A panel clip formed from a clip pre-form and configured for use with insulated, reinforced duct is provided. The panel clip includes a first plurality of gripping teeth formed in a first panel section. A second plurality of gripping teeth is formed adjacent the first plurality of gripping teeth. A first bending zone is positioned adjacent the second plurality of gripping teeth and opposite the first plurality of gripping teeth. A second bending zone is positioned spaced apart from the first bending zone and opposite the second plurality of gripping teeth. A third bending zone positioned spaced apart from the second bending zone and opposite the first bending zone. A distance formed from the first bending zone to the second bending zone is defined by a thickness of a layer of rigid insulation.

Methods and apparatuses for additively manufactured tubular passages, additively manufactured manifolds, and additively manufactured heaters are provided.

An air duct sterilization system, and a device and method for producing the air duct sterilization system. The system includes a plurality of ultraviolet light-emitting diodes (UV LEDs), arranged in a UV LED strip within an air duct, configured to destroy airborne biological contaminants in the air duct. The device includes wheel assemblies and an applicator assembly. During installation of the UV LED strip, the wheel assemblies contact a lower surface and an upper surface of an interior of the air duct, thereby enabling the device to roll along the interior of the air duct. The UV LED strip is applied to the upper surface of the interior of the air duct using the applicator assembly, with minimal effort needed from an individual performing the installation. After installation, the UV LEDs are illuminated as needed to destroy airborne biological contaminants, thereby sterilizing the air duct and air therein.

A box type duct with circumferential obtuse angle connection. Unit plates respectively located on the upper, lower and two side surfaces are spliced in the circumferential direction to form a unit pipe section, and the unit pipe sections are spliced in the axial direction to form a box type duct; wherein the unit plate is an arc-shaped corrugated plate arched to the outside of the box type duct, and the adjacent unit plates form an obtuse angle of circumferential connection. The cross section of the duct is in an approximately rectangular box shape, so the utilization ratio of clearance of the duct is high; the unit plate adopts an arc-shaped structure, and by utilizing the pipe-soil joint stressing principle, the strength and bearing capacity of the overall structure are maximized; and the box type duct adopts flat flange or angle steel flange connection in the circumferential direction.

An exhaust air channel arrangement for a kitchen exhaust air channel system is provided in which the exhaust air channel arrangement is composed of a sheet metal pipe and a supporting structure, which is movably received within the sheet metal pipe along the longitudinal direction (x) of the sheet metal pipe, wherein both opposed wall portions of the sheet metal pipe are mutually supported by the supporting structure.

A duct making apparatus includes a first station configured to accept a formable sheet material and a second station configured to receive the formable sheet material from the first station. The first station includes a mechanism for forming one of a male lock bend and a female lock seam in a leading edge of the formable sheet material. The second station includes a retractable conveyor. Movement of the sheet material from the first station to the second station defines an axis of travel of the sheet material. The retractable conveyor is selectively movable from a first position in which the retractable conveyor is in close association with the first station, and a second position in which the retractable conveyor is spaced from the first station.

A prefabricated outdoor thermal duct system is provided having a metal formed ductwork air passage, a hard board insulation layer glued to the metal duct leaving custom cut space for duct connections, a custom prefabricated cladding formed and adhered to the hard board insulation, a custom fabricated insert matching the insulation material, installed over the duct connection in the field to seal the joint, and a final fabricated cap adhered to the cladding.

A duct board system/method utilizing extruded edge interconnection strips (EIS) is disclosed. The EIS are formed to allow linkage of planar duct board sheets (DBS) in a variety of connection methodologies including right angle corner connections (RAC), planar sheet connections (PSC), planar interface connections (PIC), and surface interface connections (SIC), without the need for specialized DBS cutting tools or fabrication dies. The EIS may incorporate provisions for spaced and/or on-demand fastener connection of DBS to the EIS, provisions for ridged/lobed/edged linkage of the DBS to the EIS, as well as provisions for edge sealed linkage of the DBS to the EIS.

A flame-resistant, insulated, plastic HVAC duct including a channel configured for conveying forced air and a duct wall forming the channel, the duct wall including a plastic layer disposed between a thermally insulating layer and a metal foil layer. The metal foil layer is arranged to form an outer surface of the duct wall, and the thermally insulating layer is arranged to form an inner surface of the duct wall. A second metal foil layer may be disposed between the thermally insulating layer and the plastic layer.

A duct making apparatus includes a first station configured to accept a formable sheet material and a second station configured to receive the formable sheet material from the first station. The first station includes a mechanism for forming one of a male lock bend and a female lock seam in a leading edge of the formable sheet material. The second station includes a retractable conveyor. Movement of the sheet material from the first station to the second station defines an axis of travel of the sheet material. The retractable conveyor is selectively movable from a first position in which the retractable conveyor is in close association with the first station, and a second position in which the retractable conveyor is spaced from the first station.