Patent application number | Description | Published |
20110045423 | GAS PILOT BURNER ASSEMBLY - A pilot burner assembly for easy removal of a thermo-electric or other device is disclosed. In an illustrative embodiment, a burner tube, thermo-electric device, and/or spark source are retained in a desired position via a bracket and resilient clip. The bracket may include retention features built into the bracket to help aid in the positioning of the burner tube, thermo-electric device, and/or spark source. The burner tube, thermo-electric device and/or spark source may include retention features that are configured to engage corresponding retention features in the bracket, when desired. The resilient clip may bias the retention features of the burner tube, thermo-electric device and/or spark source against corresponding the retention features of the bracket. One or more of the burner tube, thermo-electric device and/or spark source may be removed from the bracket by overcoming the bias force provided by the resilient clip to disengage the retention features of the burner tube, thermo-electric device and/or spark source from the corresponding retention features of the bracket, and sliding the component out of the bracket. | 02-24-2011 |
20110147552 | MOUNTING BRACKET FOR USE WITH A WATER HEATER - A mounting bracket for mounting a temperature sensor, a gas valve, a power delivery unit, a controller and/or any other suitable object or device to a water heater tank or other appliance. An illustrative but non-limiting example may be found in a mounting bracket that includes a polymeric body that has a sensor portion configured to receive a temperature sensor. The sensor portion may have a distal end that extends into and supports the temperature sensor within the water heater tank. The polymeric body may also includes a threaded portion that is configured to threadably engage a threaded spud in a water heater tank such that the distal end of the sensor portion extends into the water tank of the water heater. Various features for increasing the strength and durability of the bracket are also disclosed. | 06-23-2011 |
20130152673 | GAS VALVE WITH ELECTRONIC VALVE PROVING SYSTEM - This disclosure relates generally to valves, and more particularly, to gas valve assemblies. In one example, a valve assembly may be configured to perform a valve proving test as part of an operational cycle of a combustion appliance coupled to the valve assembly. The valve assembly may include a valve body having a fluid path, first and second valve sealing members translatable between an opened position and a closed position, and one or more pressure sensors in fluid communication with an intermediate volume of the fluid path between the first and second valve sealing members. A valve controller may be in communication with the pressure sensor and may monitor a measure related to a pressure change rate in the intermediate volume. The valve controller may then output a signal if the measure related to a pressure change rate in the intermediate volume meets and/or exceeds a threshold value. | 06-20-2013 |
20130153035 | GAS VALVE WITH ELECTRONIC CYCLE COUNTER - A gas valve assembly may include an electronic valve controller secured relative to a valve body. The electronic controller may be configured to count each operational cycle of the gas valve and maintain a cumulative count of the number of operational cycles experienced by the gas valve in a memory, such as a non-volatile memory. In some cases, the non-volatile memory may also store one or more operational cycle threshold values that may be retrieved and compared to the cumulative count of the number of operational cycles experienced by the gas valve. In some instances, where the cumulative count of the number of operational cycles experienced by the gas valve meets and/or exceeds the threshold number of operational cycles, the gas valve may be prevented from opening. | 06-20-2013 |
20130153036 | GAS VALVE WITH ELECTRONIC PROOF OF CLOSURE SYSTEM - This disclosure relates generally to valves, and more particularly, to gas valve assemblies. In one illustrative but non-limiting example, a valve assembly may include a valve body having an interior and an exterior, a valve or valve sealing member positioned in the valve body, a sensor element (e.g., a magnet and/or a ferrous core) secured relative to the valve sealing member and a sensor (e.g., a magnetic field sensor) positioned outside of the interior of the valve body. The valve sealing member may be movable between an opened position and a closed position, and the sense element may move with the valve sealing member. The sensor may be configured to detect a position of the valve sealing member and communicate that position to a valve controller. | 06-20-2013 |
20130153041 | GAS VALVE WITH OVERPRESSURE DIAGNOSTICS - This disclosure relates generally to valves, and more particularly, to gas valve assemblies. In one example, a gas valve assembly may include a valve body with one or more valves movable between an opened position and a closed position, one or more valve actuators configured to operate the valves, and one or more pressure sensors to sense a pressure within a fluid path of the valve assembly. A valve controller may receive a measure related to a sensed pressure from the one or more pressure sensor(s). The valve controller may compare the received measure related to the sensed pressure to an overpressure threshold. In the event the measure related to the sensed pressure surpasses the overpressure threshold value, the valve controller may be configured to provide a signal that indicates an overpressure event has occurred. | 06-20-2013 |
20130153042 | GAS VALVE WITH HIGH/LOW GAS PRESSURE DETECTION - This disclosure relates generally to valves, and more particularly, to gas valve assemblies. In one example, the valve assembly may include a valve body with a fluid path, one or more valves or valve sealing members positioned across the fluid path, and one or more pressure sensors in fluid communication with a fluid path of the valve assembly. The valve assembly may include a valve controller in communication with the pressure sensors, where the valve controller may be configured to compare a measure related to a pressure sensed by the one or more pressure sensors to a pressure threshold value (e.g., a high pressure threshold value, a low pressure threshold value, or other pressure threshold value). If the measure surpasses the threshold value, the valve controller may provide a predetermined output signal indicating a pressure event has occurred, such as a high or low gas pressure event. | 06-20-2013 |
