KR102026971B1 - Prefabricated house using metal and manufacturing method thereof - Google Patents

Abstract

The present invention relates to a prefabricated house using metal and a manufacturing method for the same. According to the present invention, the manufacturing method for the same includes: a) a step of cutting a ceiling metal panel by unit and a wall metal panel by unit in a corresponding area to individually blend and compose a ceiling surface and a wall of a prefabricated house; b) a step of forming a bending unit by bending an edge of the wall metal panel by unit, forming the wall, and a corresponding surface of the ceiling metal panel by unit, forming the ceiling surface; and c) a step of coupling the corresponding bending units of the ceiling metal panel by unit, forming the ceiling surface, and the bending units of the wall metal panel by unit, forming the wall, and coupling the bending units by bolting. According to the present invention, the prefabricated house can omit a framework by enabling the bending unit to perform the framework role, which can save material costs previously required for the additional framework.

Description

Prefabricated house using metal and manufacturing method thereof {PREFABRICATED HOUSE USING METAL AND MANUFACTURING METHOD THEREOF}

The present invention relates to a prefabricated house using a metal and a method of manufacturing the same, and more particularly, to a prefabricated house and a method of manufacturing the prefabricated house using a metal plate to prefabricated a house having an appearance such as animals and insects.

In general, the construction of a house takes at least three months and goes through construction, foundation work, pillar or wall formation, roof construction, interior and exterior, windows, auxiliary facilities, and other construction processes.

In each of these construction processes, the construction of houses is prolonged, and as the work is advanced, the risk of safety accidents increases, and the cost of construction increases due to the hiring of skilled workers.

Recently, prefabricated housing technology, which is simply assembled by using prefabricated panels to construct houses, has been developed and widely used.

Such a technology related to prefabricated houses has been proposed in Korean Patent Laid-Open Publication No. 2018-0009254 and Korean Patent Registration No. 1773881.

Patent document 1 discloses a prefabricated power house construction method for constructing a power house by assembling ready-made materials such as C-shaped steel, square tube through a simple assembly method and a prefabricated power house constructed by this method.

Patent document 2 is capable of direct heat transfer to the interior of the house through the wall without installing pipes on the wall, the interior space of the house in various directions while the heat energy supplied from the heat source is moved through the base frame, wall panels and ceiling panels A prefabricated house is disclosed, which is provided prefabricated and does not have a pipe installed on the wall.

However, Patent Documents 1 and 2 have a problem in that the bulky transportation is difficult because the prefabricated house is manufactured and installed on the site, thereby increasing the transportation cost.

In addition, other conventional prefabricated houses are reinforced by joining a frame, such as a pipe, to the inner wall surface of a sheet metal plate by welding, etc. Since the frame must be reinforced inside, the material cost is increased, and the outer wall surface is easily deformed by welding. As it is manufactured in a mail order and manufactured in a monotonous form, it is vulnerable to an earthquake or typhoon, and there is a problem that transportation to the site is difficult.

Korean Patent Publication No. 2018-0009254 (published: 2018.01.26) Korea Registered Patent No. 1773881 (Registration Date: 2017.06.28)

The present invention has been made in view of the above, and the problem of the present invention is that the whole component of each unit that combines the ceiling surface and the wall of the prefabricated house having the appearance of animals or insects as a single structure By bending the end of the metal plate for each unit cut to be made and then bolted to the bent portion, it is possible to omit the frame by making the bent portion to act as a frame, and to reduce the material cost and labor costs are large because no separate frame The bolt fastening method instead of the required welding method saves labor cost, and it is easy to assemble the divided materials in the field, and also the volume can be reduced. And the manufacturing method thereof.

In order to achieve the above object, a method of manufacturing a prefabricated house using metal according to the present invention includes a) an area corresponding to a ceiling metal plate of a unit and a wall unit metal plate of a unit so as to constitute a combination of a ceiling surface and a wall of a prefabricated house, respectively. Cutting into; b) forming a bent portion by bending the opposite surface of the unit-specific ceiling metal plate constituting the ceiling surface and the edge of the unit-specific wall portion metal plate constituting the wall; And c) fastening opposing bent portions of the unit-specific ceiling metal plate constituting the ceiling surface and bending portions of the unit-specific wall portion metal plate constituting the wall by bolting, respectively.

