KR101951252B1 - Dome house with warming function and its construction method - Google Patents

Abstract

The object of the present invention is to shorten the construction time by using standardized materials. It also aims to improve the dome house security function and reduce the heating cost.
The present invention improves the security function of the dome house, thereby reducing energy consumption due to the overall heating cost. Another effect is that the construction period is shortened because the standardized materials are prepared and installed quickly.

Description

Dome house having a warming function and method of construction thereof

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dome house having an insulating function and a method of constructing the dome house. More particularly, the present invention relates to a dome house constructed to improve a keeping function in a dome house to enable a person to live there.

Generally, a kiosk is installed in a beach, a river, a mountain or other resort to provide a resting area and a camping space for the comfort of the resort or camper. These bungalows are widely used as a prefabricated building with a built-in styrofoam plate, which is a thermal insulation material of steel plate structures, and have a size of about 1 to 3 pyong and have a small house shape installed on the ground. In addition, considering the foreground, sunshine and wind direction of the installation area, the location of the wind tunnel of the bungalow is selected according to the user's request.

However, since such a general bungalow is fixedly installed, it is difficult to move the installation place, the appearance is considerably poor, the insulation is poor, and the bungalow is very covered in the summer and very cold in the winter.

Also, a typical bungalow has functional limitations that can not be used for anything other than the purpose of getting inside and relaxing.

The materials of the bungalow are comparatively high in construction cost, and the construction of the bungalow is followed by the conditions of public permission.

Korean Patent No. 10-0709730

The object of the present invention is to shorten the construction time by using standardized materials. It also aims to improve the dome house security function and reduce the heating cost.

In order to solve the above problems,

The present invention relates to a support frame (10) which is erected on the ground and has an arch-shaped support frame (10) provided at least at one or more predetermined intervals, and a support pipe A plurality of air inserting portions 20 vertically positioned on the upper portion of the air supporting portion 10 and extending from one end to the other end of the support frame 10 and disposed at predetermined intervals, A first connecting breech 31 having protrusions formed on both sides of the air keeping part 20 in correspondence with the air keeping part 20 and a second connecting bicket 31 corresponding to the air keeping part 20, A second connection breech 32 which is located on the upper side of the first connection breech 20 and has protrusions formed on both sides of the first connection breech 31 and overlaps with one side protrusion of the first connection breech 31, And the projections of the second connection brittle (32) overlap each other And a plurality of support plates 50 disposed below the support frame 10 and horizontally disposed with respect to the air keeping unit 20. The plurality of support plates 50 may be formed of a plurality of And an air keeping layer M is formed inside the air keeping portion 20 to provide a warming function. The air keeping portion 20 is provided with a front face 60a And a rear surface 60b connected to the other end of the air inserting portion 20 and perpendicular to the ground surface. The height A of the front surface 60a is greater than the height of the rear surface 60b And the rainwater is inclined downward from the front surface (60a) toward the rear surface (b). The support plate (50) is made of a loess material Characterized in that it is formed of a plywood. A plurality of support frames 10 are installed at predetermined intervals perpendicular to the paper surface, and the support frame 10 is installed in such a manner that the support frame 10 is gradually reduced in height from the front to the back s1); A step (s2) of installing an air keeping part (20) in which a plurality of air keeping parts (20) formed in the shape of a hemispherical pipe pipe cut in half so as to be vertically positioned on the upper part of the support frame (10) are arranged at predetermined intervals; A first connection bicket installation step (s3) for installing the first connection breech (31) to be connected to the upper part of the air keeping part (20) so as to connect the separated air keeping part (20); A first connecting breech 31 is installed on the first connecting breech 31 and the second connecting breech 32 so that the protrusion of the first connecting breech 31 and the second connecting breech 32 are overlapped and connected to each other. (S4) for installing the protrusion of the second connecting briquet (31) on the upper part of the first connecting briquetting (31) so as to meet the protrusion of the first connecting briquetting (31); A nut 40 is provided on one side of a portion where the protrusion of the first connection briquet 31 and the protrusion of the second connection briquet 32 are overlapped and fixed so that the first connection briquet 31 and the second connection briquet 32 are fixed, (S5); A support plate installing step (s6) of installing a plurality of support plates (50) in a lower part of the support frame (10) in a direction parallel to the air keeping part (20); After the support plate installation step (s6), the hollow space between the air keeping members 20 and the hollow space of the plurality of support plates 50 installed at the lower part of the support frame 50 is filled with the filler material to complete the dome house. And a completion step (s7).

delete

delete

delete

delete

The present invention improves the security function of the dome house, thereby reducing energy consumption due to the overall heating cost.

