KR200370187Y1 - Reinforced building panel - Google Patents

Abstract

The present invention relates to a reinforcement building panel, which cold rolls the building plate constituting the building panel and allows its edges to be formed vertically, and protrudes the central predetermined portion for reduced volume and reinforcement force due to the vertical formation of the edges. By securing the same pin fastening length, increasing the reinforcement force, by increasing the welding area of the angle for the internal reinforcement of the building panel, reducing the overall thickness, and protruding a part of the center portion, no marks are left when placing concrete, The object is to provide a reinforcement building panel that is lightweight and allows for increased reinforcement.

The present invention is in a plurality of concrete panels for building the formwork for manufacturing the formwork such as walls, beams, columns, ceiling for building construction, in a state in which the square frame shape for constituting the edge frame of the building panel, respectively Welding is made, the edge portion is formed in a rectangular shape by cold rolling, the building plate member is joined to Lego plywood on the back; The interior of the rectangular frame formed by the welding of the building plate is welded in the transverse direction or longitudinal direction, respectively, characterized in that made of a reinforcing angle to impart the transverse and longitudinal support stress to the panel frame.

When the present invention is applied, the reinforcing force is increased because it has a bent portion constantly bent in the body of the building plate and the transverse direction, longitudinal reinforcement angle constituting the building panel, and is not easily bent or broken. . In addition, the increase of the reinforcement force has the advantage of effectively reducing the weight of the overall reinforcement building panel by omitting some longitudinal reinforcement angle, and the edge of the building plate forming the building panel is manufactured vertically so that the wall surface or There is an advantage that the traces of building boards are not left in the columns, beams, ceilings, etc.

Description

Reinforcement building panel {REINFORCED BUILDING PANEL}

The present invention relates to a reinforcement building panel, and in more detail, cold rolls the building plate constituting the building panel and allows its edges to be formed vertically, and reduces the volume and reinforcement force due to the vertical formation of the center predetermined portion. To ensure the same pin fastening length, increase the reinforcement force, and increase the welding area of the angle for internal reinforcement of the building panel, reduce the overall thickness, and protrude part of the central part to make marks on concrete casting It relates to a reinforcement building panel which does not remain and is lightweight and allows reinforcement to be increased.

As is well known, in constructing a formwork for concrete placing in order to build a building in the prior art, in the state in which a plurality of building panels 40 as shown in Figure 1c are connected in parallel, the concrete in the building panel ( The building was built in 40) to build a specific building.

In the building panel 40, the building plate 2 as shown in FIG. 1A is generally combined in its transverse and longitudinal directions to form an entire frame, and a plurality of angles inside the frame form the entire frame. It is configured to be able to reinforcement, the conventional building plate (2) is formed in the front and rear of the lower surface of the bridge protruding along the length in the longitudinal direction, respectively, and a plurality of pin coupling holes (10) in the center thereof And a support 4 having a plywood support protrusion 8 which protrudes along the longitudinal direction at an upper surface predetermined portion thereof and is in close contact with the plywood. At this time, the corners of the building plate 2 are constantly rounded.

Accordingly, the building plate 2 is combined to form a rectangular frame, and the plywood is brought into close contact with the plywood support protrusion 8 protruding from the upper surface thereof, and the plywood 20 and the building plate 2 are pins 30. ), The building panel 40 as shown in Figure 1b is assembled. At this time, the reinforcing angle 42 as shown in FIG. 1F is welded to reinforce the building plate 2 constituting the long direction of the building panel 40 in the transverse direction, as shown in FIG. 1D. The same building panel 40 is configured.

The building panel 40 manufactured in the above-described manner is coupled to the plurality of lateral direction to form a formwork for concrete placing to form the walls, beams, pillars, etc. of the building, as shown in Figure 1e. However, when such a building panel 40 is closely bonded in the lateral direction, the edges of the building plate 2 forming the edge frames of the building panels 40 and 40 'are rounded, and thus, shown in FIG. 1E. As shown in the figure, a gap 46 is generated in the close contact portion of each building panel 40, 40 ′.

