Wetzel, PA
Arthur W. Wetzel, Murrysville, PA US
Patent application number | Description | Published |
---|---|---|
20100002918 | System and method for finding regions of interest for microscopic digital montage imaging - A system for determining tissue locations on a slide. | 01-07-2010 |
20100060729 | System for creating microscopic digital montage images - An imaging apparatus. The imaging apparatus may find an area in which a specimen is present, then focus on the specimen and capture images of the specimen during continuous stage motion. | 03-11-2010 |
Christopher Wetzel, Wayne, PA US
Patent application number | Description | Published |
---|---|---|
20150193774 | SYSTEM AND METHOD FOR FRAUD DETECTION USING SOCIAL MEDIA - Systems and methods for fraud detection include an application programming interface (API) that establishes, via a network, a link between an account provider system and a social media system, a registration processor that receives, via a network, registration information that indicates that a customer wishes to register for a location-based account service provided by the account provider system, wherein the social media system provides at least a portion of location data used to support the location-based account service provided by the account provider system, a location processor that receives, via a network, location information from the social media system, wherein the location information is associated with the location of the customer, and a fraud processor that executes a fraud detection algorithm to determine whether to approve a transaction based in part on the received location information. | 07-09-2015 |
John E. Wetzel, Bath, PA US
Patent application number | Description | Published |
---|---|---|
20110093926 | SYNDICATION METHODOLOGY TO DYNAMICALLY PLACE DIGITAL ASSETS ON NON-RELATED WEB SITES - An automated method is provided for obtaining selected content for a web page that allows for syndication of digital assets. The selected content itself is not initially part of the web page. The web page includes script associated with the selected content. Upon receiving a web page that includes script associated with the selected content, the script is interpreted. A request is then formatted for obtaining the selected content from a remote site. The request includes a uniform resource identifier (URI) of the web page and a unique identifier of the selected content. The script includes a subscriber identifier and a content identifier, which, together, create the unique identifier of the selected content. | 04-21-2011 |
20120297287 | Method of generating and providing script associated with a digital asset - A method of generating and providing script associated with a digital asset is provided. A web application hosted on a server generates script. The script includes code to request the content of the digital asset from a remote site when the code is executed by a browser. The code includes a subscriber identifier for use by the remote site in determining whether a web page is authorized to receive the content of the digital asset. The generated script is provided to a web browser for insertion into, and to become part of, a web page. The script allows for receipt of the content of the digital asset to an authorized web page. | 11-22-2012 |
John F. Wetzel, Hamburg, PA US
Patent application number | Description | Published |
---|---|---|
20140261924 | PROCESSES FOR IMPROVING FORMABILITY OF WROUGHT COPPER-NICKEL-TIN ALLOYS - Disclosed are processes for improving the formability of a copper-nickel-tin alloy having a 0.2% offset yield strength that is above 115 ksi. The alloy includes about 14.5 to about 15.5 wt % nickel, about 7.5 to about 8.5 wt % tin, and the remaining balance is copper. The copper-nickel-tin alloy is mechanically cold worked to undergo between 5% and 15% plastic deformation. The alloy is then heat treated at elevated temperatures of about 450° F. to about 550° F. for a period of about 3 hours to about 5 hours. The alloy is then subsequently mechanically cold worked again to undergo between 4% and 12% plastic deformation. The alloy is then further heated to an elevated temperature of about 700° F. to about 850° F. for a period between about 3 minutes and about 12 minutes to relieve stress. The resulting alloy has a combination of good formability ratio and good yield strength. | 09-18-2014 |
20140261925 | ULTRA HIGH STRENGTH COPPER-NICKEL-TIN ALLOYS - The present disclosure relates to ultra high strength wrought copper-nickel-tin alloys and processes for improving the yield strength of the copper-nickel-tin alloy such that the resulting 0.2% offset yield strength is at least 175 ksi. The alloy includes about 14.5 wt % to about 15.5% nickel, about 7.5 wt % to about 8.5% tin, and the remaining balance is copper. The steps include cold working the copper-nickel-tin alloy wherein the alloy undergoes between 50%-75% plastic deformation. The alloy is heat treated at elevated temperatures between about 740° F. and about 850° F. for a time period of about 3 minutes to 14 minutes. | 09-18-2014 |
Lance Wetzel, Spring Grove, PA US
Patent application number | Description | Published |
---|---|---|
20150202419 | DEVICES FOR TARGETED DELIVERY OF THERAPEUTIC IMPLANTS - A barrel adapter for a syringe having a barrel and plunger. The adapter comprises a barrel tip and a needle retraction mechanism having a needle subassembly with a needle and a lumen, actuator subassembly, and biasing member. The needle subassembly moves from an injection to a retracted position within the barrel tip. The actuator subassembly includes a retainer connected to the barrel tip, a stylet held in a stylet disc, and a prong passing into the retainer. The stylet slides within the needle lumen and is spaced from the needle tip in the injection position. The biasing member biases the NOM from the retainer. A locking arrangement compresses the biasing member when locked and releases the biasing member when actuated by depression of the plunger, which moves the prong against the retainer. The biasing member moves the needle and stylet from the injection position to the retracted position when released. | 07-23-2015 |
Lance W. Wetzel, Spring Grove, PA US
Patent application number | Description | Published |
---|---|---|
20150025454 | SYRINGES FOR PREFILLED AND FILL-AT-USE MIXING AND DRUG DELIVERY - Mixing syringes including a valve mechanism are configured and configurable to enable one or more substances to be prefilled into the syringe. The valve mechanism may be an aspect of a distal seal assembly. Actuation of the valve mechanism permits opening of a fluid passage for the mixing of one or more substances, and the resulting mixed substance can be delivered by the syringe, for example, for administration of a pharmaceutical to a subject. | 01-22-2015 |
