KR20160115124A - Modular Wall System by Unit Panel - Google Patents

Abstract

The present invention relates to an assembly building, wherein unit panels which can be used for a structural material and a finishing material at the same time are assembled to form a hexahedral unit structure, and the unit panels are connected to each other to form a wall of the building. Moreover, work for a wall can be performed without large equipment such as heavy equipment, and a unit member can be manufactured to have a weight and a shape to be transported and processed by one person. Therefore, the assembly building can be assembled by non-professionals.

Description

{Modular Wall System by Unit Panel}

The present invention relates to a prefabricated building, in which a panel satisfying the general concept of a frame, a wall and a finishing material simultaneously (for example, a natural wood panel, a wood plywood, a plastic panel, a metal panel, It is about a prefabricated building that can build a wall without special equipment or heavy equipment on its own, without the knowledge and skill.

Generally, the structure of a prefabricated building means that a box-shaped structure constituting a unit living space is assembled by using a crane, a wall is formed by a large sandwich panel connected to a column or a structural frame, It is a method of assembling between walls, or a method of attaching a finishing material on a structure formed by a combination of unit structures or a frame. And the technological advances of these methods have basically assumed two goals: cost reduction and air shortening.

However, in the case of a small private house or a small warehouse rather than a general residence, the nature of the hobby activity is getting stronger rather than the shortening of the air. Such hobby activities should be carried out by the individual alone, It has been impossible for the general public to build a building alone without professional equipment or professional skills.

The object of the present invention is to make it possible to carry and construct a single person without professional equipment, skill, experience, etc. of a construction person without professional equipment.

One. By eliminating the concept of columns and walls, which are difficult to distinguish among ordinary people, and by selecting panels that simultaneously satisfy the frame, walls, and finish,

2. It simplifies the kind of work by simple operation such as fitting without special equipment when constructing,

3. Minimizing the weight and volume of the unit members so that a general person can perform operations for transportation and construction,

4. Simplified the construction process by eliminating or minimizing the separate finishing work of exterior and interior.

One. It is a way to complete the unit structure with only the unit panels and only by the fitting method. Therefore, one ordinary person does not have architectural or construction knowledge and skill, . ≪ / RTI >

2. Since the wall structure is formed by connecting left and right upper and lower parts of the unit structure, the shape of the plane is free, the scale of the plane is free, the height of the elevation is free, and the thickness of the wall is free.

3. Because there is no need for heavy equipment, construction cost can be saved.

4. (1) The main purpose of the individual is to make use of his / her leisure time, so there is no expenditure corresponding to the general labor cost. The total cost is limited only to the material cost, so the overall construction cost is considerably reduced.

5. After construction, it is possible to enlarge or reduce as needed, and unit members can resell like parts.

6. Unit panels give a variety of materials and freedom of module design, which can positively contribute to the visual diversity of the exterior facade and the functional usability of the module in the interior elevation.

1 is a perspective view of a basic unit structure for a prefabricated building according to an embodiment of the present invention.
2 is an exploded perspective view of the basic unit structure of FIG.
FIG. 2A is an enlarged view of a corner portion of the panel 110. FIG.
2B is an enlarged view of a corner portion of the panel 120. FIG.
2C is an enlarged cross-sectional view of a side surface of the panel 120. FIG.
2D is an enlarged view of a corner portion of the panel 130. FIG.
FIG. 3 is a plan view of the structure of a wall through the joining of unit structures for a prefabricated building according to an embodiment of the present invention, viewed from a corner of a building, 120) are only visible. However, the thickness of the wall is a unit structure.
Figures 3a, 3b, & 3c are variations of the coupling scheme that can occur at the mating portion of the wall.
FIG. 4 is a plan view of a structure of a wall through a combination of unit structures for a prefabricated building according to an embodiment of the present invention, 120) are only visible. However, the thickness of the wall at this time is a combination of a case of a single unit structure and a case of a double unit structure.
Figures 4a, 4b, & 4c are variations of the coupling scheme that can occur at the mating portion of the wall.
5 is a perspective view illustrating the case of FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and should be construed in accordance with the technical meanings and concepts of the present invention.

FIG. 1 is a perspective view of a basic unit structure 100 of a hexahedron for a prefabricated building according to an embodiment of the present invention, and its width, height, and height can be appropriately determined

2 is an exploded perspective view of the basic unit structure 100 of FIG.

In FIG. 2, two opposing panels 110 are symmetrically arranged in opposing symmetrical arrangement of members of the same shape, but have the same height but do not necessarily have the same length or the same thickness, or the sides are parallel. For example, the thickness can be adjusted according to the weight of the vertical load and the horizontal load.

Two opposing panels 120 in FIG. 2 are opposing symmetrical arrangements of members of the same shape, having the same height but not necessarily the same length or thickness, or the sides being parallel. For example, length and thickness can be adjusted depending on the severity of vertical and horizontal loads.

In FIG. 2, the member 122 inserted into both sides of the member 121 of the panel 120 and physically fixed thereto is for making the protrusions 122a and 122b in the panel 120. FIG.

