METAL INTERIOR MATERIAL AND INTERIOR MATERIAL ATTACHMENT STRUCTURE

Information

  • Patent Application
  • 20210102381
  • Publication Number
    20210102381
  • Date Filed
    February 21, 2019
    5 years ago
  • Date Published
    April 08, 2021
    3 years ago
Abstract
The present disclosure relates to interior material attachment structure with wall attachment part bolt grooves, including: binding protrusions formed at the outermost part of the interior material attachment structure in order to attach the metal interior material; and connection part grooves formed adjacent to the binding protrusions in order to connect the plurality of interior material attachment structures to each other.
Description
TECHNICAL FIELD

The present disclosure relates to a metal interior material attached to an inner wall or ceiling, and an attachment structure for attaching the interior material.


BACKGROUND ART

The related art illustrated in FIG. 12 provides a natural veneer interior material including a natural veneer sheet, non-woven fabric attached to the rear surface of the natural veneer sheet, and a hot melt sheet attached to the rear surface of the non-woven fabric.


The natural veneer interior material includes a natural veneer sheet 10 and a hot melt sheet 30 attached to one surface of the natural veneer sheet 10. Between the natural veneer sheet 10 and the hot melt sheet 30, non-woven fabric 20 may be interposed as illustrated in FIG. 12. The non-woven fabric is attached to a surface of the natural veneer sheet 10 through a typical adhesive, and used to compensate for low strength of the natural veneer sheet. A protection sheet 40 is attached to the rear surface of the hot melt sheet 30. The protection sheet 40 prevents the hot melt sheet 30 from coming into contact with an organic solvent or the like, before distribution or construction. The protection sheet 40 is removed during construction. As the protection sheet, a paper, resin film or the like may be used.


The hot melt sheet 30 is a solid adhesive which exhibits an adhesion property when heat is applied thereto. The hot melt sheet 30 is molten by heat applied during construction, and exhibits an adhesion property. During a cooling process, the hot melt sheet 30 is hardened to maintain an adhesive force.


In order to provide an adhesive force with the natural veneer sheet, some heat may be applied. Then, a protection sheet is attached to the surface of the hot melt sheet. For the attachment between the protection sheet and the hot melt sheet, some adhesive may be applied to the protection sheet. Through such a process, the natural veneer interior material is manufactured.


When the natural veneer internal material is attached to a base material made of aluminum, plastic, stainless steel or a coated steel sheet, the natural veneer interior material may be easily detached. Therefore, after the surface of the base material is formed with a plywood or plaster board, the base material is applied to construction. In this case, the construction requires an inconvenient process, and costs a lot of time and money. Therefore, as illustrated in FIG. 12, an assistant adhesive such as primer is applied to the rear surface of the hot melt-type natural veneer or the front surface of the base material.


However, there has been a need for a structure which is formed of a flame retardant material without using an adhesive, in order to prevent fire.


The present disclosure relates to an interior material for wall and ceiling, which is manufactured by forming various natural patterns on a metal plate such as aluminum, brass, pure copper, nickel or phosphor bronze, and performing a subsequent surface treatment.


Furthermore, there has been a need for an interior material attachment structure which can be manufactured at low cost while increasing the efficiency of the work.


DISCLOSURE
Technical Problem

Various embodiments are directed to an interior material attachment structure which has an incombustible property and can be manufactured at low cost, and through which a metal plate such as aluminum, brass, pure copper, nickel or phosphor bronze is applied as an interior material.


Various embodiments are directed to a one touch-type interior material attachment structure capable of increasing the efficiency of a work.


Various embodiments are directed to an interior material attachment structure which is installed on a flat wall surface through bolts, and onto which a metal interior material such as aluminum is assembled, thereby minimizing a construction cost and maintaining a quality such as flatness.


Various embodiments are directed to an interior material attachment structure which can dramatically improve an interior environment by removing a harmful adhesive or reducing the number of construction processes.


