KR101414790B1 - Hub connector for geodesic dome-shaped house - Google Patents

Abstract

The present invention relates to a hub connector for a geodesic dome house. More specifically, the present invention relates to a hub connector for a geodesic dome house, in which a support wall 103c is attached to an outer side wall 101c of a joint bracket 101 having a coupling hole 102 formed in a longitudinal direction, A pair of side walls 103 are formed outside the wall so as to form a coupling groove 104 between the side walls 103 so as to insert the frame bar 2 and to pass through the through hole 103a formed in the side wall 103, The frame holders 1 are arranged radially in a range of at least four to six, and the joint brackets 101 of all the frame holders 1 are successively superimposed, The height of the sidewall 103 formed in all the frame holders 1 coupled to the joint brackets 101 is set so as to be equal to the height of the joint brackets 101 All formed to be at the same height A plurality of frame holders constituting the hub connector can be freely rotated around the centering axis of the clamping bolt, so that it is possible to prevent the frame bar fixed to the frame holder of the hub connector from being twisted during the construction of the geodetic dome house It has the effect of enabling the precise and robust construction of the geodetic dome house.

Description

[0001] The present invention relates to a connector for a geodesic dome-shaped house,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hub connector for a geodesic dome house, and more particularly, to a frame connector that is fixed to a frame holder by allowing a plurality of frame holders constituting a hub connector to freely rotate with respect to the same center, The present invention relates to a hub connector for a geodesic dome house.

As the construction technology has become more advanced, it becomes possible to make the buildings higher and larger, and various construction methods and structures for building construction have been developed as construction materials, construction technology, construction method, and design technology have become more advanced. One of them, Geodesic Dome Buckminster Fuller, an American designer, has called the old dome designed by a German engineer, Walther Bauersfeld, an official term for the "geodesic dome" after the dome construction method and theories have been elaborated.

These geodesic domes originate 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. As shown in Fig. 1, 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, warehouses but also substitute for small houses for home use or vinyl houses for cultivating crops In fact.

Generally, in order to construct a geodetic dome house, a frame that becomes a skeleton, a hub connector that connects the frame, and a panel that covers the frame are required. Of these, a hub connector plays the most important role. to be.

The hub connector is disposed at each corner of the geodesic dome house to connect the frames forming the framework of the geodesic dome house to each other, with the frames coupled to the hub connector and formed between the frames As the panel joins the surface, the geodetic dome house is completed.

However, due to the structural characteristics of the geodetic dome house, the frame coupled to the hub connector disposed at each corner area is not only coupled with four to eight frames according to the size of the geodesic dome house, but also coupled to the hub connector, Thereby maintaining a constant angle.

That is, in order to construct the geodesic dome shown in FIG. 1, a plurality of hub connectors are required. In this case, as shown in FIG. 2, Type hub connector is required.

However, conventionally, when constructing a geodesic dome house, since the hub connector is kept fixed by making and using the hub connector based on the noon angle or the meat angle, the angle of the frame bar connected to the hub connector can not be adjusted Do.

Therefore, when the geodetic dome house is constructed by using the conventional fixed hub connector, the frame bar connected to the hub connector is distorted due to the angular difference between the hub connectors, so that the structure becomes unstable. There is a gap between the panel and the frame connected to the surface of the geodetic dome house, which causes waterproofness to deteriorate, and various foreign substances are introduced into the geodetic dome house.

In recent years, a technique has been disclosed for a hub connector composed of a plurality of connecting blades, which are arranged and arranged at equal angles on a side surface of a central pillar, extend radially about a central pillar, and are connected to a plurality of frames, respectively , The conventional convenience of the hub connector can be easily assembled by connecting the frame to the connecting wing by bolts. However, since it is impossible to adjust various angles of the hub connector to construct a mathematically correct geodesic dome house, It is not possible to prevent the frame from being twisted and the gap between the frame and the panel to be generated.

1. Patent Publication No. 10-1237900 2. Published patent application No. 10-2012-0134211

SUMMARY OF THE INVENTION It is an object of the present invention to provide a hub connector in which a plurality of frame holders constituting a hub connector can freely rotate with respect to the same center, And to provide a hub connector for a geodesic dome house.

A pair of side walls 103 are formed at regular intervals on the outer longitudinal wall 101c of the joint bracket 101 having the coupling holes 102 formed in the longitudinal direction and the coupling grooves 104 between the both side walls 103 At least four or more frame holders 1 configured to be fixed by fixing means passing through the through hole 103a formed in the side wall 103 by being inserted into the frame bar 2 are arranged radially, The joint brackets 101 are sequentially stacked so that the fastening bolts 3 are passed through the fastening holes 102 formed in all the joint brackets 101 and then fastened with the fastening nuts 4 so that all the frame holders 1 The height of each formed side wall 103 is formed so as to be located at the same height regardless of all the joint brackets 101 installed so as to overlap with each other.

On the other hand, the joint bracket 101 is formed in a " C "-shaped shape to form a coupling hole 102 perpendicularly to the joint upper plate 101a and the joint lower plate 101b, and the joint upper plate 101a, And forming a vertical wall (101c) between the upper wall (101b)

The pair of side walls 103 formed at regular intervals on the outer side wall 101c of the joint bracket 101 form a plurality of slots 103b through which the fixing means for fixing the frame 2 passes ≪ / RTI >

The side wall 103 may include an inclined downward inclination relative to the joint upper plate 101a of the joint bracket 101. [

Since a plurality of frame holders constituting the hub connector can be freely rotated about the center axis of the fastening bolt, it is possible to prevent the frame bar fixed to the frame holder of the hub connector from being distorted during the construction of the geodetic dome house So that a precise and robust construction of the geodetic dome house can be achieved.

