KR101278277B1 - The Prefabcated Hanok And Manufacturing Method Of The Prefabcated Hanok - Google Patents

Abstract

The prefabricated hanok according to the present invention is to complete the hanok by assembling the produced unit unit modules after manufacturing the unit unit module designed to have a predetermined dimension from each other, the unit unit module to form the overall structure of the hanok A structural unit module, a truss unit module coupled to an upper portion of the structural unit module to form a skeleton of a roof, and a roof unit module coupled to an upper portion of the truss unit module to form a roof. Therefore, the time and cost of manufacturing hanok can be drastically reduced. In addition, it is possible to standardize the hanok, so that the quality of the hanok can be kept constant and the amount of waste generated on the site can be drastically reduced.

Description

Prefabricated Hanok And Manufacturing Method Of The Prefabcated Hanok

The present invention relates to a method for manufacturing a prefabricated hanok and prefabricated hanok, and more particularly, after the unit unit module is manufactured in a factory, the unit unit module manufactured in the factory can be assembled on site to complete the hanok. It relates to a method of manufacturing a prefabricated hanok and prefabricated hanok that can reduce the work as much as possible.

Many foreigners call our country 'Apartment Republic'. Even though they are the world's top ten largest economies, they have pinpointed Korea's housing culture without any identity. Apartments have been recognized as being suitable for the lives of busy modern people, with flats organized for modern life, and apartments continue to increase according to this recognition.

However, there is a wave of change in such a residential culture. It is a Korean tradition and interest in eco-friendly Hanok. The Korean government considers Hanok, which represents Korea, to be necessary to raise the national brand, and is trying to spread Hanok, which represents Korea.

Briefly describing the process of making a hanok to form a basic skeleton with pillars, beams, and torii on the headstone, and then to create walls and windows between the pillars, and to cover the upper part of the beams and torii.

Hanok has the traditional appearance of Korea and is constructed using environmentally friendly materials, so it has the advantage of not emitting harmful substances to the human body.

On the other hand, since the hanok is constructed and manufactured on-site as a furniture type, the construction takes a long time and all the work is done by hand. In addition, since Hanok can be constructed only by carpenters who specialize in hanok, expensive labor costs are incurred. Therefore, there is a problem that the construction cost is high and the construction period takes a long time.

In addition, the hanok is difficult to standardize because the production method is very demanding and the quality of the hanok varies greatly depending on the person who builds the hanok.

In addition, there is a big problem in the amount of waste generated by directly processing materials such as wood in the field.

Due to these problems, the plan to modernize hanok is gradually appearing.

The present invention is to solve the above problems, an object of the present invention is to produce a unit unit module constituting the hanok in the factory, and in the field by assembling the unit unit modules with each other by allowing the hanok to be completed in large quantities To provide a method of manufacturing a prefabricated hanok and prefabricated hanok that can be produced.

In addition, it provides a prefabricated hanok and a method of manufacturing a prefabricated hanok can significantly reduce the cost and time required to make a hanok.

In addition, it provides a prefabricated hanok and a method of manufacturing a prefabricated hanok can dramatically reduce the amount of waste generated on the site.

In addition, it provides a method of manufacturing prefabricated hanok and prefabricated hanok that can be manufactured even by non-professionals and maintain the quality of hanok.

The prefabricated hanok according to an embodiment of the present invention for achieving the above object is to manufacture a unit unit module designed to have a predetermined dimension in the factory to complete the hanok by assembling the produced unit unit modules, The unit unit module is a structural unit module forming the overall structure of the hanok, a truss unit module coupled to the upper portion of the structure unit module to form a skeleton of the roof, and coupled to the upper portion of the truss unit module to form a roof The roof unit module may be provided.

The structure unit module may have a pillar, a beam, and a joist.

The upper edge of the structure unit module may be provided with an insertion hardware for coupling the structure unit module and the truss unit module with each other.

The lower part of the truss unit module may be provided with an insertion groove into which the insertion hardware is inserted.

One side of the structure unit module and the other side may be provided with a coupling hardware for coupling the structure module.

The coupling hardware may include a horizontal extension unit coupling a pair of structure unit modules to each other, and a vertical extension unit extending upward from a center of the horizontal extension unit to couple the truss unit module.