20150025456 | SYRINGES FOR SEQUENTIAL DELIVERY OF INJECTABLES - Sequential delivery syringes including a valve mechanism are configured and configurable to enable one or more substances to be prefilled into the syringe. The valve mechanism may be an aspect of a distal seal assembly. Actuation of the valve mechanism permits opening of a fluid passage for the mixing of one or more substances, and the resulting mixed substance can be delivered by the syringe, for example, for administration of a pharmaceutical to a subject. The sequential delivery of substances contained in a distal and proximal chamber is also provided, where a second substance from the distal chamber is delivered followed by the delivery of a first substance from the distal chamber after the first substance from the proximal chamber is transferred into the distal chamber involving the actuation of the valve mechanism. | 01-22-2015 |
Troy A. Wetzel, West Reading, PA US
Patent application number | Description | Published |
---|---|---|
20090313880 | Electrocuting mouse trap with automatic chamber-clearing mechanism - An electronic mouse trap is provided having multiple kill and automatic killing chamber clearing capabilities. The trap includes an elevated killing chamber rotatably mounted on a base that houses a collection bin positioned under the chamber and which has an entrance pathway that provides mice with access to the chamber. Upon completion of a killing cycle and the killing of a mouse, the chamber is automatically rotated by a gear motor about a longitudinal axis that is slightly below the floor of the chamber. The chamber rotates approximately 180 degrees so as to be inverted, allowing the dead mouse to fall downwardly into the collection bin. Once the chamber has been inverted and the mouse removed by gravity, the gear motor reverses the rotation direction and returns the chamber to its upright position where it is ready to reinitiate the killing cycle for another mouse. | 12-24-2009 |
20120240450 | ELECTROCUTING MOUSE TRAP WITH AUTOMATIC CHAMBER-CLEARING MECHANISM - An electronic mouse trap is provided having multiple kill and automatic killing chamber clearing capabilities. The trap includes an elevated killing chamber rotatably mounted on a base that houses a collection bin positioned under the chamber and which has an entrance pathway that provides mice with access to the chamber. Upon completion of a killing cycle and the killing of a mouse, the chamber is automatically rotated by a gear motor about a longitudinal axis that is slightly below the floor of the chamber. The chamber rotates approximately 180 degrees so as to be inverted, allowing the dead mouse to fall downwardly into the collection bin. Once the chamber has been inverted and the mouse removed by gravity, the gear motor reverses the rotation direction and returns the chamber to its upright position where it is ready to reinitiate the killing cycle for another mouse. | 09-27-2012 |
Troy A. Wetzel, Mohnton, PA US
Patent application number | Description | Published |
---|---|---|
20090013587 | Rearming electronic animal trap with baffle, mechanical switch and multiple-killing-plate configuration - An electric or electronic animal trap with a CPU-controlled, rearming, multiple killing plate configuration and automatically resetting mechanical switch for triggering a high voltage cycle. A high-voltage output circuit is connected to killing plates which are activated with a high-voltage pulse train when a pest closes the mechanical switch. The trap is configured to automatically rearm an indefinite number of times until a first dispatch is detected. Once the first dispatch is detected, the circuit will automatically rearm twice more. Accordingly, a plurality of mice may be dispatched and retained within the trap before the trap requires servicing. | 01-15-2009 |
20090120373 | Ultrasonic trainer with user selectable frequency ranges - An ultrasonic device is provided for training a dog to cease from certain undesirable behaviors using a short ultrasonic burst that sweeps across multiple frequencies in one of several user-selected ranges. The user can program the device to a particular range by stepping through the available frequency ranges and noting the animal's response to ultrasonic bursts at each frequency range. Once the frequency range most disturbing to the animal has been identified, the user can set the device to operate in that range. In response to bark detection in an automatic mode or to a manual trigger in either an automatic or manual mode of operation, the device administers a short ultrasonic burst in the programmed frequency range for a fixed time duration. When triggered manually, the length of the burst is the same regardless of how long the manual trigger remains activated. | 05-14-2009 |
20090172995 | Rearming electronic animal trap with infrared sensor and multiple-killing-plate configuration - An electric or electronic animal trap with a CPU-controlled, rearming, multiple killing plate configuration and automatically resetting interruptible beam sensor for triggering a high voltage cycle. A high-voltage output circuit is connected to killing plates which are activated with a high-voltage pulse train when a pest interrupts the beam signal, such as an infrared beam signal generated by an infrared transmitter to an infrared receiver. The trap is preferably configured to automatically rearm if the IR beam signal is no longer interrupted after the killing cycle. If the IR beam signal is still blocked after the killing cycle, however, the trap enters a standby mode indicating trap servicing is required to remove the dead rodent from the trap. | 07-09-2009 |
20100283610 | Rearming electronic animal trap with infrared sensor and multiple-killing-plate configuration - An electric or electronic animal trap with a CPU-controlled, rearming, multiple killing plate configuration and automatically resetting interruptible beam sensor for triggering a high voltage cycle. A high-voltage output circuit is connected to killing plates which are activated with a high-voltage pulse train when a pest interrupts the beam signal, such as an infrared beam signal generated by an infrared transmitter to an infrared receiver. The trap is preferably configured to automatically rearm if the IR beam signal is no longer interrupted after the killing cycle. If the IR beam signal is still blocked after the killing cycle, however, the trap enters a standby mode indicating trap servicing is required to remove the dead rodent from the trap. | 11-11-2010 |