KR102175060B1 - Construction materials and manufacturing method thereof - Google Patents

Abstract

The present invention relates to a building panel and a manufacturing method thereof, wherein the building panel is constructed without performing a separate process including a separate spray coat for fixation in a vertical direction from the ground, thereby noticeably reducing a construction period, preventing accidents such as a fire, and being eco-friendly. To this end, the building panel includes an upper panel, a lower panel, a filler, and a core material.

Description

Construction panel and its manufacturing method {CONSTRUCTION MATERIALS AND MANUFACTURING METHOD THEREOF}

The present invention relates to a building panel, and specifically to a building panel that does not require a separate operation such as spraying and a method of manufacturing the same.

In general, there is a problem in that the quality is deteriorated as the thickness and weight of the insulating material increase.

To solve this problem, a thin and light vacuum insulator has been applied, but such a vacuum insulator has a disadvantage in that the thickness and weight of the insulation panel are reduced by placing glass wool to protect and maintain the smoothness of the metal panel.

Moreover, in order to increase the insulation effect, the thickness of the panel should be kept thick, but as the current insulation is applied with a semi-non-combustible material, when the panel is manufactured with a certain thickness or more, not only the insulation filling is not uniformly performed, but also the smoothness is There was a disadvantage that it could not be maintained uniformly.

Furthermore, the panel applied to the outer wall when constructing a refrigerated or frozen warehouse is fixed to the ground, and the panel is fixed from a supporting member formed of pipes, etc., and then sprayed on the inner wall to maintain the heat insulation effect to maintain the temperature difference between the inside and the outside. I did.

When spraying is performed separately as described above, the construction period is lengthened by separately installing and removing the structure for spraying, and since it causes a fire when oil vapor occurs due to the spraying, there is a hassle to remove it separately.

Further, in order to remove the oil vapor caused by spraying, a part where spraying was not partially performed is separately performed, and then spraying is further performed on a part where spraying is not performed, thereby creating a gap and condensation.

Looking at the background technology to compensate for this problem, in the “Sandwich panel using inorganic insulation as a core material” of Korean Utility Model Publication No. 20-0431356 (hereinafter referred to as'Document 1'), a reinforcing member bent with a steel plate is formed at regular intervals. As such, it discloses a sandwich panel positioned in a corresponding state.

In the case of using the invention of Document 1, there is an advantage that structural safety is secured by improving the adhesion between the core material of the inorganic insulation material and the front and rear steel plate panels by the reinforcing member, but the manufacturing cost for fixing the reinforcing members at corresponding positions In addition to being high, when the invention of Document 1 is applied to minimize problems such as heat insulation or condensation, there is a disadvantage in that a separate operation is further performed.

Looking at another background technology, in the “insulation panel” of Japanese Patent Publication No. 5301101 (hereinafter referred to as'document 2'), it discloses an insulation panel in which a U or V-shaped reinforcing material is filled between two metal skins. .

In the case of using the invention of Document 2, there is an advantage of improving the strength as well as the smoothness of the finally manufactured insulating panel by further including a reinforcing material, but a separate attachment process for attaching the fixed piece to the inside of the metal shell is required. There is a hassle.

Looking at other background technologies, in the "Panel member of a bearing wall modular building and its manufacturing method" of Korean Patent Publication No. 10-1275002 (hereinafter referred to as'Document 3'), the first finishing member and the second finishing member are integrated Disclosed is a panel member including a first stud member and a second stud member coupled to each other.

In the case of using the invention of Document 3, the first stud member and the second stud member are installed so as to be spaced apart from each other, thereby blocking the heat transfer path, thereby improving thermal insulation. However, the first stud member and the second stud member are respectively first finished. In addition to the hassle of joining the member and the second finishing member, when the panel member of Document 3 is applied to an inner wall of a frozen warehouse, there is a disadvantage in that a separate operation such as spraying must be performed.

Looking at the other background technology, in the "building panel with a wire mesh interpolated" of Korean Patent Publication No. 10-1083648 (hereinafter referred to as'document 4'), a wire mesh is used to combine the non-combustible core material and the two plates on the inner surface of the two Disclosed is an installed building panel.

In the case of using the invention of Document 4, as the wire mesh is formed, it is easy to combine the two plates and the non-combustible core, thereby preventing harmful gases generated in the event of a fire. However, spot welding the wire mesh to each of the two plates There is a hassle to perform welding to perform the welding, and there is a disadvantage that the wire mesh cannot firmly support the panel due to draft or external force.

<Background technical literature>

Republic of Korea Utility Model Publication No. 20-0431356

Japanese Registered Patent Publication No. 5308101

Korean Patent Publication No. 10-1275002

Korean Patent Publication No. 10-1083648

The present invention is to solve the problems of the prior art, and is constructed without performing a separate process including a separate spraying to fix it in a vertical direction from the ground, so that the construction period is significantly reduced, as well as accidents such as fire. It is possible to prevent, and the purpose is to provide an environmentally friendly building panel.

Moreover, it is an object of the present invention to provide a building panel in which a temperature difference between the inside and the outside can be kept constant when applied during the construction of a warehouse including any one or more selected from low temperature or freezing.

In addition, it is an object of the present invention to provide a building panel that solves structural problems caused by natural disasters or external stimuli including rain and wind.

Moreover, it is an object of the present invention to provide a building panel that can be applied comprehensively inside or outside, but can be applied for exterior use during warehouse construction including any one or more selected from low temperature or freezing.

The present invention to achieve the above object, the upper plate 100 formed in the form of a plate on the outside; A lower plate 200 spaced apart from the upper plate 100 in a downward direction and formed in a plate shape; Filling material 300 formed in order to maintain the heat insulating effect between the upper plate 100 and the lower plate 200; And a core material 400 formed in close contact with one or more inner sides selected from the upper plate 100 or the lower plate 200.

