| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 126110000 | Compressed air | 24 |
| 20090114205 | High Efficiency Furnace Having a Blower Housing with an Enlarged Air Outlet Opening - An air distribution blower housing for a furnace is designed with an enlarged air outlet opening that slows down and spreads out the air flow from the blower housing over a greater area of the furnace heat exchanger. The blower housing thereby enables less air pressure drop through the heat exchanger, which increases the efficiency of the blower motor operation. The design of the blower housing also efficiently turns the velocity head of the air flow through the housing to usable static air pressure at the housing air outlet. The enlarged air outlet opening of the blower housing is achieved without increasing the exterior diameter dimensions of the blower housing by utilizing a volute outer wall of the blower housing that has an exponentially increasing expansion angle in the direction of air flow through the blower housing. | 05-07-2009 |
| 20090114206 | Furnace Air Handler Blower Housing with an Enlarged Air Outlet Opening - An air distribution blower housing for an air handler such as a residential furnace is designed with an enlarged air outlet opening that slows down and spreads out the air flow from the blower housing over a greater area of the furnace heat exchanger. The blower housing thereby enables less air pressure drop through the heat exchanger, which increases the efficiency of the blower motor operation. The design of the blower housing also efficiently turns the velocity head of the air flow through the housing to usable static air pressure at the housing air outlet. The enlarged air outlet opening of the blower housing is achieved without increasing the exterior diameter dimensions of the blower housing whereby the blower housing is used in a compact enclosure for residential use. This is accomplished by utilizing a volute outer wall of the blower housing that has an exponentially increasing expansion angle in the direction of air flow through the blower housing. | 05-07-2009 |
| 20110174289 | CONDENSATE TRAP FOR HEATING-COOLING SYSTEMS - A condensation trap comprising an inlet chamber, a vent chamber and an outlet chamber. The inlet chamber is configured to receive condensate fluid through an external opening therein. The vent chamber is in fluid communication with the inlet chamber via a first passageway that includes an internal opening of the inlet chamber. The internal opening is located substantially at an opposite end of the vent chamber as the external opening. The outlet chamber is in fluid communication with the vent chamber via a second passageway that includes an internal opening in a sidewall of the vent chamber and an interior opening in an end of the outlet chamber. The outlet chamber is configured to transmit the condensate fluid through an exterior opening located at an opposite end of the outlet chamber. A vent volume portion is greater than a total volume of an internal space of the inlet chamber. | 07-21-2011 |
| 20110174290 | HEAT EXCHANGER WITH FASTENER - A clamshell heat exchanger includes a first clamshell half and a second clamshell half. The first and second clamshell halves each include a through-hole therein. The first and second clamshell halves form a passageway, with a seal region located between portions of the passageway. A fastener is located within the first and second through-holes within the seal region. The fastener is configured to rigidly join the first clamshell half to the second clamshell half while allowing relative lateral motion between said first and said second clamshell halves. | 07-21-2011 |
| 20120090590 | INDUCER FAN ASSEMBLY FOR A GAS FURNACE SYSTEM - An inducer fan assembly including an inducer fan housing having a flue vent connection member configured and disposed to be connected to an exhaust gas flue vent. The flue vent connection member includes a flue gas outlet and a flue vent condensate inlet. | 04-19-2012 |
| 20120279484 | Fuel Oil Supply System from a Remote Source Including Recirculated Heating of Fuel Oil and Supplemented Supply Pressure - A fuel oil supply system for a portable fuel oil consuming device, representatively a portable oil fired construction heater includes supply and return fuel lines in communication with a remote fuel container in an anti-siphon configuration. One or more electrical heaters heat the fuel lines adjacent an integral pump of the consuming device. The fuel lines communicate with a partitioned volume of fuel within the container which is heated relative to a remaining volume as the fuel circulates. The pump and a combustion air blower of the device are located together with the heaters within an enclosure on the device such that air is drawn into the enclosure over the heaters and heat conducting surfaces of the pump by the blower for directing heated air through a combustion air duct of the blower which surrounds the burner and a main fuel line from the pump to the burner. | 11-08-2012 |
| 20130014740 | HEAT EXCHANGER FOR A HIGH EFFICIENCY HOT AIR HEATING APPLIANCE AND HEATING APPLIANCE EQUIPPED THEREWITH - Heat exchanger for a high efficiency hot air heating appliance ( | 01-17-2013 |
| 20130139802 | GRAVITY-STYLE FURNACE SUBUNIT INSIDE A GAS-INDUCED DRAFT FURNACE - A gravity-style furnace subunit for a gas-induced draft furnace. A heat conduction tube configured to be located inside of a gas-induced draft furnace cabinet, the heat conduction tube being separated from a row of draft-induced heat conduction tubes inside the cabinet. A burner assembly having a burner tube located within the heat conduction tube through an inlet opening of the heat conduction tube. The burner assembly permits air flow through the inlet opening into the heat conduction tube. A pilot assembly located within the heat conduction tube and adjacent to the burner tube. A thermopile module having located adjacent to a flame outlet of the pilot assembly within the heat conduction tube. A gas valve configured to control gas flow to the burner assembly, the gas valve electrically coupled to the thermopile module and to actuate gas flow there-through when the thermopile module generates a predefined voltage difference. | 06-06-2013 |
| 20140116410 | Device for Converting Heat Into Electrical Power - A device for converting heat into electrical power. The device comprises a base made of a heat conducting material. The base has a substantially flat bottom surface for being placed onto a flat outside surface of a heat source. At least a thermoelectric generator element is disposed onto a top surface of the base such that a high temperature surface of the thermoelectric generator element is in thermal contact with the top surface of the base. A heat sink structure is in thermal contact with a low temperature surface of the at least a thermoelectric generator element. Electrical circuitry is connected to the at least a thermoelectric generator element for receiving the electrical power therefrom. At least an electrical output port is connected to the electrical circuitry for providing the electrical power. | 05-01-2014 |
| 20140165990 | STRAIN REDUCTION CLAMSHELL HEAT EXCHANGER DESIGN - One aspect of this disclosure provides a heating chamber for a gas furnace that comprises opposing halves joined together. The joined opposing halves form a clamshell panel having at least one truncated corner located adjacent a curve located at a back end of a chamber path of the one or more clamshell heating chambers. | 06-19-2014 |
| 20150300687 | A Straight Fin Tube with Bended Fins Condensing Heat Exchanger - A forced convection fin tube condensing heat exchanger for supplying heat includes a shell, burner and fin tubes bundle. The burner is at the top of the shell, circular fin tubes bundle installed around the burner tightly, circularly and coaxially. The flue channel which is formed by the shell and a row of fin tubes bundle is below the burner. The flue flows along the flue channel to flue outlet. There are front and rear water manifolds at the two ends of the fin tubes. Water baffles inside the rear water manifold divide the rear water manifold into water inlet and outlet areas. The water enters the small portion of circular fin tubes bundle from water inlet area, through the front water manifold, back to the water outlet area via the main portion of the circular fin tubes bundle. The use of bended fin tube to improves efficiency. | 10-22-2015 |
| 20150377512 | HVAC SYSTEMS AND METHODS WITH IMPROVED HEAT EXCHANGERS - Systems, tools, and methods are presented that enable a plurality of turbulators to enhance heat transfer within a heat exchanger of a heating, ventilating, and air conditioning (HVAC) system. The plurality of turbulators each include a ribbon member having a variable pattern formed over a length. In one instance, the variable pattern of the ribbon member includes a plurality of bends defining intervals of alternating pitch. The intervals progressively increase in dimension as the ribbon member is traversed over the length. In another embodiment, the intervals contain apertures whose area increases as the length is traversed. Other systems, tools and methods are presented. | 12-31-2015 |
| 20190145657 | BLOWER ASSEMBLY FOR USE IN AN AIR HANDLING SYSTEM AND METHOD FOR ASSEMBLING THE SAME | 05-16-2019 |
| 20080283033 | FORCED AIR FURNACE - A forced air furnace comprises an enclosure, an adjusting mechanism, an interface, an electric heating element and a fan. The enclosure has an air inlet and an air outlet. The adjusting mechanism is operative to adjust the air outlet between an open position and a partially closed position. The interface is located proximate to the air outlet and is used to connect the air outlet to a duct. The fan is powered by an electric motor. Both the fan and the electric heating element are located inside the enclosure. There is also described a method of installing a forced air furnace. The method comprises the step of adjusting a size of an exhaust area of an air outlet of the forced air furnace in order to produce a desired exhaust airflow through the exhaust area when the forced air furnace is connected to a ductwork. | 11-20-2008 |