Before the step c), the step of applying a sealing material between the bent portions of the unit metal ceiling sheet and the bent portions of the wall plate metal unit by unit may be performed.

When the step c) is performed, the head of the bolt may be fastened along the edge of the ceiling metal plate of each unit and the edge of the metal plate of the wall unit of each unit.

After the step c), the step of finishing the inner side of the bent portion of the ceiling metal plate of each unit and the inside of the bent portion of the metal plate of the wall unit by unit may be performed with heat insulating material.

In addition, the present invention, the ceiling portion is formed by bending the opposite surface of the unit-specific ceiling metal plate cut into the corresponding area to form a combination of the ceiling surface of the prefab house; A wall portion having a bent portion formed by bending an edge facing surface of the unit-specific wall portion metal plate cut into a corresponding area so as to combine the walls of the prefab house; And fastening portions facing the bent portions of the ceiling metal plate of each unit, and the bent portions of the wall unit metal plate of the unit, respectively, wherein the fastening portion includes an edge of the ceiling and the wall portion. It may be fastened so that the head of the fastening portion is located along the edges of the front and rear surfaces.

Each of the bent portions of the ceiling metal plate for each unit and the bent portion of the wall plate metal plate for each unit may include a sealing material applied.

It may include a heat insulating material finished inside the bent portion of the unit-specific ceiling metal plate, and inside the bent portions of the unit-specific wall metal plate.