Various embodiments are directed to an interior material attachment structure which can simplify a construction process to improve market competitiveness during a metal interior material production process.


Since the unit interior material attachment structure is formed to have a small unit size, a finish work can be ended within a short time, when a corner or edge part is finished. Therefore, it is possible to increase the efficiency of the work.


Technical Solution

For achieving the objects, the present disclosure has the following configurations.


In an embodiment, an interior material attachment structure with wall attachment part bolt grooves may include: binding protrusions formed at the outermost part of the interior material attachment structure in order to attach the metal interior material; and connection part grooves formed adjacent to the binding protrusions in order to connect the plurality of interior material attachment structures to each other.


The interior material attachment structure may further include a connector bound to the connection part groove in order to connect the plurality of interior material attachment structures.


The interior material attachment structure may have the binding protrusions formed on the left and right sides of the connection part groove.


In order to reliably construct the connection part grooves, the connection part grooves may be connected in a rib shape at inner surfaces of openings of the connection part grooves.


The interior material attachment structure may be formed in a rectangular shape, and the binding protrusions may be formed on the outer surface of the rectangular interior material attachment structure so as to be located on one side of neighboring sides at a corner of the rectangular interior material attachment structure.


Two binding protrusions may be formed on each side of the rectangular shape, wherein one binding protrusion is disposed close to a corner on one side of two sides abutting on the corner, and the other binding protrusion is disposed relatively remote from the corner on the other side.


When the interior material attachment structure is manufactured, four unit interior material attachment structures may be manufactured at a time.


In order to attach the interior material attachment structure to a wall surface, four unit interior material attachment structures may be connected to each other through the connector.


The connector may have a binding step part to form an insertion space of the metal interior material.


The connector may include a first connection part, a connection part arm with the binding step part, and a second connection part, wherein the first connection part is coupled to the connection part groove of the interior material attachment structure, the second connection part is bound to the connection part grooves of the neighboring interior material attachment structures so as to connect the unit interior material attachment structures, and the binding step part is passed through a connection part hole formed in the metal interior material when coupled to the interior material attachment structure.


A gap between the unit interior material attachment structure and another unit interior material attachment structure adjacent thereto may be larger than the thickness of the metal interior material.


The binding protrusion may have a binding retreat space formed on the opposite side of the binding protrusion, in order to secure a retreat space when coupled to the metal interior material.


In an embodiment, there is provided a metal interior material attached to an interior material attachment structure having wall attachment part bolt grooves. The metal interior material may include: binding protrusions formed at the outermost part of the interior material attachment structure in order to attach the metal interior material; connection part grooves formed adjacent to the binding protrusions in order to the plurality of interior material attachment structures; binding protrusion holes of the metal interior material, to which the binding protrusions are bound, respectively; and a connection part hole of the metal interior material, corresponding to a binding step part of a connector inserted into the connection part groove.


Two binding protrusion holes may be formed on the left and right sides of the connection part hole, respectively.


Effects of the Invention

According to the first effect, the interior material attachment structure can be manufactured to install the metal interior material in a one-touch manner, thereby improving the efficiency of work.


According to the second effect, the interior material attachment structure is installed on a flat wall surface through bolts, and the metal interior material such as aluminum is assembled onto the interior material attachment structure, which makes it possible to minimize a construction cost and to maintain a quality such as flatness.


According to the third effect, the interior material attachment structure can dramatically improve an interior environment by removing a harmful adhesive or reducing the number of construction processes.


According to the fourth effect, the construction process can be simplified to improve market competitiveness during a metal interior material production process.


According to the fifth effect, the metal interior material is used and thus serves as a flame retardant material or non-combustible material.


According to the sixth effect, since the unit interior material attachment structure is formed to have a small unit size, a finishing work can be ended within a short time, when a corner or edge part is finished. Therefore, it is possible to increase the efficiency of the work.