The truss unit module includes a frame seated on an upper portion of the structure unit module, a large hole extending upward from a center portion of the frame, a bell hammer connecting the large hole to each other, and connecting the frame and the large hole to the frame. It may be provided with an inclined member forming an angle.

The roof unit module may include a purlin, a rafter seated on the purlin, a heat insulating material installed on the upper part of the rafters, and a roof plate panel covering the heat insulating material.

The inclined member may be formed with a purlin seating groove in which the purlin is seated.

Method of manufacturing a prefabricated hanok according to an embodiment of the present invention for achieving the above object is the step of manufacturing a structural unit module to form the overall structure of the hanok in the factory, the truss unit to form the skeleton of the roof in the factory Producing a module, manufacturing a roof unit module for forming a roof in a factory, and stacking and assembling the structure unit module, the truss unit module and the roof unit module in sequence at a building site.

In the manufacturing of the structure unit module, the structure unit module may include a pillar, a beam, and a joist.

In the manufacturing of the truss unit module, the truss unit module includes a frame, a large hole extending upward from a center portion of the frame, a bell hammer connecting the large hole to each other, and connecting the frame and the large hole to the frame. It may be provided with an inclined member at a predetermined angle.

In the manufacturing of the roof unit module, the roof unit module may include a purlin, a rafter seated on the purlin, a heat insulating material installed on the upper part of the rafters, and a roof plate panel covering the heat insulating material.

In the stacking and assembling the structural unit module, the truss unit module and the roof unit module in the building site in turn, an insertion hardware is installed on the upper part of the structural unit module, and the insertion hardware is inserted into the truss unit module. By forming a groove, the insertion hardware may be inserted into the insertion groove and assembled.

In the step of stacking and assembling the structural unit module, the truss unit module and the roof unit module in the building site in sequence, the upper part of the structure unit module to form a purlin mounting groove in which the purlin is seated, the purlin of the roof unit module It can be assembled by mounting in the purlin seating groove.

According to the manufacturing method of prefabricated hanok and prefabricated hanok according to an embodiment of the present invention, the unit unit modules are produced in large quantities in the factory, and in the field, the unit unit modules produced in the factory can be manufactured in large quantities simply by assembling each other. It can drastically reduce the time required to make Hanok.

In addition, since the unit module is manufactured at the factory, the standardization of the hanok is possible, so that the quality of the hanok can be kept constant.

In addition, even if you are not an expert, you can make a hanok and reduce the cost of making a hanok.

In addition, by modularizing the unit unit module to a certain size in the factory there is an effect that can reduce the amount of waste generated.

1 is an exploded perspective view of a unit unit module constituting the prefabricated hanok according to an embodiment of the present invention.
Figure 2 is a perspective view showing a structure unit module coupled to each other in the unit unit module.
Figure 3 is a flow chart showing a method of manufacturing a hanok according to an embodiment of the present invention.
Figure 4 is a perspective view showing the design of the dimensions of the structure unit module of the unit unit module.
Figure 5 is a perspective view showing a state of manufacturing the structure unit module in the factory.

Hereinafter, with reference to the accompanying drawings will be described in detail the manufacturing method of prefabricated hanok and prefabricated hanok according to an embodiment of the present invention.

1 is an exploded perspective view of a unit unit module constituting the prefabricated hanok according to an embodiment of the present invention.

As shown in FIG. 1, the unit unit modules 10 applied to the prefabricated hanok according to an embodiment of the present invention are manufactured in a factory, and then assembled to each other in the field to complete the unit unit modules 10.

The unit unit module 10 forms a space, and by combining the unit unit modules 10 with each other, a necessary space can be continuously made. By simply assembling the unit unit module 10 produced in the factory in the field can manufacture hanok can significantly reduce the time and effort to produce hanok.

As such, the unit unit module 10 includes the structure unit module 100, the truss unit module 200, and the roof unit module 300, and transports the unit unit module 10 manufactured in the factory to the site. After assembling in the field, it is transformed into a prefabricated hanok within a short time.

Referring to the unit unit module 10 in more detail, the unit unit module 10 is combined with the structure unit module 100 forming the overall structure of the hanok, and the upper portion of the structure unit module 100 to form a skeleton of the roof The roof frame unit module 200 and the roof unit module 300 coupled to the upper portion of the roof frame unit module 200 to form a roof.

