KR20090060482A - Perforated panel for preventing crack and construction method thereof - Google Patents

Abstract

A perforated panel for crack prevention and a construction method thereof are provided to manufacture and install a crack prevention member more easily at low cost. A perforated plate for crack prevention(100) is made up of a metal plate(110) in which holes(120) are punched so that burrs are made around the holes and mounting projections(130) are formed to be inserted to concrete or cement mortar. A construction method of the perforated plate comprises a step of carrying out the construction of a concrete structure having bottom and walls, a step of stacking the perforated plates on the uncured structure so that the mounting projections are inserted in concrete, and a step of finishing the structure with cement mortar and curing it.

Description

Perforated panel for preventing crack and construction method

The present invention is easy to manufacture and install a member for preventing the crack of the construction, and the manufacturing cost is low, thereby reducing the cost of the crack-resistant construction, the crack prevention excellent in the effect of crack prevention for the construction It relates to a perforated plate and a construction method thereof.

In general, during the construction of a multi-unit house, thermal insulation work, heating coil plumbing work, floor plastering, etc., after this construction cracks occur in the floor of the living room or bedroom, etc. There are various causes of such cracks For example, cracks caused by the cracks of the slab structure, accompanying cracks due to the cracking effect of the slab structure, cracks caused by the rising and subsidence of the interlayer noise absorbing agent, cracks due to the mixing ratio error of the bubble liquid, cement styrofoam particles, cement mortar, Cracks due to mixing ratio errors such as water, cracks due to heat of hydration of cement itself, cracks due to concentration of edge stress, changes in environmental temperature, wind and humidity, and cracks due to repetition of freezing and melting.

In particular, due to the stress concentration at the edges, cracks easily occur at the edges of the walls, for example, the wall edges of the living room floor due to the planar structure of the apartment house, and such cracks occur not only on the floor but also on the walls.

Conventionally, expanded metal lath (also referred to as “metallas” for short) or steel wire is woven into a grid to prevent cracks in construction. By placing the wire mesh with the connection point by electric welding in concrete casting or cement mortar, cracking of the construction having the bottom or wall surface was prevented.

As described above, in the case of the metal lath used to prevent the crack of the construction according to the prior art, it is produced by stretching the iron sheet by punching it straight and then pulling it again, and in the case of the wire mesh, the iron wire of 5-20 cm It is manufactured by attaching the connection point by electric welding by squeezing into a grid shape at intervals, which has the disadvantage of complicated manufacturing process, and the metal lath or wire mesh has a flat structure, and thus it has an adhesive force with concrete or cement mortar due to its construction. There was a problem that it is not effective to prevent cracking by having a limit to increase.

The present invention is easy to manufacture and install the member for the prevention of the crack of the construction, and the manufacturing cost is low, thereby reducing the cost required for the construction of the crack prevention, due to the three-dimensional structure to prevent the cracking effect on the construction great.

The crack-proof perforated plate according to an embodiment of the present invention is a perforated plate used for construction to prevent cracks, and comprises a plate made of a metal material and a burr formed at the edge of a hole formed by punching the plate. It includes a plurality of mounting projections that are inserted into the cement mortar and mounted.

Crack construction method according to another embodiment of the present invention is a construction method for preventing cracks, the step of constructing a structure with concrete or cement mortar, and a burr (burr) generated at the hole edge by punching on a plate made of a metal material And stacking the perforated plate formed with a plurality of mounting protrusions on the structure such that the mounting protrusion is inserted into the structure and mounted, and finishing by plastering with cement mortar on the structure including the perforated body.

