KR101618341B1 - Prefabricated house and member of prefabricated house that use EPS panel - Google Patents

Abstract

The present invention relates to a prefabricated house and a prefabricated house member using high density expanded polystyrene (EPS), and more particularly, to a prefabricated house made of a panel made of high density foamed polystyrene and capable of building a lightweight, , A high density EPS panel composed of high density foamed polystyrene and lightweight concrete used for constructing such a prefabricated house, a joining plate used for joining them, and a fastening screw. The prefabricated house member is made of a predetermined thickness, Density EPS panels, wherein a screw-tightening pipe passing through an outer surface and an inner surface of the EPS panel is formed at a uniform interval in the vicinity of an end of the EPS panel. The high-density EPS panel can be realized as a member for a prefabricated house using high density foamed polystyrene. The Density EPS panels can be manufactured by using a combination of foamed polystyrene and lightweight concrete, and this high-density EPS panel is capable of controlling the heat insulation performance for the purpose of the building Effect and self-stiffness.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a prefabricated house and a prefabricated house using EPS,

The present invention relates to a prefabricated house and a prefabricated house member using high density expanded polystyrene (EPS), and more particularly, to a prefabricated house made of a panel made of high density foamed polystyrene and capable of building a lightweight, Density EPS panels made of high-density foamed polystyrene and lightweight concrete used for constructing such prefabricated houses, and joint plates and fastening screws used for joining them.

The prefabricated house is one of the disinfestations to build the building by the dry method, and the various members used in the construction are produced in the factory and then the members are assembled only in the construction site.

Buildings constructed in the form of a double dome or a tunnel may be used as temporary accommodation for military or construction companies, used as exhibition facilities in various exhibitions, and used as agricultural cultivation facilities.

The prefabricated house may be made of the same material as the sandwich panel, but recently, a panel of a predetermined size is manufactured using high-density expanded polystyrene (hereinafter referred to as high density EPS), and then the EPS panels are combined to produce a building. Dry-bit construction method is completed to complete the building.

In this case, the high-density EPS panel has a characteristic of being able to maintain the shape of the building without a separate steel structure when the thickness is 100 mm or more, because the rigidity of the high density EPS panel is sufficient. Accordingly, it is possible to complete the structure by merely continuously joining these high-density EPS panels, and it is also possible to produce a fast and inexpensive building since it is not necessary to construct a separate frame.

Furthermore, when a finished building using high density EPS panels has a semicircular dome shape or a tunnel shape, it is structurally advantageous in that it is safe from natural disasters such as typhoons and earthquakes due to increased seismic resistance and wind resistance. In addition, due to the characteristics of the high-density EPS panel, heat transfer is completely blocked, and thus it is very easy to artificially control the internal temperature and humidity.

In this way, it is easy to construct a building using a high-density EPS panel, which is structurally safe and does not require a separate steel structure to be used as a frame, when it is used for residential use. When used as an agricultural facility, it is possible to cultivate various plants with low energy cost regardless of the season, thereby enhancing the farming competitiveness of farmers.

Conventional high-density EPS panels are manufactured in a round shape to fit dome and tunnel-shaped buildings, and are manufactured with a thickness of about 150 mm. The bonding with the neighboring high density EPS panels is done using adhesives or fastened by fastening screws.

In the case of using a fastening screw, work was performed in such a manner that a joining metal plate was sandwiched between neighboring panels, and a screw was joined so that the panels on both sides and the metal plate were not separated.

However, since the shape of the metal plate is not uniform, and there is no separate screw fastening portion on the panel, fastening of the fastening screw has only to depend on the skill of the operator.

For this reason, there has been a problem in that construction of a building using a high-density EPS panel in the field is not performed as quickly as the theory. In addition, prefabricated houses used as simple accommodation in military and construction sites should be disassembled and moved to other places after installation. However, since the adhesive was assembled by using a metal plate and a fastening screw which are not formed with an adhesive, disassembly was not easy.

In addition, the high-density EPS panel, which has been joined with a non-standardized metal plate and a fastening screw, is damaged by threading when a fastening screw is installed at a portion where a fastening screw is installed. Therefore, there is a problem that the fastening screw can not be installed at the place where the existing fastening screw is installed when re-installing.

