RU187300U1 - INTERNAL AIR CONDITIONING UNIT - Google Patents

Abstract

The utility model relates to air conditioning technology and can be used as part of an air conditioner containing a condenser, evaporator and compressor along the refrigerant path to create comfortable microclimate conditions, including those with optimal humidity, in domestic, administrative and industrial premises. The possibility of obtaining air at the device outlet with parameters providing comfortable microclimate conditions in the air-conditioned room by efficiently humidifying the air when using the condensate evaporator formed on the radiator is achieved by the fact that in the indoor unit of the air conditioner containing the housing in which the fan is installed, the evaporator radiator with supply pipes and removal of refrigerant, below which there is a collection of condensate formed on the radiator, connected by a drain with a condensate atomizer nozzle, the condensate atomizer is located at the outlet of the housing of the air conditioner indoor unit along the air-conditioning duct, and the condensate outlet pipe connecting the condensate collector to the condensate atomizer is completely located in the air conditioner indoor unit, while the condensate collector is equipped with an additional water supply nozzle from an external water tank.

Description

The utility model relates to air conditioning technology and can be used as part of an air conditioner containing a condenser, evaporator and compressor along the refrigerant path to create comfortable microclimate conditions, including those with optimal humidity, in domestic, administrative and industrial premises.

Known indoor unit of an air conditioner containing a housing in which a fan is installed, an evaporator radiator with refrigerant inlet and outlet pipes, an air humidifier (see RF patent for invention No. 2536029, IPC F24F 1/54, publ. 12.20.2014). The disadvantages of the known device include a complex and material-intensive system for producing moisture to power the device for humidification, which requires the use of an external air conditioning unit (an external unit means a complex of devices, including a compressor and a condenser). At the same time, this device does not provide for the collection of condensate formed on the radiator to moisten the air-conditioned room, which is simply useless to the outside, and humidification is carried out by moisture released with high energy consumption from the surrounding outdoor air.

Closest to the proposed one is an indoor unit of an air conditioner, comprising a housing in which a fan is installed, an evaporator radiator with refrigerant inlet and outlet pipes, below which there is a collection of condensate formed on the radiator, connected by a drain pipe to an air humidification device (see RF patent Utility Model No. 167841, IPC F24F 13/22, published January 10, 2017). The disadvantages of the known device can be attributed to the fact that it also does not provide for the use of condensate formed on the radiator of the evaporator to humidify the conditioned air in the room, and the condensate is uselessly discharged outside. At the same time, the known technical solution does not allow to obtain air parameters at the output that provide comfortable microclimate conditions in the air-conditioned room due to the lack of humidification of the air-conditioned air.

The proposed utility model is aimed at solving a technical problem and achieving a technical result, consisting in the possibility of obtaining air at the device output with parameters providing comfortable microclimate conditions in an air-conditioned room by efficiently humidifying the air.

This technical result is achieved by the fact that in the indoor unit of the air conditioner comprising a housing in which a fan is installed, an evaporator radiator with refrigerant inlet and outlet nozzles, below which there is a collector of a condensate evaporator formed on the radiator, connected by a condensate nozzle to the condensate atomizer, the condensate atomizer is located at the outlet of the housing of the indoor unit of the air conditioner along the path of the conditioned air, and the condensate outlet pipe connecting the collector to condensate atomizer with a condensate atomizer, is completely located in the indoor unit of the air conditioner, while the condensate collector is equipped with an additional water supply pipe from an external water tank.

In this case, the condensate atomizer can be made with the possibility of ultrasonic atomization of water, and the collector of the condensate evaporator formed on the radiator can be made in the form of a tray.

The location of the condensate atomizer formed on the evaporator radiator at the outlet of the indoor unit of the air conditioner via the conditioned air path, while the condensate outlet pipe connecting the condensate collector to the condensate atomizer is completely located in the indoor unit of the air conditioner, allows the condensate to form the radiator of the evaporator, to the condensate atomizer and humidification with the conditioned air at the outlet of the indoor unit, and the floor cheniya air outlet with parameters that provide a comfortable climate conditions in the conditioned space air by humidifying data condensate.

