KR100202591B1 - Cooling cycle device - Google Patents

Abstract

The present invention relates to a refrigeration cycle apparatus having both a rapid cooling / thawing function and a refrigeration cycle apparatus in which a first evaporator is located when the refrigerant is operated for a predetermined time or more because the refrigerant does not flow to the first evaporator during the rapid freezing operation The temperature of the inside of the freezing room and the inside of the refrigerating room is increased. Accordingly, the present invention is configured to selectively perform the functions of rapid freezing and rapid thawing, thereby diversifying the functions of use and conveniently and easily performing rapid cooling / In addition, in the rapid freezing operation, simultaneous use of the direct cooling auxiliary heat exchanger and the main cooling evaporator enables the rapid freezing of food and the temperature rise in the evaporator to be prevented.

Description

Refrigeration / freezing function combined with refrigeration cycle device

FIG. 1 is a schematic view showing a general refrigeration cycle apparatus. FIG.

FIG. 2 is a view showing a refrigeration cycle apparatus which also serves as a conventional rapid freezing function.

Fig. 3 is a configuration diagram showing a refrigeration cycle apparatus which also functions as a conventional thawing and freezing function.

FIG. 4 is a schematic view showing the refrigeration cycle apparatus for both of the rapid cooling / thawing function of the present invention.

FIG. 5 is a schematic view showing another embodiment of the refrigeration cycle apparatus for both of the rapid cooling / thawing function of the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

1: compressor 2: main condenser

3 ': first capillary tube 3: second capillary tube

3 ': third capillary 4': main evaporator

5: opening / closing valve 5 ': opening / closing valve

5: second opening and closing side 6 ': first reverse side

6: second reversing 6 ': third reversing

7: Three sides 8: Phase separator

9: auxiliary heat exchanger 9a:

9b: cold pipe

The present invention relates to a refrigeration cycle apparatus having both a rapid cooling / thawing function and a refrigeration cycle apparatus capable of selectively performing both rapid freezing and rapid thawing simultaneously.

As shown in FIG. 1, the general refrigeration cycle includes a compressor 1 for changing a low-temperature and low-pressure gaseous refrigerant into a high-temperature and high-pressure gaseous refrigerant, a high-temperature and high- A capillary 3 for changing the high-temperature and high-pressure liquid refrigerant changed in the condenser 2 into a liquid refrigerant at a low temperature and a low pressure, a condenser 2 for converting the refrigerant of the capillary 3 And an evaporator 4 for absorbing external heat while changing the refrigerant in the liquid state of the low temperature voltage changed to the gaseous state. And each component is connected by a refrigerant tube.

The refrigeration cycle is applied to a refrigerator, an air conditioner, and the like. The refrigerator can be used to store food freshly by absorbing external heat from the evaporator (4) and discharging heat to the outside from the condenser (2) The indoor environment is kept pleasant by heating.

Meanwhile, the refrigeration cycle can be applied to provide a function of rapid freezing or thawing according to need. In the past, the rapid freezing and rapid thawing cycles have been separately configured.

The refrigerating cycle apparatus having the conventional rapid freezing function is constituted by the compressor 1, the condenser 2, the first capillary tube 3 ', the opening and closing valve 5 and the main evaporator 4', as shown in FIG. - a reverse cycle (6) - connected to the compressor (1), the first cycle performing a general refrigeration function. The second capillary tube 3 is connected between the first capillary tube 3 'and the opening / closing tube 5 to be connected to the second capillary tube 3 and the auxiliary evaporator 4, Is connected between the compressor (1) and the refrigerant circuit (6), whereby the compressor (1) - the condenser (2) - the first capillary (3 ') - the second capillary (3) - the auxiliary evaporator 1). ≪ / RTI > In the second cycle, the refrigerant decompressed in two stages through the first capillary tube and the second capillary tube 3 'and 3' passes through the auxiliary evaporator 4, and the auxiliary depressor 4 performs the rapid freezing function.

3, the refrigerating cycle apparatus which also functions as a rapid thawing function according to the prior art comprises a compressor 1 - three sides 7 - a main condenser 2 - a backflow 6 - a first capillary 3 ' ) -Vaporizer 4 '-compressor 1 to form a first cycle, which forms a general refrigeration cycle and releases heat from the main condenser 2 to the outside. And is branched at the three sides 7 to be connected to the rapid thawing auxiliary condenser 2 'and connected to the second capillary 3 following the auxiliary condenser 2' (7) to the auxiliary condenser (2 ') by switching the direction of the three sides (7) to the auxiliary condenser (2') by being connected between the first capillary (6) and the first capillary (3 ' A second cycle connected to the second capillary tube 3, the first capillary tube 3 ', the main evaporator 4' and the compressor 1 is formed to form a rapid thawing cycle.

