KR100229184B1 - Structure of refrigerator outer casing assembled with pcm sheet - Google Patents

Abstract

The present invention relates to a trauma bonding structure of the refrigerator, and in particular, in the trauma bonding structure of the refrigerator including one upper plate and both side plates formed by integrally bending a "U", and a bottom plate coupled to the bottom of the two side plates, The side plate and the bottom plate is made of PCM (Pre Coated Metal, iron plate) iron plate does not require a painting process after assembling, the bending portion formed by bending 90 ° in both directions at the bottom of both sides of the side plate And formed in the bending part and opposed to the groove so that the groove is inserted into the groove and the groove is opened in the downward direction at a position spaced apart from the both sides by t ₁ and inserted into the groove without being welded to the both sides of the groove. An insertion portion which is bent upward by 90 ° on both sides of the bottom plate and the insertion portion is inserted into the groove so that the insertion portion is upper when the both side plates and the bottom plate are assembled. It relates to a trauma coupling structure of the refrigerator using a fish-iron plate made of a protruding convex portion protruded at the same interval as the interval t2 of the groove so as not to be separated from the groove groove, both sides and the bottom plate Not only does not require a separate painting process, but grooves are formed on both side plates, and inserts are formed on the bottom plate to assemble both side plates and the bottom plate without performing a welding process, thereby improving productivity and at the same time manufacturing cost. You can bring it down.

Description

Trauma bonding structure of refrigerator using P.C.M (P.C.M) iron plate

The present invention relates to a trauma coupling structure of the refrigerator to couple the bottom plate to the side plate of the refrigerator, in particular by using the PCM (PCM, Pre Coated Metal) iron plate without combining the side plate and the bottom plate without manufacturing cost during manufacture It relates to a trauma bonding structure of a refrigerator using a PCM (Pre Coated Metal) iron plate that can improve the productivity.

Generally, the main body of a refrigerator consists of a triple structure of the outer wound which forms the exterior of a refrigerator, the inner wound which forms the inside of a refrigerator, and the heat insulating material which insulates the inside of a foam by foaming between the said inner wound and the said outer wound.

In addition, the inner phase is injection molded of a plastic material, the outer wound is made of a combination of a plurality of iron plate, the heat insulating material is to be foamed therebetween after the inner and the outer shell is assembled.

Meanwhile, as illustrated in FIG. 1, the outer side of the refrigerator has a side plate 1 that is generally bent in a “U” shape, and a bending surface 2a where both sides are bent at 90 degrees so as to be in close contact with an inner side surface of the side plate 1. It consists of a formed base plate (2).

That is, the bottom plate 2 is assembled to the side plate 1 by the welding 3 after the bending surface 2a of the bottom plate 2 is in surface contact with both side inner surfaces of the side plate 1.

After the inner phase is assembled in the assembled state as described above, the insulation is foamed between the inner and outer wounds to complete the main body of the refrigerator.

However, the trauma coupling structure of the conventional refrigerator, the bottom plate and the side plate is made of a regular steel plate, the bottom plate and the side plate is assembled by welding to perform a separate painting work, the manufacturing process is complicated to increase the manufacturing cost Of course, there have been problems such as reduced productivity.

That is, in the conventional outer box coupling structure of the refrigerator, a bending surface 2a is formed on the bottom plate 2 using a general iron plate, and the bottom plate 2 on which the bending surface 2a is formed is placed on the side plate 1 to bend. After performing the concave-weld process of welding the surface 2a and the side plate 1 as a welding machine, the side plate 1 and the bottom plate 2 have to be coated, so that the manufacturing process is excessively required and the productivity is reduced, as well as manufacturing. There was a problem that the cost was raised.

The present invention has been made in view of the above-described problems, and an object of the present invention is to easily combine a bottom plate on a side plate using a PCM (Pre Coated Metal) iron plate without performing a welding and painting process. It is to provide a trauma bonding structure of the refrigerator using a PCM (Pre Coated Metal) iron plate that can improve the down and down the manufacturing cost.