| 20140373826 | Passive Constant Pressure Hatch for Fresh Air Direct Fired Gas Heated Ventilation Systems - A fresh air heating system includes air intake and discharge chambers, a direct-fired gas burner mounted in a burner chamber in fluid communication with intake and discharge chambers therebetween, and a bypass opening between the air intake and discharge chambers that is selectively closed by a hatch cover having a panel and a peripheral wall extending from the panel. The hatch cover is movable between a first position wherein the hatch cover closes the bypass opening and the panel is positioned substantially horizontal and a second position wherein the hatch cover is lifted away from the bypass opening so as to minimize variations of air pressure differential across the bypass opening; the hatch cover being configured to lift away from the bypass opening when there is a positive variation of pressure between the air intake and discharge chambers, wherein the peripheral wall allows minimizing aerodynamic lift and the inherent reduction of static pressure under the panel when the hatch cover is lifted away from the bypass opening. | 12-25-2014 |
| 20130213378 | BURNER SYSTEM FOR A FURNACE - A burner system for a furnace. The system may have a wedged or other shaped burner box. An air-fuel mixer may be attached to a smaller end of the burner box at about a right angle relative to a direction of a gas and air mixture leaving the larger box end. A burner head may be attached to the larger end of the box. The burner head may be sufficient for numerous heater sections of a heat exchanger. A spacer and an orifice shield may be situated between the burner head and heat exchanger. A fan may pull in the gas and air mixture from the mixer, through the box and the burner head. The mixture may be ignited into a flame which is pulled into the heat exchanger. Some of the flue gas from the exchanger exhaust may be recirculated by being added with air to the mixer. | 08-22-2013 |
| 20130213379 | FURNACE PREMIX BURNER - A system having a pre-mix burner manifold in a housing that may permit air to be drawn through slots in the housing to flow over an external surface of the manifold. The flow of air may maintain a temperature of the manifold lower than a temperature that the manifold might have without the flow. The manifold may be attached to a burner and heat exchanger. | 08-22-2013 |
| 20140020669 | HVAC Furnace - A heating, ventilation, and/or air conditioning (HVAC) furnace has a flat burner comprising an upstream side and a downstream side, the flat burner being configured to receive an air-fuel mixture therethrough, a first flow path located adjacent the flat burner and downstream relative to the flat burner, the first flow path configured to receive fluid exiting the flat burner, and a plurality of second flow paths located downstream relative to the first flow path, the plurality of second flow paths being configured to receive fluid from the first flow path. | 01-23-2014 |
| 20140209086 | DIRECT FIRED HEATERS INCLUDING PREMIX BURNER TECHNOLOGY - According to various aspects, exemplary embodiments are disclosed of direct fired heaters including premix burner technology and/or feed forward control loop modulation via inlet air temperature. | 07-31-2014 |
| 20150362213 | BLOW THROUGH DIRECT FIRED HEATING, A/C AND ERV - According to various aspects, exemplary embodiments are disclosed of blow through direct fired heaters including evaporator coils and/or energy recovery ventilation. | 12-17-2015 |
| 20130092144 | GAS-FIRED HEATER WITH CARBON DIOXIDE DETECTOR - A portable gas-fired heater comprising a housing, a burner assembly, and a carbon dioxide detector system. The housing is adapted to at least partially enclose a fuel source. The burner assembly is enclosed by the housing. | 04-18-2013 |
| 20130233293 | BURNER FOR GAS-FIRED AIR HEATER - A burner assembly for a grain bin for heating air moving through the assembly to dry grain in the bin. The burner assembly has a collector adapted to receive fuel from a fuel line. A burner housing attaches to the collector receives fuel from the fuel line. A nozzle is secured to the burner. A flame diverter downstream from the burner housing diverts the flame outwardly from the burner nozzle toward the housing wall. A flame cone having a slope generally similar to the slope of the diverter is positioned near the burner to define a gap between the inside face of the diverter and the outer surface of the flame cone so as to provide a path for the burning fuel to travel from the burner outwardly toward the housing walls for a more complete combustion of the fuel. | 09-12-2013 |
| 20080302351 | Gas-Fired Portable Heater - A portable gas fired heater includes a combustion chamber having an air inlet and an air outlet. A low DC voltage (optionally AC voltage) fan or blower directs air through the combustion chamber so that the air is heated. Preferably, a vortex generator is located between the fan or blower and the combustion chamber such that air entering the combustion chamber swirls. The heater is designed to have a low center of gravity and thus difficult to tip-over. Nevertheless, several safety features are provided including a tip-over switch, thermal coupler, temperature limit switch, and a manual shutoff. | 12-11-2008 |
| 20100024794 | Direct-fired ductable heater - A direct-fired heater suitable for connection to duct work is disclosed. The heater comprises an outer shell comprising an inlet for allowing inlet of air to be heated and an outlet for exhausting heated air. A fan blade is operatively connected to a fan motor for operating the fan blade. The heater also comprises a combustion chamber defined by a combustion chamber wall, a burner plate at one end proximate the fan blade and an exhaust plate at an opposite end, the burner plate having openings therein for allowing airflow into the combustion chamber and the exhaust plate have an opening therein for allowing exit of heated exhaust from the combustion chamber, the combustion chamber wall extending past the burner plate. A first airflow zone exists between the outer shell and the combustion chamber allowing airflow between the fan blade and the outlet in the outer shell. An injector for injecting gas into the combustion chamber in proximity to the openings in the burner plate is used. The heater also comprises a nose cone between the outlet in the outer shell and the exhaust plate, the nose cone positioned to allow airflow through the exhaust plate and out of the outlet. The burner plate is located in a position proximate the fan blade suitable to cause recirculation of air blown by the fan blade to cool the injector and burner plate during operation of the heater. | 02-04-2010 |
| 126110000 | Blower and air damper | 2 |
| 20090114205 | High Efficiency Furnace Having a Blower Housing with an Enlarged Air Outlet Opening - An air distribution blower housing for a furnace is designed with an enlarged air outlet opening that slows down and spreads out the air flow from the blower housing over a greater area of the furnace heat exchanger. The blower housing thereby enables less air pressure drop through the heat exchanger, which increases the efficiency of the blower motor operation. The design of the blower housing also efficiently turns the velocity head of the air flow through the housing to usable static air pressure at the housing air outlet. The enlarged air outlet opening of the blower housing is achieved without increasing the exterior diameter dimensions of the blower housing by utilizing a volute outer wall of the blower housing that has an exponentially increasing expansion angle in the direction of air flow through the blower housing. | 05-07-2009 |
| 20090114206 | Furnace Air Handler Blower Housing with an Enlarged Air Outlet Opening - An air distribution blower housing for an air handler such as a residential furnace is designed with an enlarged air outlet opening that slows down and spreads out the air flow from the blower housing over a greater area of the furnace heat exchanger. The blower housing thereby enables less air pressure drop through the heat exchanger, which increases the efficiency of the blower motor operation. The design of the blower housing also efficiently turns the velocity head of the air flow through the housing to usable static air pressure at the housing air outlet. The enlarged air outlet opening of the blower housing is achieved without increasing the exterior diameter dimensions of the blower housing whereby the blower housing is used in a compact enclosure for residential use. This is accomplished by utilizing a volute outer wall of the blower housing that has an exponentially increasing expansion angle in the direction of air flow through the blower housing. | 05-07-2009 |
| 20110174289 | CONDENSATE TRAP FOR HEATING-COOLING SYSTEMS - A condensation trap comprising an inlet chamber, a vent chamber and an outlet chamber. The inlet chamber is configured to receive condensate fluid through an external opening therein. The vent chamber is in fluid communication with the inlet chamber via a first passageway that includes an internal opening of the inlet chamber. The internal opening is located substantially at an opposite end of the vent chamber as the external opening. The outlet chamber is in fluid communication with the vent chamber via a second passageway that includes an internal opening in a sidewall of the vent chamber and an interior opening in an end of the outlet chamber. The outlet chamber is configured to transmit the condensate fluid through an exterior opening located at an opposite end of the outlet chamber. A vent volume portion is greater than a total volume of an internal space of the inlet chamber. | 07-21-2011 |
| 20110174290 | HEAT EXCHANGER WITH FASTENER - A clamshell heat exchanger includes a first clamshell half and a second clamshell half. The first and second clamshell halves each include a through-hole therein. The first and second clamshell halves form a passageway, with a seal region located between portions of the passageway. A fastener is located within the first and second through-holes within the seal region. The fastener is configured to rigidly join the first clamshell half to the second clamshell half while allowing relative lateral motion between said first and said second clamshell halves. | 07-21-2011 |
| 20120090590 | INDUCER FAN ASSEMBLY FOR A GAS FURNACE SYSTEM - An inducer fan assembly including an inducer fan housing having a flue vent connection member configured and disposed to be connected to an exhaust gas flue vent. The flue vent connection member includes a flue gas outlet and a flue vent condensate inlet. | 04-19-2012 |
