KR101330169B1 - Metal panel for fabrication construction - Google Patents

Abstract

The present invention relates to a prefabricated building metal panel which improves the structural strength of the metal panel, prevents water leakage even when the wind pressure is applied, and makes it possible to make various patterns of exterior by mutually compatible metal panels with different thicknesses. .
The present invention is made of a filler is filled between the front plate and the back plate, in the prefabricated building metal panel to form a mesh groove to the outside when stacked up and down, the first surface and the second projection on the upper surface of the metal panel Each of the first and second grooves are formed on the bottom surface of the metal panel so as to correspond to the two projections, respectively, the first grooves are formed by bending the front plate, and the second grooves are bent on the rear plate. To configure; When the metal panel is stacked up and down, the first protrusion is brought into close contact with the upper surface of the first groove so that a first isostatic space is formed at the coupling portion between the first protrusion and the first groove, and extends downward to form the first groove. The part is in contact with the upper side of the front plate of the other metal panel adjacent to the lower side is configured to form a second isostatic pressure space between the engaging portion of the first projection-first groove and the engaging portion of the second projection-second groove.

Description

Metal panel for fabrication construction

The present invention relates to a prefabricated building metal panel, and more particularly, to improve the structural strength of the metal panel, so that no leakage occurs even if the wind pressure is applied, and the metal panels of different thicknesses to be compatible with each other to cover the various patterns This would be done.

Generally, metal panel is a panel filled with fillers such as urethane foam, mineral wool, glass wool, styrofoam board, or polyester board between steel sheets or color steel sheets. It is a large flat type with smoothness and is widely used in new buildings and remodeled buildings that create beautiful appearance.

The metal panel is configured such that the top and bottom surfaces thereof can be fitted to each other so that a plurality of metal panels can be fixed in a vertical stacking manner, and the metal panels are stacked between adjacent metal panels when stacked. Grooves are formed to improve the exterior beauty.

In the general metal panel 1, as shown in FIGS. 1 and 2, the filler 4 is filled between the front plate 2 and the back plate 3 made of steel or color steel, and the upper surface thereof. In the front plate (2) and the rear end of each facing side of the plate (3) protrudes to form a projection (5), the lower end of each of the opposite end sides of the front plate (2) and the rear plate (2) Recessed to form a groove (6) such that the projection (5) and the groove (6) is fitted to each other is configured to stack each metal panel 1 with each other, the projection (5) rather than the depth of the groove (6) The length of the longer is formed so that the mating groove 7 is formed between each adjacent metal panel 1 in the vertical direction.

In addition, during the construction of each metal panel 1, the metal panel 1 located at the lower part is first fixed to the support frame 9 made of C-shaped steel or the like through the fixing bolt 8, and then the metal panel located at the upper part thereof ( 1) When forming the groove 6 in the lower surface of the metal panel 1 so as not to interfere with the head portion of the fixing bolt (6) to form a free space.

However, when wind pressure is applied to the surface of the metal panel in the state of constructing such a general metal panel, a repulsive force is generated to accumulate the energy inside the metal panel and radiate it to the outside. As a result, the area between the front plate and the rear plate forming the bottom side groove, which is the most vulnerable part, is easily broken.

That is, when the metal panels are stacked in the vertical direction, a portion where the protrusion of the top surface of the metal panel is coupled to the groove of the bottom surface of the metal panel is composed of only one portion, so that stress must be concentrated on this portion, and the front surface at this bonding portion Since the plate and the back plate are separated from each other, structurally weaker than other parts, the area between the front plate and the back plate forming the groove on the bottom side of the metal panel had to be easily broken.

In addition, the gap between the protrusions and the grooves forming the laminated part of the metal panel is large, and the pressure in the inner space where the metal panel is fixed is relatively lower than the pressure of the laminated metal panel outer portion, so that rainwater is loaded into the mage groove. When the water flows in, the rainwater passes between the protrusions and the grooves and leaks into the inner space of the metal panel due to the pressure difference.

In addition, in the process of fixing the lower metal panel to the support frame during the construction of the metal panel, there is a problem that the construction state varies depending on the skill of the operator, such that the fixing bolt is not too deep or completely stuck. When the repulsive force is generated, the area of the fixed part through the fixing bolt is narrow, so that the stress is concentrated in this area, there was also a problem that the deformation in the metal panel.

In addition, since the thickness of the metal panel is determined according to the distance between the front panel and the back panel, the width of the grooves and protrusions is also determined by the thickness of the metal panel. The widths of the grooves and the projections were also different, so they could not be installed to be compatible with each other.

