KR101965893B1 - Building panel and its manufacturing method for improved seal - Google Patents

Abstract

The present invention provides a plasma display panel comprising: a pair of base plates constituting an inner wall and an outer wall of a panel; A core plate interposed between the pair of base plates and having a plurality of floor portions and a plurality of valleys alternately and continuously; A reinforcing portion provided on the base plate to enhance the hermeticity of the panel; An engaging portion for engaging the floor portion or the valley portion and the reinforcing portion; And an adhesive layer provided between the engaging part and the reinforcing part to bond the base plate and the core plate.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a building panel having enhanced airtightness,

The present invention relates to a construction panel having enhanced airtightness and a method of manufacturing the same. More particularly, the present invention relates to a construction panel having a V-shaped groove formed in a base plate to enhance airtightness and a projecting portion formed by V- The present invention relates to a construction panel having an improved hermeticity and a manufacturing method thereof, which can effectively prevent a phenomenon and can easily manufacture an engaging portion for engaging the base plate and the core plate.

In general, architectural panels are used for building structures, in particular, walls for dividing interior walls or interior walls of concrete structures.

Because the building is an important space where people should stay comfortable and rest, it is necessary to solve the problem of cold heating due to the heat loss between indoor and outdoor and the problem of blocking the noise from the outside. Recently, various types of architectural panels having various designs and functions have been produced competitively.

Such a building panel has a honeycomb or corrugated core disposed between two panels made of a metal material such as stainless steel, aluminum, duralumin, or a non-metallic material, .

Conventional building wall materials enable recycling of building wall materials, increase flame retardancy, minimize the generation of waste during demolition of buildings, maximize soundproofing and durability.

That is, in the conventional building wall material, a metal thin plate formed by thinly forming a metal thin plate such as iron and non-ferrous metal is formed by vertically forming a metal tie plate, and a metal side plate made of a thin metal plate is bonded to both sides of the metal tie plate, To form a metal wall member.

Accordingly, the conventional building wall material provides a building wall which can be recycled, the flame retardancy is improved, the construction waste is not caused, and the durability is improved by joining the metal binding plate made of the thin metal plate and the metal side plate to form the wall material.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Patent Laid-Open Publication No. 10-2010-0133871 (entitled "Building wall material and its manufacturing method", published on December 22, 2010).

In the building wall material according to the related art, the heat insulating bonding using the resin bonding part occurs in the bonding of the metal thin plate and the metal bonding plate. In this case, since the bonding part is small, the bonding strength is extremely weak, There is a problem that degradation may occur.

Therefore, there is a need for improvement.

According to the present invention, a V-groove portion is formed on a base plate to enhance airtightness, a protrusion formed by a V-groove portion is fitted to the core plate to effectively prevent a peeling phenomenon, And to provide a construction panel having enhanced hermeticity that can be easily manufactured, and a method of manufacturing the same.

The present invention provides a plasma display panel comprising: a pair of base plates constituting an inner wall and an outer wall of a panel; A core plate interposed between the pair of base plates and having a plurality of floor portions and a plurality of valleys alternately and continuously; A reinforcing portion provided on the base plate to enhance the hermeticity of the panel; An engaging portion for engaging the floor portion or the valley portion and the reinforcing portion; And an adhesive layer provided between the engaging part and the reinforcing part to bond the base plate and the core plate.

In addition, the reinforcing portion of the present invention is characterized in that the V groove portion is provided on the base plate and extends in the same or similar direction as the extending direction of the floor portion and the trough portion.

The present invention also provides a method of manufacturing a base plate, comprising: (a) a rolling step of passing a plurality of rolling rollers to produce a base plate; (b) a pressing step of placing the base plate on a molding press and pressing the molding protrusion while heating to mold the V groove portion; (c) placing the base plate on the cutting portion so that the coupling groove portion is formed along the rib protruding inward of the base plate while the V groove portion is formed, and driving the cutting portion to form the coupling groove portion in the rib ; (d) applying an adhesive to the inside and the periphery of the engaging groove; (e) inserting a floor portion or a valley portion of the core plate into the coupling groove portion, and fitting and bonding the core plate and the base plate together.

Since the V-groove portion is formed on the base plate constituting the outer wall of the panel, the airtightness can be improved, and the V-groove portion is formed by the pressing process, so that the outer wall of the base plate is cut It is possible to omit a separate coating process inside the V groove and to save time and cost for manufacturing the construction panel.