Due to these various reasons, it is a reality that the number of movable installation is limited or the movable installation is impossible in the assembled house using the existing high density EPS panel.

In addition, a sufficient thickness must be secured in order for the high-density EPS panel to be able to form the building with self-supporting rigidity without the aid of a framework such as a steel structure. When a high density EPS panel is manufactured to a sufficient thickness, there is an advantage that a heat shield effect increases and ultimately an energy consumption efficiency is lowered. However, there is a problem that the cost of manufacturing a high density EPS panel increases.

Therefore, there is a demand for a technique for manufacturing a high density EPS panel having sufficient thickness for insulation, securing its own rigidity, and manufacturing an inexpensive but robust high density EPS panel.

Although the prefabricated houses using the high-density EPS panels and the prefabricated house panels have many advantages, the supply is continuously expanding, but it has problems to be solved in terms of convenience of construction and demolition and reduction of the manufacturing cost It is a reality.

Patent application 10-2008-7003371 (filing date 2008, 02, 12) Patent Registration No. 10-1068693 (Registration date 2011, 9, 22)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a prefabricated house and a prefabricated house member using a high density EPS panel which is easy to assemble and disassemble and which can be repeatedly used.

To this end, it is an object of the present invention to provide a high-density EPS panel with a composite material of foamed polystyrene and other materials to reduce the production cost and to obtain a heat insulation performance suited to the use of the building.

In addition, the objective is to manufacture a prefabricated house at a lower cost than previous ones by producing the same or similar weight and strength as existing high density EPS panels.

In addition, it is an object to provide a prefabricated house capable of repeatedly installing and disassembling, as well as quickly and easily assembling and disassembling the high density EPS panels.

The present invention relates to a prefabricated house member manufactured using high-density expanded polystyrene. In the prefabricated house member, a screw-tightening pipe passing through the outer surface and the inner surface is formed at a predetermined thickness and adjacent to the upper, It is possible to realize a prefabricated house member using high density foamed polystyrene which is an EPS panel.

In addition, the high-density EPS panel has a coupling protrusion protruding outward from an upper end and a side face of the high-density EPS panel, and a coupling groove into which a coupling protrusion is inserted and inserted into the lower end and the other side face of the high-density EPS panel. It is feasible.

In addition, the high-density EPS panel can be realized as a prefabricated house member using a high-density foamed polystyrene, wherein a hollow portion is formed at the center of the coupling groove on the side and a lightweight concrete block having bubbles formed therein is formed in the hollow portion.

In addition, the threaded fastening pipe can be realized as a prefabricated house member using a high density foamed polystyrene, wherein a threaded portion is formed on an outer surface and an inner surface of the high density EPS panel so that a screw head is not projected to the outside.

In addition, the high-density EPS panels are fastened by a fastening plate coupled to a neighboring screw fastening pipe, the fastening plate being inserted into the screw insertion portion of the screw fastening pipe at both ends of the parallel plate, Shaped housing member using high-density expanded polystyrene, which is formed of a screw fastening plate formed with a screw hole and bent in an 'L' shape.

In addition, the threaded fastening pipe is formed with an insertion slot in a straight line from one side to the center of the inside, and at the center there is formed a fastening slot which is perpendicular to the insertion slot and a 'T' shape, And a fixing protrusion for moving and fixing the fixing screw inserted into the fastening slot of the screw fastening pipe is formed at the center of the screw fastening pipe, thereby realizing a prefabricated house member using the high density foamed polystyrene.

Wherein the screw fastening plate of the coupling plate is formed with a watertight portion protruding from both a portion of the screw fastening plate that is in contact with the screw head of the fastening screw and a portion of the screw fastening pipe that is in contact with the end of the screw insertion portion. It is possible to realize by member.