In addition, the core member 400 includes a first support portion 410 formed in a plate shape so that it can be firmly adhered to one or more inner sides selected from among the upper plate 100 or the lower plate 200 or the other side. It characterized in that it includes.

Moreover, the vertical support portion 500 formed extending in the vertical direction from the ground 30; And a horizontal support part 510 formed in a direction crossing the vertical support part 500 on any one or more selected from one side of the vertical support part 500 or the other side.

In addition, it is characterized in that it includes a first wall 10 interlocked to the outside of any one or more selected from the upper plate 100 or the lower plate 200.

Further, the manufacturing method of the present invention includes a first step (S110) of preparing any one or more selected from the upper plate 100, the lower plate 200, the filler 300, or the core 400; A second step (S120) of placing the core member 400 on one or more inner sides selected from among the upper plate 100 or the lower plate 200 that have passed the first step (S110); And a third step (S130) of filling the filler 300 inside any one or more selected from among the upper plate 100 or the lower plate 200 including the core material 400 that has passed through the second step (S120). It features.

In addition, the core member 400 includes a first support portion 410 formed in a plate shape so that it can be firmly adhered to one or more inner sides selected from among the upper plate 100 or the lower plate 200 or the other side. It characterized in that it comprises.

Further, the wall including the building panel according to the present invention includes a building panel including an upper plate 100, a lower plate 200, a filler 300, and a core material 400; A first wall 10 interlocked on the outside of any one or more selected from the upper plate 100 or the lower plate 200; And a coupling member 20 formed so that the first wall 10 can be firmly fixed to the outside of the building panel.

In addition, the building panel includes a top plate 100 formed in a plate shape on the outside; A lower plate 200 spaced apart from the upper plate 100 in a downward direction and formed in a plate shape; Filling material 300 formed in order to maintain the heat insulating effect between the upper plate 100 and the lower plate 200; And a core material 400 formed in close contact with one or more inner sides selected from the upper plate 100 or the lower plate 200.

Moreover, the first wall 10 includes a first coupling portion 11 extending in an upper longitudinal direction at an end of the first wall 10 so as to be interlocked with the building panel; And a second coupling part 12 extending in a lower longitudinal direction at an end of the first coupling part 11 facing the position where the first coupling part 11 is formed.

In addition, the coupling member 20 is characterized in that it is formed of any one or more selected from a left screw or a right screw according to the rotation direction for coupling.

The present invention is constructed without performing a separate process including a separate spraying in order to fix it in a vertical direction from the ground, so that the construction period is significantly reduced, and accidents such as fire can be prevented, and there is an eco-friendly advantage.

Furthermore, when applied during the construction of any one or more warehouses selected from low temperature or freezing, there is an advantage that the temperature difference between the inside and the outside can be kept constant.

In addition, there is an advantage of solving structural problems caused by natural disasters or external stimuli including rain and wind.

Moreover, as it is constructed by coupling by a coupling member, it is possible to efficiently prevent safety accidents that may occur during the construction process, as well as to minimize the occurrence of condensation.

In addition, although it can be applied comprehensively inside or outside, there is an advantage that can be applied for exterior use when constructing a warehouse including any one or more selected from low temperature or freezing.

1 is a plan view of a building panel according to the present invention.
2 is a plan view showing an embodiment of a core material according to the present invention.
3 is a plan view of a building panel according to the present invention.
4 is a cross-sectional view of a building panel according to the present invention.
5 is a perspective view of a building panel according to the present invention.
6 is a flowchart of a method for manufacturing a building panel according to the present invention.
7 is a flowchart of a method of manufacturing a building panel and a construction method according to an embodiment of the present invention.
8 is a cross-sectional view when performing a pull-out test of a building panel according to the present invention.
9 is a structural calculation of the building panel according to the present invention.
10 is a structural calculation of the building panel according to the present invention.
11 is a structural calculation of the building panel according to the present invention.
12 is a structural calculation of the building panel according to the present invention.
13 is a structural calculation of the building panel according to the present invention.
14 is a structural calculation of the building panel according to the present invention.
15 is a structural calculation of the building panel according to the present invention.
16 is a structural calculation of the building panel according to the present invention.
17 is a drawing test report of the building panel according to the present invention.
18 is a drawing test report of the building panel according to the present invention.
19 is a pull-out test report of the building panel according to the present invention.
20 is a pull-out test report of the building panel according to the present invention.
21 is a pull-out test report of the building panel according to the present invention.
<Explanation of code>
10: first wall, 11: first coupling portion, 12: second coupling portion
20: coupling member
30: ground
100: upper plate, 110: first coupling portion, 111: 1-1 coupling portion, 120: second coupling portion, 121: 2-1 coupling portion, 130: third coupling portion, 140: fourth coupling portion, 141: 4-1 coupling part
200: lower plate
300: filler, 310: 3-1 end, 320: 3-2 end
400: core, 410: first support, 420: second support, 421: 2-1 support, 430: third support, 431: 3-1 support
500: vertical support 510: horizontal support
S110: first step, S120: second step, S130: third step, S140: fourth step, S150: fifth step

Hereinafter, the present invention will be described in detail through examples.

Objects, features, and advantages of the present invention will be easily understood through the following embodiments.

The present invention is not limited to the embodiments disclosed herein and may be embodied in other forms. The embodiments disclosed herein are provided so that the idea of the present invention can be sufficiently transmitted to those of ordinary skill in the technical field to which the present invention belongs, and all transformations included in the technical spirit and scope of the present invention It should be understood to include equivalents or substitutes.

