Patent application number | Description | Published |
20130174410 | SYSTEMS FOR ASSEMBLING ELECTRONIC DEVICES WITH INTERNAL MOISTURE-RESISTANT COATINGS - A system for assembling electronic devices includes at least one coating element for applying a moisture-resistant coating to surfaces of a device under assembly, or an electronic device under assembly. As components and one or more moisture-resistant coatings are added to the electronic device under assembly to form a finished electronic device, at least one surface on which the coating resides and, thus, at least a portion of the coating itself, is located internally within the finished electronic device. Methods for assembling electronic devices that include internally confined moisture-resistant coatings are also disclosed. | 07-11-2013 |
20130176691 | MASKS FOR USE IN APPLYING PROTECTIVE COATINGS TO ELECTRONIC ASSEMBLIES, MASKED ELECTRONIC ASSEMBLIES AND ASSOCIATED METHODS - One or more masks may be used to control the application of protective (e.g., moisture-resistant, etc.) coatings to one or more portions of various components of an electronic device during assembly of the electronic device. A method for applying a protective coating to an electronic device includes assembling two or more components of the electronic device with one another. A mask may then be applied to the resulting electronic assembly. The mask may shield selected portions of the electronic assembly, while other portions of the electronic assembly, i.e., those to which a protective coating is to be applied, may remain exposed through the mask. With the mask in place, application of a protective coating to portions of the electronic assembly exposed through the mask may commence. After application of the protective coating, the mask may be removed from the electronic assembly. Embodiments of masked electronic assemblies are also disclosed. | 07-11-2013 |
20130176700 | ELECTRONIC DEVICES WITH INTERNAL MOISTURE RESISTANT COATINGS - A moisture-resistant electronic device includes at least one electronic component at least partially covered by a moisture-resistant coating. The moisture-resistant coating may be located within an interior of the electronic device. The moisture-resistant coating may cover only portions of a boundary of an internal space within the electronic device. A moisture-resistant-coating may include one or more discernible boundaries, or seams, which may be located at or adjacent to locations where two or more components of the electronic device interface with each other. Assembly methods are also disclosed. | 07-11-2013 |
20130177699 | PRECURSOR SUPPLIES, MATERIAL PROCESSING SYSTEMS WITH WHICH PRECURSOR SUPPLIES ARE CONFIGURED TO BE USED AND ASSOCIATED METHODS - In various aspects and embodiments, the present disclosure relates to the manner in which precursor materials are provided to processing equipment and, more specifically, to the manner in which precursor materials of organic polymers are delivered to systems for forming and, in some embodiments, depositing the organic polymers. In one aspect, the disclosure relates to precursor supplies, which comprise vehicles, such as binders, supports and cartridges, for delivering a precursor material to a material processing system, such as a deposition system or other processing equipment. In another aspect, the disclosure relates to material processing systems with which the precursor supplies are configured to be used. Methods for preparing precursor supplies, using precursor supplies, providing process control, and recycling precursor supplies are also disclosed. | 07-11-2013 |
20130182360 | METHODS, APPARATUSES AND SYSTEMS FOR MONITORING FOR EXPOSURE OF ELECTRONIC DEVICES TO MOISTURE AND REACTING TO EXPOSURE OF ELECTRONIC DEVICES TO MOISTURE - Systems and methods for monitoring the moisture to which an electronic device is exposed may alter or vary operation of the electronic device. Operation of the electronic device may be altered or varied to provide a notification that the electronic device has been exposed to moisture. When an electronic device is exposed to moisture, an operational mode of the electronic device may be changed. A change in the operational mode of the electronic device may include termination of the supply of power to one or more components, which may protect those components. Programs or apps that provide a user of the electronic device with information regarding exposure of the electronic device to an amount of moisture that meets or exceeds a moisture response threshold are also disclosed. | 07-18-2013 |
20130286567 | APPARATUSES, SYSTEMS AND METHODS FOR PROTECTING ELECTRONIC DEVICE ASSEMBLIES - An apparatus for applying a protective coating to a high volume of separate electronic device assemblies includes a treatment element that is configured to prepare the high volume of electronic devices before protective coatings are applied to the electronic devices. The apparatus also includes a coating element configured to apply protective coatings to the high volume of separate electronic device assemblies. | 10-31-2013 |
20130335898 | SYSTEMS AND METHODS FOR APPLYING PROTECTIVE COATINGS TO INTERNAL SURFACES OF FULLY ASSEMBLED ELECTRONIC DEVICES - Methods for applying protective coatings to electronic devices that have already been assembled, and are in a consumer-ready or aftermarket form, are disclosed. In such a method, an electronic device may be at least partially disassembled to expose at least a portion of an interior of the electronic device. A protective coating is applied to some or all of the exposed surfaces of the electronic devices, including one or more internal surfaces, features or components of the electronic device. Thereafter, the electronic device may be reassembled. During and after reassembly, the protective coating resides internally within the electronic device. Systems for applying protective coatings to interior components of previously assembled electronic devices are also disclosed. | 12-19-2013 |
