Patent application number | Description | Published |
20090032652 | SYSTEM FOR MOVING AND STORING A CONDUIT FOR SUPPLYING AIR TO AN AIRCRAFT - A system for supporting a hose configured to deliver preconditioned air from a source to an aircraft is disclosed. The system includes a base support and a stationary bearing assembly connected to the base support proximate a first end of the stationary bearing assembly. The stationary bearing assembly is configured to engage the hose to support the hose. The system also includes a frame assembly connected to the stationary bearing assembly proximate a second end of the stationary bearing assembly. The frame assembly has a support extending away from the frame assembly that is configured to engage the hose. | 02-05-2009 |
20100207383 | PRECONDITIONED AIR CONNECTOR ASSEMBLY FOR AIRCRAFT - In certain embodiments, a PCA connector has a nylon body, wherein the nylon is durable, corrosion resistant, and exhibits excellent strength over a large range of temperature and moisture conditions. The nylon body may be described as a single structure with integral features, such as a bearing portion, a latch housing portion, a latch guide portion, and so forth. Thus, the number of parts is significantly reduced by the one-piece design of the body. In addition, the PCA connector may include a latching mechanism configured to secure the PCA connector to an aircraft. For example, the latching mechanism may include a pair of levers, which engage a pair of latches on opposite sides of the nylon body. In some embodiments, the levers may be rotated in opposite directions relative to one another to impart movement of the latches in the same direction, e.g., an axial direction. Also, some embodiments of the latching mechanism include a cam between the levers and the latches, respectively. | 08-19-2010 |
20100207384 | PRECONDITIONED AIR CONNECTOR ASSEMBLY FOR AIRCRAFT - In certain embodiments, a PCA connector has a nylon body, wherein the nylon is durable, corrosion resistant, and exhibits excellent strength over a large range of temperature and moisture conditions. The nylon body may be described as a single structure with integral features, such as a bearing portion, a latch housing portion, a latch guide portion, and so forth. Thus, the number of parts is significantly reduced by the one-piece design of the body. In addition, the PCA connector may include a latching mechanism configured to secure the PCA connector to an aircraft. For example, the latching mechanism may include a pair of levers, which engage a pair of latches on opposite sides of the nylon body. In some embodiments, the levers may be rotated in opposite directions relative to one another to impart movement of the latches in the same direction, e.g., an axial direction. Also, some embodiments of the latching mechanism include a cam between the levers and the latches, respectively. | 08-19-2010 |
20110209792 | ROBUST PRECONDITIONED AIR HOSE - A preconditioned air hose includes an abrasion-resistant external layer made of robust nylon, an insulating layer, and an inner layer. The robust external layer protects the air hose from wear and degradation due to abrasion. The external layer may be made of a fabric with an abrasion resistance of at least 22,000 cycles to failure as measured using the ASTM D 3884 standard. This external layer fabric may be composed of filaments having a linear density of about 1,000 denier. The external layer fabric may weigh about 10.8 ounces per square yard. | 09-01-2011 |
20120235402 | PRECONDITIONED AIR CONNECTOR ASSEMBLY FOR AIRCRAFT - A preconditioned air connector (PCA) may be provided with a hollow body configured to pass a fluid flow, and a first mount assembly coupled to the hollow body. The first mount assembly may include a first cam joint with a first arcuate path of motion in a first plane generally tangential to the hollow body, a first mount coupled to the first cam joint, and a first lever coupled to the first cam joint. The first lever may be configured to actuate the first mount via a first transfer of motion through the first cam joint to draw the first mount inwardly toward the hollow body. In addition, the first mount may be configured to draw the hollow body and a mating component inwardly toward one another to pass the fluid flow between the hollow body and the mating component. | 09-20-2012 |
Patent application number | Description | Published |
20110005468 | Multiple squeaker pet toy - A multiple sound-emitting pet toy comprised of at least two compressible, sound-emitting chambers that return to their original shape once the compressed toy is released from a squeeze. Each sound-emitting chamber is equipped with a squeaker, with each squeaker generally emitting a differently-pitched sound. The compressible, sound-emitting chambers can be of the same shape and arranged in tandem to create a substantially symmetrical toy. The positions of the sound-emitting chambers are maintained by a fabric covering that directly surrounds them. Fastening elements can be positioned at the end of each chamber, to further cooperate with one another upon alignment and affixation of the at least two or more compressible chambers. | 01-13-2011 |