The present invention is easy to manufacture the perforated plate for preventing the crack of the construction and the manufacturing cost is low, thereby reducing the cost of the crack-proof construction, and to be installed by having a three-dimensional shape due to the formation of the mounting projections By increasing the adhesion to concrete or cement mortar, the effect of preventing cracks on the floor or wall construction is excellent, and the construction is simple. When the perforated plate is installed on the upper part of the heating pipe, the entire area contributes to heat conduction. It has the effect of contributing to increase the efficiency.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

1 is a perspective view showing a crack preventing perforated plate according to a first embodiment of the present invention, Figure 2 is a cross-sectional view showing the installation of a crack preventing perforated plate according to a first embodiment of the present invention. As shown, the crack-proof perforated plate 100 according to the first embodiment of the present invention is used in the construction for preventing the cracks on the construction, such as floor or wall surface, the plate 110 and the plate ( 110 includes a plurality of mounting protrusions 130 formed by punching.

Plate 110 is made of a metal material, in the present embodiment is made of a rectangular plate shape, it is not limited to this has an area and shape corresponding to the portion to be constructed to prevent cracking, the thickness to enable punching As a result, the mounting protrusion 130 is formed by punching.

On the other hand, the plate 110 is to be stably installed in the structure (1) by having a bending fixed end 111 is inserted into the concrete or cement mortar of the structure (1) to be stacked.

Bending fixed end 111 is to be inserted into the concrete or cement mortar of the structure (1) by partially cutting the plate 110 and then projecting such a cut portion 112 vertically downward by bending. do.

As shown in FIG. 3, the plate 110 facilitates installation at the edge 1a of the structure 1 and also includes an insertion groove (not shown) to cover the edge 1a, which is prone to cracking due to stress concentration. 113 is formed, in this embodiment, the insertion groove 113 is formed to be bent to face the edge (1a) of the structure (1) by bending the portion cut inward from the edge for this purpose, bending of the cut portion The bent part 114 is formed vertically by the insertion is inserted into the corner (1a) forming portion of the structure 1 to block the progress of the crack generated from the corner (1a) and also to help fix the plate 110 Gives.

As shown in FIG. 4, the mounting protrusion 130 may include a burr formed at an edge of a hole 120 (shown in FIG. 1) formed by punching using a punch 10 having a cone-shaped end portion in the plate 110. It is made of a burr is inserted into the concrete or cement mortar of the structure (1), and is formed by a plurality of punching in the plate 110, at this time, a plurality of holes 120 in the plate 110 The superheats may be arranged in a row or zigzag so as to have a regular arrangement. Alternatively, the plurality of holes 120 may be irregularly formed by punching.

The height of the mounting protrusion 130 is determined according to the diameter of the hole 120, the height of the mounting protrusion 130 is proportional to the diameter of the hole 120, the size of the structure (1) or on the plate 110 It is determined according to the thickness of cement Malta 2 to be plastered on.

Each of the mounting protrusions 130 protrudes in opposite directions, for example, an upper side and a lower side, respectively, by varying the directions punched by the plate 110, and thus, the mounting protrusions 130 protruding downwardly are lower than the plate 110. Mounting protrusions 130 which are mounted on concrete or cement mortar of the structure 1 located in the upper part as well as protruding upwards are mounted on cement mortar 2 which is plastered on the upper side to prevent cracking by improving adhesion or fixing force between the upper and lower surfaces. Contribute to.

On the other hand, as shown in Figure 5, the mounting protrusion 230 according to another embodiment is a punch 20 having a plurality of cutting portions 21 having a sharp angle or protrusion at the end to the plate 110 By punching, the cutting groove 231 is opened by penetrating the plate 110 while forming the cutting groove 231 which is a boundary of the mounting protrusion 230 on the plate 110 by pressing the cutting portion 21. As a result, the mounting protrusion 230 may be repeatedly formed in a desired shape, and thus, the mounting protrusion 230 formed as described above is the same as the mounting protrusion 130 of the previous embodiment except for the forming method, and thus description thereof will be omitted.

In addition, the punch used for punching the plate 110 uses a punch having a polygonal cross section in addition to the punch 10 having the cone-shaped end portion or the punch 20 having the cutting portion 21 as described above. Alternatively, punches of various structures, such as punches having polygonal horns at the ends, may of course be used.

