KR101925956B1 - Corner structure using block for constructing wall - Google Patents

Abstract

The present invention provides a corner connection structure using a wall construction block and a hollow plate column that allows a wall to be assembled to be coupled with each other using horizontal and vertical support members and a corner where the wall faces, It has its main purpose.
According to an aspect of the present invention, a corner connection structure using a wall construction block and a hollow plate column according to the present invention includes a first block, a second block, and a center connection block, The first and second blocks are connected to each other via the central connection block, insertion grooves and insertion protrusions for mutual fitting are formed on both sides of the first block, Wherein the central connection block is formed with a wall forming block formed by laminating a wall forming block having an insertion groove for inserting a horizontal supporting block, A hollow plate column is installed at a corner portion, and an empty space where the wall construction block and the hollow plate column abut against each other There corner auxiliary block can be inserted and installed, the installed between the laminated wall construction block for the horizontal support it is installed, coupled to the hollow plate column for group.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a corner connection structure using a wall construction block and a hollow plate column,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a corner connection structure using a wall construction block and a hollow plate column, and more particularly, to a wall connection structure using a wall type construction block and a hollow plate column, To the corners of the frame.

Generally, as a method of constructing a building wall, there is a method of laminating a building block such as a brick house, a method of building a structure for a wall structure such as a wooden house, and then a panel for a wall structure is fixedly installed between the structures.

The building blocks used in the first method are made of roughly square red brick or cement brick, and these blocks are laminated to form a building wall. The blocks are laminated by applying cement mortar or the like so that the blocks are attached to each other to form a wall. However, as the use of cement mortar increases the number of work operations and curing time of cement mortar is required, it takes a long time to work.

Further, since the building block itself is poor in heat insulation property, it is usually constructed by laminating blocks to form an outer wall body of a building, then adhering a heat insulating material to the inside, and then laminating the blocks again to form an inner wall body . The technique of forming a wall of a building by forming an outer wall body of a building after forming the outer wall body of the building and then forming a wall of the building by inserting the inner wall body and the outer wall body simply adheres to the heat insulating material, there was.

The wall structure panel for the wooden house used in the second method is installed by a construction method in which a plurality of logwoods are jointed or a plate of a certain thickness is stuck to each other so that the insulation property, the soundproofing property and the wind protection property of the wooden house are remarkably low . In order to solve this problem, a wall structure panel is formed of a double wall body, and a separate heat insulator, a gypsum board, an inner / outer finishing material, and the like have been additionally used. As a result, the construction of the wooden house is not only deteriorated, but also the basic orientation of the wooden house, which is advantageous to the human body, is disposed.

In order to solve the problems of the conventional building wall, the inventor of the present invention has found that it is possible to directly insert a heat insulating material, a soundproofing material, and the like without using a separate adhesive such as a cement mortar, A new type of wall construction block has been developed. This system wall construction block has been filed in Korean Patent Application No. 10-2014-00162628 (title of the invention: wall construction block and building wall using the same). The contents of which are incorporated herein by reference in their entirety. In order to actually construct a building such as a hanok using the new construction block, the inventor of the present invention has developed a corner structure for connecting the wall to the wall.

The present invention has been developed in order to meet such a need, and it is an object of the present invention to provide a wall construction block and a hollow construction block which can easily and firmly install corners where walls and walls are assembled to each other by using horizontal and vertical support materials, There is a main purpose of providing a corner connection structure using a plate column.

In order to accomplish the above object, a corner connection structure using a wall construction block and a hollow plate column according to the present invention comprises a first block, a second block, and a central connection block, Wherein the first block is formed with an insertion groove and an insertion protrusion for mutual fitting at both sides of the first block and a mounting groove and an insertion protrusion are formed on both sides of the second block, And the center connection block is formed with a wall construction block formed by laminating a wall construction block having an insertion groove for inserting a horizontal support, the corner connection block having a corner portion A hollow plate member column is installed in the hollow plate member column, and a space for filling the hollow space between the wall construction block and the hollow plate member column Corners and the auxiliary block is installed, insertion, and wherein provided between the laminated wall construction block for the horizontal support can be provided, coupled to the hollow plate columns.

