An air purifier includes a first case and a second case that are insertably coupled such that the second case slides up and down with respect to the first case. The first case may suction air through a suction space provided at a bottom and a plurality of holes formed in a side wall. The second case may include a discharge grill provided at a top end through which air is discharged and a plurality of holes formed in a side wall through which air is suctioned when the second case is moved down to a first position and through which air is discharged when the second case is moved up to a second position. The top discharge grill may be opened and closed. The second case may also include a side discharge portion formed in the side wall above the plurality of holes. The side discharge portion may be opened and closed.

A heating ventilating and cooling (HVAC) system includes an outdoor air chase having a first end and a second end. The second end of the outdoor air chase is fluidly coupled to a condenser compartment at a location to receive outside air from the condenser compartment and the first end is fluidly coupled to the return air compartment. The outdoor air chase has a conduit through the outdoor air chase. The system includes a configurable flow regulating plate disposed in the outdoor air chase member across the conduit or otherwise across the outdoor airflow that has a plurality of discharge apertures. Initially, the plurality of discharge apertures is covered by a plurality of knockout panels. Each panel is removably secured to the plate. In installation, the installer removes as many of the knockout panels as required for a desired flow of outdoor air. Other systems and methods are presented.

An air flow controller for an air cleaner and an air cleaner are provided. The air flow controller may include a fan, and a housing, the fan being provided in the housing and the housing being movable from an initial horizontal position in which the air flow controller directs air flow in a vertical direction to an inclined position in which the air flow controller directs air flow in a diagonal direction.

An air intake and exhaust assembly includes an air exhaust pipe, a connection pipe, and an air intake pipe arranged adjacent to the air exhaust pipe. The air exhaust pipe includes an air exhaust channel formed in the air exhaust pipe. One end of the connection pipe is connected to a lower end of the air exhaust pipe and another end of the connection pipe is configured to be connected to an air exhaust volute of a packaged air conditioner, such that the air exhaust channel is communicated with an air outlet of the air exhaust volute. An air intake channel is formed between an inner wall of the air intake pipe and an outer wall of the air exhaust pipe, and the air intake channel is communicated with an air inlet of the packaged air conditioner.

An air intake and exhaust assembly includes an air exhaust pipe, a connection pipe, and an air intake pipe arranged adjacent to the air exhaust pipe. The air exhaust pipe includes an air exhaust channel formed in the air exhaust pipe. One end of the connection pipe is connected to a lower end of the air exhaust pipe and another end of the connection pipe is configured to be connected to an air exhaust volute of a packaged air conditioner, such that the air exhaust channel is communicated with an air outlet of the air exhaust volute. An air intake channel is formed between an inner wall of the air intake pipe and an outer wall of the air exhaust pipe, and the air intake channel is communicated with an air inlet of the packaged air conditioner.

An air intake and exhaust assembly includes a first air pipe and a second air pipe. A first air duct is formed in the first air pipe and configured to be communicated with one of an air outlet of an air exhaust volute of an packaged air conditioner and an air inlet of the packaged air conditioner. The second air pipe is arranged adjacent to the first air pipe. A second air duct is formed between an inner wall of the second air pipe and an outer wall of the first air pipe. The second air duct is configured to be communicated with another one of the air outlet of the air exhaust volute and the air inlet of the packaged air conditioner. At least part of the outer wall of the first air pipe along a length direction of the first air pipe is fixedly connected to the second air pipe.

An air intake and exhaust assembly includes a first air pipe and a second air pipe. A first air duct is formed in the first air pipe and configured to be communicated with one of an air outlet of an air exhaust volute of an packaged air conditioner and an air inlet of the packaged air conditioner. The second air pipe is arranged adjacent to the first air pipe. A second air duct is formed between an inner wall of the second air pipe and an outer wall of the first air pipe. The second air duct is configured to be communicated with another one of the air outlet of the air exhaust volute and the air inlet of the packaged air conditioner. At least part of the outer wall of the first air pipe along a length direction of the first air pipe is fixedly connected to the second air pipe.

A temperature control (“TC”) unit and associated method for providing simultaneous independent temperature control of conditioned air to first and second rooms. The TC unit includes a cabinet. The cabinet may be divided into first and second compartments, the first compartment being adapted to receive and exhaust air from and to, respectively, the first room, and the second compartment being adapted to receive and exhaust air from and to, respectively, the second room. Sound dampening insulation may be positioned between the first and second compartments. First and second evaporators may be positioned within the cabinet so that: air from the first room passes through the first evaporator before exhausting back to the first room; and air from the second room passes through the second evaporator before exhausting back to the second room. The TC unit may be or include a vertical terminal air conditioning (“VTAC”) unit.

A temperature control (“TC”) unit and associated method for providing simultaneous independent temperature control of conditioned air to first and second rooms. The TC unit includes a cabinet. The cabinet may be divided into first and second compartments, the first compartment being adapted to receive and exhaust air from and to, respectively, the first room, and the second compartment being adapted to receive and exhaust air from and to, respectively, the second room. Sound dampening insulation may be positioned between the first and second compartments. First and second evaporators may be positioned within the cabinet so that: air from the first room passes through the first evaporator before exhausting back to the first room; and air from the second room passes through the second evaporator before exhausting back to the second room. The TC unit may be or include a vertical terminal air conditioning (“VTAC”) unit.

An integral air conditioner device is provided. The device has an air conditioner body, a condenser and an anti-blow-by structure. The anti-blow-by structure is a box body with openings on two sides of the box body. The opening on one side of the box body is in communication with an air inlet of the air conditioner body. The opening on the other side of the box body faces the condenser. The periphery of the opening that faces the condenser and a frame of the condenser are arranged in a closed manner. In the integral air conditioner device, the anti-blow-by structure is provided between the air inlet and the condenser and one opening of the anti-blow-by structure faces the condenser, such that air fed in through the air inlet can only pass through the condenser and is subsequently exhausted by an air outlet of the air conditioner body.