KR101866237B1 - Assembling wall panels structure - Google Patents

Abstract

The present invention relates to a self-assembly wall body panel structure capable of preventing external foreign matters, such as moisture, from penetrating into a core of the wall body panel through a gap of connected portions after the self-assembly wall body panels are assembled. The self-assembly wall body panel structure comprises: a wall body panel having a first combining part and a second combining part, wherein the first combining part has a core, which is a thermal insulation material and is charged between an outer plate and an inner plate made of metal, and a first inscribed face and a right-angled face formed to correspond with each other at right and left sides, and the second combining part has an inclined face and a second inscribed face to form a receiving space for receiving a head part of a fastening member, which restricts an urethane material charged in edges of the outer plate and the inner plate; and a sealing member of which one side is attached to the first inscribed face of the first combining part, wherein a plurality of blades are formed on the other side of the sealing member. The sealing member includes: an adhesive plate; a first blade protruding to one side edge of an upper surface of the adhesive plate; a second blade arranged adjacent to the first blade on the upper surface of the adhesive plate to support the first blade, wherein an end portion comes in contact with the second inscribed face when the first and second combining parts are combined with each other; a third blade of which an end portion comes in contact with the second inscribed face when the first and second combining parts are combined with each other; a fourth blade of which an end portion comes in contact with the inclined face when the first and second combining parts are combined with each other; and a fifth blade of which an end portion comes in contact with the inclined face when the first and second combining parts are combined with each other.

Description

[0001] ASSEMBLING WALL PANELS STRUCTURE [0002]

The present invention relates to a prefabricated wall panel structure, and more particularly, it relates to a prefabricated wall panel structure for preventing foreign matter such as moisture and moisture from penetrating into a core material of a wall panel through a gap in a connection site after the prefabricated wall panels are assembled. The present invention relates to a prefabricated wall panel structure in which a sealing material having a plurality of blades is attached to a side surface thereof and a coating agent is applied to a cut surface of the wall panel to improve the blocking performance of the foreign matter.

Generally, a constructional prefabricated panel known as a so-called sandwich panel is an organic or inorganic material having a large void in the inside of foamed polystyrene (styrofoam, EPS), urethane, glass fiber, rock surface or polyester fiber nonwoven fabric for insulation, soundproofing, And a metal plate is superimposed on the outer side of the core member.

Such a panel is mainly used for forming a wall of a building or partitioning the interior of a building such as a partition to form an internal structure by mass-producing panels of a certain size and continuously joining panels to form a wall structure.

Therefore, a coupling structure of a predetermined type is formed at both ends of each panel for coupling between the panels.

Among the above-described panels, the most commonly used type is the EPS panel, which is made of EPS as the core material. Since the EPS panel is light and is very effective for insulation and sound absorption but is very vulnerable to fire, recently, a flame- The use of panels is on the rise.

Although the flame-retardant EPS remarkably lowers the risk of fire in the existing EPS, it can not completely prevent shrinkage due to heat because it is an organic foam. Therefore, when a fire occurs, a gap may be formed in the connection portion between the panels due to such shrinkage, and there is still a risk of fire propagation to the separated space due to a flame leaking through the gap. This is the same problem that can occur when using other organic core materials such as urethane foam as well as EPS.

On the other hand, in the case of using an inorganic fiber-based core material such as glass wool or mineral wool, the shrinkage by heat itself has a remarkably smaller advantage than the organic core material, but the weight is heavier and the cost is higher than that of the organic- The breakage of the inorganic fibers can be continuously discharged from the joints between the panel and the bottom surface, which may adversely affect the health.

Prior art related to a conventional prefabricated wall panel is disclosed in Korean Patent Publication No. 10-0923800 entitled " Prefabricated panel wall structure "(registered on October 20, 2009) The panel structure is formed by joining together the end portions of the panels. In the connecting portion formed by joining the end portions of the panels, a region filled with the flame-retardant organic core material in the thickness direction of the panel, And the area where the core material is filled alternately exists so that the fire resistance on the connection part is improved.

