KR101465044B1 - Prefabricated dome house - Google Patents

Abstract

형상의 돌기가 형성되어 있으며 다른 2개의 모서리에는 상기 돌기에 대응하는 형태의 홈이 형성된 결합부재를 상하좌우로 다수개 결합시켜서 완성된 조립식 돔하우스에 관한 것이다.The present invention relates to a prefabricated dome house, and more particularly to a prefabricated dome house having a rectangular shape with both sides having a predetermined radius of curvature,

Shaped protrusions are formed on the other two corners, and a plurality of joining members having grooves corresponding to the protrusions are formed on the other two corners.

Description

{Prefabricated dome house}

형상의 돌기가 형성되어 있으며 다른 2개의 모서리에는 상기 돌기에 대응하는 형태의 홈이 형성된 결합부재를 상하좌우로 다수개 결합시켜서 완성된 조립식 돔하우스에 관한 것이다.The present invention relates to a prefabricated dome house, and more particularly to a prefabricated dome house having a rectangular shape with both sides having a predetermined radius of curvature,

Shaped protrusions are formed on the other two corners, and a plurality of joining members having grooves corresponding to the protrusions are formed on the other two corners.

Recently, as the standard of living has improved, the popularity of dome house as a two - star accommodation facility has been increasing day by day.

Generally, in order to construct a dome house, a dome house has been manufactured by combining a plurality of joining members that are manufactured in accordance with the supporting frame after a basic construction and a hemispherical supporting frame are installed. Therefore, the manufacturing process is very complicated, It is inconvenient to separately manufacture the coupling member of the first embodiment in accordance with the situation in the field.

A variety of methods have been proposed to make dome house easily. 1 is a perspective view of a dome house disclosed in Korean Patent Registration No. 0751224. As shown in Fig. 1, in JP-B-0751224, a plurality of connecting members 5 having a triangular side coupling member 4 and a quadrangular side coupling member 3 at the uppermost position are combined to form a dome house Completed.

However, since the shapes of the triangular-shaped side coupling member 4 and the rectangular side coupling member 3 are different from each other in the specification of JP-A-0751224, they must be manufactured in a separate coupling member producing apparatus, and when the size of the dome house is changed Since the sizes of the triangular-shaped side-joining member 4 and the rectangular side-joining member 3 are changed, it is difficult to manufacture a dome house of various sizes because of the necessity of a separate apparatus.

2 is a perspective view of a dome house disclosed in Japanese Patent Application Laid-Open No. 10-0921322. In the case of Fig. 2, the shape of the coupling member 6 on the side surface of the dome house is the same, However, when the size of the dome house is changed, a manufacturing machine capable of producing a separate joining member is required for its production.

형상의 돌기가 형성되어 있으며 다른 2개의 모서리에는 상기 돌기에 대응하는 형태의 홈이 형성된 결합부재를 상하좌우로 다수개 결합시켜서 완성된 조립식 돔하우스를 제공함을 그 목적으로 한다.SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and it is an object of the present invention to provide a method of manufacturing a semiconductor device having a rectangular shape having both sides having a predetermined radius of curvature,

Shaped dome house which is formed by joining a plurality of joining members having grooves corresponding to the protrusions on upper, lower, left, and right sides at the other two corners.

The prefabricated dome house according to the present invention comprises a top dome portion and a side wall portion coupled to a lower portion of the dome portion,

Wherein the side wall portion is formed by joining a plurality of joining members made of Styrofoam in upper, lower, left, and right sides,

Wherein the engaging member is composed of both sides having a predetermined curvature and four sides around the both sides,

형상의 돌기가 형성되어 있으며, 다른 2개의 측면 전체에는 상기 돌기에 대응하는 형태의 홈이 형성되어 있고,On all the two side surfaces adjacent to each other on the side surface

And the other two side surfaces are formed with grooves corresponding to the projections,

형상의 돌기 또는 홈이 형성되어 있는 것을 특징으로 한다.In the lower portion of the dome portion

Shaped protrusions or grooves are formed.

The assembled dome house according to the present invention can be simply completed by simply assembling the joining members in the field without the need to provide a separate support frame,

In addition, the individual joining members constituting the assembled dome house can be manufactured very efficiently using the horizontal processing apparatus, the vertical processing apparatus, and the side processing apparatus,

Since the joining members having various sizes, shapes and curvatures can be produced by adjusting the horizontal processing apparatus, the vertical processing apparatus and the side processing apparatuses, dome houses of any size and shape can be manufactured.