The collapsible solar panel may be installed in the ceiling.
In addition, the present invention comprises the steps of: a) cutting the ceiling unit metal plate and the unit-specific wall unit metal plate of each unit to form a combination of the ceiling surface and the wall of the prefabricated house having an animal or insect appearance respectively; b) forming a bent portion by bending inwardly an opposing surface of the unit-specific ceiling metal plate constituting the ceiling surface and an edge of the unit-wall part metal plate constituting the wall inward; And c) fastening opposing bent portions of the unit-specific ceiling metal plate constituting the ceiling surface and bending portions of the unit-side wall portion metal plate constituting the wall by bolting, respectively. c) a fastening part for each bent part of the wall part metal plate of the unit so that the degree of protrusion of the wall part metal plate of the unit can be adjusted according to positions for a partial three-dimensional representation of the wall part metal plate of each unit when performing the step; Express the leg part in the animal or insect outline by forming the slit balls to be fastened in the horizontal direction and pulling outwardly or pressing inward the wall metal plate of each unit at a specific position within the length of the slit balls. It is possible, and after the step c) the folding solar panel is installed on the ceiling metal plate, the solar panel is composed of the inner panel so that both sides can be folded between the outer panel and the inner panel The hinge rotated by the motor is connected to the outer panel is rotated at the end of the inner panel starting from the hinge, Be the emitter by the timer operation, only the time, or may be up or down, depending on whether the light detected by the sensor.
In another aspect, the present invention provides a ceiling portion formed by bending the opposite surface of the unit-specific ceiling metal plate cut into the corresponding area to form a combination of the ceiling surface of the prefabricated house having the appearance of animals or insects inward one time; A wall portion in which a bent portion is formed by bending the edge facing surface of the unit-specific wall portion metal plate cut into a corresponding area to form a combination of the walls of the prefab house once inward; And fastening portions facing the bent portions of the ceiling metal plate of each unit, and the bent portions of the wall unit metal plate of the unit, respectively, wherein the fastening portion includes an edge of the ceiling and the wall portion. Is fastened so that the head of the fastening portion is located along the edge of the front and rear surface, and the folding solar panel is installed on the ceiling, the outer panel is composed of the inner panel so that both sides can be folded the outer panel A hinge rotated by a motor is connected between the inner panel and the inner panel, and the outer panel is rotated at the end of the inner panel starting from the hinge, and the motor is operated only at a corresponding time by a timer or by a sensor. It is activated or deactivated depending on whether it is detected and the unit metal wall plate of each unit is used for partial three-dimensional representation. In order to be able to control the degree of protrusion of the wall unit metal plate by position, the slit balls to which the fastening portions are fastened to each bent portion of the wall unit metal plate of each unit are formed in a horizontal direction, respectively, within the length of the slit ball. It is possible to express the leg portion in the animal or insect appearance by pulling outwardly or pressing inwardly the wall part metal plate of each unit at a specific position.
In addition, the present invention comprises the steps of: a) cutting the ceiling unit metal plate and the unit-specific wall unit metal plate of each unit to form a combination of the ceiling surface and the wall of the prefabricated house having an animal or insect appearance respectively; b) forming a bent portion by bending inwardly an opposing surface of the unit-specific ceiling metal plate constituting the ceiling surface and an edge of the unit-wall part metal plate constituting the wall inward; And c) fastening, by bolting, opposite bending portions of the unit-specific ceiling metal plate constituting the ceiling surface, and bending portions of the unit-specific wall portion metal plate constituting the wall, respectively. C) The fastening part is fastened to each bent part of the wall part metal plate of the unit so that the degree of protrusion of the wall part metal plate of the unit can be adjusted according to the position for the partial three-dimensional representation of the wall part metal plate of the unit. The slit balls are formed in the width direction of the wall part metal plate for each unit, and the wall part metal plate material for each unit is pulled outwardly or pressed inward in a specific position within the length of the slit ball. Through the difference in the surface of the wall metal plate, the leg part can be expressed in three dimensions in the appearance of an animal or insect, and the surface of the wall metal plate of each unit is It becomes the outer wall surface of the riparian house, and when the step c) is performed, the bent portion is formed only on the lengthwise facing surface of the unit-specific ceiling metal plate so that the unit-specific ceiling metal plate and the neighboring unit-level ceiling metal plate can extend in the longitudinal direction. And the bent portion of the width direction both ends of the unit-specific ceiling metal plate and the uppermost unit wall part metal plate by bolting are fastened, and c) a folding solar panel is installed on the ceiling metal plate after performing step c). The optical panel is composed of a combination of an outer panel and an inner panel so that both sides can be folded without interference, and a hinge rotated by a motor is connected between the outer panel and the inner panel, and the outer panel is started from the hinge. Rotates at the end of the inner panel and allows the motor to be run only at that time by a timer or by a sensor There can be up or down depending on whether the light detected.
In another aspect, the present invention provides a ceiling portion formed by bending the opposite surface of the unit-specific ceiling metal plate cut into the corresponding area to form a combination of the ceiling surface of the prefabricated house having the appearance of animals or insects inward one time; A wall portion in which a bent portion is formed by bending the edge facing surface of the unit-specific wall portion metal plate cut into a corresponding area to form a combination of the walls of the prefab house once inward; And fastening portions facing the bent portions of the ceiling metal plate of each unit, and the bent portions of the wall unit metal plate of the unit, respectively, wherein the fastening portion includes an edge of the ceiling and the wall portion. The fastening part is fastened so that the head of the fastening part is positioned along the edges of the front and rear surfaces thereof, and a folding solar panel is installed in the ceiling, and the solar panel is a combination of an outer panel and an inner panel so that both sides can be folded without interference. A hinge rotated by a motor between the outer panel and the inner panel, respectively, and the outer panel is rotated at the end of the inner panel starting from the hinge, and the motor is operated only at the corresponding time by a timer. , According to whether the light is detected by the sensor to be activated or deactivated, and the metal part of the wall portion per unit Each unit wall has a slit ball to which the fastening part is fastened at each bent portion of the wall part metal plate of the unit so that the degree of protrusion of the wall part metal plate of the unit can be adjusted for each position for the partial three-dimensional expression. It is formed in the width direction of the sub-metal sheet and pulls out the unit wall part metal plate at a specific position within the length of the slit ball outwardly or presses it inwardly so that the animals A leg portion can be expressed in an insect shape, and a bent portion is formed only on a lengthwise facing surface of the unit-specific ceiling metal plate so that the unit-specific ceiling metal plate and the adjacent unit-specific ceiling metal plate can extend in the longitudinal direction. Both ends of the width direction of each ceiling metal sheet and the bent portion of the wall portion metal plate of the uppermost unit are bolted. Can be fastened.

According to the present invention, the bent portion after bending the end of the unit-specific metal plate cut so that the whole unit-specific components combined by combining the ceiling surface and the wall of the prefabricated house having an appearance such as an animal or an insect is made of one structure By fastening bolts to each other, the bent part can act as a frame, eliminating the frame, and because it does not use a separate frame, material cost is reduced, and labor cost is reduced because of bolt fastening method instead of welding method that requires a lot of labor cost The material can be easily assembled in the field, and the volume can be reduced, and it is possible to prevent deformation caused by welding when manufacturing a sheet. Also, since the ceiling surface and the wall are formed as a single structure, it can be applied from outside such as an earthquake or typhoon. Force that withstands physical forces (shocks) has a stronger effect than ordinary buildings.

