KR101405553B1 - Plate for construction - Google Patents

Abstract

The present invention relates to a plate for construction and, more specifically, to a plate for construction having light weight, insulation property, combustion resistance, and structural stiffness required for the construction of prefabricated walls. The plate for construction comprises a frame part; insulation materials attached to both surfaces of the frame part; reinforcing members having multiple insertion pipes mounted on the insulation materials; and brackets. The plate for construction is appropriate for a lightweight construction material by having the relatively small number of heavy materials, such as steel frames, and simple configuration. Also, a double insulation material and an intermediate air layer are arranged to increase insulation and soundproof effects. The present invention can conveniently construct a finishing material and can increase durability by having multiple grooves and holes on the surface of the insulation materials to easily spreading and curing concrete mortar. Also, the present invention can increase flame resistance by decreasing the speed that fire spreads on the insulation material because of the mortar soaked in the grooves when the fire occurs. Also, the present invention can conveniently construct edge parts or a roof by providing the connection brackets for fixing the plates while adjusting a coupling angle between the plates.

Description

{Plate for construction}

The present invention relates to a building plate, and more particularly to a building plate having lightweight, heat insulation, internal combustion and structural rigidity required to construct a prefabricated wall.

In recent years, lightweight walls have been widely used in the construction of new buildings. The lightweight wall is easy to install, guarantees structural stability, and has physical characteristics such as soundproofing, dampproofing, dustproofing, and flame-retarding, which are replacing existing wall installation methods.

Korean Patent No. 10-1010517 (inventor: Shin Eun-sung) relates to a method of installing a panel assembly panel and a panel panel assembly, wherein the upper frame is formed with a protrusion in the longitudinal direction at its upper portion, A pair of side frames having a diagonal cross-section enclose the left and right side surfaces of the panel, and between the lower frames and between the left and right side frames, And an anchor nut is installed at predetermined intervals between the upper frame and the flat steel structure and between the lower frame and the flat steel structure, a functional plywood is installed on a rear surface of the assembled wall panel, Wherein one of the tempered glass and the functional plywood is formed on the front surface of the assembled wall panel Installation and, inside of the prefabricated wall panel is provided with a prefabricated wall panel, it characterized in that the cell is provided with the concrete layer.

 The above-mentioned technology has an advantage that a construction can be simplified and a high rigidity can be ensured by combining a heat insulating material layer, a concrete layer and a finishing layer in an iron frame. However, due to the structure in which the steel frame surrounds the entire wall, the cost is increased due to the high ratio of the reinforcing material, and there is a disadvantage in that the insulation effect is deteriorated due to insufficient insulation material in the frame portion. In addition, since the joining members are insufficient between the iron frame, the heat insulating material and the concrete layer, cracks or peeling may occur between these constituent elements after the construction, and the heat insulating property and airtightness may be deteriorated.

In order to solve the above-described problems, the present invention provides a building plate in which a heat insulating material is sandwiched between both sides of a steel frame, and a joining member for assisting the fixing of the concrete mortar is joined to the surface of the heat insulating material. The construction plate provided with the above structure can maintain the lightness and the heat insulation property while securing the required rigidity of the assembled wall, and can secure economical efficiency by minimizing the steel frame. Also, since the concrete mortar is disposed on the surface of the heat insulating material, the mating material can prevent peeling between the mortar and the heat insulating material, thereby providing high durability and soundproofing and insulation. The joining member can satisfy the required rigidity when it is applied to a wall, ceiling, floor, or the like by supplementing the structural rigidity of the heat insulating material.

Further, since the concrete is fixed to the concrete fixing groove formed on the surface of the heat insulating material to form the diaphragm, diffusion of the flame can be prevented when a fire occurs. Also, since the connection bracket can easily adjust and fix the coupling angle between the plates, it is easy to construct the corners or the roof.

Other objects of the present invention will become readily apparent from the following description of the embodiments.

