Patent application number | Description | Published |
20080287883 | Injection Device - The application concerns an injection device for apportioning set doses of a drug from a reservoir ( | 11-20-2008 |
20090076458 | Injection Device with Means for Signalling the Time Since the Last Injection - The present Invention relates to an injection device capable of emitting a flashing light signal indicating the time elapsed since last ejection and/or the size of the last ejected dosage and/or a return signal indicating the operable state of the device and/or a time out signal indicating when the pen can be removed after ejecting of a dosage. The injection device comprises an electronic control circuit comprising: a sensor unit arranged to detect the occurrence of an ejection of a drug from the injection device; a timer for determining an approximate time elapsed since last ejection; a signal emitting device being able to emit a signal, the signal emitting device being controllable by the electric control circuit, so as to emit a time signal that varies with the time elapsed since last ejection. | 03-19-2009 |
20090254047 | Injection Device - The application disclosed concerns an injection device for apportioning set doses of a drug from a reservoir ( | 10-08-2009 |
20090299297 | Injection device - The invention concerns an injection device for apportioning set doses of a drug from a reservoir to a subject. The injection device comprises a dose setting member ( | 12-03-2009 |
20100179485 | INJECTION DEVICE - The invention concerns an injection device for apportioning set doses of a drug from a reservoir to a subject. The injection device comprises a housing having an interior thread formed as an outwardly pointing thread carried on an upstanding tower centrally located in the pen shaped device. This outwardly pointing thread forms a first thread connection with the interior thread of the rotatable scale drum. The injection device further comprises a driver for moving the piston rod forward when moved axially. The driver operates the piston rod through a second thread connection having a pitch different than the first thread connection. | 07-15-2010 |
20130150799 | Injection Device - The invention concerns an injection device for apportioning set doses of a drug from a reservoir to a subject. The injection device comprises a housing having an interior thread formed as an outwardly pointing thread carried on an upstanding tower centrally located in the pen shaped device. This outwardly pointing thread forms a first thread connection with the interior thread of the rotatable scale drum. The injection device further comprises a driver for moving the piston rod forward when moved axially. The driver operates the piston rod through a second thread connection having a pitch different than the first thread connection. | 06-13-2013 |
Patent application number | Description | Published |
20100106302 | CONTROLLING FROZEN STATE OF A CARGO - A method for operating a refrigeration system for a container for refrigerating frozen cargo, and a system employing the method. The method includes providing a compressor, a condenser, and an evaporator connected in series, and providing an evaporator fan. The method also includes alternating operation of the compressor and the evaporator fan, in combination, between an active mode where the compressor compresses a refrigerant and directs the refrigerant through the condenser and the evaporator, and where the evaporator fan rotates to supply refrigerated supply air from the evaporator to the cargo within the container, and a sleep mode in which the compressor and the evaporator fan are deactivated, and operating the compressor and the evaporator fan in the sleep mode for a duration that is based on a measured duration of a prior sleep mode. | 04-29-2010 |
20100106303 | CONTROL OF PULL-DOWN IN REFRIGERATION SYSTEMS - A method for operating a refrigeration system for a container to pull down the temperature of cargo from ambient to a predetermined set-point temperature, and a system employing the method. The method includes operating a compressor at a first power to compress a refrigerant and direct the refrigerant through a condenser and an evaporator of the refrigeration system, initially operating an evaporator fan at a first speed to supply refrigerated supply air from the evaporator to the cargo within the container, sensing the temperature of the supply air, comparing the temperature of the supply air with a predetermined set-point temperature, and increasing the speed of the evaporator fan to a second speed faster than the first when the temperature of the supply air is lower than the predetermined set-point temperature to maintain the temperature of the supply air at the predetermined set-point temperature. | 04-29-2010 |
20100242527 | REFRIGERATED CONTAINER FOR SHIPS - The invention relates to a refrigerated container for ships, the inside of the rear side of said refrigerated container having formed in it a chute extending vertically and largely over the width of the container and featuring a transverse wall above which warmed refrigerated air which is collected beneath the roof area of the container can be supplied to the chute with downward deflection, wherein at least one port with an inserted annular part is formed in the transverse wall, and the warmed refrigerated air can be conducted to heat exchangers surfaces of an evaporator of a refrigerant circuit, said heat exchange surfaces projecting into the chute, via a blower through the flow cross section of said annular part, and wherein the refrigerated air cooled down by heat exchanger surfaces can be conducted back into the floor area of the refrigerated container from the bottom of the chute. In accordance with the invention flow directors for the warmed refrigerated air drawn in by the blower are provided above and to the side of the transverse wall, in order to laterally direct said warmed refrigerated air into the flow cross section of the annular part ( | 09-30-2010 |
20100251753 | REFRIGERATING CONTAINER FOR LAND, ROAD AND RAIL VEHICLES - The invention relates to a refrigerated container for land, road and rail vehicles, the inside of the rear side of said refrigerated container having formed in it a chute extending vertically and largely over the width of the container and featuring a transverse wall above which warmed refrigerated air which is collected beneath the roof area of the container can be supplied to the chute with downward deflection, wherein at least one port with an inserted annular part is formed in the transverse wall, and the warmed refrigerated air can be conducted to heat exchangers surfaces of an evaporator of a refrigerant circuit, said heat exchange surfaces projecting into the chute, via a blower through the flow cross section of said annular part, and wherein the refrigerated air cooled down by heat exchanger surfaces can be conducted back into the floor area of the refrigerated container from the bottom of the chute. In accordance with the invention flow directors for the warmed refrigerated air drawn in by the blower are provided above and to the side of the transverse wall, in order to laterally direct said warmed refrigerated air into the flow cross section of the annular part ( | 10-07-2010 |
20110146311 | APPARATUS FOR CONTROLLING RELATIVE HUMIDITY IN A CONTAINER - In one embodiment, the invention provides a refrigeration system having a compressor configured to compress a refrigerant gas and a condenser fluidly coupled to the compressor to receive compressed refrigerant gas from the compressor, the condenser configured to condense the refrigerant gas. In addition the refrigeration system includes a heat exchanger having a first section fluidly coupled to the compressor, and a second section fluidly coupled between the condenser and the compressor, wherein the first section receives compressed refrigerant gas from the compressor, and wherein the second section receives condensed refrigerant from the condenser, evaporates the refrigerant, and delivers the evaporated refrigerant to the compressor. | 06-23-2011 |
20140311171 | CONTROLLING CHILLED STATE OF A CARGO - A method for operating a refrigeration system for a container for refrigerating chilled cargo includes providing a refrigeration system including a compressor and an evaporator fan associated with an evaporator. The method also includes determining the temperature of supply air and the temperature of return air. The method further includes determining one of a requirement for heating and a requirement for cooling based on the temperature of the return air and the temperature of the supply air. The method additionally includes activating the evaporator fan when a requirement for heating is determined and increasing the speed of the evaporator fan when increased heating is determined. The method also includes activating the compressor and the evaporator fan when a requirement for cooling is determined and increasing the power supplied to the compressor and maintaining the evaporator fan at a first speed when increased cooling is determined. | 10-23-2014 |