KR101092031B1 - The styrofoam panel of sticking double net - Google Patents

Abstract

The present invention relates to a styrofoam panel with a double net, comprising: a styrofoam panel that can be directly used as a thermal insulation wall for construction only by plastering; An adhesive applied randomly to only 3 to 30% of the total area of the styrofoam panel on both sides of the styrofoam panel; A first net body adhesively fixed to the adhesive; A space formed in the space between the first mesh and the styrofoam panel to which the adhesive is not applied; A second network body disposed above the first network body; The second mesh is embedded, and the first mesh provides a styrofoam panel attached to the double mesh consisting of a finish applied to one side of the styrofoam panel so that the remaining portion other than the portion bonded to the adhesive. .

According to the present invention, it is possible to provide a styrofoam panel that can be configured with only plastering on this panel without additional construction when constructing an insulation wall, wherein the panel itself and the finishing material are strongly integrated by significantly lowering the application range of the adhesive to the panel area. In addition to significantly increasing the strength, various low-cost finishes can be used directly, and the strength of the panel itself can be freely adjusted by the low-cost general mortar coating thickness, so that the coating thickness can be changed according to the desired strength. Since there is no bending deformation after construction, the effect of providing stable and high construction quality can be obtained.

 Double Mesh, Mesh, Styrofoam Panel, Wall, Adhesive

Description

Styrofoam panel with double mesh {THE STYROFOAM PANEL OF STICKING DOUBLE NET}

The present invention relates to a styrofoam panel with a double net, and more particularly, two types of meshes having different grids made of metal or petroleum compound on both sides of a styrofoam panel mainly used as a heat insulating material. Pre-attached by using PVC-based adhesive to increase the bond adhesion with cement mortar or other materials to improve strength and impact resistance, simplify the work process, and maintain accurate and high work quality without bending deformation. Styrofoam panel with attached net.

In general, styrofoam is one of the materials that are widely used as a thermal insulation and heat insulating material with a low specific gravity, and is used for building walls, flooring materials, building insulation materials, interior materials, and the like.

However, since the styrofoam is weak to heat, there is a disadvantage that it is easily burned out in case of fire. In recent years, the surface of the styrofoam may be used by spray-coating a flame retardant or non-flammable material or by adhering it in a sheet form.

However, in order to use this type of styrofoam as a building wall, that is, as a panel, the wall is made of concrete or brick, and the styrofoam panel is connected to the wall using adhesive, and the net is then used again. The work process is complicated and expensive because it must be finished by spraying or plastering with cement mortar or dry beet.

In particular, if the wall is a complicated shape and the construction area is not large, the styrofoam should be cut into the shape of the wall, and then the net is cut into the shape of the styrofoam panel, and the same shall be applied to the cut styrofoam panel, which should be constructed as a finishing material. The process is repeated several times and inconvenient, and the work time is excessively extended to extend the working air.

In addition, when the styrofoam panel is divided into a plurality of joints, there is a disadvantage in that the strength and durability of the joint area are lowered because there is no correlation with the pre-attached styrofoam panel.

In addition, the wall treated by the existing method has a poor adhesion when finishing with ordinary mortar, so that the mortar is separated from the styrofoam panel after drying and hardening together with the net, or when the plastering or coating is applied, the coating material slips on the net to prevent or break the wall. Since it was impossible to use the exclusive coating material with strong adhesive force, the use of a finish with a large amount of chemical adhesives also generated toxic gas in the event of fire, flammability, increased cost, and significantly reduced workability.

As a prior art in the related art, Japanese Patent Application Laid-Open No. 18-9454 (January 12, 2006), which is patented and published by Aupass Co., Ltd., discloses a prior art disclosed between a mesh bonded to polystyrene foam and insulation. The adhesive layer is formed, and the mesh is formed to extend the wall through the polystyrene foam.

However, the disclosed technique uses a mesh that is wider than the panel area in order to prevent the space between the adjacent panels from floating when using a panel such as polystyrene foam as a heat insulator, and to reduce the bonding strength with mortar at the portion between them. Although they facilitate the joint operation by being bonded to mortar in a cross-laminated state, they have a single mesh adhesive structure and the adhesive method is simply applied over the entire area of the panel. In the part, the panel is finely melted, so the mesh is easily indented into the adhesive, and this depression occurs over the entire surface of the panel.The capillary phenomenon of the mesh causes the adhesive to penetrate into the microstructure of the mesh first. Cement particles or paint on the microstructure Since the finishing material does not penetrate, there is a problem that the adhesion strength is sharply lowered and mortar is easily dropped.

