RU199366U1 - Joule-Thompson effect air conditioner indoor unit - Google Patents

Abstract

The utility model relates to air conditioning technology and can be used as part of an air conditioner. The device of the indoor unit of the air conditioner, while in the case of the unit between the fan and the evaporator, fine-pore and large-pore filters are sequentially located, additionally cooling the air due to the Joule-Thompson effect. The proposed utility model is aimed at increasing the amount of cold generated by the air conditioner and achieving the technical result consisting in the possibility of obtaining air with a lower temperature at the outlet of the device with unchanged parameters of the refrigerant, evaporator and condenser. 1 ill.

Description

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

Known is an internal unit of an air conditioner containing a housing in which a fan is installed, an evaporator radiator with refrigerant inlet and outlet pipes, a device for air humidification (see RF patent for invention No. 2536029, IPC F24F 1/54, publ. 20.12.2014, patent RF for utility model No. 167841, IPC F24F 13/22, publ. 10.01.2017).

The closest to the proposed one is the internal unit of the air conditioner, containing 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 a device for air humidification (see RF patent for the invention RU 187300 U1, IPC F24F 13/22, publ. 28.02.2019).

The proposed utility model is aimed at increasing the amount of cold produced by the air conditioner and achieving the technical result consisting in the possibility of obtaining air with a lower temperature at the outlet of the device with unchanged parameters of the refrigerant, evaporator and condenser.

This technical result is achieved by the fact that in the internal block of the air conditioner, containing the housing in which the fan is installed, the evaporator radiator with refrigerant inlet and outlet pipes, below which there is a collection of condensate formed on the radiator, connected by the outlet pipe to the condensate atomizer, and at the outlet from the casing of the indoor unit of the air conditioner along the conditioned air path there is a condensate sprayer; between the fan and the radiator, a fine-pore filter and a large-pore filter are arranged in series. The air flow from the fan sequentially passes through the filters, and during the transition from smaller pores to larger ones, due to a sudden expansion, the air temperature decreases due to the Joule-Thompson effect.

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

The internal block of the air conditioner contains a housing 1, in which a fan 2 is installed, a radiator 3 of the evaporator with nozzles for the supply 4 and outlet 5 of the refrigerant, below which there is a collection of condensate formed on the radiator of the evaporator, made in the form of a pallet 6. The pallet 6 is connected by a branch pipe 7 with a condensate sprayer 8 made with the possibility of ultrasonic spraying of water. Condensate atomizer 8 is located at the outlet from the housing 1 of the indoor unit of the air conditioner along the conditioned air path. The condensate drain 7 connecting the sump 6 with the condensate sprayer 8 is completely located in the internal block of the air conditioner, in particular, in its housing 1 and is equipped with a pump 9. The condensate sump 6 is equipped with a pipe 10 for additional water supply from the external water tank 11, in which can be equipped with a pump 12. Also, the pallet 6 and the external container 11 can be equipped with level sensors, drain-overflow systems for removing excess liquid, which are made and operate in the usual manner for such devices and are not shown in the presented block diagram. A fine-pore filter 13 and a large-pore filter 14 are arranged in series between fan 2 and radiator 3.

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 along the refrigerant path in the usual way for air conditioners, namely: the refrigerant moves in a closed loop: evaporator, condenser, compressor, piping system for refrigerant circulation with appropriate valves, evaporator, and conditioned air at fan 2 passes through the housing 1. When the air flow from the fan 2 passes through successively located fine-pore 13 and large-pore 14 filters, when passing from smaller pores to larger ones, due to sudden expansion, the air temperature decreases due to the Joule-Thompson effect. Further, the air is additionally cooled in contact with the radiator 3 of the evaporator, humidified using the atomizer 8.

The proposed utility model makes it possible to obtain an air flow with a lower temperature at the outlet of the indoor unit with unchanged parameters of the refrigerant, evaporator and condenser.

Claims (1)

The device of the indoor unit of the air conditioner, characterized in that fine-pore and large-pore filters are sequentially located in the unit case between the fan and the evaporator, additionally cooling the air due to the Joule-Thompson effect.

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