6 is a plan view illustrating a crack preventing perforated plate according to a second embodiment of the present invention. As shown, the anti-cracking perforated plate 300 according to the second embodiment of the present invention is the plate 310 and the plate 310 similarly to the perforated plate 100 according to the first embodiment shown in FIGS. ) Includes a plurality of mounting protrusions 330 formed by punching, and the difference from the first embodiment is as follows.

The plate 310 may have a concave-convex shape of the edge 315 to prevent the plate cracks of the square surface, the concave-convex shape of the edge 315 is made of a combination of curvature or a combination of straight lines or curvature and It may be made of a combination of straight lines, preferably as shown in Figure 6 is formed in a wavy shape consisting of a combination of curvature.

In addition, the plate 310 is formed using a plurality of insertion grooves 313 formed by bending of the bent portion 314 by forming the bent portion 314 for forming the insertion groove 313, respectively on a plurality of sides. It can be mounted in various shapes on the edge of the structure.

The mounting protrusion 330 protrudes from the other mounting protrusions 330 neighboring in the horizontal direction and the vertical direction in opposite directions.

The operation and construction method of the crack-proof perforated plate according to the present invention will be described in detail together with the crack-proof construction method according to the present invention, and the crack-proof perforated plate 100 according to the first embodiment will be described as an example.

7 is a flowchart illustrating a method of preventing cracks according to the present invention. As shown, the crack prevention construction method according to the present invention includes a construction step (S10) of the structure, the lamination step (S20) of the perforated plate, and the step of finishing with cement mortar (S30).

Construction step (S10) of the structure is a step of constructing to form the structure (1) having a bottom surface or a wall surface by pouring concrete or cement mortar.

Lamination step (S20) of the perforated plate is a plurality of mounting projections 130 consisting of burrs formed at the edge of the hole 120 by punching 10 to the plate 110 made of a metal material after finishing the construction of the structure (1) The perforated plate 100 is formed to be laminated to the structure (1) so that the mounting protrusion 130 is inserted into the concrete or cement mortar of the structure (1) that is not cured. At this time, as shown in Figure 5 for the punching of the plate 110, as well as the punch 20 having a cutting portion 21 of the punch (burr) having a polygonal cross-section or the end of the polygonal horn Punch with a structure advantageous for formation is used.

On the other hand, the lamination step (S20) of the perforated plate, the bending portion 112 is projected to the lower side by bending the perforated plate 100 to form a bending fixed end 111 to form a structure in which the bending fixed end 111 is not cured ( 1 is inserted into the concrete or cement mortar of the insertion, and the insertion groove 113 is formed by bending the portion cut inward from the edge of the perforated plate 100, as shown in Figure 3, By wrapping and placing the edges facing the edge (1a) to surround the edge (1a) area, the bent portion (114) formed vertically by bending is inserted and mounted in the corner (1a) area, due to the concentration of stress It not only prevents the occurrence of cracks from the portion (1a) but also favors the arrangement of the perforated plate 100 with respect to the corner portion 1a of the structure 1.

In the stacking step S20 of the perforated plate, the mounting protrusions 130 formed on the perforated plate 100 may be formed by varying the punching direction so that the plurality of mounting protrusions 130 protrude in opposite directions to each other. Mounting protrusions 130 protruding downward when laminated to the () is inserted into the concrete or cement mortar of the structure (1), the mounting protrusions 130 protruding upwards is inserted into the cement mortar (2) to be constructed thereafter As a result, it contributes to crack prevention by improving the adhesion and fixing force of the perforated plate 100.

Finishing with cement mortar (S30) is to finish the lamination of the perforated body 100 on the structure (1), including the perforated body 100 on the structure (1) by plastering with cement mortar (2) to finish When the finish by the cement mortar 2 is finished, the curing step (S40), such as cement mortar (2) to be cured, and then completely dried to install a flooring or decorative material thereon.