According to an aspect of the present invention, there is provided a building plate comprising: an upper frame and a lower frame; a plurality of vertical frames supporting the upper frame and the lower frame; A frame part having a plurality of connection holes for connecting to frame parts and frame parts of the other plate on one side surface of the upper frame, the lower frame and the vertical frame; A heat insulating material provided in the same area as the flat part of the frame part and attached to both sides of the frame part; A plurality of insertion tubes which are formed to have a diagonal cross section and are attached by being inserted into a plurality of outer surfaces of the heat insulating material and having a predetermined length in a direction perpendicular to a surface of the heat insulating material, A plurality of insertion pipes penetrating the skin of the heat insulating material to be inserted therein, and a bracket provided to connect the frame part with the frame part of the frame or the other plate.

The bracket is provided with a reinforcing pipe provided on an inner diameter portion of the connecting hole and a connecting rod fixedly installed on one side of the frame of the other plate so that the plurality of plates are connected to each other by being inserted into the reinforcing pipe .

The heat insulating material is joined at the front and rear surfaces of the frame part so that air layers can be formed in the plate while maintaining a predetermined gap therebetween, a groove for engaging with the frame part is formed, and a heat- There is provided a building plate in which a plurality of grooves are formed horizontally.

The reinforcing member further comprises a reinforcing member having a T-shaped cross section so as to be fitted to a joint portion between the heat insulating material and the heat insulating material on the other plate.

The reinforcing member is provided with a construction plate provided with an insertion tube formed to face the one side of the heat insulating material and an insertion tube formed to face the other plate in contact with the heat insulating material.

Wherein the bracket is provided at one side of the frame and is disposed so as to be arranged on the same axis as the hinge on the other frame when assembled with the other frame; A fixing shaft inserted through the inner diameter portion of the hinge and having a through hole having a polygonal cross section through the boss portion; And a reinforcing shaft inserted through the through hole.

The bracket is provided with a construction plate in which the inner diameter portion of the hinge has a serrated groove and the outer surface of the fixed shaft has a protrusion coupled to the groove.

The reinforcing shaft is provided in the form of an empty tube whose center of gravity is hollow and whose cross section is formed in a quadrangle and through which a further rectangular center axis can be further inserted.

According to the construction plate of the present invention, the weight material such as the iron frame is relatively small, and the construction is simple, so that it is suitable as a light construction material. Double insulation and middle air layer are provided for high insulation and sound insulation. Also, a plurality of grooves and holes are provided on the surface of the heat insulating material to facilitate the application and fixing of the concrete mortar, so that the finish material can be easily constructed and durability can be improved.

Also, by providing a bracket that can be coupled by adjusting the coupling angle between the plates, it is possible to easily and firmly construct the wall corners or the roof.

1 is a perspective view showing an embodiment of a building plate according to the present invention.
2 is an exploded perspective view showing an embodiment of a building plate according to the present invention.
3 is a cross-sectional view illustrating one embodiment of a building plate according to the present invention.
4 is a perspective view illustrating an embodiment of a c-shaped stiffener of a building plate according to the present invention.
5 is a perspective view showing an embodiment of a T-shaped stiffener of a building plate according to the present invention.
6 is a cross-sectional view showing an embodiment of installing a T-shaped stiffener of a building plate according to the present invention.
7 is a perspective view illustrating one embodiment of a bracket installation of a building plate according to the present invention.
8 is a cross-sectional view showing one embodiment of the bracket installation of the building plate of the present invention.
9 is an exploded perspective view showing another embodiment of the bracket installation of the building plate of the present invention.
10 is an assembled perspective view showing another embodiment of the bracket installation of the building plate of the present invention.
11 is a cross-sectional view showing another embodiment of the bracket installation of the building plate of the present invention.
12 is a perspective view showing a method of using another embodiment of a bracket installation of a building plate according to the present invention.
13 is a perspective view showing an embodiment of a fixing shaft of a building plate according to the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but is to be understood to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention, And the scope of the present invention is not limited to the following examples.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like or corresponding elements are denoted by the same reference numerals, and redundant explanations thereof will be omitted.