In addition, the hollow plate column may be filled with a heat insulating material.

In addition, a corner post may be vertically installed between the hollow plate column and the block for wall installation closest to the hollow plate column to reinforce the supporting force of the wall corner.

In addition, the corner post member may be coupled to the hollow post.

In addition, the corner post member may have a larger cross-sectional area than a vertical support inserted between the wall-installing blocks.

In addition, the corner post members may be formed by stacking two or more vertical supports inserted between the wall-installing blocks.

The corner sub-block may have an insertion protrusion formed at one side thereof to be inserted into the insertion groove of the first block of the wall-mounting block.

According to the corner connection structure using the wall construction block and the hollow plate column according to the present invention constructed as described above, a customized corner connection structure is provided to a wall construction block having a new shape. As a result, it is possible to connect the corners only by simply laminating the wall construction block and the corner support block, thereby improving the workability and workability of the wall construction block. This not only solves the complicated structure connecting the wooden pillars and the earth walls in the corners of the conventional hanok structure but also resolves the problem that the insulation between the wooden pillars and the clay walls is deteriorated.

In addition, according to the present invention, the interior of the hollow plate column is filled with a heat insulating material to further improve the heat insulating property inside the house. This solves the problem of deterioration in insulation, which has been pointed out as the greatest problem of conventional hanok structure.

Further, according to the present invention, since the corner post member which is erected on the side face of the corner support block and the horizontal support which is extended through the wall construction block are firmly coupled to the hollow plate post, Can be completed and exhibit high structural stability.

As a result, it is possible to secure a high bearing capacity higher than that required by the Building Code, and damage caused by an earthquake that has recently become a problem in Korea can be prevented.

1 is a perspective view of a male and female wall construction block according to the present invention.
2 is a front view of a male and female wall construction block according to the present invention.
3 is a perspective view of a rock-type wall installation block according to the present invention.
4 is a front view of a rock-type wall installation block according to the present invention.
5 is a longitudinally coupled view of a male and female wall construction block according to the present invention.
6 is a vertical sectional view of a male and female rock wall construction block according to the present invention.
7 is a view showing a construction state of a building wall according to the present invention.
8 is a view showing another construction state of a building wall according to the present invention.
9 is a view showing the completed state of the corner connection structure according to the present invention.
10 is an exploded view of a corner connection structure according to the present invention.
11 is a view showing a disassembled state of another embodiment of the corner connection structure according to the present invention.

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

These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with an embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention.

The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which the claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

As described above, the corner connection structure according to the present invention has been customized to Korean patent application No. 10-2014-00162628 (name of the invention: a wall construction block and a building wall using the same). Before the construction of the corner connection structure will be described in detail, the construction of the wall construction block will be briefly described with reference to Figs. 1 to 8. Fig.

Figs. 1 and 2 are a perspective view and a front view of a male-type wall construction block, and Figs. 3 and 4 are a perspective view and a front view of a rock-type wall construction block. Fig. 5 shows a longitudinally coupled state of the male and female wall-mounting blocks, and Fig. 6 shows a vertically coupled state of the male and female wall-mounted blocks. 7 and 8 show the construction state of the building wall.

The wall construction block according to the present invention mainly comprises a male-type wall construction block 100 and a rock-type wall construction block 500.

The male and female blocks 100 and 500 can be manufactured by filling materials such as clay, cement, and synthetic resin into a certain mold and then pressing the blocks into a mold. Further, it may be manufactured by casting a metal material such as iron or aluminum, or by machining a natural material such as wood.

The construction of the male and female wall construction block 100 will be described in detail with reference to FIGS. 1 and 2. FIG. The male and female wall construction block 100 includes a first block 200, a second block 300, and a central connection block 400 connecting the two blocks.