1 is a perspective view of a dome house disclosed in Korean Patent Registration No. 0751224,
FIG. 2 is a perspective view of a dome house disclosed in Japanese Patent Application Laid-Open No. 10-0921322,
3 is a perspective view of a dome house according to the present invention,
4 is a perspective view of a coupling member according to the present invention,
5 is a perspective view of a horizontal manufacturing apparatus according to the present invention,
6 is a front view of a horizontal manufacturing apparatus according to the present invention,
7 is a side view of the horizontal manufacturing apparatus according to the present invention,
8 is a perspective view of an embodiment of a horizontal manufacturing apparatus according to the present invention,
9 is a view showing one embodiment of the shape of a heat line,
10 is a view for explaining the effect of the length adjusting means,
11 shows an embodiment of a length adjusting means,
12 is a view for explaining the role of the angle adjusting unit,
13 is a perspective view of a vertical manufacturing apparatus according to the present invention,
FIG. 14 is a side view of a vertical manufacturing apparatus according to the present invention,
15 is a plan view of a vertical manufacturing apparatus according to the present invention,
16 is a view for explaining the use of the side processing apparatus according to the present invention,
17 is a perspective view of a side processing apparatus according to the present invention,
18 is a side view of a side processing apparatus according to the present invention,
19 is a plan view of a side processing apparatus according to the present invention,
20 is a perspective view of the angle adjusting portion.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments described below, but may be embodied in various other forms.

The present embodiments are provided so that the disclosure of the present invention is thoroughly disclosed and that those skilled in the art will fully understand the scope of the present invention. And the present invention is only defined by the scope of the claims. Thus, in some embodiments, well known components, well known operations, and well-known techniques are not specifically described to avoid an undesirable interpretation of the present invention.

In addition, like reference numerals refer to like elements throughout the specification. Moreover, terms used herein (to be referred to) are intended to illustrate the embodiments and are not intended to limit the invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. Also, components and acts referred to as " comprising (or comprising) " do not exclude the presence or addition of one or more other components and operations.

Unless defined otherwise, all terms (including technical and scientific terms) used herein may be used in a sense commonly understood by one of ordinary skill in the art to which this invention belongs. Also, commonly used predefined terms are not ideally or excessively interpreted unless they are defined.

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

3 is a perspective view of a dome house according to the present invention. The dome house according to the present invention comprises a dome portion (20) and a side wall portion (10).

The dome portion 20 is a portion located at the top of the dome house.

The dome portion 20 may be divided into several pieces so that the dome portion 20 can be assembled in the field. However, the dome portion 20 may be formed by the joining members 11, 12, 13, 14 and 15 constituting the side wall portion 10 of the dome house And therefore, it is preferable to manufacture it as an integral type.

형상의 돌기 또는 홈이 형성되어 있어서, 결합부재의 측면에 형성된

형상의 홈 또는 돌기와 결합하게 된다.12, 13, 14, and 15 constituting the side wall portion 10 are coupled to the lower portion of the dome portion 20. At this time, the lower surface of the dome portion 20

Protrusions or grooves are formed on the side surface of the engaging member,

To be combined with the groove or projection of the shape.

The side wall portion 10 is a portion coupled to the lower portion of the dome portion 20 and substantially forming a side wall of the dome house. In the present invention, the side wall portion 10 has a plurality of joining members 11, 12, 13, 14 and 15 connected vertically and horizontally.

Fig. 4 is a perspective view of each coupling member constituting the dome house in Fig. 3; As shown in FIGS. 3 and 4, the joining member according to the present invention has a rectangular shape as a whole. However, since the joining member constitutes the side wall portion 10 of the dome house, the side wall portion 10 has a shape that becomes narrower toward the upper portion as a part of the sphere. Therefore, the joining members 11, 12, , 15) is composed of both sides (a, b) having a predetermined curvature and four sides (c, d, e, f) around the both sides.