| 20120279484 | Fuel Oil Supply System from a Remote Source Including Recirculated Heating of Fuel Oil and Supplemented Supply Pressure - A fuel oil supply system for a portable fuel oil consuming device, representatively a portable oil fired construction heater includes supply and return fuel lines in communication with a remote fuel container in an anti-siphon configuration. One or more electrical heaters heat the fuel lines adjacent an integral pump of the consuming device. The fuel lines communicate with a partitioned volume of fuel within the container which is heated relative to a remaining volume as the fuel circulates. The pump and a combustion air blower of the device are located together with the heaters within an enclosure on the device such that air is drawn into the enclosure over the heaters and heat conducting surfaces of the pump by the blower for directing heated air through a combustion air duct of the blower which surrounds the burner and a main fuel line from the pump to the burner. | 11-08-2012 |
| 20130014740 | HEAT EXCHANGER FOR A HIGH EFFICIENCY HOT AIR HEATING APPLIANCE AND HEATING APPLIANCE EQUIPPED THEREWITH - Heat exchanger for a high efficiency hot air heating appliance ( | 01-17-2013 |
| 20130139802 | GRAVITY-STYLE FURNACE SUBUNIT INSIDE A GAS-INDUCED DRAFT FURNACE - A gravity-style furnace subunit for a gas-induced draft furnace. A heat conduction tube configured to be located inside of a gas-induced draft furnace cabinet, the heat conduction tube being separated from a row of draft-induced heat conduction tubes inside the cabinet. A burner assembly having a burner tube located within the heat conduction tube through an inlet opening of the heat conduction tube. The burner assembly permits air flow through the inlet opening into the heat conduction tube. A pilot assembly located within the heat conduction tube and adjacent to the burner tube. A thermopile module having located adjacent to a flame outlet of the pilot assembly within the heat conduction tube. A gas valve configured to control gas flow to the burner assembly, the gas valve electrically coupled to the thermopile module and to actuate gas flow there-through when the thermopile module generates a predefined voltage difference. | 06-06-2013 |
| 20140116410 | Device for Converting Heat Into Electrical Power - A device for converting heat into electrical power. The device comprises a base made of a heat conducting material. The base has a substantially flat bottom surface for being placed onto a flat outside surface of a heat source. At least a thermoelectric generator element is disposed onto a top surface of the base such that a high temperature surface of the thermoelectric generator element is in thermal contact with the top surface of the base. A heat sink structure is in thermal contact with a low temperature surface of the at least a thermoelectric generator element. Electrical circuitry is connected to the at least a thermoelectric generator element for receiving the electrical power therefrom. At least an electrical output port is connected to the electrical circuitry for providing the electrical power. | 05-01-2014 |
| 20140165990 | STRAIN REDUCTION CLAMSHELL HEAT EXCHANGER DESIGN - One aspect of this disclosure provides a heating chamber for a gas furnace that comprises opposing halves joined together. The joined opposing halves form a clamshell panel having at least one truncated corner located adjacent a curve located at a back end of a chamber path of the one or more clamshell heating chambers. | 06-19-2014 |
| 20150300687 | A Straight Fin Tube with Bended Fins Condensing Heat Exchanger - A forced convection fin tube condensing heat exchanger for supplying heat includes a shell, burner and fin tubes bundle. The burner is at the top of the shell, circular fin tubes bundle installed around the burner tightly, circularly and coaxially. The flue channel which is formed by the shell and a row of fin tubes bundle is below the burner. The flue flows along the flue channel to flue outlet. There are front and rear water manifolds at the two ends of the fin tubes. Water baffles inside the rear water manifold divide the rear water manifold into water inlet and outlet areas. The water enters the small portion of circular fin tubes bundle from water inlet area, through the front water manifold, back to the water outlet area via the main portion of the circular fin tubes bundle. The use of bended fin tube to improves efficiency. | 10-22-2015 |
| 20150377512 | HVAC SYSTEMS AND METHODS WITH IMPROVED HEAT EXCHANGERS - Systems, tools, and methods are presented that enable a plurality of turbulators to enhance heat transfer within a heat exchanger of a heating, ventilating, and air conditioning (HVAC) system. The plurality of turbulators each include a ribbon member having a variable pattern formed over a length. In one instance, the variable pattern of the ribbon member includes a plurality of bends defining intervals of alternating pitch. The intervals progressively increase in dimension as the ribbon member is traversed over the length. In another embodiment, the intervals contain apertures whose area increases as the length is traversed. Other systems, tools and methods are presented. | 12-31-2015 |
| 20190145657 | BLOWER ASSEMBLY FOR USE IN AN AIR HANDLING SYSTEM AND METHOD FOR ASSEMBLING THE SAME | 05-16-2019 |
| 20080283033 | FORCED AIR FURNACE - A forced air furnace comprises an enclosure, an adjusting mechanism, an interface, an electric heating element and a fan. The enclosure has an air inlet and an air outlet. The adjusting mechanism is operative to adjust the air outlet between an open position and a partially closed position. The interface is located proximate to the air outlet and is used to connect the air outlet to a duct. The fan is powered by an electric motor. Both the fan and the electric heating element are located inside the enclosure. There is also described a method of installing a forced air furnace. The method comprises the step of adjusting a size of an exhaust area of an air outlet of the forced air furnace in order to produce a desired exhaust airflow through the exhaust area when the forced air furnace is connected to a ductwork. | 11-20-2008 |
| 20140373826 | Passive Constant Pressure Hatch for Fresh Air Direct Fired Gas Heated Ventilation Systems - A fresh air heating system includes air intake and discharge chambers, a direct-fired gas burner mounted in a burner chamber in fluid communication with intake and discharge chambers therebetween, and a bypass opening between the air intake and discharge chambers that is selectively closed by a hatch cover having a panel and a peripheral wall extending from the panel. The hatch cover is movable between a first position wherein the hatch cover closes the bypass opening and the panel is positioned substantially horizontal and a second position wherein the hatch cover is lifted away from the bypass opening so as to minimize variations of air pressure differential across the bypass opening; the hatch cover being configured to lift away from the bypass opening when there is a positive variation of pressure between the air intake and discharge chambers, wherein the peripheral wall allows minimizing aerodynamic lift and the inherent reduction of static pressure under the panel when the hatch cover is lifted away from the bypass opening. | 12-25-2014 |
| 20130213378 | BURNER SYSTEM FOR A FURNACE - A burner system for a furnace. The system may have a wedged or other shaped burner box. An air-fuel mixer may be attached to a smaller end of the burner box at about a right angle relative to a direction of a gas and air mixture leaving the larger box end. A burner head may be attached to the larger end of the box. The burner head may be sufficient for numerous heater sections of a heat exchanger. A spacer and an orifice shield may be situated between the burner head and heat exchanger. A fan may pull in the gas and air mixture from the mixer, through the box and the burner head. The mixture may be ignited into a flame which is pulled into the heat exchanger. Some of the flue gas from the exchanger exhaust may be recirculated by being added with air to the mixer. | 08-22-2013 |
| 20130213379 | FURNACE PREMIX BURNER - A system having a pre-mix burner manifold in a housing that may permit air to be drawn through slots in the housing to flow over an external surface of the manifold. The flow of air may maintain a temperature of the manifold lower than a temperature that the manifold might have without the flow. The manifold may be attached to a burner and heat exchanger. | 08-22-2013 |
| 20140020669 | HVAC Furnace - A heating, ventilation, and/or air conditioning (HVAC) furnace has a flat burner comprising an upstream side and a downstream side, the flat burner being configured to receive an air-fuel mixture therethrough, a first flow path located adjacent the flat burner and downstream relative to the flat burner, the first flow path configured to receive fluid exiting the flat burner, and a plurality of second flow paths located downstream relative to the first flow path, the plurality of second flow paths being configured to receive fluid from the first flow path. | 01-23-2014 |
| 20140209086 | DIRECT FIRED HEATERS INCLUDING PREMIX BURNER TECHNOLOGY - According to various aspects, exemplary embodiments are disclosed of direct fired heaters including premix burner technology and/or feed forward control loop modulation via inlet air temperature. | 07-31-2014 |
| 20150362213 | BLOW THROUGH DIRECT FIRED HEATING, A/C AND ERV - According to various aspects, exemplary embodiments are disclosed of blow through direct fired heaters including evaporator coils and/or energy recovery ventilation. | 12-17-2015 |
| 20130092144 | GAS-FIRED HEATER WITH CARBON DIOXIDE DETECTOR - A portable gas-fired heater comprising a housing, a burner assembly, and a carbon dioxide detector system. The housing is adapted to at least partially enclose a fuel source. The burner assembly is enclosed by the housing. | 04-18-2013 |
| 20130233293 | BURNER FOR GAS-FIRED AIR HEATER - A burner assembly for a grain bin for heating air moving through the assembly to dry grain in the bin. The burner assembly has a collector adapted to receive fuel from a fuel line. A burner housing attaches to the collector receives fuel from the fuel line. A nozzle is secured to the burner. A flame diverter downstream from the burner housing diverts the flame outwardly from the burner nozzle toward the housing wall. A flame cone having a slope generally similar to the slope of the diverter is positioned near the burner to define a gap between the inside face of the diverter and the outer surface of the flame cone so as to provide a path for the burning fuel to travel from the burner outwardly toward the housing walls for a more complete combustion of the fuel. | 09-12-2013 |
