Laars Heating Systems Company Patent applications |
Patent application number | Title | Published |
20150362211 | HIGH EFFICIENCY BOILER - A high efficiency compact boiler is disclosed which includes a burner configured to introduce combustion gases into an interior region of the boiler, a heat exchange tube made of a length of finned tubing in the form of a helical coil positioned within the interior region of the boiler such that combustion gases from the burner can flow from a region inside the helical coil to a region outside the helical coil, and a floating baffle configured to redirect the flow of combustion gases around the finned tubing as it passes from the region inside the helical coil to the region outside the helical coil, the baffle being positioned proximal adjacent turns of the helical coil and having a coiled configuration corresponding substantially to the helical coil. | 12-17-2015 |
20150323265 | HEAT EXCHANGER HAVING A COMPACT DESIGN - Disclosed is a heat exchanger having an economizer configured as a ring of tubes in a periphery of the heat exchanger. The heat exchanger includes a cylindrical flue collector and a manifold at either end of the cylindrical flue collector. The manifold has a plurality of chambers. The manifold can be made of steel or plastic and governs fluid flow rate and direction within a ring of tubes. At least two rings of heat exchanging tubes, an outer ring and an inner ring, are within the cylindrical flue collector. The rings of tubes are concentric with respect to each other. | 11-12-2015 |
20130118608 | SYSTEM AND METHOD FOR TRAPPING AND NEUTRALIZING CONDENSATE IN A CONDENSING GAS APPLIANCE - A drain system is configured to collect condensate from flue gas generated by a condensing fuel-fired appliance. The drain system includes a drain body defining an inlet positioned to receive condensate in the drain body, a drain opening positioned to deliver condensate from the drain body, a passage extending between the inlet and the drain opening, and a seat surface disposed within the passage. A float moves within the passage of the drain body at a location between the inlet of the drain body and the seat surface of the drain body. The float moves to a position contacting the seat surface defined by the drain body to block the flow of flue gas through the passage of the drain body when there is little or no condensate in the passage. A neutralizing agent is positioned along the passage of the drain body for contact with condensate in the passage. | 05-16-2013 |
20120240869 | CONDENSING GAS APPLIANCE AND CONDENSATE TRAP THEREFOR - A condensing fuel-fired appliance has a condensate trap that includes a trap body; a float; a flue gas inlet port for the introduction of flue gas into the interior region of the trap body; a condensate outlet port for the discharge of condensate from the interior region; and a flue gas outlet port for the discharge of flue gas from the interior region of the trap body. The float is configured to move in response to condensate collected in the interior region of the trap body to a position to substantially block the discharge of flue gas from the interior region through the flue gas outlet port. The float is also configured to move to a position to substantially block the discharge of flue gas from the interior region through the condensate outlet port when there is little or no condensate in the interior region of the trap body. | 09-27-2012 |
20120079995 | WATER HEATING SYSTEM AND METHOD FOR USING THE SAME - A water heating system includes a housing that defines a substantially enclosed interior region. A control panel is attached to the housing and includes a display that displays a particular condition of the water heating system. An access panel is attached to the housing for movement between a first position and a second position, wherein, in the first position of the access panel, a passageway to the interior region of the housing is provided, and, in the second position of the access panel, the passageway to the interior region of the housing is closed. The display is visible in both positions of the access panel such that movement of the access panel from the second position to the first position facilitates simultaneous access to the display and to the interior region of the housing though the passageway. | 04-05-2012 |
20100221675 | CONDENSING BOILER AND WATER HEATER - A boiler and method of operating a boiler are disclosed. The boiler generally includes a housing defining an enclosed region and a plurality of heat exchange conduits at least partially positioned within the enclosed region of the housing and arranged into an interior column and an exterior column. A baffle is at least partially positioned within the enclosed region of the housing and positioned between the interior column and the exterior column of heat exchange conduits. The baffle and the housing together define a constricted region. The heat exchange conduits of the exterior column are positioned within the constricted region. The constricted region defines a path for directing the flow of products of combustion adjacent the heat exchange conduits of the exterior column thereby facilitating the exchange of heat between the products of combustion and water within the heat exchange conduit of the exterior column. | 09-02-2010 |