KR101930673B1 - Construction method of Thermal Breaking type apartment housing using heat insulation panel - Google Patents

Abstract

The present invention relates to a method for constructing a thermal bridge blocking apartment house using an insulation panel, the method comprising the steps of: forming a floor; forming an outer wall framework; forming an outer wall frame; forming an inner wall framework; forming an inner wall frame; forming an outer wall body in which an outer insulation material and an inner insulation material are integrated on the inner and outer sides; forming an inner wall body which is not directly connected to but is separated from the outer wall body by an insulation panel; and forming a ceiling. Cooling and heating efficiency can be improved.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a method of constructing a thermal-bridging apartment complex using an insulating panel.

Generally, a method of constructing a fireproof construction apartment block using insulation panels is an architectural structure including multi-family houses, apartments, and villas, and is divided into a plurality of layers, each having a plurality of generations, So that they can live in form.

Most of these apartment houses are reinforced concrete construction which is made of reinforced concrete and concrete in consideration of earthquake resistance, fire resistance and durability.

As described above, in the apartment house where the reinforced concrete structure is applied, in order to construct the outer wall body and the inner wall body including the pillars, the wall, the beams and the slab, a frame is formed, And the curing process is performed.

Then, the outer wall and the inner wall are connected to each other, and when the outer wall and the inner wall are completed, the form is disassembled and the insulation for preventing condensation and insulating function is formed on the outer wall.

However, since a step is formed due to the shape of the mold on the outer surface of the outer wall body, voids are generated between the heat insulating materials adhered to the outer surface of the outer wall, resulting in a significant decrease in the heat insulating performance.

In addition, there is a problem in that a large amount of water is leaked out from the concrete at the interval between the molds in the curing process after the concrete is laid, causing a lot of cracks after the curing and causing condensation and deteriorating the heat insulation function.

Also, even if the heat insulating material adheres to one surface of the outer wall body, since the outer wall body and the inner wall body are connected to each other without being separated, the thermal bridging phenomenon between the outer wall body and the inner wall easily occurs, And the cooling and heating efficiency is lowered.

On the other hand, in winter, when the cold air of the outer wall body is directly transferred to the inner wall and the temperature of the outer wall body, which corresponds to the temperature of the outside, is increased, the temperature of the room is increased, so that the consumption of heating energy is increased. There is a problem that the occurrence of condensation deepens.

In the summer, since the heat of the outer wall body is directly transferred to the inner wall of the room, even if the air conditioner is operated, it is difficult to control the room temperature and humidity.

Also, it is necessary to separately perform the construction of the outer wall body and the inner wall and the construction of the thermal insulation material, and to dismantle the form between the processes, so that it is difficult to shorten the construction time and increase construction manpower and cost.

Korean Registered Patent No. 10-1140884, Apr. 20, 2012 Registered as a person. Korean Registered Patent No. 10-0475544, Feb. 28, 2005 Registered as a person.

Disclosure of the Invention The present invention has been made to overcome the above-mentioned problems, and it is an object of the present invention to improve insulation performance, to enhance airtightness, minimize mold installation and dismantling work, to prevent condensation, to improve cooling and heating efficiency, It is an object of the present invention to provide a method of constructing a thermal bridging apartment complex using an insulating panel for constructing an outer wall of a house by using an insulating panel which also functions as a formwork so as to save manpower.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood from the following description.

In order to accomplish the above object, the present invention provides a method of constructing a heat-bridging inter-apartment house using a heat-insulating panel, comprising: a heat-insulating panel in which an external heat insulator and an internal heat insulator are connected to each other with a predetermined heat insulating space; Forming a floor by using a supporting panel connected to the floor panel; Forming an outer wall frame by arranging a reinforcing bar in a vertical direction along an outer line of the upper part of the floor and a generation separation line dividing the upper part of the floor; Forming the outer wall frame by placing the outer wall frame in the heat insulating space and continuously installing a plurality of the heat insulating panels up and down and left and right along the outer line and the generation line; Forming an inner wall frame by vertically arranging a reinforcing bar along an inner partition line partitioned at an upper portion of the floor inside the outer wall frame; Forming an inner wall frame by disposing the inner wall frame in the spacing space and continuously arranging the plurality of support panels along the inner partition line vertically and horizontally; Forming an outer wall body in which an outer heat insulator and an inner heat insulator are integrated on the inner and outer sides by pouring and curing concrete inside the heat insulating panel; Forming an inner wall separated from the outer wall by the heat insulating panel by separating the outer supporting material and the inner supporting material after pouring and curing concrete in the supporting panel; And forming a ceiling by connecting the outer wall body and the upper portion of the inner wall.