형상의 돌기(h)가 형성되어 있으며, 다른 2개의 측면(e,f) 전체에는 상기 돌기에 대응하는 형태의 홈(g)이 형성되어 있다. 특히, 본 발명에서의 돌기와 홈은 결합부재 측면 전체에 걸쳐서 형성된다. 이는 조립된 돔하우스의 구조적인 안정성과 결합부위의 기계적인 강도를 향상시키고, 아울러 결합부에서는 서로 다른 결합부재가 서로 엇갈려 결합하게 되므로 단열효율도 향상시킬 수 있다.Here, the two side surfaces (c, d) adjacent to each other among the four side surfaces (c, d, e, f)

And the grooves g corresponding to the projections are formed on the other two side surfaces e and f. In particular, the projections and grooves in the present invention are formed over the entire side surface of the engagement member. This improves the structural stability of the assembled dome house and the mechanical strength of the joining part, and in addition, the joining parts of the joining parts are staggered to each other to improve the heat insulation efficiency.

In the meantime, the side wall portion 10 of the present invention is manufactured to be coupled with at least two stages up and down from the ground. This is because at least two side walls 10 are manufactured so that the sizes of the individual coupling members are relatively small, which makes it convenient to carry and transport.

Preferably, the side wall portion 10 is made in five stages. The dome house in Fig. 3 shows a case in which the side wall portion 10 is constituted by a fifth stage in which the saddle portion 10 is joined to the dome portion 20 from the lowermost first stage, resulting in a total of five stages.

Here, the size, the shape, the curvature, and the like of the joining members constituting each stage are the same, but the size, the shape, the curvature, and the like are different from the joining members constituting the other stages.

Fig. 4 (a) is a perspective view of an engaging member constituting the first end, Fig. 4 (b) is a perspective view of the engaging member constituting the second end, Fig. 4 (d) is a perspective view of the engagement member constituting the fourth stage, and Fig. 4 (e) is a perspective view of the engagement member constituting the fourth stage. As shown in Figs. 4 (a) to 4 (e), the joining members constituting the respective stages are different in shape, size and curvature, but the joining members constituting the same stage are all of the same shape, Curvature.

A method of assembling the dome house in situ according to the present invention will be described. Only the assembly of the dome house according to the present invention will be described except for the general contents such as foundation work for erecting the dome house. A plurality of joining members constituting the first stage are coupled to the ground to complete the first stage, a plurality of joining members constituting the second stage are coupled to the joining members, and a third stage, a fourth stage, And the five stages are sequentially combined to complete the side wall portion 10. Next, the dome portion 20 is coupled to the upper portion of the side wall portion 10 to complete the dome house according to the present invention.

The exterior of the completed dome house may be packed more than once using exterior materials as necessary. This is also a general technique, so a detailed description is omitted here.

Next, a method of manufacturing the coupling member used in the dome house according to the present invention will be described. As described above, since the joining members have various sizes, shapes, and curvatures, various kinds of processing machines are required to process them. In the present invention, they can be processed very efficiently using only three machines .

The machines used for the machining of the joining members are a horizontal production machine, a vertical production machine and a side processing machine. The horizontal manufacturing apparatus is mainly used for processing the first to third ends of the joining members constituting the side wall portion 10 with the ground at an angle of 45 degrees or more. It is mainly used to process the stage and the fifth stage. On the other hand, the joining member processed in the horizontal production apparatus and the vertical production apparatus is finally machined to the side in the side processing apparatus, thereby completing the joining member.

The following explains each machine.

Fig. 5 is a perspective view of a horizontal manufacturing apparatus according to the present invention, Fig. 6 is a plan view of a horizontal manufacturing apparatus according to the present invention, Fig. 7 is a side view of a horizontal manufacturing apparatus according to the present invention, Fig. 2 is a perspective view of one embodiment of a manufacturing apparatus. 5 to 8, the horizontal manufacturing apparatus according to the present invention includes a heat ray unit 100, a horizontal arm unit 200, a body 300, an angle adjusting unit 400, and a horizontal supply unit 500 .

The following explains each component.

The heat ray unit 100 includes a heat ray 110 and a heat radiation unit 120.

