KR101171613B1 - Construction work method for Wall structure of korean style house - Google Patents

Abstract

Provided are a method of constructing a wall of a hanok, which forms a frame of a building with wooden pillars and is formed between the pillars. The wall construction method of the hanok, the grid having a plurality of vertical axis and horizontal axis and formed a plurality of lattice-shaped block insertion space having a constant size in the horizontal and vertical direction, the grid formed with a support space protruding to both sides of the block insertion space Preparing a skeleton; Inserting the block panel manufactured by mixing the chaff and the adhesive into a predetermined size and inserting the block panel into the block insertion space of the grid frame, and installing the grid panel with the block panel inserted between the pillars; Fixing the grid frame installed between the pillar to the pillar and filling the finishing material dough in the support space formed on both sides of the grid frame is configured to include a step of plastering.

Lattice Frame, Block Panel, Block Insertion Space, Support Space, Finishing Material Dough, Hanok Wall,

Description

Construction method for wall structure of hanok

The present invention relates to a wall construction method of Hanok (Korean-style house), and more particularly, to form a frame of the building with wooden pillars and the thermal insulation effect when plastering between the pillars such as ocher and easy construction It relates to a wall construction method of hanok having a structure.

Hanok, which is a structure made of various wooden pillars and formed walls with soil or ocher between the pillars, is constructed with eco-friendly materials, so it is cool in summer and heat insulation in winter. It is becoming. The walls of hanok are generally called soil walls, and the materials used to hit the walls of hanok are lime, Seobyol proportion, and loess.

In order to construct a wall between pillars and pillars, to install Samhwa soil (soil), install a weight between pillars and pillars. Should be tied. Outside the horizontal installation of the outside, and vertically installed outside is called the outside of the tongue. It is installed at intervals of about 2.5 centimeters, and is used for materials such as bamboo, fern, or sorghum. When the preparation stage is completed, the wall of Hanok is completed by performing a full-scale earthen wall cutting.

However, the wall of Hanok by the traditional method as described above has a problem that it takes a long period of construction by establishing a middle weight, installing horizontally the thorny bird on the middle, and then weaving the outside by relying on the middle and the thorny bird. there was. In addition, there was a problem that the insulation is not excellent because the thickness of the wall is thin.

In addition, as a finishing material of the wall simply by plastering the wall using a dough mixed with crushed straw and the like on the triangular soil has been a problem that is not robust due to problems such as easy cracking on the wall.

Accordingly, an object of the present invention is to provide a method for simplifying the construction and constructing the wall structure of the hanok excellent in heat insulation.

Another object of the present invention is to fill the block panel (block panel) made of an environmentally friendly material inside the lattice frame (lattice frame) to form a wall, the structure that can easily plaster the mud dough on the outside of the lattice frame It is to provide a wall construction method of hanok having a.

Still another object of the present invention is to provide a method for constructing a wall of a hanok having a solid structure because cracks do not easily occur by mixing ocher, sand, water, and fiber reinforcement while maintaining the superiority of the hanok wall using ocher. have.

The wall structure of the hanok according to the present invention for achieving the above object is a plurality of inner vertical steel wires which are vertically spaced apart at predetermined first intervals and installed at equal intervals in the horizontal direction, and the outside of the inner vertical steel wires A plurality of outer vertical steel wires extending in a vertical direction spaced apart by a second interval narrower than the first interval, and extending at regular equal intervals in the first and second horizontal directions of the inner vertical steel wires and the outer vertical steel wires; A block insertion space between the inner vertical steel wires and the outer vertical steel wires while being fixedly connected to the inner vertical steel wires and the outer vertical steel wires so as to grasp the inner vertical steel wires and the outer vertical steel wires in a lattice form and hold them in parallel at regular intervals. A grid frame composed of a plurality of horizontal steel wires forming a support space; A plurality of block panels, each of which is formed in a predetermined size by mixing the chaff and an adhesive and inserted into a plurality of block insertion spaces formed in a central portion of the grid frame; It is characterized in that it is formed of a finishing material dough layer is attached to a certain thickness from the block panel located therein through the support space formed on the outside of the grid frame to be plastered.

The block panel is a mixture of chaff and adhesive is mixed in a volume ratio of 65:35 to 75:25, put into a frame of a predetermined size to use a compression formed to a size of 80 ± 2mm, 150 ± 2mm in length, 500 ± 2mm in length It is preferable. The adhesive may be any one selected from the group consisting of any one selected from glutinous rice paste, corn starch, sun white, sun size, sun casta, gen size, Senn high-cat, Zen code, etc., or a combination thereof as industrial starch. have.

