Patent application number | Description | Published |
20100082133 | APPLICATION BUILDER FOR INDUSTRIAL AUTOMATION - A control system development platform is provided. The platform includes a shell component adapted to support development of a control systems application. An abstract model is associated with the shell component to facilitate development of the control systems applications. | 04-01-2010 |
20100083213 | APPLICATION BUILDER FOR INDUSTRIAL AUTOMATION - A control system development platform is provided. The platform includes a shell component adapted to support development of a control systems application. An abstract model is associated with the shell component to facilitate development of the control systems applications. | 04-01-2010 |
20100083220 | MULTI LANGUAGE EDITOR - The claimed subject matter provides a system and/or method that facilitates creating a portion of an industrial process. An interface component can receive a first portion of data associated with a first programming language and a second portion of data associated with a second programming language, wherein the first programming language is independent and disparate of the second programming language. An editor component can create at least one of a portion of an industrial process or a portion of a mixed language object by enabling the combination of the first portion of data and the second portion of data independent of the respective programming languages. | 04-01-2010 |
20100083223 | COMPILATION MODEL - The claimed subject matter provides a system and/or method that facilitates creating executable code for an industrial environment. A language editor can enable a programming of a portion of data within a programming language. A compiler can compile the portion of data within the programming language. An assembler component can utilize an intermediate language to convert the portion of data into a portion of assembly object code, wherein the assembly object code is target independent. A linker can create a binary file from the portion of assembly object code, wherein the binary file is target independent. A loader can specifically tailor the binary file to a target resource by leveraging at least one PLC definition, wherein the loader creates a target executable code (TEC) program at runtime or at development time. | 04-01-2010 |
20100083229 | APPLICATION BUILDER FOR INDUSTRIAL AUTOMATION - A control system development platform is provided. The platform includes a shell component adapted to support development of a control systems application. An abstract model is associated with the shell component to facilitate development of the control systems applications. | 04-01-2010 |
20100083232 | APPLICATION BUILDER FOR INDUSTRIAL AUTOMATION - A control system development platform is provided. The platform includes a shell component adapted to support development of a control systems application. An abstract model is associated with the shell component to facilitate development of the control systems applications. | 04-01-2010 |
20100083239 | METHOD AND SYSTEM FOR AN AUTOMATION COLLABORATIVE FRAMEWORK - An automation collaborative framework (ACF) is provided. The ACF includes an abstract automated model (AAM) that defines a generic data management scheme. The AAM is extended so as to define an extended data management scheme according to control solutions received from a user. A concrete automation model (CAM) then implements a concrete data management scheme, in which the concrete data management scheme is derived as a function of the generic data management scheme and the extended data management scheme. | 04-01-2010 |
20120272215 | APPLICATION BUILDER FOR INDUSTRIAL AUTOMATION - A control system development platform is provided. The platform includes a shell component adapted to support development of a control systems application. An abstract model is associated with the shell component to facilitate development of the control systems applications. | 10-25-2012 |
20140173557 | MULTI LANGUAGE EDITOR - The claimed subject matter provides a system and/or method that facilitates creating a portion of an industrial process. An interface component can receive a first portion of data associated with a first programming language and a second portion of data associated with a second programming language, wherein the first programming language is independent and disparate of the second programming language. An editor component can create at least one of a portion of an industrial process or a portion of a mixed language object by enabling the combination of the first portion of data and the second portion of data independent of the respective programming languages. | 06-19-2014 |
Patent application number | Description | Published |
20110053940 | 3,4-SUBSTITUTED PIPERIDINE DERIVATIVES AS RENIN INHIBITORS - The present invention relates to 3,4-substituted piperidinyl-based renin inhibitor compounds bearing at 4-position oxopyridine and having the formula (I). The invention further relates to pharmaceutical compositions containing said compounds, as well as their use in treating cardiovascular events and renal insufficiency. | 03-03-2011 |
20110152316 | 3,4-SUBSTITUTED PIPERIDINE DERIVATIVES AS RENIN INHIBITORS - The present invention relates to 3,4-substituted piperidinyl-based renin inhibitor compounds bearing at 4-position Isoqumolone and having the Formula (I): The invention further relates to pharmaceutical compositions containing said compounds, as well as their use in treating cardiovascular events and renal insufficiency. | 06-23-2011 |
20110237622 | RENIN INHIBITORS - The present invention relates to 3,4-substituted piperidinyl—based renin inhibitor compounds bearing at 4-position oxopyridine or Isoquinolone and having the formula (I): wherein S is Formula (IIa) or Formula (IIb). The invention further relates to pharmaceutical compositions containing said compounds, as well as their use in treating cardiovascular events and renal insufficiency. | 09-29-2011 |
20120035214 | RENIN INHIBITORS - The present invention relates to biaryl piperidine-based renin inhibitor compounds, and their use in treating cardiovascular events and renal insufficiency. | 02-09-2012 |
Patent application number | Description | Published |
20110127229 | ACTUATION SYSTEM CONFIGURED FOR MOVING A PAYLOAD - An actuation system includes a bridge crane, a trolley, and an end effector and is configured for moving a payload. A first actuator is operatively connected to the bridge crane. The bridge crane is configured for moving along an X axis in response to the first actuator being actuated. The trolley extends from the bridge crane. A second actuator is operatively connected to the trolley. The trolley is configured for moving along a Y axis in response to the second actuator being actuated. The end effector extends from the trolley and is configured for supporting a payload. A third actuator is operatively connected to the end effector. The end effector is configured for rotating about the Z axis in response to the third actuator being actuated to rotate the end effector. Each actuator is disposed in spaced relationship to the bridge crane, the trolley, and the end effector. | 06-02-2011 |