The heat line 110 is a portion for cutting the styrofoam into a desired shape. Generally, the cutting of the styrofoam is cut using a knife. However, if the cutting is performed using a knife, the cut surface is not smooth, and styrofoam powder is generated. Therefore, in the present invention, the method of cutting the styrofoam by using the heat using the characteristic that the styrofoam is weak to the heat is used without cutting the styrofoam. That is, the hot wire 110 in the present invention is a portion that substantially serves as a knife for cutting the styrofoam. Therefore, the hot wire 110 must be formed to have the same shape as the cross-section of the joining member to be processed, and the shape thereof can be maintained even at a high temperature and corrosion is not easy. Thus, in the present invention, a nichrome wire is adopted as the heat ray 110. [ The nichrome wire is a material most suitable for use as the heat ray 110 in the present invention because it has a high resistivity (about 110 mu OMEGA cm) and is not well oxidized even at a high temperature, is resistant to corrosion,

The shape of the hot wire should be the same as the shape of the joining member to be processed, and the preferred shape of the hot wire is shown in FIG.

The heat correcting part 120 is a part for fixing the heat ray 110 so that the predetermined shape of the heat ray 110 can be maintained. The heat shielding unit 120 has a shape of a letter "C" that can be connected to the upper and lower portions of the heat line 110. The connection between the heat shielding unit 120 and the heat line 110 is controlled by an insulator 130 ) Or the like.

The horizontal arm portion 200 includes a horizontal arm 210 extending in the horizontal direction in combination with the thermal fixing portion 120. The horizontal arm 210 has one end connected to the heat fixing part 120 and the other end connected to the vertical arm 310 to connect the heat wire part 100 and the body part 300. [ It is preferable that the heat shielding unit 120, which is coupled with the horizontal arm 210, can be separated if necessary. This is because it is possible to process other types of joining members by replacing the heat fixing unit 120. [

On the other hand, the horizontal arm 210 is preferably provided with a length adjusting means 220 for adjusting the length of the horizontal arm 210. The length adjusting means 220 can adjust the length of the horizontal arm 210 so that the radius of the hot wire 110 rotating around the vertical arm 310 can be adjusted, The curvature of the processed surface of the styrofoam 900 in the transverse direction can be adjusted. That is, it is possible to adjust the curvature of the surface of the engaging member to be processed using the length adjusting means 220 in the left-right direction.

10 is a plan view of a horizontal manufacturing apparatus according to the present invention, for explaining the effect of the length adjusting means.

10 (a), when the length of the horizontal arm 210 is small using the length adjusting means 220, the curvature of the surface X of the styrofoam 900 to be processed is increased in the lateral direction, 10 (b), when the horizontal arm 210 is long, the curvature of the surface Y of the styrofoam 900 in the left-right direction is small. That is, by using the length adjusting means 220, a joining member having various curvatures in the left and right direction can be formed, thereby making it possible to produce a dome house having various radii of curvature.

The length adjusting means 220 is not particularly limited, and any means can be used as long as the length adjusting means 220 can adjust the length. 11, the horizontal arm 210 includes a first horizontal arm 211 connected to the vertical arm 310 and a second horizontal arm 211 connected to the thermal shielding unit 120. As shown in FIG. 11, The length of the entire horizontal arm 210 can be adjusted by adjusting the overlapping length of the first horizontal arm 211 and the second horizontal arm 212 by using the coupling screw 221. [ 11 corresponds to a plan view. In addition, there is a multistage coupling type which is generally applied to an antenna whose length is adjustable, and a fixing screw for fixing can be used.

Further, the horizontal arm 210 may further include height adjusting means 230 for adjusting the height thereof at one or both ends thereof. The height adjusting means 230 may be installed on either side of the vertical arm 310 or the side of the heat shielding portion 120 in the horizontal arm 210 or may be installed on both sides. This is a part for adjusting the height of the horizontal arm 210 or the height of the heat ray unit 100 in consideration of the height of the styrofoam 900 supplied to the horizontal supply unit 500. The height adjusting means may be used as a height adjusting means using a projection and a groove, or as a height adjusting means using a connecting screw. If the height adjusting means can perform a function of simply adjusting the height, There is no. 5 to 8 illustrate a means through which a vertical arm passes through a through-hole of a horizontal arm to adjust its height.

On the other hand, the horizontal arm 210 coupled with the heat ray unit 100 may be provided with a tilt adjusting unit 240 for adjusting the tilt angle of the heat ray unit 100. The inclination adjusting means 240 is a portion for adjusting the angle formed by the heat ray portion 100 and the horizontal arm portion 200. As an example of the inclination adjusting means 240, as shown in FIGS. 5 to 8, a circular plate attached to the end of the horizontal arm 210 and a circular plate attached to the hot-line portion are fixed by using fixing screws, The coupling angles are adjusted and combined.

