KR200222842Y1 - Defrosting heater - Google Patents

Abstract

The present invention relates to a defrosting heater, the configuration of which is covered with the outside of the evaporator for generating cold air is repeatedly bent several times so as to transfer heat to the entire evaporator and the resistance wire (28) of the core material 24 disposed therein In the defrost heater for applying the power to the heating wire (28) to generate heat and at the same time to remove the frost formed on the surface of the evaporator by the heat generated, among the core 24 in the defrost heater (20) The number of turns of the resistance wire 28 is irregular in each section so as to generate as much heat as desired in the required portion. Therefore, during the defrosting operation of the evaporator, the same amount of heat is evenly transmitted from the defrosting heater 20 to the evaporator so that the defrosting is performed, thereby making the defrosting work of the evaporator more efficient and simultaneously reducing the number of turns of the resistance wire 28. The cost can be reduced and the like.

Description

Defrosting heater

The present invention relates to a defrost heater, and more particularly, to a defrost heater to generate the required amount of heat in the desired heating portion by adjusting the number of times of resistance wire winding per section of the heater core material.

In general, a defrost heater having a tubular shape that is repeatedly bent several times includes a core for the heater inside the tube, and when the core is heated by applying power to the core, the heat of the core is conducted to the tube and the tube itself generates heat. To make it possible.

Looking at the defrost heater of the prior art as an example as follows.

As shown in FIG. 1, the defrost heater 10 of the prior art is formed in a declipped shape so as to cover the outside of an evaporator (not shown) such as a refrigerator in which the overall shape is a rectangular box shape. The part corresponding to each side of (10) has the shape in which the thin tube 12 was repeatedly bent several times in an English S-shape.

In addition, a heat generating core material 14 is disposed inside the pipe 12 constituting the defrost heater 10, and the core material is again a base chamber (room with heat resistance) 16 and the base chamber 16. It consists of a resistance wire 18 wound on the outer circumference. Here, when power is applied to the resistance wire 18, heat generation starts and defrosts the evaporator while conducting heat to the pipe 12 of the defrost heater 10 through the cover 19 covered by the outer circumferential portion of the core material 14. This will be done.

However, the defrost heater 10 of the prior art is the upper end of the evaporator because the resistance wire 18 of the core material 14 disposed inside the tube 12 is wound around the base chamber 16 with the same number of turns as a whole. The heat generation amount of the tube 12 corresponding to the heat generation amount of the tube 12 corresponding to the central portion and the lower end is the same, so that the defrost heater 10 during the defrost of the evaporator proceeds in the tube 12 of the lower portion When the heat generated by heat generation is transferred upward by the convection phenomenon, there is a problem in that unnecessary heat loss occurs such that the amount of heat transferred from the lower part and the amount of heat present in the upper part are added to have more heat than necessary for defrosting the evaporator. there was.

The present invention is devised to solve the conventional problems as described above, to provide a defrost heater to ensure that the same amount of heat is evenly transmitted from the defrost heater to the evaporator during the defrosting operation of the evaporator to make the defrost. There is a purpose.

1 is a perspective view showing a defrost heater according to the prior art.

2 is a perspective view showing a defrost heater according to the present invention.

3 is a schematic view showing a state in which a resistance wire of the defrost heater according to the present invention is wound.

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

10, 20: defrost heater 12, 22: tube

14, 24: core material 16, 26: bat room

18, 28: resistance wire 19, 29: sheath

The defrost heater according to the present invention for achieving the above object is covered with the outside of the evaporator for generating cold air is repeatedly bent several times to transfer heat to the entire evaporator and the power is supplied to the resistance wire of the core material disposed therein. In the defrost heater for applying a heat generated by the resistance wire and at the same time to remove the frost formed on the surface of the evaporator, the resistance wire so as to generate a desired amount of heat in the required portion of the core material in the defrost heater. The number of turns of is characterized in that it is irregular in each section.

In addition, in the defrost heater according to the present invention, the number of windings of the resistance wire is preferably more in the core material disposed on the lower end of the defrost heater, and less toward the top.

In the defrost heater according to the present invention, the number of turns of the resistance wire is preferably higher in the core disposed at the center of the defrost heater and less toward both ends thereof.

Hereinafter, with reference to the accompanying drawings for the defrost heater of the present invention will be described in detail.

As shown in Figures 2 to 3, the defrost heater 20 of the present invention is provided with a tube 22 which is repeatedly bent several times, the core material 24 for heat generation is disposed inside the tube 22 It becomes the structure that becomes.

The tube 22 is a thin tube shape to cover the outside of the evaporator, the overall shape is formed in a declination shape, the area corresponding to each surface is repeatedly bent several times in the English S-shape tube 22 It is shaped.

The core material 24 is disposed inside the tube 22 and has a shape in which the resistance wire 28 is wound around the outer circumferential surface of the base chamber 26 a predetermined number of times.

Here, the resistance wire 28 has a low number of windings in the inner core 24 of the tube 22 corresponding to the upper end on the basis of the evaporator, and conversely, the inner core of the tube 22 corresponding to the lower end.

At 24, the number of windings is increased.

This is because when the power is applied to each of the resistance wires 28, the resistance wires 28 generate heat and heat conduction occurs through the coating 29 to the pipes 22, while the evaporator is defrosted by the heat of the pipes 22. Heat generated from the lower part is transferred upward by the convection phenomenon.

The heat generated in (22) is added to generate heat suitable for removing the defrost of the evaporator.

Accordingly, the evaporator is defrosted entirely up and down without unnecessary loss of heat of the defrost heater 20.

Here, the number of windings of the resistance wire 28 for the core 24 of the defrost heater 20 will be preferable to gradually reduce the number of windings gradually starting from the tube 22 located at the lower end.

In addition, in the defrost heater 20, the number of windings of the resistance wire 28 is adjusted only in the up and down direction, and in the left and right directions, the number of windings is increased in the center and decreases toward both ends, such as convection. The heat transfer effect can be obtained in a significant way.

As described above, according to the defrost heater according to the present invention, the number of windings of the resistance wire located at the lower end of the core material of the defrost heater based on the evaporator, and the winding number of the resistance wire gradually decreases toward the upper portion of the evaporator. During the defrosting operation, the same amount of heat is evenly transferred from the defrost heater to the evaporator so that the defrosting is performed, and the defrosting operation of the evaporator is efficient and the number of windings of the resistance wire is reduced as a whole, thereby reducing the cost. Can be.

As described above, the present invention has been described with respect to only one preferred embodiment, but it is apparent to those skilled in the art that various modifications and changes are possible within the technical spirit of the present invention based on the above embodiments. Of course, it belongs to the utility model registration claim attached to the modification.

Claims (3)

It is covered by the outside of the evaporator for generating cold air and repeatedly bent several times to transfer heat to the whole of the evaporator, and the power is applied to the resistance wire of the core material disposed therein so that the resistance wire is generated at the same time. In the defrost heater for removing frost on the surface, Defrost heater, characterized in that the number of turns of the resistance wire is irregular in each section so as to generate a desired amount of heat in the required portion of the core in the defrost heater. The method of claim 1, wherein the number of turns of the resistance wire is the defrost heater, characterized in that the number of the core material disposed on the lower end of the defrost heater is less toward the top. The method of claim 1, wherein the number of windings of the resistance wire is a defrost heater, characterized in that the number of the core material disposed in the central portion of the defrost heater is less toward both ends.