| 20080302351 | Gas-Fired Portable Heater - A portable gas fired heater includes a combustion chamber having an air inlet and an air outlet. A low DC voltage (optionally AC voltage) fan or blower directs air through the combustion chamber so that the air is heated. Preferably, a vortex generator is located between the fan or blower and the combustion chamber such that air entering the combustion chamber swirls. The heater is designed to have a low center of gravity and thus difficult to tip-over. Nevertheless, several safety features are provided including a tip-over switch, thermal coupler, temperature limit switch, and a manual shutoff. | 12-11-2008 |
| 20100024794 | Direct-fired ductable heater - A direct-fired heater suitable for connection to duct work is disclosed. The heater comprises an outer shell comprising an inlet for allowing inlet of air to be heated and an outlet for exhausting heated air. A fan blade is operatively connected to a fan motor for operating the fan blade. The heater also comprises a combustion chamber defined by a combustion chamber wall, a burner plate at one end proximate the fan blade and an exhaust plate at an opposite end, the burner plate having openings therein for allowing airflow into the combustion chamber and the exhaust plate have an opening therein for allowing exit of heated exhaust from the combustion chamber, the combustion chamber wall extending past the burner plate. A first airflow zone exists between the outer shell and the combustion chamber allowing airflow between the fan blade and the outlet in the outer shell. An injector for injecting gas into the combustion chamber in proximity to the openings in the burner plate is used. The heater also comprises a nose cone between the outlet in the outer shell and the exhaust plate, the nose cone positioned to allow airflow through the exhaust plate and out of the outlet. The burner plate is located in a position proximate the fan blade suitable to cause recirculation of air blown by the fan blade to cool the injector and burner plate during operation of the heater. | 02-04-2010 |
| 126110000 | Unit heaters | 2 |
| 20090114205 | High Efficiency Furnace Having a Blower Housing with an Enlarged Air Outlet Opening - An air distribution blower housing for a furnace is designed with an enlarged air outlet opening that slows down and spreads out the air flow from the blower housing over a greater area of the furnace heat exchanger. The blower housing thereby enables less air pressure drop through the heat exchanger, which increases the efficiency of the blower motor operation. The design of the blower housing also efficiently turns the velocity head of the air flow through the housing to usable static air pressure at the housing air outlet. The enlarged air outlet opening of the blower housing is achieved without increasing the exterior diameter dimensions of the blower housing by utilizing a volute outer wall of the blower housing that has an exponentially increasing expansion angle in the direction of air flow through the blower housing. | 05-07-2009 |
| 20090114206 | Furnace Air Handler Blower Housing with an Enlarged Air Outlet Opening - An air distribution blower housing for an air handler such as a residential furnace is designed with an enlarged air outlet opening that slows down and spreads out the air flow from the blower housing over a greater area of the furnace heat exchanger. The blower housing thereby enables less air pressure drop through the heat exchanger, which increases the efficiency of the blower motor operation. The design of the blower housing also efficiently turns the velocity head of the air flow through the housing to usable static air pressure at the housing air outlet. The enlarged air outlet opening of the blower housing is achieved without increasing the exterior diameter dimensions of the blower housing whereby the blower housing is used in a compact enclosure for residential use. This is accomplished by utilizing a volute outer wall of the blower housing that has an exponentially increasing expansion angle in the direction of air flow through the blower housing. | 05-07-2009 |
| 20110174289 | CONDENSATE TRAP FOR HEATING-COOLING SYSTEMS - A condensation trap comprising an inlet chamber, a vent chamber and an outlet chamber. The inlet chamber is configured to receive condensate fluid through an external opening therein. The vent chamber is in fluid communication with the inlet chamber via a first passageway that includes an internal opening of the inlet chamber. The internal opening is located substantially at an opposite end of the vent chamber as the external opening. The outlet chamber is in fluid communication with the vent chamber via a second passageway that includes an internal opening in a sidewall of the vent chamber and an interior opening in an end of the outlet chamber. The outlet chamber is configured to transmit the condensate fluid through an exterior opening located at an opposite end of the outlet chamber. A vent volume portion is greater than a total volume of an internal space of the inlet chamber. | 07-21-2011 |
| 20110174290 | HEAT EXCHANGER WITH FASTENER - A clamshell heat exchanger includes a first clamshell half and a second clamshell half. The first and second clamshell halves each include a through-hole therein. The first and second clamshell halves form a passageway, with a seal region located between portions of the passageway. A fastener is located within the first and second through-holes within the seal region. The fastener is configured to rigidly join the first clamshell half to the second clamshell half while allowing relative lateral motion between said first and said second clamshell halves. | 07-21-2011 |
| 20120090590 | INDUCER FAN ASSEMBLY FOR A GAS FURNACE SYSTEM - An inducer fan assembly including an inducer fan housing having a flue vent connection member configured and disposed to be connected to an exhaust gas flue vent. The flue vent connection member includes a flue gas outlet and a flue vent condensate inlet. | 04-19-2012 |
| 20120279484 | Fuel Oil Supply System from a Remote Source Including Recirculated Heating of Fuel Oil and Supplemented Supply Pressure - A fuel oil supply system for a portable fuel oil consuming device, representatively a portable oil fired construction heater includes supply and return fuel lines in communication with a remote fuel container in an anti-siphon configuration. One or more electrical heaters heat the fuel lines adjacent an integral pump of the consuming device. The fuel lines communicate with a partitioned volume of fuel within the container which is heated relative to a remaining volume as the fuel circulates. The pump and a combustion air blower of the device are located together with the heaters within an enclosure on the device such that air is drawn into the enclosure over the heaters and heat conducting surfaces of the pump by the blower for directing heated air through a combustion air duct of the blower which surrounds the burner and a main fuel line from the pump to the burner. | 11-08-2012 |
| 20130014740 | HEAT EXCHANGER FOR A HIGH EFFICIENCY HOT AIR HEATING APPLIANCE AND HEATING APPLIANCE EQUIPPED THEREWITH - Heat exchanger for a high efficiency hot air heating appliance ( | 01-17-2013 |
| 20130139802 | GRAVITY-STYLE FURNACE SUBUNIT INSIDE A GAS-INDUCED DRAFT FURNACE - A gravity-style furnace subunit for a gas-induced draft furnace. A heat conduction tube configured to be located inside of a gas-induced draft furnace cabinet, the heat conduction tube being separated from a row of draft-induced heat conduction tubes inside the cabinet. A burner assembly having a burner tube located within the heat conduction tube through an inlet opening of the heat conduction tube. The burner assembly permits air flow through the inlet opening into the heat conduction tube. A pilot assembly located within the heat conduction tube and adjacent to the burner tube. A thermopile module having located adjacent to a flame outlet of the pilot assembly within the heat conduction tube. A gas valve configured to control gas flow to the burner assembly, the gas valve electrically coupled to the thermopile module and to actuate gas flow there-through when the thermopile module generates a predefined voltage difference. | 06-06-2013 |
| 20140116410 | Device for Converting Heat Into Electrical Power - A device for converting heat into electrical power. The device comprises a base made of a heat conducting material. The base has a substantially flat bottom surface for being placed onto a flat outside surface of a heat source. At least a thermoelectric generator element is disposed onto a top surface of the base such that a high temperature surface of the thermoelectric generator element is in thermal contact with the top surface of the base. A heat sink structure is in thermal contact with a low temperature surface of the at least a thermoelectric generator element. Electrical circuitry is connected to the at least a thermoelectric generator element for receiving the electrical power therefrom. At least an electrical output port is connected to the electrical circuitry for providing the electrical power. | 05-01-2014 |
| 20140165990 | STRAIN REDUCTION CLAMSHELL HEAT EXCHANGER DESIGN - One aspect of this disclosure provides a heating chamber for a gas furnace that comprises opposing halves joined together. The joined opposing halves form a clamshell panel having at least one truncated corner located adjacent a curve located at a back end of a chamber path of the one or more clamshell heating chambers. | 06-19-2014 |
| 20150300687 | A Straight Fin Tube with Bended Fins Condensing Heat Exchanger - A forced convection fin tube condensing heat exchanger for supplying heat includes a shell, burner and fin tubes bundle. The burner is at the top of the shell, circular fin tubes bundle installed around the burner tightly, circularly and coaxially. The flue channel which is formed by the shell and a row of fin tubes bundle is below the burner. The flue flows along the flue channel to flue outlet. There are front and rear water manifolds at the two ends of the fin tubes. Water baffles inside the rear water manifold divide the rear water manifold into water inlet and outlet areas. The water enters the small portion of circular fin tubes bundle from water inlet area, through the front water manifold, back to the water outlet area via the main portion of the circular fin tubes bundle. The use of bended fin tube to improves efficiency. | 10-22-2015 |