In the first block 200, a receiving groove 220 is formed so that a functional member is embedded in a body 210 made of a rectangular parallelepiped. The functional member included in the receiving groove 220 may include a material that performs various functions such as a heat insulating material, a soundproofing material, a moisture-proofing agent, a fragrance, and a far-infrared ray emitting material. As an example of the functional member, the wooden housing structural material may be processed and the remaining sawdust may be filled into the receiving groove 220 as a heat insulating material application. It is not always necessary to insert the functional member into the receiving groove 220, and it may be possible to exhibit the heat insulating performance only by the empty space without the functional member.

Side insertion protrusions 230 are formed on one side of the body 210 of the first block 200 in the longitudinal direction and side insertion slots 240 corresponding to the side insertion protrusions 230 are formed on the other side of the body 210. [ . When the male and female wall construction blocks 100 are arranged in the longitudinal direction, the lateral insertion protrusions 230 of the two adjacent male and female wall construction blocks 100 as shown in the "A" The side insertion grooves 240 are inserted and coupled with each other.

The second block 300 includes a body 310 having a rectangular parallelepiped shape arranged in parallel to the body 210 of the first block 200 and having a functional member Grooves 320 are formed. The functional member contained in the receiving groove 320 has already been described above.

A first mounting groove 330 is formed on one side of the body 310 of the second block 300 in the longitudinal direction and a second mounting groove 330 corresponding to the first mounting groove 330 is formed on the other side of the body 310. [ (340) are formed. When the male and female wall building blocks 100 are arranged in the longitudinal direction, the first mounting grooves 330 and the second mounting grooves 340 of the adjacent two male and female wall-mounting blocks 100 are engaged with each other A vertical support mounting groove 350 is formed for receiving the vertical support as shown in the "B"

The central connection block 400 connects the first block 200 and the second block 300 as shown in FIG. 2. The lower connection protrusion 410 is formed at a lower portion and the lower insertion And an upper insertion groove 420 corresponding to the projection 410 is formed. As a result, when the male and female wall construction blocks 100 are stacked in the vertical direction, the lower insertion projections (not shown) of the two adjacent male and female wall construction blocks 100 410 and the upper insertion groove 420 are inserted and coupled with each other.

The upper end insertion groove 420 of the central connection block 400 in the male and female wall installation block 100 is connected to the "E" side of FIG. 6 when the rock-type wall installation block 500 described later is stacked thereon. A horizontal support mounting groove 450 for receiving the horizontal support is formed by engaging with the lower mounting groove 810 of the central connecting block 800 in the block 500 for installing the wall.

As described above, the male and female wall construction block 100 according to the present invention is largely divided into three parts. The first block 200 functions to incorporate a functional member and to perform a longitudinal direction coupling function between the blocks. The second block 300 functions to mount a functional member and a vertical support. The central connection block 400 has a function of vertically coupling blocks and a function of mounting a horizontal support .

In particular, in the block 100 for installing the male and female walls according to the present invention, the space for mounting the vertical supports in the second block 300 and the space for mounting the horizontal supports in the central connection block 400 are not overlapped with each other Therefore, the vertical support and the horizontal support can be independently mounted without being interfered with each other. Therefore, according to the present invention, it is possible to mount the vertical support and the horizontal support as long as necessary. As shown in FIG. 2, in the conventional wall construction block, since the space for mounting the vertical support and the horizontal support is overlapped, it has to be cut into a slice, and as a result, more This solves the problem of using a support.

At this time, the first mounting groove 330 and the second mounting groove 340 of the second block 300 are respectively provided with a first elongated groove 335 and a second elongated groove formed to extend toward the central connecting block 400, (345) may be formed. As a result, the horizontal support mounting groove 450 and the first mounting groove 330 and the second mounting groove 340 of the second block 300 of the male and female block installation block 100 are formed The vertical support mounting grooves 350 are partially overlapped, and the horizontal support 920 and the vertical support 930 can be fitted to each other as shown in FIG.

When the horizontal support 920 and the vertical support 930 are fitted to each other, the supporting rigidity of the building wall can be further increased. As described above, according to the present invention, the first extension groove 335 and the second extension groove 335 are formed within a range that does not contradict to the basic object of the present invention that the mounting space of the horizontal support 920 and the vertical support 930 are kept independent from each other. The horizontal support 920 and the vertical support 930 can be fitted to each other by the two elongated grooves 345 to further increase the rigidity of the building wall.

