KR100189138B1 - Fin type heat exchanger - Google Patents

Abstract

The present invention relates to a fin heat exchanger, and in particular, a plurality of pipe holes are drilled in the fins so that the pipes for guiding the flow of the refrigerant are assembled into the fin heat exchanger, in which a plurality of segments are symmetrically formed with respect to the center line; A first segment formed by being cut and having a width of length l ₁ on the center line of the fin so that a first slit through which air flows is formed in the center line of the pipe hole; It is formed on the outer side of the first section symmetrically to the center line with a length longer than the length of the first section so as to be close to the pipe hole, the uncut portion in the center is formed and divided into two to form a smooth air flow, A second segment forming two slits; It is formed on the outside of the second section symmetrically to the center line with a length longer than the length of the second section so as to be close to the pipe hole, a portion not cut at the center is formed and divided into two to facilitate the flow of air, A fin-type heat exchanger consisting of a third section forming three slits, wherein the sections formed in the fin are disposed adjacent to the pipe hole, and the sections are divided into two sections so as to reduce resistance in the flow of air. As it is formed farther away from the center line, the resistance caused by the flow of air is reduced, allowing the air to flow smoothly, eliminating the area where the air is stagnated around the pipe, and efficiently exchanging heat. It can be minimized.

Description

Fin Heat Exchanger

The present invention relates to a fin heat exchanger installed in parallel with a plurality of fins in a pipe through which a refrigerant flows to exchange heat with the refrigerant flowing through the pipe. Particularly, the refrigerant and air can be exchanged more efficiently by improving the fin section structure. The present invention relates to a fin heat exchanger capable of further doubling heat exchange efficiency.

In general, the fin type heat exchanger is installed in an air conditioner to allow heat exchange between the refrigerant flowing through the pipe and the outside air.

As shown in FIG. 1, the fin heat exchanger is provided with a plurality of thin plate fins 3 in parallel in a pipe 2 through which a refrigerant flows to form a main body 1.

A conventional fin of such a fin heat exchanger will be described with reference to FIGS. 2 and 3.

In the conventional fins, as shown in FIGS. 2 and 3, a plurality of pipe holes 4 into which a pipe 2 through which a refrigerant flows is inserted are provided, and the fins 3 are interposed between the pipe holes 4. By cutting a portion of the) to make a plurality of sections (6) at the same time to form a slit (6).

In addition, the fragments 6 are protruded up and down at the same height as shown in FIG. 3 and have the same width and are inclined in parallel to each other and arranged in parallel.

The conventional fin-type heat exchanger configured as described above surrounds the pipe (2) and allows external air to pass between the fin (3) and the fin (3) and between the segment (6) and the slit (5). do.

In addition, when external air passes between the fins 3 and 3 and between the segments 6 and the slits 5, the external air and the refrigerant flowing through the pipe 2 exchange heat. It will be.

However, such a conventional fin heat exchanger requires some degree of turbulence so that the airflow passing through the fin heat exchanger is improved in heat transfer efficiency. Sections are formed for this turbulence. These sections are protruded and arranged in parallel, and are formed long in the direction perpendicular to the direction of the airflow, so that a large resistance acts as the air passes through the narrow fins.

In addition, it is installed only with the same length without considering the outer circumferential shape of the pipe hole, so that the air does not sufficiently approach the pipe through which the refrigerant having high heat transfer efficiency flows, and the arrangement of these fragments causes the catchment area where the air is stagnated around the pipe. Will be generated.

That is, in the conventional fin-type heat exchanger, the sections formed in the fins are protruded up and down at the same height, and have the same width and are arranged in parallel with each other in parallel to each other, so that a dead water zone where air is stagnated around the pipe is generated, thereby efficiently cooling the refrigerant. There was a problem that heat exchange was not possible.

The present invention has been made in view of the above-described problems, and an object of the present invention is to improve the heat exchange efficiency by improving the sectioning structure of the fin so that air flows smoothly around the pipe so that the refrigerant and the air exchange heat more efficiently. It is to provide a fin heat exchanger that can be doubled.