DESCRIPTION OF DRAWINGS


FIG. 1 is a diagram illustrating a unit interior material attachment structure.



FIG. 2 is a diagram illustrating a binding protrusion.



FIG. 3 is a diagram illustrating a structure obtained by connecting a plurality of unit interior material attachment structures to each other, wherein the unit interior material attachment structures are connected at a time during injection molding.



FIG. 4 is a diagram illustrating a structure obtained by connecting the structures of FIG. 3 in a side-to-side direction.



FIG. 5 is a diagram illustrating that the unit interior material attachment structures are connected to each other in the side-to-side direction through a connector.



FIG. 6 is a diagram illustrating the structure of the connector.



FIG. 7 is a diagram illustrating that the interior material attachment structure is attached to a wall surface.



FIG. 8 is a diagram illustrating the structure of a metal interior material.



FIG. 9 is a diagram illustrating a working process of attaching a metal interior material to the interior material attachment structure of FIG. 7.



FIG. 10 is a diagram illustrating that the metal interior material is attached to the entire surface of a wall, on which the interior material attachment structure of FIG. 9 is formed.



FIG. 11 is a diagram illustrating that the interior material attachment structures are formed on parts of a wall surface, and the metal interior material is attached to the wall surface.



FIG. 12 is a diagram illustrating a structure according to the related art.





BEST MODE

The best mode for carrying out the present disclosure will be described with reference to FIGS. 1 to 6.


Referring to FIG. 1, a unit interior material attachment structure 100 will be described.


The unit interior material attachment structure 100 having wall attachment part bolt grooves 141 to 144 includes: binding protrusions 110, 112, 114, 116 and 118 formed at the outermost part of the interior material attachment structure 100 in order to attach a metal interior material; and connection part grooves 130 formed adjacent to the binding protrusions 110 in order to connect the plurality of interior material attachment structures to each other.


The interior material attachment structure 100 has the binding protrusions 110 formed on the left and right sides of the connection part groove 130.


In order to reliably construct the connection part grooves 130, the connection part grooves 130 are connected in a rib shape at the rear surfaces 132 of the connection part grooves 130.


When a connector 300 is connected through the connection part grooves 130 so as to bind the neighboring interior material attachment structures to the left and right sides of the connector 300, a predetermined force is required, and ribs 151 to 154 are constructed to reliably maintain the interior material attachment structure which is a plastic injection molded product.


In the present disclosure, the plastic material is used for the interior material attachment structure. However, any materials may be used.


The interior material attachment structure is formed in a rectangular shape, and the binding protrusions 110 are formed on the outer surface of the rectangular interior material attachment structure.


Each of the binding protrusions is formed on one side of neighboring sides at a corner of the rectangular interior material attachment structure.


That is, the interior material attachment structure has a structure in which two binding protrusions are located on each side of the rectangular shape. For example, as illustrated in FIG. 1, the binding protrusion 118 is disposed close to a corner of the wall attachment part bolt groove 141 on one side of two sides abutting on the corner, and the binding protrusion 112 is disposed relatively remote from the corner on the other side of the two sides.


According to such a structure, the interior material attachment structure can be coupled to a metal interior material even though the interior material attachment structure is coupled in any directions, which makes it possible to maximize the efficiency of the work.


The wall attachment part bolt grooves 141 to 144 are formed in the interior material attachment structure in order to attach the metal interior material to a wall.


As illustrated in FIG. 2, a binding retreat space 115 is formed at the rear surface of the binding protrusion 110. Thus, when bound to the metal interior material, the interior material attachment structure may be reliably bound through the binding retreat space.


Referring to FIGS. 3 and 4, the interior material attachment structure will be described as follows.


In the present disclosure, the interior material attachment structure is manufactured in a square shape, and the unit interior material attachment structure is formed to have a size of 15 cm.


If necessary, the interior material attachment structure may have various sizes.



