KR101255893B1 - Sub-cool condenser having pllural condenser - Google Patents

Abstract

The subcooled condenser having a plurality of condensers according to the present invention comprises a first condenser composed of a plurality of tubes disposed in communication between the pair of header pipes and the header pipe, and is arranged in communication between the pair of header pipe and the header pipe A second condenser composed of a plurality of tubes communicating with the inlet at the outlet of the first condenser; a receiver dryer communicating with the inlet at the outlet of the second condenser; And a subcool zone for condensing one refrigerant.
The subcooling condenser provided with the plurality of condensers according to the present invention has an effect of increasing the condensation efficiency by allowing the refrigerant passing through the plurality of condensers and the receiver dryers to pass through the subcooling zone. It has the effect of miniaturization by reducing the overall volume by forming.

Description

SUB-COOL CONDENSER HAVING PLLURAL CONDENSER}

The present invention relates to a subcooled condenser having a plurality of condensers. Specifically, the present invention relates to a subcooling condenser having a plurality of condensers with increased condensation efficiency and a minimum installation space.

In general, the bus is equipped with an air conditioner for cooling the inside of the bus. Such an air conditioner is generally composed of a plurality of condensers to cool a large space inside the bus. Therefore, the size of the air conditioner will inevitably increase, and the bus equipped with such an air conditioner has excellent cooling performance but poor fuel economy when driving.

A subcooling condenser having a plurality of condensers according to the present invention aims to solve the following problems.

First, we want to increase the condensation efficiency while minimizing the installation space.

Second, the air exchanged with the condenser is to be reflowed into the condenser so as not to reduce the condensation efficiency.

Third, it is intended to increase the condensation efficiency by recondensing the refrigerant passing through the receiver dryer.

The solution to the problem of the present invention is not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

The subcooled condenser having a plurality of condensers according to the present invention comprises a first condenser composed of a plurality of tubes disposed in communication between the pair of header pipes and the header pipe, and is arranged in communication between the pair of header pipe and the header pipe A second condenser composed of a plurality of tubes communicating with the inlet at the outlet of the first condenser; a receiver dryer communicating with the inlet at the outlet of the second condenser; It is preferred to include a subcool zone for condensing one refrigerant.

At least one baffle is preferably formed in the header pipe of the subcooler having a plurality of condensers according to the present invention to form a plurality of flow paths.

The first condenser and the second condenser of the subcooled condenser having a plurality of condensers according to the present invention are disposed inside the frame, and one side of the frame has a fan shroud assembly disposed to correspond to the first condenser and the second condenser. It is preferable.

On one side of the frame of the sub-cooling condenser provided with a plurality of condensers according to the present invention it is preferable that a plurality of fixed panels for blocking the inflow of air is arranged, the fan shroud assembly is disposed between the plurality of fixed panels. .

It is preferable that a receiver drier is installed on an outer surface of the fixed panel disposed between the fan shroud assemblies among the plurality of fixed panels of the subcooled condenser provided with the plurality of condensers according to the present invention.

It is preferable that a condenser fixing panel for fixing the first condenser and the second condenser is coupled between the first condenser and the second condenser on the inner surface of the frame of the subcooled condenser having the plurality of condensers according to the present invention.

A first connecting pipe is disposed between the outlet of the first condenser and the inlet of the second condenser of the subcooler having a plurality of condensers according to the present invention, and a second connection between the outlet of the second condenser and the inlet of the receiver dryer. A tube is disposed, and a third connecting tube is disposed between the outlet of the receiver dryer and the subcool zone, and the refrigerant passing through the first condenser is sequentially passed through the second condenser, the receiver dryer, and the subcool zone.

The subcooling condenser provided with the plurality of condensers according to the present invention has an effect of increasing the condensation efficiency by allowing the refrigerant passing through the plurality of condensers and the receiver dryers to pass through the subcooling zone. It has the effect of miniaturization by reducing the overall volume by forming. In addition, there is an effect of increasing the condensation efficiency of the condenser by arranging the fan shroud assembly so that the air exchanged with the condenser is not re-introduced into the condenser.

The effects of the present invention are not limited to those mentioned above, and other effects that are not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a perspective view of a subcooled condenser having a plurality of condensers according to an embodiment of the present invention.
2 is an exploded perspective view of a subcooled condenser having a plurality of condensers according to an embodiment of the present invention.
3 is a conceptual diagram illustrating a condenser and a subcool condenser shown in FIG. 2.
4 is a conceptual diagram illustrating a flow path of a refrigerant passing through the condenser, the receiver dryer, and the subcool zone shown in FIG. 2.