20110127230 | ASSIST SYSTEM CONFIGURED FOR MOVING A MASS - An assist system is configured for moving a mass vertically, along a Z axis. The assist system includes a vertical actuation system, a cable, a plurality of pulleys, an actuator, and a mass. The pulleys are operatively attached to the support structure and an assist device that is movable attached to the support structure. The cable is routed around each of the pulleys and attached to the support structure. One of the pulleys supports the mass. The mass moves vertically in response to the actuator. | 06-02-2011 |
20110129320 | PHOTO-INTERRUPTER BASED FORCE SENSING HANDLE AND METHOD OF USE - A robotic system includes a robot for moving a payload in response to a calculated input force. Sensors in respective sensor housings are connected to a handle, each sensor including a light emitter and receiver. The sensors measure a light beam received by a respective receiver. A controller calculates the calculated input force using received light. Each sensor housing modifies an interruption of the light beam in a sensor when the actual input force is applied, and the controller controls the robot using the calculated input force. A method of controlling the robot includes emitting the light beam, flexing a portion of the sensor housing(s) using the actual input force to interrupt the light beam, and using a host machine to calculate the calculated input force as a function of the portion of the light beam received by the light receiver. The robot is controlled using the calculated input force. | 06-02-2011 |
20110130862 | SENSOR FOR HANDLING SYSTEM - The cable lift system provides assistance to movement of a flexibly suspended payload actuated by operator input into one or more sensing devices attached to the payload. The sensing device is configured to collect information about the typical push-pull and lift-lower motions of an operator moving the payload horizontally and/or vertically, such that the operator's input to the sensor is intuitive and is provided in a manner which is substantially transparent to the operator. The assist mechanisms included in the system are actuated by a controller processing signals received from the one or more sensing devices on the payload. Movement assistance is provided such that the manual effort required by the operator to overcome the inertia of the payload in a starting or stopping event is substantially relieved, thus minimizing the ergonomic impact of the starting and stopping events on the operator. | 06-02-2011 |
20130076902 | ROBOTICALLY OPERATED VEHICLE CHARGING STATION - A robotic charging station for charging a battery of an electric vehicle includes a base plate, a riser coupled with the base plate and extending substantially transverse to the base plate, and a robotic arm. The robotic arm extends from the riser and supports an end effector. The end effector includes a plurality of electrical contacts configured to couple with a receptacle disposed on the electric vehicle. The robotic arm is configured to move the end effector in three degrees of motion. | 03-28-2013 |
20130112641 | GRAVITY POWERED BALANCING SYSTEM - A balance assist system includes a support structure, an assist device, a variable balancing system, and a balancing cable. The variable balancing system is configured for moving a mass in a vertical direction along a Z axis. The variable balancing system includes a balance platform, a lever, and a mobile counterweight. The lever is pivotally attached to the balance platform at a fixed pivot point such that the lever is pivotable at the fixed pivot point about a balance axis. The mobile counterweight is movably disposed on the lever relative to the fixed balance axis and movable between a minimum position and a maximum position. The minimum position corresponds to the mass having a minimum weight such that the mass is statically balanced along the Z axis. Likewise, the maximum position corresponds to the mass having a maximum weight such that the mass is statically balanced along the Z axis. | 05-09-2013 |
20130112643 | MOVEMENT SYSTEM CONFIGURED FOR MOVING A PAYLOAD IN A PLURALITY OF DIRECTIONS - A movement system includes a bridge crane, a trolley, and a movement device. The movement device includes an attachment portion, a plurality of housings, first and second curved elements, a cable, and a cable angle sensor. The curved elements are pivotally attached to housings and perpendicularly overlap with one another such that a first slot defined in the first curved element is perpendicular to a second slot defined in the second curved element. The first curved element is pivotable about a first axis and the second curved element is configured to pivot about a second axis. The cable extends from the attachment portion and through each of the slots. The cable is pivotable to angularly displace at least one of the curved elements about a respective axis. The cable angle sensor is configured to measure the angular displacement of the at least one of the first and second curved elements. | 05-09-2013 |
20130112644 | MOVEMENT SYSTEM CONFIGURED FOR MOVING A PAYLOAD - A movement device is moved along an X axis and a Y axis by providing a sensor configured to measure angle of rotation of at least one of a first and a second kinematic link about a respective axis of rotation. A force is imparted on the first and second kinematic links such that an angular displacement of the first and second kinematic links about the respective axis of rotation is achieved. The angular displacement of the first and second kinematic links about the respective axis of rotation is determined. The movement device is moved along the X axis and/or the Y axis in response to the determination of the angle of rotation of the first and second kinematic links about the respective axis of rotation until first and second kinematic links are vertical. | 05-09-2013 |
20130112645 | PASSIVELY ACTUATED BRAKING SYSTEM - A movement system includes a rail, a trolley, and a braking system. The trolley is movably attached to the rail and configured to support the payload. The braking system is operatively attached to the rail. The braking system includes a braking module having a base, operatively attached to the trolley, and a wheel assembly, operatively attached to the base. The wheel assembly has a shaft, a clutch, and a braking wheel. The clutch is rigidly attached to the shaft and configured for rotation with the shaft about the rolling axis. The braking wheel axially surrounds the clutch and is in continuous rolling contact with a surface of the rail. The clutch is configured to selectively allow rotation of the braking wheel relative to the shaft in only one direction of rotation to decelerate movement of the trolley along the rail. | 05-09-2013 |