| 20150377512 | HVAC SYSTEMS AND METHODS WITH IMPROVED HEAT EXCHANGERS - Systems, tools, and methods are presented that enable a plurality of turbulators to enhance heat transfer within a heat exchanger of a heating, ventilating, and air conditioning (HVAC) system. The plurality of turbulators each include a ribbon member having a variable pattern formed over a length. In one instance, the variable pattern of the ribbon member includes a plurality of bends defining intervals of alternating pitch. The intervals progressively increase in dimension as the ribbon member is traversed over the length. In another embodiment, the intervals contain apertures whose area increases as the length is traversed. Other systems, tools and methods are presented. | 12-31-2015 |
| 20190145657 | BLOWER ASSEMBLY FOR USE IN AN AIR HANDLING SYSTEM AND METHOD FOR ASSEMBLING THE SAME | 05-16-2019 |
| 20080283033 | FORCED AIR FURNACE - A forced air furnace comprises an enclosure, an adjusting mechanism, an interface, an electric heating element and a fan. The enclosure has an air inlet and an air outlet. The adjusting mechanism is operative to adjust the air outlet between an open position and a partially closed position. The interface is located proximate to the air outlet and is used to connect the air outlet to a duct. The fan is powered by an electric motor. Both the fan and the electric heating element are located inside the enclosure. There is also described a method of installing a forced air furnace. The method comprises the step of adjusting a size of an exhaust area of an air outlet of the forced air furnace in order to produce a desired exhaust airflow through the exhaust area when the forced air furnace is connected to a ductwork. | 11-20-2008 |
| 20140373826 | Passive Constant Pressure Hatch for Fresh Air Direct Fired Gas Heated Ventilation Systems - A fresh air heating system includes air intake and discharge chambers, a direct-fired gas burner mounted in a burner chamber in fluid communication with intake and discharge chambers therebetween, and a bypass opening between the air intake and discharge chambers that is selectively closed by a hatch cover having a panel and a peripheral wall extending from the panel. The hatch cover is movable between a first position wherein the hatch cover closes the bypass opening and the panel is positioned substantially horizontal and a second position wherein the hatch cover is lifted away from the bypass opening so as to minimize variations of air pressure differential across the bypass opening; the hatch cover being configured to lift away from the bypass opening when there is a positive variation of pressure between the air intake and discharge chambers, wherein the peripheral wall allows minimizing aerodynamic lift and the inherent reduction of static pressure under the panel when the hatch cover is lifted away from the bypass opening. | 12-25-2014 |
| 20130213378 | BURNER SYSTEM FOR A FURNACE - A burner system for a furnace. The system may have a wedged or other shaped burner box. An air-fuel mixer may be attached to a smaller end of the burner box at about a right angle relative to a direction of a gas and air mixture leaving the larger box end. A burner head may be attached to the larger end of the box. The burner head may be sufficient for numerous heater sections of a heat exchanger. A spacer and an orifice shield may be situated between the burner head and heat exchanger. A fan may pull in the gas and air mixture from the mixer, through the box and the burner head. The mixture may be ignited into a flame which is pulled into the heat exchanger. Some of the flue gas from the exchanger exhaust may be recirculated by being added with air to the mixer. | 08-22-2013 |
| 20130213379 | FURNACE PREMIX BURNER - A system having a pre-mix burner manifold in a housing that may permit air to be drawn through slots in the housing to flow over an external surface of the manifold. The flow of air may maintain a temperature of the manifold lower than a temperature that the manifold might have without the flow. The manifold may be attached to a burner and heat exchanger. | 08-22-2013 |
| 20140020669 | HVAC Furnace - A heating, ventilation, and/or air conditioning (HVAC) furnace has a flat burner comprising an upstream side and a downstream side, the flat burner being configured to receive an air-fuel mixture therethrough, a first flow path located adjacent the flat burner and downstream relative to the flat burner, the first flow path configured to receive fluid exiting the flat burner, and a plurality of second flow paths located downstream relative to the first flow path, the plurality of second flow paths being configured to receive fluid from the first flow path. | 01-23-2014 |
| 20140209086 | DIRECT FIRED HEATERS INCLUDING PREMIX BURNER TECHNOLOGY - According to various aspects, exemplary embodiments are disclosed of direct fired heaters including premix burner technology and/or feed forward control loop modulation via inlet air temperature. | 07-31-2014 |
| 20150362213 | BLOW THROUGH DIRECT FIRED HEATING, A/C AND ERV - According to various aspects, exemplary embodiments are disclosed of blow through direct fired heaters including evaporator coils and/or energy recovery ventilation. | 12-17-2015 |
| 20130092144 | GAS-FIRED HEATER WITH CARBON DIOXIDE DETECTOR - A portable gas-fired heater comprising a housing, a burner assembly, and a carbon dioxide detector system. The housing is adapted to at least partially enclose a fuel source. The burner assembly is enclosed by the housing. | 04-18-2013 |
| 20130233293 | BURNER FOR GAS-FIRED AIR HEATER - A burner assembly for a grain bin for heating air moving through the assembly to dry grain in the bin. The burner assembly has a collector adapted to receive fuel from a fuel line. A burner housing attaches to the collector receives fuel from the fuel line. A nozzle is secured to the burner. A flame diverter downstream from the burner housing diverts the flame outwardly from the burner nozzle toward the housing wall. A flame cone having a slope generally similar to the slope of the diverter is positioned near the burner to define a gap between the inside face of the diverter and the outer surface of the flame cone so as to provide a path for the burning fuel to travel from the burner outwardly toward the housing walls for a more complete combustion of the fuel. | 09-12-2013 |
| 20080302351 | Gas-Fired Portable Heater - A portable gas fired heater includes a combustion chamber having an air inlet and an air outlet. A low DC voltage (optionally AC voltage) fan or blower directs air through the combustion chamber so that the air is heated. Preferably, a vortex generator is located between the fan or blower and the combustion chamber such that air entering the combustion chamber swirls. The heater is designed to have a low center of gravity and thus difficult to tip-over. Nevertheless, several safety features are provided including a tip-over switch, thermal coupler, temperature limit switch, and a manual shutoff. | 12-11-2008 |
| 20100024794 | Direct-fired ductable heater - A direct-fired heater suitable for connection to duct work is disclosed. The heater comprises an outer shell comprising an inlet for allowing inlet of air to be heated and an outlet for exhausting heated air. A fan blade is operatively connected to a fan motor for operating the fan blade. The heater also comprises a combustion chamber defined by a combustion chamber wall, a burner plate at one end proximate the fan blade and an exhaust plate at an opposite end, the burner plate having openings therein for allowing airflow into the combustion chamber and the exhaust plate have an opening therein for allowing exit of heated exhaust from the combustion chamber, the combustion chamber wall extending past the burner plate. A first airflow zone exists between the outer shell and the combustion chamber allowing airflow between the fan blade and the outlet in the outer shell. An injector for injecting gas into the combustion chamber in proximity to the openings in the burner plate is used. The heater also comprises a nose cone between the outlet in the outer shell and the exhaust plate, the nose cone positioned to allow airflow through the exhaust plate and out of the outlet. The burner plate is located in a position proximate the fan blade suitable to cause recirculation of air blown by the fan blade to cool the injector and burner plate during operation of the heater. | 02-04-2010 |
| 126110000 | Gas and air mixing | 5 |
| 20090114205 | High Efficiency Furnace Having a Blower Housing with an Enlarged Air Outlet Opening - An air distribution blower housing for a furnace is designed with an enlarged air outlet opening that slows down and spreads out the air flow from the blower housing over a greater area of the furnace heat exchanger. The blower housing thereby enables less air pressure drop through the heat exchanger, which increases the efficiency of the blower motor operation. The design of the blower housing also efficiently turns the velocity head of the air flow through the housing to usable static air pressure at the housing air outlet. The enlarged air outlet opening of the blower housing is achieved without increasing the exterior diameter dimensions of the blower housing by utilizing a volute outer wall of the blower housing that has an exponentially increasing expansion angle in the direction of air flow through the blower housing. | 05-07-2009 |
| 20090114206 | Furnace Air Handler Blower Housing with an Enlarged Air Outlet Opening - An air distribution blower housing for an air handler such as a residential furnace is designed with an enlarged air outlet opening that slows down and spreads out the air flow from the blower housing over a greater area of the furnace heat exchanger. The blower housing thereby enables less air pressure drop through the heat exchanger, which increases the efficiency of the blower motor operation. The design of the blower housing also efficiently turns the velocity head of the air flow through the housing to usable static air pressure at the housing air outlet. The enlarged air outlet opening of the blower housing is achieved without increasing the exterior diameter dimensions of the blower housing whereby the blower housing is used in a compact enclosure for residential use. This is accomplished by utilizing a volute outer wall of the blower housing that has an exponentially increasing expansion angle in the direction of air flow through the blower housing. | 05-07-2009 |