FIG. 1 is a perspective view showing one embodiment of a building plate according to the present invention, FIG. 2 is an exploded perspective view showing one embodiment of a building plate according to the present invention, FIG. 3 is a cross- FIG. 5 is a perspective view showing a T-shaped stiffener of a building plate according to the present invention, and FIG. 6 is a perspective view showing a constructional plate FIG. 7 is a perspective view showing one embodiment of a bracket installation of a building plate according to the present invention, and FIG. 8 is a perspective view showing an embodiment of a bracket installation of a building plate according to the present invention. Fig. FIG. 9 is an exploded perspective view showing another embodiment of a bracket installation of a building plate according to the present invention, FIG. 10 is an assembled perspective view showing another embodiment of a bracket installation of a building plate of the present invention, 12 is a perspective view showing a method of using another embodiment of a bracket installation of a building plate according to the present invention, and Fig. 13 is a perspective view of a fixing shaft of a building plate according to an embodiment of the present invention It is a perspective view.

1 and 2, the building plate according to the present invention may include a frame 10, a heat insulating material 20, a stiffener 30, and a bracket 40.

 The frame portion 10 is provided with a plurality of vertical frames 14 for supporting the upper frame 12, the lower frame 13 and the upper and lower frames 12 and 13, A plurality of connection holes (14) are formed on one side surface of the vertical frame for connection with another plate or frame part. The vertical frame 14 is provided so that the frame portion 10 forms a rectangular rim by joining the ends of the upper and lower frames 12 and 13. The frame part 10 is made of a steel pipe or a reinforced resin, and the upper and lower frames and the vertical frame can be joined by welding, riveting, bolting or the like. The vertical frame 14 may be provided to support the upper and lower frames 12 and 13 in order to prevent the frame 10 from being twisted or warped. The connection hole 14 is formed to penetrate through the side surface of the frame part 10 and is inserted through the bracket 40 so as to be coupled with the frame or the other plate. .

The heat insulating material 20 is provided in the same area as the plane portion of the frame portion 10 and is provided to be attached to both sides of the frame portion 10. Therefore, the heat insulating material 20 is stably coupled to the frame part 10 by forming a groove for joining to the frame part 10 along the corner part. The heat insulating material 20 may be fixed to the frame part 10 using a separate adhesive member (not shown) so that the heat insulating material 20 can be completely attached to the frame part 10 and fixed. The heat insulating material 20 may be provided as a heat insulating member having various thicknesses such as EPS, urethane foam, and gypsum board, and may be provided with various properties depending on the purpose of the building.

3, the stiffener 30 is formed to have a diagonal cross-section so that the finishing material can be firmly fixed when the finishing material such as concrete mortar is applied on the heat insulating material 20, 20 by a plurality of inserts. A plurality of insertion tubes 30a and 31a having a predetermined length in a direction perpendicular to the surface of the stiffener 30 attached to the heat insulating material 20 are formed through the main body of the stiffener 30. [ When the insertion tubes 30a and 31a are attached to the heat insulating material 20, the plurality of insertion tubes 30a and 31a are stuck to the heat insulating material 20 and a plurality of cavities are formed in the heat insulating material 20 do. The cavity serves as an engaging projection for firmly fixing the finishing material to the heat insulating material 20 while allowing the finishing material to penetrate and harden.

The reinforcing member 30 can easily process the insertion tube 30a 31a by using an iron plate for sheet metal or a reinforced resin having high ductility. That is, the insertion tubes 30a and 31a can be formed by forming the intubating protruding portion on the opposite side of the piercing surface when punching the sheet metal for forming the hole without re-processing. The reinforcing member 30 thus prepared can be pressed by the operator on the heat insulating material 20 by hand without any additional tool. Therefore, the operator can flexibly adjust the number of the stiffeners 30 to be attached to the heat insulating material 20 according to the properties of the finishing material and the conditions of the work site.