In addition, the present invention has an effect that can be obtained even when electricity is not applied at the installation site by installing a solar panel to be unfolded during the day, folded in the evening in the ceiling.

1 is a perspective view showing a prefabricated house using metal according to the present invention.
FIG. 2 is a cross-sectional view taken along AA of FIG. 1.
3 is a cross-sectional view taken along line BB of FIG. 1.
Figure 4 is an exploded perspective view showing a connection state of the metal parts of the wall unit by unit in the prefabricated house using the metal according to the invention.
FIG. 5 is an exploded perspective view illustrating a connection state of a wall unit metal plate of each unit and a ceiling metal plate of each unit in a prefabricated house using metal according to the present invention.
FIG. 6 is an exploded perspective view illustrating a connection state of ceiling metal plates of each unit in a prefabricated house using metal according to the present invention. FIG.
7 is a partially enlarged view illustrating a state in which a sealing material is applied between a wall portion and a bent portion of a ceiling in a prefabricated house using metal according to the present invention.
8 is a partially enlarged view showing a state in which the heat insulating material is provided inside the wall portion and the ceiling in the prefabricated house using the metal according to the present invention.
9 is a perspective view illustrating a state in which a folding solar panel is installed and opened and closed at a ceiling of a prefabricated house using metal according to the present invention.
10 is a block diagram showing a method of manufacturing a prefabricated house using metal according to the present invention.

The above objects, features and other advantages of the present invention will become more apparent by describing the preferred embodiments of the present invention in detail with reference to the accompanying drawings. Hereinafter, a prefabricated house using a metal and a method of manufacturing the same according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a prefabricated house using metal according to the present invention, FIG. 2 is a sectional view taken along line AA of FIG. 1, FIG. 3 is a sectional view taken along line BB of FIG. 1, and FIG. 4 is a prefabricated house using metal according to the present invention. In Figure 5 is an exploded perspective view showing the connection state of the metal parts of the wall unit by unit, Figure 5 is an exploded perspective view showing the connection state of the wall unit metal plate and unit ceiling metal plate of each unit in the prefabricated house using the metal according to the present invention. 6 is an exploded perspective view illustrating a state of connection of ceiling metal plates for each unit in a prefab house using metal according to the present invention, and FIG. 7 is a bent part of a wall part and ceiling in a prefab house using metal according to the present invention. 8 is a partially enlarged view showing a state in which a sealing material is applied therebetween, and FIG. 8 is insulated inside a wall part and a ceiling part in a prefabricated house using metal according to the present invention. Figure 9 is a partially enlarged view showing a state provided, Figure 9 is a perspective view showing a state in which the folding solar panel is installed and opened on the ceiling of the prefabricated house using the metal according to the invention, Figure 10 is in the present invention Is a block diagram showing a method of manufacturing a prefabricated house using metal.

1 to 9, the prefabricated house 10 using metal according to the present invention includes a wall part 100 and a ceiling part 200, and has a wall part 100 to have an appearance such as various animals or insects. And it is assembled using the ceiling (200).

In this case, when the prefabricated house 10 is manufactured in an animal shape, the head part may be provided through the wall part 100 and the ceiling part 200 as in the body described above as well as the body. On the other hand, when the prefabricated house 10 is made in this animal shape, the head portion may be provided with a shape such as horns or eyes.

The wall portion 100 is composed of the unit-specific wall portion metal plate 110 cut to the corresponding area to form a combination of the walls of the prefabricated house (10).

Here, the wall part 100 is finished with a metal wall member 110 for each wall except for the corresponding area so as to install a window or a door.

In addition, the bent part 112 is formed on the edge facing surface of the unit wall part metal plate 110, and the bolt and nut may be placed in the state of facing the bent part 112 of the adjacent unit wall part metal plate 110. A plurality of fastening portions 300 are provided to configure the wall portion 100 by mutual combination (see FIG. 4).

In this way, the wall unit metal plate 110 for each unit is connected through the bent portion 112, the bent portion 112 serves as a frame.