As another prior art related to the existing prefabricated wall, as disclosed in Korean Patent Registration No. 10-1529009 entitled " Removable wall frame assembly and method of construction thereof "(registered on June, 2015.06.09) A removable frame assembly which can be applied to a ceiling, a wall, a flooring or the like, comprising: a main frame arranged so as to face mutually opposite wall surfaces at predetermined positions based on design specifications; a plate member fixing piece And a molding and a mop for closing the connecting portion of the main frame and the plate member fixing piece, wherein the main frame has a concave support piece formed at both ends thereof, , A plate-like member supporting piece, a plate-like member induction piece, a base receiving protrusion and a base receiving groove, Wherein a molding is fitted in a molding fitting groove formed of a spherical support piece and a plate member supporting piece at both ends, the plate member fixing piece is formed at one end of a supporting piece connecting groove to be engaged with the main frame, The molding and the mop holder being fixedly coupled with the fitting protrusions and the grooves formed in the main frame and the plate-shaped member fixing pieces, and fixed to the main frame and the plate- And is inserted and installed so as to close the convenience connection portion.

However, the conventional prefabricated wall panel has a concave-convex connection part between the wall panels composed of the outer panel and the core, and since the cut surface is formed in the process of stacking the panels up and down according to the height of the wall, It is absorbed to the core material side through the cut surface in the process of penetrating from the outside of the connection part to the inside, so that the core material is contracted and deformed by moisture or moisture, and the insulation effect is lowered.

Korean Registered Patent No. 10-0923800 entitled "Prefabricated Panel Wall Structure" (Registered on October 20, 2009) Korean Registered Patent No. 10-1529009 entitled " Removable Wall Frame Assembly and Method of Construction "(Registered on May 19, 2015)

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and its object is to provide a method of manufacturing a wall panel in which foreign substances such as moisture and moisture penetrate into a core material of a wall panel through a gap There is provided a prefabricated wall panel structure improved in its structure to attach a sealing material having a plurality of blades to the inner side surface of the connection portion and to apply a coating agent to the cut surface of the wall panel to improve the blocking performance of the foreign matter have.

In order to achieve the above object, according to the present invention, there is provided a method of manufacturing a semiconductor device, comprising: a first engaging portion filled with a core material which is a heat insulating material between an outer plate and an inner plate of a metal material and having a first inscribed surface and a right- A wall panel having an inclined surface and a second engaging portion formed with a second inscribed surface so as to form an accommodating space in which the head portion of the engaging member for interrupting the urethane material filled in the rim of the outer and inner plates; And a sealing member having one side attached to the first internal connecting surface of the first engaging portion and the other side formed with a plurality of blades, the sealing member including an adhesive plate bonded to the first internal connecting surface with an adhesive, A first blade protruding from one side edge of the first blade and being in close contact with the right side surface of the first blade; A second blade projecting from the upper surface of the right adhesive plate spaced from the second blade with respect to the head part of the fastening member and having an end when the first and second engaging parts are engaged with each other, A fourth blade protruding from an upper surface of the adhesive plate at a position rightwardly spaced apart from the third blade and contacting an end of the first and second engaging parts when the first and second engaging parts are engaged with the inclined surface, Projecting an upper surface of the adhesive sheet a position spaced to the right with respect to the fourth blade being characterized in that the first and second coupling portion when coupling end configured as the fifth blades in contact with the inclined surface.

Wherein the first engaging portion includes a horizontal surface extending horizontally from the right angle surface and facing the second inscribed surface, and a first connecting surface connected to the outer surface of the outer sheath from the horizontal surface, And a second connecting surface extending from the second inscribed surface so as to face the first connecting surface.

The first, second, third, fourth, and fifth blades are formed so that their thickness decreases from the adhesive plate toward the end.

The third, fourth, and fifth blades are further provided with bent portions that are bent so as to be bent from the respective ends of the blades toward the adhesive plate.

The third, fourth and fifth blades are formed so that the third blade is longer than the fourth and fifth blades so as to correspond to the second inscribed surface and the inclined surface, and the fourth blade is formed longer than the fifth blade.