The structure unit module 100 is a structure having a column 101, a beam 102, and a joist 103. The structural unit module 100 is completed by installing the wall 105 and the floor 105 including the lining in such a structure, and installing the wall and the window 106 having thermal insulation performance.

The truss unit module 200 includes a frame 210, a large hole 220 extending upward from a center portion of the frame 210, a bell hammer 230 connecting the large hole 220 to each other, and a frame 210 and a large hole. It is provided with an inclined member 240 connecting the 220 and forming a predetermined angle with the frame 210.

The roof unit module 300 includes a purlin 310, a rafter 320 seated on the purlin 310, a heat insulating material 330 installed on the upper part of the rafter 320, and a roof plate panel covering the heat insulating material 330. 340 is provided.

Meanwhile, in order to couple the structure unit module 100 and the truss unit module 200 to each other, the first insertion hardware 111 is provided at an upper edge of the structure unit module 100.

The lower portion of the truss unit module 200, more specifically, the lower portion of the frame 210 is provided with an insertion groove 211 into which the first insertion hardware 111 is inserted.

And in order to couple the truss unit module 200 and the roof unit module 300 with each other, the inclined member 240 of the truss unit module 200 has a purlin seating groove in which the purlin 310 of the roof unit module 300 is seated ( 241 is formed. The purlin seating groove 241 is provided with a second insertion hardware 242, and the purlin 310 is provided with an insertion groove 312 into which the second insertion hardware 242 is inserted and coupled.

2 is a perspective view showing a structure unit module coupled to each other among the unit unit module.

As described above, the unit unit module 10 includes the structure unit module 100, the truss unit module 200, and the roof unit module 300, and the unit unit module 10 manufactured in the factory as described above is brought to the site. By transporting the unit unit modules 10 in the field through the process of assembling each other and transformed into a prefabricated hanok within a short time.

When determining the size of the prefabricated hanok to be built, by combining the required unit unit modules 10 to each other to fit the size of the prefabricated hanok to produce a prefabricated hanok.

In order to assemble the unit unit modules 10 from each other, the structure unit modules 100 are assembled from the unit unit modules 10.

The coupling hardware 120 is used to assemble the structure unit module 100 from each other. The coupling hardware 120 extends upward from the center of the horizontal extension part 121 to couple the structure unit module 100 to each other, and the vertical to combine the truss unit module 200. And an extension 122.

Therefore, the two structural unit modules 100 are coupled to each other through the horizontal extension 121, and the truss unit module 200 is coupled to the upper portion of the structural unit module 100 through the vertical extension 122.

After coupling the structure unit modules 100 to each other using the coupling hardware 120 as described above, the roof unit module 200 and the roof unit module 300 are sequentially assembled to the upper portion of the structure unit module 100, thereby prefabricating Hanok. To complete.

Next, a method of manufacturing a prefabricated hanok according to an embodiment of the present invention described above will be described.

Figure 3 is a flow chart showing a method of manufacturing a prefabricated hanok according to an embodiment of the present invention.

The method of manufacturing a prefabricated hanok as shown in Figure 3 is a step (S110) to produce a structure unit module 100 to form the overall structure of the hanok in the factory, the truss unit module 200 to form a skeleton of the roof in the factory ) Manufacturing step (S120), and manufacturing a roof unit module 300 to form a roof in the factory (S130), and the structure unit module 100, truss unit module 200 and the roof in the building site In step S140, the unit modules 300 are stacked and assembled.

Hereinafter, a step (S110) of manufacturing the structure unit module 100 from the unit unit module 10 will be described.

4 is a perspective view showing the design of the dimensions of the structure unit module.

As shown in FIG. 4, when the structure unit module 100 is manufactured in a factory, first, the dimensions of the structure unit module 100 are designed, and the structure unit module 100 is manufactured in the factory.

First, the process of designing the dimensions of the structure unit module 100 constituting the prefabricated hanok will be described.

Prefab is a construction method that processes and assembles parts in a factory, and installs only in a site. The structure unit module 100 is first designed to implement a prefabricated prefabricated hanok.

