KR101454713B1 - A condenser structure for a dual refrigeration system - Google Patents

Abstract

[0001] The present invention relates to a condenser structure of a dual refrigeration system, and more particularly, to a condenser structure in which a condenser is provided with a baffle in which piping of each evaporator is directly connected to minimize condensation, The present invention relates to a condenser structure of a dual refrigeration system capable of adjusting the flow rate of a refrigerant supplied to each evaporator by moving at least one position.
Technical Solution In order to achieve the above object, the present invention provides a refrigeration system comprising a compressor, a condenser and an evaporator, wherein the condenser includes a first header, a core including a tube and a fin, and a second header, The first header includes a single inlet, the second header includes a plurality of outlets connected to the plurality of evaporators, and the baffle is configured to distribute the refrigerant to the plurality of outlets in the second header .

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a condenser structure of a dual refrigerating system,

[0001] The present invention relates to a condenser structure of a dual refrigeration system, and more particularly, to a condenser structure in which a condenser is provided with a baffle in which piping of each evaporator is directly connected to minimize condensation, The present invention relates to a condenser structure of a dual refrigeration system capable of adjusting the flow rate of a refrigerant supplied to each evaporator by moving at least one position.

Refrigeration systems have long been developed and used in many parts of our lives. The refrigeration system consists of an evaporator, a compressor and a condenser. As the refrigerant vaporizes in the evaporator, the refrigerant absorbs the surrounding heat to cool the refrigerant. After passing through the expansion valve, the refrigerant absorbing the surrounding heat is compressed to a high pressure state in the compressor, and then the refrigerant is discharged to the evaporator Thereby forming a cycling cycle.

The basic principle of the refrigeration system is as described above, and additional devices for improving the refrigeration efficiency in the detailed operation method are provided.

Meanwhile, in recent years, a dual refrigeration system having two or more evaporators in one refrigeration system and configured to cool a plurality of divided spaces has been widely used. The dual refrigeration system is used to cool several rooms individually or individually to freeze each space of a refrigerator (refrigerator or Kimchi refrigerator, etc.) divided into several spaces and maintain a desired temperature respectively.

1 is a view showing a connection state between a condenser and an evaporator of a refrigeration system according to the related art.

Referring to FIG. 1, in the dual refrigeration system according to the related art, two evaporators 10 are provided in one condenser, and the refrigerant passing through the condenser 30 flows through a three-way valve 50 And is configured to branch to each evaporator 10.

However, in the dual cooling system according to the related art, a refrigerant pipe connecting between the condenser 30 and the evaporator 10, and a three-way valve 50 provided between the condenser 30 and the evaporator 10, There is a problem that a lot occurs. Thus reducing the efficiency of the refrigeration system and reducing the durability of the refrigeration system.

KR10-2002-0028828 a1 KR10-2007-0111302 a1 KR10-2007-0087335 a1

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a refrigerant tube which is branched from a condenser to each evaporator directly to the condenser and has a baffle in the condenser to reduce the pressure loss of the refrigerating system, There is a purpose. It is an object of the present invention to provide a condenser structure of a dual refrigeration system capable of moving at least one of a plurality of partition walls provided in a baffle to control a flow rate of a refrigerant supplied to each evaporator, .

Technical Solution In order to achieve the above object, the present invention provides a refrigeration system comprising a compressor, a condenser and an evaporator, wherein the condenser includes a first header, a core including a tube and a fin, and a second header, The first header includes a single inlet, the second header includes a plurality of outlets connected to the plurality of evaporators, and the baffle is configured to distribute the refrigerant to the plurality of outlets in the second header .

The ratio of the distance (l1) from one end of the second header to the baffle and the distance (l2) from the other end of the second header to the baffle corresponds to the ratio of the amount of refrigerant distributed to the plurality of outlets.

In one embodiment of the present invention, the inlet is provided at one side of the condenser, and the outlet is provided at the other side of the condenser.