The body 300 includes a vertical arm 310, a motor 330, a power transmission means (not shown) and a support 340. The vertical arm 310 is coupled to the horizontal arm 210 at right angles, and the vertical arm 310 is rotated right and left within a predetermined angular range. Here, the vertical arm 310 rotates about the center of the horizontal supply part 500, and the horizontal rotation angle of the vertical arm 310 can be adjusted as needed. It is also possible to adjust the rotation angle constantly by installing the limit.

The motor 330 is a part that provides power to rotate the vertical arm 310 in the left and right direction and the power transmission means transmits the rotational force generated by the motor 330 to the vertical arm 310, 310 to rotate left and right. The power transmission means (not shown) may be a variety of gears, poly, chains, and the like.

Meanwhile, the support arm 340 is connected to the vertical arm 310, the motor 330, and the power transmission means (not shown). The support arm 340 is connected to the vertical arm 310 in the vertical direction of the support arm 340 And a rotation shaft 350 protrudes from both sides of the support base 340. The rotary shaft 350 is formed in a direction perpendicular to the direction in which the styrofoam 900 is fed.

The angle adjusting part 400 is a part that adjusts the angle of the body part 300 by being coupled to the rotation shaft 350 protruding from both sides of the support part 340. The angle adjusting unit 400 adjusts the angle of the body 300 so that the angle of the heat ray 110 that is mechanically connected to the body 300 can be adjusted in the vertical direction, The curvature of the coupling member in the vertical direction can be adjusted.

8 shows a case where the body 300 is rotated in a counterclockwise direction using the angle adjusting unit 400. The body 300 is rotated using the angle adjusting unit, Can be adjusted.

12 is a side view of the horizontal manufacturing apparatus according to the present invention, illustrating the role of the angle adjusting unit. In FIG. 12, only the horizontal arm 210 and the hot wire 110 are shown for the convenience of understanding. 12 (a), when the angle adjusting unit 400 is tilted by about 10 degrees from the horizontal, the curvature of the upper and lower parts of the processed coupling member is small. However, when the angle adjusting unit 400 is inclined by about 30 degrees as shown in FIG. The curvature becomes large.

The angle adjuster 400 may be any shape capable of adjusting the angle of the body 300. An example thereof is shown in Figs. As shown in the drawing, the angle adjusting unit 400 includes a rotation plate 410 and a rotation support 420.

The rotation plate 410 is coupled to the rotation axis 350 protruding from both sides of the body 300 and the rotation support 420 supports the rotation plate 410 to support the body 300 as a whole. A through hole (not shown) is formed in the rotary plate 410 and the rotary support 420. The through hole formed in the rotary plate 410 and the rotary support 420 in a state where the body 300 is rotated at a desired angle The screws (not shown) are coupled and fixed.

The horizontal supply part 500 is a device for supplying the styrofoam 900 in the horizontal direction to the hot wire part 100 by being positioned in front of the hot wire part 100. The horizontal supply unit 500 may manually move the styrofoam 900, but may automatically move the styrofoam 900 by a predetermined distance in a predetermined time period.

5 to 8, the horizontal supply unit 500 includes a lower frame 510 on which the styrofoam 900 is mounted and a side frame 520 protruding upward from both sides of the lower frame 510 Lt; / RTI > In this case, a rotary roller 530 may be attached to the lower frame 510 and the side frame 520 for convenience of conveying the styrofoam 900.

On the other hand, in order to automatically supply the styrofoam 900, a moving means (not shown) may be installed to move the styrofoam 900 to the hot-wire 100 by a predetermined distance. An example of a moving means is a conveyor.

Meanwhile, in order to precisely shape a predetermined shape, it is necessary to precisely adjust the distance between the horizontal supply part 500 and the heat ray part 100 and the angle of the three-dimensional shape, The body 300 may be integrally connected to the body 300 by a linkage (not shown).

For example, the horizontal supply part 500 and the rotation support part 420 may be connected to each other, or the upper part of the vertical arm 310 and the upper part of the horizontal supply part 500 may be connected to each other.