As described above, when designing the structural unit module 100, structural problems and material problems should be solved, and when setting the dimensions of the structural unit module 100, a combination of the main components and parts constituting the prefabricated hanok is combined. Consider the completion of the prefabricated hanok and establish the standard.

Therefore, modular coordination can be used to secure the linkage between design and part dimensions in the prefabricated hanok, which is constructed by assembling the structure unit module 100 with each other, and to play the role of dimension adjustment necessary for rationalization of building production and dimension matching between parts. Concept to set the dimensions of the structural unit module 100.

On the other hand, in the present invention, the eyepiece dimension design method is applied in order to use the accessory components of the prefabricated hanok produced in the factory as a standard module. In other words, the prefabricated Hanok is designed so that the eye dimensions of each side of the construction space are planned to be integer multiples of the standard module of the accessory component, and the eye dimensions are the design baseline. Of course, during the design process of the prefabricated hanok, the frame design is made while considering the installation state of the accessory components. As a result, it is possible to apply accessory components such as ceiling materials, windows, floors, system kitchens, prefabricated bathrooms, and (storage type) partition systems into standard modules.

For materials applied to houses in general, Korean Industrial Standard (KS) specifies the standard module nominal dimensions. In the present invention, in consideration of being modularized to an incremental dimension of 30 cm in the present invention, in the case of the planar dimension of the structural unit module 100, the auxiliary dimension incrementally supplemented by 10 cm, in principle, in the case of the flat dimension of the structural unit module 100. Apply the dimensions.

On the contrary, in the case of the elevation dimension of the structure unit module 100, the 10 centimeter increment is set to be applied in principle, but due to the technical dimension that may occur in the interlayer, the incremental dimension of 5 centimeters is used as an auxiliary. Therefore, if the interlayer is an incremental dimension of 5 centimeters, which is an auxiliary dimension, the height of the floor is set to the sum of the ceiling height and the height of the interlayer, so that the incremental dimension of the height of 5 centimeters is used to assist.

4 illustrates an example of a structure unit module 100 of a prefabricated hanok prepared in consideration of such a point, and the size of the structure unit module 100 illustrated in FIG. 4 is 2700 mm * 3600 mm * 3000 mm. In addition, the structural unit modules 100 having different dimensions may be produced. By varying the dimensions of the structure unit module 100 as described above, it is possible to vary the combination of the produced structure unit module 100 to develop various planes and achieve differentiated visual effects.

Meanwhile, the structure unit module 100 is manufactured at the factory through the above design.

5 is a perspective view showing a structure unit module manufactured at the factory.

On the other hand, the structure unit module 100 is made in the following order in the factory.

① The frame including the column 101 and the beam 102 is standing, ② Install the joist 103. ③ Install the wall 105 and the floor 105 including the lintel. ④ Manufacture and install walls and windows 106 with insulation performance.

The manufacturing process of the truss unit module 200 and the roof unit module 300 in the factory is almost the same as the manufacturing process of the structure unit module 100, so a detailed description of the manufacturing process thereof is omitted, and the characteristics of each unit module Only the content is described.

In the step S200 of manufacturing the truss unit module 200, the truss unit module 200 includes a frame 210, a large hole 220 extending upward from a center portion of the frame 210, and a large hole 220. It connects to the bellows 230 and the frame 210 and the large hole 220 to be connected to each other to form an inclined member 240 at a predetermined angle to the frame 210.

In the step (S300) of manufacturing the roof unit module 300, the roof unit module 300 is installed on the top of the rafters 310, the rafters 320 seated on the claws 310, and the rafters 320 It is manufactured to include a heat insulating material 330 and a roof plate panel 340 covering the heat insulating material 330.

Thus, the structural unit module 100, the truss unit module 200, and the roof unit module 300 are manufactured at the factory, and then assembled at the building site.

Meanwhile, in the step of stacking and assembling the structural unit module 100, the truss unit module 200, and the roof unit module 300 in a building site (S140), the first insertion hardware is formed on the upper portion of the structural unit module 100. (111) is installed and the truss unit module 200 is formed with an insertion groove 211 into which the first insertion hardware 111 is inserted, thereby inserting the first insertion hardware 111 into the insertion groove 211. To assemble.