In addition, a high-density EPS panel is stacked in a semicircular shape, and laminated panels are combined with each other so as not to be separated from each other to form a dome or a tunnel. In the prefabricated house, a coupling protrusion protruding outward is formed on the top and one side surface, And the other side surface is formed with a coupling groove into which the coupling protrusion is inserted and a screw coupling pipe which penetrates from the outer surface to the inner surface and has screw insertion portions at both ends thereof is formed at a uniform interval, A high-density EPS panel having a hollow portion penetrating through the coupling groove portion of the side surface and having a lightweight concrete block formed in the hollow portion thereof, a parallel plate contacting the exterior of the high-density EPS panel, Is inserted into the threaded portion of the pipe, and a screw hole is formed at the end portion thereof. And a fastening screw which is inserted into the screw fastening pipe of the high density EPS panel and fastens the screw fastening plate to the screw insertion part of the screw fastening pipe to fix the high density EPS panels to each other. Can be realized as a prefabricated house using high-density expanded polystyrene.

In addition, the threaded fastening pipe is formed with an insertion slot in a straight line from one side to the center of the inside, and at the center there is formed a fastening slot which is perpendicular to the insertion slot and a 'T' shape, And a fixing protrusion for moving and fixing the fixing screw inserted into the fastening slot of the screw fastening pipe is formed at the center side of the screw fastening pipe, thereby realizing a prefabricated house using the high density foamed polystyrene.

INDUSTRIAL APPLICABILITY The present invention facilitates assembly and disassembly of a high-density EPS panel, and can be repeatedly used.

In addition, since the foamed polystyrene and the lightweight concrete are used in combination to reduce the production cost of the high density EPS panel, the high density EPS panel has the effect of controlling the heat insulation performance to meet the use of the building and having the self-rigidity .

In addition, while maintaining the same or similar weight and strength as existing high-strength EPS panels, they can be manufactured at a lower cost than the existing ones, thereby making it possible to manufacture a prefabricated house at a low cost.

In addition, it is possible to provide a prefabricated house which can be easily assembled and disassembled and can be repeatedly installed and disassembled.

1 is a perspective view illustrating a high density EPS panel according to an embodiment of the present invention,
FIG. 2 is a front view of the high density EPS panel of FIG. 1;
Fig. 3 is a perspective view taken along the line BB of Fig. 2,
4 is a sectional view taken along the line AA in Fig. 2,
5 is a partial cross-sectional perspective view of the high-density EPS panel of Figs. 1-2,
FIG. 6 is an assembled view for explaining a coupling relation of a high-density EPS panel according to an embodiment of the present invention,
7 is a perspective view illustrating a coupling plate according to an embodiment of the present invention,
FIG. 8 is a perspective view showing a screw tightening pipe and a fastening screw according to another embodiment of the present invention, FIG.
FIG. 9 is a perspective view photograph showing a prefabricated house according to an embodiment of the present invention,
FIG. 10 is a photograph for a perspective view illustrating a prefabricated house block to which a prefabricated house member according to an embodiment of the present invention is coupled.

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

First, the present invention relates to a prefabricated house and a prefabricated house member using high density expanded polystyrene (EPS), which is lightweight, high strength, and can be rapidly constructed without any additional frame.

1 to 6, the member of the prefabricated house comprises an engaging plate 30 used to engage a high density expanded polystyrene (EPS) panel 10 (hereinafter referred to as a high density EPS panel) and a high density EPS panel 10, And is formed with a fastening screw 40.

The high-density EPS panel 10 is formed to have a predetermined thickness. Screw-tightening pipes 20 passing through the outer surface and the inner surface are formed at regular intervals in the vicinity of the upper, lower, left, and right outer ends.

The screw fastening pipe 20 is formed for quickly joining and separating the adjacent high density EPS panels 10 and when the screw fastening pipe 20 is formed, the fastening screw 40 is inserted into the screw fastening pipe 20, Density EPS panels 10 can be joined and separated at a constant operation speed even if they are not skilled workers.

In order to form the screw fastening pipe 20 adjacent to upper, lower, left, and right ends of the high density EPS panel 10, the screw fastening pipe 20 may be inserted after the surface of the finished high density EPS panel 10 is punched. However, if the high-density EPS panel 10 is foamed after the screw-fastening pipe 20 is positioned in a mold (not shown) in the process of forming the high-density EPS panel 10 for the convenience of the manufacturing process, 10 can be integrally and firmly positioned.