The present invention also provides a construction panel having enhanced airtightness and a method of manufacturing the same, wherein the base plate and the core plate are provided with the engaging portions for engaging the base plate and the core plate, There is an advantage to be able to do.

In addition, since the sealing panel is formed on the inner wall of the V-shaped groove formed on the base plate, it is not required to join a separate component or a connecting member to the base plate, There is an advantage that the joining structure of the base plate and the core plate can be simplified and the peeling phenomenon in which the base plate and the core plate are separated can be more effectively prevented.

FIG. 1 is a perspective view illustrating a construction panel having enhanced airtightness according to an exemplary embodiment of the present invention. Referring to FIG.
2 is an exploded perspective view illustrating a building panel having enhanced airtightness according to an exemplary embodiment of the present invention.
3 is a process diagram illustrating a method of manufacturing a building panel having enhanced airtightness according to an embodiment of the present invention.
4 is a flowchart illustrating a method of manufacturing a building panel having enhanced airtightness according to an embodiment of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, one embodiment of a building panel having enhanced airtightness according to the present invention and a method of manufacturing the same will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator.

Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a perspective view illustrating a construction panel having enhanced airtightness according to an exemplary embodiment of the present invention, FIG. 2 is an exploded perspective view illustrating a building panel having enhanced airtightness according to an exemplary embodiment of the present invention, FIG. FIG. 4 is a flowchart illustrating a method of manufacturing a building panel having enhanced airtightness according to an exemplary embodiment of the present invention. Referring to FIG.

1 to 4, a building panel having enhanced airtightness according to an exemplary embodiment of the present invention includes a pair of base plates 10 constituting inner and outer walls of a panel, and a pair of base plates 10 A reinforcing portion 52 provided on the base plate 10 so as to enhance the hermeticity of the panel and a core plate 30 interposed between the base portion 10 and the core plate 30, Engaging portion 56 for engaging the floor portion 32 or the valley portion 34 with the reinforcing portion 52 and engaging portion 56 for adhering the base plate 10 and the core plate 30, And the reinforcing portion (52).

The base plate 10 is made of a metal and is formed into a panel shape while passing through a plurality of rolling rollers 72. The corrugated core plate 30 has a plurality of flats 32 and a valley 34, Are formed in the shape of a pleated plate continuously formed alternately.

The reinforcing portion 52 of the present embodiment includes the V groove portion 54 provided on the base plate 10 and extending in the same or similar direction as the extending direction of the floor portion 32 and the valley portion 34, The effect of enhancing tightness is exhibited.

The base plate 10 and the core plate 30 are engaged with each other so that the engaging portion 56 is engaged with the crest portion 32 or the valley portion 34 of the core plate 30, The base plate 10 and the core plate 30 are bonded together by the adhesive layer while the base plate 10 and the core plate 30 are engaged with each other by the engaging portion 56, Can be more effectively prevented from being separated.

The engaging portion 56 includes the engaging groove 58 formed in the rib protruding inward of the base plate 10 while the V groove portion 54 is formed, The core plate 30 and the base plate 10 are engaged with each other to effectively separate the base plate 10 and the core plate 30 from each other, .

Before the core plate 30 is inserted into the coupling groove 58, an adhesive is applied to the ribs on which the defect groove is formed, so that the adhesive agent is applied to the core plate 30 while the floor portion 32 and the valley portion 34 are inserted The core plate 30 and the base plate 10 can be more effectively adhered to each other and the base plate 10 and the core plate 30 can be adhered even after the floor portion 32 and the valley portion 34 are inserted into the engagement groove portion 58. [ The base plate 10 and the core plate 30 can be effectively adhered to each other.

Hereinafter, a method for manufacturing a building panel having enhanced airtightness according to an embodiment of the present invention will be described.

A method of manufacturing a building panel with enhanced hermeticity according to an embodiment of the present invention includes a rolling step of manufacturing a base plate 10 by passing a plurality of rolling rollers 72, And pressing the forming protrusions to form the V groove portions 54. The engaging groove portions 58 are formed along the ribs protruding inward of the base plate 10 while the V groove portions 54 are formed, A cutting step of placing the base plate 10 on the cutting portion 80 so as to form the engaging groove portion 58 on the ribs by driving the cutting portion 90 so as to form the engaging groove portion 58, And the core plate 30 and the base plate 10 are inserted and bonded together by inserting the floor portion 32 or the valley portion 34 of the core plate 30 into the coupling groove portion 58, Coupling step.