In order to achieve the above object, a fin heat exchanger according to the present invention has a plurality of pipe holes drilled in a fin to assemble a pipe for guiding a flow of refrigerant, and the fin has a plurality of segments symmetrically formed with respect to a center line. In the group; A first segment formed by being cut and having a width of length l ₁ on the center line of the fin so that a first slit through which air flows is formed in the center line of the pipe hole; It is formed on the outer side of the first section symmetrically to the center line with a length longer than the length of the first section so as to be close to the pipe hole, the uncut portion in the center is formed and divided into two to form a smooth air flow, A second segment forming two slits; It is formed on the outside of the second section symmetrically to the center line with a length longer than the length of the second section so as to be close to the pipe hole, a portion not cut at the center is formed and divided into two to facilitate the flow of air, It is characterized by consisting of a third section forming a three slit.

According to the fin-type heat exchanger according to the present invention, the sections formed in the fins are arranged adjacent to the pipe hole, and the sections are divided into two parts so as to reduce the resistance in the flow of air, and this divided width is also wider from the center line. As a result, the resistance caused by the flow of air is reduced, so that the air flows smoothly, and the area around which the air is stagnated can be removed to efficiently exchange heat and at the same time minimize the noise caused by the flow of air.

1 is a perspective view showing the appearance of a general fin-type heat exchanger.

2 is a plan view showing an extract of a part of the pin applied to the conventional example.

3 is a cross-sectional view of the II-III section of FIG.

Figure 4 is a plan view showing an extract of a part of the fin of the fin heat exchanger applied to the present invention.

5 is a plan view showing an excerpt of a part of FIG.

6 is a cross-sectional view taken along line IV-IV of FIG.

7 is a cross-sectional view showing another embodiment corresponding to FIG.

* Explanation of symbols for main parts of the drawings

1: body 2: pipe

3: pin 4: pipe ball

50: slit 51: first slit

52: second slit 53: third slit

60: intercept 61: first intercept

62: Second Section 63: Third Section

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

FIG. 1 is a perspective view showing the appearance of a general fin heat exchanger, and FIG. 4 is a plan view showing a part of fins of a fin heat exchanger applied to the present invention, and FIG. 5 is a part of FIG. 6 is a cross-sectional view taken along line IV-IV of FIG.

1 and 4 to 6, (1) is the main body of the fin heat exchanger, (2) is a pipe for guiding the refrigerant to flow, (3) is guided to the pipe (2) A plurality of thin plate fins are arranged in parallel at regular intervals on the pipe 2 so as to facilitate heat exchange with the flowing refrigerant.

In addition, the fin (3) is provided with a plurality of pipe holes (4) so that the pipe (2) is inserted, between each of the pipe holes (4) is provided with a plurality of segments 60 to improve the heat transfer efficiency. do. This segment 60 is a long, thin plate-like slit 50 is formed by this, this segment 60 is made to cross the center of the slit 50. Moreover, it protrudes up and down of the pin 3 of this fragment 60. As shown in FIG.

Thus, the segments 60 provided between the neighboring pipe holes 4 are referred to as a line (a) (hereinafter referred to as a 'center line') connecting the center of the neighboring pipe holes 4 as shown in FIG. It is arranged symmetrically with respect to the reference. Then, the section 60 is formed longer as it is farther away from the center line a so as to be disposed adjacent to the circumference of the pipe hole 4. In addition, the elongated sections 60 divide the central portion so that large resistance does not act in the flow of air. The bisected width is also wider as the fragment 60 is farther from the center line a.

That is, the section 60; A first segment formed by cutting a width of the length l ₁ on the center line a of the fin 3 so that a first slit 51 through which air flows is formed in the center line a of the pipe hole 4. 61; It is formed symmetrically to the center line (a) with a length (l ₂ ) longer than the length (l ₁ ) of the first section (61) to approach the pipe hole (4) on the outside of the first section (61) A second segment (62) formed at a portion (t ₂ ) which is not cut at the center so that air flows smoothly, and is divided into two and forms a second slit (52); It is formed symmetrically to the center line (a) with a length (l3) longer than the length (l2) of the second section 62 on the outside of the second section 62 to approach the pipe hole (4), air An uncut portion t ₃ is formed and divided into two portions so as to smoothly flow, and the third slice 63 forms a third slit 53.