Therefore, the present invention should not be limited by the following embodiments, and it should be understood that all transformations included in the technical spirit and scope of the present invention are included. That is, those of ordinary skill in the technical field to which the present invention pertains, within the scope not departing from the spirit of the present invention described in the claims, variously modify or modify the present invention by adding, changing, deleting, or adding elements It will be possible to change, and this will also be said to be included within the scope of the present invention.

In the present invention, since various transformations can be applied and various embodiments can be applied, specific embodiments are illustrated in the drawings and described in detail. In the drawings, the size of the elements or the relative sizes between the elements may be somewhat exaggerated for a clear understanding of the present invention. In addition, the shape of the elements shown in the drawings may be slightly changed due to variations in the manufacturing process.

Therefore, the embodiments disclosed in the present specification should not be limited to the shapes shown in the drawings unless otherwise specified, and should be understood as including some degree of modification.

Meanwhile, various embodiments of the present invention may be combined with any other embodiments unless there is a clear opposite point. Any feature indicated to be particularly preferred or advantageous may be combined with any other feature and features indicated to be preferred or advantageous. That is, various aspects, features, embodiments or implementations of the present invention may be used alone or in various combinations.

It should be understood that the terms used in this specification are for describing specific embodiments, and are not intended to be limited by the claims, and all technical and scientific terms used in the present specification are general descriptions unless otherwise noted. It has the same meaning as commonly understood by someone with Singular expressions include plural expressions unless the context clearly indicates otherwise.

In describing the present invention, when it is determined that a detailed description of a related known technology may obscure the subject matter of the present invention, a detailed description thereof will be omitted.

<Example>

1) The first step (S110)

As shown in Figure 6, the first step (S110) of the method for manufacturing a building panel is a step of preparing one or more selected from the upper plate 100, the lower plate 200, the filler 300, or the core 400 .

In more detail, as shown in FIG. 1, the building panel according to the present invention includes any one or more selected from an upper plate 100, a lower plate 200, a filler 300, or a core 400.

First, the upper plate 100 is formed in a plate shape on the outside, and in detail, it may be formed in a plate shape on the upper side of the building panel.

By forming the upper plate 100, it provides a sufficient space for the filling material 300 or the core material 400 to be formed on the inside, and minimizes the deformation or damage of the finally manufactured building panel from external One or more selected from the wall 10, the vertical support portion 500, or the horizontal support portion 510 has an advantage that can be rigidly fixed.

Optionally, any one or more ends selected from one side of the top plate 100 or the other side may be selected from among the first coupling part 110, the second coupling part 120, the third coupling part 130, or the fourth coupling part 140. It may be formed including any one or more selected.

As an embodiment, for convenience of explanation, assuming that the above components are included in one end of the top plate 100, as shown in FIG. 3, the first coupling part 110 is in a downward direction at one end of the top plate 100. It can be formed to extend.

Since the first coupling portion 110 is formed extending downwardly to one end of the top plate 100, there is an advantage of providing a width or length in which the finally manufactured building panel can be installed.

Next, the second coupling portion 120 may be formed to extend inward from the lower end of the first coupling portion 110.

That is, the first coupling portion 110 and the second coupling portion 120 may be formed to surround one end of the filler 300 formed between the upper plate 100 and the lower plate 200.

In this way, by forming the second coupling part 120, the filler 300 prevents external separation during the construction of the building panel to be manufactured last, or provides a structure in which one or more building panels can be easily assembled. There is an advantage to be able to.

Next, the third coupling part 130 may be formed to extend downward from the end of the second coupling part 120.

Since the third coupling part 130 is formed, there is an advantage of minimizing damage to the filler 300 that may occur during the assembly process when two or more building panels are constructed by assembly.

Next, the fourth coupling part 140 may be formed to extend inward from the end of the third coupling part 130.

At this time, since the fourth coupling part 140 is formed to be fixed to the inside of the filler 300, there is an advantage that the coupling between the upper plate 100 and the filler 300 can be firmly maintained.

In this way, by forming the first coupling portion 110 to the fourth coupling portion 140, the internal or external air from the first coupling portion 110 to the fourth coupling portion 140 Due to the shape, it is not easily passed, so that the temperature difference between the inside and the outside is kept constant, and there is an advantage of being able to firmly support the filler 300.

Optionally, the 1-1 coupling part 111, the 2-1 coupling part 121, or the 4-th coupling part 111, the 2-1 coupling part 121, or the 4- Any one or more selected from one of the coupling portions 141 may be formed.

That is, if any one or more selected from the first coupling portion 110 to the fourth coupling portion 140 is formed on one side of the top plate 100, the first-first coupling portion 111, the second-first coupling portion ( 121) or any one or more selected from the 4-1 coupling portion 141 may be formed on the other side of the upper plate 100.

At this time, the 1-1 coupling part 111 may be formed extending downwardly at an end of the building panel facing the first coupling part 110.

Preferably, the outer surface of the first-first coupling portion 111 may be formed to be in close contact with the outer surface of the first coupling portion 110.

In this way, the 1-1 coupling part 111 is formed, thereby protecting the other end of the filler 300 and minimizing the gap that may occur between the ends of two or more building panels. There is an advantage that the difference between internal and external temperatures can be kept constant.

Next, the 2-1 coupling part 121 may be formed extending in the longitudinal direction from the end of the 1-1 coupling part 111.

That is, as shown in Figure 3, the 2-1 coupling portion 121 is formed extending in the longitudinal direction from the end of the first-first coupling portion 111, the 2-1 coupling portion 121 is the second The coupling portion 120 may be formed in close contact with the outer surface.

Furthermore, the 4-1 coupling part 141 may be formed to extend inward from the end of the 2-1 coupling part 121.

