KR20100133871A - A board for build and its manufacturing method - Google Patents

Abstract

PURPOSE: A panel for wall construction and a manufacturing method thereof are provided to improve the fire retardant characteristic and enable the recycle of a panel for wall construction. CONSTITUTION: A panel for wall construction comprises a metal junction plate(11) and metal side plates(12). The metal junction plate is formed by forming a concavo-convex pattern on the top and bottom of a metal sheet. The metal side plates are made of metal sheets and attached to both sides of the metal junction plate.

Description

Building wall material and its manufacturing method {A board for build and its manufacturing method}

The present invention relates to a building wall material and a method for manufacturing the same, and more particularly, in a building wall material, forming a metal binding plate processed to form irregularities up and down on a metal thin plate formed of thin metal, such as iron and non-ferrous metals, and the metal Metal side plates made of metal thin plates are joined to both sides of the binding plate by means of joining means to form metal wall materials, enabling the recycling of building wall materials, increasing the flame retardancy, minimizing the generation of waste during the demolition of buildings, and improving sound insulation and durability. It is to maximize.

In general, plywood or gypsum board is mainly used for building wall materials.

Plywood or gypsum board as described above is used to put an insulating material such as glass wool or styrofoam between the plate and the plate in order to reduce the weight.

However, the conventional building wall material as described above has a problem that the material is made of wood or gypsum board, glass wool, styrofoam, etc., which is impossible to recycle when demolished and causes a large amount of waste.

In addition, the conventional building wall material has a problem of generating a large amount of harmful gas in case of fire is not easy to extinguish the fire resistance is not excellent.

In addition, the conventional building wall material has a problem that the durability is weak so that it is easily broken by the impact and easily invaded from the outside during the construction of the wall.

Accordingly, the present invention is to solve the problem that the conventional building wall material is not recycled, causing building waste, low flame retardancy and weak durability as described above.

That is, the present invention forms a metal binding plate processed to form irregularities up and down the metal thin plate formed of a thin metal, such as iron and non-ferrous metal, and joining the metal side plate made of a metal thin plate on both sides of the metal binding plate by the joining means To form a metal wall material.

Accordingly, the present invention is to form a wall material by joining the metal binding plate and the metal side plate made of a metal thin plate for the building wall material can be recycled, flame retardancy is improved and does not cause construction waste and durability is improved.

Hereinafter, described in detail by the accompanying drawings as follows.

The present invention is intended to be recyclable and to increase the flame retardancy and durability in constructing a building wall material.

That is, according to the present invention, in the building wall material, as shown in FIGS. 1 to 4, the metal binding plate 11 and the metal, which are processed to form irregularities up and down, are formed of a thin metal plate formed with a thin metal such as ferrous and nonferrous metals. On both sides of the binding plate 11, the metal wall plate 10 formed by joining the metal side plate 12 made of the metal thin plate by the joining means is formed.

Here, the metal binding plate 11 may be any one of the metal corrugated plate is processed by folding the bone as shown in Figure 1a and the metal concave-convex plate is formed in a zigzag up and down as shown in Figure 1b. It can be.

In addition, the metal thin plate forming the metal binding plate 11 and the metal side plate 12 of the metal wall material 10 is preferably carried out to 1mm or less for light weight and cost reduction, and the outer surface zinc and It can be carried out by coating with a corrosion inhibitor such as resin.

In addition, the metal binding plate 11 may be implemented in two or more layers, and the metal side plate 12 is provided between the metal binding plates 11 to be bonded to each other.

In addition, when configuring the metal binding plate 11 in a multilayer, it can be carried out to be alternately stacked at an angle within 90 ° as shown in FIG.

In addition, the metal side plate 12 may be formed of a mesh plate as shown in FIG. 3, or as shown in FIG. 4, the mesh plate 13 may be joined to any one of the inner and outer sides of the metal side plate to improve its durability. It is.

In addition, the metal side plate 12 may be formed by a net plate, and the metal side plate 12 formed of the net plate may be formed by filling a flame-retardant resin.

