KR980009099U - Heat transfer heater for defrost of refrigeration unit - Google Patents

Abstract

The present invention relates to a heat transfer heater for defrost of the refrigerating device, and made of a material having excellent heat transfer efficiency, the heat transfer pipe having a structure having a predetermined diameter through the longitudinal center line, and the heat transfer pipe It is installed in the space portion of the interior, and generates heat while being heated in accordance with the application of current, the both ends of the heating coil connected to the connection terminal, the insulator applied between the heating coil and the inner peripheral surface of the heating pipe, the heating pipe In the defrosting heat transfer heater of the refrigerating device consisting of a wire drawn to both ends of the heating coil connected to the connecting terminal connected to the both ends of the heating coil, the insulation and waterproofing material to a predetermined thickness around the outer peripheral surface of the end of the heat transfer pipe and the wire entry portion By crimping and molding, the installation workability can be improved, and the insulation and water resistance are remarkably improved. It will have to be Kiel.

Description

Heat transfer heater for defrost of refrigeration unit

The present invention relates to a heat transfer heater for defrost of a refrigerating device, and more particularly, it is used to melt frost formed on the outer surface of the refrigerating device installed on an ice maker or a freezing device of a refrigerator for home or business. In order to apply electric current to the internal heating coil in the heat transfer heater, insulation and waterproofing materials are pressed and molded to a predetermined thickness on the outer surface of the heat transfer pipe from which the wires are drawn from the outside to improve the installation workability. In addition, the present invention relates to a defrosting electric heater for a refrigerating device to improve insulation and waterproofness of the wire entry part.

In general, as shown in FIG. 1, the refrigerator 10 of the ice maker or the refrigerator for home or business has a plurality of thin endothermic fins 12 having excellent heat transfer efficiency and is installed at a tight interval over a certain distance range. Each of the heat absorbing fins 12 has a structure in which a refrigerant circulation pipe 14 is penetrated through a closed loop shape, and is forcibly circulated through the refrigerant circulation pipe 14 together with compressed air generated from a conventional compressor. When the heat passing through the heat absorbing fins 12 installation portion, the heat exchange between the heat absorbing fins 12 and the surrounding air is cooled by the refrigerant and the temperature of the space portion in which the heat absorbing fins 12 are installed rapidly. The ice is formed by the lowering principle.

However, in such a conventional refrigeration apparatus, dew is formed on the outer surface of the endothermic fin 12 in a process of performing heat exchange between the endothermic fin 12 cooled by the circulating refrigerant and the surrounding air. The dew formed in this way forms a frost while frozen by the low temperature of the heat absorbing fin 12. As the operating time of the refrigeration cycle elapses, the dew formed on the outer surface of the heat absorbing fin 12 is reduced. When the thickness becomes thick, the heat exchange between the heat absorbing fins 12 and the surrounding air becomes poor, which causes a problem that the freezing effect per unit time is significantly lowered.

Accordingly, in recent years, a plurality of defrosting electric heaters 16 are installed along the installation direction of the heat absorbing fins 12 constituting the refrigerating device 10, and if necessary, current is applied to the electric heaters 16 for a predetermined time. By applying heat to generate heat, the frost formed on the outer surface of the heat absorbing fin 12 was removed by the heat generated from the heat transfer heater 16.

On the other hand, the conventional defrost heat transfer heater 16 installed in such a refrigerating device is made of a material having excellent heat transfer efficiency, as shown in Figures 2 and 3, a predetermined diameter along the inner longitudinal center line The heat pipe 18 has a structure in which the space portion of the through-hole is formed, and inserted into the space portion on the heat pipe 18, and generates heat while being heated in accordance with the application of the current, both ends of the heat generation connected to the connection terminal 20 Insulator 24 applied between the coil 22, the inner circumferential surface of the heat generating coil 22 and the heat transfer pipe 18, and both ends of the heat transfer pipe 18 are introduced into both ends of the heat generating coil 22. The wire 26 connected to the connected connection terminal 20 and the connection terminal 20 and the wire 26 connected to both ends of the heating coil 22 in the state of being written on the outer peripheral surface of both ends of the heat transfer pipe 18. Water penetrates into the connection area from the outside Watertight cap to make (composed of 280.

However, in the structure of the defrosting heat transfer heater of the conventional refrigeration apparatus, the installation work as the waterproof cap 28 is fitted into the wire lead portion of one side or both ends of the heat transfer pipe 18 in a separately manufactured state. The property becomes very poor, and in the fitted state, there is a problem that the insulation is poor because a space portion is formed between the wire lead portion at the end of the heat transfer pipe 18, and there is a problem that the waterproofness is also lowered. According to the formation of the part there is a problem that the insulation and the waterproof cap 28 is damaged even if only the external sharp object rubs during the mounting operation.