In order to achieve the above object, the outer coupling structure of the refrigerator using a PCM (Pre Coated Metal) iron plate according to the present invention includes a top plate and two side plates formed by integrally forming one iron plate by "U" bending, and both sides of the refrigerator. In the outer bond structure of the refrigerator consisting of a bottom plate coupled to the bottom of the plate, the both side plate and the bottom plate is made of PCM (Pre Coated Metal, iron plate) iron plate does not require a painting process after assembly, the both sides Bending portions formed at both bottom ends of the plate at 90 ° inward directions, grooves formed at the bending portions and spaced at a distance t ₁ from the two side plates with a space t ₂ and opened downward; An insertion portion that is bent upward by 90 ° on both sides of the bottom plate opposite to the groove so as to be assembled without being welded to the both sides plate and inserted into the groove, and the insertion portion is inserted into the groove. Be characterized in that if the said plate on both sides and the bottom plate assembly of the insertion portion has the insertion portion from being detached from the groove portion consisting of concave and convex protrusion is bent in substantially the same interval as the interval t ₂ of the groove.

According to the outer wound coupling structure of the refrigerator using the PMM iron plate according to the present invention, both sides of the plate by using a PCM (PCM, Pre Coated Metal) iron plate, of course, a separate coating process is not useful, both sides of the plate Grooves are formed in the bottom plate and the insertion part is formed in the bottom plate, thereby assembling both side plates and the bottom plate without performing a welding process, thereby improving productivity and reducing the manufacturing cost.

1 is a perspective view showing the assembled state of the side plate and the bottom plate of the refrigerator applied to the conventional example.

Figure 2 is a side cross-sectional view schematically showing the internal structure of the refrigerator applied to the present invention.

Figure 3 is an exploded perspective view showing the disassembled side plate and the bottom plate of the refrigerator applied to the present invention.

4 is an enlarged cross-sectional view taken along line IV-IV of FIG. 3;

* Explanation of symbols for main parts of the drawings

100: body 110: inner box

120: trauma 121: top plate

122: side plate 123: side plate

122a, 123a: groove 122, 123b: bending part

124: base plate 124a: insertion portion

124b: irregularities

Hereinafter, with reference to the accompanying drawings an embodiment of the outer bond coupling structure of the refrigerator using the P.C.M (Pre Coated Metal) iron plate applied to the present invention will be described in detail.

Figure 2 is a side cross-sectional view schematically showing the internal structure of the refrigerator according to the present invention, Figure 3 is an exploded perspective view showing the side plate and the bottom plate of the refrigerator applied to the present invention, Figure 4 is an IV of Figure 3 It is sectional drawing which cut-off the -IV line.

2 to 4, the reference numeral 100 denotes a main body for partitioning the freezer compartment 11 storing and storing the frozen food and the refrigerating compartment 12 storing and storing the frozen food to form an appearance of the refrigerator. A duct 32 for guiding the flow of cold air is formed on the inner rear surface of the freezing chamber 11, and an evaporator 21 is formed on the rear surface of the freezing chamber 11 to generate cold air by the evaporation of the refrigerant. In the upper side, a blower fan 31 is installed to generate a blowing force so that the cold air generated by the evaporator 21 is circulated to the freezing chamber 11 and the refrigerating chamber 12.

Moreover, the door 130 which opens and closes the said freezer compartment 11 and the refrigerator compartment 12 is provided in the front surface of the said freezer compartment 11 and the refrigerator compartment 12, respectively.

In addition, a machine chamber 14 is formed at the lower rear of the main body 100, and the machine chamber 14 compresses the refrigerant evaporated by the evaporator 21 at high temperature and high pressure to supply it to a condenser (not shown). 22) is installed.

On the other hand, the main body 100, the outer shell 120 to form the exterior of the refrigerator, the freezing chamber 11 and the refrigerating chamber 12 to form the inner wound 110 and plastic injection molding, and the inner wound 110 And foamed between the outer shell 120 and the heat insulating material 130 to insulate the refrigerating chamber 12 and the inner cavity 11.

In addition, the trauma 120 is composed of a plurality of iron plate is coupled as shown in FIG.

That is, in the outer case 120 according to the present invention, as shown in FIG. 3, one iron plate is bent "U" so that the top plate 121 and both side plates 122 and 123 are integrally formed. The bottom plate 124 is coupled to the 122 and 123, and the back plate (not shown) is assembled to the rear surface of the upper plate 121 and the two side plates 122 and 123 which are integrally formed.

On the other hand, the top plate 121 and the side plate 122, 123 and the bottom plate 124 according to the present invention is used as a PCM (Pre Coated Metal, iron plate coated) that does not require a painting process after bonding.

