KR200240558Y1 - Condensor with intercooler for cooling unit using small two step centrifugal compressor - Google Patents

Abstract

The present invention relates to an intermediate condenser integrated condenser used in a refrigerant circuit of a small two-stage centrifugal compressor having a cooling capacity of 5RT or less, and in particular, as it improves performance and efficiency through optimal cycles in such a refrigerant circuit and simplifies the system structure. Cost reduction and product simplification can be achieved.

The present invention receives the refrigerant discharged from the evaporator to compress the first stage in a small two-stage centrifugal compressor to intermediate cooling, and compresses the intermediate cooled refrigerant in the small two-stage centrifugal compressor two stages to condense In the cooling device using a small two-stage centrifugal compressor, the inlet (13a) and the small two-stage centrifugal compressor (10) for receiving the refrigerant discharged after the first stage compression in the small two-stage centrifugal compressor (10) An intermediate cooler (13) having an intermediate cooling engine (13c) having an outlet (13b) leading to a two-stage side inlet of the inlet, and an inlet for receiving refrigerant discharged after two-stage compression in the small two-stage centrifugal compressor (10) A condenser 21 comprising a condensation tube 21c having an outlet 21b leading to the expansion valve 14 and 21a is arranged in different parts of the region blown by the blower fan 24. Using a small two-stage centrifugal compressor It provides an intercooler integrated condenser for apparatus.

Description

Condenser with intercooler for cooling unit using small two step centrifugal compressor

The present invention relates to an intermediate condenser (hereinafter referred to as an intermediate cooler) integrated condenser that constitutes an air conditioner refrigerant circuit of a small two-stage centrifugal compressor having a cooling capacity of 5 RT or less, and in particular, in such a refrigerant circuit, By improving and simplifying the system structure, cost reduction and product simplification can be achieved.

An intermediate cooler device that has been used in a typical typical cooling cycle is equipped with an intermediate cooler as a separate configuration in order to supercool the discharge refrigerant of the first stage in a centrifugal compressor having a refrigeration capacity of 100 RT or more, and the refrigeration cycle is shown in FIG. 1.

Here, the refrigerant sucked into the first stage compressor (2) from the evaporator (1) is subcooled by the intermediate cooler (3) after low pressure compression, and then introduced into the second stage compressor (4) and compressed again and discharged to the condenser (5). After the condensation process in the condenser (5), passing through the expansion valve (6) after decompression to the evaporator (1) through the inlet evaporation process to form a cycle to be sucked into the first stage compressor (2).

Meanwhile, Korean Patent Application Nos. 96-45731 and 45732 are known as prior arts related to the present invention, which does not have a lubrication structure in a transmission part of a small two-stage centrifugal compressor and requires a high speed rotation of about 36,000 RPM or more. In the system, a separate bypass coolant flow path is formed for cooling the transmission.

In this type of compressor, unlike a contact compressor that uses lubricating oil for motor cooling, a two-stage centrifugal compressor that cools the motor through the refrigerant flow is characterized in that the one-stage compressed refrigerant in the evaporator immediately cools the motor. At this time, the refrigerant temperature rises rapidly and an increase in pressure occurs.

In this state, when the refrigerant is sucked to the second stage, the compressor performance is greatly reduced due to a proportional increase, and the high temperature and high pressure supersaturated refrigerant vapor having a reduced density reduces the two stage efficiency. Therefore, for optimal cycle operation, it is necessary to supercool the superheated refrigerant to a certain level after cooling the motor.

In addition, this operation is performed by the intermediate cooler. In the related art, a separate control unit and a space required for mounting must be secured, thereby causing a price increase.

In addition, when forming an air conditioner cycle using such a small two-stage centrifugal compressor, various forms are required to maintain a cooling system consumed on the electric side of the small two-stage centrifugal compressor. When the intermediate coolers were separately configured to increase efficiency, they not only increased the volume and weight of the overall device, but also hindered system efficiency.

In addition, as the condensation pressure is changed in such an air conditioning cycle, a separate device that receives a temperature and pressure signal is required to control the intermediate cooler temperature pressure to an appropriate level.

