Neild
Ian Neild, Suffolk GB
Patent application number | Description | Published |
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20110084244 | CABLE INSTALLATION USING OPTICAL DETECTION - A device for use with a conduit having a first conduit end and a conduit second end, into which conduit a cable can be installed using a flow of air into the first conduit end, the device being suitable for confirming that the flow of air is exiting the second conduit end, the device including a housing, means to enable connection of the device to the second conduit end, a light source, a detector arranged to detect a presence or absence of a light signal, and a light shield, wherein in use, the flow of air entering the device causes the light shield and at least one of the light source or the detector, to move to and to stay at a position relative to the other, permitting the detector to detect detections including one or more of a presence or absence of the light signal, an intensity level of the light signal, a change in the presence or absence of the light signal, or a change in the intensity level of the light signal. | 04-14-2011 |
20120029846 | PASSIVE REMOTE DETECTION OF GAS FLOW AND CABLE ARRIVAL - A system for use in installation of blown fiber for detecting a signal indicative of presence of at least one of a gas flow or an optical fiber at a remote location, comprising a gas vibration detector configured to acoustically couple with an installation duct through which the signal can travel after its generation at the remote location, and a processor arranged to receive an input from the vibration detector and to process the input to identify the signal present within the input; and a sensor for generating the signal upon sensing the presence of at least one of the gas flow or the optical fiber at the remote location. The signal can be provided by a whistle mounted on the remote end of the installation duct. The vibration sensor is typically a microphone. | 02-02-2012 |
Ian Neild, Ipswich Suffolk GB
Patent application number | Description | Published |
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20110006786 | CABLE INSTALLATION USING INDUCTION - A device for use with a conduit having a first conduit end and a conduit second end, into which conduit a cable can be installed using a flow of air into the first conduit end, the device being suitable for confirming that the air is flowing out from the second conduit end. In an embodiment, the device includes a housing, means to enable connection of the device to the second conduit end, a detector arranged to detect an electrical property change, and an actuator for causing an electrical property change detectable by the detector, wherein in use, the air flowing into the device causes the detector and the actuator to move relative to each other, causing an electrical property change detectable by the detector. | 01-13-2011 |
Ian Neild, Ipswich GB
Patent application number | Description | Published |
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20090007640 | CABLE INSTALLATION - A method for use in connection with installing a cable into a conduit having a first end and a second end, to confirm whether air introduced into the conduit at the first end is flowing out of the conduit from the second end, the method including the steps of: substantially blocking the second end, so that when the air is introduced into the conduit its flow from the second end will be impeded; introducing a flow of air into the first end; and detecting a change in a property of the air within the conduit whereby it can be confirmed if the air is flowing to the second end. | 01-08-2009 |
20090010606 | CABLE INSTALLATION - A method for use in connection with installing a fibre unit ( | 01-08-2009 |
20090065547 | CABLE INSTALLATION - A method, for use in connection with installing a cable into a conduit ( | 03-12-2009 |
Nicholas J. Neild, Poway, CA US
Patent application number | Description | Published |
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20140205503 | FRAZIL ICE CONJUGATE ASSAY DEVICE AND METHOD - An improved apparatus and method for dispersion of a labeling conjugate in a diagnostic assay, the result being a one-step assay. By eliminating a conjugate pad as in conventional lateral diagnostic devices, and forming a frazil ice pellicle (FIP), rehydration and flow are improved resulting in better reproducibility, improved sensitivity, and reduced costs of individual assay devices. The formation of a frazil ice film formed on a super cooled surface of a sample receiving means simplifies assay assembly. Lyophilization of the FIP improves the release of a sample/analyte/label matrix into into a macro channel as in a direct flow assay, while at the same time allowing reagents to mix and flow, thereby optimizing the assay performance. The reagents of the conjugate and the formation of the FIP stabilize the conjugate proteins and provide extended shelf life to the diagnostic assay device. | 07-24-2014 |
Pete Neild, Poway, CA US
Patent application number | Description | Published |
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20090012430 | Non-invasive characterization of human vasculature - Vascular conditions are detected non-invasively in the human body using a collection of acoustic information from small local regions of the vasculature. An array of accelerometers or other sensors are attached to the head or other points of interest of a patient and blood flow sounds are recorded. Vibration signatures of vessel structures such as branches, aneurysms, stenosis, etc. using random, periodic, band limited or transient analysis provides a library for further processing. The signature library is used to localize the origin of the recognized vascular feature, and the localized feature is presented to the physician in a clinically relevant manner. | 01-08-2009 |
Peter James Neild, San Diego, CA US
Patent application number | Description | Published |
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20080215270 | SYSTEMS AND METHODS FOR MONITORING MOVING DEVICES - This present specification provides, amongst other things, an electro-optical monitoring system for obtaining a once-per-revolution signal based on the surface reflection of a rotating device that mandates non-contacting sensor input in potentially hostile environments. The system can use optical and electronic sections to illuminate and detect surface reflections from the rotating surface using existing mounting locations on the periphery of the machine to be measured. The electronic portion is configured to determine a unique mark as the once-per-revolution marker or allow an attending operator to assign a specific marker based on the observed reflected pattern. The optical portion consists of a light source, receiver, and optics will allow for focused and directed light paths to properly position relevant to key reflective surfaces. | 09-04-2008 |
20100211343 | SYSTEMS AND METHODS FOR MONITORING MOVING DEVICES - This present specification provides, amongst other things, an electro-optical monitoring system for obtaining a once-per-revolution signal based on the surface reflection of a rotating device that mandates non-contacting sensor input in potentially hostile environments. The system can use optical and electronic sections to illuminate and detect surface reflections from the rotating surface using existing mounting locations on the periphery of the machine to be measured. The electronic portion is configured to determine a unique mark as the once-per-revolution marker or allow an attending operator to assign a specific marker based on the observed reflected pattern. The optical portion consists of a light source, receiver, and optics will allow for focused and directed light paths to properly position relevant to key reflective surfaces. | 08-19-2010 |
20120072152 | Systems and Methods for Monitoring Moving Surfaces - This present specification provides, amongst other things, an electro-optical monitoring system for obtaining a once-per-revolution signal based on the surface reflection of a rotating device that mandates non-contacting sensor input in potentially hostile environments. The system can use optical and electronic sections to illuminate and detect surface reflections from the rotating surface using existing mounting locations on the periphery of the machine to be measured. The electronic portion is configured to determine a unique mark as the once-per-revolution marker or allow an attending operator to assign a specific marker based on the observed reflected pattern. The optical portion consists of a light source, receiver, and optics that allow for focused and directed light paths. | 03-22-2012 |