KR200411669Y1 - Heat exchanger - Google Patents

Abstract

The present invention does not constitute an upper tank and a lower tank in which a heat medium is contained, so that heat is generated by a tube and a heat radiating fin. The heat exchanger is formed to maximize the heat transfer device to ensure that the heat transfer is uniformly performed so that heat transfer is uniformly performed. A plate having a vertical connecting member is provided at one side, and a plate having a horizontal U turn part at the other side A tube stacked in multiple stages so as to move the heat medium; An inlet tube and an outlet tube formed at one side of the lower end and one upper end of the tube stacked in multiple stages; A plurality of heat dissipation fins are formed on the outer circumferential surface of the tube, and the cross-sectional area of the tube is formed to be the same as the cross-sectional area of the connection pipe, and the heat medium flowing smoothly is transferred to the heat dissipation fin by the moving heat medium, so that heat dissipation is smooth. The thin, long, thin tube is formed in a thin tube, a plurality of heat dissipation fins are installed in the tube so that heat transfer is rapid, heat exchange is maximized, and the width of the heating fins installed in the tube is the same based on the outer circumference of the tube. Because it is formed, the heat transfer is fast, evenly made has the effect of maximizing the heating effect.

Tube, heat dissipation fin, heat dissipation, conduit, single tube, U-turn, upper and lower connecting members,

Description

Heat exchanger. {Heat exchanger}

1 is a perspective view showing a conventional heat exchanger.

Figure 2 is a cross-sectional view showing a conventional tube and the heat radiation fins.

Figure 3 is a front perspective view showing a heat exchanger according to the present invention.

Figure 4 is a rear perspective view showing a heat exchanger according to the present invention.

Figure 5 is a cross-sectional view showing the configuration by cutting the heat exchanger according to the present invention in a plane.

Figure 6 is a cross-sectional view showing the configuration by cutting the heat exchanger according to the present invention from the front.

7 is a perspective view showing a state in which the heat medium of the present invention is circulated in the tube.

Figure 8 is a cross-sectional view showing the configuration of the heat radiation fins installed in the tube according to the present invention.

* Description of the symbols for the main parts of the drawings *

1: heat exchanger 100: plate

200: tube 210: pipeline

220: U turn portion 300: heat radiation fin

400: vertical connecting member 500: inlet pipe

510: discharge tube

The present invention relates to a heat exchanger, and more specifically, to generate heat by the tube and the heat dissipation fin without forming the upper tank and the lower tank in which the heat medium is contained, and formed in the same area as the inlet, The heat generating area for generating heat is formed to maximize the amount of heat generated by forming a wide, and to heat exchange is uniformly related to the heat exchange device to achieve a heat exchange discharge.

In general, the heat exchanger can be used for two purposes, the first of which is used for the purpose of either cold air or hot air for hot air or cooling. And cold air conditioners (air conditioners, etc.).

The second one is used to lower the temperature of a predetermined part, and a typical one thereof is an automobile, and in the case of an automobile, it is used to lower the temperature of an engine.

Apart from the general heat exchanger having the above configuration, a heat exchanger having the same configuration as Utility Model Registration No. 397314 (hereinafter referred to as "priority draft") has been produced.

As shown in FIG. 1, the conventional design has a heat exchange tube 11 and a heat exchange tube 11 in which a heat exchange medium is circulated in order to cool and heat air introduced into an air conditioner. A heat exchanger (10) having an end plate (12) therein; It has a precooling pipe 21 into which the condensed water generated from the heat exchanger 10 flows into the inside, and an end plate 22 on which the precooling pipe 21 is fixed, to precool the air sucked into the air conditioner. It consists of the precooler 20 detachably installed in the front surface of the heat exchange part 10. As shown in FIG.

However, in the conventional design, the heat exchanger tube 11 that emits heat is formed in a cylindrical shape, and a fan (not shown) is installed on one side of the heat exchanger tube 11 so as to release heat by wind, but the heat exchange medium is moved. Since the heat is released by using only the heat exchange tube 11 itself when dissipating the heat, there is a problem that heat dissipation is not properly performed, and there is a problem that the efficiency is lowered because heat dissipation is not properly performed.