On the other hand, the wall unit metal plate 110 for each unit may be protruded or recessed in the outward direction depending on the contact position of the bent portion (112). That is, when the protrusion is required, such as an animal leg, the wall unit metal plate 110 for each leg side temporarily fixed is pulled outward, and the unit metal wall plate 110 for each unit positioned therebetween is moved inward. By pressing, the projecting degree can be adjusted while varying the contact positions of the bent portions 112.

To this end, forming a slit ball to which the fastening part 300 is fastened to each of the corresponding bent parts 112 so as to protrude the wall part metal plate 110 for each unit at a specific position within the length of the slit ball. , Can be depressed.

In addition, referring to FIG. 7 (a), the wall metal plate 110 for each unit is coated with a sealing material S such as a silicon gasket to prevent leakage between the opposite bent portions 112.

Furthermore, referring to FIG. 8 (a), the wall metal plate 110 for each unit has a heat insulating material (I) such as urethane foam installed inside the bent portion 112 by the thickness of the bent portion 112. No space for the insulation (I) installation is required.

Although not shown in the drawings may be finished through the finishing material on the inside of the wall unit metal plate 110 for each unit.

The ceiling part 200 is composed of unit-specific ceiling metal plate 210 cut into corresponding areas to form a combination of the ceiling surfaces of the prefabricated house 10.

Moreover, the bent portion 212 is formed in the unit-specific ceiling metal plate 210 in the longitudinally opposite surface, the bolt and nut, etc. in a state of facing the bent portion 212 of the adjacent unit-specific ceiling metal plate 210 A plurality of fasteners 300 are fastened to each other to form the ceiling 200 by a combination (see FIG. 6).

That is, the unit-specific ceiling metal plate 210 is different from the unit-side wall metal plate 110, so that when there is a gap with the unit-side wall metal plate 110, rainwater may flow into the unit-side wall metal plate 110. The bent portion 212 is not provided at the portion in contact with the bent portion 112. However, the bent portion 212 is formed only on the lengthwise facing surface of the ceiling metal plate 210 for each unit, so that the ceiling metal plate 210 for each unit and the ceiling metal plate 210 for each unit abut the length of the ceiling portion 200. Applies only when extending.

In addition, the fastening part 300 is fastened so that the bolt heads are positioned along both edges of the ceiling metal plate 210 for each unit and the edges of the wall plate metal plate 110 for each front and rear surface of the wall unit 100 (FIG. 5) it is aesthetically beautiful.

Accordingly, the bent portion 212 serves as a frame while the ceiling metal plate 210 of each unit is connected through the bent portion 212.

Referring to FIG. 7B, the ceiling metal plate 210 for each unit is coated with a sealing material S such as a silicon gasket to prevent leakage between the bent portions 212 facing each other.

Furthermore, referring to Figure 8 (b), the unit-specific ceiling metal plate 210 is a heat insulating material (I), such as urethane foam is installed inside the bent portion 212 by the thickness of the bent portion 212 is a separate heat insulating material (I) No installation space is required.

Although not shown in the drawings may be finished through a finish on the inside of the ceiling metal plate 210 per unit.

9, the folding solar panel 400 may be installed on the ceiling 200, and the electricity generated from the solar panel 400 is charged in a rechargeable battery (not shown).

At this time, the solar panel 400 is unfolded during the day time by a timer (not shown in the drawing) and folded in the evening, or daylight depending on whether the light is detected by a sensor (not shown in the drawing) that detects light. When the light is unfolded as described above, the light is unfolded, such as in the evening where the solar panel 400 is installed, when the ceiling unit 200 is preferably maintained in a flat form.

At this time, the solar panel 400 is installed in multiple stages (two stages in this embodiment) so that both sides can be folded, the hinge (H) is installed at the opposite end, the outer panel is the inner panel starting from the hinge (H) It may be rotated at an end of the outer panel, the outer panel may be superimposed on the inner panel, or the outer panel may be rotated. In addition, the outer panel can be rotated by installing a motor (not shown) in the hinge H connecting the outer panel and the inner panel.

In this way, by providing the outer panel of the solar panel 400 to be foldable, it is possible to prevent contamination of the surface of the panel in a situation such as evening or rainy day.

Therefore, the solar panel 400 is not provided with electricity when the prefabricated house 10 using the metal of the present invention is installed in a position such as a mountain, so even if electricity is not applied at the installation site, the minimum electricity can be obtained by itself. To be able.