Meanwhile, the first and second blocks 200 and 300 are connected to each other through the central connection block 400 by being connected to each other. Here, it means that the first block 200 and the second block 300 are installed in such a manner that the first block 200 and the second block 300 are not completely overlapped when the block 100 for installing the male and female walls is viewed in the width direction. This improves the heat insulation and sound insulation of the male and female wall construction block 100.

When the first block 200 and the second block 300 are formed so as to be completely overlapped with each other, when the two blocks 100 for constructing the adjacent male and female walls are coupled in the longitudinal direction, And the gap between the second block 300 and the clearance between the first block 300 and the second block 300 becomes a straight line in the width direction of the male- Even if the two blocks 100 are firmly connected to each other, the air can not pass through the gap. In this case, since the ventilation is more easily performed when the gaps are straight, Fall off.

However, when the first block 200 and the second block 300 are mutually shifted as in the present invention, when two adjoining male and female wall-mounting blocks 100 are coupled in the longitudinal direction, The gap between the adjacent first blocks 200 and the gap between the second block 300 are separated into zigzags when viewed in the width direction of the male and female wall-mounting block 100 as shown in FIG. As a result, the ventilation between the clearances is not performed well, and the heat insulation and the soundproofing property are improved.

The first block 200 and the second block 300 may be formed in the same shape as the receiving groove 220 of the first block 200 and the second groove 220 of the first block 200, It is preferable that the receiving grooves 320 of the block 300 are connected to be shifted so as not to overlap each other. Here, the fact that the two receiving grooves 220 and 320 do not overlap each other does not mean that the two receiving grooves 220 and 320 are not completely overlapped in a precise sense, but the two receiving grooves 220 and 320, as viewed in the width direction, . ≪ / RTI >

Next, the configuration of the rock-type wall building block 500 will be described with reference to FIGS. 3 and 4. FIG. The rock-type wall construction block 500 includes a first block 600, a second block 700, and a central connection block 800 connecting the two blocks.

The first block 600 is formed with a receiving groove 620 such that a functional member is embedded in the body 610 and a side insertion protrusion 630 is formed at one side of the body 610, Side insertion grooves 640 corresponding to the side insertion protrusions 630 are formed on the other side of the base plate 630. The first block 600 configured as described above has the same configuration and function as the first block 200 of the male and female wall construction block 100, and therefore, the above description will be referred to.

The second block 700 is formed with a receiving groove 720 such that a functional member is embedded in the body 710 and a first mounting groove 720 is formed at one side of the body 710 to mount the vertical support 930. [ And a second mounting groove 740 corresponding to the first mounting groove 730 is formed on the other side of the body 710. The second block 700 configured as described above has the same configuration and function as the second block 300 of the male and female wall construction block 100, and therefore, the above description will be referred to.

The central connection block 800 connects the first block 600 and the second block 700 and has a lower mounting groove 810 formed at a lower portion thereof for mounting the horizontal support 920, An upper mounting groove 820 corresponding to the lower mounting groove 810 is formed. 2 and 4, in the block 500 for installing the rock-type wall, the mounting grooves 810 and 820 are formed on the upper and lower portions of the central connecting block 800, The lower insertion protrusion 410 and the upper insertion groove 420 are formed at the upper and lower portions of the central connection block 400 in the body 100. [

6, since the lower mounting groove 810 is formed at the lower end of the central connecting block 800, the block 500 for installing the rock-type wall is installed on the floor base plate It is possible to constitute the bottom layer of the building wall. As shown in the portion E of FIG. 6, in the rock-type wall installation block 500, the center connection block 800 is connected to the lower installation groove 810 and the male- A horizontal support mounting groove 450 may be formed for receiving the horizontal support by engaging the upper insertion groove 420 of the block 400.