A coating agent for preventing moisture permeation is applied to the cut surface of the wall panel.

The present invention is characterized in that the first and second blades firstly block foreign substances such as moisture and moisture that penetrate into the receiving space through the clearance between the first connecting surface and the second connecting surface and the gap between the horizontal surface and the second inscribed surface, The third, fourth, and fifth blades are configured to prevent foreign matter such as moisture or moisture passing through the first and second blades from penetrating into the inner core or the urethane material side through the accommodation space to improve the penetration prevention performance of the foreign matter So that it is possible to prevent the deformation of the urethane material or the core material due to the foreign matter.

Also, since the first, second, third, fourth, and fifth blades of the present invention are formed so as to have a thickness becoming thinner from the adhesive plate toward the end, the first blade is in close contact with the right- The second inscribed surface and the inclined surface are bent so that the end portion is in close contact with the second inscribed surface, so that penetration of foreign matter can be easily blocked.

Since the end portions of the third, fourth and fifth blades of the present invention are in contact with the second inscribed surface and the inclined surface, the length of the third blade, the end of which is in contact with the second inscribed surface, And the length of the fourth blade is longer than the length of the fifth blade so as to correspond to the inclination angle of the inclined surface so that the ends of the third, fourth and fifth blades are easily contacted with the second inscribed surface and the inclined surface .

Since the bent portion of the present invention is formed so as to bend at the ends of the third, fourth and fifth blades, the foreign matter infiltrated into the receiving space is prevented from moving along the surfaces of the third, It is possible to prevent permeation between the blades and further improve the anti-penetration performance.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a sectional view showing the construction of an embodiment of a prefabricated wall panel structure according to the present invention. FIG.
2 is a perspective view showing a sealing material according to an embodiment of the present invention.
Figure 3 is a front view of Figure 2;
4 is a front view showing a state in which a coating agent is applied to a cut surface of a wall panel of the present invention.
5 is a sectional view showing the construction of another embodiment of the assembled wall panel structure according to the present invention.
6 is a front view showing a sealing material according to another embodiment of the present invention.

1 to 4, a core material 130, which is a heat insulating material, is filled between an outer plate 110 and a metal plate 120 of a metal material, A first engaging portion 150 formed with a first inscribed surface 151 and a perpendicular surface 152 to correspond to both sides of the outer plate 110 and the inner plate 120, And a second engaging portion 160 formed with the inclined surface 162 and the second inscribed surface 161 to form a receiving space 170 in which the head portion 310 of the fastening member 300 for interrupting the fastening member 140 A wall panel 100; And a sealing member 200 having one side attached to the first inscribed surface 151 of the first engagement portion 150 and a plurality of blades formed on the other side.

Referring to FIG. 1, the wall panel 100 includes a first coupling portion 150 having a first internal surface 151 and a right-angle surface 152 formed on one side thereof, a first coupling portion 150 formed on the other side thereof, And the second engaging portion 160 is formed to correspond to the second engaging portion 160. FIG.

For example, glass fiber may be used as the core material 130 to be interposed between the outer and inner plates 110 and 120.

The receiving space 170 is formed between the first and second inscribed surfaces 151 and 161 so that the head portion 310 of the coupling member 300 is received between the first and second inscribed surfaces 151 and 161 when the first and second coupling portions 150 and 160 are coupled to each other. Is formed.

1, the first coupling portion 150 includes a horizontal surface 153 extending horizontally from the right side surface 152 and disposed to face the second inside surface 161, 153 are connected to the outer surface of the outer sheath 110. [

The second coupling portion 160 includes a second coupling surface 163 extending from the second internal surface 161 so as to face the first coupling surface 154. [

Accordingly, the wall panels 100 adjacent to each other in the lateral direction are connected to each other by the concave-convex structure of the first and second coupling parts 150 and 160 to form a wall.