Therefore, after the concrete is placed and cultivated, the marks due to the gap 46 is left in the walls, beams, pillars, etc. of the building, there is a problem that a separate manpower is to be removed to remove the marks. In addition, the conventional building panel 40 has a narrow welding surface 444 (refer to FIG. 1F) in which a reinforcing angle 44 longitudinally connected with a reinforcing angle 42 for reinforcing a transverse direction thereof is shown in FIG. Weld length: A) There is a problem that the reinforcement is weak. Reference numeral 446, which is not shown, shows a drill hole to which a pin is coupled.

In addition, since the reinforcement such as support stress is relatively weak due to such condensation, the longitudinal reinforcement angle 44 must be connected from the top to the bottom of the entire building panel 40 in the same length so that the weight is relatively large. There was a disadvantage of losing. However, the building panel 40 must be moved directly by the worker, and must form a form, so the disadvantage of this overweight has a problem that the economic efficiency is lowered because the inefficient use of manpower.

The present invention has been made in view of the above-described circumstances of the prior art, and cold rolled the building plate constituting the building panel and its edges are formed vertically, and the center is reduced in volume and reinforcement due to the vertically formed corners. By bending and projecting the predetermined part, it secures the same pin fastening length, increases the reinforcement force, increases the welding area of the angle for internal reinforcement of the building panel, reduces the overall thickness, and protrudes the predetermined part of the center part. Its purpose is to provide a reinforcement building panel that is free from traces and that allows for increased weight and reinforcement.

1A, 1B, 1C, 1D, 1E, and 1F illustrate the structure and shape of a building panel and a building plate constituting the building panel according to a conventional embodiment;

Figure 2 is a perspective view showing a building plate constituting a reinforcing building panel according to an embodiment of the present invention,

Figure 3 is a side cross-sectional view showing a building plate constituting a reinforcement building panel according to an embodiment of the present invention,

Figure 4 is a side cross-sectional view showing a reinforcement angle constituting a panel for reinforcement building according to an embodiment of the present invention,

5 is a plan view showing a panel for reinforcement building according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

50: building plate material, 52: support body,

54: protrusion, 58: pin fastener,

60a, 60b: corner portion, 62: lateral reinforcement angle,

64: the body, 66: the first bent portion,

68: pin fastening, 70: the second bent portion,

72: third bent portion, 74: pin fastening,

76: pin, 80: building panel,

82: longitudinal reinforcement angle.

In order to achieve the above object, according to a preferred embodiment of the present invention, in the construction panel for building a plurality of concrete for manufacturing the formwork such as walls, beams, columns, ceiling for building buildings, the edge frame of the building panel The welding is made in a state where each is in a rectangular frame shape to form a shape, and the corner portion is formed at right angles by cold rolling so that no marks are left on the building during concrete curing, and the Lego plywood is coupled to the rear side. Building plates being made; Reinforcement building panel is provided, comprising a reinforcing angle that is welded in the transverse or longitudinal direction, respectively, in the rectangular frame formed by the welding of the building plate to impart the transverse and longitudinal support stress to the panel frame.

Preferably, the building plate has a predetermined thickness, and a plywood support protrusion for coupling and supporting the LEGO plywood on a predetermined upper surface thereof is formed, and a protrusion protruding along a predetermined area longitudinal direction is formed at a predetermined upper surface thereof. There is provided a reinforcement building panel, characterized in that a pin coupling hole is formed to fasten the pin to the protrusion part and configured to improve reinforcement.

Preferably, the reinforcing angle is composed of a body that is vertically bent in a "" "shape, the bottom and side predetermined portions are formed with protrusions protruding at a constant height along the longitudinal direction, respectively, the protrusions A single pin fastening hole is formed in each to provide a reinforcement building panel, characterized in that the reinforcement is increased and the pin fastening length is secured.