Therefore, according to the present invention, by selectively using the male and female wall construction block 100 and the rock-and-stone type wall construction block 500, it is possible to freely adjust the intervals for mounting the horizontal supports in the building wall. For example, as shown in FIG. 6, a rock-type wall construction block 500 is installed on the bottom layer, and three blocks of male and female wall construction blocks 100 are continuously installed thereon. When the block 500 for installing the rock-type wall is installed on the upper layer, a horizontal support is installed at an interval of four layers. When a higher supporting rigidity is required, it is also possible to arrange the rock-type wall construction block 500 and the male-type wall construction block 100 alternately so that the horizontal support rods are installed at an interval of two layers.

The block 500 for building a rock-type wall according to the present invention is largely divided into three parts, and the first block 600 functions to integrate a functional member and perform a coupling function in a longitudinal direction between the blocks, The second block 700 functions to mount a functional member and a vertical support, and the central connection block 800 functions to mount a horizontal support.

Particularly, in the block 500 for building a rock-type wall according to the present invention, the space for mounting the vertical support in the second block 700 and the space for mounting the horizontal support in the central connection block 800 do not overlap each other Therefore, the vertical support and the horizontal support can be independently mounted without being interfered with each other. Therefore, according to the present invention, it is possible to mount the vertical support and the horizontal support as long as necessary, which is the same as in the case of the above-mentioned male and female wall construction block 100 described above.

At this time, the first and the second mounting grooves 730 and 740 of the block 500 for installing the rock-type wall body are respectively provided with the first and second mounting grooves 730 and 740, An elongated groove 735 and a second elongated groove 845 may be formed. As a result, the horizontal support mounting groove 450 and the first mounting groove 730 and the second mounting groove 740 of the second block 700 of the rock-type wall mounting block 500 The vertical support mounting grooves 750 are partially overlapped, and the horizontal support 920 and the vertical support 930 can be interdigitated as shown in FIG.

When the horizontal support 920 and the vertical support 930 are fitted to each other, the supporting rigidity of the building wall can be further increased. As described above, according to the present invention, the first extended groove 735 and the second extended groove 730 can be formed within a range that does not contradict the basic object of the present invention that the mounting space of the horizontal support 920 and the vertical support 930 are kept independent from each other. The horizontal support 920 and the vertical support 930 can be fitted to each other by the two elongated grooves 745 to further increase the rigidity of the building wall.

Meanwhile, in the rock-type wall installation block 500, the first block 600 and the second block 700 are connected to each other through the central connection block 800. Here, it means that the first block 600 and the second block 700 are installed so that they do not completely overlap when the block 500 for building a rock-type wall is viewed in the width direction. As a result, the gap between the adjacent first blocks 600 and the gap between the second block 700 are separated in a zigzag manner when viewed in the width direction of the rock-shaped wall body building block 500, Thereby improving the heat insulating property and the soundproofing property.

The first block 600 and the second block 700 may be formed in the same manner as the receiving groove 620 of the first block 600 and the second groove 600 of the second block 700, It is preferable that the receiving grooves 720 of the block 700 are connected so as to be shifted so as not to overlap each other. Here, the two receiving grooves 620 and 720 do not overlap each other in a precise sense, and the two receiving grooves 620 and 720 as viewed in the width direction, as shown in FIG. 5, As described above.

7 and 8, a construction process of the wall construction block according to the present invention will be briefly described.

First, the ground for building the building wall is picked up, and then the bottom plate 900 as a foundation is installed. A floor horizontal support 910 is fixed on the bottom plate 900. The block 500 for installing the rock-type wall body is longitudinally installed on the floor horizontal support 910 to constitute the first layer. At this time, a bottom mounting groove 810 is formed at a lower portion of the central connection block 800 of the rock-type wall installation block 500, and is inserted and coupled with the bottom horizontal support 910 to be firmly fixed.

Thereafter, the male and female wall building blocks 100 are stacked in the longitudinal direction to form the second, third, and fourth layers. 6, the central connection block 400 of the adjacent male and female wall construction block 100 has a lower insertion protrusion 410 and an upper insertion groove 420 inserted and coupled And is firmly fixed.