The high density EPS panel 10 is preferably formed in a continuous arch shape so that the cross section of the building is semicircular. Therefore, even though each high-density EPS panel 10 is coupled by the coupling plate 30 and the fastening screw 40, it is more advantageous to be able to form the shape of the building by its own coupling structure at the time of assembly .

For this purpose, it is preferable that the high-density EPS panel 10 has an engaging projection 11 projecting outwardly from the upper end and one side face thereof, and a coupling groove 12 into which the engaging projection 11 is inserted is formed on the lower and the other side faces .

In the case where the coupling protrusions 11 and the defect grooves 12 are formed on the upper and lower and right and left ends of the high density EPS panel 10 to be engaged with the adjacent high density EPS panels 10, The structure of the building can be formed by merely joining the panel 10.

Therefore, when only the EPS panel 10 is assembled when the building is assembled, only the engaging plate 30 and the fastening screw 40 are coupled to the screw fastening pipe 20 after completing the shape of the building, Can be expected.

The high-density EPS panel 10 thus formed is lighter and stronger than other building members, and has a superior heat insulating effect. However, in order to maintain the shape of the building, the high-density EPS panel 10 may be manufactured to have a thickness that exhibits more than necessary heat capacity. That is, even if it is independent of whether it is made thinner due to its high insulation performance, it can be manufactured to have a thickness exceeding the heat insulating performance in consideration of the structure of the building.

The high-density EPS panel 10 manufactured to have a thickness exceeding the adiabatic performance has a problem in that the material cost is increased and the manufacturing cost is increased.

Accordingly, in the present invention, the high-density EPS panel 10 is mixed with other materials so that the required heat insulation performance and strength can be maintained, but the manufacturing cost can be reduced. To this end, a hollow portion 103 is formed at the center of the coupling groove 12 on the side surface of the high density EPS panel 10 of the present invention, and a lightweight concrete block 110 is formed in the hollow portion 103.

The lightweight concrete block 110 is formed using already popularized foamed cement, and it can control the amount and distribution of bubbles, so that the volume and specific gravity can be adjusted to a user's intention within a certain range.

Therefore, in the process of molding the high density EPS panel 10, the hollow part 103 penetrating from the side of the coupling groove 12 to the center is formed, and after the molding of the high density EPS panel 10, The foamed cement mortar is poured and fixed to form the lightweight concrete block 110.

The lightweight concrete block 110 thus formed is manufactured in a mass similar to that of the high density EPS panel 10 due to a large amount of pores formed by bubbles. Accordingly, the thickness and strength of the high density EPS panel 10 can be increased while the use of the high density EPS material is suppressed, and the heat insulation performance can be maintained at an optimal level.

The high density EPS panel 10 according to the present invention is fastened and separated by the fastening screw 40 and the fastening plate 30 and is fastened to the high density EPS panel 10 by fastening screws A fastening pipe 20 is formed.

In addition, a screw inserting portion 210 may be formed on the outer surface and the inner surface of the high-density EPS panel 10 at both side ends thereof. The screw inserting portion 210 is connected to the screw connecting pipe 20 by a step 211 and is formed in a wedge shape so that the height of the screw inserting portion 210 is set to a height enough to completely insert the screw head 41 of the fastening screw 40 .

The screw inserting portion 210 is formed in consideration of the case of applying the finishing material to the outside to permanently use the prefabricated house 1 and the appearance of the finishing material. When the finishing material is applied to the outside, the finishing material is applied with a uniform thickness To make it possible.

When the screw head 41 of the fastening screw 40 protrudes from the outside of the high density EPS panels 10 in the case of aesthetic appearance, a bad appearance may be imparted to the screw head 41 to prevent the screw head 41 from being exposed to the outside .

Referring to FIGS. 4 to 7, the high density EPS panels 10 are fixed by a fastening screw 40 and a fastening plate 30 coupled to a neighboring screw fastening pipe 20. The coupling plate 30 used in the present invention is manufactured by molding a metal plate or a plastic plate, and includes a parallel plate 310 and a screw coupling plate 320 as main components.