Another effect is that the construction period is shortened because the standardized materials are prepared and installed quickly.

1 is a perspective view of a dome house having an insulating function according to the present invention.
2 is a view showing the height of a dome house having a warming function of the present invention.
3 is an enlarged view of the air keeping part 20 of the present invention.
Fig. 4 is a view showing a support frame installation step (s1) of the construction method of the present invention.
Fig. 5 is a view of the installation step (s2) of the air keeping part in the construction method of the present invention.
FIG. 6 is a view of a first connection bicket installation step (s3) to a nut fastening step (s5) in the construction method of the present invention.
Fig. 7 is a view showing a supporting plate installation step (s6) of the method of the present invention.
Fig. 8 is a view showing the dome house completion step (s7) in the construction method of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will become readily apparent from the following description of preferred embodiments with reference to the accompanying drawings. However, it will be understood by those skilled in the art that the present invention can be embodied in other forms without departing from the scope of the present invention.

The present invention relates to a dome house having an insulating function.

The dome house of the present invention is preferably applied to a bungalow. The bungalow is a single-story house with an inclined roof and is often surrounded by a veranda.

1 is a perspective view of a dome house according to the present invention, and will be described in detail with reference to the drawings.

The dome house 100 is composed of a support frame 10, an air retaining portion 20, a first connection breech 31, a second connection breech 32, a nut 40, a support plate 50, and the like.

First, the support frame 10 is erected on the ground, and is provided at least at one or more predetermined intervals. The support frame 10 is preferably an arch-shaped support frame 10 and is a plurality of support frames 10 arranged at predetermined intervals so that both ends of the support frame 10 are fixed to the floor. Further, it is preferable to further include a plurality of horizontal support frames 11 connected to and supporting the support frames 10 and arranged at predetermined intervals.

Also, it is preferable that the support frame 10 is formed so as to have a smaller height from the front surface 60a toward the rear surface 60b, so that the dome house 100 is made inclined downward as it goes backward. It may be formed so as to be inclined upward toward the rear.

The air keeping part 20 is vertically disposed on the upper part of the support frame 10 and is formed at a predetermined interval in the form of a hemispherical tube.

And is preferably formed at a predetermined interval from one end to the other end of the support frame 10 in the form of an arch.

The air keeping part 20 is a pipe tube formed in a hemispherical shape, and its interior is recessed to form an air insulating layer M having a warming function. Since a plurality of air maintaining portions 20 are formed along the upper surface of the supporting frame 10, a plurality of air insulating layers M are formed. Accordingly, it is possible to perform heating without consuming additional energy due to the overall warming effect of the inside of the dome house 100 requiring a warm keeping function such as cold weather.

The first connection breech 31 is located at the upper part of the air keeping part 20, and protrusions are formed on both sides of the air keeping part corresponding to the air keeping part.

The protrusion of the first connection breech 31 is formed to be connected to the second connection breech 32 by a first protrusion 31a and a second protrusion 31b.

The second connecting breech 32 is located at the upper part of the air keeping part 20 in correspondence with the air keeping part 20 and has protrusions formed on both sides thereof so that one projecting part is formed at one side of the first connecting breech 31 Overlapping with the projecting portion.

The protrusions of the second connection brittle 32 are a third protrusion 32a and a fourth protrusion 32b and are formed so as to overlap the upper portion of the second protrusion 31b of the first connection breech 31, The second projecting portion 32a of the second connecting breech 32 is formed. Thus, the first connection breech 31 and the second connection breech 32 are connected to fix the air keeping part 20 at the upper part of the support frame 10.

