KR100402616B1 - Installation structure of evaporator door for Refrigerator - Google Patents

Abstract

The present invention relates to an installation structure of an evaporator in a refrigerator having a direct cooling evaporator. According to the present invention, the fixed hinge 50 is formed on the inner case 22, and the evaporated door 26 is a direct cooling evaporator by press-fitting the lower protrusion 26b of the evaporated door 26 into the fixed hinge 50. (25) It is installed on the front. According to the present invention as described above, there is an advantage that the installation of the evaporator 26 is simplified.

Description

Installation structure of evaporator door for Refrigerator

The present invention relates to a direct-cooling refrigerator, and more particularly, to an evaporator door installed by forming a fixed hinge on the inner case and press-fitting the lower projection to the fixed hinge.

Refrigerators are largely divided into indirect cooling (hereinafter referred to as intercooling) and direct cooling (hereinafter referred to as direct cooling) according to the cooling method. In the intercooled refrigerator, an evaporator is installed in a space of one side of the refrigerator, and cold air generated in the evaporator is supplied into the refrigerator by using an air flow device such as a fan. In this manner, the temperature inside the refrigerator is kept at a low temperature. It is generally applied to medium and large refrigerators with a large storage capacity. In a small refrigerator having a relatively small storage capacity, an evaporator is mounted to expose the internal space of the refrigerator. The internal temperature of the refrigerator is maintained at a low temperature by directly exchanging heat with the air inside the refrigerator. The evaporator used for such a direct cooling is called a direct cooling evaporator.

1 and 2 show the configuration of the direct-cooling refrigerator according to the prior art and the installation structure of the evaporator door. According to this, the inner case 2 is coupled to the inside of the refrigerator body 1 to form a refrigerating chamber 4 as a storage space. On the upper end of one side of the refrigerating chamber 4, a direct cooling evaporator 5 is installed by fastening means such as a screw 14 or the like. The direct-cooling evaporator (5) is shaped into a rectangular box shape at which both ends are opened, and a refrigerant pipe (not shown) through which liquid refrigerant of low temperature and low pressure flows is formed therein. When the low temperature and low pressure liquid refrigerant flows through the refrigerant pipe, the surface of the direct-cooling evaporator 5 and the air inside the refrigerator exchange heat with each other. Therefore, the air inside the refrigerator is converted to cold. One side of the refrigerator body (1) is provided with a door (7). The door 7 opens and closes the refrigerating compartment 4 inside the refrigerator body 1.

The evaporator 6 is installed at one side of the direct-cooling evaporator 5 by being fixed to the wall surface of the inner case 2. The evaporator (6) shields the entire surface of the direct-cooling evaporator (5), and forms the inside of the freezer compartment (3). In addition, the evaporator 6 opens and closes the direct-cooling evaporator 5 to allow food storage therein. The rear end of the direct cooling evaporator 5 is located close to the rear wall of the refrigerating compartment 4.

Projections are formed on the evaporator 6, and the protrusions are composed of upper projections 6a and lower projections 6b which protrude from the ends of the evaporator 6, respectively. On the wall surface of the inner case 2, a mounting hole 2a and a hinge coupling hole (not shown) are drilled.

The evaporation door 6 installation structure according to the above configuration is as follows.

The assembly of the refrigerator consists of assembling the cycle apparatus and various electric parts in the refrigerator body (1). In general, the refrigerator is assembled by assembling each part while moving by a moving means such as a conveyor. And the direct cooling evaporator (5) is fixed to the refrigerator body (1) by a screw (14).

In order to form the inside of the direct cooling evaporator 5 as the freezing compartment 3, an evaporator 6 is installed on the front surface of the freezing compartment 3. The upper projection 6a and the lower projection 6b are formed in the evaporator 6, and they are fitted into the mounting holes 2a and the fixed hinge 10 of the inner case 2, respectively. A hinge hole 10a into which the lower protrusion 6b is fitted is formed in the fixed hinge 10, and the hinge hole 10a penetrates the fixed hinge 10 up and down. In addition, a fastening hole 10b communicating with the hinge coupling hole of the inner case 2 is formed at one side of the fixed hinge 10. The fixing hinge 10 is fixed to the inner case 2 by fastening the screw 14 to the fastening hole 10b.

Looking in more detail that the evaporator 6 is installed on the front surface of the direct cooling evaporator (5), the upper projection (6a) of the evaporator 6 in the mounting hole (2a) of the inner case (2) Insert it. Then, the fixed hinge 10 is inserted into the lower protrusion 6b, and then the fixed hinge 10 is coupled to the hinge coupling hole of the inner case 2. Therefore, the installation process of the evaporator 6 is a step of fitting the upper projection (6a) to the mounting hole (2a), the step of fitting the fixed hinge (10) to the lower projection (6b), and the fixed hinge (10) It consists of three stages coupled to the inner case (2). In addition, the fixed hinge 10 is coupled to the hinge coupling groove of the inner case 2 in a state of being fitted into the lower protrusion 6b.

However, the installation of the evaporator 6 of the conventional direct-cooling refrigerator as described above has the following problems.

In order to install the evaporator 6, the fixed hinge 10 should be coupled to the inner case 2 while the fixed hinge 10 is inserted into the lower protrusion 6b. Therefore, there is a problem that the assembly method is complicated. In addition, the assembly process is composed of several steps because the three steps of the assembly process is involved to install the evaporator (6). Therefore, there is a problem in that the number of assembly is required according to the process step, takes a lot of assembly time. This problem eventually causes the production cost of the refrigerator to rise.

The present invention has been made to solve the above problems, and an object thereof is to make it easier to mount the door of the direct cooling evaporator.

1 is a perspective view showing the configuration of a conventional direct-cooling refrigerator.

