An impeller includes a main plate, an annular side plate and blades. The blades each have: an inner circumferential end; an outer circumferential end; a sirocco blade portion formed as a forward-swept blade portion, and having an outlet angle that is greater than 90 degrees; and a turbo blade portion formed as a swept-back blade portion and including the inner circumferential end. The blades include a first blade portion and a second blade portion that are provided on respective sides of the main plate. The impeller including a region in which a first inter-blade distance is greater than a second inter-blade distance, where an inlet-blade distance is a distance between any adjacent two of the blades in the circumferential direction, the first inter-blade distance is the inter-blade distance of the first blade portion, and the second inter-blade distance is the inter-blade distance of the second blade portion.

An air guide for a ceiling-type air conditioner is applied to the ceiling-type air conditioner comprising: an indoor unit having a heat exchanger and a blower embedded therein, and having a plurality of blowing passages for discharging, to the outside, air which has passed through the heat exchanger; a plurality of inlets for receiving the air discharged through the plurality of blowing passages; and a discharge panel having an inner space, of which at least a portion communicates with the plurality of inlets, and a ring or arc-shaped opening for discharging, into a room, air which has flowed into the inner space. The air guide includes: at least two partition parts formed in parallel to the radial direction of the opening, and dividing the inner space in the circumferential direction; and a curved part connecting the at least two partition parts, and formed in an arc shape, and is detachably inserted into the inside of the opening from the outside of the opening.

An air guide for a ceiling-type air conditioner is applied to the ceiling-type air conditioner comprising: an indoor unit having a heat exchanger and a blower embedded therein, and having a plurality of blowing passages for discharging, to the outside, air which has passed through the heat exchanger; a plurality of inlets for receiving the air discharged through the plurality of blowing passages; and a discharge panel having an inner space, of which at least a portion communicates with the plurality of inlets, and a ring or arc-shaped opening for discharging, into a room, air which has flowed into the inner space. The air guide includes: at least two partition parts formed in parallel to the radial direction of the opening, and dividing the inner space in the circumferential direction; and a curved part connecting the at least two partition parts, and formed in an arc shape, and is detachably inserted into the inside of the opening from the outside of the opening.

An air filtering unit for filtering air from an indoor setting, the air filtering unit including a housing including a first indoor inlet air path and a second indoor inlet air path for receiving indoor air, and an outlet for discharge of filtered air, all indoor air entering the housing must flow through the first indoor inlet air path or the second indoor inlet air path in order to reach the outlet; an indoor damper arrangement including one or more damper elements controllable between at least a first configuration and a second configuration, in the first configuration the first indoor inlet air path is open whilst the second indoor inlet air path is closed to airflow, and in the second configuration the second indoor inlet air path is open whilst the first indoor inlet air path is closed to airflow; a first filter device; a second filter device.

Various embodiments of a low-height heat pump cabinet are disclosed. An example heat pump system includes a low-height cabinet configured to be mounted to a ceiling. The low-height cabinet includes a frame and a plurality of panels that define a compressor compartment, a blower compartment, and a plenum compartment. The frame includes one or more dividers that separate the blower compartment, the plenum compartment, and the compressor compartment from each other. The example heat pump system also includes a compressor installed horizontally in the compressor compartment, a heat exchanger installed vertically in the compressor compartment, a blower assembly installed in the blower compartment, and an air coil installed in the blower compartment.

According to the present disclosure, it is determined whether or not the room is heated according to a temperature difference between a room temperature Tp and a set temperature Ts, and even when there is little or no heating load due to the temperature difference between the room temperature Tp and the set temperature Ts, the floor heating is performed by determining a temperature difference between the room temperature Tp and a floor temperature Tb.

According to the present disclosure, it is determined whether or not the room is heated according to a temperature difference between a room temperature Tp and a set temperature Ts, and even when there is little or no heating load due to the temperature difference between the room temperature Tp and the set temperature Ts, the floor heating is performed by determining a temperature difference between the room temperature Tp and a floor temperature Tb.

An air-conditioning system according to the present disclosure comprises an indoor unit; a temperature measurement device; and a controller. The controller is configured to detect, in a case where a room has a plurality of ceilings having different heights, a high ceiling space being disposed at a position higher than a ceiling having a lowest height of the plurality of ceilings; detect the floor; calculate a temperature difference between the temperature of the high ceiling space detected by the temperature measurement device and the surface temperature of the floor detected by the temperature measurement device; and generate a first air flow according to a predetermined operating condition in a case where the temperature difference calculated is less than a first threshold, and generate a second air flow in a case where the temperature difference is equal to or more than the first threshold.

A refrigeration device includes an indoor unit and an outdoor unit. The indoor unit is used for heat exchange with air inside an equipment room. To adapt to different cabinets, one or more ventilation ducts of the indoor unit include a plurality of channels, and a baffle assembly is disposed in the indoor unit. An air flow direction in the ventilation duct is changed using the baffle assembly, and the baffle assembly is adjusted to block different positions to apply the refrigeration device to different types of cabinets.

A comfort cassette (1) and a method which comprises a pressure box (2) with an inlet (3) and a plurality of outlets (4) for through flow of a supply air flow (L1). The outlets (4) are arranged at more than two of the pressure box edges (5a, 5b, . . . 5n) and form a group (6a, 6b, . . . 6n) of outlets per edge (5a, 5b, . . . 5n). The outlets are arranged in a configuration which is changeable by outlets (4) of a cover member (8) when the cover member (8) is displaced in relation to the outlets (4) of the pressure box (4). The cover member (8) is arranged to change simultaneously the configuration of all groups (6a, 6b, . . . 6n) of the outlets, by movement of the cover member (8) in only one direction, while the supply air flow (L1) is changeable in more than two directions by movement of the cover member.