As shown in FIGS. 5 to 6, the joining means may be performed by a plating joint 21 in which the metal wall member 10 made of the metal binding plate 11 and the metal side plate 12 is plated to each other by plating. The metal binding plate 11 and the metal side plate 12 of the metal wall material 10 may be partially welded with a resin and immersed in the plating bath 31, and then contacting the metal wall material with the electrode 33. The positive electrode 32 having the plated metal 34 bound to the opposite side of the electrode 33 is brought close to each other so that the plated joint 21 is formed by intensive plating at the joint.

Meanwhile, as illustrated in FIG. 6, the protrusions of the metal binding plate 11 constituting the metal wall material 10 and the metal binding plate 11 may be used to concentrate the plating by the plating joint part 21. The plated portion 21 may be formed through the plated hole 21a by forming the plated hole 21a through at least one side of the metal side plate 12 corresponding to the protruding portion.

Another embodiment of the joining means is shown in Figure 7 and 8 and 9 that can be carried out with the spot welding portion 22 to which the metal sheet facing each other by spot welding is bound, as shown in FIG. As shown in the figure, a joining through hole 20a is formed on the metal side plate 12 of the metal wall 10 facing the protruding portion of the metal binding plate 11, and the metal binding plate 11 and the metal side plate 12 are formed. Is partially welded by resin, and includes a plurality of welding ports 41 up and down, and a welding power supply 42 for supplying a high voltage current for a spot, and then one of the upper and lower welding ports 41. The welding port 41 passes through the joining through hole to be in contact with the protrusion of the metal binding plate 11 so that the welding is performed.

 As shown in FIG. 8, a rotary distributor 43 sequentially distributes and supplies power to prevent the overload of the welding power supply 42 due to simultaneous power supply to the plurality of welding ports 41. It can be carried out to make the welding.

On the other hand, as shown in Figure 9 through the metal bond plate 11 and the metal side plate 12 of the metal wall 10 is formed through the long hole-shaped joining through hole 20a, the welding port 42 is rotated By constructing and forming a weld end 42a at both sides at the lower end, the welding port 42 passes through the joint through-hole 20a and then rotates 90 ° to the top of the spot welding joint 22, and then welds by lowering. It can be configured and implemented.

Another embodiment of the joining means can be implemented with a rivet joint portion 23 which is bound by rivets, as shown in Figure 10, the protruding of the metal wall member 10, the metal binding plate 11 and the metal binding A rivet joint hole 23a formed in the metal side plate 12 facing the protrusion of the plate 11 through the rivet joint hole 23a, and formed in the protrusion of the metal binding plate 11 on the metal side plate 12. Forming a joining through hole (20a) on the surface facing the face and partially welded the metal binding plate 11 and the metal side plate 12 with a resin, and then through the joining through hole (20a) rivet joint hole (23a) The rivets are bonded to each other so that rivet joints are made.

On the other hand, the rivets of the rivet joint portion 23 is preferably performed through the rivets through the center.

As another example of the bonding means, a heat insulating air layer is formed between the metal binding plate 11 and the metal side plate 12, and the metal binding plate 11 and the metal side plate 12 are thermally bonded as shown in FIG. The resin bonding portion 24 can be formed by resin bonding, and the protrusion of the metal binding plate 11 and the metal side plate 12 are bonded by a resin, and the resin is made of urea resin or epoxy. It can select and implement either.

Meanwhile, as shown in FIG. 12, the flame retardant resin filling part 30 filled with the flame retardant resin may be formed in the insulating air layer to increase durability and heat insulation, and as shown in FIG. 13, the flame retardant resin filling part ( 30) by forming an air layer by foaming can reduce the weight and increase the insulation and sound insulation effect.

Hereinafter, the use process of the present invention will be described.

As described above, in the building wall material, the metal binding plate 11 processed to form irregularities up and down in the metal thin plate formed with thin metals such as iron and non-ferrous metal, and the metal thin plate on both sides of the metal binding plate 11. According to the present invention, the metal wall plate 10 formed by joining the metal side plate 12 formed by the joining means is used as an interior wall material such as a partition wall and an exterior wall material such as a soundproof wall in a building to improve flame resistance and durability as well as sound insulation. will be.

In particular, the present invention is made of a metal material can be recycled does not cause construction waste.

In addition, the present invention is made of a metal material is not easily broken and prevented from intrusion from the outside.