2 and 3, the sealing member 200 includes an adhesive plate 210 adhered to the first inner surface 151 with an adhesive, and a protrusion 210 protruding from one edge of the upper surface of the adhesive plate 210, A first blade 221 which is in close contact with the surface 152 and a second blade 221 which is disposed on the upper surface of the adhesive plate 210 so as to be adjacent to the first blade 221 to support the first blade 221, A second blade 222 having an end when the coupling portion 150 and 160 are engaged with the second internal contact surface 161 and a second blade 222 contacting the head portion 310 of the coupling member 300, A third blade 223 protruding from the upper surface of the adhesive plate 210 on the right side spaced apart from the first inserting surface 222 and contacting an end of the first and second engaging portions 150 and 160 to the second inscribed surface 161, And the end of the first and second engaging parts 150 and 160 is engaged with the inclined surface 162 when the first and second engaging parts 150 and 160 are engaged with each other. The fourth blade 224 and the fourth blade 224 protrude from the upper surface of the adhesive plate 210 at a position spaced apart to the right from the fourth blade 224 and the ends of the first and second coupling portions 150 and 160, And a fifth blade 225 contacting the second blade 162.

The first blade 221 is closely adhered to the right angle surface 152 and penetrates into the interior of the accommodation space 170 through the right angle surface 152 and the second internal surface 161, As shown in FIG.

The second blade 222 is disposed adjacent to the first blade 221 to support the first blade 221 to prevent the first blade 221 from being pushed rearward.

The third blade 223 protrudes from the upper surface of the other side of the adhesive plate 210 opposite to the first and second blades 221 and 222 with respect to the head part 310 of the fastening member 300, And has a length contacting the second inscribed surface (161).

The fourth blade 224 is formed so as to protrude to the right side of the third blade 223 and has a length such that an end thereof is in contact with the inclined surface 162.

The fifth blade 225 is formed so as to protrude to the right of the fourth blade 224 and has a length such that an end of the fifth blade 225 is in contact with the inclined surface 162.

Since the ends of the third, fourth and fifth blades 223, 224 and 225 are in contact with the second inscribed surface 161 and the sloped surface 162, the third blade 223, the end of which is in contact with the second inscribed surface 161, And the length of the fourth blade 224 corresponds to the inclination angle of the inclined surface 162. The length of the fourth blade 224 is longer than the length of the fifth blade 224, ) Longer than the length.

The wall panel 100 is cut to an appropriate length according to the length of the wall, and the wall is formed by a lamination method on the upper and lower sides. As shown in FIG. 4, the cut surface 105 of the wall panel 100 has moisture A coating agent 400 for preventing penetration is applied.

According to one embodiment of the present invention having such a configuration, when the wall panels 100 are connected upward, downward, left, and right, when the first joining part 150 of the wall panel 100 is adjacent To the second engaging portion 160 of the other wall panel 100, as shown in Fig.

At this time, the first and second coupling parts 150 and 160 are coupled such that the second coupling surface 163 is opposed to the first coupling surface 154, and the horizontal surface 153 is coupled to the second inner surface 161, .

A head portion 310 of a fastening member 300 such as a screw is received in a receiving space 170 formed between the first and second internal surfaces 151 and 161.

The fastening member 300 is inserted through the first inner surface 151 and coupled to the inner plate 120 so that the fastening member 300 is inserted between the inner plate 120 and the outer plate 110, And the head unit 310 is coupled to the adhesive plate 210 of the sealing member 200 so as to restrict the sealing member 200 to the first inscribed surface 151 .

After the adhesive plate 210 is adhered to the first inner surface 151 of the first coupler 150 with an adhesive agent, the first blade of the sealing material 200 when the first and second couplers 150, 221 are in close contact with the right angle surface 152 and the second blade 222 is in contact with the second inscribed surface 161 while supporting the first blade 221.

The first and second blades 221 and 222 are separated from each other by a clearance between the first connecting surface 154 and the second connecting surface 163 and a clearance between the horizontal surface 153 and the second inscribed surface 161 170 or the like.

