KR100398672B1 - the closing structure of the top end of assembling heat shield panel - Google Patents

Abstract

The present invention relates to the finishing structure of the upper end of the prefabricated insulation panel, and more specifically, the existing prefabricated insulation panel, which is mainly used for various prefabricated refrigeration and freezer warehouses, due to the poor finish of the upper end of the prefabricated insulation panel, the insulation foam liquid leaked out and excessive silicone treatment. The present invention relates to a finish structure of the upper end of a prefabricated insulation panel capable of eliminating problems such as unavoidable appearance due to necessity.

In other words, between the upper surface of the uneven plate (20b) of the prefabricated panel 20 and the fitting jaw (23) of the chassis, not using the memory angle 24 as in the prior art, the finishing plate does not generate a gap (1, 10), but the fixing plate, the finishing plate (1, 10) is a concave-convex portion 2 and the planar portion (5) and a plurality of concave portions (2a) and convex portions (2b) are formed at regular intervals and Each bent portion 3 is formed on the outer three sides of the planar portion 5, and a step 4 is formed at the lower portion of the uneven portion 2 so that a part of the upper end of the plate 20b can overlap; A plurality of concave portions 11a and convex portions 11b are formed at regular intervals, and the stepped portions 14 that are as high as the thickness of the concave-convex portion 11 and the outer plate 20b are provided, and the locking jaws of the chassis 22 are formed on the outer three sides. It is characterized in that each of the bent portions 13 can be fitted to (23).

Description

The closing structure of the top end of assembling heat shield panel}

The present invention relates to the finishing structure of the upper end of the prefabricated insulation panel, and more specifically, the existing prefabricated insulation panel, which is mainly used for various prefabricated refrigeration and freezer warehouses, due to the poor finish of the upper end of the prefabricated insulation panel, the insulation foam liquid leaked out and excessive silicone treatment. The present invention relates to a finish structure of the upper end of a prefabricated insulation panel capable of eliminating problems such as unavoidable appearance due to necessity.

Looking at the conventional prefabricated insulation panel structure as shown in Figure 6 is filled with a heat insulating material 21 of a predetermined thickness therein, the outer surface of the metal plate 20a or metal concave-convex plate (20b) on both sides thereof ( 20) is provided, and the chassis that can be assembled with each other around the four sides is provided, in particular the upper end of the concave-convex plate 20b of the one side of the outer surface plate 20 is formed in the end of the bent portion in the characteristic of the concave-convex structure It is not possible to insert the memory angle 24 into the upper chassis, and then attach the uneven plate 20b to the angle 24 to fix the rivet 25 so that a perfect finish is not possible. 26) occurred.

As a result, considerable difficulty has been generated in panel production. In other words, the panel production process is to insulate the external chassis, such as the outer chassis, the outer plate and the like, while injecting a foam liquid at a constant pressure inside the inside to be able to be foamed by itself to form a heat insulating material 21, at this time There was a significant problem that the foam liquid flowed out into the gap 26 and not only polluted the surroundings, but also continuously flowed for a considerable time (until the internal insulation was completely finished and fixed), and even after panel production and installation There is a closed end such as mold generation and foreign matter jamming due to the inflow of moisture into the gap 26, and this part is closed with silicon during installation.

In addition, the silicon treatment process is not only cumbersome, but also results in a seemingly unsightly appearance as it must be processed in multiple layers instead of at once.

Due to these problems, despite the fact that the surface of the uneven surface plate having a lot of effects of increasing the strength and smoothness of the cold air is avoided by preventing the quality improvement of the prefabricated panel.

Therefore, in the present invention, in the structure of the prefabricated insulating panel as described above, it was devised to eliminate all the problems of the existing insulating panel that occurred, as the outer plate is a metal material that did not form a bent portion on the upper end as a synthetic resin The finishing plate with bending parts is manufactured and manufactured by combining with an outer plate to provide a completely sealed and neat appearance, and completed as a technical problem thereof.

1 is a perspective view showing a preferred embodiment of the present invention

2 is a perspective view showing another embodiment

Figure 3 is a cross-sectional view of the upper end of the panel combined with the finish plate presented in the present invention

Figure 4 is a cross-sectional view of the upper end of the panel in a state that the finishing plate of the other structure of the finishing plate presented in the present invention is coupled

5 is a perspective view of one embodiment of a panel coupled to one of the finishing plates presented in the present invention Figure 6 is a cross-sectional view of the top of a conventional prefabricated panel

■ Explanation of the major symbols used in the main parts of the drawings ■

A: Insulation panel 1, 10: Finishing plate

2,11: uneven part 2a, 11a: concave part

2b, 11b: Convex part 3, 13: Bending part

4, 14: step 5: flat part

20: exterior plate 20a: flat plate

20b: uneven plate 21: insulation

22: Chassis 23: Fitting

24: Angle 25: Rivet

1 is a perspective view showing a preferred embodiment of the present invention, Figure 2 is a perspective view showing another embodiment, Figure 3 is a cross-sectional view of the upper panel of the present invention is coupled state, Figure 4 is a panel combined with the present invention 5 is a cross-sectional view of a conventional panel upper end, and the configuration and operation of the present invention will be described in detail as follows.