However, since the refrigerant does not flow to the main evaporator 4 'during the rapid freezing operation in the cycle of performing the rapid freezing in the conventional structure as described above, when the operation is performed for a predetermined time or longer, the freezer and the refrigerating room The internal temperature rises. In addition, in order to simultaneously perform rapid freezing and rapid thawing, a separate cycle must be separately formed, so that integration of functions is required.

Accordingly, an object of the present invention is to braking a refrigeration cycle device for both rapid freezing and thawing functions capable of simultaneously performing rapid freezing and rapid thawing.

In order to accomplish the object of the present invention as described above, three sides are connected to the compressor and the compressor, the main condenser is connected to the three sides, the three sides are connected to the main condenser, the main condenser is connected to the three sides, A first capillary tube is connected to the first capillary tube, a first capillary tube is connected to the first capillary tube, a main evaporator is connected to the first capillary tube, a main evaporator is connected to the second capillary tube, (2) a first cycle connected to the compressor; And a third capillary tube connected to the third capillary tube, wherein the third capillary tube is connected between the main evaporator and the first countercurrent, whereby the compressor-three-side- A second cycle consisting of an open tube of the auxiliary heat exchanger - a third capillary - a main evaporator - a second compressor - compressor; The second capillary tube is connected to the second capillary tube, and the coolant tube constituting a part of the auxiliary heat exchanger is connected to the second capillary tube, the third compressor tube is connected to the third compressor tube, A third cycle consisting of a compressor, a three-way valve, a main condenser, a phase separator, an open / close valve, a second capillary tube, a refrigerant tube and a third compressor, by connecting between the second countercurrent and the compressor. And a refrigerating cycle device for a rapid cooling / thawing function.

And the auxiliary heat exchanger including the cooling pipe and the warm pipe is a direct cooling type refrigerator.

In another embodiment of the present invention, the main condenser is connected to the compressor and the compressor, the phase separator is connected to the main condenser, the first capillary is connected to the phase separator, and the first capillary A first cycle connected to the first compressor, a main evaporator connected to the first compressor, a main evaporator connected to the second compressor, and a second compressor connected to the compressor; When the first capillary tube is branched and connected to the compressor and the main condenser, the first capillary tube is connected to the first capillary tube, and the third capillary tube is connected to the main capillary tube, A second cycle consisting of an open tube of a compressor-a first opening / closing valve-aided auxiliary heat exchanger-a third capillary-a main evaporator-a second compressor-reverse osmosis compressor, connected between the first reverse valve and the first reverse valve; The second capillary tube is connected to the second capillary tube, the second capillary tube is connected to the cold tube constituting a part of the auxiliary heat exchanger, and the third compressor tube is connected to the refrigerant tube, This third compressor includes a third cycle consisting of a compressor-main condenser-phase separator-second opening / closing valve-second capillary-refrigeration-third compressor-compressor by being connected between the second compressor and the compressor The refrigeration cycle apparatus includes a refrigeration cycle unit and a refrigerating cycle unit.

Also, the auxiliary heat exchanger including the cooling pipe and the warm pipe may be a direct cooling type refrigerator.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a refrigerating cycle apparatus for both rapid and thawing functions according to the present invention will be described with reference to the accompanying drawings.

As shown in FIG. 4, the refrigeration cycle apparatus for both the rapid cooling / thawing function of the present invention has three sides 7 connected to the compressor 1 and the compressor 1, The condenser 2 is connected and the phase separator 8 is connected to the main condenser 2 and the first capillary tube 3 'is connected to the phase separator 8 and the first capillary tube 3' The main evaporator 4 'is connected to the second backwash 6 and the second main evaporator 4' is connected to the first backwash 6 ' (6) is connected to the compressor (1) to constitute a first cycle.

And the third capillary tube 3 'is connected to the third capillary tube 3' after the warm tube 9a which is branched to the third side 7 and constitutes a part of the auxiliary heat exchanger 9 is connected, Is connected between the main evaporator 4 'and the first counterflow 6' so that the temperature of the refrigerant flowing from the compressor 1 to the third tube 7a through the third tube 9a of the auxiliary heat exchanger 9, (3 ') - the main evaporator (4') - the second compressor (6) - the compressor (1).