Accordingly, the present applicant has disclosed a panel panel assembly for which the Styrofoam itself can be used as a wall without a separate wall by increasing the adhesion strength and easy jointing operation as a patent application No. 2007-0021445.

By the way, the prior art disclosed by the applicant also exhibits a markedly improved effect in terms of adhesion strength in comparison with the Japanese prior art described above, but has a stronger adhesion strength and durability and impact resistance higher than the prescribed value sufficient to utilize the styrofoam itself as a wall. A disadvantage has been newly derived that, among other things, flexural deformation occurs after wall construction.

The present invention has been made in view of the above-mentioned problems in the prior art, and has been created to solve this problem, so that when the cement mortar or various materials are attached and applied to the styrofoam panel, the adhesive strength and rigidity of the styrofoam panel can be maximized. The main challenge is to provide a styrofoam panel with a double mesh that simplifies the various processes found in existing construction methods and immediately allows plastering or other materials to be applied to the surface.

More specifically, in order to simplify the construction process, the double mesh is completely attached to both sides of the styrofoam panel, as well as forming a space and having an anchor function, so that only the styrofoam panel is cut and bonded with cement mortar even in a complicated construction surface. By finishing finishing or coating, the process of hard diaphragm treatment or partitioning can be done with this styrofoam panel and finish without any support.

In addition, the present invention by using a styrofoam panel before the construction of the building wall before the integration of the net and the styrofoam panel, but the adhesive for this, using a specific ratio, in particular 3% to 30% of the area of the panel using a specific adhesive net Only part of the panel is recessed and the remainder is secured so that the net is anchored on both sides of the panel and cement mortar so that the mesh is securely attached to both sides of the panel without cement mortar or easy separation, even after construction Styrofoam panels provide excellent strength and impact resistance without bending deformation.

The present invention is a styrofoam panel that can be used directly as a heat insulation wall only for construction of a plaster or building finish as a means for achieving the above-described problems; An adhesive applied randomly to only 3 to 30% of the total area of the styrofoam panel on both sides of the styrofoam panel; A first net body adhesively fixed to the adhesive; A space formed in the space between the first mesh and the styrofoam panel to which the adhesive is not applied; A second network body disposed above the first network body; The second mesh is embedded, the first mesh is a styrofoam attached to the double mesh characterized in that it comprises a finish applied to one side of the styrofoam panel except the portion bonded to the adhesive is embedded Provide panels.

In this case, the first and second meshes have a mesh (lattice) of a larger size than the particles of the finishing material, are cut to be larger than the styrofoam panel, and are installed to overlap with the adjacent network during construction, and the mesh of the second network is the first mesh. It is also characterized by its larger formation.

According to the present invention, it is possible to provide a styrofoam panel capable of constructing a wall with only edges such as “c” iron plates when constructing an insulation wall, wherein the application range of the adhesive to the panel area is significantly lowered to significantly increase the strength of the panel itself. Of course, various low-cost finishes can be used directly, and the strength of the panel itself can be adjusted freely by the low-cost general mortar coating thickness, so that the coating thickness can be changed according to the desired strength. There is no effect to provide a stable and high construction quality.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment according to the present invention.

1 is a partial cross-sectional view showing an example of the construction of a styrofoam panel according to the present invention, Figure 2 is an exemplary explanatory view showing a part of the main portion of FIG.

As shown in Figures 1 to 2, the present invention is a certain amount of adhesive 200 is applied to both sides of the styrofoam panel 100 used as the heat insulating material in the wall, 2 is fixed by the adhesive 200 It is made of a network 300.

In this case, the styrofoam panel 100 does not need to limit the thickness in particular, because the thickness of the wall to be used according to the construction site may vary, and the construction standard (regulation) of the wall varies depending on the construction site.

However, the thickness of the styrofoam panel 100 should be thicker than the final thickness of the finishing material 400 to be constructed. This is because the styrofoam panel 100 is a basic material of the wall.

In addition, the adhesive 200 is preferably applied to both sides of the styrofoam panel 100.

This is when the adhesive 200 is applied to only one side and the double mesh 300 is processed and then plastered, the panel surface is curved due to shrinkage and expansion of the coated surface at the time of plastering. In order to prevent this, it is preferable to attach the double mesh 300 to both sides of the styrofoam panel 100.

However, in a small area partitioning work (diaphragm space negligible to some extent warping phenomenon), one can be finished with a single net and an adhesive, and the other can be finished with the construction method of the present invention using a double net.