The present invention has been proposed in view of this point, and improves the structural strength of the metal panel, so that no leakage occurs even when the wind pressure is applied, and the metal panels of different thicknesses to be compatible with each other by various exteriors It is to provide a prefabricated building metal panel that can be made.

In order to solve the above problems, the present invention, the metal panel is configured to form a groove in the outer side when the filling is made up between the front plate and the back plate when stacked up and down, the first surface of the metal panel In the prefabricated building metal panel, wherein the projections and the second projections are formed on the bottom surface of the metal panel, respectively, the first grooves and the second grooves respectively corresponding to the two projections are formed so that the projections and the grooves are coupled to each other, The thickness of the first protrusion is thinner than the width of the first groove so that when the metal panel is stacked up and down, the first protrusion is in close contact with the upper surface of the first groove, and thus the coupling portion between the first protrusion and the first groove is formed. A first isostatic space is formed in the chamber; A portion extending downward to form the first groove is in close contact with an upper portion of the front plate of another metal panel adjacent to the lower side, and a coupling portion of the first protrusion-first groove and coupling portion of the second protrusion-second groove are formed. A second isostatic space is formed therebetween; The center portion of the second isostatic pressure space is located above the center portion of the first isostatic pressure space, and the center portion of the first isostatic pressure space is relative to the position of the center of the mating groove. It may be located at the top.
Preferably, a drain hole may be formed in the front plate of the first projection and the lower portion of the second isostatic space so that the respective isostatic spaces and the mating grooves communicate with each other.

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According to the present invention, since two projections formed on the top surface of the metal panel are coupled to two grooves formed on the bottom surface of the metal panel when the metal panel is stacked up and down, the support area becomes strong at two places. In particular, the two grooves formed on the bottom surface of the metal panel are formed by bending the front plate and the rear plate, respectively, so that the metal panel is not easily fractured even when the repulsive force is generated against the wind pressure.

In addition, when the metal panels are stacked up and down, two isostatic spaces are continuously formed so that the pressure of the outer portion of the metal panel and the pressure of each isostatic space are equal, and an air sealant is interposed between the grooves and the grooves located close to the space inside the metal panel. As it blocks the space between each isobar space and the inside of the metal panel, it is possible to minimize the inflow of rain water to the isobar space by the pressure of each isobar pressure space even if rainwater is pushed through the meji groove due to the wind. Even if some rainwater is introduced or a little water is introduced into the metal panel, the water may be gradually drained through the drain hole to the side of the mating groove, thereby preventing corrosion and oxidation of the metal panel.

In addition, when fixing the metal panel through the fixing bolts, the bracket is fixed to fix the fastening of the fixing bolts, and the fixing bolts are always stuck to a certain depth regardless of the skill of the operator, thereby improving workability. Even when a reaction force against wind pressure is generated in the completed construction state, the pressure can be distributed to the entire surface of the bracket instead of being concentrated at the fixing bolt fixing position, thereby preventing damage to the metal panel due to stress concentration. .

In addition, it is possible to vary the thickness of the metal panel by increasing the metal groove portion side of the metal panel while maintaining the upper and lower coupling portions of the metal panel, so that the construction of the metal panel with different thicknesses is possible. It also has the advantage that the exterior construction is possible.

1 is a cross-sectional view of a prefabricated building metal panel construction state according to the prior art.
FIG. 2 is a detailed view of portion A of FIG. 1; FIG.
3 is a perspective view of a prefabricated building metal panel according to the present invention.
Figure 4 is a cross-sectional view of the prefabricated building metal panel use state according to the invention.
Figure 5 is a cross-sectional view of the prefabricated building metal panel use state according to another embodiment of the present invention.
Figure 6 is a cross-sectional view of the prefabricated building metal panel use state according to another embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the attached drawings.

3 and 4, the prefabricated building metal panel according to the present invention is made of the filler material 30 is filled between the front plate 10 and the back plate 20, when the vertically stacked up and down the mating groove ( 40).

The first protrusion 51 and the second protrusion 52 are respectively formed on the top surface of the metal panel so as to fit with each other when the metal panel is stacked up and down, and the two protrusions 51 ( First grooves 53 and second grooves 54 are formed to correspond to 52, respectively.

At this time, the first groove 53 is configured by bending the front plate 10 in multiple stages, the second groove 54 is configured by bending the back plate 20 in multiple stages, and the first protrusion 51 is the front plate ( 10 is configured by bending in multiple stages, and the second protrusions 52 are configured by bending the rear plate 20 in multiple stages.