The third blade 223 contacts the first and second blades 224 and 225 so as to be in close contact with the second inscribed surface 161 while the ends of the third blade 223 are bent when the first and second coupling portions 150 and 160 are engaged, Contact with the inclined surface 162 while being bent.

That is, the fourth and fifth blades 224 and 225 are formed to have a length corresponding to the inclination of the inclined surface 162, and the third blade 223 is formed to be in close contact with the second inscribed surface 161 having a height higher than the inclined surface 162 The third, fourth and fifth blades 223, 224 and 225 are arranged such that foreign matter such as moisture or moisture passing through the first and second blades 221 and 222 flows through the inner core 130, The penetration into the urethane material 140 side is blocked secondarily, and the blocking performance can be improved.

In addition, the foreign matter infiltrated into the receiving space 170 flows downward in the receiving space 170 in the form of a waterway without discharging through the third, fourth, fifth blades 223, 224, and 225, Moisture and moisture can not be transmitted to the core 140 and the core 130, thereby improving waterproof performance.

Accordingly, the present invention is advantageous in that the first and second blades 221 and 222 are separated from each other by a gap between the first connecting surface 154 and the second connecting surface 163 and a gap between the horizontal surface 153 and the second inside surface 161 The third, fourth and fifth blades 223, 224 and 225 cut off foreign matter such as moisture and moisture passing through the first and second blades 221 and 222, The penetration into the core material 130 on the inner side or the urethane material 140 side is blocked secondarily through the accommodation space 170 so that the penetration prevention performance of the foreign material can be improved and also the urethane material 140, It has an advantage that deformation of the core member 130 can be prevented.

In addition, the first, second, third, fourth, and fifth blades 221, 222, 224, 224, and 225 of the present invention are formed such that their thickness decreases from the adhesive plate 210 toward the end, 224, and 225 are bent so that the end portions thereof are closely attached to the second inscribed surface 161 and the inclined surface 162, so that the penetration of foreign matter can be easily blocked.

The third, fourth, and fifth blades 223, 224, and 225 of the present invention have the ends abutting the second inscribed surface 161 and the inclined surface 162, 223 are formed longer than the fourth and fifth blades 224 and 225 at the ends of which contact the slope 162 and the length of the fourth blade 224 corresponds to the inclination angle of the slope 162, The end portions of the third, fourth, and fifth blades 223, 224, and 225 can be easily brought into close contact with the second inscribed surface 161 and the sloped surface 162.

5 and 6 are views showing another embodiment of the assembled wall panel 100 structure according to the present invention in which a core material 130 as a heat insulating material is filled between an outer shell 110 and a inner shell 120 of a metal material A first engaging portion 150 having first and second inscribed surfaces 151 and 152 formed to correspond to both the left and right sides of the outer panel 110 and the inner panel 120, The second engaging portion 160 formed with the inclined face 162 and the second inscribed surface 161 to form the receiving space 170 in which the head portion 310 of the fastening member 300 for interrupting the fastening member 140 is accommodated, A wall panel (100) having a wall (100); A sealing member 200 having one side attached to the first internal surface 151 of the first coupling portion 150 and the other side having the first, second, third, fourth, and fifth blades 221, 222, 223, 224, And bent portions 223a, 224a, and 225a are formed at ends of the third, fourth, and fifth blades 223, 224, and 225 to bend toward the adhesive plate 210, .

The first and second blades 221 and 222 may have a gap between the first connecting surface 154 and the second connecting surface 163 and a gap between the horizontal surface 153 and the second inner connecting surface 161. [ The third, fourth, and fifth blades 223, 224, and 225, and the third, fourth, and fifth blades 223, 224, and 225 are configured to cut off the foreign substances such as moisture and moisture that penetrate into the receiving space 170 through the gaps of the first, Foreign matter such as moisture or moisture that has passed through the two blades 221 and 222 is secondarily blocked from penetrating into the inner core member 130 or the urethane material 140 side through the accommodation space 170. The bending portions 223a and 224a And 225a are formed at the ends of the third, fourth and fifth blades 223, 224 and 225 so as to be curved so that the foreign matter infiltrated into the receiving space 170 flows along the surfaces of the third, fourth and fifth blades 223, It is possible to prevent penetration between the surface 161 and the third, fourth and fifth blades 223, 224 and 225, thereby further improving the penetration preventing performance.