5, the lateral insertion protrusions 230 of the first block 200 and the lateral insertion slots 240 of the first block 200 are formed in the longitudinal direction of the male- Are inserted and fastened to each other. 5, the first mounting groove 330 and the second mounting groove 340 of the second block 300 are coupled to each other to form the vertical support mounting groove 350 . 7, after the vertical support 930 is set up, the vertical support 930 is not forcedly engaged with the vertical support mounting groove 350, The vertical support 930 is naturally positioned in the vertical support mounting groove 350. [

That is, according to the present invention, since the wall supporting block is attached to the vertical supporting block rather than the vertical supporting block is attached to the wall installing block, the work is much easier. This completely eliminates the inconvenience of vertically inserting the vertical support into the vertical support insertion slot 41 formed at the center of the body in the conventional heat insulating block 10 described in FIG.

Next, in order to mount the horizontal support 920, the block 500 for installing the rock-type wall is installed in the longitudinal direction to form the fifth layer. At this time, as shown in the "E" part of FIG. 6, the lower mounting groove 810 of the central connecting block 800 and the center of the male-type wall mounting block 100 in the rock- The upper insertion groove 420 of the connection block 400 is coupled to form a horizontal support attachment groove 450. In this case, the wall construction blocks 100 and 500 according to the present invention are constructed such that the space for mounting the vertical supports on the second blocks 300 and 700 and the space for mounting the horizontal supports on the central connection blocks 400 and 800 The vertical support 930 and the horizontal support 920 can be independently mounted without being interfered with each other. Therefore, as shown in FIG. 7, the lengths of the horizontal support 920 and the vertical support 930 can be long.

8 shows an embodiment in which the horizontal support 920 and the vertical support 930 are fitted to each other to increase the support rigidity of the building wall. The male and female wall construction blocks 100 are stacked to form a fourth layer, and then a horizontal support 920 is installed. As shown in FIG. 1, the male and female wall construction blocks 100 are extended toward the central connection block 400 in the first mounting groove 330 and the second mounting groove 340 of the second block 300, respectively, A first elongated groove 335 and a second elongated groove 345 are formed. As a result, the horizontal support mounting groove 450 and the first mounting groove 330 and the second mounting groove 340 of the second block 300 of the male and female block installation block 100 are formed The vertical support mounting groove 350 is partially overlapped and the vertical support 930 is fitted to the fitting groove 925 formed in the horizontal support 920 as shown in FIG.

According to the present invention, the horizontal support 920 and the vertical support 930 can be reciprocated within a range that does not contradict the basic purpose of the present invention in which the mounting space of the horizontal support 920 and the vertical support 930 are kept independent from each other So that the supporting rigidity of the building wall can be further increased.

Hereinafter, the corner connection structure using the wall construction block and the hollow plate column as described above with reference to the accompanying drawings will be described in detail. FIG. 9 is a view showing a completed state of the corner connection structure according to the present invention, FIG. 10 is a view showing a state in which the corner connection structure is disassembled, and FIG. 11 is an exploded state of another embodiment of the corner connection structure FIG.

As shown in Fig. 9, the corner connection structure of the wall construction block connects two rows of walls which have been stacked from the other direction. As described above, the block for constructing the wall constituting the wall is composed of a block 100 for building a male and female wall which is stacked at a position where a horizontal support member constituting a skeleton of the wall is not inserted, And a wall construction block 500.

An interlayer member 950 is horizontally installed at the uppermost end of the wall-forming block stacked at a constant height. The interlayer member 950 is joined to a horizontal support (not shown) provided on the upper surface of the uppermost wall of the block for constructing a wall, and is connected to the framework of the wall to secure structural support. And by providing a flat bottom surface, it provides the foundation upon which the two-layer wall can be stacked. Through this repetition, buildings with multi-storey structures can be constructed.

A hollow plate column 1000 is vertically installed at a corner where the wall installing blocks 100 and 500 installed in the other direction are connected and connected, and a pair of wall installing blocks 100 and 500 installed in the other direction The horizontal support member 920 is coupled to the hollow plate member 1000. Since the hollow plate column 1000 and the horizontal support 920 are made of the same material as wood, they can be easily coupled using a coupling nail, a metal coupling, or the like.