By forming the 4-1 coupling part 141 as described above, it is possible to prevent the other end of the filler 300 that may be generated during the construction of the finally manufactured building panel from being separated, as well as one side of the building panel and There is an advantage that the other end can be tightly coupled.

Preferably, the shapes of the 1-1 coupling part 111, the 2-1 coupling part 121, and the 4-1 coupling part 141 that are finally manufactured are formed in a'U' shape, so that the inner side It may be formed to surround the other end of the filler 300.

Any one or more selected from the 1-1 coupling part 111, the 2-1 coupling part 121, or the 4-1 coupling part 141 formed as described above is the first coupling part 110 to the fourth coupling part The part 140 is formed to be inserted into the outer and inner side, so that when the end of one or more building panels to be finally manufactured is constructed, the other end is inserted into one end of the top plate 100 so that the two or more building panels are closely connected, as well as for building construction. Since the length of the air flowing inside and outside formed based on the panel becomes longer, the difference between inside and outside temperatures can be kept constant, and condensation is minimized.

Next, the lower plate 200 is spaced apart from the upper plate 100 in a downward direction, and may be formed in a plate shape in the same manner as the upper plate 100.

By forming the lower plate 200, it provides a sufficient space and thickness between the upper plate 100 and the lower plate 200 in which any one or more selected from the filler 300 or the core material 400 can be formed, and the first wall (10), there is an advantage that can be firmly coupled with any one or more selected from the vertical support portion 500 or the horizontal support portion 510.

Optionally, the lower plate 200, like the upper plate 100, the first coupling portion 110 to the fourth coupling portion 140, the first-first coupling portion 111, the second-first coupling portion 121, or Any one or more selected from the 4-1 coupling unit 141 may be included.

At this time, the configuration is formed at the same position as the position formed on the top plate 100, and at the same time, the first coupling portion 110, the first-first coupling portion 111, the third coupling portion 130, or the 4-1 coupling The portion 141 may be formed to protrude in a direction facing the upper plate 100 so as to stably support both ends of the filler 300 positioned between the upper plate 100 and the lower plate 200, Of course, it is not limited thereto.

The upper plate 100 and the lower plate 200 formed in this way are high-strength aluminum, aluminum, stainless steel, galvanized sheet iron, cold rolled steel, electro galvanized steel, hot dip galvanized steel, alloyed hot dip. Any one or more selected from galvanized steel plate, galvanium steel plate, aluminum plated steel plate, Alcosta, and tin steel plate may be applied, but it is of course not limited thereto as long as it is a material that can be used as a building panel.

Preferably, any one or more selected from a high-strength galvanized steel sheet or high-strength aluminum that is lighter than stainless steel and superior in durability may be applied.

Optionally, high-strength aluminum is a mixture of aluminum and magnesium, and has the advantage of not being deformed by external impact due to excellent tensile strength, hardness, and durability.

Next, the filler 300 may be formed to be filled in order to maintain the insulating effect between the upper plate 100 and the lower plate 200.

In more detail, the filler 300 may be any one or more selected from an insulation material or a lightweight composite material according to the needs of the user between the upper plate 100 and the lower plate 200.

Preferably, an insulating material may be applied, and in the case of an insulating material, any one or more selected from a rigid polyurethane foam insulating material, an artificial mineral fiber insulating material, a foamed polystyrene insulating material, and a cerakwool may be applied.

Most preferably, any one or more selected from rigid urethane foam (PUR/PIR), expanded polystyrene (EPS), extruded polystyrene (XPS), phenolic foam, glass wool, cerac wool, or mineral wool may be applied, but this Of course it is not limited.

By forming the filler 300 in this way, there is an advantage that the temperature difference between the inside and the outside can be kept constant by the finally manufactured building panel.

Optionally, when the filling material 300 is applied as a cerak wool, cerak wool is formed at both ends of the filler 300 in consideration of manufacturing cost, and an insulating material excluding the cerak wool is formed between the cerak wool, While maintaining the durability of the manufactured building panel, it is possible to improve the flame retardancy due to the ceramic wool, but is not limited thereto.

Further, the filler 300 may be formed by selectively including any one or more selected from the 3-1 end 310 or the 3-2 end 320 at any one or more ends selected from one side or the other side. .

In more detail, as shown in FIG. 3, the 3-1 end 310 may be formed to protrude in an outer longitudinal direction on one or more selected from one side or the other side of the filler 300.

Preferably, the 3-1 end 310 is formed on the side where the first coupling portion 110 to the fourth coupling portion 140 is formed, and is formed shorter in the length direction than the length in which the first coupling portion 110 is formed As a result, it may be formed so that two or more building panels can be firmly coupled, but is not limited thereto.

Next, the 3-2 end 320 may be formed inwardly recessed at the side end facing the 3-1 end 310 of the filler 300.

Preferably, the 3-2 end 320 is on the side where any one or more selected from the 1-1 coupling part 111, the 2-1 coupling part 121, or the 4-1 coupling part 141 is formed. It is formed, and when two or more building panels are constructed, the 3-1 end 310 may be inserted into the recessed portion of the 3-2 end 320, but is not limited thereto. .

If the 3-1 end 310 is inserted into the recessed portion of the 3-2 end 320, the 3-2 end 320 is recessed by the length at which the 3-1 end 310 is formed. By being formed, two or more building panels may be formed to be firmly coupled, but is not limited thereto.

In this way, any one or more selected from the 3-1 end 310 or the 3-2 end 320 is further formed, so that both ends of the finally manufactured building panel are either wavy, uneven or serrated. It can be formed in the above shape.