The step of forming the outer wall frame continuously comprises vertically and horizontally installing the outer thermal insulation material and the plurality of inner thermal insulation materials on the outer side and the inner side along the outer line and the generation line respectively with the outer wall frame therebetween; Maintaining the heat insulating space by inserting spacing holes into the external heat insulator and the internal heat insulator;

Tightly sealing up and down and right and left gaps between the external heat insulating materials and upper and lower and left and right gaps between the internal heat insulating materials with watertight plates; And a watertight hole is press-fitted between the gap retaining sphere and the external heat insulator and between the gap retaining sphere and the external heat insulator to tightly seal the gap between the gap retaining sphere and the external heat insulator and the gap between the gap retaining sphere and the internal heat insulator respectively step; And installing and reinforcing a plurality of stiffeners in the horizontal and vertical directions on the outer surface of the outer heat insulator and the inner surface of the inner heat insulator, respectively.

Wherein the step of forming the inner wall frame comprises: continuously installing the outer support material and the inner support material vertically and horizontally on the outer side and the inner side, respectively, along the inner partition line with the inner wall frame therebetween; Maintaining the spacing space by inserting spacing holes into the external support material and the internal support material; A step of pulling each of the spaces between the outer support members and the inner support member with a compression pulling port and tightly sealing the clearances between the outer support members and the inner support members; And a gap between the gap retaining member and the outer supporting member and a gap between the gap retaining member and the inner supporting member are respectively set to be Water tightening step; And a plurality of reinforcing members provided on the outer surface of the outer supporting member and the inner supporting member at intervals in the horizontal and vertical directions.

Wherein forming the floor comprises: forming a floor base surface; Forming a bottom frame by providing a plurality of the external heat insulating materials on the upper part of the floor base surface in the front, back, left and right horizontal directions; Placing a reinforcing bar horizontally on an upper portion of the bottom frame to form a bottom frame; Pouring and curing concrete on top of the bottom frame to form a bottom middle part; And completing the floor by continuously providing a plurality of the internal heat insulating materials in the front, rear, left and right horizontal directions on the upper part of the bottom middle part.

The forming of the ceiling comprises: forming a ceiling lower frame by continuously installing a plurality of the internal heat insulating materials on the upper and lower walls of the outer wall body and the inner wall in a horizontal direction; Forming a ceiling frame by horizontally arranging a reinforcing bar on an upper portion of the ceiling lower frame; Forming a ceiling intermediate part for laying and curing concrete on the ceiling frame; And completing the ceiling by continuously installing a plurality of the external heat insulating materials in the front, rear, left and right horizontal directions on the upper part of the ceiling intermediate part.

Wherein the edge portion, the intersection portion, and the branch portion existing in the contour line and the generation line are provided with the external heat insulator having a shape corresponding to the corner portion, the intersection portion and the branch portion, Respectively.

Wherein the outer support member and the inner support member each having a shape corresponding to the corner portion, the intersection portion, and the branch portion are used for the corner portion, the intersection portion, and the branch portion existing on the inner partition line .

The following effects can be expected in the method of constructing a thermal-bridge-blocking apartment house using the heat-insulating panel according to the present invention including the means for solving the above-mentioned problems.

First, the outer wall and the inner wall are separated by the insulating panel, and the ceiling, the floor and the inner wall are both enclosed by the heat insulating panel, the airtightness is maintained, And it is possible to provide a comfortable living environment by reducing the energy consumption and carbon generation by increasing the cooling and heating efficiency, and by easily adjusting the room temperature and humidity.

In addition, since the outer wall body is formed by using the die-integrated heat insulating panel, workability can be improved by eliminating the work of dismantling the formwork, the air can be shortened, and construction cost and manpower can be saved.