Further, in another embodiment of the present invention, when the first header and the second header are formed in two rows, the inlet and the outlet are provided on one side of the condenser.

According to a further embodiment of the present invention, the outlet of the condenser is provided with a baffle having a plurality of partitions inside thereof and two outlets, wherein the evaporator is composed of two evaporators, And may be connected to the outlet of the condenser, respectively.

At least one of the plurality of partition walls provided in the baffle may include a movable partition wall so as to be movable in the direction of the first discharge port or the second discharge port.

According to a preferred embodiment of the present invention, the movable partition may include a screw shaft coupled to the movable partition and moving the movable partition, a guide unit guiding movement of the movable partition, and a motor rotating the screw shaft have.

According to the condenser structure of the dual refrigeration system according to the present invention, since the refrigerant tube connected to the plurality of evaporators is directly connected to the condenser, the length of the refrigerant tube between the condenser and the evaporator can be reduced, There is an advantage that the efficiency of the system can be improved. In addition, a plurality of partitions are provided in the baffle to reduce the load of the compressor, at least one of the plurality of partition walls can be moved, and the flow rate supplied to each evaporator can be appropriately adjusted to improve the refrigerating efficiency There is an advantage.

1 is a view showing a connection state between a condenser and an evaporator of a refrigeration system according to the related art.
2 is a block diagram showing a schematic configuration of an overall structure of a dual refrigeration system according to the present invention.
3 is a view showing a schematic configuration of a condenser of a dual refrigeration system according to the present invention.
4 is a view showing a distance between a second header and a baffle of a condenser structure of a dual refrigeration system according to the present invention.
5 is a block diagram illustrating a schematic configuration of a dual refrigeration system according to an embodiment of the present invention.
FIG. 6 is a schematic view showing a flow path forming state of the condenser structure of the dual refrigeration system according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a view showing a structure of a dual refrigeration system according to the present invention and a state in which evaporators 150 and 160 are connected to a condenser 130 of the refrigeration system, and FIG. 5 is a schematic view showing a dual refrigeration system according to an embodiment of the present invention. FIG. 6 is a view showing the configuration of the baffle 170 provided at the end of the condenser 130 shown in FIG. 5. As shown in FIG.

Referring to FIG. 1, a dual refrigeration system according to the present invention includes a compressor 110, a condenser 130, and an evaporator 150. The dual refrigeration system according to the present invention includes evaporators 150 and 160 ). The evaporators 150 and 160 are connected to the two baffles 170 provided in the condenser 130, respectively.

The compressor 110, the condenser 130, and the evaporators 150 and 160 are well known in the refrigeration system, and a detailed description thereof will be omitted. In addition, an expansion valve 140 may be provided between the condenser 130 and the evaporators 150 and 160, and the expansion valve 140 also corresponds to an essential known configuration of the refrigeration system.

3, a condenser of a dual refrigeration system according to the present invention includes a first header 132, a core 133 including a tube and a pin, and a second header 134, ) Includes a single inlet (131) and the second header (134) includes a plurality of outlets (175, 176) connected to a plurality of evaporators (150, 160), respectively, and the second header The baffle 170 is configured to distribute the refrigerant to the plurality of outlets 175 and 176.

4, a distance l1 from one end of the second header 134 to the baffle 170 and a distance l2 between the other end of the second header 134 and the baffle 170 The ratio corresponds to the ratio of the amount of refrigerant distributed to the plurality of outlets 175, 176, respectively.

The inlet 131 of the condenser 130 of the dual refrigeration system according to the embodiment of the present invention is provided at one side of the condenser 130 and the outlet 175 and 176 are provided at the other side of the condenser 130 do.

The inlet 131 of the condenser of the dual refrigeration system according to another embodiment of the present invention is provided at one side of the condenser 130 and the outlet 175 and 176 are located at the other side of the condenser 130 Respectively.

The inlet 131 and the outlet 175 and 176 are provided on one side of the condenser 130 when the first and second headers 132 and 134 of the dual cooling system of the present invention are formed in two rows .

