KR100366504B1 - The fixing structure for vacuum insulating material to display braket of refrigerators - Google Patents

Abstract

The present invention relates to a display bracket of a refrigerator, and more particularly, to a structure for fixing a vacuum insulating material on the back of the display bracket installed in the refrigerator.

The vacuum insulating material fixing structure according to the present invention includes a display bracket on which a display part is seated on a front surface, and a plurality of ribs are provided on a rear surface thereof along the edge thereof; It is formed of a vacuum insulating material to form a heat insulating layer, and is pressed and fixed between the ribs.

According to the present invention, it is possible to fix the vacuum insulation without a separate adhesive member, there is an advantage that can minimize the damage of the vacuum insulation during operation.

Description

The fixing structure for vacuum insulating material to display braket of refrigerators}

The present invention relates to a display bracket of a refrigerator, and more particularly, to a structure for fixing a vacuum insulating material on the back of the display bracket installed in the refrigerator.

Recently, in accordance with the trend of advanced home appliances, refrigerators equipped with displays having input / output functions have been developed and released. Such a display is usually installed in a door of a refrigerator, and has an output function for visually showing a signal received from an external or refrigerator control unit through a screen, and an input function to enable a user's operation through the display. Therefore, the user can perform various tasks such as watching TV or connecting to the Internet while using the refrigerator, and visually check and control the operation state of the refrigerator.

1 is a cross-sectional view of a refrigerator door in which a conventional display is installed. As shown, the display 2 is seated on a separate display bracket (hereinafter referred to as bracket) installed on the door 1. The bracket 3 is an injection molded product made of synthetic resin, and is inserted into the inside of the door 1 and has a recessed shape for seating the display 2 on the front surface exposed to the outside of the door 1. The storage part 3a is formed.

The vacuum insulator 4 is attached to the rear surface 3b of the bracket 3, that is, the surface located inside the door 1. The vacuum insulator 4 is pressurized in the process of foaming the polyurethane foam used for thermal insulation to remove and cure the gas inside the polyurethane foam, and then vacuum it with a film 4a such as aluminum. As a plate-shaped heat insulating material, it is excellent in heat insulation than the said polyurethane foam. Attaching the vacuum insulator 4 to the back surface 3b of the bracket 3 is to compensate for the heat insulation layer of the door 1 that becomes thinner by installing the bracket 3.

That is, in the manufacture of the refrigerator door 1, a foamed liquid such as the above-described polyurethane foam for thermal insulation between the outplate 1a of the door 1 and the door liner 1b forming the rear surface of the door 1. (6) is filled. By the way, in the state in which the bracket 3 is installed, the rear side of the bracket 3 is inevitably thinned due to the receiving portion 3a having a recessed shape inward. Therefore, by attaching the vacuum insulation material 4 to the back surface 3b of the bracket 3, it is configured to complement the thinner heat insulating layer.

2 shows the fixing structure of the bracket 3 and the vacuum insulator 4. As shown, the vacuum insulating material 4 is fixed to the rear surface 3b of the bracket 3 by an adhesive member 7 such as double-sided tape or hot melt, and the rear surface of the bracket 3. The rib 5 which protrudes along the edge is integrally formed by 3b. The rib 5 is for preventing the flow in the state in which the vacuum insulating material 4 is seated on the rear surface 3b of the bracket 3.

Looking at the manufacturing process of the door (1) having the above configuration, the bracket (3) is installed on the door out plate (1a) configured to expose the front surface of the bracket (3), the bracket (3) The vacuum insulator 4 is attached and fixed to the rear surface 3b by using the adhesive member 7. Then, after injecting the foam (6) in the form of foam, the door liner (1b) is assembled before the foam (6) is foamed, and the foam (5) is cured after foaming, the door (1) ) Production is completed.

However, the conventional vacuum insulation fixing structure as described above has the following disadvantages.

In fixing the vacuum insulator 4 to the rear surface of the bracket 3, in the conventional fixing structure, it cannot be fixed without an additional adhesive member 7 such as a double-sided tape. Therefore, the process of installing the bracket 3 in the assembly process of the door 1 and the process of attaching the vacuum insulation material 4 using the adhesive member 7 are performed as separate processes. In this case, not only the manufacturing process of the door 1 becomes complicated, but additional cost is generated because a separate adhesive member 7 must be used.

And when the worker's mistake or the poor adhesive member 7 is used, the vacuum insulation 4 is not firmly fixed. In this case, there is a problem that the vacuum insulation 4 flows because there is a gap between the rib 5 and the vacuum insulation 4. In particular, when the foaming liquid 6 is injected, the foaming liquid 6 is foamed and the pressure is applied to the vacuum insulator 4 in the process of expanding. In the state of being fixed with the weak adhesive force, the foaming liquid ( There is a possibility that the vacuum insulator 4 is released from the position due to the foaming pressure of 6).