In addition, since the shape of the inflow pipes 13 and 23 into which the heat exchange medium is introduced and the shape of the heat exchange pipe 11 or the precooling pipe 21 are formed in the same shape, heat dissipation of the heat exchange medium having the inflow is made properly. The heat dissipation medium, which is dissipated in the heat exchange tube 11 or the pre-cooling tube 21, is not easily dissipated because the area dissipating heat is extremely limited compared to the incoming cross-sectional area.

That is, the heat exchange medium flowing through the inflow pipes 13 and 23 is formed in the same area as the inflow pipes 13 and 23 to transfer heat around the heat exchange pipe 11 or the precooling pipe 21. Since there is no difference in the area emitting the light and there is no difference in this area, there is a problem that heat dissipation is lowered.

In addition, since the heat exchanger illustrated in FIG. 1 has a complicated heat exchanger tube, a pipe for moving the heat exchange medium must be very complicated, and thus, a work process is very complicated.

Since the heat exchanger shown in FIG. 1 is used as a central heating device, many restrictions are imposed on the use of a small unit heat exchanger.

Figure 2 shows the configuration of the tube and the heat dissipation fin of a conventional heat exchanger, the width (a, b, c,) of the heat dissipation fin 40, which is installed around the tube 30 as shown in the drawing is different from each other Since it is formed, there is a problem that heat transfer evenly occurs to a part, b part or c part.

Since heat transfer is uneven, there is a problem in that the efficiency of heat dissipation is lowered as heat dissipation occurs differently due to a, b, and c portions.

In order to solve the above problems, the present invention has an object to provide a heat exchanger so that the heat dissipation is fast, evenly generated by the tube and the heat dissipation fin, without installing the upper tank and the lower tank containing the heat medium.

In addition, the heat medium flowing through the inlet pipe is circulated in the shape of a horseshoe so that the heat contained in the heating material can be smoothly transferred to the heat radiating fins by the tube, and at the same time, the heat generation can be maximized by the heat radiating fins installed in the zigzag tube. It is an object to provide a heat exchanger.

In addition, it is an object of the present invention to provide a heat exchange device that maximizes the heat generation by forming the same area of the inlet pipe and the area of the tube while at the same time widening the heat generating area.

In addition, it is an object of the present invention to provide a heat exchanger that is formed in the same length of the heating fin is installed in the tube so that the heat transfer is made to maximize the heating effect.

The present invention for achieving the above object is made of a plurality of heat dissipation fins and tubes in the heat exchanger device for dissipating heat by exchanging the heat medium, the plate having a vertical connection member on one side is provided, the other side has a horizontal U turn A tube having a plate stacked in multiple stages to move the heating medium; An inlet tube and an outlet tube formed at one side of the lower end and one upper end of the tube stacked in multiple stages; It provides a heat exchange apparatus characterized in that a plurality of heat radiation fins are formed on the outer peripheral surface of the tube, respectively.

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

Figure 3 is a front perspective view showing a heat exchanger according to the present invention, Figure 4 is a rear perspective view showing a heat exchanger according to the present invention, Figure 5 is a cross-sectional view showing the configuration by cutting the heat exchanger according to the present invention in a plane, Figure 6 is a cross-sectional view showing the configuration by cutting the heat exchanger according to the present invention from the front, Figure 7 is a perspective view showing a state in which the heat medium of the present invention circulated in the tube, Figure 8 is a heat radiation fin installed in the tube according to the present invention It is sectional drawing which shows the structure of.

3 to 8, the heat exchange apparatus 1 according to the present invention is provided with a plate 100 having a vertical connection member 400 on one side, the plate having a horizontal U turn portion 220 on the other side ( 100 is provided, the tube 200 is stacked in multiple stages so as to move the heat medium, the tube 200 is formed in a flat rectangular shape to form a wide heat exchange cross-sectional area.

And one side of the tube 200 is made of a single pipe (210) and the other side is divided into two passages are formed into a single tube 200 made of one tube so that the heat medium is exchanged horizontally U-turn, the heat medium The overall shape of the pipeline 210 to be moved is formed in a horseshoe shape.

The cross-sectional area of the tube 200 is formed to be the same as the cross-sectional area of the inlet pipe into which the heat medium is introduced so that the heat medium to be introduced can be smoothly moved.

In addition, the vertical connection member 400 is installed so that the heat medium flowing into the tube 200 can be moved to another neighboring tube 200.

The tube 200 has a predetermined interval and a plurality of heat radiation fins 300 are installed, the heat radiation fins 300 form the same width of d, e, f based on the outer periphery of the tube 200.