The second capillary tube 3 is connected to the open / close side 5 and the second capillary tube 3 is connected to the auxiliary heat exchanger 9 And the third reverse side 6 'is connected to the cold side 9b and the third reverse side 6' is connected between the second reverse side 6 and the compressor 1, (3), a cold pipe (9b), and a third reverse osmosis (3b) by connecting the compressor (1), the triple wall (7), the main condenser (2), the phase separator 6 ') -compressor (1).

Further, the auxiliary heat exchanger 9 including the cooling pipe 9b and the warm pipe 9a is formed by direct cooling.

Hereinafter, the operation of the refrigeration cycle apparatus for both the rapid cooling / thawing function of the present invention will be described.

The refrigerant gas which has been brought into a high temperature and high pressure state by the compressor 1 is circulated through the three sides 7 - the main condenser 2 - the phase separator 8 - the first capillary tube 3 '- the first The main evaporator 4 'performs the function of freezing and chilling by circulating the first cycle consisting of the refrigerant gas 6', the main evaporator 4 ', the second refrigerant return 6 and the compressor 1' do.

Next, in the case of performing the rapid thawing operation, the refrigerant gas, which has been brought into the high temperature and high pressure state by the compressor 1 in the closed state of the open / close side 5, flows into the warm gas pipe 9a of the three- Circulating the second cycle consisting of the first capillary, the third capillary, the main evaporator, the second compressor, and the compressor. At this time, the heat released from the warm tube 9a causes the auxiliary heat exchanger 9 to perform a rapid thawing function, and the food to be thawed is thawed by being in direct contact with the auxiliary heat exchanger 9.

Next, in the case of performing rapid thawing operation, the refrigerant gas, which has been brought into a high-temperature and high-pressure state by the compressor 1 in the open state of the open / close side 5, is passed through the three sides 7 to the main condenser 2, A part of the refrigerant flowing through the first separator 2 is passed through the phase separator 8 to the third capillary tube 3, the cold tube 9b, the third compressor 6 ' Cycle of the main condenser 2 and part of the refrigerant through the main condenser 2 flows through the phase separator 8 into the first capillary 3'-the first backwash 6'-the main evaporator 4'- The refrigerant is circulated to the compressor (1) to perform the rapid freezing function. At this time, both the direct cooling type and the indirect cooling type can be used by the auxiliary heat exchanger 9 and the main evaporator 4 '.

5, the main condenser 2 is connected to the compressor 1 and the compressor 1, and the main condenser 2 is connected to the compressor 1, The first capillary tube 3 'is connected to the phase separator 8 and the first capillary tube 3' is connected to the first capillary tube 3 ' The main evaporator 4 'is connected to the main shaft 6' and the main evaporator 4 'is connected to the second main shaft 6 and the second main shaft 6 is connected to the compressor 1 A first cycle is constructed.

The first and second openings 5 'are branched from the compressor 1 and the main condenser 2 and connected to the first open / close side 5' The third capillary tube 3 'is connected between the main evaporator 4' and the first reactor 6 ', and the third capillary tube 3' is connected to the first evaporator 4 ' , The compressor (1), the first opening and closing piece (5 '), the warm gas pipe (9a), the third capillary tube (3'), the main evaporator (4 '), the second back- (1). ≪ / RTI >

The second capillary tube 3 is connected to the second capillary tube 3 and the auxiliary heat exchanger 9 is connected to the second capillary tube 3. The second capillary tube 3 is connected to the second capillary tube 5, Is connected to a refrigerant pipe 9b constituting a part of the refrigerant pipe 9b and a third refrigerant return pipe 6'is connected to the refrigerant pipe 9b and the third refrigerant return pipe 6 ' The first condenser 2 -the phase separator 8 -the second opening and closing side 5 -the second capillary tube 3 -the cold tube 9b -the third compressor 6 ' -compressor < RTI ID = 0.0 > 1. ≪ / RTI >

Further, the auxiliary heat exchanger 9 including the cooling pipe 9b and the warm pipe 9a is formed by direct cooling.

Hereinafter, the operation of another embodiment of the present invention will be described.

The refrigerant gas which has been brought into a high temperature and high pressure state by the compressor 1 is introduced into the main condenser 2 through the phase separator 8 through the first capillary tube 3 ' The main evaporator 4 'performs the function of refrigeration and refrigeration by circulating the first cycle consisting of the main evaporator 4', the second recirculation 6, and the compressor 1.