When the first protrusion 51 is formed, the upper end portion of the front plate 10 is bent inwardly to form the mating groove forming portion 41, and the first protrusion 51 is bent upwardly from the mating groove forming portion 41 and then again 180. The first protrusion 51 may be formed by bending in the overlapping direction, and the first protrusion 51 may be bent in the horizontal direction, and then bent in the vertical direction to form the fixed bolt contact portion 61.

In addition, the thickness of the first protrusion 51 is made thinner than the width of the first groove 53 so that the first protrusion 51 is in close contact with the upper surface of the first groove 53 when the metal panel is stacked up and down. The first isostatic space 71 is formed at the engaging portion of the first protrusion 51 and the first groove 53, and the portion 53a extending downward to form the first groove 53 is adjacent to the lower side. The second panel is disposed between the coupling portion of the first protrusion 51 and the first groove 53 and the coupling portion of the second protrusion 52 and the second groove 54 so as to be in close contact with the upper portion of the front panel 10 of the metal panel. The isostatic space 72 is formed.

In addition, when the metal panels are stacked up and down, the air gap between the second protrusions 52 and the second grooves 54 is sealed between the second protrusions 52 and the second grooves 54 through the air seal 55. On the basis that the metal panel is erected in the vertical direction, the second isostatic space 72 is positioned above the first isostatic space 71 relatively, and the first isostatic space 71 is the mating groove 40. It is configured to be positioned relatively above the position of.

In addition, a drain hole 51a is formed in the first protrusion 51 so that rainwater flowing into each of the isostatic spaces 71 and 72 and the moisture inside the metal panel may be gradually discharged to the side of the mating groove 40. Drainage hole (51a) is preferably composed of a fine size of about 4 ~ 5mm in width to prevent rain water from flowing back through this.

When the upper part of the metal panel is fixed to the support frame (not shown) through the fixing bolt 60 in the horizontal direction, the fastening process of the fixing bolt 60 becomes more robust and the fastening process of the fixing bolt 60 can be easily performed. The bracket 80 is padded between the fixing bolt 60 and the metal panel so as to be provided.

Although the bracket 80 is not shown in detail in the drawings, it is preferable that a tooth formed in the filler 30 is formed at the upper end so that an operator can fix the bracket 80 at a time and then fasten it with a fixing bolt.

In the above configuration, when the metal panels are stacked up and down, first, the lower metal panel is erected in the vertical direction and fixed to the support frame through the fixing bolt 60 in the horizontal direction at the upper end thereof, and the upper metal panel is lowered. After inserting the upper side of the side metal panel, the fixing bolt 60 may be repeated to fix the support frame in the horizontal direction at the upper end of the upper side metal panel.

When the upper metal panel is fitted on the lower metal panel, the first grooves 51 and the second grooves 54 of the upper metal panel are mounted on the first and second projections 51 and 52 of the lower metal panel. Each of the grooves 53 and 54 bends the front plate 10 and the rear plate 20 so that the support positions of the lower metal panel and the upper metal panel are two places. Since it is configured, the joints of each protrusion 51, 52 and each groove 53, 54 have a stronger bearing force and the front plate 10 and the back plate due to the increased coupling force to two places even when a reaction force against wind pressure is generated. It is never torn or deformed due to the material's tensile strength (20).

In addition, since the upper part of the upper metal panel is fixed to the support frame through the fixing bolt 60 in the horizontal direction, the metal panel is fixed at its upper and lower ends, respectively, to maintain a fixed state, and the upper metal panel The lower side metal panel may form a mege groove 40 through the difference between the lengths of the protrusions 51 and 52 and the grooves 53 and 54, thereby improving the exterior beauty.

In addition, when the metal panel is fixed through the fixing bolt 60, the bracket 80 is fixed to the pad, so that the fastening of the fixing bolt 60 becomes more robust and the fixing bolt 60 is fixed regardless of the skill of the operator. Since it is always stuck to a certain depth to improve workability, even if a reaction force is generated against the wind pressure in a completed construction state, the pressure is not concentrated at the fixing bolt 60 fixing position and is distributed to the entire surface of the bracket 80. It is also possible to prevent damage to the metal panel due to the concentration of stress.

