KR101921633B1 - structure of geodesic dome-shaped house - Google Patents

Abstract

The present invention relates to an angle adjusting device comprising: a connector having a plurality of connectors; an angle disposed between the connectors and having an upper portion opened; a fastening hole connecting the connector and the angle; A cover plate positioned in the space between the angles adjacent to the member, and a finishing panel formed on the bottom of the cover plate and inserted into the coupling groove.

Description

Structure of geodesic dome-shaped house

The present invention relates to a geodesic dome house connecting structure, and is a technology relating to a geodesic dome house connecting structure capable of facilitating the joining structure and external finishing of a joining structure constituting a structure of a geodesic dome house.

Normally, the geodesic dome house is a homogeneous structure, which starts from a regular twenty-sided, dividing 20 triangles of the same size that make up the outer surface of a regular twenty-sided. In this case, each triangle is divided into an odd number or an even number. When the new intersection point generated by the division is arranged according to the sphere, it becomes a vertex of the geodesic dome. Is completed.

This geodesic dome-shaped house is a geodesic dome-shaped house, which can maintain the structure of a large building without a pole, Accordingly, since the natural light can be illuminated in all the inner spaces, it is possible to use not only large buildings such as indoor sports facilities, large theaters, exhibition halls and warehouses but also substitute for small houses for home use or vinyl houses for cultivating crops In fact.

On the other hand, the geodesic dome house is composed of an angle which becomes a skeleton and a connecting section connecting angles, and a finishing panel which covers the space between the angles.

Conventional patent document 1 discloses techniques for connecting a connector and an angle. However, there is a problem that assembly time is long due to a structural limitation such as that a complicated connector and an angle are used.

 Patent Document 2 discloses a method of connecting an angle to a finishing panel. However, there is a disadvantage in that an angle is connected to a connecting port, and a method of inserting a finishing panel into a triangular space between angles is difficult.

KR 10-1414790 B1 KR 10-2012-0112300 A1

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a geodetic dome house connection structure which facilitates the construction of a connection structure constituting a dome structure, I want to do that.

According to an aspect of the present invention, there is provided a connector for a connector, comprising: a connector having a plurality of connectors; an angle disposed between the connectors and having an upper opening; a connector for connecting the connector and the angle; And a closing panel formed of a cover plate positioned in the space between the adjacent angles and an insertion plate inserted into the coupling groove provided at the lower portion of the cover plate.

Wherein the fastener includes a nut projecting from a side surface of the connector, a mounting plate coupled to both ends of the angle, and a bolt connecting to the connector and the angle by fastening the nut to the mounting plate. .

The stationary plate may further include a guide plate on both sides of the stationary plate which is closely attached to the inner surface of the angle and guided by the guide plate.

The connector may include an upper portion having a plurality of triangular unit modules formed continuously along the side surface and having a polygonal structure and having a center upward and an edge downward, a lower portion extending downwardly at a lower edge of the upper portion, A lower portion formed to correspond to a lower portion of the upper portion and a groove connected to an edge between the lower portion and the step portion and having a size corresponding to an end of the angle, And a side surface portion.

And a through hole is formed at the center of the lower portion, and a nut is mounted on the lower portion, and an internal structure is formed by bolt coupling to the nut.

The angle is composed of a horizontal plate, a vertical plate extending vertically on both sides of the horizontal plate, and a bent plate bent downward at an end of the vertical plate to prevent the inner member from being detached.

The inner member is characterized in that silicon is injected between the upper portion of the inner member and the finishing panel coupled to the inner member to be waterproofed.

According to the present invention having the above-described configuration, the following effects can be expected.

In order to construct the dome house, the coupling between the connecting port and the angle can be easily combined by means of a fastener. Also, the finish panel, which is the exterior of the dome house, is composed of a structure that is coupled to the angle by insertion.

1 is a perspective view of a geodetic dome house connection structure according to an embodiment of the present invention;
Fig. 2 is a view showing an example of the installation of the connector of the geodetic dome house connection structure. Fig.
Fig. 3 is a view showing an example of the connection of the geodetic dome house connection structure. Fig.