On the other hand, as the adhesive 200 for attaching the dual network 300, it is preferable to give a vinyl acetate resin, PVC adhesive or a high molecular compound resin in consideration of the adhesive strength.

In addition, the adhesive 200 is preferably to be used randomly applied within the range of 3 to 30% of the area of the styrofoam panel 30.

This keeps the dual mesh 300 itself completely fixed to the styrofoam panel 100, and then cement mortar or other finishes 400 are simultaneously attached to the dual mesh 300 and the styrofoam panel 100. By doing so, the finishing material 400 such as cement mortar or other paint is hardened on the styrofoam panel 100 without being slid down between the double meshes 300, that is, the space 500, thereby improving excellent strength and impact resistance. .

In other words, even if the coating surface of the adhesive 200 is only 3% or more, the adhesive force between the styrofoam panel 100 and the double mesh 300 is sufficient and the construction cost can be reduced by reducing the use of the adhesive 200, and the adhesive 200 If the coated surface is 30% or more, the adhesive force between the styrofoam panel 100 and the double mesh 300 is improved, but the surface area of the space 500 between the styrofoam panel 100 and the double mesh 300 is reduced, so the finishing material (400) It is difficult to obtain sufficient strength after construction.

Therefore, limiting the ratio to the panel area of the adhesive 200 according to the present invention has a special critical meaning.

In particular, when the coating area of the adhesive 200 becomes 3% or more, the particle of the coating material is small in the future, and when the adhesive strength is strong with the styrofoam panel 100 and the coating thickness is thin, the smaller coating area is advantageous and the adhesive area is 30%. Hereinafter, the weight of the mesh itself is heavy and the thickness of the mesh is sufficiently thick and the surface is rough, the adhesive surface is advantageous to the wide side can be sufficiently strong paint and plastering material.

That is, as shown in Figure 1, after applying the adhesive 200, mortar, etc. should be applied, but after the adhesive 200 is dried and cured, cement is removed except for air bubbles due to the surface tension and smoothness of the adhesive 200. Mortar particles, etc. can not penetrate, so it can not act as a nail when penetrated. However, unlike the surface of the adhesive 200 on the surface of the styrofoam panel 100 itself, sufficient voids are formed, so that the mortar or the finish material sufficiently penetrates the styrofoam panel 100 and acts like a nail, thereby rapidly increasing the adhesive strength. do.

However, when applying the adhesive to the entire surface as in the prior art, as described above, the network is likely to be recessed in the adhesive portion, the adhesive penetrates into the microstructure of the network tissue due to the capillary phenomenon of the network, such as plastering or painting In the case of treatment, cement particles or coatings or finishing materials do not penetrate into the micromesh structure, so that the phenomenon of separation from the plate easily occurs, but in the case of the panel according to the present invention, cement particles are also infiltrated into the microstructure and the adhesive is not applied. In the non-parts, the mesh is recessed toward the cement or the coating material, thereby forming a rigid surface layer than the conventional dry bit material finishes, so that the surface layer alone can withstand vertical and horizontal loads sufficiently.

In addition, when only a portion of the styrofoam panel 100 is applied with a high viscosity adhesive agent, the styrofoam panel 100 and the first mesh 310 form a diameter gap as shown, and thus, the styrofoam panel 100 and the first one. A space 500 is formed between the meshes 310, and the space 500 forms a space on the wall or the floor of the slab when the concrete is placed so that the reinforcing bars can be recessed into the ready-mixed concrete mortar so as to express an excellent strength. As the mortar increases the fixability of the mortar, wall construction can be performed even with mortar, such as low-cost general cement, without using expensive dry-bit paint and materials.

In particular, by configuring the double mesh 300, that is, the first mesh 310 and the second mesh 320, it is possible to further increase the adhesion strength and to prevent the bending deformation, the first mesh 310 is a styrofoam panel ( It is installed closest to the surface of the 100, the second mesh 320 is installed on the upper portion of the first mesh 310.

In this case, the first mesh 310 has a grid to assist the role of the space and the second mesh 320 is to be embedded in the finish 400. However, the finishing material 400 is not provided only to the second mesh 320, the finishing material 400 penetrates to the surface of the styrofoam panel 100, and the first and second meshes 310 and 320 serve as reinforcing bars (anchor). ) Serves to induce the finishing material 400 to penetrate well and to have a locking space while solidifying therein.

To this end, the first and second meshes 310 and 320 should have a mesh (lattice) that is larger than the particle size of the finish 400.

