The present disclosure relates to a method of controlling operation state of multi-split air conditioner and system, and a heat pump multi-split. The control method includes: determining a target operation mode of each indoor unit according to an operation mode set by a user for the indoor unit; performing statistics on heat exchange demands of the indoor units corresponding to different target operation modes, and determining a dominant operation mode among the target operation modes according to the heat exchange demands; and using the dominant operation mode as the operation mode of an outdoor unit.

A method of installing an air conditioning unit in an opening. The method includes securing a bracket to a sill of the opening between a first and second environment where the bracket has a pivot arm disposed and extending within the first environment. The method also includes positioning a first unit of the air conditioning unit on top of the bracket; moving the first unit on top of the bracket onto the pivot arm; and rotating the pivot arm and first unit downward so that the first unit is disposed in the first environment and extending downward below the sill of the opening.

An indoor unit apparatus of a split-type air conditioner and a method for using the same are provided, which can realize both of an impinging jet ventilation manner and a displacement ventilation manner. A thin air layer can be formed on the ground through using the indoor unit apparatus of a split-type air conditioner, and the indoor unit apparatus of a split-type air conditioner is adapted to be used both in summer and in winter.

An indoor unit apparatus of a split-type air conditioner and a method for using the same are provided, which can realize both of an impinging jet ventilation manner and a displacement ventilation manner. A thin air layer can be formed on the ground through using the indoor unit apparatus of a split-type air conditioner, and the indoor unit apparatus of a split-type air conditioner is adapted to be used both in summer and in winter.

An outdoor unit includes: first, second, third, and fourth connection terminals all of which are connected to an indoor unit; a power converter; and a switch unit provided between the first connection terminal and the power converter. The indoor unit includes: a first indoor unit terminal connected to the first connection terminal; a second indoor unit terminal connected to the second connection terminal; a third indoor unit terminal connected to the third connection terminal; a fourth indoor unit terminal connected to the fourth connection terminal; and a switch provided between the first indoor unit terminal and the fourth indoor unit terminal. The switch unit includes: a first switch that is closed when receiving power supply from the second and fourth connection terminals; and a second switch connected in parallel with the first switch. AC power is applied to the first and second connection terminals. The indoor unit closes the switch upon receiving a start signal, and the outdoor unit closes the second switch after supply of AC power to the power converter starts.

An outdoor unit includes: first, second, third, and fourth connection terminals all of which are connected to an indoor unit; a power converter; and a switch unit provided between the first connection terminal and the power converter. The indoor unit includes: a first indoor unit terminal connected to the first connection terminal; a second indoor unit terminal connected to the second connection terminal; a third indoor unit terminal connected to the third connection terminal; a fourth indoor unit terminal connected to the fourth connection terminal; and a switch provided between the first indoor unit terminal and the fourth indoor unit terminal. The switch unit includes: a first switch that is closed when receiving power supply from the second and fourth connection terminals; and a second switch connected in parallel with the first switch. AC power is applied to the first and second connection terminals. The indoor unit closes the switch upon receiving a start signal, and the outdoor unit closes the second switch after supply of AC power to the power converter starts.

The present disclosure relates to a method of predicting air conditioning load based on room temperature and an air conditioner implementing the method, the air conditioner according to one embodiment may include a sensor configured to sense a room temperature or humidity in a suspended section in which an air discharge part is not operated; and a central controller implemented to control the air discharge part and an outdoor unit based on operation mode information that is calculated from a value sensed by the sensor, when the air discharge part and the outdoor unit are switched on.

The indoor unit has an air passage formed therein to allow the indoor air drawn in the indoor unit to pass therethrough. The first indoor heat exchanger, the adsorption and desorption device, and the second indoor heat exchanger are arranged in the air passage. The second indoor heat exchanger is disposed downstream of the first indoor heat exchanger, and the adsorption and desorption device is disposed downstream of the first indoor heat exchanger and upstream of the second indoor heat exchanger. To perform dehumidifying control, the controller controls the opening degree of the first expansion valve and the second expansion valve to enable switching between cooling adsorption mode where the adsorption and desorption device adsorbs moisture in the indoor air and cooling desorption mode where the adsorption and desorption device desorbs the adsorbed moisture.

The indoor unit has an air passage formed therein to allow the indoor air drawn in the indoor unit to pass therethrough. The first indoor heat exchanger, the adsorption and desorption device, and the second indoor heat exchanger are arranged in the air passage. The second indoor heat exchanger is disposed downstream of the first indoor heat exchanger, and the adsorption and desorption device is disposed downstream of the first indoor heat exchanger and upstream of the second indoor heat exchanger. To perform dehumidifying control, the controller controls the opening degree of the first expansion valve and the second expansion valve to enable switching between cooling adsorption mode where the adsorption and desorption device adsorbs moisture in the indoor air and cooling desorption mode where the adsorption and desorption device desorbs the adsorbed moisture.

Systems and techniques are described for using retrofit control of a ductless mini-split system (DMSS) to improve functionality and use in relation to temperature monitoring within a property. In some implementations, data indicating a command is transmitted to a controller associated with a ductless mini-split system. The command causes the controller to configure an operation to be performed by the ductless mini-split system. Power output associated with the ductless mini-split system is monitored based on transmitting data indicating the command. A determination that the operation has been performed by the ductless mini-split system is made based on monitoring the power output. Data indicating that the operation has been performed by the ductless mini-split system is provided for output.