KR0136589Y1 - Defrost heater attachment structure of a cooler - Google Patents

Abstract

The present invention relates to a defrost heater mounting structure of the cooler, the conventional heater mounting structure is a linear defrost heater is installed in the horizontal state in the lower portion of the cooler, the length of the heater is the interval between the fixing plate (3a) (3a) of the cooler Since the width of the cooler 3 is limited to the width of the cooler 3, there is a problem in that the castle generated at both ends of the cooler does not melt in the state where the heater 6 generates heat. Since the efficiency was lowered and the cooling air was generated by interrupting the flow of cold air, the ends of the heaters 16 were bent and mounted on the heater fixing parts 3b and 3c of the cooler fixing plate to generate the heat generation part of the defrost heater. 16a) is generated uniformly over the entire area of the cooler to form defrost of the cooler, and evenly defrosts to the left and right ends of the cooler to improve the efficiency of the cooler. It will have to.

Description

Defrost heater mounting structure of cooler

1 and 2 are a front view and a sectional view of a freezer compartment showing a defrost heater mounting structure of a conventional cooler.

3 is a cross-sectional view showing the end structure of the defrost heater.

4 and 5 are a front view and a cross-sectional view of a freezer compartment showing an example of a defrost heater mounting structure of a cooler according to the present invention.

6 is an enlarged front view of a portion A of the defrost heater mounting state according to the present invention as viewed from below,

(a) is a front view showing the mounting state of the left heater.

(b) is a front view showing the mounting state of the right heater.

* Explanation of symbols for main parts of the drawings

3: cooler 3a: cooler fixing plate

3b, 3c: left and right heater fixing parts 3b-1,3c-1: left and right heater support grooves

16: heater 16a: horizontal part of the heater

16b, 16c: left and right vertical portions of the heater

The present invention relates to a defrost heater mounting structure of the cooler, particularly in a mounting structure in which the non-heating portion of the defrost heater is fixed to the cooler fixing plate, so that the heat generating unit uniformly heats the entire area of the cooler, thereby freezing frost at both ends of the cooler. It relates to a defrost heater mounting structure of the cooler to prevent the efficiency of the deterioration.

An example of the defrosting apparatus of the conventional refrigerator is briefly described with reference to FIG. 1 which is a front view of a freezer compartment, and FIG. 2 which is sectional drawing.

As shown in the drawing, conventionally, a plurality of cooler pipes are coupled at both ends to a fixed plate 3a to form a cooler 3, and a heater 6 is attached to the lower side of the cooler 3. At this time, both ends of the heater 6 are inserted into and fixed to the heater mounting holes 9 formed in the heater mounting part 3b in which the lower end of the fixing plate 3a is extended.

Reference numeral 1 denotes a freezer compartment, 2 a chiller chamber, 4 a drip tray, 7 a reflector plate, 10 a cold air circulation fan, 11 a separation wall, and 12 a cold air passage.

By the way, as shown in the cross-sectional view shown in FIG. 3, the metal size heater typically has a lead pin terminal 24 inserted into both ends of the heater to prevent burnout of the molding part 25 due to high temperature heat conduction. The non-heating section L of about 90 mm is formed. Reference numeral 21 is a heating wire, 22 is an insulating filler, 23 is a metal size, 26 is a wire.

In this state, in the conventional heater mounting structure, since the linear defrost heater is installed in the horizontal state at the lower part of the cooler, the length of the heater is limited to the width of the cooler 3 which is the interval between the fixing plates 3a and 3a of the cooler. There is a problem that the castle generated at both ends of the cooler does not melt in the state in which the heater 6 is heated.

In this way, the cooling causes the frost at both ends to freeze and grow so that the heat exchange efficiency of the cooler is lowered and the flow of cold air is interrupted to generate cooling failure.

The object of the present invention devised in view of the problems as described above is to improve the efficiency of the cooler to remove the frost formed on both sides of the cooler.

In order to achieve the object of the present invention, the both ends of the heater is bent and mounted on the heater fixing part of the cooler fixing plate by the heat generating portion of the defrost heater uniformly generated throughout the entire area of the cooler characterized in that the cooler to defrost A defrost heater mounting structure is provided.

Hereinafter, the present invention as described above will be described in more detail on the basis of one embodiment shown in the accompanying drawings.

4 and 5 are front views and cross-sectional views of a defrost heater and a freezer compartment showing an example of a mounting structure of the cooler according to the present invention, and FIG. 6 is an enlarged view of a portion A of the defrost heater mounting state according to the present invention as viewed from below. As a front view, (a) is a front view which showed the mounting state of a left heater, (b) is a front view which showed the mounting state of a right heater.

As shown in the drawing, the defrost heater mounting structure of the cooler according to the present invention first bends both ends of the defrost heater 16 so that the heater 16 is composed of the horizontal portions 16a and the vertical portions 16b and 16c. .

In addition, heater fixing parts 3b and 3c vertically bent are formed at the lower ends of both fixing plates 3a of the cooler 3.

The heater fixing grooves 3b and 3c on both sides are respectively provided with heater support grooves to which the vertical portions 16b and 16c of the heater 16 are fixed. Particularly, the left (or right) heater fixing portions 3b are formed. Heater support groove (3b-1) of the () is formed in parallel with the bent left (or right) heater fixing portion (3b), heater support groove (3c-1) of the right (or left) heater fixing portion (3c) ) Is formed perpendicular to the right (or left) heater fixing part 3c.

The procedure for installing the defrost heater by the defrost heater mounting structure of the cooler according to the present invention configured as described above will be described.

First, a plurality of cooler pipe fasteners (not shown) formed in the cooler fixing plate 3a are pressed into the bent portions of the cooler pipe to bind the cooler 3.

After the assembly of the cooler is completed, the heater 16 in the horizontal state having the vertical portions 16b and 16c at both ends is assembled. First, one vertical portion (left vertical portion) 16b is placed on the heater of the left heater fixing portion 3b. Insert the other vertical portion (right vertical portion) 16c into the support groove 3b-1, and the peak 3c-2 of the heater support groove 3c-1 of the right heater fixing portion 3c with a dotted line. Likewise, the heater 16 is bent toward the heater 16 so that the heater 16 is not separated from the heater support groove 3c-1.

As described above, the defrost heater mounting structure of the cooler according to the present invention is fixed at both ends of the defrost heater bent to the heater fixing portion formed on the cooling plate fixing plate, so that the heating part of the heater is extended to both ends of the cooler, so that the left and right sides of the cooler are Defrost evenly to the end to improve the efficiency of the cooler.

Claims (3)

A defrost heater mounting structure of a cooler, wherein both ends of the heater are bent and attached to the heater fixing part of the cooler fixing plate so that the heat generating portion of the defrost heater is uniformly generated over the entire area of the cooler to defrost the cooler. The defrost heater mounting structure according to claim 1, wherein the heater fixing grooves on each side of the heater fixing part are respectively provided with a heater support groove for fixing a bent portion of the heater. The defrost heater mounting structure of claim 2, wherein the heater support grooves on both sides are formed in a direction perpendicular to each other.