FIG. 3 illustrates that four unit interior material attachment structures are manufactured at once when the unit interior material attachment structures are manufactured as plastic injection molded products. The bottoms of the unit interior material attachment structures are connected to each other when the unit interior material attachment structures are manufactured as thin plastic injection molded products.


Thus, during a work, a suitably small quantity of unit interior material attachment structures can be used.



FIG. 4 will be described as follows.


In order to attach the interior material attachment structure to the wall surface, unit interior material attachment structures are connected to each other in units of four unit interior material attachment structures. FIG. 4 illustrates an interior material attachment structure 200 obtained by connecting eight interior material attachment structures through the connector.


When the unit interior material attachment structures are connected to each other through the connector in units of four interior material attachment structures, the working time can be shortened, and the interior material attachment structure for the metal interior material may be attached to a desired wall surface. In the present embodiment, the interior material attachment structure is constructed in units of four unit interior material attachment structures. However, two, six, eight or more unit interior material attachment structures may be connected and injection-molded according to the necessity of working efficiency.


According to the related art, the interior material attachment structure is formed to have the same size as the interior material during work. Thus, when the work for an edge part, corner part or the like is performed, it takes a lot of time in the workplace, and it is difficult to neatly finish the interior material and the interior material attachment structure.


However, since the interior material attachment structure according to the present embodiment can be manufactured as small units, finish work for an edge or corner part is performed as easily as finish work for a wide part.


Since the unit interior material attachment structure is formed to have a small size, the finish work can be ended within a short time, when a corner or edge part is finished. Therefore, it is possible to increase the efficiency of the work.


Each of the binding protrusions 110, 112, 114, 116 and 118 has the binding retreat space 115 formed at the rear thereof, in order to secure a retreat space when the binding protrusion is coupled to an interior material 400.



FIGS. 5 and 6 illustrate a connection method between adjacent interior material attachment structures.


The connector for the interior material attachment structure has a binding step part 355, and is configured to secure a space such that the connector is reliably seated in a connection part hole 430 formed through a bent portion of a side surface of the metal interior material.


In order to connect four interior material attachment structures or plural sets of four interior material attachment structures, the connector 300 is used.


The connector 300 includes a first connection part 330, a connection part arm 350 having the binding step part 355, and a second connection part 340. The first connection part 330 is coupled to the connection part groove 130 of the interior material attachment structure. The second connection part 340 is bound to the connection part grooves 130 of the neighboring interior material attachment structures 100 so as to connect the unit interior material attachment structures. The binding step part 355 is passed through the connection part hole 430 formed in the metal interior material 400 when coupled to the interior material attachment structure 100.


In order to connect the plurality of interior material attachment structures 100, the connector 300 is bound to the connection part groove 130.


Between the unit interior material attachment structure 100 and another unit interior material attachment structure adjacent thereto, a gap is formed, which is twice larger than the thickness of the interior material.


For example, the thickness of the metal interior material is 0.5 mm. Since two metal interior materials are connected to the interior material attachment structure, a gap corresponding to a thickness of 1 mm needs to be provided. In order to increase the efficiency of the work or to replace a defective metal interior material 400 or a defective interior material attachment structure 100, a working space needs to be provided. Therefore, the gap between the interior material attachment structures may be set to 2 mm.


Embodiments for Carrying Out the Invention

The present disclosure will be described in detail with reference to the drawings.


The terms used in this specification are defined as follows.


“Bind” is applied to a connection part between the interior material attachment structure and the metal interior material.


“Connect” is applied to a connection part between the unit interior material attachment structures.


“Hole” is applied to an opening of the metal interior material.


“Groove” is applied to an opening of the interior material attachment structure.


Referring to FIG. 1, a unit interior material attachment structure 100 will be described.


The unit interior material attachment structure 100 having wall attachment part bolt grooves 141 to 144 includes: binding protrusions 110, 112, 114, 116 and 118 formed at the outermost part of the interior material attachment structure 100 in order to attach a metal interior material; and connection part grooves 130 formed adjacent to the binding protrusions 110 in order to connect the plurality of interior material attachment structures to each other.