20140123908 | SOUND-PRODUCING PET TOY - A pet toy makes a sound when bitten or squeezed by an animal. The toy contains a resilient shell that substantially surrounds the sound-producing material. The toy also contains a core constructed of an elastic material located beneath the sound-producing material. The sound-producing material is a plastic material such as polyethylene terephthalate, which deforms when external pressure is applied to it, creating sound and vibration. In an embodiment of the invention, air permeates the sound-producing material, the core is hollow, and acoustic ports are located at each end of the toy, all to enhance its sound generating characteristics. In another embodiment, a strand is attached to or passes through the core of the pet toy. In another embodiment, an elastic outer sleeve is attached to the sound-producing material at various locations between their surfaces, to reposition the sound-producing material to its original orientation after an external pressure of force is released. | 05-08-2014 |
Patent application number | Description | Published |
20140117059 | Sensor Mounting Apparatus and Methods of Using Same - An apparatus to allow a one-handed operation of mounting a vibration sensor to a mounting pad adhered to a machine. An attachment screw includes a recessed socket with a detent to releasably retain a ball-end hex driver such that the driver can remain coupled to the attachment screw without force being applied by the user. Also, a handheld device includes a driver having a handle portion and a driver shaft extending therefrom, the driver shaft having a driver portion at a distal end, and a vibration sensor support configured to support the vibration sensor such that the driver portion has access to an attachment screw threaded through the vibration sensor, and coupled to the driver such that the vibration sensor support is rotatable around a longitudinal axis of the driver shaft and slidable along a longitudinal portion of the driver shaft. | 05-01-2014 |
20140121996 | Multi-Unit Data Analyzer - A vibration analysis system including a sensor to be coupled to a machine to measure vibration data, a data acquisition and processing unit to communicate with the sensor to receive the measured vibration data from the sensor and to perform test operations on the received vibration data to calculate vibration parameters, and at least one control unit to transmit operation requests instructing the data acquisition and processing unit to start receiving the vibration data from the sensor, to perform test operations, and to transmit corresponding vibration parameters over a wireless communication link to the control unit. The data acquisition and processing unit includes a data management unit such that when the communication link is broken, the data acquisition and processing unit continues to perform the test operations, and when the communication link is reestablished, the data management unit transmits the vibration parameters to the control unit. | 05-01-2014 |
20140122085 | Voice Controlled Vibration Data Analyzer Systems and Methods - Embodiments of the present general inventive concept provide a voice controlled vibration data analyzer system, including a vibration sensor to detect vibration data from a machine-under-test, a data acquisition unit to receive the vibration data from the vibration sensor, and a control unit having a user interface to receive manual and audio input from a user, and to communicate information relating to the machine-under-test, the control unit executing commands in response to the manual or audio input to control the data acquisition unit and/or user interface to output an audio or visual message relating to a navigation path of multiple machines to be tested, to collect and process the vibration data, and to receive manual or audio physical observations from the user to characterize collected vibration data. | 05-01-2014 |
20140222378 | Systems and Methods for Communicating in a Predictive Maintenance Program Using Remote Analysts - A vibration data analysis and communication system to analyze vibration measurements from one or more machines including a sensor to detect vibration signals from a machine-under-test according to a predetermined test, a data acquisition unit to receive the vibration signals and to process the vibration signals to generate vibration data, an input unit to selectively receive field notes information from an operator of the data acquisition unit, a communication unit to transmit the vibration data and the field notes information to a remote analyst over a communication network, and to receive feedback from the remote analyst via the communication network regarding health of the machine-under test based on characteristics of the transmitted vibration data and field notes information, and a control unit to control operations of the sensor, the data acquisition unit, the input unit, and the communication unit. | 08-07-2014 |