of the loaded nano-valved adsorbent pellets at much lower pressure. To release the gas, the nano-porous layer can be heated to a temperature sufficient to vaporize the adsorbate and open the nano-valves. | 10-29-2015 |
| 20150352519 | METAL ORGANIC FRAMEWORKS FOR ELECTRONIC GAS STORAGE - A metal organic framework (MOF) includes a coordination product of a metal ion and an at least bidentate organic ligand, where the metal ion and the organic ligand are selected to provide a deliverable adsorption capacity of at least 70 g/l for an electronic gas. A porous organic polymer (POP) includes polymerization product from at least a plurality of organic monomers, where the organic monomers are selected to provide a deliverable adsorption capacity of at least 70 g/l for an electronic gas. | 12-10-2015 |
| 20150362129 | SYNTHESIS AND HYDROGEN STORAGE PROPERTIES OF NOVEL METAL HYDRIDES - The present disclosure relates to improved processes for the preparation of metal hydrides. The present disclosure also relates to metal hydrides, e.g., metal hydrides prepared by the processes described herein, that exhibit enhanced hydrogen storage capacity when used as hydrogen storage systems. | 12-17-2015 |
| 20160031318 | CANISTER - A bypass flow channel that bypasses part of an adsorbent is provided between an engine-side port and an atmosphere-side port in a gas flow channel of a canister body. Furthermore, a flow rate increasing member that increases the ratio of flow rate in the bypass flow channel when the flow velocity of a gas at the time of purge has exceeded a predetermined value is provided. | 02-04-2016 |
| 20160040631 | VAPORIZED FUEL PROCESSING APPARATUS - A vaporized fuel processing apparatus for a vehicle having a fuel tank has a casing filled with an adsorbent and having a first outer surface. The casing has first ribs protruding from the first outer surface and extending without intersecting with each other. The casing has at least one second rib protruding from the first outer surface. At least one pair of the first ribs adjacent to each other are connected with each other via one of the second ribs only. The other pairs of the first ribs adjacent to each other are connected with each other via one of the second ribs only or are not connected with each other via any one of the second ribs. | 02-11-2016 |
| 20160186932 | PROCESS FOR FILLING A SORPTION STORE WITH GAS - A process for filling a sorption store ( | 06-30-2016 |
| 20160201853 | FILLING DEVICE FOR A SORPTION STORE AND SORPTION STORE | 07-14-2016 |
| 20160201855 | SORPTION STORE WITH IMPROVED HEAT TRANSFER | 07-14-2016 |