20140160650 | SYSTEMS AND METHODS FOR APPLYING PROTECTIVE COATINGS TO INTERNAL SURFACES OF FULLY ASSEMBLED ELECTRONIC DEVICES - Methods for applying protective coatings to electronic devices that have already been assembled, and are in a consumer-ready or aftermarket form, are disclosed. In such a method, an electronic device may be at least partially disassembled to expose at least a portion of an interior of the electronic device. A protective coating is applied to some or all of the exposed surfaces of the electronic devices, including one or more internal surfaces, features or components of the electronic device. Thereafter, the electronic device may be reassembled. During and after reassembly, the protective coating resides internally within the electronic device. Systems for applying protective coatings to interior components of previously assembled electronic devices are also disclosed. | 06-12-2014 |
20140160680 | VAPOR PORTS FOR ELECTRONIC DEVICES - An electronic device that has components is provided with a housing that defines an exterior and an interior of the electronic device. The housing includes a vapor port that prevents ingress of liquid through the vapor port from the exterior of the electronic device to the interior of the electronic device. The vapor port also permits egress of vapor through the vapor port from the interior of the electronic device to the exterior of the electronic device. The vapor port may include a breathable, but water-resistant or waterproof barrier to prevent water from entering through barrier while enabling water vapor to exit through the barrier and, thus, the vapor port. | 06-12-2014 |
20140190000 | SYSTEMS AND METHODS FOR PROVIDING REFURBISHED OR REMANUFACTURED ELECTRONIC DEVICES WITH MOISTURE-RESISTANT COATINGS - An approach to refurbishing or remanufacturing an electronic device may involve exposing electrical components that are situated within an interior of the electronic device. The approach may also involve replacing one or more defective electronic components of the electronic device with one or more replacement components and applying a protective coating to at least a portion of the interior of the electronic device. The protective coating may cover the circuit board and the electronic components it carries. The protective coating may also cover at least some of the electrical connections of the electronic device. The protective coating may also be applied to the replacement component prior to reassembly. The resulting refurbished or remanufactured electronic device may thus be provided with moisture resistance to help protect the electronic device from damage caused by exposure to moisture. | 07-10-2014 |
20140191588 | APPARATUSES, SYSTEMS, AND METHODS FOR REDUCING POWER TO PORTS OF ELECTRONIC DEVICES - Methods, apparatuses and systems for reducing or selectively terminating the power supplied to or the voltage present at the ports of electronic devices are disclosed. Methods, apparatuses and systems for reducing or terminating the power supplied to and, thus, the voltage across electrical contacts of one or more ports of a portable electronic device when the port is not in use may be effected in a variety of ways and may prevent corrosion or other moisture-induced damage to each port, and to the electronic device of which the port is a part. | 07-10-2014 |
20140191874 | APPARATUSES, SYSTEMS, AND METHODS FOR DETECTING AND REACTING TO EXPOSURE OF AN ELECTRONIC DEVICE TO MOISTURE - An electronic device includes a port for connecting the electronic device to other electronic devices and a moisture detector configured to detect an electrically conductive liquid in the first port. The moisture detector is configured to maintain a voltage on a first electrical contact of the port and to detect a short circuit between the first electrical contact and a second electrical contact of the port. The moisture detector determines that the electronic device has been exposed to an electrically conductive liquid if the monitor module detects the short circuit. The moisture detector may also put the electronic device into safe mode if it is exposed to an electrically conductive liquid. | 07-10-2014 |
20140260571 | PROGRESSIVE MOISTURE DETECTION - A progressive, or graded, passive moisture detector is configured to provide an indication of the amount of moisture to which a moisture-sensitive substrate has been exposed, a duration of time that a moisture-sensitive substrate has been exposed to moisture or the effectiveness of one or more protective coatings at preventing moisture-sensitive components from being exposed to moisture. A progressive passive moisture detector includes a plurality of different passive moisture detectors with different properties. The passive moisture detectors may be arranged in a manner (e.g., a sequence, etc.) that correlates to information the progressive passive moisture detector is intended to provide. | 09-18-2014 |
20140268526 | COMBINING DIFFERENT TYPES OF MOISTURE-RESISTANT MATERIALS - Protective coatings, including moisture-resistant coatings, that include two or more different types of moisture-resistant materials are disclosed, as are moisture-sensitive substrates that include such protective coatings. Moisture-sensitive substrates that include different types of moisture-resistant coatings on different elements are also disclosed. | 09-18-2014 |