Accordingly, when two or more building panels are installed, both ends of the building panels are inserted into each other and are assembled by simple fitting, so that the construction period is significantly shortened when constructing a low-temperature or frozen warehouse, as well as the upper plate 100 and the lower plate ( 200) and the shape of the end of the filler 300, as the path through which the air flows inside and outside is lengthened, the temperature difference between the outside and the inside can be kept constant, and condensation can be minimized.

Next, the core member 400 may be formed in close contact with one or more inner sides of the upper plate 100 or the lower plate 200 as shown in FIG. 2 (A).

By forming the core 400, the final manufactured building panel is firmly coupled to the first wall 10, so that a low-temperature or frozen warehouse can be easily constructed by assembling without performing a separate process after construction such as spraying. There is an advantage to be able to do.

To this end, the core member 400 includes a first support portion 410 and a second support portion 420, and may be formed through the filler 300.

First, the first support part 410 may be formed in a plate shape so that it can be firmly adhered to one or more inner sides selected from the upper plate 100 or the lower plate 200, or to any one or more selected from the other side.

At this time, the first support portion 410 is formed to be in close contact with one or the other side of any one or more selected from the upper plate 100 or the lower plate 200, so that the first wall 10, the vertical support portion 500, or Any one or more selected from the horizontal support portion 510 may be rigidly fixed to the outside of any one or more selected from the upper plate 100 or the lower plate 200.

Preferably, the first support portion 410 is formed in close contact with one or the other side of the top plate 100 so that the first wall 10 formed outside the top plate 100 can be firmly fixed by the coupling member 20. It may be formed, of course, but is not limited thereto.

Next, the second support part 420 may be formed to protrude in one or more directions selected from an upper side or a lower side at one or more end portions selected from one side or the other side of the first support part 410.

In more detail, the second support part 420 may be formed by bending upward or downward on any one or more selected from one side or the other side of the first support part 410.

Accordingly, when performing the third step (S130), the weight is applied to the end of the first support unit 410 by the load of the second support unit 420, so that the position of the core member 400 is not changed and the filler 300 In addition to being able to be formed by passing through, there is an advantage in that the core member 400 is easily moved by gripping the second support portion 420 to move the core member 400.

Preferably, the shape of the first support part 410 and the second support part 420 is formed to be bent into a shape as shown in FIG. 2A so that the first support part 410 is formed of the upper plate 100 or the lower plate 200. ) It may be formed in close contact with any one or more selected from one or more inner side or the other side selected from.

More preferably, the second support part 420 is formed at a right angle with respect to the first support part 410 in one or more directions selected from the upper or lower side, and is formed to be bent in the first support part 410 or the second support part 420 by an external force. ) Has the advantage of minimizing deformation of any one or more selected.

Optionally, as shown in FIG. 2 (C), the first support part 410 is formed to be bent in any one or more directions selected from the upper side or the lower side so as to be inclined in any one or more directions selected from one side or the other side. A 2-1 support part 421 may be included.

In more detail, the distance between the ends of the 2-1 support 421 may be longer than the length of the first support 410 and may be formed to be inclined in an outer longitudinal direction from the end of the first support 410.

As the 2-1 support part 421 is formed in this way, the core material 400 is formed through the inside of the filler 300 by the angle of the 2-1 support part 421 so as to penetrate between the core material 400 and the filler 300 There is an advantage that the combination of can be firmly fixed.

Further, as shown in Figs. 2 (B) and 2 (C), a third support part extending in the longitudinal direction at any one or more ends selected from the second support part 420 or the 2-1 support part 421 430 may be optionally further included.

That is, the third support 430 may be formed to extend in one or the other longitudinal direction from one or more end portions selected from the second support 420 or the 2-1 support 421.

Preferably, the third support 430 is formed to extend in one side and the other longitudinal direction from any one or more ends selected from the second support 420 or the 2-1 support 421, so that the core material ( 400) may be formed to be stably fixed, and may be formed so that the core member 400 may be firmly fixed when performing the third step (S130), but is not limited thereto.

Furthermore, as the third support 430 is formed, the coupling member 20 penetrates through the third support 430, and at the same time, the first wall 10, the vertical support 500, or the horizontal support 510 is selected. There is an advantage that can be easily formed in combination with any one or more.

Preferably, any one or more selected from the lower plate 200, the third support part 430 and the vertical support part 500 or the horizontal support part 510 are combined by the coupling member 20 to form a final building panel on the ground. It may be formed to be firmly supported from (30), but is not limited thereto.

To this end, the third support portion 430 may be formed to extend horizontally with respect to the first support portion 410, and thus may be formed so that the coupling member 20 can stably penetrate, but is not limited thereto.

Optionally, as shown in FIG. 2(D), a third 3-formed extending so as to be inclined in the longitudinal direction of one side and the other side from one or more ends selected from the second support 420 or the 2-1 support 421 One support 431 may be formed.

In more detail, the 3-1 support portion 431 may be formed so that the end portion is inclined at an angle in one or more directions selected from the upper side or the lower side.

Since the 3-1 support part 431 is formed as described above, there is an advantage that the core member 400 can be firmly fixed from the filler 300.

2) The second step (S120)

In the second step (S120), a step of placing the core member 400 on one or more inner sides selected from among the upper plate 100 or the lower plate 200 that has passed the first step (S110) may be performed.

As the second step (S120) is performed, there is an advantage that the core material 400 can be firmly fixed to the inside of the filler 300.

In more detail, the outer surface of the first support portion 410 formed on the core member 400 may be formed in close contact with the inner side of one or more selected from the upper plate 100 or the lower plate 200.

Preferably, the core member 400 is formed to be in close contact with the inside of the upper plate 100, so that the first wall 10 may be firmly fixed from the finally manufactured building panel, but is not limited thereto.