In addition, by eliminating the gap generated in the insulating panel and the support panel through the watertight plate, the compression towing hole and the watertight hole, the concrete is cured smoothly while maintaining the airtightness, thereby increasing the structural rigidity of the outer wall and the inner wall And the interlayer noise can be prevented.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a construction flowchart of a method of constructing a thermal bridging apartment building using an insulating panel according to the present invention; FIG.
2 is a detailed construction flowchart of a floor forming step included in a method of constructing a thermal bridging apartment building using an insulating panel according to the present invention.
3 is a detailed construction flowchart of an outer wall frame forming step included in a method of constructing a thermal bridging block apartment house using an insulating panel according to the present invention.
4 is a detailed construction flowchart of the inner wall frame forming step included in the method of constructing a thermal-bridge interrupting apartment house using the heat insulating panel according to the present invention.
5 is a detailed construction flowchart of a ceiling forming step included in a method of constructing a thermal bridging apartment building using an insulating panel according to the present invention.
FIG. 6 is a view illustrating an example of a floor forming step included in a method of constructing a thermal bridging apartment building using an insulating panel according to the present invention.
7 is a view illustrating an outer wall frame forming step included in a method of constructing a thermal bridging apartment building using the heat insulating panel according to the present invention.
8 is an exemplary view illustrating a step of forming an inner wall frame included in a method of constructing a thermal bridging block apartment house using an insulating panel according to the present invention.
FIG. 9 is an exemplary view showing an outer wall body and an inner wall wall formed by the method of constructing a thermal-bridging inter-apartment house using the heat insulating panel according to the present invention.
10 is an exemplary view illustrating a ceiling forming step included in a method of constructing a thermal-bridge-blocking apartment house using an insulating panel according to the present invention.
FIG. 11 is an exploded perspective view showing a heat insulating panel used in a method of constructing a heat-bridging inter-apartment house using the heat-insulating panel according to the present invention.
FIG. 12 is an exploded perspective view showing a support panel used in a method of constructing a thermal-bridge-blocking apartment house using an insulating panel according to the present invention.

The present invention relates to a method of constructing a thermal bridging apartment complex using an insulating panel, which is capable of exhibiting an excellent heat insulation function by preventing heat bridging, preventing condensation, reducing energy required for cooling and heating, and ensuring a comfortable living space.

Particularly, the method of constructing a heat-bridging inter-apartment house using the heat-insulating panel according to the present invention is characterized in that a floor, a ceiling, and an outer wall body are formed by using an insulating panel serving as a formwork, and the outer wall body is structurally separated from the inner wall, It is a big feature that it increases condensation and prevents condensation.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a method of constructing a thermal bridging apartment building using an insulating panel according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the method for constructing a thermal-bridge-blocking apartment house using an insulating panel according to a preferred embodiment of the present invention includes a bottom forming step S100, an outer wall framing forming step S200, an outer wall frame forming step S300, The wall frame forming step S400, the inner wall frame forming step S500, the outer wall forming step S600, the inner wall forming step S700, and the ceiling forming step S800.

11, the external heat insulating material 110 and the internal heat insulating material 120 are connected to each other through a heat insulating space to form a mold, as shown in FIG. 11, in the bottom forming step S100, the outer wall frame forming step S300, And the heat insulating panel 100 functioning as a heat insulating material can be used.

The external heat insulating material 110 and the internal heat insulating material 120 may be configured such that the inside heat insulating material 111 and the external heat insulating boards 112 and 122 are attached in a plywood form. The heat insulating materials 111 and 122 may be made of polystyrene or the like and the heat insulating boards 112 and 122 may be made of a CRC material or a magnesium material.

As shown in FIG. 12, the support panel 200 having the outer supporting member 210 and the inner supporting member 220 connected to each other with a spacing space may be used in the inner wall frame forming step S500 .

First, the bottom forming step S100 is a step of forming the floor 4 of each household constituting the apartment house. However, in a multi-family house, the floor 4 of each household can be a ceiling of a lower-floor household.

2 and 6, the bottom forming step S100 includes a bottom forming step S110, a bottom forming step S120, a bottom forming step S130, a bottom forming step S140, And a floor completion step S150.

The floor foundation forming step S110 is a step of forming the floor base surface 1 so that the floor is flat and horizontal.