Insulation panel (A) used in various prefabricated refrigeration and freezing warehouses, that is, two outer plates 20 made of a metal plate 20a and an uneven plate 20b, and a chassis 22 provided around four sides. In the heat insulation panel (A) in which the heat insulation material 21 is foamed and fixed in between, the upper end of the uneven plate 20b of the outer surface plate 20 fitted the memory angle 24 to the chassis 22 fitting jaw 23. In the conventional finishing structure of tightening the concave-convex plate 20b in the state with the rivet 25 to the angle 24,

Between the upper surface of the uneven plate 20b on one side of the two outer plates 20 and the fitting jaw 23 of the chassis, a finishing plate which does not generate a gap is inserted, rather than using the memory angle 24 as in the related art. The fixing plate 20b may be seated after fixing, but the finishing plate 1 may have a plurality of recesses 2a and convex portions 2b formed at regular intervals as shown in FIG. 1. Each of the bent portions 3 is formed on the outer surface 3 of the flat portion 5 and the flat portion 5, and a part of the upper end of the plate 20b may overlap the lower portion of the uneven portion 2. Step 4 is formed so that each.

As another structure of the finishing plate, as shown in FIG. 2, a plurality of concave portions 11a and convex portions 11b of concave-convex shape are formed on the top of the outer surface plate 20b on one side of the two outer surface plates 20a and 20b. ) Is formed at regular intervals and the step portion 14 which is higher than the convex portion 11b of the concave-convex portion 11 and the outer surface plate 20b is formed at regular intervals, and the bent portion 13 is formed on the outer three sides. It may be provided to have a finish plate 10 formed respectively.

The finishing plates 1 and 10 may be made of various metal materials, but the bent parts 3 and 13 are formed on the uneven parts 2 and 11, and the flat part 12 and the uneven parts 11 are formed. Since it is integrally formed, it may be desirable to mold the synthetic resin due to its manufacturing characteristics.

The bent parts 3 and 13 of the finishing plates 1 and 10 having the above-described configuration are fitted into the locking jaws 23 of the chassis 22, and the uneven parts 11 are upper ends of the uneven plates 20b made of metal. A part of the seating and overlapping state is to be combined.

As such, the upper end of the concave-convex plate 20b is completely sealed with the inside, as well as a neat finish, compared to the existing finishing structure, so there is no need to perform additional finishing such as silicone after the outflow and installation of the foaming liquid in the manufacturing process. As a clean appearance is provided, it is possible to improve the quality of frozen and refrigerated warehouses.

As described in detail above, the present invention is simple, but the effect of the insulation panel structure used in various prefabricated buildings, etc. The effect is unexpectedly great as the top panel is no leakage of foaming liquid when foaming the insulation material, the production efficiency is high to increase productivity In addition to making significant contributions, the use of silicon is not used at all in panel installation, which not only reduces unnecessary processes and costs, but also provides a neat appearance, which is expected to be great as it is a breakthrough that can further increase the merchandise. .

Claims (2)

Insulation panel (A) used in various prefabricated refrigeration and freezing warehouses, that is, two outer plates 20 made of a metal plate 20a and an uneven plate 20b, and a chassis 22 provided around four sides. In the heat insulation panel (A) in which the heat insulation material 21 is foamed and fixed in between, the upper end of the uneven plate 20b of the outer surface plate 20 fitted the memory angle 24 to the chassis 22 fitting jaw 23. In the conventional finishing structure of tightening the concave-convex plate 20b in the state with the rivet 25 to the angle 24, The finishing plate 1 does not use a gap between the upper surface of the uneven plate 20b on one side of the two outer plates 20 and the fitting jaw 23 of the chassis, as in the related art, without generating a gap. 10, and then the fixing plate 20b is to be provided to be seated, the finishing plate 1 is a plurality of concave portions (2a) and convex portion (2b) irregularities formed at regular intervals (2) ), The bent portion 3 is formed on the planar portion 5 and the outer three sides of the planar portion 5, and a step so that a part of the upper end of the plate 20b overlaps the lower portion of the uneven portion 2. Finishing structure of the upper end of the insulation panel, characterized in that each (4) is formed. The method of claim 1, The finishing plate 10 has a plurality of concave portions 11a and convex portions 11b having an uneven portion 11 and a convex portion 11b of the convex portion 11b formed at regular intervals with an outer surface plate 20b. The upper end of the insulating panel, characterized in that the bent portion 13 is formed to give a step 14 as high as the thickness and can be caught on the engaging jaw 23 of the chassis 22 on the outer three sides.