Referring to Figure 10, the method of manufacturing a prefabricated house using a metal according to the present invention is a metal plate cutting step for each unit (S200), unit metal sheet bending portion forming step (S210), sealing material applying step (S220), fastening portion bending Step S230 and the insulation finishing step (S240).

The unit metal plate cutting step (S200) is a metal plate mailing unit to constitute the wall unit 100 and the ceiling unit 200 of the prefabricated house 10, the unit wall unit metal plate 110 and unit ceiling metal plate by unit Each step is cut to 210.

At this time, the unit metal plate cutting step (S200) is to be cut to fit the wall portion 100 and the ceiling 200, as the body described in the following as well as the body when the prefabricated house 10 is produced in the shape of an animal as follows: Can be. On the other hand, when the prefabricated house 10 is made in this animal shape, the head portion may be provided with a shape such as horns or eyes.

The unit metal plate bent portion forming step (S210) is a step of forming the bent portions 112 and 212 in the unit wall portion metal plate 110 and the unit ceiling metal plate 210 cut for each shape.

That is, when performing the unit metal plate bent portion forming step (S210) for each unit wall portion metal plate 110 for each unit forms the bent portion 112 is bent inwardly in the end direction for each side, and the unit metal ceiling plate 210 for each unit ) Is a step of forming a bent portion 212 bent inward in the end portion for each longitudinally opposed surface. Therefore, if the unit-shaped wall portion metal plate 110 has a rectangular shape, the bent portion 112 is formed every four sides, and if the triangle is formed, the bent portion 112 is formed every three sides.

Sealing material coating step (S220) is a bent portion formed in the longitudinal direction of the bent portion 112 of the wall portion metal plate 110 for each unit constituting the wall and the ceiling metal plate 210 for each unit constituting the ceiling surface. The edges of the unit-specific ceiling metal plate 210 and the bent portion 112 of the unit-specific wall plate metal plate 110 that the opposite surface and the bent portion 212 of the unit-level ceiling metal plate 210 abut each other. It is a step of applying a sealing material (S) such as a silicon gasket to the edge of the wall unit metal plate 110 for each unit that abuts.

Bending part fastening step (S230) is a bending formed in the longitudinal direction of the bent portion 112 of the wall portion metal plate 110 for each unit constituting the wall and the ceiling metal plate 210 for each unit constituting the ceiling surface. The edges of the united ceiling metal plate 210 and the bent portion 112 of the wall unit metal plate 110 of the unit where the facing surface 212 and the bent portion 212 of the united ceiling metal plate 210 abut each other. Step of fastening the fastening part 300 to the edge of the wall unit metal plate 110 for each unit that abuts.

At this time, when performing the bending portion fastening step (S230), the bent portion of the unit metal wall member 110 and the edge of the unit ceiling metal plate 210 that the bent portion 212 of the ceiling metal plate 210 for each unit abuts are united. Since the head of the fastening part 300 is exposed at the edge of the unit-specific wall part metal plate 110 that 112 contacts, it is aesthetically beautiful.

Insulation finishing step (S240) is a step of finishing with the heat insulating material (I) on the inside of the unit-wide wall metal plate 110 and the unit of the ceiling metal plate 210 for each unit when the appearance of the prefabricated house 10 is completed.

On the other hand, although not shown in the figure, the step of finishing the finishing material on the inner wall surface of the wall portion 100 and the ceiling part 200 after the heat insulating material finishing step (S240) may be followed.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art to which the present invention pertains may implement the present invention in other specific forms without changing the technical spirit or essential features thereof. I can understand that. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive.

10: prefabricated house 100: wall portion
110: wall portion metal plate for each unit 112: bent portion
200: ceiling 210: ceiling metal sheet by unit
212: bending portion 300: fastening portion
400: solar panel I: insulation
S: sealing material

Claims (8)