Hereinafter, a subcooled condenser having a plurality of condensers according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a sub-cooling condenser having a plurality of condensers according to an embodiment of the present invention, Figure 2 is an exploded perspective view of a sub-cooling condenser having a plurality of condensers according to an embodiment of the present invention, 3 is a conceptual diagram illustrating the condenser and the subcool condenser illustrated in FIG. 2, and FIG. 4 is a conceptual diagram illustrating a flow path of the refrigerant passing through the condenser, the receiver dryer, and the subcool zone illustrated in FIG. 2.

As shown in FIG. 1 and FIG. 2, the subcool condenser having a plurality of condensers according to the present invention includes a first condenser 100, a second condenser 100 ′, a receiver dryer 300, and a subcool zone 400. It is composed of

As shown in FIG. 3, the first condenser 100 and the second condenser 100 ′ are composed of a plurality of tubes 120 disposed in communication between the pair of header pipes 110 and the header pipes 110. .

The outlet of the second condenser 100 ′ of the first condenser 100 and the second condenser 100 ′ is installed in communication with the inlet of the receiver dryer 300, and the receiver dryer 300 is a subcool zone 400. ).
At this time, the sub-cool zone 400 blocks the flow of the fluid by using a partition member (a baffle in FIG. 4) in the lower portion of the header pipe 110 forming the second condenser 100 ′ as shown in FIG. 4. And, it is configured by connecting the header pipe 110 of the lower portion of the baffle 130 with the tube 120.

Therefore, the moisture gas contained in the liquid refrigerant passing through the first condenser 100 and the second condenser 100 ′ is removed while passing through the receiver dryer 300 and flows into the sub cool zone 400. In the zone 400, the refrigerant is recondensed to increase the condensation efficiency.

Referring to FIG. 2, a first connecting pipe 710 is disposed between an outlet of the first condenser 100 and an inlet of the second condenser 100 ′, and an outlet of the second condenser 100 ′ and an inlet of the receiver dryer. The second connection tube 720 is disposed between the third connection tube 730 is disposed between the outlet of the receiver dryer and the sub-cool zone 400, the refrigerant passing through the first condenser 100 ' Preferably, the second condenser 100 ′, the receiver dryer 300, and the subcool zone 400 are sequentially passed.

Therefore, the refrigerant passing through the first condenser 100 sequentially passes through the second condenser 100 ′, the receiver dryer 300, and the sub cool zone 400 according to the arrow shown in FIG. 4. Pass through.

In the condenser 100, 100 'header pipe 110 of the subcooled condenser having a plurality of condensers according to the present invention, it is preferable that a baffle is formed to form a flow path of the refrigerant as shown in FIG. .

The baffle 130 is disposed inside the header pipe 110 as shown in FIG. 3 to block the movement of the refrigerant introduced through the header pipe 100 to connect the tube 120 installed in the header pipe 110. It allows the transfer of the refrigerant through.

The baffle 130 may be formed in various ways according to the flow path of the refrigerant formed in the first condenser 100 and the second condenser 100 ′.

The sub cool zone 400 of the sub cool condenser having a plurality of condensers according to the present invention may be formed separately from the second condenser 100 ′ communicating with the receiver dryer 300, as shown in FIG. 3. The second condenser 100 ′ and the subcool zone 400 may be integrally formed.

As shown in FIG. 3, the first condenser 100 and the second condenser 100 ′ of the subcooled condenser having a plurality of condensers according to the present invention are preferably arranged inside the frame 500. The fan shroud assembly 600 may be disposed on one side of the 500 to correspond to the first condenser 100 and the second condenser 100 ′, respectively.

The frame 500 accommodates the first condenser 100 and the second condenser 100 ', and when installed in a bus, the first condenser 100 and the second condenser 100' may be stably fixed. As shown in FIG. 2, the first frame member is formed in a pair of horizontal directions, and the second frame member is disposed at both ends of the first frame member.

A fan shroud assembly 600 including a fan, a motor for driving the fan, and a housing in which air inlets are formed is disposed on one surface of the frame 500. In this case, the first condenser 100 and the second condenser 100 ′ may be directly transferred to the first condenser 100 and the second condenser 100 ′ when the fan shroud assembly 600 is driven. ) Is preferably arranged to correspond to each other.

On one side of the frame 500 of the sub-cooling condenser having a plurality of condensers according to the present invention, a plurality of fixed panels (510, 520) for blocking the inflow of air is spaced apart, the fan shroud assembly 600 It is disposed in the space 535 spaced apart from the fixed panels 510 and 520 to transfer air to the first condenser 100 and the second condenser 100 ′ inside the frame 500 through the fan shroud assembly 600. It is preferable to make it.

When the fan of the fan shroud assembly 600 is rotated, the air generated when the fan is rotated is transferred to the first condenser 100 and the second condenser 100 'so that the temperature is increased. In this case, when the fixing panels 510 and 520 are not disposed on the side surfaces of the fan shroud assembly 600, the air whose temperature rises due to heat exchange with the first condenser 100 and the second condenser 100 ′ is again returned to the first condenser. It may flow into the condenser 100 and the second condenser 100 ′.