7 and 8, the bracket 40 includes a reinforcing pipe 42 provided at the inner diameter of the connecting hole 14 and provided in a tubular shape, and a reinforcing pipe 42 inserted into the reinforcing pipe 42 And a coupling rod 41 fixed to one side surface of the frame portion 10 of the other plate so that the plurality of plates are connected to each other.
Since the outer diameter of the end portion of the coupling rod 41 is larger than the outer diameter of the body and is provided with an elastic force so that the coupling force between the coupling rod 41 and the reinforcing tube 42 can be maintained when the coupling rod 41 is inserted into the reinforcing tube 42 .

2 and 8, the heat insulating material 20 is joined to the front and rear surfaces of the frame portion 10, and the air layer 21 is formed inside the plate while maintaining a constant gap A groove 20b for coupling to the frame 10 is formed and a plurality of grooves 20a are formed laterally so as to allow the finishing material to permeate the outside. The depth of the groove 20b formed in the heat insulating material 20 is not less than the thickness of the frame portion 10 because the air layer 21 is formed by joining the heat insulating material 20 on both sides of the frame portion 10. [ ≪ / RTI > The air layer 21 formed between the heat insulating materials 20 functions together with the heat insulating material 20 as an element for improving the heat insulating property.
8, the recess 20b is formed by forming a step between the edges of the heat insulating material 20, and the heat insulating material 20, which is joined to the front and rear surfaces of the frame portion 10, 10 to prevent the heat insulating material 20 from being misaligned with the frame 10.

The grooves 20a are provided so as to firmly fix the mortar adhesive for finishing with the reinforcing material 30 on the heat insulating material 20. The cross section of the grooves 20a may be provided in various forms for this purpose have. That is, the groove 20a may be formed as a simple groove-shaped cross-section, or may be formed in a shape in which the bottom surface has a wide groove or V-shape and the bottom surface is narrowed. The shape of the groove 20a may be formed in various forms according to the properties and the rigidity of the heat insulating material 20. Referring to FIG. 1, in addition to the grooves 20a provided horizontally, the heat insulating material 20 may be further provided with additional mortar fixing grooves 50a. The mortar fixing groove 50a may be provided so that a mortar adhesive applied on the heat insulating material 20 is firmly fixed to the heat insulating material 20. [

2, a fiber mesh 50 may be provided as an additional layer on the heat insulating material 20 so that the mortar adhesive is firmly bonded to the heat insulating material 20 and the rigidity after hardening is secured. The fiber mesh 50 is made of a fiber material for construction, and can be provided in the form of a mesh of 1 cm or less. When the mortar adhesive is applied to the heat insulating material 20 to which the fiber mesh 50 layer is attached, the mortar adhesive penetrates through the fiber mesh 50 layer and the grooves 20a of the heat insulating material 20 and the mortar fixing grooves 50a ), So that no peeling or debris is generated after curing.

5 and 6, the reinforcing member 30 further includes a T-shaped stiffener 31 having a T-shaped cross section so as to be fitted to the joint between the heat insulating material 20 and the heat insulating material on the other plate / RTI > The T-shaped stiffener 31 is provided with an insertion tube 31a formed to face the plate and an insertion tube 31a formed to face the other plate.

9 and 10, the bracket 40 is provided with a hinge 44 on one side surface of the frame part 10, and the hinge 44 is formed on the other frame part The hinge 44 may further include a fixed shaft 43 that is disposed to intersect on the same axis as the hinge 44 and that is fitted through the inner diameter portion of the hinge 44 disposed on the same axis. That is, the fixing shaft 43 is inserted through the inside diameter of the hinge 44 of both plates disposed so as to intersect with each other, so that the frame portions 10 are engaged. The bracket 40 is formed such that the inner diameter portion of the hinge 44 is provided with a serrated inner hinge groove 44b and the outer surface of the fixing shaft 43 is provided with a projection portion 43a are formed. 11, the fixing shaft 43 inserted into the hinge 44 is engaged with the protrusion 43a and the groove 44b so that the coupling angle? Between the frame portions 10 is fixed . Further, the fixing shaft 43 may be formed with a through hole 43b having a polygonal cross-section so as to pass through the boss portion. The through hole 43b is intended to be inserted through an additional reinforcement shaft 45. The reinforcing shaft 45 is provided in the form of a hollow tube having an annular core portion, a cross-section of the annular core portion is formed in a quadrangle, and a further rectangular core axis 46 can be further inserted through the tube.