The fixed connection of the vertical steel wires and the horizontal steel wires of the grid frame is wound and fixed by a binding member such as welding or wire.

The horizontal steel lines of the grid frame consists of first horizontal steel wires fixedly connected in the width direction of the inner vertical steel wires and the outer vertical steel wires and second horizontal steel wires fixedly connected in the longitudinal direction in which the inner vertical steel wires and the outer vertical steel wires are installed. It features.

The inner and outer vertical steel wires and the horizontal steel wires of the lattice frame are galvanized iron wires with a diameter of at least 2.2. Mm to 3 mm, and tensile strength of 7 to 8 ton / cm 3 is preferably used.

According to another aspect of the present invention, a wall construction method of hanok, which forms a frame of a building with wooden pillars and is formed between the pillars, has a plurality of vertical axes and horizontal axes, and has a plurality of lattice shapes having a constant size in the horizontal and vertical directions. Forming a grid insertion space and manufacturing a lattice frame in which support spaces protruding to both sides of the block insertion space are formed; The chaff and adhesive are mixed at a volume ratio of 65:35 to 75:25 and put into a frame of a predetermined size, and a block panel manufactured by compressing and forming a size of 80 ± 2mm, 150 ± 2mm in length and 500 ± 2mm in length. Inserting the grid panel into the block insertion space of the grid frame, and installing the grid frame between the pillars; and fixing the grid frame installed between the pillars to the column and on both sides of the grid frame. After filling the finishing material dough in the formed support space, characterized in that consisting of a step of plastering.

The finishing material dough is good to use the mixture of ocher, sand, water and fiber reinforcement in a volume ratio of 2: 3: 2: 0.1.

The wall structure of the hanok according to the present invention has a vertical axis and a horizontal axis, and connects the crossing points of the vertical steel wires and the horizontal steel wires which are spaced apart at regular intervals on the vertical axis and the horizontal axis to connect a plurality of block insertion spaces inside. At the same time, forming a grid frame formed with support spaces on both sides of the block insertion space, inserting a block panel made of an environmentally friendly material into the block insertion space, installed between the pillars and then kneading the finishing material containing fiber reinforcement It is possible to simplify the construction of the walls of hanok by filling the support space with plaster to form walls. In addition, the block panel is blocked by mixing an adhesive consisting of chaff and starch as a main ingredient and plastered with a dough reinforcement containing fiber reinforcement to achieve excellent thermal insulation effect and to prevent wall cracking.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the invention can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. It should be noted that the embodiments of the present invention described below are intended to sufficiently convey the spirit of the present invention to those skilled in the art.

[Manufacture of Hanok Wall Panel]

1 is a perspective view of a structure of a lattice frame and a block panel inserted therein for constructing a wall of a hanok according to a preferred embodiment of the present invention, Figure 2 is a side view of the lattice frame shown in Figure 1, Figure 3 1 is a view for explaining a state in which the block panel is inserted into the block insertion space provided in the grid frame of FIG.

In FIG. 1 to FIG. 3, a portion indicated by reference numeral 10 is a grid frame according to an embodiment of the present invention, and includes a plurality of vertical steel wires 12, 14, 16, and 18 and at least two horizontal steel wires. (horizontal steel wires) 20 and 22 are three-dimensionally coupled to each other to form a block insertion space 26 therein, and support spaces 28 are formed on both sides.

The grid frame 10 is vertically spaced apart at a first interval and vertically extended and installed at equal intervals in the horizontal direction and a plurality of inner vertical steel wires (12, 14) and the outer side of the inner vertical steel wires (12, 14) A plurality of outer vertical steel wires 16 and 18 spaced apart in a second interval narrower than a first interval and extending in a vertical direction, and the first of the inner vertical steel wires 12 and 14 and the outer vertical steel wires 16 and 18. And the inner vertical steel wires 12 and 14 extending at regular intervals in the second horizontal direction and holding the inner vertical steel wires 12 and 14 and the outer vertical steel wires 16 and 18 in a lattice form and holding them in parallel at regular intervals. ) And a plurality of horizontal steel wires 20 and 22 fixedly connected to the outer vertical steel wires 16 and 18.