In FIG. 2, two opposing panels 130 are symmetrical arrangements having the same shape and same size, and are not subjected to a vertical load, but receive a horizontal shearing force against a lateral force. 130c, 130d, and 130e on the upper and lower ends of the panel 110 and the panel 120 to constrain the unit structure that is a hexahedron to have rigidity In this case, the panel 120 is a panel shared in the longitudinal direction of the wall. For example, when the wall is composed of two plies, the panel 120 is shared by one panel 110 at the center of the wall And the panel 130 is vertically shared by the panel 130 itself. Therefore, as the unit structure is connected to the upper, lower, left, and right sides, the wall becomes more and more rigid.

The hole 130f in the face 130a of the panel 130 in FIG. 2 is for drilling a hole as long as it maintains a proper shearing force of the panel 130 to facilitate piping and wiring in the wall, .

FIG. 3 is a plan view of the structure of a wall through the joining of unit structures for a prefabricated building according to an embodiment of the present invention, viewed from a corner of a building, 120) are only visible. However, the thickness of the wall is a unit structure. A unit space S2 which is half the size of the unit space S1 of the unit structure is formed at the corner portion. The panel to be fitted to the upper and lower portions of the unit space S1 is formed in the same shape as the unit panel 130, And is the same as the basic unit panel 130.

Fig. 4 shows a case in which one wall is made up of two layers of unit structures. Thus, the thickness of the wall can be adjusted according to the vertical load severity while increasing the number of layers of the unit structure.

In some cases, a heat insulating material may be installed or filled in the unit spaces S1 and S2.

100: unit structure; 110: Unit panel Type A; 110a: Unit panel Type A side (side); 110b: unit panel type A side concave portion; 120: Unit panel Type B; 121: Unit panel Type B Housekeeper (main part); 121a: unit panel Type B upper surface (upper surface); 121b: unit panel type B top surface (top surface) concave portion; 122: unit panel type B coupling part; 122a & 122b: unit panel type B coupling part protrusion; 122c: a connection portion of the projecting portions 122a and 122b to the side surface of the panel main portion 121; 130: Unit panel Type C; 130a: unit panel type C main part; 130b, 130c, 130d, and 130e: side protrusions of the unit panel Type C; 130f: Wiring piping hole of unit panel Type C

Claims (4)

As a prefabricated building wall structure,
Among them, a prefabricated building structure system in which a hexahedron constituted of six rectangular unit panels as a structural member is a basic unit structure is proposed, in which a concave portion or a protruding portion is formed in the direction parallel to the sides at the four end portions of the rectangular unit panel A method of assembling a unit structure in which a concave portion and a protrusion portion are formed in a region where the sides and sides of different panels are in contact with each other, And the two rectangular parallelepipeds to be combined are connected to each other in such a manner that they share a plane-contacting panel between them in any direction, that is, one single unit structure in combination A rigidity that can stand upright against the lateral force, and a plurality of connected unit structures are all one The structure has a rigidity resisting the lateral force, and the width of the wall to be formed may be a width (one layer) of one unit structure or a plurality of widths (two or more layers) Wall structure.
The method according to claim 1,
A panel facing the outside air, a panel facing the room, and a panel forming a shared panel of the unit structure arranged opposite to each other in two or more ply walls (Panel Type A, ) Having a concave portion (a concave groove in the longitudinal direction, hereinafter referred to as a concave portion) on the four sides of each of the rims, Structure method. However, the length of the concave portion is within the length of the side surface of the panel, but it is not necessarily continuous, and the depth can be appropriately determined considering the structural role. However, the panel is a material having a thickness capable of playing a structural role, such as natural wood panel, wood plywood, plastic panel, metal panel, and the like.
The method according to claim 1,
(Panel Type B, corresponding to the panel 120 in the description of the drawings) that faces the longitudinal direction of the wall inside the wall without facing the outside air or the room among the panels of the unit structure, Having protrusions in the longitudinal direction at its front end and having bidirectional protrusions in directions opposite to each other so as to be able to fit the panels 110 described in the second paragraph on their panel sides, And the upper and lower surfaces have a concave portion on the surface thereof. However, the length of the projecting portion is within the length of the side surface of the panel, but it is not necessarily continuous, and the height can be appropriately determined considering the structural role. However, the panel is a material having a thickness capable of playing a structural role, such as natural wood panel, wood plywood, plastic panel, metal panel, and the like. However, in the panel, the side projecting portion is formed of a material capable of performing a structural function and is not limited thereto.
The method according to claim 1,
(Panel Type C, corresponding to the panel 130 in the description of the drawings) that faces the wall in the height direction inside the wall without facing the outside air or the room among the panels of the unit structure, (S) of the panel (s) described in claim 2 or the panel (s) 120 described in claim 3 can be fitted on both sides of the panel surface of the panel The construction method of the prefabricated building which consists of the unit structure combined with this, that is, all four side edges of the building. However, the length of the projecting portion is not necessarily continuous, and the height of the projecting portion can be appropriately determined in consideration of the structural role. However, the panel is a material having a thickness capable of playing a structural role, such as natural wood panel, wood plywood, plastic panel, metal panel, and the like. However, in the panel, the side projecting portion is formed of a material capable of performing a structural function and is not limited thereto.

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