On the other hand, a power supply for supplying power to the hot wire may be additionally provided.

The horizontal manufacturing apparatus according to the present invention can adjust the vertical and horizontal curvatures of the joining member by using the length adjusting means 220 and the angle adjusting portion 400 and by changing the heat lines 110, Can be processed.

Next, the vertical manufacturing apparatus will be described.

FIG. 13 is a perspective view of a vertical manufacturing apparatus according to the present invention, FIG. 14 is a side view of a vertical manufacturing apparatus according to the present invention, and FIG. 15 is a plan view of a vertical manufacturing apparatus according to the present invention. 13 to 15, a vertical manufacturing apparatus according to the present invention includes a heat ray unit 100, a horizontal arm unit 200, a body 300, an angle regulating unit 400, a vertical supply unit 500, And a pedestal part 600.

Here, the details of the heat ray unit 100, the horizontal arm unit 200, the body 300, and the angle adjusting unit 400 are the same as those of the above-described horizontal manufacturing apparatus, and a further explanation will be omitted.

The vertical supply unit corresponds to the horizontal supply unit of the horizontal manufacturing apparatus and is a unit for supplying the styrofoam 900 in the vertical direction to the heat ray unit 100 by being positioned in front of the heat ray unit 100. The vertical supply unit 500 may manually move the styrofoam 900, but may automatically move the styrofoam 900 by a predetermined distance in a predetermined time period.

Examples of the vertical supply part 500 may include a lower frame 510 on which the styrofoam 900 is mounted and a side frame 520 protruding upward from both sides of the lower frame 510. In this case, a rotary roller (not shown) may be attached to the lower frame 510 and the side frame 520 for convenience of conveying the styrofoam 900. [

On the other hand, in order to automatically supply the styrofoam 900, a moving means (not shown) may be installed to move the styrofoam 900 to the hot-wire 100 by a predetermined distance.

In addition, the vertical supply part 500 may be provided with moving means such as a wheel or the like at the lower part thereof so as to adjust the distance separated from the body part.

Meanwhile, in order to precisely shape a predetermined shape, the horizontal manufacturing apparatus according to the present invention requires accurate adjustment of the distance between the vertical supply unit 500 and the heat ray unit 100 and the angle of the three- It is preferable that the body 300 is integrally formed to be physically connected to the body 300.

The upper portion of the vertical arm 310 and the upper portion of the vertical supply portion 500 may be connected to each other by a linkage (not shown), for example, the vertical supply portion 500 and the rotation support portion 420 may be connected to each other. .

The pedestal part 600 is attached to the lower part of the body part 300 and the angle adjusting part 400 so that the body part 300 and the angle adjusting part 400 can be located at a considerable height from the ground. The body portion 300 can be positioned at a considerable height from the ground due to the receiving portion 600 and can be inclined at a considerable angle by adjusting the angle adjusting portion 400. [

The rectangular shaped styrofoam is machined on both sides and two sides of the joining member by using the above-described vertical machining apparatus and horizontal machining apparatus, and the side machining apparatus must be machined to process the remaining two side surfaces. 16 is a view for explaining the use of the side processing apparatus according to the present invention. The styrofoam as shown in Fig. 4 (a) is cut with a joining member having a desired size and shape as shown in Fig. 4 (b) by using the horizontal processing apparatus or the vertical processing apparatus described above, Thereby completing the joining member of the type shown in FIG. 4 (c).

Next, a side machining apparatus according to the present invention will be described.

FIG. 17 is a perspective view of a side processing apparatus according to the present invention, FIG. 18 is a side view of a side processing apparatus according to the present invention, and FIG. 19 is a plan view of a side processing apparatus according to the present invention. 17 to 19, the side processing apparatus according to the present invention includes a heat ray unit 100, a horizontal arm unit 200, a body 300, and an angle adjusting unit 700.

Here, the hot wire portion 100, the horizontal arm portion 200, and the body portion 300 are described in detail in the horizontal processing device and the vertical processing device. Therefore, the description thereof will be omitted and only the angle adjusting portion 700 will be described do.

20 is a perspective view of the angle adjusting portion. 20, the angle adjusting unit 700 includes a lower frame 710, a first vertical frame 720, a second vertical frame 730, and a fixing unit 740.

