A control system for a HVAC system for a structure and including a blower that flows air over an indoor heat exchanger. The control system may include a first input device, a first sensor, and a processor in electronic communication with the first input device, the first sensor, and the blower of the HVAC system. The first input device may be operable to accept a zoning mode selection. The first sensor may be sensor operable to measure a first temperature at a first location within the structure. The processor may be programmed to determine a cooling or heating demand on the HVAC system based on an input temperature and the first measured temperature. The processor may be further programmed to adjust an air flow rate produced by the blower based on the demand on the HVAC system and the zoning mode selection.

A control system for a HVAC system for a structure and including a blower that flows air over an indoor heat exchanger. The control system may include a first input device, a first sensor, and a processor in electronic communication with the first input device, the first sensor, and the blower of the HVAC system. The first input device may be operable to accept a zoning mode selection. The first sensor may be sensor operable to measure a first temperature at a first location within the structure. The processor may be programmed to determine a cooling or heating demand on the HVAC system based on an input temperature and the first measured temperature. The processor may be further programmed to adjust an air flow rate produced by the blower based on the demand on the HVAC system and the zoning mode selection.

Systems and methods for operating a water recovery system and include activating a plurality of dampers, a fan, and a refrigeration system of the water recovery system. The method includes measuring an ambient air temperature of the water recovery system based on data obtained from an ambient air temperature sensor. The method includes measuring one or more evaporator temperatures associated with an evaporator of the water recovery system based on data obtained from one or more evaporator temperature sensors. The method includes determining an optimal evaporator air temperature of the water recovery system based on the one or more evaporator temperatures and the ambient air temperature. The method includes setting a speed of the fan of the water recovery system based on the optimal evaporator air temperature.

A fresh air module and an air conditioner are provided. The fresh air module has a housing, a middle partition plate and a fan assembly. The housing is provided with a fresh air duct, which has an air inlet cavity and an air outlet cavity. The middle partition plate is arranged in the fresh air duct, located between the air inlet cavity and the air outlet cavity, and is provided with a ventilation hole that communicates the air inlet cavity and the air outlet cavity. The fan assembly is installed in the air outlet cavity.

A fresh air module and an air conditioner are provided. The fresh air module has a housing, a middle partition plate and a fan assembly. The housing is provided with a fresh air duct, which has an air inlet cavity and an air outlet cavity. The middle partition plate is arranged in the fresh air duct, located between the air inlet cavity and the air outlet cavity, and is provided with a ventilation hole that communicates the air inlet cavity and the air outlet cavity. The fan assembly is installed in the air outlet cavity.

A safety system for a heat pump system includes a plurality of valve units each having refrigerant pipe portions with control valves, a refrigerant leakage detector, and a casing accommodating the valves and the refrigerant leakage detector and formed with first and second openings. The safety system further includes a connection structure connecting the internal spaces of the casings via the first and second openings, and a discharge structure connected to the connection structure or one of the casings and configured to discharge air from the internal space of the casing in which a refrigerant leakage has occurred. The casing has first and second lateral faces facing different directions, and the first opening is formed in the first lateral face and the second opening is formed in the second lateral face.

The present invention relates to a suction device for a hood, comprising a motor, and further comprising an impeller driven by the motor and configured to draw an air flow and direct it into an outflow collar; the suction device further comprises at least one flap connected to the collar and hinged on one side only, the at least one flap being configured to close the collar when the impeller is idle, and to be lifted by the air flow so as to clear the collar when the impeller is rotating.

The present invention relates to a suction device for a hood, comprising a motor, and further comprising an impeller driven by the motor and configured to draw an air flow and direct it into an outflow collar; the suction device further comprises at least one flap connected to the collar and hinged on one side only, the at least one flap being configured to close the collar when the impeller is idle, and to be lifted by the air flow so as to clear the collar when the impeller is rotating.

An air conditioner is provided. A main body of the air conditioner is provided with an air outlet facing a front lower side of the main body. An upper passage is arranged above the air outlet and in communication with the air outlet, and is adapted to supply air forwardly. An upper air deflection assembly is used to direct air to flow out of a terminus of the upper passage. The upper air deflection assembly has an upper air diffusing plate. A front air deflection assembly is used to direct air to flow out of a terminus of the air outlet.

An air conditioner is provided. A main body of the air conditioner is provided with an air outlet facing a front lower side of the main body. An upper passage is arranged above the air outlet and in communication with the air outlet, and is adapted to supply air forwardly. An upper air deflection assembly is used to direct air to flow out of a terminus of the upper passage. The upper air deflection assembly has an upper air diffusing plate. A front air deflection assembly is used to direct air to flow out of a terminus of the air outlet.