Further, the core member 400 may be formed at regular intervals so that the first wall 10 may be firmly fixed to the building panel that is finally manufactured.

Preferably, the gap between the core material 400 is the first wall 10 through which the coupling member 20 passes through the core material 400 and at least one selected from the first wall 10, the upper plate 100, or the lower plate 200 The width of any one or more selected from the building panel or the first wall 10 may be formed to be smaller than or equal to the width of the building panel to be fixed to the building panel, but is not limited thereto.

Most preferably, as shown in FIG. 5, the core member 400 may be formed at the center of one or more inner surfaces selected from the upper plate 100 or the lower plate 200, which is equal to or smaller than the width of the building panel, but is limited thereto. It doesn't work.

In this way, the core member 400 is formed at regular intervals and combined with the coupling member 20, so that the construction can be performed by combining the coupling member 20 without performing a separate process such as spraying during construction of a low temperature or frozen warehouse. There is an advantage to be able to.

In this case, the core member 400 may be formed in a longitudinal direction parallel to one or more end portions selected from the upper plate 100 or the lower plate 200 as shown in FIG. 5.

Accordingly, the core 400 is formed regardless of the length at which any one or more selected from the upper plate 100 or the lower plate 200 is formed, so that the first wall 10 can be firmly fixed from the finally manufactured building panel. There is an advantage.

3) The third step (S130)

In the third step (S130), the step of filling the filler 300 into any one or more selected from among the upper plate 100 or the lower plate 200 including the core material 400 that has passed through the second step (S120) is performed. I can.

In more detail, the filler 300 may be applied to the inside of any one or more selected from among the upper plate 100 or the lower plate 200 passed through the second step S120 and foamed.

Accordingly, it is performed without performing a separate process of introducing the core material 400 into the filling material 300, so that the core material 400 can be easily fixed at a location according to the user's needs, as well as the top plate 100 or There is an advantage that the filler 300 can be firmly positioned on the inner front surface of any one or more selected of the lower plate 200.

If, when the upper side of the first support portion 410 of the core material 400 is located on one side of the inner side of the top plate 100, the filler 300 includes any one or more selected from the top plate 100 or the core material 400 After being applied to the inner surface, it can be foamed.

At this time, the lower plate 200 may be performed so that the filler 300 can be positioned at a certain distance apart from the upper plate 100 so that the filler 300 can be foamed to a predetermined thickness.

Preferably, the lower plate 200 may be performed such that the filler 300 is applied to the inside of the upper plate 100 and then positioned at a predetermined interval before being foamed.

Accordingly, not only can the thickness of the finally manufactured building panel be formed to be constant, but also the filler 300 may include the first to fourth coupling portions 110 to 140 and the 1-1 coupling portion 111 There is an advantage that can be sufficiently foamed to the inside of the 4-1 coupling portion 141.

In this case, the inner surface of the lower plate 200 may be formed to face the inner surface of the upper plate 100.

The thickness of the final manufactured building panel manufactured as described above may be formed of 50 to 200 mm, but it is preferable to be formed of 50 to 150 mm so that the filler 300 can be evenly foamed, most preferably 50 to 125 mm. It can be, of course, but is not limited thereto.

If the thickness of the finally manufactured building panel is 50mm or less, there is a disadvantage that the insulation effect is insufficient due to the thickness of the building panel, and if it is formed to be 200mm or more, the filler 300 included in the building panel There is a disadvantage in that the insulation effect is deteriorated because it cannot be evenly foamed by the semi-noncombustible material.

As the building panel formed in this way is formed, it is constructed without performing a separate process including spraying to fix it vertically from the ground, significantly reducing the construction period, as well as preventing accidents such as fire. It has a unique advantage.

Furthermore, when applied during the construction of any one or more warehouses selected from low temperature or freezing, there is an advantage that the temperature difference between the inside and the outside can be kept constant.

In addition, there is an advantage of solving structural problems caused by natural disasters or external stimuli including rain and wind.

Moreover, as it is constructed by assembly by the coupling member 20, there is an advantage of not only being able to efficiently prevent safety accidents that may occur in the construction process, but also minimizing the occurrence of condensation.

In addition, the final manufactured building panel can be applied comprehensively inside or outside, but has an advantage that can be applied for exterior use when constructing a warehouse including any one or more selected from low temperature or freezing.

Hereinafter, as shown in FIG. 7, a method of constructing a building panel according to the present invention will be described in more detail.

4) The fourth step (S140)

In the fourth step (S140), a step of fixing the building panel that has passed through the third step (S130) to one or more selected from the vertical brace 500 or the horizontal brace 510 may be performed.

In more detail, as shown in FIGS. 4 and 5, the vertical support part 500 may be formed in a direction horizontal to the length of the building panel.

If, when the vertical support portion 500 is formed on the ground 30, the vertical support portion 500 may be formed to extend in the vertical direction from the ground (30).

In this way, by forming the vertical support portion 500, the finally manufactured building panel can be supported in the vertical direction from the ground 30.

Moreover, the vertical support part 500 may be formed at regular intervals that can firmly support the finally manufactured building panel with the ground 30.

Further, the height of the vertical support portion 500 may be formed as long as the length of the building panel formed as high as the user needs.

Optionally, when the vertical support part 500 is applied to the ceiling, as the building panel is formed in a direction horizontal to the ground, the vertical support part 500 may be formed in a direction horizontal to the ground. Of course, it is not limited thereto as long as it can be supported.

Next, the horizontal support portion 510 may be formed in a direction crossing the vertical support portion 500 on any one or more selected from one side or the other side of the vertical support portion 500.

Preferably, the horizontal support portion 510 may be formed between the vertical support portion 500 and the building panel so that the building panel may be firmly fixed to the horizontal support portion 510 by the coupling member 20.