The interior material attachment structure 100 has the binding protrusions 110 formed on the left and right sides of the connection part groove 130.


In order to reliably construct the connection part grooves 130, the connection part grooves 130 are connected in a rib shape at rear surfaces 132 of the connection part grooves 130.


When a connector 300 is connected through the connection part grooves 130 so as to bind the neighboring interior material attachment structures to the left and right sides of the connector 300, a predetermined force is required, and ribs 151 to 154 are constructed to reliably maintain the interior material attachment structure which is a plastic injection molded product.


In the present disclosure, the plastic material is used for the interior material attachment structure. However, any materials may be used.


The interior material attachment structure is formed in a rectangular shape, and the binding protrusions 110 are formed on the outer surface of the rectangular interior material attachment structure.


Each of the binding protrusions is formed on one side of neighboring sides at a corner of the rectangular interior material attachment structure.


That is, the interior material attachment structure has a structure in which two binding protrusions are located on each side of the rectangular shape. For example, as illustrated in FIG. 1, the binding protrusion 118 is disposed close to a corner of the wall attachment part bolt groove 141 on one side of two sides abutting on the corner, and the binding protrusion 112 is disposed relatively remote from the corner on the other side of the two sides.


According to such a structure, the interior material attachment structure can be coupled to a metal interior material even though the interior material attachment structure is coupled in any directions, which makes it possible to maximize the efficiency of the work.


The wall attachment part bolt grooves 141 to 144 are formed in the interior material attachment structure in order to attach the metal interior material to a wall.


As illustrated in FIG. 2, a binding retreat space 115 is formed at the rear surface of the binding protrusion 110. Thus, when bound to the metal interior material, the interior material attachment structure may be reliably bound through the binding retreat space.


Referring to FIGS. 3 and 4, the interior material attachment structure will be described as follows.


In the present disclosure, the interior material attachment structure is manufactured in a square shape, and the unit interior material attachment structure is formed to have a size of 15 cm.


If necessary, the interior material attachment structure may have various sizes.



FIG. 3 illustrates that four unit interior material attachment structures are manufactured at a time when the unit interior material attachment structures are manufactured as plastic injection molded products. The bottoms of the unit interior material attachment structures are connected to each other when the unit interior material attachment structures are manufactured as thin plastic injection molded products.


Thus, during a work, a suitably small quantity of unit interior material attachment structures can be used.



FIG. 4 will be described as follows.


In order to attach the interior material attachment structure to the wall surface, unit interior material attachment structures are connected to each other in units of four unit interior material attachment structures. FIG. 4 illustrates an interior material attachment structure 200 obtained by connecting eight interior material attachment structures through the connector.


When the unit interior material attachment structures are connected to each other through the connector in units of four interior material attachment structures, the working time can be shortened, and the interior material attachment structure for the metal interior material may be attached to a desired wall surface. In the present embodiment, the interior material attachment structure is constructed in units of four unit interior material attachment structures. However, two, six, eight or more unit interior material attachment structures may be connected and injection-molded according to the necessity of the working efficiency.


According to the related art, the interior material attachment structure is formed to have the same size as the interior material during work. Thus, when the work for an edge part, a corner part or the like is performed, it takes a lot of time in the workplace, and it is difficult to neatly finish the interior material and the interior material attachment structure.


However, since the interior material attachment structure according to the present embodiment can be manufactured as small units, finish work for an edge part or a corner part is performed as easily as finish work for a wide part.


Since the unit interior material attachment structure is formed to have a small unit size, the finish work can be ended within a short time, when a corner or edge part is finished. Therefore, it is possible to increase the efficiency of the work.


Each of the binding protrusions 110, 112, 114, 116 and 118 has the binding retreat space 115 formed at the rear thereof, in order to secure a retreat space when the binding protrusion is coupled to an interior material 400.