In the step S120 of forming the bottom frame, a plurality of external heat insulators 110 are continuously installed in the front, back, left and right horizontal directions on the floor base 1 to form a bottom frame 2 .

At this time, the watertight plate 130 may be inserted between the external heat insulating materials 110 so as to prevent the gap between the external heat insulating materials 110 from being formed. To this end, a plate insertion groove 113 into which the watertight plate 130 is inserted may be formed on the peripheral surface of the external heat insulating material 110.

That is, by inserting the watertight plate 130 along the plate inserting grooves 113 in the front, rear, left and right directions between the external heat insulating materials 110, gaps between the external heat insulating materials 110 are reliably blocked, Lt; / RTI > Therefore, even if the concrete is poured into the upper part of the external heat insulating material 110, it is possible to prevent the moisture from flowing out to the outside.

In the step of forming a bottom frame (S130), a plurality of reinforcing bars are installed on the upper surface of the floor base in horizontal and vertical directions to form a floor frame (not shown).

In the step S140 of forming the bottom core, concrete is laid on the bottom of the bottom frame and cured to form the bottom core 3 constituting the bottom reinforced concrete structure.

The bottom finishing step S150 is a step of completing the bottom 4 by continuously providing a plurality of internal heat insulating materials 120 in the front, back, left and right horizontal directions on the upper part of the bottom core 3.

At this time, the watertight plate 130 is inserted in the front, rear, left and right directions along the plate insertion groove 123 between the inner heat insulating materials 120 so as not to generate a gap between the inner heat insulating materials 120.

Next, the outer wall frame forming step (S200) is a step of forming an outer wall frame structure constituting an outer wall body including pillars by arranging reinforcing bars in a vertical direction along a generation separation line separating the upper outer line of the floor (4) (Not shown).

Next, as shown in FIG. 7, the outer wall frame forming step S300 includes a step of forming a plurality of heat insulating panels 100 in the vertical and horizontal directions with the outer wall frame inside, 5).

At this time, the outer wall frame forming step S00 includes a step S310 for installing a heat insulating material, a step S320 for forming a heat insulating space, a step S330 for installing a watertight plate, a step S330 for installing a watertight seal, a step S340 for installing a watertight seal, (S350).

In the step S310, the plurality of external heat insulators 110 and the internal heat insulators 120 are installed vertically and horizontally on the outer side and on the inner side, respectively, along the outer line and the generation separation line with the outer- .

The heat insulating space forming step S320 may include inserting a space maintaining hole 140 into the external heat insulating material 110 and the internal heat insulating material 120 to fix the external insulating material 110 and the internal heat insulating material 120, .

At this time, through holes 114 and 122 are formed on the inside and the outside of the external heat insulating material 110 and the internal heat insulating material 120, through which the gap holding holes 140 pass. That is, the gap holding tool 140 is passed through the through holes 114 and 122 formed in the external heat insulating material 110 and the internal heat insulating material 120 and both ends of the gap maintaining hole 140 are connected to the external heat insulating material 110 A heat insulating space can be provided between the external heat insulating material 110 and the internal heat insulating material 120 by fixing the heat insulating material 120 to the heat insulating material 120.

The watertight plate mounting step S330 is a step of sealing the upper and lower and left and right gaps between the external heat insulating materials 110 and the upper and lower and left and right gaps between the internal heat insulating materials 120 with the watertight plate 130 and tightly sealing them.

At this time, the plate insertion grooves 113 and 121 may be recessed to correspond to the thickness of the watertight plate 130 on the circumferential surfaces of the external heat insulating material 110 and the internal heat insulating material 120. That is, the watertight plate 130 is vertically and horizontally inserted into the plate inserting groove 113 of the neighboring external heat insulator 110 and the plate inserting groove 123 of the internal insulator 120, Upper and lower, right and left gaps, and upper and lower and left and right gaps between the inner heat insulating materials 120 can be completely blocked.

In the watertight hole setting step S340, the watertight hole 150 is press-fitted between the gap maintaining hole 140 and the external heat insulating material 110, and between the space maintaining hole 140 and the internal heat insulating material 120 The gap between the gap maintaining hole 140 and the external heat insulating material 110 and the gap between the gap maintaining hole 140 and the internal heat insulating material 120 are sealed and tightly sealed.