At this time, the coupling member 20 is coupled to the horizontal support portion 510 through the third support portion 430, the filler 300 and the lower plate 200 of the core material 400, as shown in FIG. 4, The building panel may be formed to be firmly fixed to the horizontal support portion 510, but is not limited thereto.

In one embodiment, when the vertical support portion 500 is formed between the horizontal support portion 510 and the building panel, the coupling member 20 is a third support portion 430 of the core member 400, the filler 300 and It may be formed to pass through the lower plate 200 and be coupled to the vertical support portion 500.

To this end, as shown in FIG. 5, any one or more selected from coupling grooves or coupling members 20 are formed at predetermined intervals in any one or more selected from one side or the other side of the finally manufactured building panel, so that the building panel is combined. The member 20 may be formed to be easily coupled to any one or more selected from the vertical support portion 500 or the horizontal support portion 510.

If, when the coupling member 20 is formed, the coupling member 20 penetrates the third support 430, the filler 300, the upper plate 100 and the lower plate 200 of the core material 400, and the vertical support portion It can be easily combined with any one or more selected from the 500 or the horizontal support portion 510.

In another embodiment, when the coupling groove is formed, the coupling member 20 is inserted into the coupling groove, and at the same time, coupling is easily performed with one or more selected from the vertical brace 500 or the horizontal brace 510. Can be formed after

As described above, when the coupling member 20 is inserted into the coupling groove to form a space in the coupling groove, a process may be further performed separately from the space in the coupling groove, but is not limited thereto.

Further, a preferred interval at which the coupling member 20 is formed may be formed at a predetermined interval at a position where the third support portion 430 of the core member 400 is formed, but is not limited thereto.

Preferably, the coupling member 20 has a certain length equal to the interval at which any one or more selected from the vertical brace 500 or the horizontal brace 510 is formed at the position where the third support 430 of the core 400 is formed. It may be formed at intervals, but is not limited thereto.

Furthermore, the coupling member 20 applied at this time may be applied with a screw formed of one or more selected from left or right screw depending on the rotation direction for coupling, and preferably a high-tensile pull bolt may be applied, but the building panel is vertical. It goes without saying that it is not limited thereto as long as it can be firmly fixed to any one selected from the support portion 500 or the horizontal support portion 510.

5) The fifth step (S150)

In the fifth step S150, the step of fixing the first wall 10 to the outside of the building panel that has passed through the fourth step S140 may be performed.

As the fifth step (S150) is performed, when applied during the construction of a warehouse including one or more selected from low temperature or freezing according to the needs of the user, the temperature difference between the inside and the outside is not performed without performing a separate process including spraying. There is an advantage that can be kept constant.

To this end, the outer wall 10 may be interlocked on the outer side of any one or more selected from the upper plate 100 or the lower plate 200.

Preferably, the coupling member 20 is interlocked to the outside of the upper plate 100, so that the first wall 10 may be firmly fixed by the coupling member 20, but is not limited thereto.

Most preferably, the first wall 10 is formed in close contact with the outer surface of the upper plate 100, and may be formed in a direction intersecting the direction in which the finally manufactured building panel is installed.

Accordingly, when two or more building panels are assembled and formed, when internal air is discharged through a fine gap that may occur between two or more building panels, it is blocked by the first wall 10 to minimize discharge to the outside. There is an advantage to be able to.

To this end, the outer wall 10 may be formed to include a first coupling portion 11 and a second coupling portion 12.

First, the first coupling portion 11 may be formed extending in the upper longitudinal direction at the end of the first wall 10 so as to be interlocked with the building panel.

At this time, the coupling member 20 penetrates any one or more selected from the first coupling portion 11, the upper plate 100, or the lower plate 200 and the core 400, so that the first wall 10 It may be formed to be firmly fixed from the outside.

Preferably, the first wall 10 may be formed to be firmly fixed from the building panel by penetrating the first coupling part 11, the top plate 100, and the first support part 410 of the core material 400. Of course, it is not limited thereto.

At this time, the coupling member 20 may be formed at regular intervals on the first coupling portion 11, preferably, while firmly fixing the first wall 10 from the building panel, the temperature difference between the inside and the outside is constant. In order to maintain, the coupling member 20 may be formed at a predetermined interval at a position where the first support portion 410 is formed, but is not limited thereto.

Next, the second coupling portion 12 may be formed extending in the lower longitudinal direction at an end portion of the first wall 10 facing the position where the first coupling portion 11 is formed.

At this time, the second coupling portion 12 may be extended to surround the first coupling portion 11, but is not limited thereto.

Preferably, as shown in FIG. 4, the second coupling part 12 may be formed to surround the upper outer side of the first coupling part 11.

By being formed in this way, as the wall thickness of the finally constructed building increases, the difference in internal and external temperatures can be maintained constant based on the building panel and the first wall 10.

Furthermore, when two or more first walls 10 are formed, when a fine gap that may occur between the first walls 10 is generated, internal air is discharged to the outside or a path through which external air is introduced into the interior is It has the advantage of being able to maintain a constant temperature difference between the inside and outside as it gets longer.

In addition, the final manufactured building panel can be applied comprehensively inside or outside, but has an advantage that can be applied for exterior use when constructing a warehouse including any one or more selected from low temperature or freezing.

<Experimental Example 1>

1) Perform a first step (S110) of preparing one or more selected from the upper plate 100, the lower plate 200, the filler 300 or the core 400.

2) A second step (S120) of placing the core member 400 in close contact with the inner side of the top plate 100 that has passed through the first step (S110) is performed.

3) A third step (S130) of filling the filler 300 into the inside of the top plate 100 including the core material 400 that has passed through the second step S120 is performed to manufacture a building panel.