| 20110174289 | CONDENSATE TRAP FOR HEATING-COOLING SYSTEMS - A condensation trap comprising an inlet chamber, a vent chamber and an outlet chamber. The inlet chamber is configured to receive condensate fluid through an external opening therein. The vent chamber is in fluid communication with the inlet chamber via a first passageway that includes an internal opening of the inlet chamber. The internal opening is located substantially at an opposite end of the vent chamber as the external opening. The outlet chamber is in fluid communication with the vent chamber via a second passageway that includes an internal opening in a sidewall of the vent chamber and an interior opening in an end of the outlet chamber. The outlet chamber is configured to transmit the condensate fluid through an exterior opening located at an opposite end of the outlet chamber. A vent volume portion is greater than a total volume of an internal space of the inlet chamber. | 07-21-2011 |
| 20110174290 | HEAT EXCHANGER WITH FASTENER - A clamshell heat exchanger includes a first clamshell half and a second clamshell half. The first and second clamshell halves each include a through-hole therein. The first and second clamshell halves form a passageway, with a seal region located between portions of the passageway. A fastener is located within the first and second through-holes within the seal region. The fastener is configured to rigidly join the first clamshell half to the second clamshell half while allowing relative lateral motion between said first and said second clamshell halves. | 07-21-2011 |
| 20120090590 | INDUCER FAN ASSEMBLY FOR A GAS FURNACE SYSTEM - An inducer fan assembly including an inducer fan housing having a flue vent connection member configured and disposed to be connected to an exhaust gas flue vent. The flue vent connection member includes a flue gas outlet and a flue vent condensate inlet. | 04-19-2012 |
| 20120279484 | Fuel Oil Supply System from a Remote Source Including Recirculated Heating of Fuel Oil and Supplemented Supply Pressure - A fuel oil supply system for a portable fuel oil consuming device, representatively a portable oil fired construction heater includes supply and return fuel lines in communication with a remote fuel container in an anti-siphon configuration. One or more electrical heaters heat the fuel lines adjacent an integral pump of the consuming device. The fuel lines communicate with a partitioned volume of fuel within the container which is heated relative to a remaining volume as the fuel circulates. The pump and a combustion air blower of the device are located together with the heaters within an enclosure on the device such that air is drawn into the enclosure over the heaters and heat conducting surfaces of the pump by the blower for directing heated air through a combustion air duct of the blower which surrounds the burner and a main fuel line from the pump to the burner. | 11-08-2012 |
| 20130014740 | HEAT EXCHANGER FOR A HIGH EFFICIENCY HOT AIR HEATING APPLIANCE AND HEATING APPLIANCE EQUIPPED THEREWITH - Heat exchanger for a high efficiency hot air heating appliance ( | 01-17-2013 |
| 20130139802 | GRAVITY-STYLE FURNACE SUBUNIT INSIDE A GAS-INDUCED DRAFT FURNACE - A gravity-style furnace subunit for a gas-induced draft furnace. A heat conduction tube configured to be located inside of a gas-induced draft furnace cabinet, the heat conduction tube being separated from a row of draft-induced heat conduction tubes inside the cabinet. A burner assembly having a burner tube located within the heat conduction tube through an inlet opening of the heat conduction tube. The burner assembly permits air flow through the inlet opening into the heat conduction tube. A pilot assembly located within the heat conduction tube and adjacent to the burner tube. A thermopile module having located adjacent to a flame outlet of the pilot assembly within the heat conduction tube. A gas valve configured to control gas flow to the burner assembly, the gas valve electrically coupled to the thermopile module and to actuate gas flow there-through when the thermopile module generates a predefined voltage difference. | 06-06-2013 |
| 20140116410 | Device for Converting Heat Into Electrical Power - A device for converting heat into electrical power. The device comprises a base made of a heat conducting material. The base has a substantially flat bottom surface for being placed onto a flat outside surface of a heat source. At least a thermoelectric generator element is disposed onto a top surface of the base such that a high temperature surface of the thermoelectric generator element is in thermal contact with the top surface of the base. A heat sink structure is in thermal contact with a low temperature surface of the at least a thermoelectric generator element. Electrical circuitry is connected to the at least a thermoelectric generator element for receiving the electrical power therefrom. At least an electrical output port is connected to the electrical circuitry for providing the electrical power. | 05-01-2014 |
| 20140165990 | STRAIN REDUCTION CLAMSHELL HEAT EXCHANGER DESIGN - One aspect of this disclosure provides a heating chamber for a gas furnace that comprises opposing halves joined together. The joined opposing halves form a clamshell panel having at least one truncated corner located adjacent a curve located at a back end of a chamber path of the one or more clamshell heating chambers. | 06-19-2014 |
| 20150300687 | A Straight Fin Tube with Bended Fins Condensing Heat Exchanger - A forced convection fin tube condensing heat exchanger for supplying heat includes a shell, burner and fin tubes bundle. The burner is at the top of the shell, circular fin tubes bundle installed around the burner tightly, circularly and coaxially. The flue channel which is formed by the shell and a row of fin tubes bundle is below the burner. The flue flows along the flue channel to flue outlet. There are front and rear water manifolds at the two ends of the fin tubes. Water baffles inside the rear water manifold divide the rear water manifold into water inlet and outlet areas. The water enters the small portion of circular fin tubes bundle from water inlet area, through the front water manifold, back to the water outlet area via the main portion of the circular fin tubes bundle. The use of bended fin tube to improves efficiency. | 10-22-2015 |
| 20150377512 | HVAC SYSTEMS AND METHODS WITH IMPROVED HEAT EXCHANGERS - Systems, tools, and methods are presented that enable a plurality of turbulators to enhance heat transfer within a heat exchanger of a heating, ventilating, and air conditioning (HVAC) system. The plurality of turbulators each include a ribbon member having a variable pattern formed over a length. In one instance, the variable pattern of the ribbon member includes a plurality of bends defining intervals of alternating pitch. The intervals progressively increase in dimension as the ribbon member is traversed over the length. In another embodiment, the intervals contain apertures whose area increases as the length is traversed. Other systems, tools and methods are presented. | 12-31-2015 |
| 20190145657 | BLOWER ASSEMBLY FOR USE IN AN AIR HANDLING SYSTEM AND METHOD FOR ASSEMBLING THE SAME | 05-16-2019 |
| 20080283033 | FORCED AIR FURNACE - A forced air furnace comprises an enclosure, an adjusting mechanism, an interface, an electric heating element and a fan. The enclosure has an air inlet and an air outlet. The adjusting mechanism is operative to adjust the air outlet between an open position and a partially closed position. The interface is located proximate to the air outlet and is used to connect the air outlet to a duct. The fan is powered by an electric motor. Both the fan and the electric heating element are located inside the enclosure. There is also described a method of installing a forced air furnace. The method comprises the step of adjusting a size of an exhaust area of an air outlet of the forced air furnace in order to produce a desired exhaust airflow through the exhaust area when the forced air furnace is connected to a ductwork. | 11-20-2008 |
| 20140373826 | Passive Constant Pressure Hatch for Fresh Air Direct Fired Gas Heated Ventilation Systems - A fresh air heating system includes air intake and discharge chambers, a direct-fired gas burner mounted in a burner chamber in fluid communication with intake and discharge chambers therebetween, and a bypass opening between the air intake and discharge chambers that is selectively closed by a hatch cover having a panel and a peripheral wall extending from the panel. The hatch cover is movable between a first position wherein the hatch cover closes the bypass opening and the panel is positioned substantially horizontal and a second position wherein the hatch cover is lifted away from the bypass opening so as to minimize variations of air pressure differential across the bypass opening; the hatch cover being configured to lift away from the bypass opening when there is a positive variation of pressure between the air intake and discharge chambers, wherein the peripheral wall allows minimizing aerodynamic lift and the inherent reduction of static pressure under the panel when the hatch cover is lifted away from the bypass opening. | 12-25-2014 |
| 20130213378 | BURNER SYSTEM FOR A FURNACE - A burner system for a furnace. The system may have a wedged or other shaped burner box. An air-fuel mixer may be attached to a smaller end of the burner box at about a right angle relative to a direction of a gas and air mixture leaving the larger box end. A burner head may be attached to the larger end of the box. The burner head may be sufficient for numerous heater sections of a heat exchanger. A spacer and an orifice shield may be situated between the burner head and heat exchanger. A fan may pull in the gas and air mixture from the mixer, through the box and the burner head. The mixture may be ignited into a flame which is pulled into the heat exchanger. Some of the flue gas from the exchanger exhaust may be recirculated by being added with air to the mixer. | 08-22-2013 |
| 20130213379 | FURNACE PREMIX BURNER - A system having a pre-mix burner manifold in a housing that may permit air to be drawn through slots in the housing to flow over an external surface of the manifold. The flow of air may maintain a temperature of the manifold lower than a temperature that the manifold might have without the flow. The manifold may be attached to a burner and heat exchanger. | 08-22-2013 |