a) cutting the per-ceiling metal plate and the per-unit wall part metal plate into corresponding areas so as to combine the ceiling surface and the wall of the prefabricated house having an animal or insect appearance respectively;
b) forming a bent portion by bending inwardly an opposing surface of the unit-specific ceiling metal plate constituting the ceiling surface and an edge of the unit-wall part metal plate constituting the wall inward; And
c) fastening oppositely bent portions of the unit-specific ceiling metal sheet constituting the ceiling surface and bending portions of the unit-specific wall portion metal plate constituting the wall by bolting, respectively;
c) a fastening part for each bent part of the wall part metal plate of the unit so that the degree of protrusion of the wall part metal plate of the unit can be adjusted according to positions for a partial three-dimensional representation of the wall part metal plate of each unit when performing the step; The slit balls to be fastened are formed in the width direction of the wall part metal plate for each unit, and the wall part metal plate material for each unit is pulled outwardly or pressed inward in a specific position within the length of the slit ball. Through the surface difference of the unit metal wall plate by unit, the leg part can be expressed in three dimensions in the appearance of an animal or insect, and the surface of the unit metal wall plate becomes the outer wall surface of the prefabricated house,
c) a bent portion is formed only on the lengthwise facing surface of the unit-specific ceiling metal plate so that the unit-specific ceiling metal plate and the neighboring unit-specific ceiling metal plate may extend in the longitudinal direction when the step c) is performed. Both ends of the width direction and the bent portion of the wall portion metal plate according to the uppermost unit are fastened by bolting,
c) The folding solar panel is installed on the ceiling metal plate after performing the step, wherein the solar panel is composed of a combination of an outer panel and an inner panel so that both sides can be folded without interference from each other, and the outer panel and the inner panel A hinge rotated by a motor is connected between the panels, and the outer panel is rotated at the end of the inner panel starting from the hinge, and the motor is operated only at a corresponding time by a timer or whether the sensor senses light. Prefabricated house manufacturing method using a metal, characterized in that to be activated or deactivated according to.
The method of claim 1,
c) applying a sealing material between the bent portions of the ceiling metal plate of each unit and the bent portions of the wall plate metal unit of each unit before the step is performed. .
The method of claim 1,
c) a method of manufacturing a prefabricated house using metal, characterized in that the fastening is performed such that the head of the bolt is positioned along the edge of the unit-specific ceiling metal plate and the unit-wide wall plate of the unit.
The method of claim 1,
c) a method of manufacturing a prefabricated house using metal, characterized in that the step of finishing the inner side of the bent portion of the ceiling metal plate for each unit and the inside of the bent portion of the metal plate of the unit wall after the step is carried out. .
A ceiling portion in which a bent portion is formed by bending the opposite surface of the unit-specific ceiling metal plate cut into a corresponding area inwardly to form a combination of the ceiling surfaces of the prefabricated house having an animal or insect shape inward;
A wall portion in which a bent portion is formed by bending the edge facing surface of the unit-specific wall portion metal plate cut into a corresponding area to form a combination of the walls of the prefab house once inward; And
And a fastening part for fastening the opposite bent portions of the ceiling metal plate for each unit and the bent portions of the wall plate metal plate for each unit, respectively.
The fastening part is fastened so that the head of the fastening part is located along the edge of the ceiling and the front and rear surfaces of the wall part,
Folding solar panels are installed in the ceiling, and the solar panels are each composed of a combination of an outer panel and an inner panel so that both sides can be folded without interference from each other by a motor between the outer panel and the inner panel. The rotating hinge is connected and the outer panel is rotated at the end of the inner panel starting from the hinge, allowing the motor to be operated only at the corresponding time by a timer, or to be activated or deactivated according to the detection of light by the sensor. ,
The wall unit metal plate for each unit is a slit (slit) is fastened to each of the bent portion of the wall portion metal plate of the unit to enable the adjustment of the degree of protrusion of the wall unit metal plate for each position for partial three-dimensional representation (slit (B) forming a ball in the width direction of the wall unit metal plate of each unit, and pulling the wall unit metal plate of each unit at a specific position outward or pressing inward in the length of the slit ball. Through the surface difference of the plate, the leg part can be expressed in the appearance of animals and insects,
The bent portion is formed only on the lengthwise facing surface of the unit-specific ceiling metal plate so that the unit-specific ceiling metal plate and the neighboring unit-specific ceiling metal plate can extend in the longitudinal direction, so that both ends of the ceiling metal plate of the unit Prefabricated house using a metal, characterized in that the bent portion of the wall unit metal plate by side unit by fastening.
The method of claim 5,
A prefabricated house using metal, characterized in that it comprises a sealing member applied between the bent portions of the unit-specific ceiling metal plate, and the bent portions of the unit-specific wall plate metal plate.
The method of claim 5,
Prefabricated house using a metal, characterized in that it comprises a heat insulating material finished inside the bent portion of the unit-specific ceiling metal plate, the inside of the bent portion of the wall unit metal plate by unit.
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