The horizontal steel wires 20 and 20 of the grid frame 10 have a length with the first horizontal steel wire 20 fixedly connected in the width-direction of the inner vertical steel wires 12 and 14 and the outer vertical steel wires 16 and 18. And a second horizontal steel wire 22 fixedly connected to each other in a direction, and the first and second horizontal steel wires 20 and 22 are disposed at the lower, upper and middle portions of the plurality of vertical steel wires 12 to 18 extending in the vertical direction. It is fixedly connected at equal intervals.

The fixed connection between the plurality of vertical steel wires 12 to 18 and the horizontal steel wires 20 and 22 may be fixed by welding or winding a wire binding member. The inner and outer vertical steel wires (12, 14) and (16, 18) and the horizontal steel wires (20, 22) are galvanized iron wire diameter of at least 2.2.mm ~ 3mm, tensile strength of 7 ~ 8ton / ㎠ It is preferable to use one.

In addition, the first interval between the inner vertical steel wire 12 and 14 constituting the lattice frame 10 shown in Figure 1 is suitable for 80mm ± 2, the inner vertical steel wire 12, 14 and its outer vertical The second interval between the steel wires (16, 18) is preferably set to 40 ± 2mm, the vertical installation spacing of the horizontal steel wire 20 provided in the width direction of the vertical steel wires (12 to 18) is 150 ± 2mm, longitudinal direction Installation interval of the horizontal steel wire 22 is preferably set to 75 ± 2mm. The distance between the inner and outer vertical steel wires 12 to 18 and the adjacent inner and outer vertical steel wires 12-1 to 18-1 can be 100 mm, thereby making the grid frame 10 more firm.

As described above, the plurality of vertical steel wires (12 to 18) are arranged on the vertical axis spaced apart, and the vertical wires 12 to 18 to hold the plurality of vertical steel wires at regular intervals, for example, the interval of 100mm ± 2 The first horizontal steel wire 20 is fixedly connected up and down in the width-direction of the steel wires 12 to 18, and is longitudinally connected to the outer vertical steel wires 16 and 18 provided on the outside of the vertical steel wires 12 to 18. By installing the second vertical steel wires 22 at regular intervals up and down, the inner vertical steel wires 12 and 14 and the first horizontal steel wires 20 fixedly coupled to each other as shown in FIGS. As shown in FIG. 3, a block insertion space 26 is formed, a point where the outer vertical steel wires 16 and 18 intersect the first horizontal steel wire 20, and a portion where the second horizontal steel wire 22 is fixedly connected to each other. The lattice frame 10 in which the support space 28 is formed is completed.

In the block insertion spaces 26 formed in the grid frame 10, the block panel 30 illustrated in FIGS. 1 and 3 is inserted and positioned. Width (width) and height (length) of the block panel 30 is 80 ± 2mm, 150 ± 2mm and the length is 500 ± 2mm, respectively. The block panel 30 is

The chaff and the adhesive are mixed in a volume ratio of 65:35 to 75:25 and put into a mold having a predetermined size to be compressed. In this case, the adhesive may be any one selected from the group consisting of any one selected from glutinous rice paste, corn starch, sun white, sun size, sun casta, gen size, Senn high-cat, Zen code, or a combination thereof as industrial starch. Can be. As above, the chaff mixed with the adhesive is put into the mold and pressed by applying a constant pressure to the mold to the pressure plate. At this time, the chaff is light and porous material is excellent in heat insulation effect. In addition, it is eco-friendly as a natural material, so it suits well to Hanok.

After inserting all of the block panel 30 in the block insertion spaces 26 formed in the grid frame 10 as shown in Figure 3, it is installed between the pillars of hanok to form a wall, as follows.

[Construction of Hanok Wall]

Figure 4 is a reference diagram showing a state installed between the two pillars of the hanok by interpolating the block panel in the lattice frame shown in Figure 1, Figure 5 finishes the wall with the finish kneading material on both sides of the lattice frame of Figure 4 This is a reference diagram explaining the process.

As described above, after all of the block panels 30 are inserted into the block insertion spaces 26 formed in the grid frame 10, a space for forming a wall, for example, is located between the pillars 45 of the hanok. Let's do it.

As shown in FIG. 4, after the grid panel 10 is installed between the two pillars 45 and the block panel 30 is inserted into the block insertion space 26 therein, the grid frame 10 and the pillar 45 are disposed. The filler 42 of synthetic resin is foamed to the contact portion to be in contact with each other so that there is no gap. By filling the filler 42, the gap between the pillar 45 and the wall to be completed later is removed by filling the contact surface where the pillar 45 of the hanok and the lattice frame 10 into which the block panel 30 is inserted abut. It is possible to achieve better heat insulation.