It goes without saying that the vertical positional relationship between the second projecting portion 31b and the third projecting portion 32a may be changed.

The nut 40 is fastened through one side of the portion of the protrusion of the first connection briquet 31 and the protrusion of the second connection briquet 32 through the overlapping portion.

Specifically, the nut 40 is passed through one side of the overlapping portion of the second projecting portion 31b of the first connecting breech 31 and the third projecting portion 32a of the second connecting breech 32, 1 connecting briquettes 31 and the second connecting briquettes 32 are fixed.

The support plate 50 is disposed at a lower portion of the support frame 10 and is disposed horizontally with respect to the air keeping part 20. [

Preferably, the support plate 50 uses a yellow clay plywood made of an opaque wood. Use yellow clay plywood made of white clay wood with yellow clay in water. It has effects such as improvement of atopic skin disease, reduction of stress hormone, antioxidant and natural deodorization, and loess has effects such as toxin removal, electromagnetic wave shielding, insulation and improvement of fire resistance. Therefore, the use of white clay plywood is used to improve air purification and insulation in the house.

The front surface 60a is connected to one end of the air keeping unit 20 and is formed perpendicular to the ground surface. The rear surface 60b is connected to the other end of the air keeping unit 20, do.

2, the height A of the front face 60a is formed to be larger than the height B of the rear face 60b, and is inclined downward from the front face 60a toward the rear face b, Sloping down. This is formed so as to be inclined to prevent accumulation of rainwater between the air maintaining portions 20 and is inclined toward the rear surface (b) so that the rainwater can flow well when rain or snow comes (see FIG. 3).

A door 61 can be formed at one side of the front surface 60a and a window can be formed at one side of a portion where a plurality of air insulating portions 20 are formed.

Hereinafter, a method for constructing a dome house having a heat retaining function will be described with reference to FIGS. 4 to 8. FIG.

Referring to FIG. 4, a plurality of support frames 10 are installed at predetermined intervals perpendicular to the paper surface in a support frame installation step (s1).

Although not shown in the drawings, the support frame is also provided on the base as a base, and the support frame 10 provided at a predetermined interval and the support frame 10 provided in the vertical direction are also provided. This is the same as the method of installing the base material to construct a normal house or the like.

It is preferable that the support frame 10 installed in the support frame installation step s1 is installed so that its height gradually decreases toward the rear side and the support frame 10 located near the front face 60b as shown in Fig. 60b of the support frame 10, as shown in Fig. This is because the dome house 100 constructed in the following step is inclined downward as it goes backward, so that the rainwater can flow well when a lot of rain comes.

5, in the step of installing the air keeping part (s2), the air keeping part 20, which is formed in the shape of a hemispherical tube so as to be vertically positioned on the upper part of the support frame 10, do.

The air keeping part 20 is preferably a pipe pipe, and the pipe pipe is cut in half and formed into a hemispherical shape, and is installed at a predetermined interval on the upper part of the support frame 10.

Fig. 6 relates to a first connecting briquet setting step (s3) to a nut fastening step (s5), and will be described with reference to the same.

The first connecting briquetting step (s3) is provided so that the first connecting breech 31 is connected to the upper part of the air keeping part 20 so as to connect the separated air keeping part 20.

The second connecting briquetting step (s4) includes a step of connecting the protruding portion of the first connecting briquet (31) to the protruding portion of the second connecting briquet (32) The protrusions of the second connection briquettes 31 meet the protrusions of the first connection briquettes 31 on the upper part of the air keeping part 20 located at one side of the first connection briquettes 31.

Since the first and second connection briquettes 31 and 32 are connected to each other in the first and second connection briquetting steps s3 and s4, the connection is omitted.

The nut fastening step s5 is performed such that the protrusion of the first connecting briquet 31 and the protrusion of the second connecting briquet 32 overlap so that the first connecting briquet 31 and the second connecting briquet 32 are fixed, The nut 40 is passed through one side and fastened.

Referring to FIG. 7, a plurality of support plates 50 are disposed at a lower portion of the support frame 10 in a direction parallel to the air keeping unit 20 in a support plate installing step (s6).