On the other hand, in the conventional dry bit method, since there is no space 500 as in the present invention, it is difficult to use a material such as cement mortar in which the particles are thicker than the paint, so that the expensive material having strong adhesive strength with the styrofoam panel 100 has to be used. In the present invention, since the mesh of the panel is recessed in the finishing material 400 in duplicate, it is possible to exert sufficient strength with only the panel coated surface.

In addition, when it is desired to increase the vertical and horizontal loads, when applied and plastered several times at intervals, a stronger strength can be developed.

In addition, the double mesh 300 is preferably formed in a lattice shape, and consists of a first mesh 310 and a second mesh 320.

In addition, the double mesh 300 is to be cut larger than the styrofoam panel 100 so that a plurality of double meshes 300 overlap each other when constructing a thermal insulation wall to ensure the continuity of construction. .

In this case, the grid pattern of the first and second meshes 310 and 320 may be a polygon including a square, a rectangle, a rhombus, a triangle, and a circle, and the diameter of the string constituting the first and second meshes 310 and 320 may be 0.01-80 mm is preferable.

Here, the reason for limiting the diameter (thickness) of the strings constituting the first and second meshes 310 and 320 to the above range is that when the diameter is 0.01 mm or less, the strings are broken and the materials on the surface partially This is because the strength and robustness are significantly reduced, and if the diameter exceeds 80 mm, the material cost and the amount of aggregate filled into the lattice are increased, resulting in increased cost and heavy weight, resulting in inconvenience in construction. It is preferable to limit as described above because it is.

In addition, the first and second meshes 310 and 320 are selected from polyethylene resin, nylon, iron wire and plated iron wire, fiber containing asbestos, polyester, aluminum, stainless steel, carbon fiber, glass fiber, copper and copper alloy. It is preferable to form with any one material. This is to increase the durability further to suppress the departure from the panel, such as part of the mortar, such as cement mortar is partially broken.

The styrofoam panel 100 of the present invention configured as described above is constructed on a wall to be utilized as a heat insulating material. At this time, since the double mesh 300 is already attached to the styrofoam panel 100 itself, the operator according to the shape of the construction surface without any troublesome work. It can be arranged in the form of freely cutting and attaching, and since the double mesh 100 is fixed together while overlapping each other, the decrease in strength and durability at the joint area are also suppressed.

In addition, since the double mesh 300 of a predetermined pattern is installed, a material such as mortar or paint is hardly slipped on the styrofoam panel 100 during wall construction, and is caught by the double mesh 300 to cure. The efficiency is improved, and the existing construction process can be simplified to simplify the construction process, and the dual network 300 in the styrofoam panel 100 can be selected in various patterns simply, so that the material and the structure of the network can be By choosing different pattern shapes, facilities are cheaper and have more strength.

In addition, in the finishing material containing a large amount of adhesive as before, there was a lot of toxic gases and flammability, but in the present invention, when the finishing material is treated with cement mortar, the toxic gas does not come out of the finishing material and the flammability is only in the styrofoam panel itself, and thus it is more environmentally friendly. .

In addition, even in the event of fire extinguishing, the strength of cement mortar is reduced at high temperatures, and the fire suppression material such as the existing sandwich panel does not reach the styrofoam. As it enters smoothly, the fire is much easier to extinguish.

1 is a partial cross-sectional view showing an example of the construction of a styrofoam panel according to the present invention,

FIG. 2 is an exemplary explanatory view showing a partially enlarged portion of FIG. 1; FIG.

♧ description of the symbols for the main parts of the drawing ♧

100 ... Styrofoam panel 200 ... Adhesive

300 .... Double Network 310 ...... First Network

320 .... the second mesh 400 .... the finish

500 .... space

Claims (2)

A styrofoam panel that can be used as a building insulation wall directly from a panel assembly and a plasterer; An adhesive applied randomly to only 3 to 30% of the total area of the styrofoam panel on both sides of the styrofoam panel; A first net body adhesively fixed to the adhesive; A space formed in the space between the first mesh and the styrofoam panel to which the adhesive is not applied; A second network body disposed above the first network body; The second mesh is embedded, the first mesh is a styrofoam attached to the double mesh characterized in that it comprises a finish applied to one side of the styrofoam panel except the portion bonded to the adhesive is embedded panel. The method according to claim 1; The first and second meshes have a mesh (lattice) of a larger size than the particles of the finishing material, and are cut to be larger than the styrofoam panel and are installed to overlap with the adjacent network during construction, and the mesh of the second mesh is more than the first mesh. Styrofoam panel with a double net, characterized in that formed large.

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