| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 432198000 | Means supplying a protective or treating agent other than or additional to air | 6 |
| 20090325116 | Heating furnace and heating method employed by heating furnace - A hydrogen vacuum furnace ( | 12-31-2009 |
| 20130029282 | APPARATUS AND METHOD FOR TREATING SUBSTRATE - Provided are an apparatus and method for treating a substrate. More particularly, an apparatus and method for treating a substrate through a supercritical process are provided. The apparatus includes: a housing having an entrance in a predetermined surface thereof and providing a space for performing a high pressure process; a support member disposed in the housing to support a substrate; a door for opening and closing the entrance; and a pressing member configured to apply a force to the door so as to close the housing during the high pressure process. | 01-31-2013 |
| 20130337394 | HEAT TREATMENT APPARATUS - According to one aspect of the present disclosure, provided is a heat treatment apparatus configured to heat treat a plurality of objects to be treated which are held and supported by a holding and supporting unit while an inert gas is allowed to flow in a vertical type processing chamber from a bottom to a top thereof, wherein the processing chamber has a heating unit installed therearound. The heat treatment apparatus includes a gas supply system configured to supply the inert gas, wherein the gas supply system includes a gas supply header portion located in a lower end of the processing chamber to allow the inert gas to flow along a circumferential direction of the lower end; and a gas introduction portion in communication with the gas supply header portion to introduce the inert gas into the processing chamber. | 12-19-2013 |
| 20140072924 | HEAT TREATMENT APPARATUS - A heat treatment apparatus is provided with a reaction tube having a furnace opening formed at a lower end thereof, a lid body configured to hermetically seal the furnace opening of the reaction tube, a heat treatment boat supported on the lid body through a leg, and a rotating shaft extending through the lid body. The rotating shaft is connected to a lower end of the leg and configured to rotate the leg. The lid body is provided with a surrounding ring protruding upward to surround the lower end of the leg. An inert gas is supplied from an inert gas supply unit to a space between the lid body and the rotating shaft and discharged from a space between the lower end of the leg and the surrounding ring into the reaction tube. | 03-13-2014 |
| 20140308621 | SINTERING APPARATUS - A sintering apparatus comprising a furnace core tube having an opening in a top end through which the soot deposition body is inserted, and having atmospheric gas introduced therein from below and expelled upward; a shaft from which the soot deposition body hangs; a lid that has the shaft inserted therethrough and can cover the opening; a heating furnace that heats the soot deposition body; an internal lid in a top portion of the furnace core tube that divides the top portion of the furnace core tube into an upper region and a lower region; and a gas flow path that connects the two regions to each other and has the atmospheric gas flow therethrough. Total cross-sectional area, relative to movement direction of the atmospheric gas, of the gas flow path is less than cross-sectional area, relative to movement direction of the atmospheric gas, of the furnace core tube. | 10-16-2014 |
| 20140342297 | Nozzle Device for a Furnace for Heat Treating a Steel Flat Product and Furnace Equipped with such a Nozzle Device - A nozzle device for a furnace, having a central supply pipe, on which at least one nozzle opening and a feed connection for connecting the nozzle device to a gas supply are provided, the gas supply feeding a gas into the nozzle device flowing through the nozzle device and issuing from the at least one nozzle opening, and also relates to a furnace for heat treating a steel flat product. The nozzle device and the furnace by simple means ensure that the respective heat treatment produces uniform results in an optimum way. This is achieved by the nozzle device having a first section, in which it has a smaller effective nozzle opening cross-section than in a second section which seen in the flow direction of the gas issuing from the respective feed connection and flowing through the nozzle device is arranged further away from the feed connection in question. | 11-20-2014 |