A base plate 10 is manufactured with a predetermined thickness while passing through a rolling roller 72 composed of an upper roller and a lower roller, and a set of rolling rollers 72 composed of an upper roller and a lower roller are continuously provided, (10) can be manufactured with a predetermined thickness.

Then, when the base plate 10 is placed on the upper surface of the molding press 74, the press mold having the molding protrusion is lowered to form the V groove portion 54 concave downward on the upper surface of the base plate 10, The press die is provided with a heating device to form a long V groove portion 54 in the longitudinal direction on the base plate 10 made of a metal material.

The base plate 10 having the ribs is formed on the opposite side of the base plate 10 on which the V groove portion 54 is formed and the ribs are formed on the cutting portion 80 And the engaging groove 58 is formed to be long along the rib by the operation of the cutting portion 90 provided on the upper portion of the cutting portion 80.

The cutting portion 80 of this embodiment includes a main body 82 on which a base plate 10 is mounted and on which a plurality of running rollers 86 are installed, A first cylinder 84a mounted on the main body 82 for lifting and lowering the stopper 84 and a base plate 10 mounted on the main body 82 are fixed to the stopper 84 And a cutting portion 90 for moving the cutting edge 98a in the direction of the stopper 84 and forming the engaging groove 58 in the rib.

When the base plate 10 is seated on the upper surface of the main body 82 by the operation of the traveling roller 86, the rod is protruded from the first cylinder 84a and the stopper 84 is disposed so as to protrude outward from the upper surface of the main body 82 The base plate 10 is supported so as to prevent the base plate 10 from being retreated during the cutting process and the cutting operation is started from one end of the rib in the longitudinal direction of the rib by the operation of the cutting portion 90, And the cutting process is performed from the other end to the other side at a distance from the other end.

The engaging groove 58 is formed in the longitudinal direction of the rib by the above operation so that the base plate 34 and the valley portion 34 of the core plate 30 are inserted into the engaging groove 58, 10 and the core plate 30 can be engaged with each other.

The cutting portion 90 of the present embodiment includes a second cylinder 92 installed on the upper side of the main body 82 so as to maintain a gap therebetween and a guide rail 94a provided on the lower end of the rod of the second cylinder 92, A driving motor 98 provided to be slidable along the guide rail 94a to provide power and a driving motor 98 installed at one side of the mounting block 94 to drive the driving motor 98 A third cylinder 96 that advances or retreats along the guide rail 94a and a cutting edge 96 which is provided on the output shaft of the drive motor 98 and which is rotated by the power of the drive motor 98 to perform a cutting process on the rib 98a.

When the base plate 10 is seated on the upper surface of the main body 82, the rod protrudes from the first cylinder 84a and protrudes from the upper surface of the main body 82 to support one end of the base plate 10, When the rod is projected from the second cylinder 92 in a state where the power is applied and the cutting edge 98a is rotated, the cutting edge 98a descends and is disposed opposite to one end of the rib, As the rod protrudes, the cutting edge 98a advances toward the rib side, so that the engaging groove 58 is formed at the center of the rib in the longitudinal direction of the rib.

As described above, the base plate 10 and the preformed core plate 30 are engaged with the V groove portion 54 and the coupling groove portion 58. At this time, While the valley portion 34 is inserted into the gap between the pair of base plates 10, that is, the first plate 12 and the second plate 14, The base plate 10 and the core plate 30 are engaged with each other while inserting the valley portion 34 of the core plate 30 into the second plate 14.

An adhesive is applied to the contact portion between the engaging groove portion 58 where the fitting engagement is made and the valley portion 32 or between the engaging groove portion 58 and the valley portion 34 so that the coupling state between the base plate 10 and the core plate 30 So that it can be maintained firmly.

Thereafter, power is supplied to the base plate 10 or a heating body is contacted to bond the base plate 10 and the core plate 30 to each other, Can be more effectively prevented from being separated.

