A heating, ventilation, and air-conditioning (HVAC) duct system which includes, at least in part, one or more modular, uniform, pre-manufactured duct elements having a uniform takeoff on one or more sides for connecting to a run to be connected to an air diffuser at the end. Each of the modular duct elements may include a built-in hanger support element so that the engineer merely has to design a very simple modular run of duct elements without unnecessary computations requiring different duct sizes. It also makes it simple and uniform for installing on site.

A humidifying air purifier includes a door assembly supported and configured to be selectively drawn out of a front side of a cabinet and drawn into the front side of the cabinet to respectively open and close an inner portion of the cabinet. The door assembly includes an accommodation portion configured to support an air filter and a humidifying device which are both drawn out of and into the humidifying air purifier with the door assembly.

A hazardous gas purification device with a built-in purification system is disclosed. The disclosed present invention is characterized in that it comprises a body case provided with an intake port for sucking hazardous gas on the upper side, provided with an exhaust port for discharging purified air to the outside on the lower side, and provided with an accommodating part provided between the intake port and the exhaust port on the inside; a pre-filter for filtering out large particles of dust and foreign substances contained in the hazardous gas introduced through the intake port; and a modular purification system, in a state of being installed in the accommodating part, for sterilizing viruses while filtering hazardous substances and fine particulate foreign substances contained in the hazardous gas introduced through the intake port, wherein the purification system consists of a three-dimensional filter for three-dimensionally filtering volatile organic compounds contained in the hazardous gas passed through the pre-filter from four directions; a pressure-feed fan, in a state of being disposed below the three-dimensional filter, for sucking hazardous gas through the intake port and forcibly discharging purified air through the exhaust port; a UV lamp disposed below the pressure-feed fan and for irradiating the pressure-feed fan and the hazardous gas with ultraviolet rays to sterilize harmful viruses; a HEPA filter disposed below the UV lamp and for filtering fine particles in the hazardous gas that is not filtered by the pre-filter; and a flat plate filter disposed below the HEPA filter and for filtering the remaining amount of volatile organic compounds that are not filtered by the three-dimensional filter.

An air management device may include three independently operated primary impellers 131, 131′, 131″, and drawn-in air is discharged through discharge ports 15′-1, 15′-2, 15′-3 provided in the front plate 15 of the housing 10. Louvers 141, 142, 143installed downstream of the air flow and discharge ports 15′-1, 15′-2, 15′-3 may be independently opened or closed to provide discharge of the air to the surrounding environment. Further, at least one retractable or pop-up fan may be provided. A bottom inlet 11′ may be formed on the bottom plate 11 of the housing 10 facing the floor of the living space above a predetermined distance. The replaceable filter 300 may be installed to filter the air sucked through the bottom inlet 11′, and may be drawn in and out of the housing 10.

A climate control system coupled within an opening of a structure, with the opening separating an internal area within the structure and an exterior area external to the structure, the climate control system straddling the opening. The climate control system includes: an interior unit disposed at the opening within the internal area; an exterior unit disposed at the opening in the exterior area; and a connector between the interior unit and the exterior unit that extends through the opening, the connector including: a circulation hose that extends through the opening to connect the exterior unit and the interior unit, and a controls system configured to operate the interior unit and the exterior unit.

A radiant ceiling panel for air conditioning of a room, including a radiating surface on which a tube system for conducting a fluid, in particular water, along the radiating surface is fixed, preferably directly. The length of the radiating surface exceeds its width by a multiple. The tube system includes at least two portions fluidically connected in parallel, in particular arranged in parallel. The radiant ceiling panel has a fastening system, in particular a rope-like fastening system, for freely suspended fastening to a ceiling, or at least elements for interacting with said fastening system. The at least two portions are guided together and back apart again in an assembly region of the radiating surface.

A heating, ventilation, and/or air conditioning (HVAC) unit includes a cabinet defining a cabinet interior configured to house components of the HVAC unit. The cabinet includes an opening defining an air flow path between the cabinet interior and an external environment. The HVAC unit also includes a fan assembly including fan blades configured to move an air flow through the opening, wherein the fan assembly is configured to enable translation of the fan blades through the opening between a shipping arrangement in which the fan blades are disposed in the cabinet interior and an operational arrangement in which the fan blades are disposed in the external environment.

There is disclosed an outdoor unit comprising a case provided to define an exterior design and comprising a plurality of side panels having an inlet hole providing a path for sucking external air, a base plate supporting the plurality of the side panels, an upper panel having an outlet hole for discharging the external air sucked via the inlet hole to the outside; a heat-exchanger provided in the case and configured to exchange heat with the external air sucked via the inlet hole; a sliding plate slidingly provided in the base plate and supporting the compressor module and movable via the opening to expose the compressor module outside the case; and a compressor module configured to supply a refrigerant that exchanging heat with the external air to the heat-exchanger, such that the compressor module may be manipulative outside and demounted when the sliding plate is located in the exposure position.

Methods of coupling a heat exchanger into a climate control system and associated systems are disclosed. In an embodiment, the method includes receiving a housing to receive the heat exchanger. The housing includes a cover panel disposed over an opening that has a projection projecting at least partially into the housing, and a first pair of conduits extending through the cover panel in a first direction. In addition, the method includes removing the cover panel from the opening, flipping the cover panel, extending a second pair of conduits through the cover panel in the first direction, and forming connections between the first pair of refrigerant conduits and the second pair of conduits. Further, the method includes covering the opening in the heat exchanger housing with the cover panel so that the projection of the cover panel projects away from the housing and encloses the connections.

A ceiling module for the construction of a clean room cell, where the ceiling module includes at least a module support for arrangement on and connection to a support structure, a technical device including at least one filter unit, and a ceiling support which is spaced apart from the module support such that a technical space is formed between the ceiling support and the module support, wherein the technical device is arranged inside the technical space.