The parallel plate 310 is in contact with the outside of the high density EPS panel 10 and is manufactured to have a predetermined length so as to generate a coupling force between the screw fastening pipes 20 of the both high density EPS panels 10, ) Is not separated.

The screw fastening plate 320 has a screw hole 321 formed at the center thereof and is engaged with a fastening screw 40 which is coupled to the screw fastening pipe 20 of the high density EPS panel 10. When the screw inserting portion 210 is formed at the end of the screw inserting pipe 20, the screw inserting plate 320 is also formed to be bent in an L shape corresponding to the shape of the screw inserting portion 210 desirable.

At this time, it may be considered that the water tight portion 323 is formed in the screw fastening plate 320. In the prefabricated house 1 used as a building, the entry of rainwater or the like from the outside must be thoroughly blocked.

However, the high-density EPS panels 10 according to the present invention are formed so that the inside and the outside of the high-density EPS panels 10 are penetrated by a plurality of screw- Therefore, there is sufficient room for the external rainwater to flow into these penetrated places.

In view of this, there is a need to quickly and without blocking it. For this purpose, in the present invention, the watertight portion 323 may be formed on the screw fastening plate 320 of the coupling plate 30. [ The watertight portion 323 has a circular band which protrudes to both sides of the portion contacting the screw head 41 of the fastening screw 40 and the step 211 of the screw insertion portion 210 of the screw fastening pipe 20, It is versatile in shape.

The watertight portion 323 protruding downward forms a watertight seal while being in contact with the screw head 41 and the watertight portion 323 protruding downward is pressed against the screw inserting portion 210 of the screw fastening pipe 20, To form watertightness.

The watertight portion 323 is compressed by being coupled with the fastening screw 40 to the screw insertion portion 210, and the shape of the watertight portion 323 is deformed to form a watertight structure.

The threaded fastening pipe 20 may be formed with an insertion slot 221 in a linear direction from one side to the center of the interior thereof. A fastening slot 222 may be formed.

In addition, the fastening screw 40 is formed with threads 42 at both sides thereof, and at the center thereof, a fixing protrusion 43 inserted into the insertion slot 221 of the screw fastening pipe 20 and the fastening slot 222 is protruded outward .

The reason why the insertion slot 221 and the fastening slot 222 are formed in the screw fastening pipe 20 and the fastening protrusion 43 is formed on the side of the fastening screw 40 is that the screw fastening can be performed more quickly .

To describe it again, the fixing protrusion 43 positioned on the side of the clamping screw 40 is aligned with the insertion slot 221 and then the clamping screw 40 is moved to a certain depth and the clamping screw 40 is rotated to the side The fixing protrusion 43 is moved to the fastening slot 222. [ Therefore, the fastening screw 40 is positioned at the center of the screw fastening pipe 20 without any additional support while the fastening protrusion 43 is positioned in the fastening slot 222.

That is, the operator can install a plurality of fastening screws 40 in the plurality of screw fastening pipes 20 of the high-density EPS panel 10 without fixing the fasteners to the fastening screws 40 in order .

At this time, the fastening screw 40 is restricted in the flow of the fastening protrusion 43 in the fastening slot 222, so that even if only one female thread is rotated, the fastening screw 40 is fixed.

Therefore, the operator can complete the fixing operation of the fastening screw 40 inside or outside without moving the inside and outside of the prefabricated house 1 alternately, and then move to the other side to finish the work.

Hereinafter, the construction of the prefabricated house 1 using the prefabricated house member using the high-density expanded polystyrene according to the embodiment of the present invention constructed as described above will be described in detail with reference to the accompanying drawings.

1 to 10, a prefabricated house 1 according to the present invention is formed of a high density EPS panel 10, a coupling plate 30, and a fastening screw 40. To this end, a foundation floor must be formed at a place where the prefabricated house 1 is installed, and a prefabricated house 1 having a semi-circular cross-sectional shape is installed at the finished floor.

The high density EPS panel 10 constituting the assembled house 1 has a semicircular shape in cross section and is combined with a neighboring high density EPS panel 10 to be formed into a dome or a tunnel shape. The high-density EPS panel 10 has a coupling protrusion 11 protruding outward from an upper end and a side surface of the high-density EPS panel 10, and a coupling groove 12 through which the coupling protrusion 11 is inserted.

