KR100424293B1 - A heat exchanger - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat exchanger, and more particularly, to a heat exchanger that enables efficient heat exchange and efficient drainage of condensate by effectively improving the structure of the refrigerant pipe and fins.

The heat exchanger according to the present invention has a plurality of refrigerant pipes formed with a slope for discharging condensed water and a flow path through which the refrigerant passes, and is installed at one side of the refrigerant pipe to supply the refrigerant to the refrigerant pipe or the refrigerant in the refrigerant pipe. A refrigerant supply / exhaust header for discharging the refrigerant, a refrigerant passage header installed on the other side of the refrigerant pipe to which the refrigerant supply / discharge header is not connected, and a refrigerant passage header for communicating all the refrigerant pipes; A plurality of fins having a guide portion for guiding the condensate flowing along the inclined surface of the refrigerant pipe in a downward direction while increasing the heat transfer area, and installed at the edge of the through-hole of the fin into which the refrigerant pipe is inserted to prevent the condensate Characterized in that it comprises a curved member.

Description

Heat exchanger {A heat exchanger}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat exchanger, and more particularly, to a heat exchanger that enables efficient heat exchange and efficient drainage of condensate by effectively improving the structure of the refrigerant pipe and fins.

In general, the heat exchanger is a device that transfers heat from a high-temperature fluid to a low-temperature fluid through a metal tube-type heat transfer wall of a heat transfer medium, and heat exchange such as a condenser and an evaporator for an automobile condenser and an air conditioner or a cooling device. This is used for necessary products.

1 is a perspective view showing a heat exchanger according to the prior art.

The heat exchanger according to the prior art has a refrigerant supply / discharge header (2) connected to the supply pipe (6) and the discharge pipe (8), and a refrigerant passage header (4) installed opposite to the refrigerant supply / discharge header (2). And a plurality of refrigerant pipes 10 installed between the refrigerant supply / discharge header 2 and the refrigerant passage header 4.

The coolant supply / discharge header 2 is formed in a hollow cylindrical shape, and a supply pipe 6 through which a coolant is introduced is installed at one upper side thereof, and a discharge pipe 8 through which the coolant is discharged is installed at one lower side thereof.

In addition, the refrigerant supply / discharge header (2) is divided into the upper portion where the supply pipe (6) is connected to the lower portion connected to the discharge pipe (8) is supplied to the refrigerant supply / discharge header (2) All of the refrigerant is discharged after being circulated along the refrigerant pipe (10).

The refrigerant pipe 10 has a cross-sectional shape formed in a long ellipse shape in the left and right direction to form a horizontal and is installed between the refrigerant supply / discharge header 2 and the refrigerant passage header 4, a plurality of parallel to the vertical direction Is installed.

In addition, a plurality of fins 12 are provided between each of the refrigerant pipes 10 to increase the heat transfer area of the refrigerant pipe 10 to improve heat exchange efficiency. It is formed into a continuously generated waveform is bonded between the upper surface and the bottom surface of each refrigerant pipe (10).

The refrigerant passing header (4) is formed in the same column shape as the refrigerant supply / discharge header (2), the upper and lower portions of the refrigerant pipe in the upper portion of the refrigerant supply / discharge header (2) Refrigerant moved to the refrigerant passage header 4 along (10) is moved to the lower side of the refrigerant passage header (4), the heat exchange while passing through the refrigerant pipe (10) installed on the lower side through the cold discharge supply / discharge header ( Pass through 2) and let it out.

Looking at the operation of the heat exchanger according to the prior art configured as described above are as follows.

First, when power is applied, refrigerant is introduced into the upper side of the refrigerant supply / discharge header 2 by a compressor or a motor, and the introduced refrigerant is a refrigerant pipe 10 installed above the refrigerant supply / discharge header 2. Through the refrigerant passing through the header (4) through the heat exchange, and moved to the lower side of the refrigerant passing through the header (4) through the refrigerant pipe 10 installed in the lower side to perform heat exchange to the refrigerant supply / discharge header It is discharged to the outside through (2).