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

1 is a perspective view of a geodetic dome house connection structure according to an embodiment of the present invention. FIG. 2 is a perspective view illustrating a connection structure of a geodesic dome house connection structure, and FIG. 3 is an exemplary installation view of a connection structure of a geodesic dome house connection structure.

Referring to FIG. 1, the present invention includes a connector 100, an angle 200, a fastener 300, an inner member 400, and a finishing panel 500.

First, the connectors 100 are arranged in such a manner that a plurality of connectors 100 are spaced apart from each other by a predetermined distance in accordance with a dome shape, which is an exterior of a dome house. The connecting member 100 may have a hexagonal shape in FIG. 2 and a pentagonal shape in FIG. 3 depending on the number of the connecting angles 200.

The connector 100 includes an upper portion 120 having a plurality of triangular unit modules formed continuously along the side surface and having a polygonal structure and having a center upward and an inclined downward edge, And a lower portion 160 formed to correspond to a lower portion of the upper portion 120. The lower portion 160 is formed to correspond to the lower portion of the upper portion 120, And a side portion 180 connected to the edge between the step 140 and the lower portion 160 and formed with a groove corresponding to the end of the angle and closely contacted.

The upper portion 120 is formed to be angled by the triangular unit module to reinforce the rigidity by making the connecting portion 100 angular rather than flat. The reason why the connector 100 is rigidly reinforced is that it is connected to the angle 200 and acts on the tension and compression loads. The angled corners and the angles 200 are preferably connected in the same line.

Here, the step 140 serves to support the finishing panel 500, and the side surface portion 180 is in close contact with the angle 200. Here, the side surface portion 180 is formed with a groove in close contact with the angle . The groove is formed in a rectangular shape and is formed to be recessed inward so that a part of the angle 200 is inserted to facilitate the engagement position of the angle 200 in the connection hole 100. [

The lower portion 160 is formed in a shape corresponding to the upper portion 120, and the center of the lower portion 160 is formed as a plane having a through hole, so that a nut 162 (an anchor nut or a hexagon nut) can be mounted. Thus, the inner structure can be connected by being bolted to the lower portion 160. Here, the internal structure can be equipped with a heat insulating material.

The connector 100 can be formed integrally with the upper part 120, the step 140, the lower part, and the side part 180 by a mold by injecting molten liquid by a molding mold.

The angle (200) is a configuration connecting between the connectors (100).

The angle 200 is disposed between the connecting ports 100 to connect the connecting ports 100 adjacent to each other.

That is, the angle 200 may be a U-shaped channel having a bottom horizontal plate and a vertical plate extending perpendicularly to both sides of the horizontal plate and having an inner empty space. The inner member 400 is filled in the angle 200 and then the inner member 400 is moved to the outside by the engagement of the folding plate by forming a folded plate folded inward at the upper end of the vertical plate. It is possible to prevent detachment.

The fastener 300 is a fastening member connecting the connector 100 and the angle 200.

Here, the fastener 300 can be easily fixed using bolts and nuts for fixing the connector 100 and the angle 200 to each other.

More specifically, the fastener 300 includes a long nut 320 protruding from the side surface of the connector 100, a fastening plate 340 coupled to both ends of the fastening plate 300, And a bolt 360 that is respectively installed on the connecting part 100 and the connecting part 100 to connect the connecting part 100 to the angle 200 by fastening with the nut 320.

Here, the nut 320 is protruded from a side portion of the connector 100 with a hexagonal nut having a long length, and slippage can be suppressed by rotating the bolt 360. The nut 320 may be an anchor nut instead of a hexagon nut.

The nuts 320 radially couple the nuts to the forming mold of the connecting port 100 during the injection molding of the connecting port 100 and are coupled to the connecting port 100 to which the nuts 320 are coupled by radiating the connecting port. And a nut coupled to the lower portion may be coupled to the connector 100 in the same manner.