In addition, in the step of stacking and assembling the structure unit module 100, the truss unit module 200, and the roof unit module 300 in a building site (S140), the purlin 310 is formed on the upper portion of the structure unit module 100. ) Forms a purlin seating groove 241 to be seated, and is assembled by mounting the purlin 310 of the roof unit module 300 to the purlin seating groove 241.

In the above described the method of manufacturing a prefabricated hanok and prefabricated hanok according to an embodiment of the present invention.

As described above, the manufacturing method of the prefabricated hanok and the prefabricated hanok according to an embodiment of the present invention can drastically reduce the time for building the hanok by minimizing the work in the field when building the hanok. In addition, the unit unit module 10 can be produced in a factory can be produced in large quantities. Therefore, anyone can produce a hanok, even if not experts, by maintaining the quality of the hanok by managing the quality of the unit unit module 10 produced in the factory.

In the above described the manufacturing method of prefabricated hanok and prefabricated hanok according to an embodiment of the present invention, the spirit of the present invention is not limited to the embodiments presented herein. And those skilled in the art to understand the spirit of the present invention can easily suggest other embodiments by the addition, modification, deletion, addition, etc. within the scope of the same idea, but this also falls within the scope of the invention something to do.

10: unit unit module 100: structure unit module
200: roof frame unit module 300: roof unit module

Claims (15)

After manufacturing the unit unit module designed to have a predetermined dimension at the factory, the assembled unit unit modules are assembled with each other to complete the hanok,
The unit unit module
A structural unit module forming the overall structure of the hanok,
A truss unit module coupled to an upper portion of the structure unit module to form a skeleton of a roof;
A roof unit module coupled to an upper portion of the truss unit module to form a roof,
The upper edge of the structure unit module is provided with an insertion hardware for coupling the structure unit module and the truss unit module,
The lower portion of the truss unit module is provided with an insertion groove into which the insertion hardware is inserted,
The truss unit module includes a frame seated on an upper portion of the structure unit module, a large hole extending upward from a center portion of the frame, a bell hammer connecting the large hole to each other, and connecting the frame and the large hole to the frame. Having an inclined member forming an angle,
The roof unit module includes a purlin, a rafter seated on the purlin, a heat insulator installed on the top of the rafters, and a roof panel panel covering the heat insulator,
Prefabricated hanok is characterized in that the inclined member is formed with a purlin seating groove in which the purlin is seated. The method of claim 1,
The structure unit module is a prefabricated hanok characterized in that it has a column, beams and joists. delete delete The method of claim 1,
Prefabricated hanok characterized in that the coupling unit for coupling the structure unit module and the other side of the structure module on one side. 6. The method of claim 5,
The coupling hardware is a prefabricated hanok characterized in that it comprises a horizontal extension unit for coupling a pair of structure unit modules with each other, and a vertical extension extending from the center to the upper side to couple the truss unit module. delete delete delete Manufacturing a structure unit module forming the overall structure of the hanok in a factory,
Manufacturing a truss unit module forming a skeleton of a roof in a factory,
Manufacturing a roof unit module for forming a roof in a factory;
Stacking and assembling the structural unit module, the truss unit module, and the roof unit module in a building site in sequence;
In the step of manufacturing the truss unit module,
The truss unit module includes a frame, a large hole extending upward from the center portion of the frame, a bell hammer connecting the large holes to each other, and an inclined member connecting the frame and the large holes to form a predetermined angle.
In the step of manufacturing the roof unit module,
The roof unit module includes a purlin, a rafter seated on the purlin, a heat insulator installed on the top of the rafters, and a roof panel panel covering the heat insulator,
In the step of stacking and assembling the structure unit module, truss unit module and roof unit module in the building site,
Inserting iron is installed on the upper part of the structure unit module, and the inserting groove into which the insert is inserted is formed in the truss unit module, the insert is inserted into the insert groove, and then assembled.
A method of manufacturing a prefabricated hanok characterized in that the upper part of the structure unit module is formed with a purlin seating groove in which the purlin is seated, and the purlin of the roof unit module is seated in the purlin seating groove. The method of claim 10,
In the step of manufacturing the structure unit module,
The structure unit module is a method of manufacturing a prefabricated hanok characterized in that it comprises a column, beam and joist. delete delete delete delete

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