As a result, the V-groove portion is formed on the base plate to enhance the hermeticity, and the projecting portion formed by the V-groove forming and the core plate are engaged with each other to effectively prevent the peeling phenomenon, and the engagement portion for engaging the base plate and the core plate It is possible to provide a building panel with enhanced hermeticity and a method of manufacturing the same.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

Also, the construction panel having enhanced air tightness and the manufacturing method thereof have been described as an example. However, the construction panel is merely an example, and the panel of the present invention and the manufacturing method thereof can be also used for a building panel having enhanced airtightness and other products .

Accordingly, the true scope of the present invention should be determined by the following claims.

10: base plate 12: first plate
14: second plate 30: core plate
32: floor portion 34: valley
52: reinforcement portion 54: V-groove portion
56: engaging portion 58: engaging groove
72: Rolling roller 74: Molding press
80: cutting portion 82:
84: stopper 84a: first cylinder
86: running roller 90: cutting portion
92: second cylinder 94: mounting block
94a: Guide rail 96: Third cylinder
98: drive motor 98a: cutting edge

Claims (3)

A pair of base plates constituting inner and outer walls of the panel;
A core plate interposed between the pair of base plates and having a plurality of floor portions and a plurality of valleys alternately and continuously;
A reinforcing portion provided on the base plate to enhance the hermeticity of the panel;
An engaging portion for engaging the floor portion or the valley portion and the reinforcing portion; And
And an adhesive layer provided between the engaging part and the reinforcing part to bond the base plate and the core plate,
Wherein the reinforcing portion includes a V groove portion provided on the base plate and extending in the same or similar direction as the extending direction of the floor portion and the valley portion,
The engaging portion
The V-shaped groove is formed in the rib protruding inwardly of the base plate to prevent the base plate and the core plate from being separated from each other by engaging the ridge portion or the trough portion of the core plate with the base plate, And a coupling groove portion,
The engaging groove portion may be formed by fitting the base plate to the cutting portion so that the engaging groove portion is formed along the rib, driving the cutting portion to form the engaging groove portion on the rib,
The cutting portion
A main body on which the base plate is mounted and on which a plurality of running rollers are installed;
A stopper installed to be able to protrude and retreat in a vertical direction on the main body inlet side;
A first cylinder installed in the main body and lifting the stopper;
And a cutting portion for forming the engaging groove portion on the rib while moving the cutting edge in the direction of the stopper when one end of the base plate resting on the main body is restrained by the stopper,
When the base plate is seated on the upper surface of the main body by the operation of the traveling roller, the rod protrudes from the first cylinder and the stopper protrudes outward from the upper surface of the main body to prevent the base plate from being retracted during the cutting process The cutting process is performed from the other end of the rib to the other side of the rib after a cutting operation is started from the one end of the rib in the longitudinal direction of the rib by the operation of the cutting portion,
The engaging groove is formed to be long in the longitudinal direction of the rib so that the base plate and the core plate can be engaged with each other while inserting the ridge portion or the trough portion of the core plate into the engaging groove portion. Building panels with enhanced airtightness.
delete (a) a rolling step of passing a plurality of rolling rollers to produce a base plate;
(b) a pressing step of placing the base plate on a molding press and pressing the molding protrusion while heating to mold the V groove portion;
(c) placing the base plate on the cutting portion so that the coupling groove portion is formed along the rib protruding inward of the base plate while the V groove portion is formed, and driving the cutting portion to form the coupling groove portion in the rib ;
(d) applying an adhesive to the inside and the periphery of the engaging groove;
(e) a coupling step of inserting a floor portion or a valley portion of the core plate into the coupling groove portion, and fitting and bonding the core plate and the base plate,
The step (c)
A main body on which the base plate is mounted and on which a plurality of running rollers are installed;
A stopper installed to be able to protrude and retreat in a vertical direction on the main body inlet side;
A first cylinder installed in the main body and lifting the stopper;
And a cutting portion for cutting the engaging groove portion in the rib while moving the cutting edge in the direction of the stopper when one end of the base plate is restrained by the stopper,
When the base plate is seated on the upper surface of the main body by the operation of the traveling roller, the rod protrudes from the first cylinder and the stopper protrudes outward from the upper surface of the main body to prevent the base plate from being retracted during the cutting process The cutting process is performed from the other end of the rib to the other side of the rib after a cutting operation is started from the one end of the rib in the longitudinal direction of the rib by the operation of the cutting portion,
The step (e)
Wherein the groove portion or the valley portion of the core plate is inserted into the engaging groove portion which is elongated in the longitudinal direction of the rib, to the inside of the engaging groove portion.

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