Preferably, the reinforcing angle has a total weight by allowing the longitudinal reinforcing angle to be welded only to the upper / lower end of the frame of the transverse reinforcing angle and the building panel in a state in which a central portion of the longitudinal reinforcing angle is omitted. Provided is a reinforcement building panel, characterized in that to reduce.

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

Figure 2 is a perspective view showing a building plate constituting a reinforcing building panel according to an embodiment of the present invention, Figure 3 is a side cross-sectional view showing a building plate constituting a reinforcing building panel according to an embodiment of the present invention. .

Referring to this, the reinforcement building panel 80 according to an embodiment of the present invention is to cold roll the building plate constituting the building panel and to form its edges vertically, the volume is reduced due to the vertically formed corners and By reinforcing the reinforcement in the center of the reinforcement to secure the same pin fastening length, to increase the reinforcement, to increase the weld area of the angle for the internal reinforcement of the building panel, to reduce the overall thickness and to partially project the center of the This is a panel that does not leave traces when concrete is poured, and is lightweight and reinforcement is increased.

To this end, the building plate 50 constituting the reinforcing building panel 80 according to an embodiment of the present invention is to be formed at right angles to the corner (60a, 60b) through a cold rolling process. In this case, as the edges 60a and 60b of the building plate 50 are formed at right angles, the thickness of the entire building plate 50 becomes thinner. Therefore, when the pins through the pin fastening holes 58 in a state in which the building plates 50 different from each other or in close contact with each other in parallel, the length between the pin fastening holes 58 suitable for the length of the pin (not shown) is It is not made, the thickness of the building plate 50 becomes thinner, the overall strength is weakened.

Therefore, the building plate 50 of the present invention has a protrusion 54 bent to protrude to the upper side by a predetermined length around the position where the pin fastening hole 58 is formed in the support 52, as shown in FIG. Form. Therefore, it is possible to fasten through the pin fastening hole 58 of the other building plate member 50 in close contact with one building plate member 50 using a conventional pin. In addition, since the protrusion 54 is to reinforce the overall strength of the building plate 50, the left and right support stress is increased.

Figure 4 is a side cross-sectional view showing a reinforcement angle constituting a reinforcing building panel according to an embodiment of the present invention, Figure 5 is a plan view showing a panel for reinforcing building according to an embodiment of the present invention.

Referring to this, the reinforcement angle constituting the reinforcement building panel 80 according to an embodiment of the present invention consists of a reinforcement angle 82 connected in the longitudinal direction with the reinforcement angle 62 for reinforcing the transverse direction in the middle thereof. As shown in FIG. 4, the reinforcement angles 62 and 82 according to the present invention have a larger area and length of the welding surface B than the conventional reinforcement angle so that the strength of the weld portion is greatly improved. do. In addition, the thickness of the entire reinforcement angles 62 and 82 is reduced due to the enlargement of the welding surface B. Each of the pin fastening holes 68 and 74 includes a plurality of pin fastening holes 68 and 74 to compensate for the decrease in strength due to the decrease in thickness. The predetermined part in the vicinity forms protrusions 66 and 70 which protrude upwardly by a predetermined length.

Therefore, the reinforcement angles 62 and 82 of the present invention increase the welding strength due to the enlargement of the welding surface B, and reduce the overall weight, and at the center of the angle including the pin fastening holes 68 and 74. The plurality of protrusions 66 and 70 are formed to reinforce the supporting stress.

In more detail, the reinforcing angles 62 and 82 are described, and the reinforcing angles 62 and 82 are configured inside the building panel 80 and constitute the edge frame of the building panel 80. It is a means for giving a lateral support force to the building panel 80 by welding to the board | plate material 50. FIG. Accordingly, the reinforcement angles 62 and 82 are configured with a body 64 that is vertically bent in a "" "shape, and pin fastening holes 68 and 74 on the bottom and side surfaces of the body 64, respectively. Is formed. In addition, the position where the pin fastening holes 68 and 74 are formed in the body 64 is formed with protrusions 66 and 70 protruding at a predetermined height, and the upper side of the body 64 is also shown in FIG. 4. As shown in the figure, the body 64 is bent constantly in the outward direction.