At this time, the lower plate 200 is formed to be spaced 150 mm from the upper plate 100 in the upper direction, so that the filler 300 is filled and the upper plate 100 and the lower plate 200 are firmly attached to each other based on the filler 300. Can be performed to

As shown in FIG. 8, the building panel formed as described above is located above the horizontal support portion 510 formed above the ground 30, and the first wall 10 is positioned above the building panel to perform an experiment. After preparing a sample for, a pull-out test may be performed by providing a pull-out test equipment on the upper side of the first wall 10.

In this case, the lower plate 200 of the building panel may be formed in close contact with the horizontal support portion 510, and the upper plate 100 may be formed in close contact with the first wall 10.

Further, each component may be fixedly formed by the coupling member 20, in which case the coupling member 20 may be formed so that each component can be rigidly interlocked by penetrating the core member 400.

Moreover, as shown in FIGS. 17 to 21, the coupling member 20 was applied with a high-tension pulling bolt when performing a pulling test.

In more detail, the coupling member 20 was subjected to a pull-out test by applying self-screw bolts formed of round and hexagonal heads, respectively.

As a result, when the round head self screw bolt was applied, the pull-out load was measured as 7.93 kN, and when the hexagon head self screw bolt was applied, the pull-out load was measured as 3.45 kN.

Accordingly, in the case of applying a round head self screw bolt as the coupling member 20, it is considered that the coupling of the building panel and the first wall 10 can be performed more firmly.

<Experimental Example 2>

The design wind load of the structure constructed based on the sample formed by the method of Experimental Example 1 was tested.

At this time, the design wind load condition was a basic wind speed of 38m/s, no wind degree C, the height of the structure was 40m, the importance was 0.95, and the effective water pressure area was 10m ² , and the maximum pulling load of the coupling member 20 was applied to Experimental Example 1. .

As a result, it was measured that the spacing of the coupling member 20 is preferably applied at an interval of 800 to 1000 mm.

Further, according to the wind load, the coupling member 20 was found to have a significantly higher anchor pulling force and permissible force than when the round head self screw bolt is applied than when the hexagon head self screw bolt is applied.

Accordingly, when it is constructed at a high wind load position such as a coastal area, it is considered that the coupling member 20 is preferably applied with a round head self screw bolt.

Furthermore, by simply combining the building panel according to the present invention and the first wall 10 by the coupling member 20 without performing a separate spraying, the final construction of the building, such as a low temperature or frozen warehouse, and for building from the ground Since it can be constructed without performing a separate process including spraying for fixing the panel in the vertical direction, the construction period is significantly reduced, and accidents such as fire can be prevented, and there is an eco-friendly advantage.

Furthermore, when applied during the construction of any one or more warehouses selected from low temperature or freezing, there is an advantage that the temperature difference between the inside and the outside can be kept constant.

In addition, there is an advantage of solving structural problems caused by natural disasters or external stimuli including rain and wind.

Moreover, as it is constructed by assembly by means of a coupling member, it is possible to efficiently prevent safety accidents that may occur during the construction process, as well as to minimize the occurrence of condensation.

The present invention relates to a building panel and a method of manufacturing the same, and is formed so as not to perform spraying during construction of a low-temperature or frozen warehouse, so as to significantly reduce the construction period, as well as to minimize safety accidents.

Claims (10)

delete delete delete delete delete delete Building panels including an upper plate 100, a lower plate 200, a filler 300 and a core 400;
A first wall 10 interlocked on the outside of any one or more selected from the upper plate 100 or the lower plate 200; And
Including; a coupling member 20 formed to be firmly fixed to the first wall 10 outside the building panel,
Architectural panels
An upper plate 100 formed in a plate shape on the outside;
A lower plate 200 spaced apart from the upper plate 100 in a downward direction and formed in a plate shape;
Filling material 300 formed in order to maintain the heat insulating effect between the upper plate 100 and the lower plate 200; And
Includes; a core material 400 formed in close contact with one or more inner sides selected from the upper plate 100 or the lower plate 200,
The core member 400 includes a first support portion 410 formed in a plate shape so as to be firmly adhered to one or more inner sides selected from the upper plate 100 or the lower plate 200 or the other side;
A second support part 420 formed to protrude in one or more directions selected from an upper side or a lower side at one or more end portions selected from one side of the first support part 410 or the other side; And
Including; a third support portion 430 formed extending in the longitudinal direction from the end of the second support portion 420,
A vertical support part 500 extending in the vertical direction from the ground 30 which is horizontal with the length of the building panel; And
Includes; a horizontal support portion 510 formed in a direction intersecting with the vertical support portion 500 on any one or more selected from one side of the vertical support portion 500 or the other side,
The coupling member 20 penetrates the first support portion 410 or the third support portion 430 and is coupled with any one or more selected from the first wall 10, the vertical support portion 500, or the horizontal support portion 510 Is formed as possible,
A wall containing a building panel, characterized in that the thickness of the building panel is 50 to 200 mm.
The method of claim 7,
The first support part 410 is a construction panel comprising a 2-1 support part 421 bent in any one or more directions selected from an upper side or a lower side so as to be inclined in one or more directions selected from one side of the first support part 410 or the other side. Included wall.
The method of claim 7,
The first wall 10
A first coupling portion 11 extending in an upper longitudinal direction at an end of the first wall 10 so as to be interlocked with the building panel; And
A second coupling portion 12 extending in a lower longitudinal direction at an end portion facing the position where the first coupling portion 11 is formed;
Wall containing a building panel, characterized in that it comprises a.
The method of claim 7,
The coupling member 20 is a wall including a building panel, characterized in that formed of at least one selected from a left screw or a right screw according to a rotation direction for coupling.

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