The purpose of the present invention is to construct an air-conditioning cycle using a small two-stage centrifugal compressor, so that the intermediate cooler and the condenser have an integrated structure. By improving and simplifying the system structure, cost reduction and product simplification can be achieved.

The present design is designed for the intermediate cooler by calculating the amount of heat and the amount of heat to compensate for the amount of heat generated from the drive motor of a small two-stage centrifugal compressor, and the intermediate cooler is integrated into the condenser. And an intermediate cooler line is formed.

In this case, the heat exchange heat source of the intermediate cooler is air-cooled using air, and two state changes (condensation and intermediate cooling) occur at the same time by driving the fan, and when the condensation temperature changes, the fan speed controls the amount of control heat source. The intermediate cooling can be adjusted automatically at the same time.

1 is a reference diagram showing a conventional refrigeration cycle configuration

2 is a view showing a refrigeration cycle equipped with an intermediate cooler integrated condenser of the present invention

3 is a reference perspective view showing an intermediate cooler integrated condenser of the present invention.

＊ Code explanations for main parts of the drawings ＊

10: 2-stage centrifugal compressor 13: Intermediate cooler

13a: middle cooler outlet 13b: middle cooler outlet

13c: intermediate cooling engine 21: condensation unit

21a: condenser inlet 21b: condenser outlet

21c: condenser tube 23: condenser

In particular, the present invention receives the refrigerant discharged from the evaporator to compress the first stage in a small two-stage centrifugal compressor and then intermediately cools it, and then compresses the intermediate cooled refrigerant in the small two-stage centrifugal compressor two stages. In the cooling device using a small two-stage centrifugal compressor to condense, an inlet for receiving refrigerant discharged after being compressed in one stage of the small two-stage centrifugal compressor and an outlet leading to the two-stage side inlet of the small two-stage centrifugal compressor. A condenser comprising an intermediate cooler including an intermediate cooling engine, and a condenser tube having an inlet for receiving refrigerant discharged after being compressed in two stages in the compact two-stage centrifugal compressor and an outlet leading to an expansion valve. Intermediate cooler integrated condenser for cooling system using a small two-stage centrifugal compressor, characterized in that it is arranged in different parts of the blowing area It is characterized by.

Hereinafter, the detailed description of the present invention will be understood as described in more detail with reference to the accompanying drawings.

2 and 3 show the refrigerant circuit and the condenser 23 of the system with the intermediate cooler integrated condenser 23 according to the present invention.

In this case, the intermediate cooler 13 and the condenser 21 for cooling the electric part of the small two-stage centrifugal compressor 10 constitute a condenser 23 integrally unitized, and the intermediate cooler 13 Intermediate cooler inlet (13a) is connected to the outlet side of the refrigerant discharged to the outside through the inside of the sealed electric drive body of the small two-stage centrifugal compressor (10), the intermediate cooling engine (13a) is connected to the intermediate cooling engine The intermediate cooler outlet 13b is connected to the two-stage side inlet of the two-stage centrifugal compressor 10 via 13c.

Moreover, the intermediate cooling engine 13c arrange | positioned in the area | region different from the condensation pipe | tube 21c of the condensation part 21, and the blowing fan 24 which cools this intermediate cooling engine 13c by air cooling are provided.

That is, the cooling fins having a predetermined area are arranged in parallel in a plurality of rows, and the intermediate cooling engine 13c of the intermediate cooler 13 is installed through the upper sides of these cooling fins, and passes through the lower side of the cooling fins. The condensation tube 21c of the condensation part 21 is provided. The intermediate cooler 13 and the condenser 21 are present in the blowing area by the blowing fan 24.

The condenser inlet 21a of the condenser 21 is connected to the condenser inlet 21a at the second stage outlet of the two-stage centrifugal compressor 10, and the condenser outlet 21b is the primary expansion valve 14. It leads to.

Here, reference numeral 11 denotes the first stage inlet of the small two-stage centrifugal compressor 10, 12 is the stator of the electric drive, 15 is the primary receiver, 16 is the secondary expansion valve, 17 is the secondary receiver, 18 is the evaporator, 22 is The evaporator fan 25 is the two stage side of the small two stage centrifugal compressor 10.