20130153062 | GAS VALVE WITH FUEL RATE MONITOR - This disclosure relates generally to valves, and more particularly, to gas valve assemblies. In one illustrative but non-limiting example, a valve assembly may include a flow module for sensing one or more parameters of a gas flowing through the fluid path of the gas valve, and may determine a measure that is related to a gas flow through the fluid path. A measure related to a gas flow may include, but is not limited to, a measure of fuel consumption by a device or appliance attached to an output port of the valve assembly. Illustratively, the flow module may include one or more valve controllers in communication with one or more pressure sensors, one or more flow sensors, one or more temperature sensors, one or more valve position sensors, and/or any other suitable sensors as desired. | 06-20-2013 |
20130153798 | GAS VALVE WITH COMMUNICATION LINK - This disclosure relates generally to valves, and more particularly, to gas valve assemblies. In one example, the valve assembly may include a valve body with an inlet port, an outlet port, and a fluid path extending between the inlet and outlet ports, one or more valves situated about the fluid path, one or more valve actuators for selectively moving respective valves, one or more sensors for sensing one or more parameters within the fluid path, and a controller secured relative to the valve body and in communication with the one or more sensors for determining one or more valve assembly conditions based on the one or more sensed parameters. Illustratively, the controller may be configured to communicate information from the valve assembly to a combustion appliance controller that is located remotely from the valve assembly through a communications interface of the controller and across a communications bus. | 06-20-2013 |
20130154841 | GAS VALVE WITH VALVE LEAKAGE TEST - This disclosure relates generally to valves, and more particularly, to gas valve assemblies. In one example, a valve leakage test may be performed on a valve assembly including a valve body with a first valve and a second valve, where the valves may be positioned across a fluid path in the valve body with an intermediate volume between the valves. A pressure sensor may be in fluid communication with the intermediate volume and may sense a measure that is related to the pressure in the intermediate volume. The pressure sensor may communicate with a controller to determine a measure that is related to a pressure change in the intermediate volume and compare the measure that is related to a pressure change to a first and/or second threshold value. The controller may output a signal if the measure meets and/or exceeds the first and/or second threshold value. | 06-20-2013 |
20130337389 | GAS PILOT BURNER ASSEMBLY - A pilot burner assembly for easy removal of a thermo-electric or other device is disclosed. In an illustrative embodiment, a pilot burner assembly may include a bracket and a resilient clip, which together, help maintain at least some of the pilot burner components in a desired configuration. | 12-19-2013 |
20140080075 | BURNER CONTROL SYSTEM - A burner control system for improving burner performance and efficiency. The system may determine fuel and air channel or manifold parameters. Determination of parameters may be performed with a sensor connected across the air and fuel channels. A signal from the sensor may control the parameters which in turn affect the amounts of fuel and air to the burner via a controller. Parameter control of the fuel and air in their respective channels may result in more accurate fuel and air ratio control. One or more flow restrictors in fuel and/or air bypass channels may further improve accuracy of the fuel and air ratio. The channels may be interconnected with a pressure or flow divider. Byproducts of combustion in the exhaust, temperatures of gas and air, flame quality and/or other items may be monitored and adjusted with control of the fuel and air ratio for optimum combustion in the burner. | 03-20-2014 |
20140096850 | VISUAL INDICATOR FOR A SAFETY SHUT OFF VALVE - A valve assembly may have a visual valve position indication mechanism that is non-invasive relative to the body of the valve containing the fluid whose flow is controlled by the valve assembly. Valve position indication may be displayed with a lighted arrangement. The proof of closure sensor may provide position information to the indication mechanism to display it. | 04-10-2014 |
20140202549 | MULTI-TANK WATER HEATER SYSTEMS - A water heater system including two or more water storage tanks plumbed in series, parallel or a combination thereof and methods of controlling said water heater systems. The water heater systems may include one or more mixing valves and one or more temperature sensors for providing water at a desired temperature. | 07-24-2014 |
20140203093 | MULTI-TANK WATER HEATER SYSTEMS - A water heater system that includes a first water storage tank plumbed in series with a second water storage tank, and methods for controlling such a water heater system. In some instances, and in response to a water draw, a controller may activate both a first heat source associated with a first water storage tank and a second heat source associated for a second water storage tank. This rapid turn-on control may help reduce a drop in water temperature in the first water storage tank that might otherwise occur. The controller may also increase the setpoint temperature of the first water storage tank and/or the second water storage tank in response to a water draw. | 07-24-2014 |
20150045971 | VALVE CONTROLLER CONFIGURED TO ESTIMATE FUEL COMSUMPTION - A fuel valve for regulating a flow of fuel to a combustion appliance includes a control module configured to determine fuel consumption based on a measure related to fuel flow through the fuel valve. The measure related to fuel flow through the valve may be determined using a known relationship between firing rate and the flow rate of fuel through the valve. Measurement accuracy may be enhanced by correcting for the excess air ration (also referred to as lambda). | 02-12-2015 |