Patent application number | Description | Published |
20090115197 | Apparatus, Systems and Methods for Damping Vibration of an Elastic Member within an Information Handling System Latch - The disclosure provides a system, apparatus, and method for damping vibration of an elastic member within a latch for securing a top panel to a base of an information handling system (IHS) wherein the latch includes an elastic member with a first end and a second end, the first end attached to a fixed portion of the top panel. The latch may further include a body attachable to the top panel, the body defining a cavity for receiving the elastic member, wherein the body further comprises a movable anchor for attaching the second end of the elastic member and a raised portion, wherein the raised portion is in contact with the elastic member within the cavity to damp vibration of the elastic member and an actuation tab coupled to the body to engage the body in a movable position. | 05-07-2009 |
20090189496 | System and Method for Managing Portable Information Handling System Cooling - Information handling system thermal parameters applied by a thermal manager to manage cooling are adjusted based on whether or not a thermal barrier is coupled to the information handling system. The presence of a thermal barrier allows higher operating temperatures without exposing an end user to excessive thermal energy. The thermal barrier couples to the bottom of the chassis of a portable information handling system and may provide additional features, such as additional battery power storage or an optical drive. | 07-30-2009 |
20090244827 | System and Method for Portable Information Handling System Thermal Shield - An information handling system's thermal management is selectively altered by coupling a thermal barrier to the bottom surface of the information handling system chassis so that an air channel insulates against the passage of thermal energy from the bottom surface. A vent opening in a side of the thermal barrier allows airflow through the air channel to a vent opening of the information handling system. The airflow through the air channel cools the base of the thermal barrier so that an end user will experience reduced thermal energy if the information handling system rests on the end user, such as in the end user's lap. | 10-01-2009 |
20090323275 | System and Method for Portable Information Handling System Parallel-Wall Thermal Shield - An information handling system's thermal management is selectively altered by coupling a thermal barrier to the bottom surface of the information handling system chassis so that an air channel insulates against the passage of thermal energy from the bottom surface. A vent opening in a side of the thermal barrier allows airflow through the air channel to a vent opening of the information handling system. The airflow through the air channel cools the base of the thermal barrier so that an end user will experience reduced thermal energy if the information handling system rests on the end user, such as in the end user's lap. | 12-31-2009 |
Patent application number | Description | Published |
20080226837 | Method for the manufacture of a coating having a columnar structure - In the method for the manufacture of a coating ( | 09-18-2008 |
20090136695 | Method and a starting material for the manufacture of a hydrogen permeable membrane and a hydrogen permeable membrane - A method for the manufacture of a hydrogen-permeable membrane, which includes a proton-conducting ceramic material and a electron-conducting metallic component. The membrane is deposited by means of plasma spraying as a layer on a substrate, wherein a starting material is sprayed onto a surface of the substrate in the form of a process beam and wherein the starting material is injected into a plasma at a low process pressure, which is 10 000 Pa at the most, which defocuses the process beam at a low process pressure, and is melted partly or completely there. | 05-28-2009 |
20090136781 | Method For The Generation Of A Functional Layer - A method for the generation of a functional layer is proposed in which a coating material is sprayed onto a surface of a substrate in the form of a jet of powder by means of a plasma spraying process, wherein the coating material is injected at a low process pressure which is less than 10 000 Pa into a plasma, which defocuses the jet of powder and is melted partly or completely there, wherein a plasma with adequately high specific enthalpy is produced, so that a substantial proportion, amounting to at least 5% by weight of the coating material passes over into the vapour phase and an anisotropically structured layer arises on the substrate, wherein elongate corpuscles, which form an anisotropic microstructure, are aligned standing largely perpendicular to the surface of the substrate and transition regions with little material delimit the corpuscles with respect to one another. In a second step capillary spaces of the layer are filled to strengthen the layer, with a liquid being used as a reinforcing medium, which includes at least one salt of a metal contained therein, which can be thermally converted into a metal oxide, with the reinforcing medium being applied to the surface of the layer and—after waiting for a penetration into the capillary spaces—an introduction of heat takes place for the formation of an oxide. | 05-28-2009 |