In addition, by preventing the frame bar from being warped, it is possible to prevent the generation of clearances between the panel and the frame, which are coupled to the surfaces formed between the frame bars, thereby improving waterproofness and effectively preventing inflow of various foreign substances and inflow of wind or noise And the warmth is also improved.

Further, the structure of the hub connector is simple, and the manufacturing cost is also reduced, thereby reducing the manufacturing cost.

1 is an exemplary view showing a structure of a general geodesic dome house
Fig. 2 is an exemplary view showing the angle of the hub connector necessary for installing the geodetic dome house of Fig. 1
Figure 3 is a perspective view of a preferred embodiment of the present invention.
4 is an exploded perspective view according to a preferred embodiment of the present invention.
5 is a plan view according to a preferred embodiment of the present invention.
6 is a side sectional exemplary view according to a preferred embodiment of the present invention
7 is a plan view illustrating still another embodiment according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

It is to be noted that like elements in the accompanying drawings use the same reference numerals in any of the drawings, and detailed descriptions of well-known functions or known configurations that may unnecessarily obscure the gist of the present invention are omitted. Come on.

As shown in FIGS. 3 to 7, a supporting wall 103c is attached to an outer side wall 101c of a joint bracket 101 having a coupling hole 102 formed in the longitudinal direction, The side wall 103 of the frame bar 2 is formed to form a coupling groove 104 between the side walls 103 to constitute the frame holder 1 so that the connection portion of the frame bar 2 can be inserted and fastened.

At this time, at least four frame holders 1 are arranged radially. Generally, when the geodesic dome house is constructed, as shown in FIG. 2, four to six frame holders 1 are used The number of the frame holders 1 can be adjusted as necessary.

On the other hand, the joint brackets 101 of all the frame holders 1 arranged radially are sequentially stacked so that the fastening bolts 3 are passed through the joint holes 102 formed in all the joint brackets 101, The height of the sidewall 103 formed in each of the frame holders 1 is set so that the height of each of the frame holders 1 is equal to the height of the joint brackets 101 The height of the sidewall 103 formed on the substrate 101 is slightly different.

The joint bracket 101 is formed to have a side shape in the shape of a letter C to form a coupling hole 102 perpendicularly to the joint upper plate 101a and the joint lower plate 101b and the joint upper plate 101a, Not only the strength of the joint bracket 101 coupled by the fastening bolt 3 and the fastening nut 4 can be improved by forming the vertical wall 101c so as to have a predetermined gap between the fastening bolts 3 and the fastening bolts 101b, The load applied to the joint bracket 101 can be sustained during the construction of the dome house.

A pair of side walls 103 are formed outside the support wall by attaching a support wall 103c to the outer side of the outer side wall 101c of the joint bracket 101 to form a coupling groove 104 between the both side walls The frames 2 are inserted into the coupling grooves 104 formed between the side walls 103 by forming a plurality of slots 103b through which fixing means for fixing the frame bars 2 are inserted into the side walls, 3 can be inserted into the slot 103b or put into the through hole 103a so that one end of the frame bar 2 can be easily and firmly coupled to the engaging groove 104. [

According to the preferred embodiment of the present invention thus constructed, as shown in the accompanying drawings, all the frame holders 1 radially arranged with the fastening bolt 3 as a center axis can be rotated around the fastening bolt 3 as a central axis The angles between adjacent frame bars 2 fixed to the respective frame holders 1 can be freely adjusted.

Therefore, when six frame holders 1 are combined, as shown in FIGS. 2 (a), 2 (b) and 2 (c), the six frame bars 2 necessary for constructing the geodesic dome house are connected 2, since the hub connector is adjusted at various angles when the four frame bars 2 are connected as shown in Figs. 2 (e) and 2 (f) It is possible to prevent the frame bar 2 from being twisted due to the angle difference between the hub connectors during the construction of the geodetic dome house.

The side wall 103 is inclined downward with respect to the joint upper plate 101a of the joint bracket 101 so that when the frame bar 2 is engaged with the coupling groove 104 between the side walls 103, The geodetic dome house having the shape of a sphere close to the sphere may be naturally coupled and the angle of inclination of the sidewall 103 is preferably adjusted to 5 to 18 degrees according to the size of the geodetic dome house .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. 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.

1: frame holder 101: joint bracket
101a: joint upper plate 101b: joint lower plate
101c: vertical wall 102: engaging hole
103: side wall 103a: through hole
103b: Long hole 103c: Support wall
104: coupling groove 2: frame
3: fastening bolt 4: fastening nut

Claims (4)

A joint upper plate 101a and a joint lower plate 101b each having an inner end formed in a semicircular shape and having a coupling hole 102 in the longitudinal direction are vertically spaced apart from each other by a predetermined distance and an outer end opposite to the inner end is connected to a vertical wall 101c, Quot;

"A joint bracket 101 constituting a shape,
A support wall 103c attached to the outer surface of the vertical wall 101c of the joint bracket,
A pair of side walls (103) extending in parallel to the direction of protrusion of the joint upper and lower plates at both ends of the support wall and the protrusions being inclined at a predetermined angle from the support wall,
A coupling groove 104 into which the frame bar 2 is inserted between the both side walls 103,
A through hole 103a formed in both side walls and penetrating both side walls,
Four frame holes 103b are formed to be arranged on the outer periphery of the through hole and frame holders 1 each having 4 to 6 sets of frames are formed. Each frame holder has a joint hole 102 formed in a joint bracket, The brackets are superimposed on each other so that the fastening bolts 3 are passed through the fastening holes 102 so that the fastening bolts 3 are radially arranged with the fastening bolts in the center and the fastening nuts 4 are screwed to the lower ends of the fastening bolts. Hub connector for geodesic dome house
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