However, the heat exchanger according to the prior art has a cross-sectional shape of the refrigerant pipe 10 is formed in the horizontal direction to form a long ellipse in the left and right direction, and a waveform in which acid and valleys are continuous between the bottom surface and the top surface of each refrigerant pipe 10. When the heat exchanger is used as an evaporator for absorbing heat, condensed water is generated on the surface of the heat exchanger. Thus, the heat exchanger according to the related art has an upper surface of the refrigerant pipe 10 and the The condensed water accumulates in the valleys of the fins, which not only lowers the heat exchange efficiency of the heat exchanger, but also may cause damage such as corrosion.

The present invention has been made to solve the problems of the prior art, by improving the installation structure of the refrigerant pipe and the structure of the fin, it is possible to facilitate the discharge of condensate water to improve the heat exchange efficiency and at the same time condensate in the heat exchanger It is an object of the present invention to provide a heat exchanger that can prevent damage such as corrosion, which may be accumulated and generated.

1 is a perspective view showing a heat exchanger according to the prior art,

2 is a perspective view showing a heat exchanger according to the present invention;

3 is a perspective view showing a refrigerant pipe of the heat exchanger according to the present invention;

4 is a plan view showing a heat exchanger according to the present invention,

5 is a side view showing the fin of the heat exchanger according to the present invention;

6 is a perspective view showing a curved member of the heat exchanger according to the present invention.

<Explanation of symbols on main parts of the drawings>

52: refrigerant supply / discharge header 54: refrigerant passage header

56: supply piping 58: discharge piping

60: refrigerant pipe 70: fin

72: through hole 80: curved member

82: curved portion

The heat exchanger according to the present invention for solving the above problems is a plurality of refrigerant pipes formed with a slope for forming a heat exchange as the refrigerant passes through and the inclined surface for discharging condensate, and is installed on one side of the refrigerant pipe to provide the refrigerant to the refrigerant pipe A refrigerant supply / discharge header for supplying or discharging the refrigerant in the refrigerant pipe, a refrigerant passage header installed on the other side of the refrigerant pipe to which the refrigerant supply / discharge header is not connected, and a refrigerant passing header for communicating all of the refrigerant pipes; It is installed in the pipe to increase the heat transfer area of the refrigerant pipe and at the same time a plurality of fins with a guide portion for guiding the condensate flowing along the inclined surface of the refrigerant pipe in the downward direction, and installed in the edge of the through hole of the fin is inserted into the refrigerant pipe It is characterized in that it comprises a curved member to prevent the condensate is accumulated.

Hereinafter, an embodiment of a heat exchanger according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a perspective view showing a heat exchanger according to the present invention.

The heat exchanger according to the present invention includes a refrigerant supply / discharge header 52 for supplying and discharging a refrigerant, a refrigerant passing header 54 installed on the refrigerant supply / discharge header 52 to circulate the refrigerant, and A plurality of refrigerant pipes (60) installed between the refrigerant supply / discharge header (52) and the refrigerant passage header (54) to perform heat exchange while the refrigerant is circulated, and a plurality of refrigerant pipes (60) are installed on one side of the refrigerant pipe (60). In this way, the heat transfer area of the refrigerant pipe 60 is increased to include a plurality of fins 70 for improving heat exchange efficiency.

The refrigerant supply / exhaust header 52 is formed in a hollow circular column shape, the inside of which is divided into an upper portion and a lower portion, and a supply pipe 56 for supplying refrigerant with the upper portion is connected, and the lower portion of the refrigerant passage header 54. A discharge pipe 58 for discharging the refrigerant circulated through the outside to the outside is connected.

The refrigerant passage header 54 is formed in the shape of a hollow circular column like the refrigerant supply / discharge header 52, and the inside of the refrigerant passage header 54 is connected to an upper portion of the refrigerant supply / discharge header 52. The refrigerant pipe 10 and the refrigerant pipe 10 connected to the lower portion to communicate with each other.

3 is a perspective view showing a refrigerant pipe of the heat exchanger according to the present invention.

The coolant pipe 10 is formed in an elliptic shape having a long cross-sectional shape in a left-right direction and is installed between the cold discharge supply / discharge header 52 and the coolant passage header 54. θ) is installed to be inclined so that condensed water is easily flowed downward by the inclination formed in the coolant pipe 10.

4 is a plan view showing a heat exchanger according to the present invention, Figure 5 is a side view showing the fin of the heat exchanger according to the present invention.

The fins 70 are formed in a long panel shape in the vertical direction, and a plurality of through holes 72 are formed so that the coolant pipes 60 are orthogonal to each other. It is installed to be inserted into 72 so that the heat transfer area of the refrigerant pipe 60 is increased to improve the heat exchange efficiency.