More specifically, a fixing means 740 for fixing the engaging member at a position where the side surface of the engaging member can be machined by the hot wire, a second vertical frame 730 having at least one fixing means fixed thereto, A first vertical frame 720 rotatably coupled to the second vertical frame and a vertical direction relative to the ground, a lower frame 710 rotatably coupled to the first vertical frame and supporting the ground, .

We examine each component separately.

The lower frame 710 is a portion for supporting the angle adjusting portion 700.

The first vertical frame 720 is a frame vertically attached to the center of the lower frame 710, and the first vertical frame 720 is rotatably engaged with the lower frame 710. For this purpose, the first vertical frame 720 and the lower frame 710 may be connected by a circular bay ring. By rotating the first vertical frame 720, it is possible to adjust the left and right angles of the angle adjuster 700 with respect to the body on the ground.

While the second vertical frame 730 is coupled at a central portion of the first vertical frame 720, but also in a rotatable manner. That is, the second vertical frame 730 is rotatably and fixedly coupled to the rotation axis protruding from the first vertical frame 720 on the vertical plane of the paper. For this purpose, the first vertical frame and the second vertical frame are provided with circular rotary plates 721 and 731, respectively, which are rotated and fixed to adjust the angle therebetween.

As a result, by rotating the first vertical frame 720, the left and right angles of the angle adjuster 700 on the ground can be adjusted, and the angle on the vertical plane of the ground can be adjusted by rotating the second vertical frame 730.

Therefore, the side surface of the joining member is processed by using the heat ray while the angle adjusting unit 700 is adjusted according to the shape of the joining member to be processed.

The fixing means 740 is a part for fixing the joining member to be machined to the angle adjusting portion 700. The shape of the joining member 740 is not particularly limited. However, as shown in FIG. 20, It is also possible to manufacture a plurality of units.

Since the side processing apparatus according to the present invention requires precise adjustment of the distance between the angle adjusting unit 700 and the heat ray unit 100 and the angle of the three-dimensional plane in order to accurately process the predetermined shape, May be integrally formed to be physically connected to the body 300.

The upper portion of the vertical arm 310 and the upper portion of the angle adjusting portion 700 may be connected to each other by a linkage (not shown), for example, the angle adjusting portion 700 and the body portion 300 may be connected to each other, It can also be a form.

The side processing apparatus according to the present invention can freely adjust the curvature of the side surface by using the length adjusting means 220 and can also adjust the angle of the first vertical frame 720 and the angle of the first vertical frame 720, And the second vertical frame 730, it is possible to perform lateral machining of the engaging member in a state in which it is adjusted to match the shape of the engaging member to be machined. Therefore, even if only one machine according to the present invention is used, The side surface of the coupling member having a radius can be freely machined.

As described above, since the position of the joining member to be machined can be variously set by using the angle adjusting unit 700, the side machining apparatus according to the present invention can process the side surface of the joining member in accordance with the radius of curvature of both surfaces of the joining member Also, the joining members of various sizes can be machined by using the length adjusting means 220, so that the side surfaces of the joining members having various curvatures constituting the dome house can be processed by only one machine.

As described above, the prefabricated dome house according to the present invention can be simply completed by simply assembling the joining members in the field without the need of providing a separate supporting frame,

In addition, the individual joining members constituting the assembled dome house can be manufactured very efficiently using the horizontal processing apparatus, the vertical processing apparatus, and the side processing apparatus,

Since the joining members having various sizes, shapes and curvatures can be produced by adjusting the horizontal processing apparatus, the vertical processing apparatus and the side processing apparatuses, dome houses of any size and shape can be manufactured.

100:
200: horizontal arm portion
300;
400:
500: horizontal supply unit
600:
700:
900: Styrofoam

Claims (5)

A dome portion at the uppermost portion and a side wall portion coupled to a lower portion of the dome portion,
Wherein the side wall portion is formed by joining a plurality of joining members made of Styrofoam in upper, lower, left, and right sides,
Wherein the engaging member is composed of both sides having a predetermined curvature and four sides around the both sides,
On all the two side surfaces adjacent to each other on the side surface

And the other two side surfaces are formed with grooves corresponding to the projections,
In the lower portion of the dome portion