20120132106 | METHOD FOR COATING A SUBSTRATE AND SUBSTRATE WITH A COATING - A method for the coating of a substrate in which a starting material (P) is sprayed onto the substrate in the form of a process jet by means of plasma spraying, with the starting material (P) being injected into a plasma which defocuses the process jet and being melted partly or completely into a liquid phase there at a low process pressure which is at most 20,000 Pa, wherein a gas flow for the process jet is set such that the substrate is coated by deposition from the liquid phase in at least one region which is located in the geometric shadow with respect to the process jet. | 05-31-2012 |
20120240771 | Plasma spray method for the manufacture of an ion conductive membrane - A plasma spray method for the manufacture of an ion conductive membrane is provided which ion conductive membrane has an ion conductivity, in which method the membrane is deposited as a layer ( | 09-27-2012 |
20130255499 | PLASMA SPRAY METHOD FOR THE MANUFACTURE OF AN ION CONDUCTING MEMBRANE AND AN ION CONDUCTING MEMBRANE - A plasma spray method for the manufacture of an ion conducting membrane, in particular of a hydrogen ion conducting membrane or of an oxygen ion conducting membrane is suggested. In which method the membrane is deposited as a layer ( | 10-03-2013 |
Patent application number | Description | Published |
20140088995 | SYSTEMS AND METHODS FOR DYNAMIC ADJUSTMENTS FOR PERSONALIZED HEALTH AND WELLNESS PROGRAMS - User-specific medical, genetic, fitness, environmental and nutritional data is collected to develop personalized health and wellness programs for improving a user's health and wellness. The user-specific data may be collected from medical or genetic tests, mobile health devices worn by the user and applications through which the user manually inputs information. The user-specific data is then collected and analyzed together based on knowledge of the interrelationships between medical, genetic, fitness, environmental and nutrition data to develop a comprehensive user profile and personalized health and wellness programs that are targeted to improving specific areas of the user's health by implementing changes in fitness, nutrition, medical treatment, environment, etc. The parameters of the programs may be dynamically adjusted based on the user's progress in implementing the program, as measured by the user's activity and follow-up health evaluations. | 03-27-2014 |
20140088996 | SYSTEMS AND METHODS FOR DEVELOPING AND IMPLEMENTING PERSONALIZED HEALTH AND WELLNESS PROGRAMS - User-specific medical, genetic, fitness, environmental and nutritional data is collected to develop personalized health and wellness programs for improving a user's health and wellness. The user-specific data may be collected from medical or genetic tests, mobile health devices worn by the user and applications through which the user manually inputs information. The user-specific data is then collected and analyzed together based on knowledge of the interrelationships between medical, genetic, fitness, environmental and nutrition data to develop a comprehensive user profile and personalized health and wellness programs that are targeted to improving specific areas of the user's health by implementing changes in fitness, nutrition, medical treatment, environment, etc. The user is provided with a customizable, interactive dashboard graphical user interface of their current health and wellness data, which, along with notifications, incentives and rewards, helps the user improve their overall health and wellness and significantly reduce their risk of morbidity. | 03-27-2014 |
20140089836 | INTERACTIVE GRAPHICAL USER INTERFACES FOR IMPLEMENTING PERSONALIZED HEALTH AND WELLNESS PROGRAMS - User-specific medical, genetic, fitness, environmental and nutritional data is collected to develop personalized health and wellness programs for improving a user's health and wellness. The user-specific data may be collected from medical or genetic tests, mobile health devices worn by the user and applications through which the user manually inputs information. The user-specific data is then collected and analyzed together based on knowledge of the interrelationships between medical, genetic, fitness, environmental and nutrition data to develop a comprehensive user profile and personalized health and wellness programs that are targeted to improving specific areas of the user's health by implementing changes in fitness, nutrition, medical treatment, environment, etc. The user is provided with a customizable, interactive dashboard graphical user interface of their current health and wellness data, which, along with notifications, incentives and rewards, helps the user improve their overall health and wellness and significantly reduce their risk of morbidity. | 03-27-2014 |