According to the present invention, the hollow plate column 1000 and the horizontal support 920 are basically combined to form a mutual thrust structure, thereby securing the supporting force of the wall. In addition, the hollow plate column 1000 may be coupled to a later-described corner post 935, and the horizontal support 920 may be coupled to the vertical support 930, The supporting force can be further improved.

10, the hollow plate column 1000 may be filled with a heat insulating material 1100 therein. The wall construction block made of yellow clay is less heat-insulating due to the characteristics of the clay material. The wall construction blocks 100 and 500 are manufactured in a zigzag shape, and a double insulation material 940 is filled therein to secure the heat insulation property. However, due to the limitation of the shape of the corner portion of the wall, the zigzag type wall construction blocks 100 and 500 can not be used as they are.

Therefore, if a general ocher block having no heat insulating material is laminated on the corner portion, the heat may escape through the corner portion and the heat insulating property may be deteriorated. In order to solve such a problem, the present invention has a hollow plate column vertically installed at the corner portion of the wall, and filling the inside thereof with the heat insulating material 1100 to secure the heat insulating property of the corner portion.

A finishing material 1200 may be attached to the outer surface of the hollow plate column 1000. This finishing material (1200) expresses the same aesthetic feeling as the pillars of a hanok, so even if a massive wooden pillar or beam structure like a traditional hanok is not installed, the decoration of the hanok can be saved. 9 to 11, the hollow plate column 1000 is shown to be lower in order to more clearly show its internal structure, but it is actually installed at the same height as the wall.

FIG. 10 is a view showing an exploded state of a corner connection structure according to the present invention.

The wall construction blocks 100 and 500 commonly include a first block 200 and 600, a second block 300 and 700 and a central connection block 400 and 800. The first blocks 200 and 600 and the second blocks 300 and 700 And insertion grooves 240 and 640 and insertion protrusions 230 and 630 are formed on both sides of the first block 200 and the second block 200 to be mutually engaged with each other through the central connection block 400 and 800, 300 and 700 have insertion grooves 330 and 340 for insertion of vertical supports 930 and insertion slots 420 and 820 for inserting horizontal supports 920 into the central connection blocks 400 and 800.

In addition, the male and female block walls 100 and the block 500 for installing the rock-type wall body, and the horizontal and vertical supports 920 and 930, respectively, will be described in detail with reference to FIGS. I will refer to them as they are. The two rows of walls shown in FIG. 10 are made by stacking these walls for constructing walls 100 and 500.

According to the present invention, in order to secure the supporting force of the corner connecting portion, a pair of the horizontal supports (100, 100) installed between the wall installing blocks (100, 500) installed in two different directions (920) is configured to be mutually coupled with the hollow plate column (1000).

At this time, a corner post member 935 may be vertically installed between the hollow plate member column 1000 and the wall construction blocks 100 and 500 closest to the hollow plate member column 1000 to reinforce the supporting force of the wall corners. The corner pillar member 935 is coupled with the hollow plate column 1000 to further improve the structural support force of the corner portion. The corner pillar member 935 is mainly made of wood, but any other metal or plastic may be used as long as it has a certain rigidity. The corner pillar member 935 is mainly formed in a square pillar shape, but it is natural that the corner pillar member 935 may be formed in a circular column shape or another polygonal column shape.

The corner portion of the wall receives a larger external force than the other portion of the wall, since it is a portion mainly supporting the load applied by the heavy object such as the roof installed on the upper portion. Therefore, in order to sufficiently improve the supporting force of the wall corners, as shown in Fig. 10, it is preferable that the corner post 935 is constituted by a member having a larger cross-sectional area than the normal vertical support 930 constituting the wall.

According to another embodiment of the present invention, as shown in FIG. 11, the corner post members 935 may be constructed by stacking two or more normal vertical supports 930 inserted between the wall-installing blocks . According to this embodiment, since the building material used as the vertical support 930 can be directly used as the corner pillar member 935, it is necessary to purchase a building material having a different dimension to prepare the corner pillar member 935 The inconvenience can be solved.