Therefore, the high-density EPS panel 10 is joined to the neighboring ones by the engaging projections 11 and the engaging grooves 12 to be engaged with each other to have a constant size so as to maintain the shape of the building.

In the high-density EPS panels 10, screw-tightening pipes 20 penetrating through the outer and inner surfaces are formed at regular intervals in the vicinity of upper, lower, left, and right outer ends, A portion 210 is formed. The interior of the high density EPS panel 10 is formed with a hollow portion 103 penetrating through the coupling groove 12 of the side surface and a lightweight concrete block 110 formed inside the hollow portion 103.

The connection of the high density EPS panels 10 is performed by a coupling plate 30 composed of a parallel plate 310 and a screw fastening plate 320 bent into an L shape to be inserted into the screw insertion part 210 and a fastening screw 40 ).

The prefabricated house 1 having the lightweight concrete block 110 therein can minimize the energy consumption due to the heat insulation performance of the high density EPS panel 10 and the effect that the lightweight concrete block 110 can be applied to the high density EPS panel 10 So that it can be produced at low cost.

In addition, the coupling plate and fastening screw 40 can be quickly fastened to the screw fastening pipe 20 formed in the high-density EPS panel 10, so that the prefabricated house 1 can be completed in a short time, The prefabricated house 1 can be easily disassembled simply by removing the fastening screw 40 which has been fastened to the fastening screw 40 and separating the fastening screw 40 and the fastening screw 40 from the screw fastening pipe 20.

Therefore, the assembled house 1 can be installed by moving the high density EPS panel 10, the coupling plate 30 and the fastening screw 40 to another place.

The threaded fastening pipe 20 may be formed with an insertion slot 221 in a straight line from one side to the rearmost center. The insertion slot 221 is formed at the center with a fastening slot 222, Can be formed. In addition, it is preferable that the fastening screw 40 is formed with threads 42 on both sides and a fixing protrusion 43 inserted into the insertion slot 221 and the fastening slot 222 is formed at the center side.

As described above, when the insertion slot 221 and the fastening slot 222 are formed in the screw fastening pipe 20 and the fastening protrusion 43 is formed on the side of the fastening screw 40, Is inserted into the screw clamping pipe (20) and fixed by the fastening slot (222).

The high density EPS panel 10 is laminated in a circular arc shape and joined together by the coupling projections 11 and the coupling grooves 12 and then only the fastening screws 40 are installed on the screw fastening pipes 20 do. At this time, the fixing screw 43 is fastened to the fastening slot 222 of the screw fastening pipe 20 so that the fastening screw 40 does not come off the screw fastening pipe 20.

Therefore, the operator completes the installation of the prefabricated house 1 by connecting both sides of the joint plate 30 to the fastening screw 40 and fastening the female screw.

On the contrary, when dismounting the mounted house 1 installed, remove only the female screw connected to the fastening screw 40 with the tool. The high density EPS panels 10 are held in the shape of the high density EPS panels 10 without being collapsed because the fastening projections 11 and the fastening grooves 12 of the high density EPS panels 10 are fitted to each other.

Therefore, the operator separates the high-density EPS panel 10 in a predetermined unit, separates the high-density EPS panel 10 from the floor one by one, and finalizes the disassembly by finally separating the fastening screw from the screw fastening pipe 20.

The present invention has been described in detail by way of examples. However, the present invention is not limited to the above embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the appended claims and the appended claims. All equivalents to the modifications should be regarded as falling within the scope of the present patent.