The mounting plate 340 has a hole at the center thereof for allowing the bolt 360 to pass therethrough. The mounting plate 340 is welded to fix both ends of the angle 200.

The mounting plate 340 has a guide plate 342 which is closely attached to both sides of the angle 200 and is guided when inserting the angle plate 200 so that the mounting plate 340 can be easily coupled to the angle 200 Welding is easy.

The inner member 400 is configured to engage the finishing panel 500.

The inner member 400 is provided inside the angle 200 and the coupling groove 420 is formed on the upper portion.

The engaging grooves 420 of the inner member 400 are formed long in the longitudinal direction of the angle 200 and are formed as a pair. The reason for forming the pair is that the finishing panel 500 is coupled to each other at both sides.

It is preferable that the inner member 400 is made of a lightweight material so that the dome house is lighter than the angle 200. In consideration of coupling of the finishing panel 500 to the coupling groove 420, It is preferable to use an elastic resin-based material.

Therefore, the skeleton of the dome house can be formed by the structure of the connector 100, the angle 200, the fastener 300, and the inner member 400.

The finishing panel 500 is a configuration relating to the exterior of the dome house.

The finishing panel 500 may close a space between the adjacent angles 200.

In detail, the finishing panel 500 includes a cover plate 520 positioned in a space between the adjacent angles 200, and a cover plate 520 disposed under the cover plate 520, And an insertion plate 540 which is inserted into the insertion holes 420.

Therefore, the present invention forms the shape by assembling the angle 200 with the fastener 300 to the connector 100, and finally, the finishing panel 500 is easily attached to the inner member 400 included in the angle 200 The dome-shaped house can be easily assembled and closed.

It is preferable that the finishing panel 500 is joined to the finishing material 400 of the angle 200 on both sides, and the finishing panel 500 is finished with silicone to be waterproofed.

As described above, it can be seen that the present invention provides a geodetic dome house connection structure as a basic technical idea, and within the scope of the basic idea of the present invention, Of course, many other variations are possible.

100: connector 120: upper side
140: step portion 160: lower portion
180: side portion 200: angle
300: fastener 320: nut
340: Mounting plate 360: Bolt
400: inner member 420: coupling groove
420: coupling groove 500: finishing panel
520: cover plate 540: insert plate

Claims (7)

A plurality of connection ports,
An angle disposed between the connecting ports and opened at an upper portion thereof,
A fastener for connecting the connector and the angle,
An inner member provided inside the angle and having an engaging groove formed on an upper portion thereof;
And a finishing panel composed of a cover plate positioned in the space between the adjacent angles and an insertion plate provided in the lower portion of the cover plate and inserted into the coupling groove,
The connector includes:
A plurality of triangular unit modules formed continuously along the side surface to form a polygonal structure and having an upper portion whose center is upward and whose edge is inclined downward;
A step portion extending downward along the upper edge portion and having a corner portion of a cover plate of the finishing panel closely attached to the upper portion;
A lower portion corresponding to a lower portion of the upper portion and having a through hole formed at a central portion thereof and having a nut mounted thereon,
And a side surface portion connected to an edge portion between the step portion and the lower portion and formed in a shape in which the groove is recessed inwardly corresponding to the end portion of the angle,
Wherein the angle is connected in the same line as an edge formed by the triangular unit module of the upper part,
Wherein silicon is injected and waterproofed between the upper portion of the inner member and the finishing panel coupled to the inner member. The method according to claim 1,
The fastener includes:
A nut projecting from a side surface of the connector,
A stationary plate coupled to both ends of the angle,
And a bolt that is installed on the mounting plate and connects the connecting portion and the angle by fastening the nut to the connecting portion. 3. The method of claim 2,
The stationary plate,
Further comprising a guide plate on both sides of which is inserted and guided in close contact with the inner side surface of the angle. delete delete The method according to claim 1,
The angle
A vertical plate extending vertically on both sides of the horizontal plate, and a bent plate bent downward at an end of the vertical plate to prevent the inner member from being separated from the vertical plate. Structure. delete

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