Although the present invention has been described in detail with reference to specific embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the appended claims, as well as the appended claims.

That is, the present invention described above is not limited to the above-described specific preferred embodiments, and any person skilled in the art will be allowed to use the present invention without departing from the gist of the present invention. It will be understood that various modifications can be made without departing from the spirit and scope of the invention as defined in the appended claims.

100: wall panel 105:
110: outer plate 120: inner plate
130: core material 140: urethane material
150: first coupling portion 151: first inner surface
152: right angle face 153: horizontal plane
154: first connecting surface 160: second connecting portion
161: second inscribed surface 162: inclined surface
163: second connection surface 170: accommodation space
200: Sealing material 210: Adhesive plate
221, 222, 223, 224, and 225:
223a, 224a, 225a: bent portion 300: fastening member
310: head part 400: coating agent

Claims (6)

A core member 130 which is a heat insulating material is filled between an outer plate 110 and an inner plate 120 of a metal material and a first inner surface 151 and a right angle surface 152 are formed so as to correspond to the left and right sides, A receiving space 170 in which the head part 310 of the fastening member 300 for interrupting the urethane material 140 filled in the rim of the outer and inner plates 110 and 120 is received, And a second engaging portion (160) formed with a second inscribed surface (161) and an inclined surface (162) to form a second engaging portion (160).
And a sealing material (200) having one side attached to the first internal surface (151) of the first coupling part (150) and a plurality of blades formed on the other side,
The sealing member 200 includes an adhesive plate 210 adhered to the first inner surface 151 with an adhesive agent and a second adhesive member 210 protruding from one edge of the upper surface of the adhesive plate 210, A first blade 221 disposed on the upper surface of the adhesive plate 210 so as to be adjacent to the first blade 221 so as to support the first blade 221 and to hold the first and second blades 221, A second blade 222 which has an end in contact with the second inscribed surface 161 and a second blade 222 which is spaced apart from the second blade 222 with respect to the head portion 310 of the coupling member 300, A third blade 223 protruding from the upper surface of the first blade 210 and contacting an end of the first and second engaging portions 150 and 160 to the second inscribed surface 161, The fourth blade 224 protruding from the upper surface of the adhesive plate 210 at the right-hand side spaced apart position and contacting the end of the first and second engaging portions 150 and 160 to the inclined surface 162, A fifth blade (not shown) protruding from the upper surface of the adhesive plate 210 at a right-side position spaced apart from the fourth blade 224 and having an end when the first and second engaging portions 150 and 160 are engaged with the inclined surface 162 225). ≪ / RTI > The method according to claim 1,
The first engaging portion 150 includes a horizontal surface 153 extending horizontally from the right angle surface 152 and disposed to face the second inner surface 161, A first connection surface 154 connected to the side surface,
Wherein the second coupling portion 160 includes a second coupling surface 163 extending from the second inscribed surface 161 so as to face the first coupling surface 154. [ The method according to claim 1,
Wherein the first, second, third, fourth, and fifth blades (221, 222, 223, 224, 225) are formed to have a reduced thickness from the adhesive plate (210) toward an end portion thereof. The method according to claim 1,
The third, fourth, and fifth blades 223, 224, and 225 may further include bent portions 223a, 224a, and 225a that are bent to extend from the ends of the third, fourth, and fifth blades 223, Prefabricated wall panel structure. The method according to claim 1,
The third, fourth and fifth blades 223, 224 and 225 are formed so that the third blade 223 is longer than the fourth and fifth blades 224 and 225 so as to correspond to the second inscribed surface 161 and the inclined surface 162, And the fourth blade (224) is formed longer than the fifth blade (225). The method according to claim 1,
And a coating agent (400) for preventing moisture permeation is applied to the cut surface (105) of the wall panel (100).

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