8, the corner post 935 may be coupled to the horizontal support 920 in the same manner that the vertical post 930 is interdigitated with the horizontal support 920. [ As a result, the horizontal support 920, the vertical support 930, and the corner post 935 all together form a thrust structure, thereby providing a more rigid skeletal structure.

10 and 11, a pair of corner post members 935 are shown spaced a predetermined distance from the hollow plate column 1000 in order to show the shape and the coupling state of the corner post member 935 in more detail However, as shown in FIG. 9, the corner pillar member 935 is installed vertically between the hollow plate column 1000 and the wall construction blocks 100 and 500 closest to the hollow plate column 1000.

Meanwhile, a corner auxiliary block 1300 is inserted to fill a void space where the wall construction block 100, 500 and the hollow plate column 1000 are in contact with each other. As described above, since the wall construction blocks 100 and 500 are formed in a zigzag shape, the hollow planar column 1000 having a rectangular shape can not be installed so that the whole surface of the hollow planar column 1000 is closely contacted. Of course, it is also possible to make the hollow plate column 1000 into a zigzag shape so as to coincide with the wall construction blocks 100 and 500, but the block is structurally very complicated, making it difficult to manufacture and deteriorating the transportability and workability. Accordingly, in the embodiment of the present invention, the hollow plate member 1000 is formed of a square structure having a stable structure, and the hollow space is filled with the corner sub-block 1300.

The corner sub-block 1300 may be composed of a male-type corner sub-block and a rock-type corner sub-block in consideration of coupling with the horizontal support 920. According to the present embodiment, the corner sub-block 1300 is formed at one side thereof with an insertion protrusion such that the insertion protrusion can be fitted into the insertion groove 240, 640 formed in the first block 200, 600 of the wall-mounting block 100, 500 And the other side surface of the opposite side is simply flattened to be in close contact with the hollow plate column 1000. According to another embodiment of the present invention, the hollow plate column 1000 may be configured to be coupled to the hollow plate member 1000 by a groove or a projection to increase the coupling efficiency of the corner sub-block 1300.

As described above, the present invention has been described with reference to particular embodiments, such as specific elements, and specific embodiments and drawings. However, it should be understood that the present invention is not limited to the above- And various modifications and changes may be made thereto by those skilled in the art to which the present invention pertains.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

100: male and female wall construction block 200: first block
300: second block 400: central connection block
500: Rock-type wall construction block 600: First block
700: second block 800: central connection block
900: bottom plate 920: horizontal support
930: Vertical support 1000: Hollow plate column
1100: Insulation material 1200: Finishing material
1300: Corner auxiliary block

Claims (7)

The first block, the second block, and the central connection block, the first block and the second block are mutually shifted via the center connection block, and the first and second blocks are connected to each other on both sides of the first block, A groove for inserting a vertical support is formed on both sides of the second block, and a block for constructing a wall formed by inserting grooves for inserting a horizontal support into the central connection block is formed As a structure for forming a corner of a wall,
A hollow plate member column is installed at a corner portion where the wall construction block connected in the other direction meets and a corner auxiliary block is inserted and installed to fill a vacant space where the wall construction block and the hollow plate member column meet, Wherein the horizontal support base provided between the stacked wall construction blocks is coupled to the hollow plate column,
A corner post member is vertically installed between the hollow plate column and the block for installing the wall adjacent to the hollow plate vertically to reinforce the supporting force of the wall corner, and the corner post member is inserted between the wall- And the corner post member is interdigitated with the horizontal support member, wherein the corner post member is fitted to the corner post member. The method according to claim 1,
Wherein the hollow plate column is filled with a heat insulating material therein, and a corner connection structure using a hollow plate column. delete The method according to claim 1,
Wherein the corner post member is coupled to the hollow plate column, and wherein the corner post member is coupled to the hollow plate column. delete The method according to claim 1,
Wherein the corner post member is formed by stacking two or more vertical supports inserted between the walls for constructing a wall, and the corner connection structure using the hollow plate column. The method according to claim 1,
Wherein the corner supporting block has an insertion protrusion formed on one side of the corner supporting block so as to be inserted into the insertion groove of the first block of the wall installing block.

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