In addition, the ribs 5 have edges as shown in the enlarged view of FIG. 1. In particular, the edge which comes into contact with the side surface of the vacuum insulator 4 causes the damage of the vacuum insulator 4. The vacuum insulating material 4 has a characteristic that the heat insulating property is sharply deteriorated when the film 4a surrounding the outside thereof is torn and the vacuum state inside thereof is released. However, as described above, the film 4a of the vacuum insulation material 4 may be torn during the process of fixing the vacuum insulation material 4 by the edge formed in the rib 5 or during the operation after the fixing. In addition, the vacuum insulation 4 will result in a failure to perform the thermal insulation function.

In addition, in the conventional rib 5 structure, when an error occurs in the process of producing the vacuum insulation material 4 and the size thereof is slightly larger than the standard, the rib 5 is integrally formed and elastic It is also pointed out that it is difficult or impossible to insert the vacuum insulator 4 between the ribs 3 so as to be impossible to be in close contact with the rear surface of the bracket 3 because the deformation is impossible.

An object of the present invention is to provide a vacuum insulating material fixing structure of a refrigerator display bracket, which is a simple work process to improve the above-mentioned conventional problems.

Another object of the present invention is to provide a vacuum insulator fixing structure of a refrigerator display bracket having a reduced material cost.

Still another object of the present invention is to provide a vacuum insulator fixing structure of a refrigerator display bracket in which the fixing force of the vacuum insulator is improved.

It is still another object of the present invention to provide a vacuum insulation fixing structure of a refrigerator display bracket in which damage to the vacuum insulation is minimized during the operation.

1 is a side cross-sectional view of a refrigerator door in which a conventional display bracket is installed.

Figure 2 is a perspective view showing a conventional vacuum insulation fixing structure.

Figure 3 is a perspective view showing a preferred embodiment of the vacuum insulating material fixing structure according to the present invention.

Figure 4 is a longitudinal sectional view of the display bracket showing the structure after fixing the vacuum insulating material according to an embodiment of the present invention.

※ Explanation of code about main part of drawing ※

13 display bracket 13a: storage

13b: bracket back 14: vacuum insulation

14a: film 14b: sealing portion

15: rib 15a: protrusion surface

Vacuum insulating material fixing structure of the display bracket according to the present invention for achieving the above object, a display having a plurality of ribs formed on the front surface is formed with a receiving portion on the front surface, protruding inward along its edge on the back surface Brackets; It is composed of a vacuum insulation material which forms a heat insulation layer and is press-fitted and fixed by the compression force of the ribs between the ribs.

According to an embodiment of the present invention, the rib is formed as a curved surface protruding the surface in close contact with the vacuum insulation, preferably the side cross-section is hemispherical. The sealing portion, which is an adhesive portion between the upper side and the lower side film surrounding the edge of the vacuum insulating material, is provided to extend, and the height of the rib is formed to be in close contact with the bottom surface of the sealing part.

According to the configuration as described above, it is possible to fix the vacuum insulating material without a separate adhesive member, there is an advantage that can minimize the damage of the vacuum insulating material during the operation.

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

3 shows the fixing structure of the display bracket and the vacuum insulating material according to the present invention, Figure 4 shows the structure after fixing the display bracket and the vacuum insulating material according to the present invention. As shown, the display bracket 13 according to the present invention has a recessed receiving portion 13a in which a display is seated on a front surface exposed to the outside of the door as in the prior art, and a vacuum insulating material on the back thereof. It is comprised so that 14 may be fixed.

In addition, the rear surface 13b of the bracket 13 according to the present invention is characterized by a plurality of ribs 15 for fixing the vacuum insulating material 14, at predetermined intervals along the edge of the rear surface of the bracket 13b. Protruding. In addition, the ribs 15 are formed with curved surfaces 15a protruding forward, as shown in the enlarged view of FIG. 3, with surfaces facing each other with the bracket rear surface 13b interposed therebetween.

Forming the protruding surface 15a on the rib 15 as described above is for fixing the vacuum insulating material 14 to the rear surface of the bracket 13b using a compressive force. That is, the vacuum insulating material 14 is placed on the bracket back surface 13b and pressed, and as shown in FIG. 4, the vacuum insulating material 14 is press-fitted between the ribs 15, and the vacuum insulating material 14 is pressed. ) Is configured to be fixed by the compression force by the protruding surface. In this press-fitted state, the rib 15 is elastically deformed to the rear side to a certain degree, as shown in the enlarged view of FIG. 4, and the side surface of the vacuum insulator 14 is protruded by the protruding surface 15a of the rib 15. It is firmly fixed in a recessed state to some extent.

In addition, as shown in the enlarged view of FIG. 4, the protruding surface 15a of the rib 15 is formed to have a gentle curved surface when viewed from the side. Therefore, in the process of press-fitting the vacuum insulation material 14 to the bracket back surface 13b, the side surface of the vacuum insulation material 14 is moved along the inclination of the protruding surface 15a, so that the rib 15 is between the ribs 15. Since it can be easily inserted and there is no angled edge, it is possible to prevent the film 14b of the vacuum insulator 14 from being torn by the ribs 15, thereby preventing the vacuum degree of the vacuum insulator 14 from being damaged.

In addition, the rib 15 has an upper surface formed to a height that can be in close contact with the bottom surface of the sealing portion 14b of the vacuum insulating material 14, the reason for forming at this height is as follows.