1: Prefab house 10: High density EPS panel
11: engaging projection 12: engaging groove
101: outer surface 102: inner surface
103: hollow part 110: lightweight concrete block
20: screw fastening pipe 210: screw insertion part
221: insertion slot 222: fastening slot
30: coupling plate 310: parallel plate
320: screw fastening plate 321:
323: watertight portion 40: fastening screw
41: screw head 42: threaded
43: Fixing projection

Claims (9)

A prefabricated house member made of high-density foamed polystyrene,
A high density EPS panel which is manufactured to have a predetermined thickness and in which a screw fastening pipe passing through the outer surface and the inner surface is formed at a uniform interval in the vicinity of the outer ends of the upper,
Wherein the threaded fastening pipe is formed with a threaded inserting portion for preventing the threaded head from protruding outward from the outer surface and inner surface of the high density EPS panel,
The threaded fastening pipe has an insertion slot formed in a straight line from one side to an inner center, and a fastening slot formed at a center of the insertion slot at a right angle to a 'T'
Wherein the fastening screw inserted into the screw fastening pipe is formed with threads on both sides thereof, and at the center thereof is formed a fastening protrusion inserted into the fastening slot of the screw fastening pipe to be moved and fixed,
The high density EPS panel is formed in a continuous arch shape so that the cross section of the building is semicircular,
Wherein the fastening screw is located at the center of the screw fastening pipe without any additional support while the fastening protrusion is located in the fastening slot,
The fastening slot is formed in a part of the circumferential surface of the threaded fastening pipe so that the fastening protrusion of the fastening screw is restricted in the fastening slot so that the fastening screw is fixed even when only the female thread engaged with one side of the fastening screw is rotated A prefabricated house member using high density foamed polystyrene. The method according to claim 1,
Wherein the high density EPS panel has a coupling protrusion protruding outward from an upper end and a side face of the high density EPS panel, and a coupling groove through which a coupling protrusion is inserted and inserted into the lower end and the other side face of the high density EPS panel. 3. The method of claim 2,
Wherein the high-density EPS panel has a hollow portion formed at the center of the coupling groove at the side thereof, and a lightweight concrete block having bubbles formed therein at the hollow portion. delete The method according to claim 1,
The high-density EPS panels are fastened by a coupling plate coupled to an adjacent threaded pipe,
The joint plate is formed by a parallel plate contacting the outside of the high density EPS panel and a screw fastening plate inserted into the screw insertion portion of the screw fastening pipe at both ends of the parallel plate, Prefabricated house member using high density foamed polystyrene. delete 6. The method of claim 5,
Wherein the screw fastening plate of the coupling plate is formed with a watertight portion protruding to both sides of a portion of the screw fastening plate which is in contact with the screw head of the fastening screw and a portion of the screw fastening pipe which is in contact with the end of the screw inserting portion. In a prefabricated house in which a high-density EPS panel is stacked in a semicircular shape and laminated panels are combined with each other so as not to be separated from each other to form a dome or a tunnel,
And an engaging protrusion protruding outwardly is formed on an upper surface and a side surface of the upper surface, and an engaging groove is formed on the lower surface and the other side surface of the engaging protrusion, A high density EPS panel in which a hollow portion formed with a screw insertion pipe is formed at uniform intervals, a hollow portion penetrating through the coupling groove portion of the side surface, and a lightweight concrete block is formed in the hollow portion;
Density EPS panels; a parallel plate contacting the outside of the high-density EPS panel; a screw hole inserted at both ends of the parallel plate into the screw insertion portion of the screw fastening pipe and having an L shape A coupling plate formed of a bending screw-coupling plate,
And a fastening screw inserted into the screw fastening pipe of the high density EPS panel and fastening the screw fastening plate to the screw insertion part of the screw fastening pipe to fix the high density EPS panels together,
The threaded fastening pipe has an insertion slot formed in a straight line from one side to an inner center, and a fastening slot formed at a center of the insertion slot at a right angle to a 'T'
Wherein a screw thread is formed on both sides of the fastening screw inserted into the screw fastening pipe and a fixing protrusion is formed on the side of the center at a center of the fastening screw to be inserted into the fastening slot of the screw fastening pipe,
Wherein the fastening screw is located at the center of the screw fastening pipe without any additional support while the fastening protrusion is located in the fastening slot,
The fastening slot is formed in a part of the circumferential surface of the threaded fastening pipe so that the fastening protrusion of the fastening screw is restricted in the fastening slot so that the fastening screw is fixed even when only the female thread engaged with one side of the fastening screw is rotated Prefabricated houses using high density foamed polystyrene. delete

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