Each of the watertightness holes 150 is inserted into the through holes 114 and 122 of the external heat insulating material 110 and the internal heat insulating material 120 in the state where the watertight hole 150 is extruded at both ends of the gap maintaining hole 140, The clearance between the gap maintaining hole 140 and the external heat insulating material 110 and the gap between the gap maintaining hole 140 and the internal heat insulating material 120 can be completely blocked.

In this case, the watertight plate installing step S330 and the watertight hole mounting step S340 completely block the gaps so that the concrete is poured between the external heat insulating material 110 and the internal heat insulating material 120, Is a step for securing insulation performance by completely separating the external heat insulating material 110 and the internal heat insulating material 120 so as not to be leaked to the outside through the gaps and securing the safety of the structure by preventing cracks after curing of the concrete.

The stiffener mounting step S350 may include installing a plurality of stiffeners 160 on the outer surface of the outer heat insulator 110 and the inner surface of the inner heat insulator 120 in a horizontal and vertical direction to reinforce the outer wall frame 5 .

That is, in the step of installing the reinforcing material (S350), the concrete is laid between the external heat insulating material 110 and the internal heat insulating material 120 and reinforced so that the external heat insulating material 110 and the internal heat insulating material 120 do not expand or collapse when the concrete is cured. Is a step for forming the outer wall body 7 in the form of a state.

At this time, the reinforcing member 160 may be formed with through holes 161 through which the joint members 170, which are respectively joined to both ends of the gap holding tool 140, pass through the inside and outside. That is, the stiffener 160 is positioned on the outer surface of the outer heat insulator 110 and the inner surface of the inner heat insulator 120 so that the end portion of the joint member 170 is inserted into the through hole 161 of the stiffener 160, (180) can be screwed and fastened at the end of the joint member (170) to be fastened and fixed to the external heat insulating material (110) and the internal heat insulating material (120).

Next, the inner wall frame forming step S400 includes the step of forming a wall frame (not shown) by vertically arranging the reinforcing bars along the inner dividing line partitioned at the upper part of the floor inside the outer wall frame 5 to be.

Next, as shown in FIG. 8, the inner wall frame forming step S500 includes a plurality of support panels 200 connected to each other along the inner dividing line by vertically and horizontally connecting the outer wall frame to the inner wall frame 6).

That is, a plurality of outer support members 210 and inner support members 220 constituting the support panel 200 are connected to the outer side and the inner side of the outer wall frame member by vertically and horizontally forming the inner wall frame 6 .

Here, the inner wall frame forming step S500 may include a supporting member mounting step S510, a spacing space preparing step S520, a crimp pulling hole mounting step S530, a watertight hole mounting step S540, And a stiffener mounting step (S550).

In the step S510, the plurality of external supporting members 210 and the internal supporting members 220 are continuously installed on the inner side and the outer side along the inner dividing line, to be.

The spacing space forming step S520 may include a step of inserting the spacing holder 230 into the plurality of outer supporting members 210 and the inner supporting member 220 to extend the outer supporting member 210 and the inner supporting member 220 Thereby providing a spacing space.

At this time, the through holes 211 and 221 through which the gap holder 230 penetrates are formed on the inner and outer sides of the outer support member 210 and the inner support member 220, respectively. That is, the gap maintaining tool 230 is passed through the through holes 211 and 221 formed in the external support material 210 and the internal support material 220, respectively, and both ends of the gap maintaining tool 230 are connected to the external support material 210 And the inner supporting member 220, a spacing space may be provided between the outer supporting member 210 and the inner supporting member 220.

In the step S530 of setting the compression attracting port, the space between the external supporting members 210 and the internal supporting member 220 are respectively pulled by the crimping pulling openings 240, And the gap between the inner supporting members 220 is intercepted and tightened.

At this time, the crimp drawing tool 240 is rotated in one direction at the first rotation angle in a state where it is connected between the outer support member 210 and the inner support member 220 at a first rotation angle, The outer support member 210 and the inner support member 220 are respectively pulled in a direction to cut off the clearance and are tightly fixed to each other according to the operation of rotating at two rotation angles, thereby ensuring water tightness.