In the sealing process for preserving the vacuum degree inside the vacuum insulating material 14, a sealing portion 14b, which is an adhesive portion between the upper and lower films 14a, which forms an outer surface of the vacuum insulating material 14, is formed. And leaving the sealing portion 14b long, as shown in the drawing, if the portion of the sealing portion 14b, even if the bonding portion is open, the remaining portion is bonded state to preserve the degree of vacuum inside It is to make it possible.

When the vacuum insulator 14 is fixed to the rear surface 13b of the bracket, the sealing portion 14b covers the upper surface of the rib 15. However, when there is a gap between the upper surface of the rib 15 and the bottom surface of the sealing portion 14b of the vacuum insulating material 14, an empty space is generated between the sealing portion 14b and the rib 15.

In this state, if the bracket 13 is installed in the door and the foaming liquid is injected, the foaming liquid is not injected into the empty space, and thus the foaming liquid remains as an empty space even after the foaming liquid is cured after foaming, resulting in deterioration of thermal insulation. Will bring. Therefore, the upper surface of the rib 15 is configured to be in close contact with the bottom surface of the sealing portion 14b of the vacuum insulating material 14, thereby preventing the formation of such empty space.

Referring to the assembly process of the door to which the vacuum insulating material fixing structure according to the present invention as described above is as follows.

The bracket 13 according to the present invention is installed in a door outcase configured to install the display bracket 13, and the vacuum insulating material 14 is fixed to the rear surface of the bracket 13. This fixing is performed by placing and pressing the vacuum insulator 14 between the ribs 15 formed on the rear surface of the bracket 13b. In this case, the vacuum insulator 14 has the ribs formed with a gentle slope. It can be inserted without damaging the film 14a enclosing the outside along the protruding surface 15b of 15, and in the inserted state, the side surface is compressed by the protruding surface 15a and fixed without flow. The bottom surface of the sealing portion 14b of the vacuum insulation material 14 will be in close contact with the top surface of the rib 15.

After filling the foam liquid for thermal insulation in the state in which the bracket 13 is installed and fastening the door liner, the foam is cured after foaming and the production of the door is completed. In the above process, the empty space is not generated between the sealing portion 14b and the rib 15 by the close contact between the bottom surface of the sealing portion 14b and the upper surface of the rib 15 during filling of the foam liquid, and thus, the empty space inside the door. The deterioration of the thermal insulation effect will be prevented.

As described above, the present invention is a technical gist of the refrigerator configured to install the display device, so that the vacuum insulation for thermal insulation can be fixed by a press-fit method.

Within the scope of the above description, many other modifications will be possible to one skilled in the art.

For example, in the above-described embodiment, the protruding surface 15a of the rib 15 is formed in a hemispherical shape only at the side end surface thereof, but it is of course possible to form the entire protruding surface 15a in a hemispherical shape.

The vacuum insulating material fixing structure according to the present invention described above is configured such that the vacuum insulating material is fixed by the compressive force of the rib projecting surface by forming a plurality of ribs on the rear surface of the display bracket and forming a protruding surface on the ribs.

According to such a structure, not only the vacuum insulating material can be fixed without using a separate adhesive member, but also the structure is made of a very simple structure of a press-fit method. Therefore, since the use of the adhesive member is omitted, the material cost can be reduced, and the process of installing the bracket on the door out plate and fixing the vacuum insulator to the bracket can be integrated, thereby simplifying the work process. Can be.

And since the vacuum insulating material is compressed by the ribs and firmly fixed, there is an advantage that can prevent the separation of the vacuum insulating material that has occurred in the case of a mistake of the operator or a bad adhesive member in the past.

In addition, since the side surface of the rib has a curved surface, it is possible to prevent damage to the film surrounding the vacuum insulator, thereby minimizing the damage of the vacuum insulation of the vacuum insulator and reducing the heat insulating ability during the work process. You can do it.

In addition, since the ribs according to the present invention are provided in plural numbers without being integrally connected, a certain amount of elastic deformation is possible. Therefore, even when a vacuum insulation material larger than the specification is used due to an error in manufacturing, it may be easily inserted using the elastic deformation of the rib.

Claims (3)

A display bracket having a plurality of ribs formed on a front surface thereof, the receiving portion having a display seated thereon, and having a surface protruding inwardly along an edge thereof on a rear surface thereof; The vacuum insulation material fixing structure of the refrigerator display bracket which forms a heat insulation layer and consists of a vacuum insulation material which is press-fitted and fixed by the compression force of the rib between the ribs. According to claim 1, wherein the ribs are formed in a curved surface protruding in close contact with the vacuum insulating material, preferably the side surface of the vacuum insulating material fixing structure of the refrigerator display bracket characterized in that hemispherical. According to claim 1 or claim 2, wherein the sealing portion which is an adhesive portion of the upper and lower film to wrap the vacuum insulation to surround the edge of the vacuum insulation is provided is extended, the height of the rib can be in close contact with the bottom surface of the sealing portion Vacuum insulation material fixing structure of the refrigerator display bracket, characterized in that formed to a value.