KR101099163B1 - Method for manufacturing imitation stone panel - Google Patents

Abstract

The present invention relates to a method for manufacturing artificial stone plate, and more particularly, it is possible to easily and quickly construct the artificial stone plate during the interior or exterior construction of the building, thereby reducing the construction period and reducing the construction cost, and the interior or exterior of the building. Since construction does not form grooves in artificial stone boards, dust and noise can be reduced, and even if the building shakes due to natural disasters or external forces, it can absorb a certain level of vibration to prevent artificial stone boards from falling off the walls. It relates to a manufacturing method.

According to the present invention, a method for manufacturing artificial stone plate, comprising: a plate forming step of forming a plate by pouring a raw material including cement, stone pieces, water into a mold formed of rubber or synthetic resin material; A first hardening step of curing the plate to a predetermined level; A groove forming step of forming a groove on the side of the plate by inserting the groove forming means to a predetermined distance inside the plate through one or more through holes formed in the mold; A secondary curing step of completely curing the plate; And a demolding step of demolding the mold from the plate. It provides a method of manufacturing artificial stone plate comprising a.

Artificial stone, template, through hole, incision line, groove forming means, wall, connecting pin, anchor bolt

Description

Manufacturing method of artificial stone plate {METHOD FOR MANUFACTURING IMITATION STONE PANEL}

The present invention relates to a method for manufacturing artificial stone plate, and more particularly, it is possible to easily and quickly construct the artificial stone plate during the interior or exterior construction of the building, thereby reducing the construction period and reducing the construction cost, and the interior or exterior of the building. Since construction does not form grooves in artificial stone plate, dust and noise can be reduced, and even if the building shakes due to natural disaster or external force, it absorbs a certain level of vibration to prevent artificial stone plate from falling from the wall. It relates to a manufacturing method.

In general, the interior or exterior construction of the building, in particular exterior construction is to use a high-quality finish on the wall, for example, stone.

Such a stone is usually formed of a plate by the convenience of construction, in the case of natural stone (天然 石) plate is not only very expensive natural stone but also takes a considerable time and cost to cut and process the artificial stone artificially produced (人 제작) Stone plates are used a lot.

On the other hand, in the construction method of such a stone, the cement mortar is applied to the wall of the building, and then the stone plate is attached so that the cement mortar acts as an adhesive to fix the back and the wall surface of the stone plate so that the stone plate adheres to the wall. Although a lot of construction methods were used, after a certain time after the construction of the stone plate, there was a disadvantage that the stone plate falls from the wall due to the shrinkage of the cement mortar, the expansion coefficient and the shrinkage of the stone plate, and the expansion coefficient.

Therefore, in order to remedy these unreasonable points, a dry stone construction method using a medium method has been used in recent years.

In the dry stone construction method, anchor bolts are fixed to a wall, and a frame woven in a mesh net form is fixed thereto.

In order to fix the frame and the stone plate, at the construction site, tools, for example, drill holes are dug in the side of the stone plate, holes are formed in the angle fixed to the frame, and then the stone plate is placed on the angle. The stone is fixed by inserting a connecting pin between the hole of the stone plate and the groove of the stone plate.

Thereafter, the waterproofing is finished in the gap between the stone plate and the stone plate to finish the construction.

However, the dry stone construction method described above has a disadvantage in that the construction period increases because the grooves must be formed in the stone plate at the construction site in order to insert the connecting pins into the stone plate, and the construction cost increases due to the high breakage rate of the stone.

In addition, since the drill is used to form grooves in the stone, dust or noise, such as stone powder, occurs during the work, thereby causing environmental pollution.

According to the present invention for achieving the above object, a method of manufacturing artificial stone plate, the plate-forming step of forming a plate by pouring a raw material including cement, stone pieces, water into a mold formed of rubber or synthetic resin material; A first hardening step of curing the plate to a predetermined level; A groove forming step of forming a groove on the side of the plate by inserting the groove forming means to a predetermined distance inside the plate through one or more through holes formed in the mold; A secondary curing step of completely curing the plate; And a demolding step of demolding the mold from the plate. It provides a method of manufacturing artificial stone plate comprising a.

The through hole may be configured to form an incision line.

After the demolding step, a cutting step of cutting the edge of the plate to a predetermined width; It may be configured to include.

The groove forming means may be configured to have a cylindrical shape with one open.

The groove forming means may be configured such that a plurality of threads are formed on the outer circumferential surface.

The primary curing step may be configured to cure the plate 10 to 80%.

After the plate forming step, the vibration imparting step of applying a vibration to the mold; It may be configured to include.