The watertight hole setting step S540 is a step of pressing the watertight hole 250 between the gap maintaining hole 230 and the external supporting material 210 and between the space holding hole 230 and the internal supporting material 220, The gap between the gap maintaining member 230 and the external supporting member 210 and the gap between the gap maintaining member 230 and the internal supporting member 220 are blocked and tightened.

Each of the watertight holes 250 is inserted into the through hole 211 of the inner support member 220 and the outer support member 210 in a state where the watertight hole 250 is extruded at both ends of the gap maintaining hole 230 The gap between the gap maintaining member 230 and the external supporting member 210 and the gap between the gap maintaining member 230 and the internal supporting member 220 can be completely blocked.

Here, the compression towing hole setting step S530 and the watertight hole setting step S540 completely block the gaps to pour the concrete between the external supporting material 210 and the internal supporting material 220, And moisture is prevented from flowing out through the gaps.

The reinforcing material mounting step S550 may be performed by placing the concrete between the external supporting material 210 and the internal supporting material 220 and arranging the reinforcing material so that the external supporting material 210 and the internal supporting material 220 do not expand or collapse when the concrete is cured. (260) so as to form the inner wall body (8) in a state of the initial installation state.

At this time, through holes 261 through which the joint members 270 joined to the respective ends of the gap holding tool 230 can pass through the reinforcing material 260 may be formed in the inside and outside.

That is, the stiffener 260 is positioned on the outer surface of the outer support 210 and the inner surface of the inner support 220 so that the end of the coupling member 270 is inserted into the through hole 261 of the stiffener 260 The tightening member 280 may be screwed and fastened at the end of the coupling member 270 so that the outer supporting member 210 and the inner supporting member 220 can be pressed and fixed.

Next, in the outer wall forming step (S600), as shown in FIG. 9, concrete is poured and cured in the outer wall frame 5, so that the outer and inner heat insulating materials 110 and 120 are integrally formed on the inner and outer sides, The outer wall 7 including the outer wall 7 is formed.

However, the stiffener 160 and the joint member 170 are separated and removed in order to reinforce the external heat insulator 110 and the internal heat insulator 120. This completes the construction of the outer wall body 7 made of the outer heat insulating material 110, the reinforced concrete structure and the inner heat insulating material 120.

At this time, the heat insulating boards 112 and 122 are integrally attached to the one side of the heat insulating materials 111 and 121 so that the heat insulating boards 112 and 122 are cured after the concrete is cured. And the expansion coefficients of the heat insulating materials 111 and 121 are made uniform by structurally reinforcing the heat insulating materials 111 and 121 so that they are firmly integrated with the concrete.

Next, in the inner wall forming step S700, as shown in FIG. 9, the concrete is laid and cured in the inside of the supporting panel 200, and then the supporting panel 200 is separated and removed to form the inner wall formed only of the reinforcing concrete structure (8).

At this time, the reinforcing member 160 and the joint member 170 are separated from each other to reinforce the outer supporting member 210 and the inner supporting member 220, the outer supporting member 210 and the inner supporting member 220, . This completes the construction of the inner wall 8 made of reinforced concrete structure only.

As shown in FIG. 9, the outer wall body 7 and the inner wall body 8, which are completed here, are not directly connected to each other but are separated from each other with the inner heat insulating material 120 interposed therebetween. That is, the inner wall 8 is completely separated from the outer wall body 7, and the inner and outer surfaces of the outer wall body 7 are surrounded by the inner thermal insulating material 120 and the inner thermal insulating material 120 of the thermal insulating panel 100.

Finally, the ceiling forming step S800 is a step of forming the ceiling 11 including the slabs by connecting the outer wall 7 and the upper part of the inner wall 8 together. However, in the case of the apartment house, the ceiling 11 of each household can be the floor of the upper-floor household.

At this time, the ceiling forming step S800 may be performed by forming the ceiling lower frame forming step S810, the ceiling framing forming step S820, the ceiling intermediate forming step S830 and the ceiling finishing step S840 as shown in FIGS. And the like.

In step S810, a plurality of inner heat insulating materials 120 are installed in the upper and lower portions of the outer wall body 7 and the inner wall 8 in the horizontal and vertical directions to form a ceiling lower frame 9).