FIGS. 5 and 6 illustrate a connection method between adjacent interior material attachment structures.


The connector for the interior material attachment structure has a binding step part 355, and is configured to secure a space such that the connector is reliably seated in a connection part hole 430 formed through a bent portion of a side surface of the metal interior material.


In order to connect four interior material attachment structures or plural sets of four interior material attachment structures, the connector 300 is used.


The connector 300 includes a first connection part 330, a connection part arm 350 having the binding step part 355, and a second connection part 340. The first connection part 330 is coupled to the connection part groove 130 of the interior material attachment structure. The second connection part 340 is bound to the connection part grooves 130 of the neighboring interior material attachment structures 100 so as to connect the unit interior material attachment structures. The binding step part 355 is passed through the connection part hole 430 formed in the metal interior material 400 when coupled to the interior material attachment structure 100.


In order to connect the plurality of interior material attachment structures 100, the connector 300 is bound to the connection part groove 130.


Between the unit interior material attachment structure 100 and another unit interior material attachment structure adjacent thereto, a gap is formed, which is twice larger than the thickness of the interior material.


For example, the thickness of the metal interior material is 0.5 mm. Since two metal interior materials are connected to the interior material attachment structure, a gap corresponding to a thickness of 1 mm needs to be provided. In order to increase the efficiency of the work or to replace a defective metal interior material 400 or a defective interior material attachment structure 100, a working space needs to be provided. Therefore, the gap between the interior material attachment structures may be set to 2 mm.



FIG. 7 illustrates that the interior material attachment structure is attached to a wall surface to which the metal interior material is to be attached.



FIG. 8 illustrates the metal interior material attached to the interior material attachment structure.


A metal interior material 400 attached to a metal interior material attachment structure having wall attachment part bolt grooves 141 to 144 includes: binding protrusions 110, 112, 114, 116 and 118 formed at the outermost part of the interior material attachment structure 100 in order to attach the metal interior material; connection part grooves 130 formed adjacent to the binding protrusions in order to connect the plurality of metal interior material attachment structures to each other; binding protrusion holes 410, 420, 440 and 450 of the metal interior material, which are bound to the binding protrusions; and connection part holes 430 of the metal interior material, corresponding to a binding step part 355 of a connector inserted into the connection part groove.


The binding protrusion holes 410, 420, 440 and 450 may be formed so that two binding protrusion holes are located on the left and right sides of the connection part hole 430, respectively.



FIGS. 9, 10 and 11 will be described as follows.



FIG. 9 illustrates a process of attaching the metal interior material.



FIG. 10 illustrates that the metal interior material is completely attached.



FIG. 11 illustrates that the interior material attachment structures are not successively arranged, but coupled to parts of the metal interior material.


For such an arrangement, the binding protrusions of the metal interior material attachment structure are formed at a corner so as not to be symmetrical with each other, and the grooves of the metal interior material in FIG. 8 are formed with margins.


The terms used in this specification and claims should not be limited to typical or dictionary definitions, but analyzed as definitions and concepts which coincide with the technical idea of the present disclosure, based on the principle that the inventor can properly define the concepts of the terms in order to describe his or her invention in the best way.


Therefore, embodiments described in this specification and configurations illustrated in the drawings are only preferred embodiments of the present disclosure and do not represent all of the technical idea of the present disclosure. Thus, various equivalent and modifications capable of replacing the embodiments can be provided at the point of time that the present application is filed.


INDUSTRIAL APPLICABILITY

The present disclosure provides a metal interior material serving as a flame retardant material or incombustible material.


Furthermore, the interior material attachment structure is manufactured to install the metal interior material in a one-touch manner, thereby increasing the efficiency of the work. The construction process can be simplified to improve the market competitiveness of the metal interior material such as aluminum during a process of mass-producing metal interior material products.