13, the fixing shaft 43 is formed with a through hole 43b having a polygonal sectional shape, a reinforcing shaft 45 having a polygonal outer shape is inserted into the through hole 43b, And a rectangular concentric axis 46 is inserted into the shaft 45. [0051] In this way, sufficient rigidity against warping which can be applied by the hinge 44 can be obtained.

Referring to FIG. 12, a method of connecting the frame portion 10 with the bracket 40 is shown. The frame part 10 may be fixed by the bracket 40 so that a plurality of frames are in contact with each other horizontally or may be provided so as to contact with a right angle so as to construct the corner part of the wall. When the fixing shaft 43 is inserted into the hinge 44 in a state where the plurality of frame parts 10 are arranged so as to be in contact with each other at right angles, the protrusion 43a on the fixing shaft 43 and the hinge (?) Of the frame part (10) is fixed by being engaged with the groove (44b) in the frame part (44).

The operation of the building plate according to the present invention will now be described.

The constructor first places the frame part 10 in a frame (not shown) and attaches the bracket 40 to the connection part 14 formed in the frame part 10, that is, the upper frame 11 and the lower frame 12, And the frame part 10 is installed on the frame. And then a connection hole of the connection hole 14 provided on the vertical frame 13 of the frame part 10 and the connection hole of the other frame part is inserted into the frame part 10, (40). That is, the reinforcing pipe 42 is inserted through the connecting hole 14 on the vertical frame 13 and the connecting rod 41 is inserted through the connecting hole of the other frame portion, 41) are fastened.

When the frame construction for the wall is completed as described above, the heat insulating material 20 is bonded to both sides of the frame part 10. [ At this time, the heat insulating material 20 can be fixed to the frame part 10 by fitting the groove 20b provided at the corner of the heat insulating material 20 into the frame of the frame part 10. [ Thus, the air layer 21 is formed in the middle of the frame in which the front and rear portions are blocked by the heat insulating material 20. The heat insulating material 20 may be fixed more firmly to the frame portion 10 by using a separate adhesive member. A plurality of recesses (not shown) may be formed on the frame portion 10 to which the heat insulating material 20 is in contact to allow the adhesive member to penetrate the upper surface of the frame portion 10 to increase the adhesive strength between the heat insulating material 20 and the frame portion 10 have.

At this time, the inner surface of the heat insulating material 20 forming the air layer 21 may be formed as a roughened surface in order to increase sound absorption.

Then, the stiffener 30 is engaged in the longitudinal direction of the heat insulating material 20. At this time, it is preferable that the reinforcing member 30 be evenly knocked so that the insertion tubes 30a protruding from the inner surface of the reinforcing member 30 penetrate through the skin of the heat insulating member 20 and can be evenly embedded. Thus, the finishing material penetrates into the heat insulating material 30 through the pores formed on the surface of the reinforcing member 30 to form a projection for fixing. Also, the installer can adjust the installation of the reinforcing member 30 in the field depending on the characteristics of the finishing material. That is, when the finish material is weak in adhesion with the heat insulating material 20, the stiffener 30 may be installed on the heat insulating material 20 more densely than the standard, so that the adhesive force of the finish material can be compensated.

The heat insulating materials can be connected to each other at a portion where the heat insulating material 20 is in contact with the heat insulating material of the other plate by using the T-shaped stiffener 31. The T-shaped stiffener 31 can prevent the airtightness from being deteriorated by spreading the portion where the plate is connected.

12, in order to construct the corner of the wall, the installer uses the plate provided with the hinge 44 to install the plate so that the angle θ between the plates is formed, Is inserted into the hinge 44 to fix the plate.