| 20140020669 | HVAC Furnace - A heating, ventilation, and/or air conditioning (HVAC) furnace has a flat burner comprising an upstream side and a downstream side, the flat burner being configured to receive an air-fuel mixture therethrough, a first flow path located adjacent the flat burner and downstream relative to the flat burner, the first flow path configured to receive fluid exiting the flat burner, and a plurality of second flow paths located downstream relative to the first flow path, the plurality of second flow paths being configured to receive fluid from the first flow path. | 01-23-2014 |
| 20140209086 | DIRECT FIRED HEATERS INCLUDING PREMIX BURNER TECHNOLOGY - According to various aspects, exemplary embodiments are disclosed of direct fired heaters including premix burner technology and/or feed forward control loop modulation via inlet air temperature. | 07-31-2014 |
| 20150362213 | BLOW THROUGH DIRECT FIRED HEATING, A/C AND ERV - According to various aspects, exemplary embodiments are disclosed of blow through direct fired heaters including evaporator coils and/or energy recovery ventilation. | 12-17-2015 |
| 20130092144 | GAS-FIRED HEATER WITH CARBON DIOXIDE DETECTOR - A portable gas-fired heater comprising a housing, a burner assembly, and a carbon dioxide detector system. The housing is adapted to at least partially enclose a fuel source. The burner assembly is enclosed by the housing. | 04-18-2013 |
| 20130233293 | BURNER FOR GAS-FIRED AIR HEATER - A burner assembly for a grain bin for heating air moving through the assembly to dry grain in the bin. The burner assembly has a collector adapted to receive fuel from a fuel line. A burner housing attaches to the collector receives fuel from the fuel line. A nozzle is secured to the burner. A flame diverter downstream from the burner housing diverts the flame outwardly from the burner nozzle toward the housing wall. A flame cone having a slope generally similar to the slope of the diverter is positioned near the burner to define a gap between the inside face of the diverter and the outer surface of the flame cone so as to provide a path for the burning fuel to travel from the burner outwardly toward the housing walls for a more complete combustion of the fuel. | 09-12-2013 |
| 20080302351 | Gas-Fired Portable Heater - A portable gas fired heater includes a combustion chamber having an air inlet and an air outlet. A low DC voltage (optionally AC voltage) fan or blower directs air through the combustion chamber so that the air is heated. Preferably, a vortex generator is located between the fan or blower and the combustion chamber such that air entering the combustion chamber swirls. The heater is designed to have a low center of gravity and thus difficult to tip-over. Nevertheless, several safety features are provided including a tip-over switch, thermal coupler, temperature limit switch, and a manual shutoff. | 12-11-2008 |
| 20100024794 | Direct-fired ductable heater - A direct-fired heater suitable for connection to duct work is disclosed. The heater comprises an outer shell comprising an inlet for allowing inlet of air to be heated and an outlet for exhausting heated air. A fan blade is operatively connected to a fan motor for operating the fan blade. The heater also comprises a combustion chamber defined by a combustion chamber wall, a burner plate at one end proximate the fan blade and an exhaust plate at an opposite end, the burner plate having openings therein for allowing airflow into the combustion chamber and the exhaust plate have an opening therein for allowing exit of heated exhaust from the combustion chamber, the combustion chamber wall extending past the burner plate. A first airflow zone exists between the outer shell and the combustion chamber allowing airflow between the fan blade and the outlet in the outer shell. An injector for injecting gas into the combustion chamber in proximity to the openings in the burner plate is used. The heater also comprises a nose cone between the outlet in the outer shell and the exhaust plate, the nose cone positioned to allow airflow through the exhaust plate and out of the outlet. The burner plate is located in a position proximate the fan blade suitable to cause recirculation of air blown by the fan blade to cool the injector and burner plate during operation of the heater. | 02-04-2010 |
| 126110000 | Unitary fan and heater | 2 |
| 20090114205 | High Efficiency Furnace Having a Blower Housing with an Enlarged Air Outlet Opening - An air distribution blower housing for a furnace is designed with an enlarged air outlet opening that slows down and spreads out the air flow from the blower housing over a greater area of the furnace heat exchanger. The blower housing thereby enables less air pressure drop through the heat exchanger, which increases the efficiency of the blower motor operation. The design of the blower housing also efficiently turns the velocity head of the air flow through the housing to usable static air pressure at the housing air outlet. The enlarged air outlet opening of the blower housing is achieved without increasing the exterior diameter dimensions of the blower housing by utilizing a volute outer wall of the blower housing that has an exponentially increasing expansion angle in the direction of air flow through the blower housing. | 05-07-2009 |
| 20090114206 | Furnace Air Handler Blower Housing with an Enlarged Air Outlet Opening - An air distribution blower housing for an air handler such as a residential furnace is designed with an enlarged air outlet opening that slows down and spreads out the air flow from the blower housing over a greater area of the furnace heat exchanger. The blower housing thereby enables less air pressure drop through the heat exchanger, which increases the efficiency of the blower motor operation. The design of the blower housing also efficiently turns the velocity head of the air flow through the housing to usable static air pressure at the housing air outlet. The enlarged air outlet opening of the blower housing is achieved without increasing the exterior diameter dimensions of the blower housing whereby the blower housing is used in a compact enclosure for residential use. This is accomplished by utilizing a volute outer wall of the blower housing that has an exponentially increasing expansion angle in the direction of air flow through the blower housing. | 05-07-2009 |
| 20110174289 | CONDENSATE TRAP FOR HEATING-COOLING SYSTEMS - A condensation trap comprising an inlet chamber, a vent chamber and an outlet chamber. The inlet chamber is configured to receive condensate fluid through an external opening therein. The vent chamber is in fluid communication with the inlet chamber via a first passageway that includes an internal opening of the inlet chamber. The internal opening is located substantially at an opposite end of the vent chamber as the external opening. The outlet chamber is in fluid communication with the vent chamber via a second passageway that includes an internal opening in a sidewall of the vent chamber and an interior opening in an end of the outlet chamber. The outlet chamber is configured to transmit the condensate fluid through an exterior opening located at an opposite end of the outlet chamber. A vent volume portion is greater than a total volume of an internal space of the inlet chamber. | 07-21-2011 |
| 20110174290 | HEAT EXCHANGER WITH FASTENER - A clamshell heat exchanger includes a first clamshell half and a second clamshell half. The first and second clamshell halves each include a through-hole therein. The first and second clamshell halves form a passageway, with a seal region located between portions of the passageway. A fastener is located within the first and second through-holes within the seal region. The fastener is configured to rigidly join the first clamshell half to the second clamshell half while allowing relative lateral motion between said first and said second clamshell halves. | 07-21-2011 |
| 20120090590 | INDUCER FAN ASSEMBLY FOR A GAS FURNACE SYSTEM - An inducer fan assembly including an inducer fan housing having a flue vent connection member configured and disposed to be connected to an exhaust gas flue vent. The flue vent connection member includes a flue gas outlet and a flue vent condensate inlet. | 04-19-2012 |
| 20120279484 | Fuel Oil Supply System from a Remote Source Including Recirculated Heating of Fuel Oil and Supplemented Supply Pressure - A fuel oil supply system for a portable fuel oil consuming device, representatively a portable oil fired construction heater includes supply and return fuel lines in communication with a remote fuel container in an anti-siphon configuration. One or more electrical heaters heat the fuel lines adjacent an integral pump of the consuming device. The fuel lines communicate with a partitioned volume of fuel within the container which is heated relative to a remaining volume as the fuel circulates. The pump and a combustion air blower of the device are located together with the heaters within an enclosure on the device such that air is drawn into the enclosure over the heaters and heat conducting surfaces of the pump by the blower for directing heated air through a combustion air duct of the blower which surrounds the burner and a main fuel line from the pump to the burner. | 11-08-2012 |
| 20130014740 | HEAT EXCHANGER FOR A HIGH EFFICIENCY HOT AIR HEATING APPLIANCE AND HEATING APPLIANCE EQUIPPED THEREWITH - Heat exchanger for a high efficiency hot air heating appliance ( | 01-17-2013 |
| 20130139802 | GRAVITY-STYLE FURNACE SUBUNIT INSIDE A GAS-INDUCED DRAFT FURNACE - A gravity-style furnace subunit for a gas-induced draft furnace. A heat conduction tube configured to be located inside of a gas-induced draft furnace cabinet, the heat conduction tube being separated from a row of draft-induced heat conduction tubes inside the cabinet. A burner assembly having a burner tube located within the heat conduction tube through an inlet opening of the heat conduction tube. The burner assembly permits air flow through the inlet opening into the heat conduction tube. A pilot assembly located within the heat conduction tube and adjacent to the burner tube. A thermopile module having located adjacent to a flame outlet of the pilot assembly within the heat conduction tube. A gas valve configured to control gas flow to the burner assembly, the gas valve electrically coupled to the thermopile module and to actuate gas flow there-through when the thermopile module generates a predefined voltage difference. | 06-06-2013 |
