KR0120168Y1 - Evaporator equipped with frost structure - Google Patents

Abstract

The present invention relates to an evaporator equipped with a frosting device to improve the efficiency of the evaporator and to increase the defrosting period by forming a separate frosting device in the evaporator of the refrigerator, so that the frost is first implanted with the frosting device. In this case, a small implantation device 20 composed of a plurality of fins 21 is provided to allow the refrigerant pipe 12 passing through the evaporator 10 to pass therethrough, and the implantation device 20 is connected to the cold air return passage of the refrigerating chamber. Installed between the 41 and the evaporator 10, the frosting device 20 is configured so that the frost can be first implanted.

Description

Evaporator with implantation device

1 is an installation state of the present invention,

2 is a side cross-sectional view of the present invention installed in a refrigerator.

* Explanation of symbols for main parts of the drawings

10: evaporator 11, 12, 13: refrigerant pipe

20: implantation apparatus 21: pin

31, 41: cold return passage

The present invention relates to an evaporator of a refrigerator, and in particular, to form a separate frosting device, the frosting is first implanted with the frosting device to improve the efficiency of the evaporator, and relates to an evaporator equipped with a frosting device to increase the defrosting cycle.

In general, when the electric load such as the compressor is driven for a predetermined time by the flow of cold air, frost is implanted in the evaporator, and when the amount of frost is increased by a certain amount, the efficiency of the evaporator is reduced.

Therefore, in order to prevent this, defrosting work is essentially performed.

In addition, during defrosting, the heater is driven, resulting in a loss of cooling function and waste of power.

The present invention is conceived in view of the above background, the object of the present invention is to install a separate implantation device in the evaporator, to reduce the amount of implantation relatively to the evaporator to improve the efficiency of the evaporator and at the same time increase the defrosting cycle An object of the present invention is to provide an evaporator having an implantation device capable of reducing power consumption.

The present invention for achieving the above object in the evaporator of the refrigerator,

It is provided with a compact implantation device composed of a plurality of fins so that the refrigerant pipe passing through the evaporator passes through, and the implantation device is installed between the cold air return passage of the refrigerating chamber and the evaporator, so that the frost is first implanted with the implantation device. It has features that are configured to allow.

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

1 shows an installation state diagram of the present invention,

The refrigerant pipe 11 circulating the cooling cycle, not shown, passes through the evaporator 10 in a meandering manner, and the refrigerant pipe 12 passing through the evaporator 10 includes a plurality of refrigerant pipes provided in the lower portion of the front surface of the evaporator 10. The refrigerant pipe 13 which penetrates the implantation device 20 composed of the fins 21 and passes through the implantation device 20 is directed to a compressor (not shown).

2 is a side cross-sectional view of the present invention installed in the refrigerator,

The above-described implantation apparatus 20 is interposed between the cold air passage 41 and the evaporator 10 of the refrigerating chamber 41 before the relatively high temperature cold air circulating the refrigerating chamber 40 goes to the evaporator 10. The cold air that meets the implantation device 20 and circulates in the freezing chamber 30 is configured to directly exchange heat with the evaporator 10 through the cold air passage 31.

Reference numeral 50 denotes a defrost heater and 60 denotes a drain.

The effects of the present invention constructed as described above will be described below.

The cold air circulation of the freezer compartment 30 exchanges heat with the evaporator 10 through the cold air return passage 31, but the warmth including the moisture of the refrigerating compartment 40 has already been cooled by the cold air return passage 41. 20), and thus the warmth of the freezer compartment 30 is the primary heat exchange occurs in the implantation device 20 to deprive the moisture, the frosting device 20 is implanted in the frost, in this process The removed cold air is heat-exchanged with the evaporator 10 again, whereby it is normally cooled again and sent to the freezing chamber 30.

Therefore, the evaporator 10 cools the secondary warmer from which moisture is removed (reduced), so that the amount of implantation is significantly reduced, and frost is implanted in the implantation apparatus 20.

Subsequently, when the amount of implantation of the evaporator 10 reaches or exceeds a predetermined reference value, the defrost heater 50 is driven to perform defrosting.

As described above, the present invention becomes the primary frosting in the frosting device, thereby reducing the frosting of the evaporator, thereby preventing the efficiency of the evaporator from frosting being reduced, and the defrosting period is prolonged due to the reduction of the amount of frosting. There is an effect that can reduce the waste of power by.

The above description is only a description of an embodiment of the present invention, and the present invention is capable of various changes and modifications within the scope of its constituent elements.

Claims (1)

In the evaporator of the refrigerator, a small idea apparatus 20 composed of a plurality of fins 21 is provided so that the refrigerant pipe 12 passing through the evaporator 10 passes through, and the idea apparatus 20 is stored in a refrigerating chamber. Installed between the cold air return passage (41) and the evaporator (10), the evaporator is provided with a frosting device configured to be frosted first to the frosting device (20).