Figure 2 is a cross-sectional view showing the evaporator installation structure of a conventional direct cooling refrigerator.

Figure 3 is a cross-sectional view showing a preferred embodiment of the evaporator installation structure of the present invention.

Figure 4 is a perspective view showing the configuration of the fixed hinge of the embodiment of the present invention

Explanation of symbols on the main parts of the drawings

21: refrigerator body 22: inner case

22a: mounting hole 25: direct cooling evaporator

26: evaporation door 26a: upper projection

26b: lower protrusion 34: screw

50: fixed hinge 52: mounting portion

54 entrance portion 56 fastening hole

The door mounting structure of the present invention for solving the above object is installed on one side of the refrigerator, the direct-cooling evaporator to form a freezer compartment in the inner portion; It is installed on the front of the direct cooling evaporator to open and close the freezer compartment, the upper and lower ends of the evaporator is formed with an upper projection and a lower projection; A mounting hole formed on an upper surface of an inner case to receive the upper protrusion in a rotatable manner; And a fixing hinge fixed to a side surface of the inner case and having a mounting hole rotatably supported in a state in which the lower protrusion is inserted, and an inlet portion communicating with the outside of the mounting hole and having a lower protrusion pressed therein. It is characterized by.

According to the present invention as described above, the installation of the evaporator in the direct-cooling refrigerator becomes simpler, and it is possible to expect the advantage that the productivity is substantially improved.

Hereinafter, a preferred embodiment of the evaporator door installation structure according to the present invention as described above will be described in detail with reference to the accompanying drawings.

Figure 3 is a cross-sectional view showing the installation structure of the evaporator according to an embodiment of the present invention.

According to this, the direct cooling evaporator 25 which generates cold air is installed in the upper part of the refrigerator main body 21. As shown in FIG. An evaporation door 26 is installed on the front surface of the direct cooling evaporator 25, and blocks the front surface of the direct cooling evaporator 25. Therefore, the inside of the direct-cooling evaporator 25 is composed of a freezer compartment (23).

Upper and lower protrusions 26a and 26b are formed on the upper and lower ends of the evaporator 26, respectively. The mounting hole 22a is formed in the upper surface of the inner case 22. The upper protrusion 26a of the evaporator 26 is fitted into the mounting hole 22a.

And the fixed hinge 50 shown in FIG. 4 is comprised from the mounting hole 52, the inlet part 54, and the fastening hole 56. As shown in FIG. The mounting hole 52 of the fixed hinge 50 is for supporting the evaporator door 26 so that the lower protrusion 26b of the evaporator door 26 is fitted therein. In addition, an inlet portion 54 into which the lower protrusion 26b of the evaporator 26 is fitted is formed on the front surface of the mounting hole 52. The inlet 54 has a size smaller than the diameter of the mounting hole 52, and has a function of communicating the outside and the mounting hole 52 with each other. Therefore, the lower protrusion 26b of the evaporator 26 is fitted into the mounting hole 52 while penetrating the inlet 54. At this time, since the lower protrusion 26b and the fixed hinge 54 are formed of a synthetic resin material, the lower protrusion 26b and the fixed hinge 54 have elasticity within a predetermined range, and the lower protrusion 26b is fixed to the lower protrusion 26b by such elasticity. Through the inlet portion 54 of the mounting hole 52 can be fitted. The fastening hole 56 of the fixed hinge 50 is for fixing the fixed hinge 50 to the side surface of the inner case 22 using the screw 34.

In the above-described embodiment, the fixed hinge 50 is configured to be fixed to the inner case 22. However, the fixed hinge 50 may be integrally implemented with the inner case 22. Alternatively, the fixed hinge 50, which is separately formed, may also be fixed to the inner case 22 using an adhesive.

The installation structure of the evaporator 26 according to the above configuration is as follows.

The upper protrusion 26a of the evaporator 26 is inserted into the mounting hole 22a of the inner case 22. Then, the lower protrusion 26b is press-fitted between the inlets 54 of the fixed hinge 50 to be inserted into the mounting hole 52. At this time, the lower protrusion 26b extends between the inlet portions 54 and is mounted to the mounting portion 52 between the extended portions. The inlet 54 prevents the lower protrusion 26b from escaping from the mounting portion 52. Therefore, the evaporator 26 is the upper projection (26a) is mounted to the mounting hole (22a), the lower projection (26b) is pressed into the fixed hinge 50, the front of the direct-cooling evaporator (25) Is installed on. The evaporator 26 installed as described above can open and close the freezing chamber 24 while rotating.

The evaporation door mounting structure according to the present invention comprises a fixed hinge on an inner case and press-fits the lower protrusion to a mounting portion of the fixed hinge. Therefore, there is an advantage that the installation of the evaporator door is simplified.

Many other modifications are possible to those skilled in the art as such the invention is within the scope of the technical idea.

As described in detail above, the evaporator door according to the present invention presses the lower protrusion into the fixed hinge, thereby simplifying the installation method. Therefore, the assembly process of the refrigerator is shortened, thereby reducing the number of assembly members and finally reducing the manufacturing cost of the refrigerator.

Claims (1)

A direct cooling evaporator installed at one side of the refrigerator and forming a freezing compartment at an inner portion thereof; It is installed on the front of the direct cooling evaporator to open and close the freezer compartment, the upper and lower ends of the evaporator is formed with an upper projection and a lower projection; A mounting hole formed on an upper surface of an inner case to receive the upper protrusion in a rotatable manner; And It is fixed to the side of the inner case, and comprises a fixing hole having a mounting hole for rotatably supporting in the state in which the lower projection is inserted, and an inlet portion in communication with the outside of the mounting hole and the lower projection is press-fitted Evaporator door installation structure of the direct-cooling refrigerator characterized in that.