KR20040065765A - Defrosting heater for evaporator - Google Patents

Abstract

PURPOSE: A defrosting heater for an evaporator is provided to increase the productivity by forming a rod type defrosting heater insertable into a fin hole of an evaporator, prevent damage of a defrosting heater, and increase the defrosting efficiency by directly inserting a heater wire into the evaporator. CONSTITUTION: An evaporator is formed of heat dissipating fins having a plurality of fin holes, and a plurality of tubes inserted into the fin holes to flow a refrigerant. A circular heater insertion hole is formed at the heat dissipating fin. A heater tube(31) is inserted into the heater insertion hole. A hot wire(33) generates heat in the heater tube by power supply. A rear end of the heater tube is formed as an expanded tube(32) to be fixed at the heater insertion hole. An insulating substance(34) is filled in a space between the hot wire and the heater tube. A front end of the heater tube is opened or shut by a sealing cap(35).

Description

Defrosting Heater for Evaporator

The present invention relates to a defrost heater for an evaporator used in a refrigeration system, and more particularly, in an evaporator composed of a hydrothermal refrigerant pipe and a plurality of heat dissipation fins, a defrost heater is inserted into a heater insertion hole formed in the heat dissipation fin of the evaporator. The present invention relates to a defrost heater for an evaporator capable of improving productivity and preventing damage to a heater during operation.

As is well known, the refrigeration system uses the latent heat of evaporation of the refrigerant according to the refrigeration cycle of the refrigeration system consisting of a compressor, a condenser, an expansion valve, and an evaporator to maintain an appropriate temperature in a high temperature, thereby improving taste and freshness of various foods such as kimchi. It is a device for long-term maintenance.

Representative household appliances to which such a refrigeration system is applied include a refrigerator and a kimchi storage. Kimchi storage is generally divided into a drawer type, a lid type, and a mixing type.

Figure 1 is a schematic side cross-sectional view showing the flow of cold air in the drawer type kimchi storage applying a refrigeration system, briefly looking at the refrigeration process in the storage room,

Due to the operation of the cold air supply fan 10 at the initial stage of cooling, uncooled air in the storage compartment 11 flows into the evaporator 15 through the vent hole 13 of the front cover 12, and the air thus introduced is evaporator. Heat exchange takes place between (15) and cooled.

Then, the cooled cold air is transferred to the duct member 16 provided with the cold air supply fan 10 on the evaporator 15 by the blowing force of the cold air supply fan 10, and then guides the duct member 16 to the guide. Accordingly, the air is discharged into the storage chamber 11 through the vent hole 14 of the front cover 12 and cooled to a required temperature.

In this way, the storage chamber 11 of the kimchi reservoir maintains a low temperature by supplying cold air by heat exchange in the evaporator 15.

Figure 2 is a perspective view showing an evaporator conventionally used in a conventional refrigeration system, briefly look at the structure, the evaporator 15 is a heat sink fin 18 and a plurality of fin holes are arranged in a row at a constant pitch and a plurality of fin holes It consists of a circular tube 19 flowing through the refrigerant arranged in a sequence of water inserted in the.

As described above, the evaporator 15 performs heat exchange while circulating air in the storage chamber 11 by the cold air supply fan 10.

However, since the air supplied to the evaporator 15 has a high relative humidity, the air passing through the surface of the evaporator tube 19 through which a refrigerant of about 30 ° C. flows is instantaneously solidified to form a frost layer on the surface of the tube 19. Over time, it turns into hard ice.

As such, the ice formed on the surface of the tube 19 serves as a resistive element that prevents the heat exchange of the evaporator 15, thereby reducing the heat exchange efficiency of the evaporator 15.

Accordingly, in order to remove the ice layer generated in the evaporator 15 as described above, a defrost heater that performs periodic defrosting operation is required.

In the conventional defrost heater 20, as shown in FIG. 1, a method of arranging hot wires on one surface of a case close to the evaporator 15 and attaching a tape to fix the hot wires has been mainly used.

However, such a conventional defrost heater is not only takes a long time to install, but also lowers the work efficiency of the installation work, and does not have a separate means for protecting the hot wire because the manual defrost heater requires manual work such as arranging the heating wire and attaching the tape. There is a problem that can damage the heating wire during work.

Accordingly, an object of the present invention is to provide a defrost heater for improved evaporator to improve the fast installation and safety of the defrost heater by inserting and fixing the defrost heater in the conventional evaporator to solve the problems as described above. .

Figure 1 is a schematic side cross-sectional view showing the flow of cold air of the drawer type kimchi storage applying a refrigeration system.

Figure 2 is a perspective view of a conventional general evaporator.

3 is a cross-sectional view showing a defrost heater for an evaporator according to the present invention.

Figure 4 is a perspective view showing a coupling state of the present invention defrost heater and evaporator.