| 20140116410 | Device for Converting Heat Into Electrical Power - A device for converting heat into electrical power. The device comprises a base made of a heat conducting material. The base has a substantially flat bottom surface for being placed onto a flat outside surface of a heat source. At least a thermoelectric generator element is disposed onto a top surface of the base such that a high temperature surface of the thermoelectric generator element is in thermal contact with the top surface of the base. A heat sink structure is in thermal contact with a low temperature surface of the at least a thermoelectric generator element. Electrical circuitry is connected to the at least a thermoelectric generator element for receiving the electrical power therefrom. At least an electrical output port is connected to the electrical circuitry for providing the electrical power. | 05-01-2014 |
| 20140165990 | STRAIN REDUCTION CLAMSHELL HEAT EXCHANGER DESIGN - One aspect of this disclosure provides a heating chamber for a gas furnace that comprises opposing halves joined together. The joined opposing halves form a clamshell panel having at least one truncated corner located adjacent a curve located at a back end of a chamber path of the one or more clamshell heating chambers. | 06-19-2014 |
| 20150300687 | A Straight Fin Tube with Bended Fins Condensing Heat Exchanger - A forced convection fin tube condensing heat exchanger for supplying heat includes a shell, burner and fin tubes bundle. The burner is at the top of the shell, circular fin tubes bundle installed around the burner tightly, circularly and coaxially. The flue channel which is formed by the shell and a row of fin tubes bundle is below the burner. The flue flows along the flue channel to flue outlet. There are front and rear water manifolds at the two ends of the fin tubes. Water baffles inside the rear water manifold divide the rear water manifold into water inlet and outlet areas. The water enters the small portion of circular fin tubes bundle from water inlet area, through the front water manifold, back to the water outlet area via the main portion of the circular fin tubes bundle. The use of bended fin tube to improves efficiency. | 10-22-2015 |
| 20150377512 | HVAC SYSTEMS AND METHODS WITH IMPROVED HEAT EXCHANGERS - Systems, tools, and methods are presented that enable a plurality of turbulators to enhance heat transfer within a heat exchanger of a heating, ventilating, and air conditioning (HVAC) system. The plurality of turbulators each include a ribbon member having a variable pattern formed over a length. In one instance, the variable pattern of the ribbon member includes a plurality of bends defining intervals of alternating pitch. The intervals progressively increase in dimension as the ribbon member is traversed over the length. In another embodiment, the intervals contain apertures whose area increases as the length is traversed. Other systems, tools and methods are presented. | 12-31-2015 |
| 20190145657 | BLOWER ASSEMBLY FOR USE IN AN AIR HANDLING SYSTEM AND METHOD FOR ASSEMBLING THE SAME | 05-16-2019 |
| 20080283033 | FORCED AIR FURNACE - A forced air furnace comprises an enclosure, an adjusting mechanism, an interface, an electric heating element and a fan. The enclosure has an air inlet and an air outlet. The adjusting mechanism is operative to adjust the air outlet between an open position and a partially closed position. The interface is located proximate to the air outlet and is used to connect the air outlet to a duct. The fan is powered by an electric motor. Both the fan and the electric heating element are located inside the enclosure. There is also described a method of installing a forced air furnace. The method comprises the step of adjusting a size of an exhaust area of an air outlet of the forced air furnace in order to produce a desired exhaust airflow through the exhaust area when the forced air furnace is connected to a ductwork. | 11-20-2008 |
| 20140373826 | Passive Constant Pressure Hatch for Fresh Air Direct Fired Gas Heated Ventilation Systems - A fresh air heating system includes air intake and discharge chambers, a direct-fired gas burner mounted in a burner chamber in fluid communication with intake and discharge chambers therebetween, and a bypass opening between the air intake and discharge chambers that is selectively closed by a hatch cover having a panel and a peripheral wall extending from the panel. The hatch cover is movable between a first position wherein the hatch cover closes the bypass opening and the panel is positioned substantially horizontal and a second position wherein the hatch cover is lifted away from the bypass opening so as to minimize variations of air pressure differential across the bypass opening; the hatch cover being configured to lift away from the bypass opening when there is a positive variation of pressure between the air intake and discharge chambers, wherein the peripheral wall allows minimizing aerodynamic lift and the inherent reduction of static pressure under the panel when the hatch cover is lifted away from the bypass opening. | 12-25-2014 |
| 20130213378 | BURNER SYSTEM FOR A FURNACE - A burner system for a furnace. The system may have a wedged or other shaped burner box. An air-fuel mixer may be attached to a smaller end of the burner box at about a right angle relative to a direction of a gas and air mixture leaving the larger box end. A burner head may be attached to the larger end of the box. The burner head may be sufficient for numerous heater sections of a heat exchanger. A spacer and an orifice shield may be situated between the burner head and heat exchanger. A fan may pull in the gas and air mixture from the mixer, through the box and the burner head. The mixture may be ignited into a flame which is pulled into the heat exchanger. Some of the flue gas from the exchanger exhaust may be recirculated by being added with air to the mixer. | 08-22-2013 |
| 20130213379 | FURNACE PREMIX BURNER - A system having a pre-mix burner manifold in a housing that may permit air to be drawn through slots in the housing to flow over an external surface of the manifold. The flow of air may maintain a temperature of the manifold lower than a temperature that the manifold might have without the flow. The manifold may be attached to a burner and heat exchanger. | 08-22-2013 |
| 20140020669 | HVAC Furnace - A heating, ventilation, and/or air conditioning (HVAC) furnace has a flat burner comprising an upstream side and a downstream side, the flat burner being configured to receive an air-fuel mixture therethrough, a first flow path located adjacent the flat burner and downstream relative to the flat burner, the first flow path configured to receive fluid exiting the flat burner, and a plurality of second flow paths located downstream relative to the first flow path, the plurality of second flow paths being configured to receive fluid from the first flow path. | 01-23-2014 |
| 20140209086 | DIRECT FIRED HEATERS INCLUDING PREMIX BURNER TECHNOLOGY - According to various aspects, exemplary embodiments are disclosed of direct fired heaters including premix burner technology and/or feed forward control loop modulation via inlet air temperature. | 07-31-2014 |
| 20150362213 | BLOW THROUGH DIRECT FIRED HEATING, A/C AND ERV - According to various aspects, exemplary embodiments are disclosed of blow through direct fired heaters including evaporator coils and/or energy recovery ventilation. | 12-17-2015 |
| 20130092144 | GAS-FIRED HEATER WITH CARBON DIOXIDE DETECTOR - A portable gas-fired heater comprising a housing, a burner assembly, and a carbon dioxide detector system. The housing is adapted to at least partially enclose a fuel source. The burner assembly is enclosed by the housing. | 04-18-2013 |
| 20130233293 | BURNER FOR GAS-FIRED AIR HEATER - A burner assembly for a grain bin for heating air moving through the assembly to dry grain in the bin. The burner assembly has a collector adapted to receive fuel from a fuel line. A burner housing attaches to the collector receives fuel from the fuel line. A nozzle is secured to the burner. A flame diverter downstream from the burner housing diverts the flame outwardly from the burner nozzle toward the housing wall. A flame cone having a slope generally similar to the slope of the diverter is positioned near the burner to define a gap between the inside face of the diverter and the outer surface of the flame cone so as to provide a path for the burning fuel to travel from the burner outwardly toward the housing walls for a more complete combustion of the fuel. | 09-12-2013 |
| 20080302351 | Gas-Fired Portable Heater - A portable gas fired heater includes a combustion chamber having an air inlet and an air outlet. A low DC voltage (optionally AC voltage) fan or blower directs air through the combustion chamber so that the air is heated. Preferably, a vortex generator is located between the fan or blower and the combustion chamber such that air entering the combustion chamber swirls. The heater is designed to have a low center of gravity and thus difficult to tip-over. Nevertheless, several safety features are provided including a tip-over switch, thermal coupler, temperature limit switch, and a manual shutoff. | 12-11-2008 |
| 20100024794 | Direct-fired ductable heater - A direct-fired heater suitable for connection to duct work is disclosed. The heater comprises an outer shell comprising an inlet for allowing inlet of air to be heated and an outlet for exhausting heated air. A fan blade is operatively connected to a fan motor for operating the fan blade. The heater also comprises a combustion chamber defined by a combustion chamber wall, a burner plate at one end proximate the fan blade and an exhaust plate at an opposite end, the burner plate having openings therein for allowing airflow into the combustion chamber and the exhaust plate have an opening therein for allowing exit of heated exhaust from the combustion chamber, the combustion chamber wall extending past the burner plate. A first airflow zone exists between the outer shell and the combustion chamber allowing airflow between the fan blade and the outlet in the outer shell. An injector for injecting gas into the combustion chamber in proximity to the openings in the burner plate is used. The heater also comprises a nose cone between the outlet in the outer shell and the exhaust plate, the nose cone positioned to allow airflow through the exhaust plate and out of the outlet. The burner plate is located in a position proximate the fan blade suitable to cause recirculation of air blown by the fan blade to cool the injector and burner plate during operation of the heater. | 02-04-2010 |