Next, in the case of performing the rapid thawing operation, the refrigerant gas which has been brought into a high temperature and high pressure state by the compressor 1 in the state that the first opening / closing side 5 'is opened is transferred to the first opening / closing side 5' Circulating a second cycle consisting of an open tube 9a - a third capillary tube 3 '- a main evaporator 4' - a second compressor 6 - a compressor 1. At this time, the heat released from the warm tube 9a causes the auxiliary heat exchanger 9 to perform a rapid thawing function, and the food to be thawed is thawed by being in direct contact with the auxiliary heat exchanger 9.

Next, in the rapid freezing operation, the refrigerant gas, which has been brought into the high-temperature and high-pressure state by the compressor 1 in the state that the first opening / closing side 5 'is closed and the second opening / closing side 5 is opened, And a part of the refrigerant through the main condenser 2 flows through the phase separator 8 into the second opening and closing valve 5, the second capillary tube 3, the cold tube 9b, the third compressor 6 ' (1) and a portion of the refrigerant through the main condenser (2) flows through the phase separator (8) into the first capillary (3 ') - the first countercurrent (6') - the main evaporator (4 ') - the second reverse operation (6) - the compressor (1). At this time, both the direct cooling type and the indirect cooling type can be used by the auxiliary heat exchanger 9 and the main evaporator 4 '.

Hereinafter, the effect of the refrigeration cycle apparatus for both the rapid cooling / thawing function of the present invention will be described.

According to the present invention, the functions of rapid freezing and rapid thawing can be selectively performed at the same time, thereby diversifying the functions of use and conveniently and quickly performing the rapid cooling / thawing of food. In addition, by using the auxiliary cooling heat exchanger (9) and the main cooling water evaporator (4 ') at the same time during rapid freezing operation, it is possible to prevent the rapid freezing of the food and the temperature rise inside the evaporator, So that it can be stored.

Claims (4)

The main condenser is connected to the main condenser, the phase separator is connected to the main condenser, the first capillary is connected to the phase separator, the first capillary is connected to the first capillary, and the first capillary is connected to the first capillary, A first cycle in which the main evaporator is connected to the backflow, the main evaporator is connected to the second backflow, and the second backflow is connected to the compressor; And a third capillary tube connected to the third capillary tube, wherein the third capillary tube is connected between the main evaporator and the first countercurrent, whereby the compressor-three-side- A second cycle consisting of an open tube of the auxiliary heat exchanger - a third capillary - a main evaporator - a second compressor - compressor; The second capillary is connected to the opening and closing sides of the phase separator, the refrigerant tube constituting a part of the auxiliary heat exchanger is connected to the second capillary tube, the third refrigerant is connected to the third refrigerant tube, A third cycle consisting of a compressor, a three-way valve, a main condenser, a phase separator, an open / close valve, a second capillary tube, a refrigerant tube and a third compressor, by connecting between the second countercurrent and the compressor. And a refrigeration cycle device for both the rapid cooling / thawing function. The refrigeration cycle apparatus of claim 1, wherein the auxiliary heat exchanger including the cooling pipe and the warm pipe is a direct cooling type. The main condenser is connected to the compressor and the compressor, the phase separator is connected to the main condenser, the first capillary is connected to the phase separator, the first capillary is connected to the first capillary, the first capillary is connected to the first capillary, And the main evaporator is connected to the compressor when the second countercurrent is connected; The first capillary tube is branched from the compressor and the main condenser and connected to the first opening / closing valve. The first capillary tube is connected to the first capillary tube, which is a part of the auxiliary heat exchanger. A second cycle consisting of an open tube of a compressor-a first opening / closing valve-aided auxiliary heat exchanger-a third capillary-a main evaporator-a second compressor-reverse osmosis compressor, connected between the first reverse valve and the first reverse valve; The second capillary tube is connected to the second capillary tube, the second tube capillary tube is connected to the cold tube constituting a part of the auxiliary heat exchanger tube, the third tube tube is connected to the third tube tube, The third cycle includes a third cycle consisting of a compressor-a main condenser-phase separator-a second open / close valve-a second capillary-cooler-third compressor-compressor by being connected between the second compressor and the compressor And a refrigerating cycle device for both the rapid cooling / thawing function. [4] The refrigeration cycle apparatus of claim 3, wherein the auxiliary heat exchanger including the cooling pipe and the warm pipe is a direct cooling type.