As illustrated in FIG. 6, the first slice 61, the second slice 62, and the third slice 63 are formed to be inclined at the same angle and at the same angle to form parallel to each other.

Next, the effect of the fin-type heat exchanger according to the present invention configured as described above will be described.

Fin-type heat exchanger according to the present invention, when the refrigerant flows into the pipe (2), between the fins (3) surrounding the outer appearance of the pipe (2) or the segment 60 formed in the fin (3) and the slit As the external air passes between the 50, the refrigerant flowing through the pipe 2 and the external air are exchanged. That is, the air introduced in the direction of the arrow shown in FIG. 5 flows along the inclined surface of the third segment 63 in contact with the third segment 63 to perform heat exchange. In addition, the air flowing along the third segment 63 while performing heat exchange flows to the neighboring fins 3 through the third slit 53 or the pipes installed near both ends of the third segment 63. 2) or the second piece 62. Among the air decelerated by the third piece 63, the air directed toward the second piece 62 meets the air exiting into the divided space of the third piece 63 and the speed is increased. Thus, it moves to the fin 3 adjacent to the second slit 52 or to heat exchange with the pipe 2 or the first slice 61 adjacent to both ends of the second slice 62. In addition, the air destined for the first fragment 61 of the air decelerated by the second fragment 62 meets the air exiting into the divided space of the second fragment 62, and the velocity is increased again to flow while exchanging heat. I will go. Air flowing along the first segment 61 travels to pipes 2 adjacent to both ends or to neighboring fins 3. Since the arrangement of the slits 50 is symmetric about the first slit 51, the air exiting the first segment 61 is in turn ordered by the second segment 62 and the third segment 63. Go to. At this time, the second segment 62 and the third segment 63 exit from the same process as described above. As such, the segments 60 may be formed around the pipe 4 to remove a region where the air is stagnant, and the second segments 62 and the third segments 63 may be divided into air. Will flow smoothly.

In this process, as shown in FIG. 7, the upper end and the lower end of the section 60 ′ may be bent in an opposite direction so as to further smooth the flow of air flowing through the heat exchange process. At this time, the air flow is induced to flow more smoothly than in the case of a straight line, thereby preventing the air from decelerating, and smoothly inducing the air to reduce noise.

As described above, according to the fin-type heat exchanger according to the present invention, the sections formed in the fins are disposed adjacent to the pipe hole, and the sections are divided into two parts so as to reduce the resistance in the flow of air, and the divided widths are also far from the center line. As it is formed wider, air flows smoothly by reducing the resistance due to the flow of air, and the heat exchange can be efficiently performed by eliminating the area where the air is stagnated around the pipe, while minimizing the noise caused by the flow of air. It has a very good effect.

Claims (1)

A plurality of pipe holes 4 are drilled in the fins 3 so that the pipes 2 for guiding the flow of the refrigerant are assembled, and the fins 3 have a plurality of segments symmetrically formed with respect to the center line a. In a heat exchanger; A first segment formed by cutting a width of the length l ₁ on the center line a of the fin 3 so that a first slit 51 through which air flows is formed in the center line a of the pipe hole 4. 61; It is formed symmetrically to the center line (a) with a length (l ₂ ) longer than the length (l ₁ ) of the first section (61) to approach the pipe hole (4) on the outside of the first section (61) A second segment (62) formed at a portion (t ₂ ) which is not cut at the center so that air flows smoothly, and is divided into two and forms a second slit (52); On the outside of the second section 62 is formed symmetrically to the center line (a) with a length (l ₃ ) longer than the length (l ₂ ) of the second section 62 to approach the pipe hole (4) , Fin-shaped heat exchanger, characterized in that the non-cut portion (t ₃ ) is formed in the center so that the flow of air smoothly divided into two, the third section (63) to form a third slit (53).