Abstract: Systems, devices and methods, etc., comprising at least two separate and distinct environmental climate control devices that both serve the mixed use open space, and which environmental climate control devices are centrally controlled to provide at least two different HVAC-controlled zones, for example to differentiate between the zones according to at least one of temperature, humidity, pressure or contaminant level.
Abstract: Systems, devices and methods, etc., comprising at least two separate and distinct environmental climate control devices that both serve the mixed use open space, and which environmental climate control devices are centrally controlled to provide at least two different HVAC-controlled zones, for example to differentiate between the zones according to at least one of temperature, humidity, pressure or contaminant level.
Abstract: Systems, devices and methods, etc., comprising at least two separate and distinct environmental climate control devices that both serve the mixed use open space, and which environmental climate control devices are centrally controlled to provide at least two different HVAC-controlled zones, for example to differentiate between the zones according to at least one of temperature, humidity, pressure or contaminant level.
Abstract: A radiant heating apparatus having a tube, a partial enclosure device and a heating wing. The heating wing has a wing proximal end that connects to the partial enclosure device's exterior surface. The heating wing also has a wing distal end that obliquely extends outwardly in relation to the partial enclosure device and toward a first direction. The heating wing, except at the wing proximal end, and the partial enclosure device's exterior surface are spaced apart so the heating wing re-directs second direction heat energy in the first direction.
Abstract: A gas fired infrared radiant heating system of improved thermal output. The present invention solves problems associated with prior art designs by providing a single gas delivery system for delivering combustible gas to two or more burner assemblies. The invention consists of a burner housing (10) with two or more burner assemblies (18), each of which can be connected to a typical radiant tube heat exchanger assembly (12). The burner housing contains a single gas delivery system including a valve (14), a single control circuit module (30), a single blower proving switch (50), and a single manifold (16) which will distribute the gas to the multiple radiant tube heat exchanger assemblies (12). In addition, in positive pressure configurations, the burner housing will also have a single air fan (38), whereas in negative pressure configurations of the heating system one or more exhaust fans may be utilized.
Abstract: A gas fired infrared radiant heating system of improved thermal output. The present invention solves problems associated with prior art designs by providing a single gas delivery system for delivering combustible gas to two or more burner assemblies. The invention consists of a burner housing (10) with two or more burner assemblies (18), each of which can be connected to a typical radiant tube heat exchanger assembly (12). The burner housing contains a single gas delivery system including a valve (14), a single control circuit module (30), a single blower proving switch (50), and a single manifold (16) which will distribute the gas to the multiple radiant tube heat exchanger assemblies (12). In addition, in positive pressure configurations, the burner housing will also have a single air fan (38), whereas in negative pressure configurations of the heating system one or more exhaust fans may be utilized.
Type:
Application
Filed:
February 5, 2002
Publication date:
July 4, 2002
Applicant:
Roberts-Gordon LLC, a corporation of the state of Delaware