20140313039 | APPARATUSES, SYSTEMS, AND METHODS FOR DETECTING AND REACTING TO EXPOSURE OF AN ELECTRONIC DEVICE TO MOISTURE - An electronic device includes a port for connecting the electronic device to other electronic devices and a moisture detector configured to detect an electrically conductive liquid in the first port. The moisture detector is configured to maintain a voltage on a first electrical contact of the port and to detect a short circuit between the first electrical contact and a second electrical contact of the port. The moisture detector determines that the electronic device has been exposed to an electrically conductive liquid if the monitor module detects the short circuit. The moisture detector may also put the electronic device into safe mode if it is exposed to an electrically conductive liquid. | 10-23-2014 |
20150072452 | METHODS FOR MASKING AND APPLYING PROTECTIVE COATINGS TO ELECTRONIC ASSEMBLIES - One or more masks may be used to control the application of protective (e.g., moisture-resistant, etc.) coatings to one or more portions of various components of an electronic device during assembly of the electronic device. A method for applying a protective coating to an electronic device includes assembling two or more components of the electronic device with one another. A mask may then be applied to the resulting electronic assembly. The mask may shield selected portions of the electronic assembly, while other portions of the electronic assembly, i.e., those to which a protective coating is to be applied, may remain exposed through the mask. With the mask in place, application of a protective coating to portions of the electronic assembly exposed through the mask may commence. After application of the protective coating, the mask may be removed from the electronic assembly. Embodiments of masked electronic assemblies are also disclosed. | 03-12-2015 |
20150146396 | ELECTRONIC DEVICES WITH INTERNAL MOISTURE-RESISTANT COATINGS - A moisture-resistant electronic device includes at least one electronic component at least partially covered by a moisture-resistant coating. The moisture-resistant coating may be located within an interior of the electronic device. The moisture-resistant coating may cover only portions of a boundary of an internal space within the electronic device. A moisture-resistant coating may include one or more discernible boundaries, or seams, which may be located at or adjacent to locations where two or more components of the electronic device interface with each other. Assembly methods are also disclosed. | 05-28-2015 |
Patent application number | Description | Published |
20080295817 | VALVE FOR AIR TANK - A valve, possibly for use in a paintball marker, has a longer threaded portion that insures a canister that engages the valve must undergo many twists to become unscrewed from the valve. Alternatively, the valve has an elongated threaded portion with gas bleed channels that extend along a substantial portion of the threading. Still alternatively, the valve may use visual markings along the length of the threaded portion to indicate to a user that the canister is being unscrewed. | 12-04-2008 |
20090101129 | COMPRESSED GAS GUN AND FIRING MECHANISM - A firing mechanism for a compressed gas gun is provided. The firing mechanism includes a firing chamber having a compressed gas storage chamber and a bolt chamber in communication with the compressed gas storage chamber. A bolt is positioned within the bolt chamber having a bolt passage therethrough, the bolt being moveable by a force of compressed gas from a first position to a second position, and the bolt being biased to the first position by a bolt spring. A solenoid is positioned proximate the firing chamber including a plunger moveable from a first position to a second position. A spool is moveable within the compressed gas storage chamber from a first position to a second position, the spool including a forward portion having a flow passage therethrough. The spool is adapted to selectively control the passage of compressed gas from the compressed gas storage chamber to the bolt chamber. | 04-23-2009 |
20090133680 | MAGNETIC DRIVE BYPASS SYSTEM FOR PAINTBALL LOADER - A drive system for a regulating the rotation of a drive system or agitator in a paintball loader is disclosed. It is designed to regulate the rotation of a feeder, especially during a jam or when projectiles in a hopper become misaligned. This allows a user to quickly and effectively clear a jam and resume or continue rapid fire without damaging projectiles, the loader or the paintball marker. | 05-28-2009 |
20120060266 | FACE MASK AND GOGGLE SYSTEM - A protective face mask system according to the present invention comprises a flexible mask body including an opening for receiving a lens, nose portion, a central portion positioned to the rear of and extending at least partially above the nose portion, a central receiving slot located between the nose portion and the central portion, right and left temple portions, each temple portion having a shaped receiving opening therethrough, left and right cheek portions, and at least one groove located adjacent one of the left and right cheek portions. A lens is provided sized to be received upon and cover the lens opening. The lens includes right and left temple portions including openings therein positioned to correspond to and align with the openings of the mask body when the lens is positioned for attachment to the mask body. The lens including at least a portion that snappingly engages the groove when a portion of the lens is inserted into the slot. | 03-15-2012 |