The reinforcement angles 62 and 82 having the above-described configuration have a reduced thickness due to the reduction in the thickness of the entire reinforcement angles 62 and 82 due to the enlargement of the welding surface B compared to the conventional angle. In order to compensate, protrusions 66 and 70 are formed to protrude upward by a predetermined length near the predetermined part including the respective pin fastening holes 68 and 74, and through the protrusions 66 and 70, the protrusions 66 and 70 are more than conventional angles. The reinforcement will be increased.

On the other hand, the reinforcement building panel 80 according to an embodiment of the present invention, as shown in Figure 5, the reinforcement angles 62, 82 and the building plate 30 is a reinforcement treatment through the protrusions in the longitudinal direction In the case of the reinforcement angle 82, the middle part is not necessary. Therefore, even if a part of the longitudinal reinforcement angle 82 is omitted and a part of the longitudinal reinforcement angle 82 is omitted, the lateral and longitudinal reinforcement forces are much better than those of the conventional building panel 40. Do. Therefore, the reinforcement building panel 80 according to the embodiment of the present invention is to reduce the overall weight by the partial omission of the longitudinal reinforcement angle 82. Therefore, it is convenient for the worker to move the reinforcement building panel 80 to the work place.

Further, when the same reinforcement building panel 80 is closely adhered to one of the reinforcement building panels 80 to form a formwork, and when concrete milk is poured and cured in the formwork, the edge frame of the reinforcement building panel 80 is formed. Since the corner portion of the building plate 50 constituting the right angle is formed at right angles, it is very economical that the marks do not remain on the building after the concrete curing.

On the other hand, the panel for reinforcing building according to the embodiment of the present invention is not limited to the above embodiment, but various modifications can be made without departing from the technical gist of the invention.

As described above, the reinforcing building panel according to the present invention has a reinforcement of the reinforcement because the building plate constituting the building panel and the protrusions that are bent constantly on the body of the transverse and longitudinal reinforcement angles, respectively. It has the advantage of not bending or breaking. In addition, the increase of the reinforcement force has the advantage of effectively reducing the weight of the overall reinforcement building panel by omitting some longitudinal reinforcement angle, and the edge of the building plate forming the building panel is manufactured vertically, so that the wall surface or There is an advantage that the traces of building boards are not left in the columns, beams, ceilings, etc.

Claims (4)

In the many building panels for concrete pouring to form the formwork such as walls, beams, columns, ceilings for building construction, The welding is made in a state in which each of them is in a rectangular frame shape for constituting the edge frame of the building panel, and the edges thereof are formed at right angles by cold rolling so that no marks are left on the building during concrete curing. The building plate is coupled to Lego plywood on the back; Reinforced building panel, characterized in that made of a reinforcing angle welded in the horizontal or longitudinal direction, respectively, in the rectangular frame formed by the welding of the building plate to impart the transverse and longitudinal support stress to the panel frame. According to claim 1, wherein the building plate has a predetermined thickness, a plywood support protrusion for engaging and supporting the Lego plywood is formed on a predetermined upper surface portion, the projection protruding along a predetermined area longitudinal direction on the upper surface predetermined portion Is formed, the reinforcement building panel, characterized in that the pin coupling hole for fastening the pin is formed in the protrusion portion is configured to improve the reinforcement. According to claim 1, wherein the reinforcing angle is a body that is vertically bent in a "" "shape is formed, the bottom and side predetermined portions are formed with protrusions protruding at a constant height along the longitudinal direction, respectively; Reinforcement building panel, characterized in that each projecting portion is formed with a single pin fastening hole is to increase the reinforcement force and secure the pin fastening length. The longitudinal reinforcement angle of claim 1, wherein the reinforcement angle is welded only to the transverse reinforcement angle and the top / bottom of the frame of the building panel while the center portion of the longitudinal reinforcement angle is omitted. Thereby reducing the overall weight of the reinforcement building panel.