The present invention of such a configuration cools the stator 12 and the like of the electric motor in which the refrigerant passing through the two-stage centrifugal compressor first stage side inlet 11 is sealed as shown in FIGS. 2 and 3 and through the intermediate cooler inlet 13a. The refrigerant flows into the intermediate cooler 13 on the condenser 23 side.

The refrigerant is cooled to a suitable temperature by the blower fan 24 while passing through the intermediate cooling engine 13c of the intermediate cooler 13, and then again through the intermediate cooler outlet 13b of the second stage centrifugal compressor 10. The refrigerant flowing into the second stage 25 and compressed and discharged at the second stage 25 is introduced into the condenser inlet 21a of the condenser 21 and condensed through the condenser tube 21c.

Subsequently, the liquid is discharged through the condenser outlet 21b and is first expanded through the primary expansion valve 14, and then flows into the primary receiver 15, and again through the secondary expansion valve 16. 17) the cycle is sucked into the first stage inlet 11 of the two-stage centrifugal compressor 10 through the evaporator 18 again.

The low-temperature, low-pressure gas refrigerant passing through the evaporator 18 in the two-stage centrifugal compressor 10 passes through the first stage and is increased in pressure and compressed to medium pressure. After compression, the electric motor is cooled while moving along the cooling flow path, and exited to the outlet 20 of the first stage of the two-stage centrifugal compressor 10 in a state of high temperature superheated steam and flowed into the intermediate cooler 13 of the condenser 23 side. do. At this time, the refrigerant is transported along the middle cooler 13 line in the condenser 23, and the temperature of the superheated steam of high temperature is cooled by the blower fan 24. The cooled refrigerant is the second stage of the two-stage centrifugal compressor 10. Flows into (25).

The refrigerant introduced into the second stage 25 is superheated at high temperature and high pressure by a two-stage compression process, and flows into the condenser 21 at the condenser 23 side, and the external heat source (air) is supplied from the condenser 21. The heat exchange takes place by driving the fan, causing the phase change with liquid refrigerant.

The refrigerant passing through the condenser (23) passes through the primary expansion valve (14) and rapidly depressurizes due to the depressurization action, flows into the primary receiver (15), and phase separation occurs. It is introduced into the (16) to be reduced pressure, low temperature state by the secondary expansion action, and again flows into the secondary receiver 17, the refrigerant is transferred to the evaporator (18).

In the evaporator 18, an evaporation process is generated by an external heat source (air), and the low-temperature low-pressure gas refrigerant is transferred to the first stage side inlet 11 of the two-stage centrifugal compressor 10 again.

The present invention is provided with an intermediate cooler for the cooling system of the electric motor in a two-stage centrifugal compressor having a high-speed rotational closed electric drive of about 36,000 RPM or more, which is integrated with a condenser to improve compressor performance and cycle efficiency. Cost reduction and simplification are possible by the integration of the condenser, and the lifespan and performance improvement of the two-stage centrifugal compressor can be improved by automatically forming the appropriate medium pressure and superheated steam cooling according to the condensation temperature change.

Claims (1)

(Correction) Small two-stage centrifugal to receive the refrigerant discharged from the evaporator and compress it in one stage in a small two-stage centrifugal compressor, and then intermediately cool it. In the cooling device using a compressor, An intermediate cooling engine having an inlet (13a) for receiving the refrigerant discharged after the first stage compression in the small two-stage centrifugal compressor (10) and an outlet (13b) leading to the two-stage side inlet of the small two-stage centrifugal compressor (10) Intermediate cooler (13c) comprising a (13c), the inlet (21a) for receiving the refrigerant discharged after the two-stage compression in the small two-stage centrifugal compressor (10) and the outlet (21b) leading to the expansion valve (14) Condensation unit 21 including a condensation tube (21c) having an intermediate cooler integrated for a cooling device using a small two-stage centrifugal compressor, characterized in that arranged in different parts of the area blown by the blower fan (24) Condenser.