Accordingly, a plurality of fixing panels 510 and 520 for blocking the inflow of air are spaced apart from one side of the frame 500, and the fan shroud assembly 600 is disposed in the spaced spaces of the fixing panels 510 and 520. It is desirable to.

A receiver dryer is provided on the outer surface of the fixed panel 520 disposed between the fan shroud assembly 600 among the plurality of fixed panels 510 and 520 of the sub-cooled condenser having a plurality of condensers according to the present invention as shown in FIG. 2. It is preferable that 300 is installed.

Since the refrigerant passing through the receiver dryer 300 generates heat while passing through the receiver dryer 300, the receiver dryer 300 is spaced apart from each other so that the heat generated is not transferred to the first condenser 100 and the second condenser 100 ′. It is preferable to arrange.

Therefore, it is preferable to be disposed in the fixed panels 510 and 520 disposed on one side of the frame 500, and in particular, the fan shroud assembly (installed in the fixed panel 520 disposed between the fan shroud assemblies 600). More preferably, the fan of 600 may be cooled by the flow of air generated when the fan rotates.

On the inner surface of the frame 500 of the subcooled condenser with a plurality of condensers according to the present invention, a condenser is damaged between vibrations generated when the bus travels between the first condenser 100 and the second condenser 100 '. As shown in FIG. 2, the condenser fixing panel 530 which firmly fixes the first condenser 100 and the second condenser 100 ′ is preferably combined.

The embodiments and the accompanying drawings described in the present specification are merely illustrative of some of the technical ideas included in the present invention. Therefore, since the embodiments disclosed herein are not intended to limit the technical spirit of the present invention but to explain, the scope of the technical spirit of the present invention is not limited by these embodiments, and the description and the drawings of the present invention. Modifications and specific embodiments that can be easily inferred by those skilled in the art within the scope of the included technical idea will be construed as being included in the scope of the present invention.

100: first condenser 100 ': second condenser
110: header pipe 120: tube
130: baffle 300: receiver dryer
400: Subcool Zone 500: Frame
510, 520: fixed panel 530: condenser fixed panel
600: fan shroud assembly 710: first connecting pipe
720: second connection pipe 730: third connection pipe

Claims (7)

A first condenser (100) consisting of a pair of header pipes (110) and a plurality of tubes (120) disposed in communication between the header pipes (110);
A second condenser (100 ′) formed of a plurality of tubes (120) communicating between a pair of header pipes (110) and the header pipes (110) in communication with an inlet at an outlet of the first condenser;
A receiver dryer 300 in which an inlet is communicated with an outlet of the second condenser 100 ';
The inlet is in communication with the outlet of the receiver dryer 300 is composed of a sub-cool zone 400 for condensing the refrigerant passing through the receiver dryer 300,
The first condenser 100 and the second condenser 100 ′ are disposed inside the frame 500, and a fan shroud assembly 600 is disposed on one side of the frame 500 to the first condenser 100. Respectively disposed to correspond to the second condenser 100 ',
One side of the frame 500 is spaced apart from a plurality of fixing panels (510, 520) to block the inflow of air, the fan shroud assembly 600 between the plurality of fixing panels (510, 520) Deployed,
The receiver dryer 300 is installed on an outer surface of the fixing panel 520 disposed between the fan shroud assembly 600 among the plurality of fixing panels 510 and 520.
The sub-cool zone 400 is formed by installing a partition member under the header pipe 110 of the second condenser 100 ', and the partition member of the header pipe 110 of the second condenser 100'. The sub-cooling condenser having a plurality of condensers, characterized in that the lower portion consists of a tube 120 interconnecting the header pipe 110 of the second condenser (100 ').
The method of claim 1,
At least one baffle (130) is arranged in the header pipe (110) to form a plurality of condensers, characterized in that the sub-cooler with a plurality of condensers.
delete delete delete The method of claim 1,
On the inner side of the frame 500, a condenser fixing panel 530 for fixing the first condenser 100 and the second condenser 100 'between the first condenser 100 and the second condenser 100'. ) Is a subcool condenser having a plurality of condensers characterized in that combined.
The method of claim 1,
A first connecting pipe 710 is disposed between the outlet of the first condenser 100 and the inlet of the second condenser 100 ', and between the outlet of the second condenser 100' and the inlet of the receiver dryer. A second connecting tube 720 is disposed, and a third connecting tube 730 is disposed between the outlet of the receiver dryer and the subcool zone 400.
The refrigerant passing through the first condenser 100 'passes through the second condenser 100', the receiver dryer 300, and the subcool zone 400 in sequence. Condenser.

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