Shaped projections or grooves are formed,
The joining member having an angle of less than 45 degrees with the ground surface of the joining members constituting the side wall portion is processed by using a vertical manufacturing apparatus,
The vertically-
A heating wire including a heating wire having a shape of the coupling member and a heating and fixing unit for supporting the heating wire;
A horizontal arm portion including a horizontal arm extending in a horizontal direction in association with the hot wire portion;
A vertical arm coupled to the horizontal arm at right angles to rotate the horizontal arm within a predetermined angle range, a motor for rotating the vertical arm, connecting means for connecting the motor and the vertical arm, A body including a support;
An angle adjuster coupled to a rotation shaft protruding from both sides of the support to adjust the angle by rotating the support;
A pedestal portion on which the body and the angle adjuster are seated; And
And a vertical supply part positioned in front of the hot wire part and horizontally supplying styrofoam to the hot wire part. The prefabricated dome house according to claim 1, wherein the side wall portion is vertically coupled with four engagement members from the ground. delete The joining member according to claim 1, wherein a joining member having an angle of 45 degrees or more with respect to a ground surface is used by using a horizontal manufacturing apparatus,
The horizontal production apparatus
A hot wire portion including a hot wire having a shape of a joining member and a heat fixing portion for supporting the hot wire;
A horizontal arm portion including a horizontal arm extending in a horizontal direction in association with the hot wire portion;
A vertical arm coupled to the horizontal arm at right angles to rotate the horizontal arm within a predetermined angle range, a motor for rotating the vertical arm, connecting means for connecting the motor and the vertical arm, A body including a support;
An angle adjuster coupled to a rotation shaft protruding from both sides of the support to adjust the angle by rotating the support; And
And a horizontal supply unit for supplying styrofoam in a horizontal direction to the heat ray unit, the horizontally supplying unit being positioned in front of the heat ray unit. The joining member according to claim 1, wherein a joining member having an angle of less than 45 degrees with the ground surface is formed by using a vertically-fabricating apparatus, and an angle formed between the joining member and the ground surface is 45 degrees or more After the joining member is processed by using the horizontal forming apparatus, the side surface of the joining member processed using the vertical forming apparatus and the horizontal forming apparatus is processed by using the side working apparatus,
The vertically-
A heating wire including a heating wire having a shape of the coupling member and a heating and fixing unit for supporting the heating wire;
A horizontal arm portion including a horizontal arm extending in a horizontal direction in association with the hot wire portion;
A vertical arm coupled to the horizontal arm at right angles to rotate the horizontal arm within a predetermined angle range, a motor for rotating the vertical arm, connecting means for connecting the motor and the vertical arm, A body including a support;
An angle adjuster coupled to a rotation shaft protruding from both sides of the support to adjust the angle by rotating the support;
A pedestal portion on which the body and the angle adjuster are seated; And
And a vertical supply part positioned in front of the hot wire part and supplying the styrofoam in a horizontal direction to the hot wire part,

The horizontal production apparatus
A hot wire portion including a hot wire having a shape of a joining member and a heat fixing portion for supporting the hot wire;
A horizontal arm portion including a horizontal arm extending in a horizontal direction in association with the hot wire portion;
A vertical arm coupled to the horizontal arm at right angles to rotate the horizontal arm within a predetermined angle range, a motor for rotating the vertical arm, connecting means for connecting the motor and the vertical arm, A body including a support;
An angle adjuster coupled to a rotation shaft protruding from both sides of the support to adjust the angle by rotating the support; And
And a horizontal supply unit for supplying styrofoam in a horizontal direction to the hot wire part at the front of the hot wire part,

The side working device
A hot wire portion including a hot wire having a side surface shape of the joining member and a heat shielding portion for supporting the hot wire;
A horizontal arm portion including a horizontal arm extending in a horizontal direction in association with the hot wire portion;
A vertical arm coupled to the horizontal arm at right angles to rotate the horizontal arm within a predetermined angle range, a motor for rotating the vertical arm, connecting means for connecting the motor and the vertical arm, A body including a support;
Fixing means for fixing the engaging member at a position where the side surface of the engaging member can be processed by the hot wire, a second vertical frame having at least one fixing means for fixing the engaging member, a second vertical frame positioned at the rear end of the second vertical frame, A first vertical frame rotatably coupled to the vertical frame in a direction perpendicular to the ground, and a lower frame rotatably coupled with the first vertical frame and serving as a support on the ground, Prefabricated dome house.

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