Since the unit interior material attachment structure is formed to have a small unit size, the finish work can be ended within a short time, when a corner or edge part is finished, which makes it possible to increase the economic feasibility of the work. Therefore, the present disclosure has industrial applicability.

Claims
  • 1. An interior material attachment structure with wall attachment part bolt grooves, comprising: binding protrusions formed at the outermost part of the interior material attachment structure in order to attach the metal interior material; andconnection part grooves formed adjacent to the binding protrusions in order to connect the plurality of interior material attachment structures to each other.
  • 2. The interior material attachment structure of claim 1, further comprising a connector bound to the connection part groove in order to connect the plurality of interior material attachment structures.
  • 3. The interior material attachment structure of claim 1, wherein the interior material attachment structure has the binding protrusions formed on the left and right sides of the connection part groove.
  • 4. The interior material attachment structure of claim 1, wherein in order to reliably construct the connection part grooves, the connection part grooves are connected in a rib shape at inner surfaces of openings of the connection part grooves.
  • 5. The interior material attachment structure of claim 1, wherein the interior material attachment structure is formed in a rectangular shape, and the binding protrusions are formed on the outer surface of the rectangular interior material attachment structure so as to be located on one side of neighboring sides at a corner of the rectangular interior material attachment structure.
  • 6. The interior material attachment structure of claim 5, wherein two binding protrusions are formed on each side of the rectangular shape, wherein one binding protrusion is disposed close to a corner on one side of two sides abutting on the corner, and the other binding protrusion is disposed relatively remote from the corner on the other side.
  • 7. The interior material attachment structure of claim 1, wherein when the interior material attachment structure is manufactured, four unit interior material attachment structures are manufactured at a time.
  • 8. The interior material attachment structure of claim 7, wherein in order to attach the interior material attachment structure to a wall surface, four unit interior material attachment structures are connected to each other through the connector.
  • 9. The interior material attachment structure of claim 1, wherein the connector has a binding step part to form an insertion space of the metal interior material.
  • 10. The interior material attachment structure of claim 1, wherein the connector comprises a first connection part, a connection part arm with the binding step part, and a second connection part, wherein the first connection part is coupled to the connection part groove of the interior material attachment structure, the second connection part is bound to the connection part grooves of the neighboring interior material attachment structures so as to connect the unit interior material attachment structures, and the binding step part is passed through a connection part hole formed in the metal interior material when coupled to the interior material attachment structure.
  • 11. The interior material attachment structure of claim 7, wherein a gap between the unit interior material attachment structure and another unit interior material attachment structure adjacent thereto is larger than the thickness of the metal interior material.
  • 12. The interior material attachment structure of claim 1, wherein the binding protrusion has a binding retreat space formed on the opposite side of the binding protrusion, in order to secure a retreat space when coupled to the metal interior material.
  • 13. A metal interior material attached to an interior material attachment structure having wall attachment part bolt grooves, the metal interior material comprising: binding protrusions formed at the outermost part of the interior material attachment structure in order to attach the metal interior material;connection part grooves formed adjacent to the binding protrusions in order to the plurality of interior material attachment structures;binding protrusion holes of the metal interior material, to which the binding protrusions are bound, respectively; anda connection part hole of the metal interior material, corresponding to a binding step part of a connector inserted into the connection part groove.
  • 14. The metal interior material of claim 13, wherein two binding protrusion holes are formed on the left and right sides of the connection part hole, respectively.
Priority Claims (1)
Number Date Country Kind
10-2018-0021336 Feb 2018 KR national
CROSS-REFERENCE TO RELATED APPLICATIONS

This patent application is a U.S. national stage application of International Application No. PCT/KR2019/002128, filed Feb. 21, 2019 and the entire contents of which are incorporated herein by reference, which claims priority to KR 10-2018-0021336, filed Feb. 22, 2018 and the entire contents of which are incorporated herein by reference.

PCT Information
Filing Document Filing Date Country Kind
PCT/KR2019/002128 2/21/2019 WO 00