The raw material may be made by kneading a mixture of 5 to 20% by weight of cement and 65 to 90% by weight of stone, and 5 to 15% by weight of water of the mixture.

According to the manufacturing method of the artificial stone plate according to the present invention, since the artificial stone plate can be easily and quickly installed during the interior or exterior construction of the building, there is an effect of shortening the construction period and reducing the construction cost.

In addition, the present invention does not form a groove in the artificial stone plate during the interior or exterior construction of the building has the effect of reducing dust and noise.

In addition, the present invention has the effect of preventing the artificial stone plate falling from the wall by absorbing a certain level of vibration even if the building shakes due to natural disasters or external forces.

Hereinafter, with reference to the drawings will be described in detail. However, these drawings are for illustrative purposes only and the present invention is not limited thereto. At this time, the artificial stone plate according to an embodiment of the present invention can be used in various fields, situations, but in the present specification will be described by taking an example of the building used in the finishing work, in particular exterior construction.

1 is a manufacturing flowchart of the artificial stone plate according to an embodiment of the present invention.

Referring to Figure 1, the manufacturing method of the artificial stone plate according to an embodiment of the present invention is largely plate forming step (FIG. 1 (a)) and primary curing step (Fig. 1 (b)), groove forming step { 1 (c)}, the secondary curing step (Fig. 1 (d)}, the demolding step (Fig. 1 (e)) and the cutting step (Fig. 1 (f)).

In the plate forming step (FIG. 1A), a raw material including cement, stone chips, and water, that is, a raw material for manufacturing artificial stone is poured into the mold 100 to form a plate, that is, an artificial stone plate 200.

These raw materials are usually mixed with each material, for example 5-20% by weight of cement and 65-90% by weight of stone pieces, in a mixer (not shown) and mixed together with 5-15% by weight of water. Into a blender (not shown), etc., the dough is evenly produced. At this time, the stone fragments can be used waste stone fragments discharged from various construction sites, such as using a crusher (not shown) to crush. Here, the size of the stone carvings may use a variety of stone pieces different in size depending on the environment of use of the artificial stone plate 200, or may use a stone carving of even size. On the other hand, depending on the purpose of use of the artificial stone plate 200, the raw material may include a variety of components, such as stone powder, sand, glass, imitation jewelry, gravel, loess, fiber, paper, wood.

The mold 100 used in the present invention may have a quadrangular shape, but may be variously changed according to the shape of the plate member 200 to be constructed. And in the present invention is to use the mold 100 formed of a hard rubber or synthetic resin material having a thickness of about 3mm to easily form the through-hole 110 described below in the mold 100, demolding step (Fig. 1 (E)} makes it easy to proceed.

At this time, the plate forming step (FIG. 1 (a)), and then, by applying a vibration to the mold 100, the raw material is poured can be carried out a vibration imparting step to remove the bubbles at the same time to compact the plate 200. In general, the stone plate is standardized to a thickness of 3cm, it is preferable to put the raw material into the mold 100 and vibrate accordingly.

In the first curing step (FIG. 1B), the plate 200 formed by being poured into the mold 100 is cured to a predetermined level. In the case of the primary curing step, about 10% to 80 depending on the material of the groove forming means 300, the insertion time of the groove forming means 300, the material of the plate 200, the manufacturing environment of the plate 200, and the like described below. Hardening is at the level of%.

The groove forming step (FIG. 1 (c)) is by inserting the groove forming means 300 to a predetermined distance inside the plate 200 hardened to some extent through one or more through holes 110 formed in the mold 100 The groove 210 is formed on the side of the plate 200.

Here, when the through-hole 110 of the mold 100 is a simple hole, the raw material poured into the mold 100 may leak out through the through-hole 110, thereby preventing the same and at the same time, forming the groove 300 through the through-hole. An incision 112 is formed in the through hole 110 so that the sheet 200 can be inserted through the plate 110. The cut line 112 is preferably not to be pushed in the direction of the plate 200 as much as possible so as not to affect the formation of the plate 200, and the cut line 112 affects the formation of the plate 200. It is preferable to insert the groove forming means 300 after the plate 200 is hardened to some extent so as not to affect the gap.

And, the groove forming means 300 used in one embodiment of the present invention is formed in a cylindrical shape, one side is opened so that the inside is exposed to the outside through the open one when inserted into the plate 200, such a groove The forming means 300 may be formed in a cylindrical shape, that is, a circular cross section, polygonal in cross section or a different shape, such as a square or triangle.

