KR930005662Y1 - Heat-exchanger - Google Patents

Abstract

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Description

Freeze Heat Exchanger

1 is a perspective view of a conventional heat exchanger.

2 is a perspective view of a heat exchanger of the present invention.

3 is a partial sectional view of the heat exchanger of the present invention.

* Explanation of symbols for main parts of the drawings

1: Drain Cock 2: Air Vent Cock

3, 4: header 5, 6: exit, entrance tube

7: Air Vent Cock 8: Drain Cock

9: heat dissipation tube

The present invention relates to a freeze protection heat exchanger formed with a drain and an air vent device in order to prevent freezing due to freezing of condensate introduced into the heat exchanger. Particularly, a drain on upper and lower sides of both headers connected to one side of a radiator main body. By additionally forming air and air vents, the condensed water remaining inside the heat dissipating coil is completely discharged when the heat exchanger used for cooling and heating is stopped in winter to prevent freezing of the heat dissipating coil and maximize the operating efficiency of the heat exchanger. It is to provide a purpose.

As a conventional conventional heat exchanger, the headers 3 and 4 are thermally installed on one side of the radiator main body 11 in which a plurality of heat dissipation fins 10 installed in the heat dissipation coil 9 are installed as shown in FIG. An outlet tube 5 having an air vent cock 7 is formed at an upper portion of the header 3, and is connected to a heat dissipation coil 9, and an inlet tube having a drain cock 8 is provided at a lower portion of the other header 4. (6) is formed and connected to the heat radiation coil (9).

However, when the conventional heat exchanger is not used in winter, condensed water remaining inside the heat dissipation coil 9 is frozen and the heat dissipation coil 9 is freezes due to shrinkage.

In addition, the air vent cock (7) and the drain cock (8) were opened as a means to prevent freezing, and the residual condensate was discharged by internal pressure, but the discharge was not complete. (Limited condensate discharge capacity of the air vent and drain holes) Therefore, freeze protection was not smooth.

In order to solve the above-mentioned problems, the present invention devised to completely discharge the condensate by additionally installing a drain cock and an air vent cock on both side headers, in detail according to the accompanying drawings. The explanation is as follows.

A plurality of heat dissipation fins 10 connected to the heat dissipation coil 9 are installed in the heat dissipator main body 11, and the headers 3 and 4 are connected to one side of the heat dissipation main body 11. In the heat exchanger known in the art, the outlet pipe 5 having the air vent cock 7 formed on the upper and lower portions of the head) and the inlet pipe 6 having the drain cock 8 formed thereon are connected to the heat dissipation tube 9. The drain cock 1 is provided in the lower part of (3), and the hair vent cock 2 is provided in the upper part of the header 4. As shown in FIG.

Reference numeral 12 denotes a heat exchanger

In order to prevent freezing of the heat dissipation coil 9 when the heat exchanger 12 is not in operation in winter, the present invention has a heat medium that is pressurized through the inlet pipe 6 so that the outlet pipe ( 5) The condensed water introduced into the heat dissipation coil 9 while being discharged to the outside through the heat dissipation fin 10 and the heat dissipation tube 9 by the air flowing through the front and rear surfaces of the heat dissipation fin 10 of the heat dissipator body 11. Is cooled and the heat exchange of the condensate is performed. When the operation is stopped during the winter, the condensate must be discharged to the outside to prevent freezing of the condensate in the heat dissipation tube (9), which is an air vent cock (2) (7). ) And drain cock (1) (8) to discharge the condensed water primarily by the residual pressure inside the heat dissipation tube (in this case, the inlet and outlet of the inlet and outlet pipes 6 and 5 are completely sealed). Partial condensed water is discharged to the drain cock (1) (8).

In addition, the removal of the condensate that has not been discharged first is to first seal the air vent cock (7), the drain cock (1) and the inlet pipe (6), and press the separate compressed air into the outlet pipe (compressor). (Not shown) and the outlet pipe 5) When the drain cock 1 or 8 is opened or the inlet pipe 6 is gradually opened, the remaining condensate inside the heat radiation coil 9 is completely removed by the pressure of air. It is discharged to the outside of the heat exchanger (12).

Therefore, when the discharge of the condensed water is completed and the pressure air from the compressor is continuously injected for several minutes, the residual moisture inside the heat-dissipating coil 9 is rolled, thereby eliminating the freezing of the winter and preventing freezing.

The present invention as described above adds an air vent cock and a drain cock to the header, and efficiently adjusts them to discharge the condensate, thereby increasing the drain effect and preventing the freezing of the heat radiation coil of the heat exchanger. It is a device that greatly contributes to improving the stability of operation along with the extension of the service life.

Claims (1)

The outlet and inlet pipes 5 and 6 having the air vent cock 7 and the drain cock 8 are connected to the heat dissipation coil 9 through which the heat dissipation fins 10 are installed through the headers 3 and 4. A known heat exchanger comprising an air vent cock (7) and a drain cock (1) provided above and below the header (4) (3).