In addition, the bonding means of the metal binding plate 11 and the metal side plate 12 are bonded to each other by the resin bonding portion 24 to be thermally bonded, and an insulating air layer is formed between the metal binding plate 11 and the metal side plate 12. And heat conduction is not made between the metal binding plate 11 and the metal side plate 12 is effective to heat insulation.

Therefore, the present invention can be recycled by constructing a metal wall and a metal side plate bonded by the joining means made of a metal thin plate does not cause construction waste, excellent flame retardancy and excellent insulation and sound insulation and durability will be.

Figure 1a is a perspective view showing that the metal binding plate is carried out with a metal protrusion plate in one embodiment according to the present invention.

Figure 1b is a perspective view showing that the metal binding plate in one embodiment according to the present invention carried out with a metal concave-convex plate.

Figure 2 is a perspective view showing that in the practice of the present invention to form a metal binding plate with a metal protrusion plate and laminated bonding to form a right angle.

Figure 3 is a perspective view showing that the metal side plate is configured by a mesh plate in the practice of the present invention.

4 is a perspective view showing that the metal side plate is provided with a mesh plate in the practice of the present invention.

5 and 6 are exemplary views showing the binding of the metal wall material to the multilayer by the plating joint in the embodiment according to the present invention.

7 and 8 and 9 is an illustration of the bonding process by the spot welding in the implementation according to the present invention.

10 is an illustration of a bonding process by the rivet joint in the embodiment according to the present invention.

11 is an illustration of a bonding step by the resin bonding portion in the practice according to the present invention.

Figure 12 is an exemplary view showing that, in the practice according to the present invention, a flame retardant resin filling part is formed.

Figure 13 is an exemplary view showing the air layer formed by foaming the flame retardant resin filling portion in accordance with the present invention.

<Description of the symbols for the main parts of the drawings>

10: metal wall material

11 metal binding plate 12 metal side plate 13 netting plate

20a: through hole

21: plating joint 21a: plating

22: spot welding joint 23: rivet joint 23a: rivet joint

24: resin bonded portion

30: flame retardant resin filling unit

31: plating bath 32: + electrode

33: electrode 34: plating metal

41: welding port 42: welding power supply 43: rotary distributor

Claims (14)