As shown in Figure 4, the block panel 30 is inserted into the block insertion space 26, and the outside of the body of the grid frame 10 installed between the pillars 45, the loess, sand, water and fiber reinforcement is properly mixed and kneaded After finishing the dough 40 is applied is plastered. At this time, the finishing material dough 40 is good to use a mixture of kneading ocher, sand, water and fiber reinforcement in a volume ratio of 2: 3: 2: 0.1. At this time, the fiber reinforcing agent is to be made of water-soluble fibers to improve the adhesion performance of the mixture of loess and sand, it is a reinforcing agent to improve crack control and flexural strength, flexural toughness and the like.

The finishing material dough 40 is to cross the inner vertical steel wires 12 and 14 of the grid frame 10 and the outer vertical steel wires 16 and 18 installed on the outside thereof, and the inner and outer vertical steel wires 12 to 18. The first horizontal steel wire 20 and the second horizontal steel wire 22 fixedly coupled to the support space 28 formed by being fixedly coupled as shown in FIG. 5 and then plastered. Here, the finish dough 40 means a finish layer.

Accordingly, the finishing material dough 40 filled in the support space 28 formed by the outer vertical steel lines 16 and 18 and the first horizontal steel line 20 and the second horizontal steel line 22 of the grid frame 10 is formed. It is attached firmly without falling off the outside of the grid frame (10). Then, the wall of the hanok is completed by leveling the surface of the finishing material dough 40 attached to the outside of the lattice frame 10 using a trowel or the like as shown in FIG. 5.

The wall structure of the hanok according to the present invention configured as described above is to put the block panel 30 made by mixing and compressing the chaff and adhesive in the block insertion space 26 formed inside the lattice frame 10 in a laminated form the frame of the wall After forming, by filling the surface of the mud dough 40 in the support space 28 formed on the outer side of the lattice frame 10 and plastering the surface has a simple and excellent thermal insulation.

Further, after installing the grid frame 10 in which the block panel 30 is interposed between the two pillars 45 of the hanok, the filler 43 of synthetic resin is provided on the contact surface where the pillar 45 and the grid frame 10 come into contact with each other. By filling the gap there is no gap between the pillar 45 and the grid frame 10, and by cracking the surface of the wall with a dough kneading material that is an ocher dough containing a fiber reinforcement can prevent the crack of the wall. Therefore, the wall of a hanok can be easily constructed, and the wall excellent in heat insulation effect can be completed.

1 is a perspective view of a block panel inserted into the structure of the lattice frame for constructing the wall of the hanok according to an embodiment of the present invention.

2 is a side view of the lattice frame shown in FIG.

3 is a view for explaining a state in which the block panel is inserted into the block insertion space provided in the grid frame of FIG.

Figure 4 is a reference diagram showing a state installed between the pillars of the hanok by interpolating the block panel in the lattice frame shown in FIG.

Figure 5 is a reference diagram illustrating a process of completing the wall with the finishing material dough on both sides of the grid frame of Figure 4;

<< explanation of the code about part of drawing >>

10: lattice frame, 12, 14, 16, 18: vertical steel wire

20, 22: horizontal steel wire, 26: block insertion space,
28: support space, 30: block panel,
40: finishing material kneading, 42: filler,
45: pillar

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Claims (7)

delete delete delete delete delete In the wall construction method of hanok to form a frame of the building with wooden pillars and formed between the pillars, Forming a plurality of lattice-shaped block insertion spaces having a plurality of vertical axes and horizontal axes and having a constant size in the horizontal and vertical directions, and manufacturing a lattice frame in which support spaces protruding to both sides of the block insertion space are formed; Inserting the block panel manufactured by mixing the chaff and the adhesive into a predetermined size and inserting the block panel into the block insertion space of the grid frame, and installing the grid panel with the block panel inserted between the pillars; Fixing the grid frame installed between the pillars to the pillar and filling the finishing material dough in the support space formed on both sides of the grid frame characterized in that the step of plastering the Hanok wall construction method. The method of claim 6, wherein the finishing material kneading is oak, sand, water and fiber reinforcement is a plastering method of the hanok, characterized in that the plastering by mixing in a volume ratio of 2: 3: 2: 0.1.

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