Patent application number | Description | Published |
20100094214 | Automatic Injection Device With Temporizing Means - The present invention relates to an injection device ( | 04-15-2010 |
20100268169 | AUTOINJECTOR WITH DESHIELDER COMPRISING TAMPER EVIDENCE MEANS - The invention relates to a device ( | 10-21-2010 |
20100286619 | AUTOINJECTOR - The invention relates to an automatic injection device ( | 11-11-2010 |
20110275992 | Automatic Injection Device With Temporizing Means - The present invention relates to an injection device ( | 11-10-2011 |
20130053787 | AUTOINJECTOR - The invention relates to an automatic injection device including a container provided with a needle; a housing receiving a container movable relative to the housing between an initial position to an insertion position; a needle shield for receiving the needle and in which the needle is embedded prior to use of the device; and a deshielder coupled to the needle shield by a first connecting arrangement and removably assembled to the distal part of the housing by a second connecting arrangement. The first and second connecting arrangements are designed so that a rotational movement of the deshielder about the device axis of the device with respect to the housing causes an axial displacement of the needle shield in the distal direction with substantially no rotational movement of the needle shield with respect to the needle. | 02-28-2013 |
20130237913 | AUTOMATIC INJECTION DEVICE WITH TEMPORIZING MEANS - The present invention relates to an injection device including a container, intended for receiving a product and provided with an injection needle and a housing receiving the container. The container is movable relative to the housing between an initial position, an insertion position, and a final position. A collapsible chamber is defined within the housing outside of the container. The chamber is collapsible with the container in the insertion position. The chamber is at least partially defined by a proximal wall and a seal element, wherein, with the container in the initial position, the proximal wall is spaced proximally from the seal element, wherein, with the container in the insertion position, the proximal wall is caused to engage the seal element, and, wherein, with the proximal wall engaging the seal element, the container is caused to move from the insertion position to the final position. | 09-12-2013 |
20140101912 | METHOD OF PREPARING AN INJECTION DEVICE - The invention relates to an automatic injection device including a container provided with a needle; a housing receiving a container movable relative to the housing between an initial position to an insertion position; a needle shield for receiving the needle and in which the needle is embedded prior to use of the device; and a deshielder coupled to the needle shield by a first connecting arrangement and removably assembled to the distal part of the housing by a second connecting arrangement. The first and second connecting arrangements are designed so that a rotational movement of the deshielder about the device axis of the device with respect to the housing causes an axial displacement of the needle shield in the distal direction with substantially no rotational movement of the needle shield with respect to the needle. | 04-17-2014 |
20140364805 | INJECTOR WITH DESHIELDER - The invention relates to a device for injection of a product into an injection site. The device including a needle shield for protection of a needle prior to use of the device; a housing; and a deshielder for removing the needle shield from the device. The deshielder is coupled to the needle shield and mounted on the housing in a separable manner. The deshielder may include tamper evidence features that are activated by the removal of at least one part of said deshielder. At least one part of the deshielder may be configured to be removed from the housing by exerting a force equal or less to 30 N. | 12-11-2014 |
Patent application number | Description | Published |
20100150817 | METHOD FOR GENERATING MICRONIZED SULPHUR - A method of producing micronized sulphur wherein elemental sulphur is dissolved in a solvent for sulphur to produce a sulphur-solvent solution and precipitation of the dissolved sulphur is effected or controlled by manipulation of at least one of pressure, temperature or water content in the solvent to produce the micronized sulphur. | 06-17-2010 |
20130167604 | Method for Producing Fertilizers Containing Dispersed Micronized Sulphur - A method of producing a fertilizer composition containing micronized sulphur wherein elemental sulphur is dissolved in anhydrous or hydrous ammonia to form an ammonia/sulphur solution and the ammonia/sulphur solution is reacted with an acidic component having at least one plant growth constituent to simultaneously form a sulphur composition comprising a sulphur compound and micronized sulphur. The thus formed fertilizer composition is dried and can be formed into various shapes such as pellets, prills, etc. | 07-04-2013 |
20130192465 | Process for Recovery of Processing Liquids - A process for recovering a processing liquid used in gas purification systems, e.g., to remove greenhouse gases, and containing water, the processing liquid, components having higher and lower boiling points than water and a component less volatile than the processing liquid, wherein the feed mixture is heated and introduced into a first separation zone, a portion of the water and the processing liquid being volatilized to produce a hot vapor stream comprising volatilized water and processing liquid. There is also produced a first residuum stream which contains some of the less volatile components and the unvolatilized portion of the water in the processing liquid. The hot vapor stream is introduced into the separation system forming part of a gas purification system. The majority of the energy in the hot vapor stream is recovered for use in the separation system forming part of the gas purification system. A substantially degassed processing liquid stream is recovered from the separation system forming part of the gas purification system. There is also recovered, from the separation system forming part of the gas purification system, the feed stream to the first separation zone. | 08-01-2013 |
20130230448 | Method of Generating Micronized Sulphur - A method of producing micronized sulphur wherein elemental sulphur is dissolved in a solvent for sulphur to produce a sulphur-solvent solution and precipitation of the dissolved sulphur is effected or controlled by manipulation of at least one of pressure, temperature or water content in the solvent to produce the micronized sulphur. | 09-05-2013 |
20150034567 | Process for Removing Salts From a Processing Liquid - A process for removing acid decomposable contaminants from a processing liquid wherein an acid is admixed with a processing liquid and the mixture of acid and processing liquid are introduced into a degassing vessel such that the gas formed by the reaction of the acids and the decomposable gases is released and a processing liquid freed of acid decomposable contaminants is removed from the degassing vessel. | 02-05-2015 |