The condenser 130 is configured such that the refrigerant tube is folded or overlapped in a plurality of layers in a predetermined space, and a heat radiating plate (radiating fin) is provided around the refrigerant tube to cool the compressed high temperature and high pressure refrigerant. do.

5 according to a further embodiment of the condenser structure of the dual refrigeration system of the present invention, a baffle 170 is provided at the outlet side of the condenser 130, in which a plurality of partition walls 173 are provided . The baffle 170 is provided with a suction port 177 to which the refrigerant pipe passed through the condenser 130 is connected and a first discharge port 175 and a second discharge port 176 through which the refrigerant passing through the baffle 170 is discharged have. The baffle 170 may be integral with the condenser 130 or may be configured within the frame of the condenser 130.

6, at least one of the plurality of partition walls 173 provided in the baffle 170 is composed of a movable partition wall 171 and is selectively arranged in the direction of the first discharge port 175 or the second discharge port 176 As shown in FIG. For example, the movable partition 171 may be provided with a screw shaft (not shown) and a motor (not shown) for rotating the screw shaft, and the screw shaft may be screwed to the movable partition 171. Thus, when the motor rotates, the screw shaft rotates and the movable shaft can move in one direction or the other direction. In a further preferred embodiment of the present invention, a guide part (not shown) is further provided on the movable partition wall 171 to guide the movement direction of the movable partition wall 171 in one direction or the other direction, can do.

The refrigerant having passed through the condenser 130 flows into the suction port 177 of the baffle 170 and flows along the path formed by the plurality of partitions 173 to the first discharge port 175 and the second discharge port 176). At this time, if the movable partition wall 171 is moved toward the first outlet port 175, the flow rate of the refrigerant flowing to the first outlet port 175 can be reduced or cut off and the movable partition wall 171 can be connected to the second outlet port 176 The flow rate of the refrigerant flowing to the second outlet 176 can be reduced or blocked.

The refrigerant having passed through the baffle 170 is directly supplied to the first evaporator 150 through the refrigerant pipe connected to the first discharge port 175 or through the refrigerant pipe connected to the second discharge port 176 to the second evaporator 160 It is supplied directly. Therefore, the pressure loss that may occur in the refrigerant tube or the branch tube can be prevented or minimized. Meanwhile, since the plurality of partitions 173 provided in the baffle 170 attenuate the shock due to the sudden flow of the refrigerant, the load of the compressor 110 is reduced.

Although the present invention has been described in connection with certain exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the scope of the present invention should not be limited by the described embodiments, but should be defined by the appended claims and equivalents thereof.

110: compressor 130: condenser
131: inlet 132: first header
133: core 134: second header
140: expansion valve 150: first evaporator
160: second evaporator 170: baffle
171: mobile partition wall 173: partition wall
175: first outlet 176: second outlet
177:

Claims (6)

A refrigeration system comprising a compressor, a condenser and an evaporator,
The condenser includes a first header;
A core comprising a tube and a pin; And
A second header,
Wherein the first header includes a single inlet and the second header includes an outlet coupled to each of the plurality of evaporators such that the refrigerant is dispensed into each of the plurality of outlets within the first and second headers, A baffle is constructed,
Wherein the inlet is provided on one side of the condenser, and each of the outlets is provided on one side and the other side of the condenser, respectively.
The method according to claim 1,
The ratio of the distance (l1) from one end of the second header to the baffle and the distance (l2) from the other end of the second header to the baffle corresponds to the ratio of the amount of refrigerant distributed to the plurality of outlets The condenser structure of a dual refrigeration system.
delete delete The method according to claim 1,
Wherein the baffle includes a plurality of partitions and at least one of the plurality of partitions is configured to be movable in the direction of the first outlet or the second outlet.
The method of claim 5,
Wherein the movable partition includes a screw shaft coupled to the movable partition and moving the movable partition, a guide for guiding movement of the movable partition, and a motor for rotating the screw shaft. rescue.

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