At this time, the watertight plate 130 may be inserted between the inner heat insulating materials 120 so that a gap is not formed between the internal heat insulating materials 120. To this end, a plate insertion groove 123 into which the watertight plate 130 is inserted may be formed on the circumferential surface of the internal heat insulating material 120.

That is, by inserting the watertight plate 130 along the plate inserting grooves 123 in the front, back, and right and left directions between the inner heat insulators 120, gaps between the inner heat insulators 120 are reliably blocked, Lt; / RTI > Therefore, even if the concrete is poured into the upper part of the inner heat insulating material 120, leakage of concrete water can be prevented.

The forming of the ceiling frame (S820) is a step of forming a ceiling frame (not shown) by horizontally arranging a plurality of reinforcing bars on the upper part of the ceiling lower frame 9.

In step S830, the ceiling frame 10 is formed by pouring and curing concrete on the top of the ceiling frame, thereby forming a reinforced concrete structure of the ceiling.

The ceiling completion step S840 is a step of completing the ceiling 11 by continuously providing a plurality of external heat insulating materials 110 on the upper part of the ceiling intermediate part 10 in the front, back, left and right horizontal directions.

At this time, the watertight plate 130 is inserted in the front, rear, left and right directions along the plate insertion groove 113 between the outer heat insulating materials 110 so as to prevent a gap between the external heat insulating materials 110.

The ceiling 11, the outer wall body 7 and the floor 4 of each household are separated from each other by the external heat insulator 110 and the internal heat insulator 120 of the heat insulating panel 100 And the inner wall 8 of each generation is completely separated from the outer wall body 7 by the inner heat insulating material 120 so that the airtightness can be maintained and the heat intersecting end is surely formed, Is greatly improved, condensation phenomenon is surely prevented, and interlayer noise can be eliminated.

The above-described embodiments are merely illustrative, and various modifications may be made by those skilled in the art without departing from the scope of the present invention.

Therefore, the true technical protection scope of the present invention should include not only the above embodiments but also various other modified embodiments according to the technical idea of the invention described in the following claims.

S100: floor formation step
S110: floor foundation forming step
S120: Step of forming a bottom frame
S130: floor framing step
S140: Step in formation of underfloor
S150: floor completion stage
S200: Step of forming outer wall frame
S300: Step of forming outer wall frame
S310: Insulation installation step
S320: Insulation space preparation step
S330: Watertight plate installation step
S340: Watertight Wearing Step
S350: Stiffener installation phase
S400: Step of forming a wall framework
S500: Step of forming a wall frame
S510: Support reinstallation step
S520: Step of preparing space for separation
S530: Crimp tow hole installation step
S540: Watertight hole installation step
S550: Stiffener installation phase
S600: External wall formation step
S700: Steps for forming a wall
S800: Ceiling formation step
S810: Ceiling underfill forming step
S820: Ceiling framing step
S830: Step in formation of ceiling during ceiling
S840: Ceiling completion stage
100: Insulating panel
110: External insulation
111: Insulation
112: Insulation board
113: plate insertion groove
114: Through hole
120: Internal insulation
121: Insulation
122: Insulation board
123: plate insertion groove
124: Through hole
130: Watertight plate
140:
150: Water mill
160: Stiffener
161: Through hole
170:
180: Fastener
200: Support panel
210: outer supporting member
211: Through hole
220: inner support member
221: Through hole
230:
240: Crimping Tractor
250: Water mill
260: Stiffener
270:
280: Fastener
1: floor base surface
2: Underfloor frame
3: In the middle of the floor
4: bottom
5: Outer wall frame
6: My wall frame
7: Outer wall
8: My wall
9: Ceiling underframe
10: Senior in the ceiling
11: Ceiling

Claims (7)