Explanation of symbols on the main parts of the drawings

30: defrost heater 31 according to the present invention: the heater tube

32: expansion tube 33: heating wire

34: insulator 35: sealing cap

36: heater insertion opening

Defrost heater for an evaporator according to the present invention for achieving the above object,

An evaporator comprising a heat dissipation fin having a plurality of fin holes and a hydrothermal tube through which a fixed refrigerant is inserted into the fin hole, wherein the heater tube is formed in the heat dissipation fin and is inserted into the heater insert. This is achieved by providing a heating wire that generates heat by power supply in the heater tube.

It is preferable that the rear end forms an expansion pipe so that the heater pipe can be fixed to the heater insertion opening.

In addition, the insulator is filled between the heating wire and the heater tube, it is preferable that the front end portion of the heater tube so that the heater tube can be opened or closed by a sealing cap.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the present invention that can specifically realize the above object will be described in detail.

3 is a cross-sectional view showing a defrost heater for an evaporator according to the present invention, Figure 4 is a perspective view showing a combined state of the defrost heater and the evaporator of the present invention.

First, in the evaporator 15 to which the defrost heater 30 of the present invention is applied, the heat dissipation fins 18 having a plurality of fin holes are arranged in a row at a constant pitch, so that the refrigerant flows through the fin holes of the heat dissipation fins 18. It is a conventionally used evaporator 15 in which the circular tube 19 is inserted and fixed.

Here, the defrost heater 30 for the evaporator of the present invention forms a heater insertion hole 36 in the heat dissipation fin 18, and constitutes a rod-type heater which can be inserted into the heater insertion hole 36 of the heat dissipation fin 18. It features.

The heater insertion hole 36 may be drilled using a tool such as a drill, and the diameter of the heater insertion hole 36 may vary, but it is preferable that the heater insertion hole 36 be formed to be the same as or similar to the tube diameter of the evaporator.

Looking at the defrost heater for the present invention in more detail as follows.

As shown in FIG. 3, the present invention includes a heater tube 31, a heating wire 33, an insulator 34, and a sealing cap 35.

First, the heater tube 31 is a circular pipe having a diameter that can be inserted into the heater insertion hole 36 of the heat dissipation fin 18 of the evaporator 15, and the rear end thereof is secured to be fixed to the heater insertion hole 36. The pipe part 32 is formed.

The heater tube 31 is made of a material such as stainless (SUS) or copper (Cu) having excellent thermal conductivity in order to effectively conduct heat generated from the heating wire 33 to be described later.

In addition, the length of the heater tube 31 preferably has a length corresponding to the distance to the heat dissipation fins 18 at both ends so as to be fully inserted into the evaporator 15.

The heating wire 33 is located in the heater tube 31 as a resistance that generates heat by power supply.

The insulator 34 is to cut off the current flowing in the heating wire 33 to the heater tube 31, and an insulator made of a material such as asbestos or rubber is interposed between the heating wire 33 and the heater tube 31. .

The sealing cap 35 is to be covered with the front end portion of the heater tube 31 in the insertion direction, and serves to prevent the condensed water generated in the evaporator 15 into the heater tube 31. The sealing cap 35 is configured to be attached to or detached from the heater tube 31 by screwing or the like.

Next, look at the installation of the defrost heater for the evaporator of the present invention,

As shown in FIG. 4, the rod-type defrost heater is inserted into the plurality of heater insertion openings 36 formed on the heat dissipation fin 18 until it is caught by the expansion pipe 32 which is the rear end of the heater pipe 31 in parallel. Simply installation is complete.

Here, the defrost heater 30 is inserted into the plurality of heater insertion holes 36 formed in the heat radiation fin 18 to have the maximum defrosting efficiency, the number and position of the defrost heater 30 can be changed in various ways.

As described above, according to the present invention, by constructing a rod-type defrost heater that can be inserted into the pinhole of the evaporator, the installation work of the defrost heater is convenient, and the productive efficiency of the product is increased, and the heater is produced and repaired. It is possible to prevent the damage of the line to improve the safety of the product, as well as to increase the defrosting efficiency by inserting the heater wire directly into the evaporator.

Claims (2)

In the evaporator 15 composed of a heat radiation fin 18 having a plurality of fin holes and a hydrothermal tube 19 through which a refrigerant inserted and fixed in the fin holes flows, A circular heater insertion hole 36 is formed in the heat dissipation fin 18, and a tubular heater tube 31 having an internal communication therewith, which can be inserted into the heater insertion hole 36, and a power source within the heater tube 31. A defrost heater for an evaporator comprising a heating wire (33) which generates heat by supply and an insulator (34) interposed between the heater tube (31) and the heating wire (33). The method of claim 1, The rear end portion of the heater tube 31 is formed with an expansion tube 32 so that the heater tube 31 can be fixed to the heater insertion hole 36, and the front end portion is covered with a sealing cap 35 for opening and closing. Defrost heater for evaporator.