On the other hand, the number or position of the grooves 210 of the artificial stone plate 200 can be changed according to the manufacturing environment or the use environment of the artificial stone plate 200, accordingly to form the grooves 210 of the artificial stone plate 200 The number or position of the through holes 110 of the mold 100 may also be changed.

The secondary curing step {FIG. 1 (d)} is a step of completely curing the plate 200, the groove forming means 300 is inserted into the plate 200 in a state in which the groove 210 is formed in the plate 200. Will harden completely.

The demolding step (FIG. 1 (e)) is a step of demolding the mold 100 from the plate 200, and the artificial stone plate 200 is immediately released as a product or put into a construction site by demolding the mold 100. You may. However, the artificial stone plate 200 manufactured as described above is generally formed such that the surface exposed to the outside of the artificial stone plate 200 is not bumpy or smooth by the insertion of the groove forming means 300. Accordingly, the surface exposed to the outside through the so-called "water grind" generally used in the manufacture of stone may be used to make a smooth, cutting step of cutting a certain width, for example, about 5 ~ 10mm { f)}. In this case, in order to smoothly manufacture the edge when manufacturing the artificial stone plate 200, it is preferable to manufacture slightly larger than the size of the desired artificial stone plate 200 in consideration of cutting the edge to a certain width.

FIG. 2 is a cross-sectional view showing an example of a groove forming means different from the groove forming means shown in FIG.

As shown in FIG. 2, a plurality of threads 310 are formed on the outer circumferential surface of the groove forming means 300. As the thread 310 is formed as described above, the groove forming means 300 inserted to the predetermined distance inside the artificial stone plate 200 through the through hole 110 of the mold 100 is not easily separated.

In addition, when the thread 310 formed on the outer surface of the groove forming means 300 is formed like a thread formed on a conventional screw, the groove forming means 300 may be rotated and inserted, thereby making the groove forming means 300 easier. Can be inserted into the artificial stone plate 200.

Hereinafter will be described in detail with reference to the accompanying drawings the state of use of the artificial stone plate prepared by the method for manufacturing an artificial stone plate according to the present invention according to such a configuration.

3 and 4 is a construction diagram of the exterior construction of the building finishing work using the artificial stone plate according to an embodiment of the present invention.

3 and 4, the anchor bolt 600 is fixed to the wall 400 of the building during exterior construction of the building. And the frame 500 made of a metal mesh woven in the form is fixed to the anchor bolt 600.

And after placing the angle "510" of the shape "" in the frame 500 and fixed to the connecting bolt 520, and then manufactured by the method of manufacturing artificial stone plate according to an embodiment of the present invention on the angle 510 Put the artificial stone board 200.

At this time, in order to interconnect the artificial stone plate 200 located at the upper side and the lower side of the angle 510, the connecting pin 700 is formed in the groove 210 and the angle 510 formed in each artificial stone plate 200. It is sandwiched and fixed between the holes (not shown) formed.

At this time, the groove 210 formed in the artificial stone plate 200 is a groove formed by the groove forming means 300, the groove forming means 300 used in one embodiment of the present invention is formed of a synthetic resin material. .

Accordingly, even if the building shakes due to natural disasters or external forces, for example, an earthquake, the groove forming means 300 can absorb a certain level of vibration, so that the deterioration effect, that is, the artificial plate 200 from the frame 500 It can prevent falling.

Subsequently, the exterior of the building is finished by performing a silicone waterproofing process on the gap between the artificial stone plate 200 and the artificial stone plate 200.

As such, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof.

Therefore, the embodiments described above are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the following claims rather than the foregoing description, and the meaning and scope of the claims. And all changes or modifications derived from the equivalent concept should be construed as being included in the scope of the present invention.

1 is a manufacturing flowchart of the artificial stone plate according to an embodiment of the present invention.

FIG. 2 is a cross-sectional view showing an example of a groove forming means different from the groove forming means shown in FIG.

3 and 4 is a construction of the building exterior construction using the artificial stone plate according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100: mold 110: through

112: incision 200: artificial stone plate

210: groove 300: groove forming means

310: thread 400: wall

500: frame 510: angle

520: connection bolt 600: anchor bolt

700: connecting pin

Claims (35)

In the manufacturing method of artificial stone plate, A plate forming step of forming a plate by pouring a raw material including cement, stone chips, and water into a mold formed of rubber or synthetic resin; A first hardening step of curing the plate to a predetermined level; A groove forming step of forming a groove on the side of the plate by inserting a groove forming means to a predetermined distance inside the plate through one or more through holes formed in the mold; A secondary curing step of completely curing the plate; And Demolding step of demolding the mold from the plate; Method of manufacturing artificial stone plate comprising a. delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete

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