In addition, when each metal panel is stacked up and down, the first projection 51 is in close contact with the upper surface of the first groove 53, so that the first isostatic space (at the engaging portion of the first projection 51 and the first groove 53) 71 is formed, and the portion 53a extending downward to form the first groove 53 is in close contact with the upper surface of the front plate of the other metal panel adjacent to the lower side so that the first projection 51-the first groove ( The second isostatic space 72 is formed between the coupling portion of the second protrusion 53 and the coupling portion of the second protrusion 52 and the second groove 54. Since the air sealant 55 is interposed therebetween to block each of the isostatic spaces 71 and 72 and the inner space where the metal panel is fixed, the pressure at the outer portion of the metal panel is called P1, and the first isostatic space 71 is provided. Let P be the pressure P2, the pressure in the second isostatic space 72 is P3, and the pressure in the inner space where the metal panel is fixed is P4.

Therefore, even if the rain is blown by the wind while the rain is pushed into the inner space of the metal panel through the meji groove 40, the rainwater does not enter the respective isostatic space 71, 72 by the isostatic theory. The pressure of the wind acts so strongly that P1 is greater than the pressures of P2 and P3, so even if the rainwater is forced to enter the isostatic spaces 71 and 72, the air pressure filled in the isostatic spaces 71 and 72 is thus increased. In addition to acting as a resistance to the position of the center portion of each isopressure space (71) (72) relatively higher than the center position of the mating groove 40, the second isopressure space than the center position of the first isopressure space (71) Since the central portion of the 72 is located at a relatively high position, gravity may act according to the height difference, thereby minimizing the inflow of the isostatic space of the rainwater.

In addition, the first protrusion 51 is formed with a drain hole 51a having a fine size, so that some rain water is introduced into each of the isostatic spaces 71 and 72 as described above, even if the water is introduced into the metal panel. The lowering can be discharged into the mating groove 40 through the drain hole 51a, thereby preventing corrosion and oxidation of the metal panel.

5 is another embodiment of the present invention, the other technical configuration is equivalent to the embodiment of the present invention, when forming the first projection 51 through the front plate 10 is perpendicular from the mating groove forming portion 41 Direction and then bent to overlap in the 180 ° direction again to form a fixed bolt contact portion 61, bent horizontally from the fixed bolt contact portion 61, then bent vertically again to the first projection (51) ), All the actions can be made equivalent to the embodiment of the present invention.

In this case, the drain hole 11 may be formed in the front plate 10 at the lower position of the second isostatic space 72.

6 is another embodiment of the present invention, the other technical configuration is equivalent to the embodiment of the present invention, the front plate 10 of the lower side metal panel is bent in multiple stages without forming the first projection 51, One protrusion 51 is configured to extend and bend the lower end of the bracket 80, this also all the actions can be made equal to the embodiment of the present invention.

In this case, the drain hole 81 may be formed at the lower side of the bracket 80.

Although not shown in the drawings, when the thickness of the metal panel according to the present invention is configured differently, the coupling position of each protrusion and each groove of each metal panel is not deformed, and the front plate 10 of the metal panel is formed in the groove forming portion ( 41) the side is configured to vary the thickness of the metal panel, and in this way it is possible to be compatible with the construction of the metal panel with a different thickness has the advantage that the exterior construction with a variety of panels is possible.

10: front panel 11,51a, 81: drain hole
20: rear panel 30: filler
40: mege groove 41: mege groove forming part
51: first projection 52: second projection
53: first groove 53a: extended portion
54: second groove 55: air sealant
60: fixing bolt 61: fixing bolt contact area
71: first isometric pressure space 72: second isometric pressure space
80: bracket

Claims (7)

The metal panel is configured to form a megger groove outward when the filler is filled between the front plate and the rear plate and stacked up and down, and the first and second protrusions are formed on the upper surface of the metal panel, respectively. In the lower surface of the panel, the first and second grooves respectively corresponding to the two projections are formed in each of the prefabricated building metal panel in which the respective projections and grooves are coupled to each other,
The thickness of the first protrusion is thinner than the width of the first groove so that when the metal panel is stacked up and down, the first protrusion is in close contact with the upper surface of the first groove, and thus the coupling portion between the first protrusion and the first groove is formed. A first isostatic space is formed in the chamber;
A portion extending downward to form the first groove is in close contact with an upper portion of the front plate of another metal panel adjacent to the lower side, and a coupling portion of the first protrusion-first groove and coupling portion of the second protrusion-second groove are formed. A second isostatic space is formed therebetween;
The center portion of the second isostatic pressure space is located above the center portion of the first isostatic pressure space, and the center portion of the first isostatic pressure space is relative to the position of the center of the mating groove. Prefabricated building metal panel, characterized in that located at the top. delete delete delete delete The method of claim 1,
Prefabricated building metal panel, characterized in that the drainage hole is formed in the front plate of the lower portion of the first projection, the second isostatic space so that each isopressure space and the mating groove. delete

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