Viitamaki
Marko Viitamaki, Oulu FI
Patent application number | Description | Published |
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20090149127 | Method for saving power in a wireless terminal and a terminal - The object of the invention is a method for controlling the power saving properties in a terminal, which utilizes cellular phone technology and short range radio frequency wireless communication features in order to increase the operative life of the batteries, and a terminal utilizing the method. In the method of the invention the activity state of the short range wireless communication utilization in the terminal determines the level of the short range wireless communication power save mode. | 06-11-2009 |
Markus Viitamaki, Koskenkorva FI
Patent application number | Description | Published |
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20110017169 | ROTARY COMBUSTION ENGINE AND HYDRAULIC MOTOR - A rotary engine and a hydraulic motor including non-rotary outer and inner casings; a power shaft with an eccentric part; a driving eccentric ring between the outer and inner casings and mounted on the eccentric part; a combustion or pressure chamber between the eccentric ring and the inner casing such that the eccentric ring drives the power shaft by substantially non-rotating eccentric movement; dividers for dividing the combustion chamber into at least two parts, the dividers extend through the inner casing and are in contact with an inner surface of the driving eccentric ring; and an eccentric device (or control) for driving the dividers back and forth with respect to the inner casing. The eccentricity of the eccentric device corresponds with the eccentricity of the eccentric part of the power shaft. The eccentric device has a guide groove which implements an eccentric path and to which the dividers are connected. | 01-27-2011 |
20140318129 | COMBUSTION CHAMBER - The invention relates to a combustion chamber for burning an air-fuel mixture, a gas mixture or a gas-liquid mixture, including an outer casing; a flame tube located inside the outer casing and provided with an inner space, whereby the outer casing and the flame tube form an annular channel therebetween, the flame tube including flow apertures which penetrate through its casing and interconnect the annular channel and the inner space of the flame tube; a cover part arranged in inlet ends of the outer casing and the flame tube and provided with flow apertures opening up into the annular channel; a combustion air inlet part which is arranged in an outer surface of the cover part and which is in connection with the flow apertures of the cover part; a fuel jet located in the cover part and extending inside the flame tube for feeding fuel into the flame tube. | 10-30-2014 |
Sakari Viitamaki, Espoo FI
Patent application number | Description | Published |
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20150132804 | Instruments And Method Relating To Thermal Cycling - The present invention relates to a device for thermal cycling of biological samples, a heat sink used in such a device and a method. The heat sink comprises a base plate designed to fit in a good thermal contact against a generally planar thermoelectric element included in the device, and a plurality of heat transfer elements projecting away from the base plate. According to the invention, the heat transfer elements of the heat sink and arranged in a non-parallel configuration with respect to each other for keeping the temperature of the base plate of the heat sink spatially uniform during thermal cycling. | 05-14-2015 |
Tapio Viitamaki, Koskenkorva FI
Patent application number | Description | Published |
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20110017169 | ROTARY COMBUSTION ENGINE AND HYDRAULIC MOTOR - A rotary engine and a hydraulic motor including non-rotary outer and inner casings; a power shaft with an eccentric part; a driving eccentric ring between the outer and inner casings and mounted on the eccentric part; a combustion or pressure chamber between the eccentric ring and the inner casing such that the eccentric ring drives the power shaft by substantially non-rotating eccentric movement; dividers for dividing the combustion chamber into at least two parts, the dividers extend through the inner casing and are in contact with an inner surface of the driving eccentric ring; and an eccentric device (or control) for driving the dividers back and forth with respect to the inner casing. The eccentricity of the eccentric device corresponds with the eccentricity of the eccentric part of the power shaft. The eccentric device has a guide groove which implements an eccentric path and to which the dividers are connected. | 01-27-2011 |