In addition, an inlet pipe 500 through which the heat medium is introduced is formed at one lower side of the plate 100, and a discharge tube 510 is discharged at the upper one side thereof to discharge the heat medium.

The operation of the heat exchanger according to the present invention configured as described above will be described.

When the heat medium flows into the conduit 210 of the tube 200 through the inflow pipe 500, the heat medium introduced into the conduit 210 moves horizontally along the tube 200 formed in the shape of a horseshoe, while turning U 220. U-turn through the heating medium is moved.

The heat medium that is horizontally moved is moved to the adjacent tube 200 again, in this case is moved upward by the vertical connecting member 400 installed on one side of the plate 100.

Since the vertical connecting member 400 is installed at one side of the tube 200 and is formed to be connected to another neighboring tube 200, the heat medium introduced into the tube 200 is an inner surface of the vertical connecting member 400. It is moved along the tube 200 is formed stacked in the upward direction.

In addition, the tube 200 is formed to communicate with the upper and lower connecting members 400 installed on one side of the tube 200 and the plate 100 on one side.

The other side is formed so as to be in communication by the upper tube 200 and the upper and lower connecting members 400 installed on the upper side is installed in the upper direction again while moving along the conduit 210 introduced from the tube 200 installed in the downward direction It is moved to the tube 200, and finally discharged through the discharge tube 510.

The heat contained in the heat medium moving horizontally along the conduit 210 of the tube 200 is transferred to the heat dissipation fin 300 via the tube 200.

When heat is transferred to the heat dissipation fin 300, the heat dissipation fin 300 is fast and evenly dissipated because the widths of d, e, and f are the same on the outer circumference of the tube 200.

As heat dissipation occurs evenly, the heat transferred through the tube 200 is transferred to the heat dissipation fin 300 so that heat exchange occurs quickly.

In addition, since the cross-sectional area of the inlet pipe 500 and the cross-sectional area of the tube 200 are the same, and are formed in a flat rectangular shape, the heat exchange cross-sectional area is widened, thereby maximizing heat generation according to the amount of heat introduced.

This is because the width of the width of the tube 200 is formed wide, the new width is formed on the basis of the drawing is to maximize the heat generation efficiency.

As described above, the heat spread to the heat dissipation fin 300, because the width of the horizontal, the new width is formed narrow, the heat dissipation fin 300 having the same width on the basis of the outer periphery of the tube 200 is installed This happens evenly and heat dissipation occurs quickly, maximizing efficiency.

The heat exchanger according to the present invention has an effect such that the cross-sectional area of the tube is formed to be the same as the cross-sectional area of the connection pipe so that the incoming heat medium moves smoothly and is quickly transferred to the radiating fins by the moving heat medium so that heat dissipation occurs smoothly.

In addition, the thin and long tube is formed, since the plurality of heat radiation fins are installed in the thin tube formed there is an effect that the heat transfer is rapid to maximize the heat exchange.

In addition, since the width of the heating fin installed in the tube is formed equally on the basis of the outer circumference of the tube, heat transfer is fast and evenly made, thereby maximizing heat dissipation.

Claims (5)

In the heat exchanger consisting of a plurality of heat dissipation fins and tubes to exchange heat medium to release heat, The plate 100 having a vertical connection member 400 on one side is provided, the plate 100 having a horizontal U turn portion 220 is provided on the other side is stacked in multiple stages to move the heat medium 200 Wow; An inlet tube 500 and a discharge tube 510 formed at one lower end side and one upper side of the tube 200 stacked in multiple stages; Heat exchanger, characterized in that a plurality of heat dissipation fins 300 are formed on the outer circumferential surface of the tube (200). The method of claim 1 One side of the tube 200 is made of one passage and the other side is branched into two passages, characterized in that the heat medium is formed to exchange the heat medium. The method of claim 1 Tube 200 is formed in a flat rectangular heat exchange apparatus, characterized in that the heat exchange cross-sectional area is formed wide. The method of claim 1, Tube 200 is a heat exchanger, characterized in that formed in a single tube 200 having a U-turn portion 220 to be made of a tubular U-turn horizontally. The method of claim 1, Heat dissipation fin 300 is a heat exchanger, characterized in that formed in the same width on the basis of the outer periphery of the tube (200).

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