Patent application number | Description | Published |
20090280268 | Method and apparatus for application of thin coatings from plasma onto inner surfaces of hollow containers - A method and an apparatus are proposed for simultaneously coating the inner walls of a plurality of hollow containers, such as bottles, with fluid-impermeable barrier layers applied by a PECVD method with the use of transversal antennas capable of creating plasma having density increased in the vicinity of the inner walls of the containers. The barrier-layer application period is divided into a coating period and a noncoating cooling period, with RF energy constantly maintained under working conditions with shunting thereof from the coating station to the dummy loads during noncoating periods used for cooling the plastic containers. The apparatus comprises a vacuum chamber with a conveyor that transports the containers in a preoriented state for interaction with a plurality of aligning elements that can be inserted into the container openings for subsequent fixation at equal distances in positions aligned with the antennas that can be inserted into the containers for generation of the coating-applying plasma. | 11-12-2009 |
20090284421 | RF antenna assembly having an antenna with transversal magnetic field for generation of inductively coupled plasma - An antenna assembly that consists of a holder which supports a transversal RF antenna with a plurality of multiturn coils connected in series or in parallel and intended for generation of an inductively coupled plasma discharge inside a container with a high plasma density in vicinity of the container's inner walls. The aforementioned discharge is used for inducing in the container a plasma chemical reaction between oxygen and organosilane with resulting deposition of the reaction product in the form of silicon dioxide onto the inner walls of the container for forming a fluid-impermeable barrier layer. A specific feature of the antenna is that it generates a magnetic field transversal to the longitudinal axis of the antenna, i.e., normal to the container's walls, where a maximal electric field, maximal plasma density and, correspondingly, maximal rate of deposition of silicon dioxide on the wall are provided. | 11-19-2009 |
20090297730 | RF antenna assembly for treatment of inner surfaces of tubes with inductively coupled plasma - An antenna assembly for forming a barrier coating on the inner surface of a tube by means of a sealed annular chemical-plasma-reaction chamber defined by the inner wall of the tube, two spaced elements slidingly and sealingly moveable inside the tube, and a quartz tube that interconnects the cylindrical elements. The coating is formed by a PE CVD process generated inside the chamber by a transversal RF antenna unit which creates a plasma column that participates in rotation simultaneously with linear motion thus providing uniform coating of the inner surface of the tube. The method of the invention consists of depositing a layer of silicon dioxide onto the inner surface of a plastic tube by means of the aforementioned antenna assembly. The plasma column is rotated by the RF magnetic field which is rotated by using two RF generators of different frequencies that energize two groups of specifically interconnected coils. | 12-03-2009 |
Patent application number | Description | Published |
20120168271 | Tunable Vibration Dampers and Methods of Manufacture and Tuning - Embodiments are directed to tunable damper embodiments and methods of using the same for damping resonant and non-resonant vibrations present within an object that the tunable damper is secured to. In some cases, the tunable damper may be tuned before, during or after being secured to an object. | 07-05-2012 |
20120235013 | Instrumented Platform For Vibration Sensitive Equipment - A platform that includes a vibration sensor located within an inner core of a table. The table may have a first plate that supports a vibration-sensitive payload. The first plate may be separated from a second plate by the inner core. The sensor can be located within the core directly below the device. The sensor can be connected to an electrical connector attached to an external surface of the table. A monitor can be readily plugged into the electrical connector to obtain vibration data from the sensor. The platform may also include a damper located within the inner core to reduce vibration of the table. The damper may be an active device that is connected to control circuits located within, or outside, the inner core. | 09-20-2012 |
20120277917 | METHODS AND DEVICES FOR ACTIVE VIBRATION DAMPING OF AN OPTICAL STRUCTURE - A vibration damper assembly that may be attached and moved about a payload or optical mount surface of an optical structure such as an optical table. The vibration damper assembly may include a sensor and an actuator that may be disposed within a housing. In some embodiments, the vibration damper assembly or components thereof may be incorporated into an optical structure in the form of an optical component to be disposed or mounted on an optical mount surface of an optical structure such as an optical table. Embodiments of the vibration damper system may include a controller in communication with the damper assembly Embodiments of the controller may use adaptive tuning, auto-ranging selection of gain factors and other features in order to optimize damping performance. | 11-01-2012 |
20130001396 | Instrumented Platform For Vibration-Sensitive Equipment - A vibration damper assembly that can be attached and moved about a payload surface of a table. The vibration damper assembly includes a sensor and a damper located within a housing. The housing can be attached to the payload surface by one or more fasteners. An operator can move the vibration damper assembly to different locations of the payload assembly to optimize the damping function of the assembly. | 01-03-2013 |
20140121844 | METHODS AND DEVICES FOR ACTIVE VIBRATION DAMPING OF AN OPTICAL STRUCTURE - A vibration damper assembly that may be attached and moved about a payload or optical mount surface of an optical structure such as an optical table. The vibration damper assembly may include a sensor and an actuator that may be disposed within a housing. In some embodiments, the vibration damper assembly or components thereof may be incorporated into an optical structure in the form of an optical component to be disposed or mounted on an optical mount surface of an optical structure such as an optical table. Embodiments of the vibration damper system may include a controller in communication with the damper assembly Embodiments of the controller may use adaptive tuning, auto-ranging selection of gain factors and other features in order to optimize damping performance. | 05-01-2014 |
20140319313 | Instrumented Platform for Vibration-Sensitive Equipment - A platform that includes a vibration sensor located within an inner core of a table. The table may have a first plate that supports a vibration-sensitive payload. The first plate may be separated from a second plate by the inner core. The sensor can be located within the core directly below the device. The sensor can be connected to an electrical connector attached to an external surface of the table. A monitor can be readily plugged into the electrical connector to obtain vibration data from the sensor. The platform may also include a damper located within the inner core to reduce vibration of the table. The damper may be an active device that is connected to control circuits located within, or outside, the inner core. | 10-30-2014 |
20140374204 | TUNABLE VIBRATION DAMPERS AND METHODS OF MANUFACTURE AND TUNING - Embodiments are directed to tunable damper embodiments and methods of using the same for damping resonant and non-resonant vibrations present within an object that the tunable damper is secured to. In some cases, the tunable damper may be tuned before, during or after being secured to an object. | 12-25-2014 |