8, the dome house completing step s7 includes a step of inserting an empty space between the air keeping units 20 after the supporting plate installing step s6 and a space of a plurality of supporting plates 50 provided at the lower part of the supporting frame 50 We fill the space with the filling material and complete the dome house.

It is preferable that the dome house completion step (s7) uses a filler made of a silicone material so as to fill the empty space between the air insulating portions 20. [ The dome house 100 is provided that is waterproof by using silicon and is safe against natural disasters such as rain and snow. It is a matter of course that the empty space between the support plates 50 is also filled with a generally used filler material.

In addition, the floor of the dome house 100 can be made of various flooring materials such as wood, concrete, and the like.

The dome house 100 constructed as described above has the effect of improving the heat retaining function due to the plurality of air inserting portions 20. In addition, the construction time can be shortened due to the materials prepared in advance and standardized, which enables quick construction.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. And thus fall within the scope of the present invention.

100 Dome House
10 support frame
20 air keeping part
31 1st connection briquettes
32 second connecting briquettes
40 nuts
50 support plate
60a front face
60b rear face

Claims (3)

(10) formed in the form of a pipe tube of a hemispherical shape in which a recessed air insulating layer (M) is formed, at least one support frame (10) A plurality of air inserting portions 20 vertically positioned on the upper portion of the support frame 10 and extending from one end to the other end of the support frame 10 at predetermined intervals, A first connecting breech 31 having protrusions formed on both sides of the air keeping part 20 in correspondence with the air keeping part 20 and an air keeping part 20 corresponding to the air keeping part 20, A second connection briquetting part 32 formed on one side of the first connection briquette 31 and having a protruding part formed on both sides of the first connection briquette 31 so that one protruding part overlaps and connects with one protruding part of the first connection brittle 31, The protrusions of the second connecting briquettes 32 are formed by overlapping Minutes nut 40 and is fastened through the side of, and including a plurality of support plates 50 that are located in the lower portion of the support frame 10 is disposed horizontally and the air insulation portion 20,
And an air keeping layer M is formed inside the air holding portion 20 to provide a warming function. The air holding portion 20 is connected to one end of the air keeping portion 20, And a rear surface 60b perpendicular to the ground surface and connected to the other end of the air maintaining unit 20. The height A of the front surface 60a is greater than the height of the rear surface 60b And the rainwater is inclined downward from the front surface 60a toward the rear surface b so that the rainwater tilts downward. The support plate 50 is made of a tempered wood material and an ocher A method of constructing a dome house having a thermal insulation function, the method comprising:
A support frame installation step (s1) of installing a plurality of support frames (10) at predetermined intervals perpendicular to the paper surface, wherein the support frame (10) is installed so that its height gradually decreases from front to back;
A step (s2) of installing an air keeping part (20) in which a plurality of air keeping parts (20) formed in the shape of a hemispherical pipe pipe cut in half so as to be vertically positioned on the upper part of the support frame (10) are arranged at predetermined intervals;
A first connection bicket installation step (s3) for installing the first connection breech (31) to be connected to the upper part of the air keeping part (20) so as to connect the separated air keeping part (20);
A first connecting breech 31 is installed on the first connecting breech 31 and the second connecting breech 32 so that the protrusion of the first connecting breech 31 and the second connecting breech 32 are overlapped and connected to each other. (S4) for installing the protrusion of the second connecting briquet (31) on the upper part of the first connecting briquetting (31) so as to meet the protrusion of the first connecting briquetting (31);
A nut 40 is provided on one side of a portion where the protrusion of the first connection briquet 31 and the protrusion of the second connection briquet 32 are overlapped and fixed so that the first connection briquet 31 and the second connection briquet 32 are fixed, (S5);
A support plate installing step (s6) of installing a plurality of support plates (50) in a lower part of the support frame (10) in a direction parallel to the air keeping part (20);
After the support plate installation step (s6), the hollow space between the air keeping members 20 and the hollow space of the plurality of support plates 50 installed at the lower part of the support frame 50 is filled with the filler material to complete the dome house. And a completion step (s7). delete delete

Images