In addition, grooves 122a and 123a are continuously formed in both side plates 122 and 123 in the width direction so that the bottom plate 124 is assembled to the both side plates 122 and 123 without performing a separate welding process. The insertion portion 124a protrudes upward in the width direction from the bottom plate 124 facing the grooves 122a and 123a.

That is, the side plates 122 and 123 are made of a PCM (Pre Coated Metal, iron plate) iron plate which does not use a painting process after assembling, and bending portions 122b bent inward by 90 ° at both lower ends thereof, respectively. 123b is formed, and the bending portions 122b and 123b have grooves 122a opened downward with a distance t ₂ at a position t ₁ spaced apart from the yaw boards 122 and 123 ( 123a) is formed.

In addition, the bottom plate 124 is inserted into the grooves 122a and 123a so that the insertion portion 124a bent upward by 90 ° to be assembled without being welded to the both side plates 122 and 123 is protruded. .

In addition, when the inserting portion 124a is inserted into the grooves 122a and 123a so that the side plates 122 and 123 and the bottom plate 124 are assembled, the inserting portion 124a is the groove 122a. The insertion portion 124a is formed with an uneven portion 124b that is bent and protruded at substantially the same interval as the interval t ₂ of the grooves 122a and 123a so as not to be separated from the 123a.

Next, the operation and effect of the outer bond structure of the refrigerator using the PCM ((P.C.M, Pre Coated Metal) iron plate according to the present invention configured as described above.

First, the upper plate 121 and the both side plates 122, 123 and the bottom plate 124 of the present invention is used as a PCM (pre-coated metal, iron plate) without the coating process after bonding As a result, the painting work is not required after assembling the iron plate as in the prior art, thereby improving productivity due to the reduction of the process, as well as lowering the manufacturing cost.

In addition, grooves 122a and 123a are formed continuously in the width direction in both side plates 122 and 123, and the bottom plate 124 opposite to the 122a and 123a is continuously inserted in the width direction. The bottom part 124 may be assembled to the side plates 122 and 123 without the separate part 124a protruding upward and performing a separate welding process.

In addition, an uneven portion 124b is formed in the insertion portion 124a at substantially the same interval as the interval t _{2 of} the grooves 122a and 123a, so that the insertion portion 124a is formed in the grooves 122a and 123a. When the) is inserted, the uneven portion 124b is in surface contact with the grooves 122a and 123a so that the bottom plate 124 is firmly assembled without being separated from the side plates 122 and 123.

As described above, according to the outer bond structure of the refrigerator using the PCM (Pre Coated Metal) iron plate according to the present invention, a separate coating process by using the PCM (Pre Coated Metal) iron plate on both side plates and the bottom plate Of course, this is not useful, the groove is formed on both sides and the insertion portion is formed in the bottom plate to assemble the two side plates and the bottom plate without performing the concave contact process to improve the productivity and at the same time to reduce the manufacturing cost Will be.

Claims (1)

The outer plate of the refrigerator consisting of an upper plate 121 and both side plates 122 and 123 integrally formed by bending one iron plate and a bottom plate 124 coupled to the bottom of the both side plates 122 and 123. In the coupling structure, The side plates 122, 123 and the bottom plate 124 is made of a PCM (pre-coated metal, iron plate) iron plate does not require a painting process after assembly, Bending portions 122b and 123b formed at both bottom ends of the side plates 122 and 123 at 90 ° inward directions, respectively; Grooves 122a and 123a formed in the bending portions 122b and 123b and having a space t ₂ at a position t ₁ spaced apart from the two side plates 122 and 123 and opened downward; 90 ° upward on both sides of the bottom plate 124 opposite to the grooves 122a and 123a so as to be inserted into the grooves 122a and 123a to be assembled without being welded to the two side plates 122 and 123. The insertion portion 124a which is bent and protruded, When the inserting portion 124a is inserted into the grooves 122a and 123a so that the side plates 122 and 123 and the bottom plate 124 are assembled, the inserting portion 124a is inserted into the grooves 122a ( The insertion part 124a has a convex and convex portion 124b which is bent and protruded at substantially the same interval as the interval t ₂ of the grooves 122a and 123a so as not to be separated from the 123a. Trauma coupling structure of refrigerator.