A heat insulating panel in which an external heat insulating material and an internal heat insulating material are connected to each other through a predetermined heat insulating space and a supporting panel in which an external supporting material and an internal supporting material are connected with a predetermined spacing space,
Forming a bottom;
Forming an outer wall frame by arranging a reinforcing bar in a vertical direction along an outer line of the upper part of the floor and a generation separation line dividing the upper part of the floor;
Forming the outer wall frame by placing the outer wall frame in the heat insulating space and continuously installing a plurality of the heat insulating panels up and down and left and right along the outer line and the generation line;
Forming an inner wall frame by vertically arranging a reinforcing bar along an inner partition line partitioned at an upper portion of the floor inside the outer wall frame;
Forming an inner wall frame by disposing the inner wall frame in the spacing space and continuously arranging the plurality of support panels along the inner partition line vertically and horizontally;
Forming an outer wall body in which an outer heat insulator and an inner heat insulator are integrated on the inner and outer sides by pouring and curing concrete inside the heat insulating panel;
Forming a separated inner wall by separating the outer supporting material and the inner supporting material by pouring and curing concrete in the inside of the supporting panel and not directly connecting with the outer wall by the heat insulating panel; And
And forming a ceiling by connecting the outer wall body and the upper part of the inner wall to completely isolate the outer wall from the inner wall in order to secure the thermal bridge interception to improve the heat insulation property and prevent the condensation. If possible,
The step of forming the inner wall frame
Continuously installing the external support material and a plurality of the internal support materials vertically and horizontally on the outer side and on the inner side along the inner partition line with the inner wall frame therebetween;
Maintaining the spacing space by inserting spacing holes into the external support material and the internal support material;
A step of pulling each of the spaces between the outer support members and the inner support member with a compression pulling port and tightly sealing the clearances between the outer support members and the inner support members;
And a gap between the gap retaining member and the outer supporting member and a gap between the gap retaining member and the inner supporting member are respectively set to be Water tightening step; And
And a plurality of reinforcing members provided on the outer surface of the outer supporting member and the inner supporting member at intervals in the horizontal and vertical directions,
The step of forming the floor
Forming a floor base surface;
Forming a bottom frame by providing a plurality of the external heat insulating materials on the upper part of the floor base surface in the front, back, left and right horizontal directions;
Placing a reinforcing bar horizontally on an upper portion of the bottom frame to form a bottom frame;
Pouring and curing concrete on top of the bottom frame to form a bottom middle part; And
And a step of completing a floor by continuously providing a plurality of the inner heat insulating materials in the front, back, left and right horizontal directions on the upper part of the bottom middle part,
The step of forming the ceiling
Forming a ceiling lower frame by continuously providing a plurality of the internal thermal insulation materials in the front, back, left and right horizontal directions on the outer wall and the inner wall;
Forming a ceiling frame by horizontally arranging a reinforcing bar on an upper portion of the ceiling lower frame;
Forming a ceiling intermediate part for laying and curing concrete on the ceiling frame; And
And installing the plurality of external thermal insulation materials in the horizontal direction in the front, rear, left and right sides of the ceiling to complete the ceiling. The method according to claim 1,
The step of forming the outer wall frame
Continuously installing the external insulation material and the plurality of internal insulation materials on the outer side and the inner side, respectively, along the outline line and the generation line;
Maintaining the heat insulating space by inserting spacing holes into the external heat insulator and the internal heat insulator;
Tightly sealing up and down and right and left gaps between the external heat insulating materials and upper and lower and left and right gaps between the internal heat insulating materials with watertight plates;
And a watertight hole is press-fitted between the gap retaining sphere and the external heat insulator and between the gap retaining sphere and the external heat insulator to tightly seal the space between the space retaining sphere and the external heat insulator and the gap between the space insulator and the internal heat insulator respectively step; And
And installing and reinforcing a plurality of reinforcing materials in the horizontal and vertical directions on the outer surface of the external heat insulator and the internal surface of the internal heat insulator, respectively. delete delete delete 3. The method of claim 2,
In the continuous installation step
And the external heat insulator and the internal heat insulator each having a shape corresponding to the corner portion, the intersection portion and the branch portion are respectively used in the corner portion, the intersection portion and the branch portion existing in the outline line and the generation line, A Method of Construction of Apartment Building with Thermal Bridging Using Insulation Panel. The method according to claim 1,
In the continuous installation step
Wherein the outer supporting member and the inner supporting member each having a shape corresponding to the corner portion, the intersecting portion and the branching portion are used for the corner portion, the intersection portion and the branching portion existing on the inner division line, A Method for Construction of Apartment Blocks for Thermal Bridging Using Panels.

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