The present invention is to solve such a conventional problem, the purpose of the wire is drawn from the outside to apply a current to the internal resistance coil in the electric heater used to melt the frost formed on the outer surface of the refrigeration device A new form that can improve the installation workability by crimping and molding insulation and waterproofing material to a predetermined thickness on the outer circumferential surface of the heat transfer pipe and the circumference of the wire entry part to a predetermined thickness, and remarkably improving the insulation and water resistance of the wire entry part. It is to provide a defrost heater of the refrigerating device.

In order to achieve the above object, the present invention is made of a material having excellent heat transfer efficiency, the heat transfer pipe of the structure in which a space portion of a predetermined diameter is formed along a longitudinal center line therein, and is fitted into the space portion inside the heat transfer pipe. And generates heat while being heated according to the application of a current, and at both ends thereof, a heating coil connected with a connection terminal, an insulator applied between the heating coil and an inner circumferential surface of the heating pipe, and drawn into both ends of the heating pipe, thereby generating heat. A defrosting heat transfer heater of a refrigerating device comprising a wire connected to a connection terminal connected to both ends of a coil, wherein the insulation and waterproofing material are pressed and molded to a predetermined thickness around the outer peripheral surface of the end of the heat transfer pipe and the wire entry portion. Have

1 is a perspective view showing the installation state of the defrost heat transfer heater of the general refrigerating device

2 is a perspective view showing a defrost electric heater of the conventional refrigeration apparatus

Figure 3 is a side cross-sectional view showing a defrost heat transfer heater of the conventional refrigeration apparatus

4 is a side cross-sectional view of the defrosting electric heater of the refrigerating device according to the present invention

* Explanation of symbols for the main parts of the drawings

18: heat transfer pipe 20: connection terminal 22: heating coil

24: insulator 26: power cord 40: insulation and waterproof

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

4 is a side cross-sectional view showing a defrosting electric heater of the refrigerating device according to the present invention, the defrosting electric heater 16 of the refrigerating device according to the present invention is made of a material having excellent heat transfer efficiency, the inside Heat pipes having a predetermined diameter through the longitudinal center line of the heat pipes and the heat pipes (18) are installed in the space inside the heat pipe, and is heated by the application of current to generate heat, the both ends are connected The heating coil 22 to which the terminal 20 is connected, an insulator 24 applied between the heating coil 22 and the inner circumferential surface of the heating pipe 18, and drawn into both ends of the heating pipe 18 to generate the heat. In the defrosting heat transfer heater of the refrigerating device consisting of a wire 26 connected to the connecting terminal 20 connected to both ends of the coil 22, the insulation and waterproof around the outer peripheral surface of the end of the heat transfer pipe 18 and the wire entry portion The material 40 is crimped and molded to a predetermined thickness.

In the present invention as described above, the insulating and waterproofing material 40 which is pressed and molded around the outer peripheral surface of the end of the heat transfer pipe 18 and the wire lead portion is made of rubber or silicon.

On the other hand, the compression and molding length of the insulation and waterproof member 40 on the outer peripheral surface of the end of the heat transfer pipe 18 may be different depending on the total length of the heat transfer heater 16, but the length of approximately 60-100mm It is preferable to form in the range.

On the other hand, in the present invention, the insulation and waterproof member 40 may be formed by a mechanical crimping method in addition to being formed by molding.

According to the present invention, the insulating and waterproof materials made of rubber or silicone are integrally molded over a predetermined length range of the outer peripheral surface of the end of the heat transfer pipe constituting the defrost heat transfer heater of the refrigerating device and the circumference of the wire entry portion. Insulation and water resistance are remarkably improved because the inner space is not formed as in the structure where a separate waterproof cap is applied, and the installation workability is remarkably improved since the work of inserting the separately manufactured waterproof cap is excluded. There is.

Claims (1)

It is made of a material having excellent heat transfer efficiency, and is fitted to the heat pipe 18 having a structure in which a space portion of a predetermined diameter is formed along a longitudinal center line therein, and is inserted into a space portion inside the heat pipe 18, and an electric current is applied thereto. And generates heat while being heated, and at both ends thereof, a heat generating coil 22 to which the connection terminal 20 is connected, and an insulator 24 applied between the heat generating coil 22 and the inner circumferential surface of the heat transfer pipe 18; In the defrosting heat transfer heater of the refrigerating device consisting of a wire (26) drawn into both ends of the heat transfer pipe (18) and connected to the connection terminal (20) connected to both ends of the heating coil (22). A defrosting heat transfer heater for a refrigerating device, characterized in that the insulation and waterproofing material (40) are crimped and molded to a predetermined thickness around the outer circumferential surface of the end) and the wire entry portion. ※ Note: This is to be disclosed based on the first application.