As described above, according to embodiments of the crack preventing perforated plate and the construction method thereof according to the present invention, it is easy to manufacture the perforated plate for crack prevention of the construction and the manufacturing cost is low, thereby reducing the cost of the crack prevention construction It has a three-dimensional shape due to the formation of mounting protrusions, which increases the adhesion to concrete or cement mortar to be installed, and is excellent in preventing cracks on constructions having floors or walls. When the perforated plate is installed on the upper part of the pipe, the area excluding the hole contributes to the heat conduction, thereby contributing to improving the heating efficiency.

As described above, specific embodiments have been described in the detailed description of the present invention, but it is obvious that the technology of the present invention can be easily modified by those skilled in the art, and such modified embodiments are defined in the claims of the present invention. It will be included in the technical spirit described.

1 is a perspective view showing a crack preventing perforated plate according to a first embodiment of the present invention,

2 is a cross-sectional view showing the installation of the crack-proof perforated plate according to the first embodiment of the present invention,

3 is a plan view showing the installation of the crack-proof perforated plate according to the first embodiment of the present invention,

4 is a bottom perspective view showing an embodiment of a method for forming a mounting protrusion of a crack preventing perforated plate according to a first embodiment of the present invention,

5 is a bottom perspective view showing another embodiment of a method of forming a mounting protrusion of a crack preventing perforated plate according to a first embodiment of the present invention,

6 is a plan view showing a crack preventing perforated plate according to a second embodiment of the present invention,

7 is a flowchart illustrating a method of preventing cracks according to the present invention.

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

10, 20: punch 21: cutting part

110, 310: plate 111: bending fixed end

112: incision 113, 313: insertion groove

114, 314: bend 120: hole

130, 230, 330: mounting protrusion 231: incision groove

315: border

Claims (9)

As a perforated plate used for construction to prevent cracks, A plate made of metal, A plurality of mounting protrusions which are inserted into concrete or cement mortar by being formed by burrs formed at edges of holes formed by punching the plate Crack-proof perforated plate comprising a. The method of claim 1, The plate, Protruding the cutting portion to one side by bending to form a bent fixed end inserted into the concrete or the cement mortar is installed Crack-proof perforated plate, characterized in that. The method according to claim 1 or 2, The plate, Forming an insertion groove positioned to face the corner of the structure by bending the cut inward from the edge Crack-proof perforated plate, characterized in that. The method according to claim 1 or 2, The plate, Having a concave-convex shape consisting of a combination of curvature and straight lines or a combination of both Crack-proof perforated plate, characterized in that. The method of claim 1, The plurality of mounting projections, Protruding in opposite directions by varying the direction punched into the plate Crack-proof perforated plate, characterized in that. In the construction method for preventing a crack, Constructing the structure with concrete or cement mortar (S10); Stacking a perforated plate having a plurality of mounting protrusions formed of burrs formed at the edge of the hole by punching a plate made of a metal material on the structure such that the mounting protrusions are inserted into and mounted on the structure (S20); Plastering and finishing with cement mortar on the structure including the perforated body (S30) Crack prevention construction method comprising a. The method of claim 6, Laminating step (S20) of the perforated plate, Protruding the cut portion to one side by bending the perforated plate to form a bent fixed end so that the bent fixed end is inserted into the structure is installed The crack prevention construction method characterized by the above-mentioned. The method of claim 6, Laminating step (S20) of the perforated plate, Laying the insertion groove formed by bending an incision cut inward from the periphery of the perforated plate to face the corner of the structure to be laminated The crack prevention construction method characterized by the above-mentioned. The method of claim 6, Laminating step (S20) of the perforated plate, Stacking the perforated plate on the structure in which a plurality of mounting protrusions protrude in directions opposite to each other by varying punching directions; The crack prevention construction method characterized by the above-mentioned.

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