In building wall materials; The metal bonding plate 11 which processed the metal thin plate which formed the metal thinness up and down to form uneven | corrugated, and the metal side plate 12 which consists of metal thin plates on both sides of the said metal binding plate 11 by the joining means Building wall material, characterized in that formed the wall material (10). The method of claim 1; The metal binding plate 11 is configured to select any one of the metal corrugated plate is formed by folding the bone and the metal concave-convex plate is formed by zigzag up and down, The metal thin plate forming the metal binding plate 11 and the metal side plate 12 of the metal wall material 10 is formed to be less than 1mm, and to form a coating with a corrosion inhibitor such as zinc and resin on the outer surface to prevent corrosion, The metal binding plate 11 is composed of two or more layers, and the metal binding plate 11 and the metal binding plate 11 are bonded to each other, and the metal side plate 12 is bonded between the metal binding plate 11. Architectural wall materials, characterized in that any one selected. The method of claim 2; Building wall material, characterized in that the metal binding plate (11) consisting of a metal corrugated plate in a multi-layered stack formed by staggering at an angle within 90 degrees. The method of claim 1; The metal side plate 12 is formed of a net plate filled with a flame retardant resin, and the construction of any one selected from the one configured by bonding the net plate 13 to any one of the inner and outer sides of the metal side plate 12. Wall materials. The method of any one of claims 1 to 3;  The joining means The joining means is composed of a plated joint 21 in which a metal wall member 10 made of a metal binding plate 11 and a metal side plate 12 is plated to each other by plating. It consists of a spot welding joint part 22 in which the metal thin plates facing each other by spot welding are bound, and the joint is penetrated to the surface facing the protruding portion of the metal binding plate 11 to the metal side plate 12 of the metal wall material 10. Formed by forming the ball 20a, A rivet joint hole is formed by a rivet joint portion 23 which is bound by rivets, and the metal side plate 12 facing the protrusion of the metal wall plate 10, the metal binding plate 11 and the protrusion of the metal binding plate 11. The through-holes 23a formed on the metal side plate 12 and the junction through-holes 20a formed on a surface of the metal side plate 12 facing the rivet joint hole 23a formed; Any one comprising a resin bonding portion 24 having a heat insulating air layer formed between the metal binding plate 11 and the metal side plate 12 and allowing the metal binding plate 11 and the metal side plate 12 to be resin bonded to be thermally bonded together. Building wall material, characterized in that one selected. The method of claim 5; Building wall material, characterized in that the flame-retardant resin filling unit 30 is filled with a flame-retardant resin in the insulating air layer. The method of claim 6; Building wall material, characterized in that the air layer formed by foaming in the flame-retardant resin filling unit (30). In the manufacture of building wall materials, The metal wall plate 11, which is processed to form irregularities up and down on the metal thin plate formed with a thin metal, and the metal side plate 12 made of the metal thin plate are joined by a plating joint 21 to which the metal plating plate is bonded together. Formed into, The metal binding plate 11 and the metal side plate 12 of the metal wall material 10 are partially welded by resin and submerged in the plating bath 31, and then the-electrode 33 is brought into contact with the metal wall material. 33. A method of manufacturing a building wall material comprising a plated junction 21 formed by immersion plating by bringing the + electrode 32 having the plated metal 34 bound thereto on the opposite side thereof to the junction. The method of claim 8; The metal side plate 12 corresponding to the protruding portion of the metal binding plate 11 constituting the metal wall member 10 and the protruding portion of the metal binding plate 11 in the binding by the plating joint portion 21 to enable concentrated plating. And a plated portion 21 is formed through the plated portion 21a to form a plated portion 21a through the plated portion 21a. In the manufacture of building wall materials, By the spot welding joint junction 22 in which the metal binding plate 11 processed to form irregularities up and down in the metal thin plate made of thin metal and the metal side plate 12 made of the metal thin plate are bound by mutual welding. To be joined to form a metal wall material, In the metal side plate 12 of the metal wall 10, a joining through hole 20a is formed on a surface of the metal wall plate 10 facing the protruding portion of the metal binding plate 11, and the metal binding plate 11 and the metal side plate 12 are made of resin. And a plurality of welding ports 41 up and down after being partially welded, and having a welding power supply 42 for supplying a high voltage current for a spot, and then welding ports on one side of the upper and lower welding ports 41. The manufacturing method of the building wall material characterized in that the welding is made by (41) penetrating the through-hole through contact with the protrusion of the metal binding plate (11). The method of claim 10; The welding is sequentially made by the rotary distributor 43 for distributing and sequentially supplying power to prevent the overload of the welding power supply 42 due to the simultaneous power supply to the plurality of welding ports 41. Method for producing a building wall material, characterized in that. 12. The method of claim 10 or 11; The metal binding plate 11 and the metal side plate 12 of the metal wall 10 is formed to pass through the long hole-shaped joining through hole 20a, the welding port 42 is configured to be rotated and welded to both ends at the lower end ( Building wall material, characterized in that the welding port 42 is formed by descending after the welding port 42 passes through the joint through hole (20a) by rotating a 90 ° to the upper portion of the spot welded joint 22 (42a) Manufacturing method. In the manufacture of building wall materials, The metal wall plate 11, which is processed to form irregularities up and down, and the metal side plate 12, which is made of metal foil, is joined by a rivet joint part 23 which is bound by mutual rivets. Formed into, The metal wall plate 10 penetrates through the rivet joint hole 23a in the metal side plate 12 facing the protrusion of the metal binding plate 11 and the protrusion of the metal binding plate 11, and the metal in the metal side plate 12. A joining through hole 20a is formed on a surface facing the rivet joint hole 23a formed in the protruding portion of the binding plate 11, and the metal binding plate 11 and the metal side plate 12 are partially added by resin. Method of producing a building wall material, characterized in that the rivet joining is made by binding the rivet to the rivet joint hole (23a) through the junction through hole (20a) after contact. In the manufacture of building wall materials, A metal binding plate 11 processed to form irregularities up and down on a metal thin plate formed of a thin metal layer and a metal side plate 12 made of a metal thin plate form an insulating air layer, and are thermally bonded by any one of urea resin and epoxy resin. A method of manufacturing a building wall material, characterized in that the metal wall material is bonded to each other by a resin bonded portion (24).

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