Providing the condensate collector with a pipe for an additional supply of water from an external water tank provides air at the device output with parameters providing comfortable microclimate conditions in the air-conditioned room, due to the fact that in case of insufficient condensate volumes there is a possibility of using water from external container with water.

The implementation of the condensate atomizer with the possibility of ultrasonic atomization of water due to efficient fine humidification throughout the volume of the air flow allows you to obtain air parameters that provide comfortable microclimate in an air-conditioned room.

The collection of the condensate formed on the radiator of the condensate evaporator in the form of a pan also helps to obtain air parameters at the device output that provide comfortable microclimate conditions in the air-conditioned room, since it allows the condensate to be collected as efficiently as possible for its further use to humidify the air.

The drawing shows a block diagram of the proposed indoor unit of the air conditioner.

The indoor unit of the air conditioner contains a housing 1, in which a fan 2, a radiator 3 of the evaporator with nozzles for supplying 4 and refrigerant discharge 5 are installed, below which there is a collection of condensate formed on the radiator of the evaporator, made in the form of a tray 6. Pallet 6 is connected by a branch pipe 7 with a condensate atomizer 8 configured to ultrasonically spray water. The condensate atomizer 8 is located at the outlet of the housing 1 of the indoor unit of the air conditioner along the conditioned air path. A condensate drain pipe 7 connecting the drip tray 6 to the condensate atomizer 8 is completely located in the indoor unit of the air conditioner, in particular in its housing 1 and is equipped with a pump 9. The condensate tray 6 is equipped with a pipe 10 for additional water supply from the external water tank 11, in which can be installed pump 12. Also, the pan 6 and the outer tank 11 can be equipped with level sensors, drain-overflow systems to drain excess fluid, which are made and work in the usual way for such devices and are not shown in presented block diagram.

The proposed indoor unit of the air conditioner operates as follows.

The indoor unit of the air conditioner is part of the air conditioner, which works in the usual way for air conditioners along the refrigerant path, namely: the refrigerant moves in a closed circuit: evaporator, condenser, compressor, piping system for refrigerant circulation with corresponding valves, the evaporator, and air conditioning fan 2 passes through the housing 1, cooling upon contact with the radiator 3 of the evaporator. When the air conditioner is operating on the radiator 3 of the evaporator, water condensate is released from the conditioned air, which flows from the radiator 3 into the pan 6. From the pan 6, water is pumped through the branch pipe 7 to the atomizer 8 through the outlet pipe 7, at the outlet of which fine water dust is generated, which is effective humidifies the conditioned air. If for the necessary humidification of the air there is not enough volume of condensate formed on the radiator 3 of the evaporator, then an additional water supply is carried out into the pallet 6 from the external tank 11 through the pipe 10 by gravity or using pump 12.

The proposed utility model allows to obtain an air stream at the output of the indoor unit, with parameters providing comfortable microclimate conditions in the air-conditioned room, by efficiently humidifying the air using the condensate evaporator formed on the radiator.

Claims (3)

1. The indoor unit of the air conditioner, comprising a housing in which a fan is installed, an evaporator radiator with refrigerant inlet and outlet nozzles, below which there is a condensate collector formed on the radiator, connected by a condensate nozzle to the condensate atomizer, characterized in that the condensate atomizer is located at the outlet from the body of the indoor unit of the air conditioner along the path of the conditioned air, and the condensate outlet pipe connecting the condensate collector to the condensate atomizer Sata, is completely located in the indoor unit of the air conditioner, while the condensate collector is equipped with a pipe for additional water supply from an external water tank. 2. The indoor unit of the air conditioner according to claim 1, characterized in that the condensate atomizer is made with the possibility of ultrasonic atomization of water. 3. The indoor unit of the air conditioner according to claim 1, characterized in that the collection of condensate formed on the radiator is made in the form of a tray.

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