In addition, the fin 70 has a portion in contact with the lower end of the inclination formed in the coolant pipe 60 is formed in a predetermined amount longer than the length of the front and rear direction of the coolant pipe 60 to form a guide portion 74, the The condensed water flowing along the inclined surface of the coolant pipe 60 allows the guide portion 74 to easily flow downward.

6 is a perspective view showing a curved member of the heat exchanger according to the present invention.

In addition, the curved member 80 is installed at the edge of the through hole 72 of the pin 70 so as to prevent condensation from accumulating at a portion where the fin 70 and the refrigerant pipe 60 are in contact with each other. 80 is formed in a ring shape of the elliptical shape of the planar shape so that it can be installed at the edge of the through hole 72 of the pin 70, the curved portion 82 is formed on its side so that the diameter gradually widens It is formed into a funnel shape.

The curved member 80 is fitted with the refrigerant pipe 60 in a hole formed at the center thereof, and the end of the smaller diameter portion is joined to the edge of the through hole 72 of the fin 70 so that the fin 70 is formed. The condensed water flowing downward along the inclined surface of the guide portion 74 and the coolant pipe 60 is prevented from accumulating at the junction between the coolant pipe 60 and the fin 70.

Looking at the operation of the heat exchanger according to the present invention configured as described above are as follows.

First, when power is applied, a refrigerant flows into the refrigerant supply / discharge header 52 by a compressor or a pump, and the introduced refrigerant flows along the refrigerant pipe 60 installed on the refrigerant supply / discharge header 52. Heat exchange is carried out while being moved to the passing header 54, and after being moved to the lower side of the refrigerant passing header 54, the heat is exchanged again while passing through the refrigerant pipe 60 connected to the lower part of the refrigerant supply / discharge header 52. Passed through the lower portion of the refrigerant supply / discharge header 52 is discharged to the outside.

At this time, the coolant pipe 60 is installed to be inclined at an angle θ, so that the condensed water generated in the coolant pipe 60 flows along the inclined surface, and the condensed water flowing along the inclined surface is guide portion 72 formed in the fin 70. Is discharged by moving downward along).

In addition, the curved member 80 prevents the condensed water flowing along the inclined surface of the guide portion 72 and the coolant pipe 60 from accumulating at the junction between the coolant pipe 60 and the fin 70, thereby more effectively condensing water. Can achieve the discharge of.

The heat exchanger according to the present invention configured as described above is provided such that a long elliptical refrigerant tube in a left and right direction is inclined at a predetermined angle, and a plurality of fins are formed with a guide part for guiding condensate, and a junction portion between the fin and the refrigerant tube. Since the curved member is installed in the condensate to prevent the condensate from accumulating, the condensate can be easily discharged to improve the heat exchange efficiency of the heat exchanger, and condensate can be prevented from accumulating for a long time.

Claims (5)

A plurality of refrigerant tubes forming a flow path for exchanging heat while the refrigerant is passed, and a sloped surface for discharging condensate; A refrigerant supply / discharge header installed at one side of the refrigerant pipe to supply the refrigerant to the refrigerant pipe or to discharge the refrigerant of the refrigerant pipe; A refrigerant passing header installed at the other side of the refrigerant pipe, to which the refrigerant supply / discharge header is not connected, for communicating all of the refrigerant pipes; A plurality of fins installed in the coolant pipe to increase a heat transfer area of the coolant pipe and to guide condensed water flowing along the inclined surface of the coolant pipe downward; And a curved member installed at an edge of the through hole of the fin into which the refrigerant pipe is inserted, to prevent condensation from accumulating. The method of claim 1, The refrigerant pipe is heat exchanger, characterized in that the cross-sectional shape is formed in the shape of an ellipse long in the left and right direction to form a slope of a predetermined angle. The method of claim 1, The guide portion is a heat exchanger, characterized in that the portion of the fin which is in contact with the lower end of the inclined surface of the refrigerant pipe is extended by a predetermined amount. The method of claim 1, The curved member is a heat exchanger, characterized in that the planar shape is formed in the shape of a ring of the ellipse of the same as the refrigerant pipe, the side surface is formed so that the diameter of the curved member gradually widens away from the fin. delete