When the installation of the reinforcing material 30 is completed, the constructor applies a mortar adhesive to the surface of the heat insulating material 20 on which the reinforcing material 30 is installed and finishes the treatment. The mortar adhesive may be installed alone, but the rigidity of the mortar layer can be increased by pouring the fiber mesh 50 as shown in FIG. At this time, it is preferable that the mortar penetrates through the fiber mesh 50 and penetrates into the interior of the heat insulator through the insertion pipes 30a and 31a of the reinforcing member 30. It is also preferable to work such that the mortar is filled in the grooves 20a and the mortar fixing grooves 50a formed on the surface of the heat insulating material 20. [

The mortar filled in the insertion tubes 30a and 31a is hardened and serves as a fixing protrusion for fixing the heat insulating material 20 and the finish material when drying is completed after the application of the finish material so that the finish material is more firmly secured to the heat insulating material 20 As shown in FIG. The mortar filled in the insertion tubes 30a and 31a and the groove 20a can also enhance the flame retarding function by acting as a diaphragm for preventing the progress of the flame when a fire occurs on the heat insulating material.

Although the present invention has been described with reference to the accompanying drawings, it is to be understood that various changes and modifications may be made without departing from the spirit of the invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the following claims.

10: frame part 11: upper frame
12: lower frame 13: vertical frame
14: Connection hole 20: Insulation
20a: groove 20b: groove
21: air layer 30: c-shaped stiffener
30a: insertion tube 31: T-shaped stiffener
31a: insertion tube 40: bracket
41: coupling rod 42: reinforcing tube
43: fixed shaft 44: hinge
43a: protrusion 43b: through hole
44b: Hinge recessed groove 45: Reinforcing shaft
46: centripetal axis θ: interplate coupling angle
50: Fiber Mesh 50a: Mortar Settlement Home

Claims (8)

In a building plate,
The upper frame and the lower frame are provided, and a plurality of vertical frames for supporting the upper frame and the lower frame are provided, and one side of the upper frame, the lower frame and the vertical frame is connected to the frame or frame on the other plate A frame part provided with a plurality of connection holes;
A heat insulating material provided in the same area as the flat part of the frame part and attached to both sides of the frame part;
A plurality of insertion tubes which are formed to have a diagonal cross section and are attached by being inserted into a plurality of outer surfaces of the heat insulating material and having a predetermined length in a direction perpendicular to a surface of the heat insulating material, A plurality of insertion tubes penetrating the skin of the heat insulator to be inserted therein; And
And a bracket provided so as to connect the frame portion to a frame portion on the frame or another plate. The bracket according to claim 1,
A reinforcing pipe provided on an inner diameter portion of the connection hole; And
And a coupling rod installed and fixed on one side of the frame of the other plate so that the plurality of plates are connected to each other by being inserted into the reinforcing tube. The heat sink according to claim 1,
A plurality of grooves are formed on the front and back surfaces of the frame part so as to form an air layer inside the plate while maintaining a predetermined gap therebetween, Is formed. The stiffener according to claim 1,
And a reinforcing member having a T-shaped cross section so as to be fitted to a joint between the heat insulating material and the heat insulating material on the other plate. The stiffener according to claim 4,
And an insert tube formed to face the one side of the heat insulating material and an inserting tube formed to face the other plate against the heat insulating material. The bracket according to claim 1,
A hinge provided on one side surface of the frame portion and arranged to intersect on the same axis as the hinge on the other frame when assembled with the other frame;
A fixing shaft inserted through the inner diameter portion of the hinge and having a through hole having a polygonal cross section through the boss portion; And
And a reinforcing shaft inserted through the through hole. The bracket according to claim 6,
Wherein the inner diameter portion of the hinge has a serrated groove, and the outer surface of the fixed shaft has a protrusion coupled to the groove. 7. The apparatus according to claim 6,
Wherein the trunk is provided in an empty tube shape, the cross section of the trunk is formed in a square shape, and an additional rectangular truncated axis can be further inserted through the tube.

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